4Artisan Scientific - Artisan Technology Group
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1. 1 75 R CONN PLASTIC INSERT 33368 001 1 124 0 CONN PLASTIC INSERT 3336B 1 124 A CONN PLASTIC INSERT 3336B 001 1 135 CONN PLASTIC INSERT 3336B 1 600 1 CONN PLASTIC INSERT 3336B 1 CONNECTOR PWR 28480 i FUSE 1 AMP 250v NB 04703 1 FUSE 5 AMP 250v NB 28480 1 FUSE HOLDER 06328 1 FUSE HOLDER CAP 06328 1 OHM CONN 3336C 28480 1 75 OHM CONN 3336A 28480 1 75 OHM CONN 33364 001 28480 1 75 OHM CONN 33368 28480 1 OHM CONN 33368 001 28480 1 OHM CONN 3336C 28480 2 12 OHM CONN 33368 28480 2 12 OHM CONN 33368 001 28480 1 150 OHM CONN 3336A 28480 2 135 OHM CONN 05057 1 600 OHM CONN 336A 28480 1 600 OHM CONN 28480 12 ADAPTER COAX STR F BNC F RCA PHONO 28480 1 PNL DRESS LWR 3336A 28480 1 PNL DRESS LWR 33368 28480 1 PNL DRESS LWR 33360 28480 1 DIVIDER STRIP 28480 1 PNL DRESS UPR 33 28480 1 PNL ORESS UPR 33368 28480 1 PNL DRESS UPR 3336C 28480 1 FRONT SUB PANEL 28480 1 FRONT FRAME 28480 1 TRIM TOP 28480 4 CORNER STRUT 28480 2 PNL SIDE 28480 2 STRAP HDL CAP FR 28480 2 STRAP HDL 18 IN 28480 2 STRAP HDL CAP R 28480 1 TOP COVER 28480 1 PNL REAR 28480 1 REAR FRAME 28480 1 MAIN FRAME 28480 1 FASTENER 28480 x TRIM SIDE 28480 1 BTM COVER 28480 4 Foor 28480 2 TILT STAND 28480 1 HT SINK ASSY 28480 1 FILTER SCREEN 28480 12. Reference HP Part ic inti Mfr Designation Number Description Mfr Part Number A21 crt 190 DIODEeSeITCMING Joy SOMA 248 00035 28480 1901e0020 cre 19e sanrav OLORE SHITEMING ZOV 50M4 2NS DD IS 28480 190120040 CRI 1901en51 amp a DIODE eSCHOTTKY 26060 190100518 cra a DIODE eSCHOTTKY 28480 190120518 cas 1 OCDE SSHITCHING 30V SOMA 2N8 D0e35 28480 19910040 CR 190200777 5 2 CLOME Z P 4NB25 b 2v 5x DO 7 Pla on 04713 1N825 CRT 19v2 0777 3 DIODEeZMR INA S b 2V 5 007 PDS uw 94713 1N625 HII 196120518 DIODE SCHOTTKY 28480 190160518 cro tovtansik L DIODEeSCrOTTkY 28480 19010518 ERII 1905 ouG46 1 DIONESSAITCHING Jov SOMA 2NS 00035 28480 190120040 cri2 19etegnsy 1 OJODESSMITCHING Jav SOMA 2NS 00e35 28480 190100040 HI 19t Lwvwan 1 OIOOESSAITCHING ZOV SOMA 2NS D0e35 28480 190160040 CAIS 190 tapeai 1 DION SMITCHING Jov SOMA 2NS DO IS 28480 190190040 cri 190203954 s 1 OTODE ZMR 3 05y 5 DUWIS PDs u 28480 190283050 CRIB 19 02e6Cbu i 2 DIODESZNE 7 5 5 DOe3S POs 44 TCRe 051 26080 1902 0004 CRIO 1902e9088 1 DIODEQZNP 7 5V 54 DO 35 POs uM TCas 05 26480 1902 0004 cR v 19rtavuan 1 DIGODESSAITCHING Jay SOMA 2N 00035 28uBy 190t wonuo RIJI 190203330 7 1 DIOD RZNR 3 01v 54 0OS7 POS 4n TCae 067 28480 1902 3030 CALDI 190150515 8 DIUOE SCHOJTKY 26480 190140518 CR162 1901 0040 1 1 DIODE SWG 30v 2PF 20v 28480 1901 0040 mm 190105515 DIGNE SC
3. 4 27 Harmonic Distortion 4 28 This performance test verifies that the hp 3336 meets the Harmonic Distortion specification listed in Table 4 1 Specification 10Hz 30Hz 50Hz 10kHz 100kHz 1MHz 5MHz 20 9MHz Fast Leveling OFF Esos eoim ssap sop Fast Leveling ON Required Equipment Spectrum Analyzer low frequency hp Model 3580A Spectrum Analyzer high frequency hp Model 141T 8552B 8553B 50 ohm Feedthru Termination hp Model 11048C 50 75 ohm Minimum Loss Impedance Matching Pad hp Model 85428B 4 28 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests NOTE When making harmonic distortion measurements with a spec trum analyzer make sure that the analyzer s harmonic distor tion does not mask the distortion of the device under test One technique to ensure this is to increase the analyzer s input at tenuation which results in lower signal levels at the analyzer s input This yields better intermodulation and harmonic distor tion performance Adjust the analyzer s reference level controls to obtain the proper display For good harmonic distortion performance in the hp Model 141T 8552B 8553B the signal level at its mixer must be less than 40 dBm If you are using this analyzer set its input attenuation to 40dB a This test will require two different setups one for
4. Normal Input Sensitivity initially IV Input 3581 Canin akeyan iii pale zajele epika Unbalanced AFPQ dg a reden bej ja OUT Tune Freguency to 8 kHz J OE O REV TAM Push IN after Tuning to 8 kHz 4 18 Artisan Scientific Ouality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C VNVNVA vag 0i wy ET GILIWLIOA 20 JOLTIT 318V273 o NALNO SEXY A Qinani Z 1h UJIZATVNV JAVA NOTLVNIHMJI NYHLOJIJ WHO OS JOLITE 3080 L tw 2NB GL 4 JING 9S Ni Andino x ANNI 01 naNI sni inaina WHO OS tw ING OL l N Jdal HHS 65 AA HJI dI IgkY GPO2 mi A ddhS UJMOd IG UIZISJHINAS JINIYIJIY 2 a OND 01 1i OND HHG US H YOLVANZLLY SPOT SO01VnN3liV dJ1S JINIYIJIY Za NN YN ava sso NIH v i LAA 913801 OLVANJLIY APOT WHO US 01 S4 E MKO SL Andino Q ceeer kre USL coerce man merce le free XXXII ina JEFE Ay 4 19 Figure 4 4 Eguipment Set Up for Attenuator Accuracy Test Guaranteed 888 88 SOURCE www artisan scientific com Artisan Scientific Quality Instrumentation Performance Tests Model 3336A B C 4 20 REFERENCE SYNTHESIZER hp MIOTOB
5. eee eh Off AMPLITUDE MODULATION eee eee ees Off FAST EEVELING kai ood aran de D Off NOTE If the instrument displays OSC FAIL the frequency synthesis circuits are not operating properly Refer the instrument to qualified service personnel for repair 3 12 FRONT PANEL SIGNAL OUTPUTS A 3 4 The maximum peak voltage that can be safely applied between the chassis and the outer conductor of any input or output is 42 volts Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3 13 The Model 3336 is manufactured as one of three models identified by the letters A B or C following the model number The difference between models is the configuration of the front panel outputs The outputs on each model are Model 3336A 3336A with Option 001 3336B 3336B with Option 001 3336C 3 14 Frequency Limits Outputs 75 ohm unbal 150 ohm bal 600 ohm bal 75 ohm unbal 150 ohm bal 600 ohm bal 75 ohm unbal 124 ohm bal 135 ohm bal 600 ohm bal 75 ohm unbal 124 ohm bal 135 ohm bal 600 ohm bal 50 ohm unbal 75 ohm unbal Accepts Connector Type 75 ohm BNC Siemens type 9REL STP 6AC Siemens type 9REL STP 6AC Siemens type 1 6 5mm coaxial Siemens type 9REL STP 6AC Siemens type 9REL STP 6AC WECO type 439A or 440A WECO type 443A WECO type 241A WECO type 310 WECO type 3
6. 3336 amplitude flatness 4 18 Attenuator Accuracy Verification 4 19 This performance test verifies that the hp 3336 meets the attenuator accuracy specification listed in Table 4 1 using a put and take measurement system at four at tenuator settings and three test frequencies It is preferred that this test be performed in a screen room If one is not available an electrically clean environment is a must It is im portant that the specified cables be used and that the test equipment be arranged as il lustrated Failure to follow the test procedures explicitly can result in erroneous data NOTE A certification program is available to verify the 3336 attenuator specifications To recertify the attenuator must be returned to Hewlett Packard The recertified attenuator will be returned with the results of each attenuation setting Contact your nearest Hewlett Packard Sales Office for further details A list of these of Jices is provided at the back of this manual Required Equipment Attenuator 10 dB 20 dB 40 dB 70 dB attenuations with Certification hp Model 355D 2 10 dB 50 ohm Coaxial Attenuators hp Model 8491A Option 010 75 ohm to 50 ohm Minimum Loss Impedance Matching Pad hp Model 85428B 50 ohm Feedthru Termination hp Model 11048C Mixer hp Model 10514A Synthesizer hp Model 3325A Wave Analyzer hp Model 3581A C DC Voltmeter hp Model 3455A DC Power Supply hp Model 6214A 20 dB Ampli
7. Figure 2 3 Rack Mount and Handle Kits 2 7 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C 3 1 INTRODUCTION SECTION Ill OPERATION Operation 3 2 This section has operating and programming instructions for the hp Model 3336 Syn thesizer Level Generator This section includes Descriptions of the controls annunciators and input output connectors Power and warm up requirements Manual and remote programming instructions Operator verification procedures Operator maintenance procedures 3 3 The Table of Contents for this section is organized by subject for quick access to specific operating information 3 4 PANEL FEATURES 3 5 Figure 3 1 is a picture of the instrument with a brief description of all the controls an nunciators and input output connectors A paragraph number where more detailed infor mation about each feature is located is supplied with each caption Paragraph Page 3 4 Panel Features ki divan saa ee aaa 3 1 3 6 Power Requirements 3 4 3 8 Matni up a icr sikti ones ttd 3 4 3 10 Initial Turn On Conditions 3 4 3 12 Front Panel Signal Outputs 3 20 Sync Output 323 Ext Ref Input c00ceeacecccsevesny 3 25 10 MHz Oven Output Option 004
8. Table 6 3 Replaceable Parts Reference r f Designation Description Mfr Part Number Audi Jis 125102969 a CO NECTORePHONO SINGLE PHONO JACK DIP 28480 125102969 AJI 1251 6505 1 1 CONNECTOR 19 PIN M POST TYPE 28480 1251 4594 Auding 1251 2969 s CONNECTOR PHONG SINGLE PROSO JACKS DIP 28480 125102969 AuJin2 12512962 8 COMWECTORePMONC SINGLE PHONO JACKy DIP 28480 125102969 Audios 125102969 8 COM NECTORePNONO SINGLE PHONO JACKI DIP 28480 125192969 auJ nt 125107969 A CONNECTORSPHONG SINGLE PHONO Jacky DIP 28480 125122969 Audana 125102969 a ZONNECTORePMOND SINGLE PHONO JACK DIP 28480 125102969 445203 1251 4822 1 3 PIN CONN 28480 1251 4822 Auk2nt 009524137 5 1 RELAYeREED 14 Sog WA 200VAC SVDC CDIL 28480 009024137 Auli 919082207 s 1 COTLeMLD 1005H Ox Ge3d 095DX 2SLGeNOM 28480 910002247 Aulas 9100 305A 1 a CHOKE WIDE BAND 28480 910003058 AuL27 9106 3058 1 CHOKE IDE BAND 28480 910023458 sul76 8100e3458 i CHOKE WIDE BANN 28480 910003458 kal77 9100e3058 1 CHOKE wIOE BAND 28480 910003458 kol 7A 910061458 l CHOKE IDE BAND 28480 910003458 kaltot 910002486 3 1 COTLeMLO 330NM 5X QE45 156Dx 37SLGeNOM 2848 9100 2486 hulina 8146 0348 6 1 COTLeMLD 360NH Sx Gwab 155Dx 37 5L Ge NOV 28480 9140 0348 saltni 914900265 6 2 COILeMLO 1 6UH 5X GW33 155DX 37SLGeNOV 28480 9140 0265 AuLtou 914000265 6 COTLeMLD 1 6UM SY 9633 1550x 375LGeNOM 28480 914000265 Aul yas 2109 3456 1 CHOKE WIDE BAN
9. iiscescaus e aka RR ds 4 7 00 dBm c Set the 3336 DUT controls as follows FREQUENCY cras ok avi says ia tata Ger a e uoi 20 MHz AMPLITUDE visno o e n ka KR RUE 2 7 dBm 75 ohm d Record the ac voltmeter reading using the dB scale Vref e Change the reference synthesizer s frequency to 20 MHz f Disconnect the ac voltmeter and connect the dc voltmeter in its place g Modify the phase of the 3336 s output using the Tuning control in the Modify group until the dc voltmeter reads 0 V 10 mV h Disconnect the dc voltmeter and reconnect the ac voltmeter i Record the ac voltmeter reading using the dB scale Vnoise 4 39 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C j Using the following formula compute the integrated phase noise of the 3336 Vref Vnoise 1 05 dB 3 dB integrated phase noise NOTE Subtract the 1 05 dB term in the formula above only if you are using an averaging voltmeter Do not subtract 1 05 dB if you are using a true rms meter k Enter the result in the Performance Test Record and compare it to the specification gt 60 dB Ap 3336 AC VOLTMETER mr d a 22222 O E ee ee Air ELE ur EXT REF IN FEEDTHRU TERMINATION DC VOLTMETER Figure 4 14 Integrated Phase Noise Equipment Set Up Artisan Scientific Q
10. 3 7 329 Ref Quiptt inet konta 3 7 3 31 Manual Programming 3 7 3 36 Programming Errors 3 8 3 45 21 60 MHz Output 3 9 3 49 Amplitude Leveling 3 9 3 55 Amplitude Blanking 3 10 3 60 Frequency Sweep 3 11 3 85 Amplitude Modulation 3 15 3 90 Phase Modulation 3 15 3 94 Operting State Storage 3 15 3 97 Operator Maintenance 3 16 3 103 Remote Operation 3 16 APPENDICES Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com A Detailed Implementation of Bus Messages B hp 3336A B C Programming Times C hp 9825A Bus Message Implementation Table 3 1 Operation 3 2 Model 3336A B C STATUS RID D NTHESTZER LEVEL SENERATOR H m QE MULTI E fen 700 Fas 853 DATA or output E pe aa ans AN POWER Switch Applies power to the instrument in ON position In STBY standby applies power to the High Stability Frequency Option option 004 maintaining the instrument in a ready state Paragraph 3 6 BLUE Shift Key Causes some keys to change to secon dary functions printed in blue The front panel shifts back to prim
11. hp Part No 0698 4086 hp Part No 0698 7469 hp Part No 0698 8558 hp Part No 0698 4375 hp Part No 0698 4405 hp Part No 0757 0710 hp Part No 0698 3132 hp Part No 0698 4096 hp Part No O698 6982 hp Model 11048C hp Model 110948 hp Part No 0698 6284 hp Part No 0698 5197 hp Part No 0757 0715 hp Part No 0698 5405 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C INSTRUMENT General Information Table 1 2 Recommended Equipment List Cont d CRITICAL SPECIFICATION REQUIRED FOR RECOMMENDED MODEL Balanced Directional Couplers DC Power Supply Double Balanced Mixer Attenuators Spectrum Analyzer Thermal Converter Oscilloscope Function Generator ac Voltmeter 124 ohm Frequency Range O1 to 10 9 MHz Directivity 40 dB 150 ohm Frequency Range 01 to 20 9 MHz Directivity gt 40 dB Output Voltage Output Current 20 mA Input Output Z 50 ohm Frequency Range 1 to 20 9 MHz Attenuation 10 dB fixed VSWR x 1 02 dc to 20 9 MHz Input Output Z 50 ohms Attenuation O to 70 dB Attenuation Step Size 10 dB Input Output Z 50 ohm Certification required at 1 MHz 10 MHz 20 9 MHz Frequency Range 1 to 100 MHz Amplitude Accuracy 1 dB Harmonic Distortion 65 dBc Spurious lt 70 dBc Frequency Range 10 Hz to 50 kHz Amplitude Accuracy 1
12. 000 REAR 21 60 MHz OUTPUT Annunciator Lit when the 21 60 MHz OUTPUT is activated Output is activated by programming frequencies gt 21 MHz and deac tivated by programming frequencies lt 20 MHz Paragraph 3 45 SYNC Output Supplies a TTL level square wave into 50 ohms to synchronize other instruments to the Main Signal Outputs Paragraph 3 20 EXT REF Input Allows the instrument s internal oscillator to phase lock to an external frequency stan dard Paragraph 3 23 Input Level Input Frequency Oto 20 dBm 50 ohm within part per million of 10 MHz or a subharmonic of 10 MHz to 1 MHz 10 MHz OVEN Output Option 004 instruments only Output signal from a temperature stabilized crystal oscillator Connects to the instrument with a special BNC to BNC adapter hp part number 1250 1499 to the EXT REF Input Paragraph 3 23 1 MHz REF Output 1 MHz square wave derived from the instrument s reference oscillator to phase lock the reference oscillator of another instrument to the Modet 3336 Paragraph 3 29 PHASE MOD Input Input for phase modulating signal Paragraph 3 90 AMPTD MOD Input Input for amplitude modulating signal Paragraph 3 85 EXT LEVEL Input Input from an external leveling voltage source to regulate the signal amplitude at a remote point Paragraph 3 53 LEAVE DISCONNECTED UNLESS EXTERNAL LEVELING Figure 3 1 Panel Features Cont d Artisan Scientific Quality Instrumentatio
13. To halt all activity and return bus control to the system controller BUS MANAGEMENT LINES ATN IFC SRQ REN EOI x T x x X Only the system controller has this capability Figure 3 A 12 Abort lO A 8 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A 3 A 4 Handshake 3 A 5 Every character on the Data Lines is asynchronously transferred among various devices using a three wire handshake technique This technique coordinates the transfer by communicating the status of the transfer to the active controller talker and listener The speed of the transfer is determined by the slowest device involved in the transfer and therefore insures that data is not lost 3 A 6 Figures 3 A 13 and 3 A 14 are presentations of the Handshake sequence Hand shake Lines NRFD and NDAC are controlled by the listener The Data Lines and Hand shake Line DAV are controlled by the talker A 9 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A Source Operation Acceptor Operation Ser NREQ amp P NDAC Low Are Both NRED amp NDAC Able to Handshaxe amp Respond to Data if Accepted Error Condition T A TIO Put or Change Data on DIO Lines Resdy To Accept Data Delay for Lines to YES XN put SE Cg
14. e see Looking for more information 4 Artisan Scientific Visit us on the web at http www artisan scientific com for more information QUALITY INSTRUMENTATION GUARANTEED Price Quotations Drivers Technical Specifications Manuals and Documentation Artisan Scientific is Your Source for Quality New and Certified Used Pre owned Equipment Tens of Thousands of In Stock Items Fast Shipping and Delivery Equipment Demos Hundreds of Manufacturers Supported Leasing Monthly Rentals Consignment Service Center Repairs InstraView Remote Inspection Experienced Engineers and Technicians on staff in our Remotely inspect equipment before purchasing with our State of the art Full Service In House Service Center Facility Innovative InstraView website at http www instraview com We buy used eguipment We also offer credit for Buy Backs and Trade lns Sell your excess underutilized and idle used equipment Contact one of our Customer Service Representatives todayl Talk to a live person 888 88 SOURCE 888 887 6872 Contact us by email sales artisan scientific com Visit our website http www artisan scientific com Errata Title amp Document Type 3336A B C Synthesizer Level Generator Service Manual Manual Part Number 03336 90001 Revision Date June 1983 HP References in this Manual This manual may contain references to HP or Hewlett Packard Please note that Hewlett Packard s former test and measurement semiconduct
15. xA NETAORKSRES 9e3IP4 7X UMM X A 1 NETWDRKSRES bwglPIO ox OHY x 5 NETWORKSRES Se8IPI0 0K OHM x 8 RESISTOR 1 5 5 amp Pw TCa0eel5o 28480 28430 28480 gaas 28480 28480 28480 56289 26480 28480 28085 Z84RN 28480 28480 28480 28480 28480 28480 28480 28480 28480 26480 28480 28480 28480 28480 26080 28480 28480 28480 28489 28480 28480 28480 28480 28460 26480 26480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 ori otii o1i t otii oes um oti t 01121 28480 nitet 01121 oneal olii ant t tat otii ater 1637 31837 28480 28480 75042 See introduction to this section for ordering information Indicates factory selected value 016001847 016023847 nl amp neuna2 Olecesaay 016093847 Ol6O 4BTI 01603847 150D156x902082 508264658 508204658 5082 4658 SUBZ 4658 508204658 3082 4058 5082 0558 5082 4656 508264658 5082 4658 5082 4658 504204658 508204658 508204658 S0BZ anA4 SOB eG6BU 199020665 1990 0665 1990 0665 1990 0665 1990 0665 199020665 199120665 199020665 1990 0665 199020665 199020665 409020665 199020665 1990 0665 199020665 03582 61620 1251 5041 910023334 185320016 185320016 185320016 185320016 185300016 1853 nn16 185390016 185320016 CB2205 CB2205 cB2205 ca2205 t8z205 tB2205 t32205 CB2205 0757 0280 t81325 CB1325 taiy s C81325 c81325
16. 016023558 Autas 180 0210 aucug 018021748 A4C50 0160 0576 A 4C65 0160 0640 A4C66 0160 5335 Aut 016003847 A4CI 016023847 Aution 0140 0196 Autio 01400191 AuC103 018023878 A4C105 0160 4640 A4 I06 016023558 0160 4640 01860 3878 A4C107 AuC1oB AuC109 0121 0451 AuC110 0160 0127 AUCI111 018020374 AuCit 0160 0127 Auty 018070374 aulCit4 016023558 44C115 018023558 AuC116 0186023558 AuCIIT 0186023558 AuC118 016082252 A4C119 0160 4640 A4C120 0160 4640 AuC12t 016003558 LOTET 016023558 4uC123 016023558 AuCi2u 016023558 A4C125 0160 4640 AulCt b 016020570 A4C127 0140 0193 A4C127 0160 2203 AuCt g 0160 3557 AuC130 016023558 AUCI31 016023558 AuC112 0180 1835 AuC133 0186023558 Aul1tz4 016023558 AuC135 016023558 Aul 136 016003558 Aul137 016003558 AuC13A 0185023558 e NOUS O w wweoo JARS 200009 200 44 AS Dwu Nono woo anwo 220020w SO 0900ooo0v920 SGONNA Tahle 6 3 Replaceable Parts CAPACITOR FxD CAPACITOR FXD CAPACITOR FxD CAPACITOR FxD CAPACITOR FXD CAPACITOR FXD CAPACTTOR FXD CAPACITOR FxD CAPACI TOR FXD CAPACTTOR FXD CAPACI TOR FXO CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXO CAPACTTOR F XD CAPACTTOR FXD CAPACTTDR FXD CAPACITOR FXD CAPACITOR F XD CAPACITOR FXD CAPACITOR FD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITOR F
17. 1818 1110 1 1 IC MEMORY ROM 28480 1818 1109 8 1 IC MEMORY ROM 28480 1818 1112 3 1 IC MEMORY ROM 28480 182001197 9 8 IC GATE TTL L8 NAND QUAD 2eINP 01295 1816900438 a 1 IC NMOS AK RAV STAT 45yans jes 01295 182001195 7 3 IC FF TTL LS DeTYPE POSLEDGESTRIG COM 01295 1825 0180 9 1 IC TIMER TTL MQNO ASTBL 04713 182041691 a 1 IC MICPROC NYDS 28480 1820 1759 9 b IC BFR TTL L8 NONeINV OCTL 27014 181860199 4 2 IC NMOS IK RAM STAT 5008S 34335 1818 0199 4 TC NMOS 1X RAM STAT 500eN8 34335 1820 1195 7 IC FF TTL LS DeTYPE POSWENGESTRIG COM 01295 1820 1196 8 1 IC FF TTL L8 DeTYPE POBSEDGESTRIG COM 91295 182000174 0 1 IC INy TTL HEX 01295 1820 1216 3 3 IC OCOR TTL LS YeTOe8eLINE 3eINP 01295 182001216 3 TC OCOR TTL L8 JeTO BeLINE 3mINP 01295 1820 0683 6 1 e SN74SO4N 28480 12001759 9 AFR TTL L9 NONSINY OCTL 27014 182051190 5 ic CNTR TTL LS BIN UP DO N SYNCHRO 01295 1820 1194 b IC CNTR TTL L8 AIN UP ODAN SYNCHRO 01295 182081759 9 IC AFR TTL LB NONSINV OCTL 27014 1820 1197 9 IC GATE TTL LS NAND QUAD 2eINP 01295 1820 1208 3 2 IC GATE TTL LS OR QUAD 2e1NP 01295 1A200121 3 IC OCDR TTL LS 3 TOeBeLINE 3 I P n1295 1820 1759 9 TC BFR TTL LS NONSINY OCTL atas4 182001736 6 2 IC FF TTL LS DeTyPE POS EOGE TRIG CO 01295 1820 1759 s IC BFR TTL LS NONSINV OCTL 27014 182091033 6 1 IC SHFOPGTR TTL L 8 8 SERIALMIN PaL DuT 1295 1880 1197 9 IC GATE TTL L8 NAND QUAD 2erip 01295 182091208 A IC GATE TTL LS OR QUAD 2e rP 01295 182051195 IC FF TTL L8 O Tv5E POS EDGE TRIG COY
18. 4 required hp Part No 0698 6774 2 required hp Model 3455A Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests NOTE Directional Bridges are also part of Transmission Reflection Kits 50 ohm Transmission Reflection Kit hp Model 11652A 75 ohm Transmission Reflection Kit hp Model 11652A Model 3336A B C a Connect the equipment as shown in Figure 4 7 Use the appropriate impedance Direc tional Coupler and Termination for the output under test For example to test the 124 ohm output use the 124 ohm Directional Coupler and 124 ohm Termination Resistors To test the 75 ohm output use the 75 ohm Direction Coupler and 75 ohm Feedthru Terminations NOTE Make sure the frequency references of the synthesizer and the 3336 DUT are locked together b Set the 3336 DUT output amplitude to maximum 50 ohm 8 76 dBm 75 ohm 7 00 dBm 124 ohm 1 76 dBm 150 ohm 1 76 dBm c Set the 3336 DUT output frequency to one of the following test frequencies 50 ohm 100kHz IMHz 10MHz 20 9MHz 75 ohm 100kHz IMHz 10MHz 20 9MHz 124 ohm 100kHz 1MHz 10 9MHz 150 ohm 100kHz 1MHz 2 00MHz d Turn Fast Leveling ON This test will not produce valid results if Fast Leveling is OFF e Set the reference synthesizer s output amplitude to 10 dBm for all test setups except when testing the 3336 s 75 ohm output Set
19. 72 99 to 7 00 dBm 72 99 to 7 00 dBm 78 23 to 1 76 dBm 78 23 to 1 76 dBm 72 99 to 7 00 dBm 71 23 to 8 76 dBm 72 99 to 7 00 dBm Absolute Accuracy specified at 10 kHz for the 50 75 and 600 ohm outputs specified at 50 kHz for the 124 135 and 150 ohm outputs t O5 dB for the top 9 99 dB of amplitude range 20 to 30 C O8 dB for the top 9 99 dB of amplitude range O to 55 C Flatness referenced to amplitudes at 10 kHz for the 50 75 and 600 ohm outputs referenced to amplitudes at 50 kHz for the 124 135 and 150 ohm outputs Model 3336A 75 ohm output 150 ohm output 600 ohm output Model 3336B 75 ohm output 124 ohm output 135 ohm output 600 ohm output Model 3336C 50 and 75 ohm outputs 10K 50K 109K 2 09M 20 9M 1 dB 07 dB with Option 005 10 200 10 50K 109K 2 09M 10 9M 20 9M 1dB 07 dB with Option 005 t 15dB 1aB 12 dB Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C General Information Table 1 1 Specifications and General Information Cont d Attenuator Accuracy instruments without Option 005 Attenuation 10Hz 10 to 19 99 dB 20 to 39 99 dB 40 to 79 99 dB NOTE Amplitude Accuracy is the sum of Absolute Accuracy and as needed Flatness and Attenuator Accuracy Warm Up Time 30 minutes MAIN SIGNAL OUTPUTS On Carrier Return Loss Model 3336A 10 9M 7
20. A802 1853 0419 5 TRANSISTOR PNP 1 Pi Fre200MHzZ 254403 Andy 125352419 5 TRANSISTOR PAP BI P nOMKZ 2NGUOS 4404 1853 0419 5 TRANSISTOR PAP 8I P FTu200MH2 2Nudos Opa 3e1 028 9 RESISTOR 1K SX 254 TCw 200 600 CB1025 ASR2 623 2025 1 RESISTOR 2X SX 254 400 750 C82025 san AS02928 1 RESISTOR 2K SY 28a ied00 700 C82025 ARR D623 1025 s RESISTOR 1K SY 25x FC TCwwaonse6a0 CBt025 0686 3305 8 RESISTOR 33 5 0686 3305 n6Aye1025 9 RESISTOR 1X 5X 254 81025 AART 0683 2025 1 RESISTOR 2K SY 25 40070700 C82025 ABRB 0757 0443 0 1 RESISTOR 11K 1 125W 0757 0443 ABR8 0698 3359 T 1 RESISTOR 12 7K 1 125W 0698 3359 ABR8 0698 3156 2 1 RESISTOR 14 7K 1 125W 0698 3156 ABRB 0698 4482 9 1 RESISTOR 17 4K 1 125W 0698 4482 ABRB 0757 0199 3 1 RESISTOR 21 5K 1 125W 0757 0199 ABRB 0698 4488 5 1 RESISTOR 26 7 1 125W 0698 4488 ABRB 0757 0123 3 1 RESISTOR 34 8K 1 125W 0757 0123 85 ne 3e1n25 9 RESISTOR 1K SY 28w FC TCue40o 600 C81025 ABR10 0686 3305 8 RESISTOR 33 5 0686 3305 SASLI 506049508 2 LATCH ASSEMBLY 506099598 KA LA Sn amp negsoa 2 LATCM ASSEMBLY 5060 9598 MECHANICAL PARTS ABUL 22 J3 1250 1586 CONNECTOR SMA 28480 1250 1486 ABMP1 03335 89512 1 CONTACT INPUT 28480 03335 89512 ABMP2 03335 89515 3 CONTACT PASS THRU 28480 03335 89515 A8MP3 03335 89514 CONTACT CROSSOVER 03335 89515 ABMPU 03555 89513 2 CONTACT BYPASS 03335 89515 ABMPS 03335 89511 1 CONTACT 50 OHM OUT 28480 03335 89511 ABMP 8160 0256 8 FUZZ BUTTON 28480 8160 025
21. After receiving ITI the hp 3336 will send the time in seconds for matted as follows TI 000000DD DDD SE CR LF amp EOI h Output Impedance After receiving IOI the hp 3336 will send a digit indicating which output is active formatted as follows IO D CR LF amp EOI The digit D returned varies with the instrument model 3336A 75 ohm D 150 ohm D 600 ohm D Wou wu N Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3336B 75 ohm D 1 124 ohm D 2 135 ohm D 3 600 ohm D 4 3336C 50 ohm D 1 75 ohm D 2 i Programming Errors After receiving IER the hp 3336 will send a digit indicating the type of programming error formated as follows ER D CR LF amp EOI The digit D has the following definitions l Entry parameter data is absolutely out of bounds 2 Invalid units 4 Sweep time too small 6 Sweep bandwidth too small Start freguency too small log sweep Start freguency is greater than stop freguency log sweep 7 Unrecognizable program code received from HP IB 8 Unrecognizable character received 9 lt Option does nat exist 0 lt No error has occured since the last time errors were interrogated j Sweep Mode After receiving ISM the hp 3336 will send the digit 1 or 2 indicating the sweep mode is linear 1 or logarithmic 2 formatted as follows SM D CR LF amp EOI k Amplitu
22. Balancing Transformers 11474A 2 135 Q Balanced WECO 241 to 75 Q Unbalanced BNC Balancing Transformers 11475A 2 150 Q Balanced Siemens 9REL STP 6AC to 75 Q Unbalanced BNC Balancing Transformers 11476A 2 124 Q Balanced WECO 408A to 75 Q Unbalanced BNC Balancing Transformers 5061 0743 Telephone connector adapter kit adapters convert all 3336B output to BNC f 1 21 RECOMMENDED TEST EQUIPMENT 1 22 Equipment required to maintain the Model 3336A B C is listed in Table 1 2 Other equipment may be substituted if it meets or exceeds the critical specifications listed in the table Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C General Information Table 1 2 Recommended Equipment List INSTRUMENT CRITICAL SPECIFICATION REQUIRED FOR RECOMMENDED MODEL V Oper Ver P Performance Test T Troubleshooting A Adjustments Electronic Counter Frequency Measurements V PLA hp Model 5328A with Options 010 and Range to 20 9 MHz 040 or 041 Resolution 8 digits Accuracy 1 part 109 Time Interval Average Resolution 1 ns Digital Voltmeter de Function F hp Model 3466A Ranges 1V 1V 10V 100V Accuracy 2 Resolution 4 digits ac Function Ranges 1V 10V 100V Accuracy 5 Resolution 4 digits de function V P A hp Model 3455A with Option 001 Ranges 1V 1V 10V 100V Ave
23. CB1325 C81325 tB81325 CSPOBLOT 4TZ2J CSPORLoJeuTZJ 181020135 181520055 Bn2De Lo IROSJ Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts don Description Mfr Part Number PUSHBUTTON SWITCH MOUNT 28480 506079436 PUSMBUTTON SWITCH MOUNT 28480 5060 9236 PUSMBUTTON BWITCH MOUNT 2euso 5060 9236 PUSHBUTTON SAITCM MOUNT 28480 506099036 PUSHBUTTON SWITCH MOUNT 28480 5060 9236 asa ny 5060 9435 LEEDI 5060 9436 45843 506069436 ASS wa 5060 9536 ASSNS 506009436 22222 PUSHBUTTON SWITCH MOUNT 28480 5060 9036 PUSHBUTTON Switch OUNT 293480 5060 9236 PUSHBUTTON SWITCH MOUNT 28480 5060 9436 PUSHBUTTON SWITCH MOUNT 23480 506 9036 PUSHBUTTON SWITCH MOUNT 28480 5060 9436 Asano 5060 9436 A587 5060 9436 45840 5060 9236 A589 5060 9436 458410 50609436 PUSHBUTTON SWITCH MOUNT 28480 5060 9236 PUSHBUTTON SWITCH MOUNT 28480 5060 9436 PUSHBUTTON SWITCH MOUNT 28490 5nbowou36 PUSHBUTTON SWITCH MOUNT 28080 50609436 PUSHBUTTON SWITCH MOUNT 28480 5060 9436 AsSwit 5060 9436 AsSwi2 5060 9a36 A58n13 50609436 ASBwia 506059436 Asani 5060 9436 anan 9 PUSHBUTTON SWITCH MOUNT 28480 5060 9436 PUSHBUTTON SWITCH MOUNT 28480 5060 9436 PUSHBUTTON SHITCH MOUNT FEECH 50609436 PUSHBUTTON SWITCH MOUNT 28480 506109436 PUSHBUTTON SWITCH MOUNT 28080 506029036 458410 5060 9436 ASSwt 5060 9436 asawis 506009436 Asani 5060 9436 A520 5060 9436 nn PUSHBUTTON SWITCH MOUNT 28480 5060 9u36
24. Hz 1 Hz sec x Sweep Time sec Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C General Information Table 1 1 Specifications and General Information Cont d Phase Continuity Sweep is phase continuous over the full frequency range AMPLITUDE MODULATION Modulation Depth O to 100 Modulation Frequency Range 50 Hz to 50 kHz Envelope Distortion 30 dBc to 80 modulation Input Impedance 20 K ohm PHASE MODULATION Range O to 850 Linearity 5 of peak to peak deviaion from best fit straight line Modulation Frequency Range dc to 5 kHz Input Sensitivity 5 V peak for 850 phase shift x 170 volt Input Impedance 20 K ohm HP IB CONTROL Frequency Switching Time Time to settle to within 1 Hz to final value exclusive of programming and processing time lt 10 ms for 100 kHz step lt 25 ms for 1 MHz step lt 70 ms for 20 MHz step Phase Switching Time to within 90 of phase lock exclusive of programming and processing time 15 ms Amplitude Switching Time to within 1 dB of final value exclusive of programming and processing time 500 ms AUXILIARY OUTPUTS AUX 0 dBm Frequency range is from 21 MHz to 60 999 999 999 MHz underrange to 20 000 000 001 MHz Amplitude is O dBm 50 ohm SYNC OUT Square wave with Vhigh 2 1 2 V Viow x 0 2 V into 50 ohms to sync
25. w12 wis wis w15 W16 w17 w18 wig W22 wes w24 w25 w26 W27 w29 w30 w30 wan w32 w33 wou W35 W36 w37 wad wao HP Part Number 03336 61602 03336 61614 03336 61612 03336 61615 03336 61610 03336 61611 03336 61613 P O 03336 61601 8120 2585 P O 03336 61601 8120 2585 P O 63436 61601 8120 2585 03336 66512 P O 03336 61601 8120 2585 P O 03336 61601 8120 2585 P O 03336 61601 8120 2587 P O 03556 61601 8120 2587 P O 05556 61601 8120 2586 03325 61604 03325 61619 03325 61620 03325 61606 03325 61607 03325 61608 03325 61609 03325 61610 03325 61611 03325 61603 03325 61609 03325 61612 03325 61613 03325 61614 03325 61616 03336 61616 05356 61617 8120 3108 8120 3108 8120 3108 8120 1378 05336 61601 03336 61618 03325 61625 03336 61603 03336 61602 1251 4288 1250 1499 c D Mfr escription Mfr Part Number D p Code CHASSIS CONT D CABLE SIGNAL 50 OHM 33364 8 28480 03336 61602 CABLE SIGNAL 50 OHM 33 36C 28480 93336 61614 CABLE 5IGNAL 75 OHM 31364 28480 03336 61612 CABLE SIGNAL 75 OHM 3336A 001 28580 03336 61615 CABLE SIGNAL 75 OHM 33168 28489 03336 61610 CABLE SIGNAL 75 5368 0912 28480 03556 61611 CABLE SIGNAL 75 3316C 28480 03336 61613 CABLE 20 60 MHZ 28480 P O 03336 61601 UNMARKED W3 28480 8120 2585 CABLE EXT LVL 28580 P 9 0
26. 0 1 COfLe LD 121UM 1 Qub0 1560X 37SLGeNOM 26460 9100 2459 ol 9innet637 4 1 COILeMLD 120UM Sx OMS 1550x 375i GeNOM 28480 910091637 Aout 310023334 2 1 COIL 2SUH 10 3DeNOM SRFRIMHZ 28480 910083334 m 120060473 8 1 SOCKETeIC 16 CONT DIP DIPeSLOR 26460 12000473 ABP2 1251 6567 1 CONNECTOR 28480 1251 6567 A6P3 1251 6567 1 CONNECTOR 28480 1251 6567 ABP4 1251 6567 1 CONNECTOR 28480 1251 6567 AePS 1251 3750 7 1 CONNECTOR 0ePIN w POST TYPE 26480 128193750 46 52 125120248 7 1 CONNECTOR 2ePIN W POST TYPE 26480 t stwazus aoa 185450071 7 Li TRANSISTOR NPN SI PDRZOOVA FTm200MHZ 26480 185490071 eae 185 en215 1 1 TRANSISTOR NPN SI PDRZSOMA FTEJNOUNZ 94713 2Ny90u AeRI DD 0 1 RESISTOR BOUK y 125W F TCmo wton 28480 0698 8344 sore OoR3 7525 b 1 RESISTOR 7 5K Sx 254 FC TCmwagps 700 ott t 87525 eR fibh 3ebB1S s 1 RESISTOR 680 SX 25w FC TCmeu00 eb00 oli i 86815 ARU DaRJejo2S s 1 RESISTOR 1K SX 25u FC TCumanns oon 0112 c81025 AeRS e 3e1035 1 RESISTOR 10K Sx 25w FC TCmeuoos 700 ott 1 c8103s 1810 0055 5 1 NETWORK RES SIP 10K OHM X 8 28480 1810 0055 abone 3279 3 1 RESISTOR a 99K 1x 125 F TCw0ose100 2 S b C e1 BeT0 g91eF o7ST oua3 o 1 RESISTOR 11K 1X 125a F TONO 100 246806 C el BeTOello2eF 1810e0078 a 1 NETWORKSRES Seg P ax OM X 8 28480 3181020075 eASete2S 7 3 RESISTOR 1 8X Sx 254 FC TCmea00 700 01121 c81825 See introduction to this section for ordering information Indicates factory selected value 6 18 Arti
27. 049041141 OU9DeLIGI 0699 0065 069940065 069940273 0699 n274 0898 5258 0608 TOR 0698 7980 069847982 00980798 0698 798 08698 8011 03336 60601 03336 68115 0160 5386 0180 3874 9100 2247 Artisan Scientific Quality Instrumentation WH OAR run 000 00000 200m soosnn ATTENUATOR P C ASSEMBLY CAPACITOReFXD UF Table 6 3 Replaceable Parts Description B0e20X SuvDC CER CAPACITOR FXD 1UF edou2Ik SovOC CER s CAPACITOR FXD 41UF e20X SOVDC CER CAPACTTOR FXO 1UF eBo 2ax SOVDC CER CAPACITOR FXD 1UF Boe20X SOVDC CER CAPACITOR FXD 1UF e 20X SOVDC CER CAPACITOReFXO 1UF e 20x SOyOC CER CAPACITOR FXD 1UF Savne CER CAPACITOR FXD LIUF Sovnt CER CAPACITOR FXO 1UF SevDC CER CAPACITOReFYO 1UF SovDC CER CAPACITOR FXD jiUF Sovoc CEP CAPACITOReFXD 1UF SovoC CER 1 CAPACITOR FXO 1 BPF e 25PF SODVDC CES a RELAY RELAY RELAY RELAY RESISTOR 51 01 25 5a F TCadeeSa RESISTO 51 01 25X Sh F TlereeSo 3 RESISTOR 2 15X 1x 1254 F 7TCa0 e2S s RESISTOR 350 1x 125W F TCenee25 RESISTOR 247 5 1X 254 F TCunou25 2 RESISTOR et 1 1X 54 F TCugen5n RESISTOR 61 1 X Sh F TCUO 50 3 RESISTOR 71 16 1X 25 F 7Cude 5o RESISTOR 96 25 1X 25n F TCx0O e80 RESISTOR 96 25 1x 25A F T 2050 1 RESISTOR 25 1X 25w F Cs0ee50 1 BOX 1 CCVER 1 C F ki C F 2 cciL MECHANICAL PARTS ASY 33 PF 10 PF 100 NH Code Mfr Part
28. 0698wai23 5 RESTSTOP 499 ig 1254 F TCmneeino 24540 CUwi BeTQeUIAREF AuR 22 0698 u123 5 RESISTOR 490 1x 125 F TC80eelno 20508 C et ReT eug one 448123 97157200277 8 6 RESISTOR 49 9 1x 125x F TCanemicn 24546 Chel BeTOeuqQ2eF AURI ZU 0757 0401 4 2 RESISTOR 100 1 i125 F TCedewinn 24546 CawisBeTOuiQ1eF AuR 25 075720491 i RESISTOR 109 1 125A P TCeneelon 24546 C e1 BRet el0leF AuR126 075780277 8 RESISTOR 49 9 1 125n F TOMGeet2n 20508 C e1 BeTOeuQgaeF kuRi 27 O60Beu123 5 RESISTOR 499 14 1254 F TCOunemtan 24540 Cdwi ReTOuUAAREF AuR128 n588 u123 5 RESISTOR 489 1 284 F TCeDeelnO 24540 C e1 8e Teu OReF AuRi29 599 0389 9 2 RESISTOR 5 1 1 25 F Tlatentoe 28460 69900389 A R130 009900369 s RESISTOR 5 1 1 2Sa F TCedeein00 28480 0689 0389 ARS 070000020 2 a RESISTOR 75 2X tx VO Tludewzon 2Bu8n 0760 0026 AR 32 0750 0026 2 RESISTOR 75 2 tw YO Tlmnen2znn 28086 070020026 AaRI 33 275700388 8 RESISTOR 20 14 1254 F TOmseuia6 19701 MF Ci BeTOe20ROeF AGR 3a 75720384 a RESISTOR 20 1 125a F TCaQeei120 19701 F C1 Retoe20RQeF AuR135 0698 n82 7 1 RESISTCR dod 1 1255 F TCmo e100 24546 Cu 1 baled bdink AUR 3o NAIRE JURA 3 2 RESISTCR 442 ly 1254 F TCO0selat 24546 C el1 Bet e 22ReF AuRI ST 978700277 8 RESISTOR 49 9 1 125n F TCuseninn 24546 C4wi BethoudIZ F kari 38 015720277 3 RESISTCP 40 9 11 125A F TCzoselco 24546 CUet BeTbo4d92HF AaRI 39 069903488 3 RESISTCR 442 11 25 amp F TCadewton 24546 Chet BotOouz2R F AaRi wo 0750e0028
29. 1 BIFET LF355H 28480 1826 0304 Ado 1A201278 7 CNTR TTL LS AIN UP ZODAN SYNCHRO SNTULS191N AugT tA ne1 2T 8 3 IC CNTR TTL LS DECO UPADIwn SYNCHRO 01295 NT4L 190N AuvA 1R2001 279 8 IC CNTR TTL LS DECO UP O2wN SYNCHRO a1295 SNT4LS190N 4406 142001279 8 IC CNTR TTL LS DECD VP OOMN SYNCHRO 01295 SNTULSSOON kuVin NA LeI AA 3 1 IC FF TTL L9 J k BAR POSe DGE TRIG 01295 SNTULSIOOAN AuUtt 15eneitte 8 IC FF TTL L3 O Tv E PO eEOGE TRIG 91295 SNTGLSTUN LELIES tA20 1112 8 IC FF TTL LS DeTYPE POS EOGEeTRIG 01295 SNTULST4N AGUS 1520 1425 t IC MY TTL LS MONOSTBL RETRIG DUAL 01295 SNTUL8123N mum 122020693 A t IC FF TTL S DeTvPE POS EDGE TRIG 91295 SNTUSTUN Agus 1821 0001 4 TRANSISTOR ARRAY Ca z04b A4U16 1826 0304 o 1 BIFET LF355H 28480 1826 0304 A4U17 1826 0304 0 1 BIFET LF355H 28480 1826 0304 kaViA 1AZ 3 IC GATE TTL L NOR QUAD 2eINP 01295 SNTULSO2N AuU19 taASBLnQUT 5 2 TRANSISTOR ARRAY 160PIN 13606 ULN 2 003A kav n 182021144 b IC GATE TTL LS VOR QUAD 2eTNP SNTULSO2N AuUet 1458 000T 5 TRANSISTOR ARRAY 16 PIN ULN 20034 Auge 182041144 b IC GATE TTL LS NOR QUAD 2 INP 01295 SNTULSOZN savan 18200208 3 2 IC OP AMP GP BedIPeP HIE LM310N A4U24 1826 0416 5 1 kr LF13331 D AN SW 28480 1826 0416 ages 1R2 600208 3 DP AMP GP RenlPeP arora LY310N AuU26 182021730 b 3 IC FF TTL L DeTyPE POS EDGE TRIG COM 24295 SNTALS2T3N aur 1220 1215 3 1 IC DCOR TTL LS 3 TO BeLINE S INP 01295 SNTQLS138N suV n tRZN 1196 8 IC FF TTL LS DeTYPE POS EOGEeTRIG COW 01295 SNTULSITAN
30. 125102969 A329 CONNECTOR PHONO BINGLE PHONO JACKS 125122969 AMI CONNECTOR PHOND SINGLE PHONO JACKE 1251 2969 AMI CONNECTOR PHOND SINGLE PHONO JACK 1251 2969 A3J1S CONNECTOR PMONO SINGLE PHONO JACKI 1251 2989 A3J19 125104622 CONNECTOR 3ePIN M POST TYPE 125194822 A3J20 1258 0141 CONNECTOR 1258690141 AJLI 910023551 COJL MLO IUH Sx QaS0 1550x 37 5LGe NOM 9100 3551 ASL 910073458 CHOKE WIOE BAND 910073455 ALI 9140 0210 COJL MLO 100UM 5X Ga50 1550x 375LGeNDM 9iuowoz10 A3Lu 9140 0210 COlL LO 100UM SX GaSO0 1550x 375LG NOM 9140 0210 4365 9170 0894 CORE SHIELOING BEAD 9170 0894 AJLO 9140 0210 COIL MLO 100UW SX Qm50 1550X 375LG NOM 9140e0210 ASL 9140 0210 COIL MLO 100UM Sx ESO 1550x 37 5LGeNOM 9140 0210 AJL8 910023580 COIL MLO S amp UM 5x Gwas 1550x 37 5LGeNOM 910023560 ALS 914unen253 COIL MLO 300NM 1 Gaus 1550x 375LGeNOw 9140 0255 A3LtO 9100 3458 CHOKE WIOE BAND 9100 3458 ASLIOL 910063458 CHOKE wIDE BAND 2 910083458 AJL02 910003456 CHOKE WIOE BANN 910073458 A3L103 9140 0285 COIL MLO 1 6UH Sx GR33 1550X 375LG NOM 9140 0265 ASLION 910083552 COILeMLO 1 5UM SY GE33 1550X 37 5LGeNDM 910023552 ASLIOS 914080349 COIL MLO 1 1UH 5x 0833 1550x 37 5LGe NOV 9140 0349 ASLIO6 914000285 COJL MLO i amp UM SX Qe33 1550x 375LG NOM 9140 0285 A3L107 910020539 COIL YLO 10UH 5x 0455 1550x 37SLGeNO4 910020539 ASL106 9170 0894 CORE 8MIELOING BEAD 917020894 A3L 109 9170 0894 CORE SHJELOING BEAD 9170 0894 ALILI 910093315 COJL MLO R20NM 5X 15
31. 2 ft 3455 BNC f to DUAL BANANA hp MOTO 3 ft 2eocc 29 eeooo Aaa ues 44 D 1 1 a Jagd 2 222223 O a 2 Ju 750 hp 3336 750 BNC m to BNC m 75010500 MIN LOSS PAD BNC f to N TYPE m IO dB COAX ATTENUATOR N TYPE f to BNC m REFERENCE ATTENUATOR BNC m to N TYPE f 10dB COAX ATTENUATOR N TYPE f to BNC m DC POWER 20 dB AMPLIFIER SUPPLY 500 BNC m to BNC m WAVE ANALYZER hp MOTOA in 50n FEEDTHRU 3336 4 5 Figure 4 5 Physical Location for Attenuator Accuracy Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests e The objective of this procedure is to compare the reference attenuator against the 3336 attenuator The 3336 is tested at 10 20 40 and 70 dB attenuation levels Begin each test by setting up the reference attenuator and the 3336 to the levels shown in the table below under Step e STEP E STEP H TEST 3336 REFERENCE 3336 REFERENCE 10 dB 7 dBm 10 dB 3 dBm 0 dB 20 dB 7 dBm 20 dB 13 dBm 0 dB 40 dB 7 dBm 40 dB 38 dBm 0 dB 70 dB 7 dBm 70 dB 63 dBm 0 dB f Adjust the wave analyzer sensitivity until the DVM reads approximately 4 6 volts g Observe the DVM for several seconds to determine the average reading and record it in the Performance
32. 200 ns per time interval Find the accumulative time intervals yn and enter the results in column C and in the Measured Results column on the Perfor mance Test Record If for example all the incremental time intervals are 700 ns the ac cumulative time intervals would be 0 500 ns 1000 ns 1500 ns 5000 ns j Total all the entries in column C k Multiply the corresponding entries in column A and column C together and enter the results to 5 decimal places in column D l Total all the entries in column D m The general equations to find the slope and y intercept for a best fit straight line are rather involved however in this particular procedure they reduce to e D x m Jo Be T n Using the values for C and D from the work sheet and the formula from the previous step compute values for m and b o Using the formula y mx b with the specific values m and b just found compute a value y for each x recorded in column A Enter the results in the Specification column on the Performance Test Record p Take the last entry in the Specification column and multiply it by 005 Enter this number in all the spaces in the Tolerance column q In order for the 3336 to pass this performance test the Measured Results must equal the corresponding Specification plus or minus the Tolerance 4 36 Artisan Scienti
33. 254 FC TCHmWOn es00 Uriel casses R48 0683 1015 7 1 RESISTOR 100 5 25W 28480 0683 1015 Rat 9o98e34u3 v 1 RESISTOR 287 1x 125 F TCxos 100 24546 Che1 BaTQu28TREF R51 OTSTwou1B 9 RESISTOR 619 1X 4425 F TCsOve100 20546 C o B TO 619R F R52 oTSTegaua 1 RESISTOR 12 1K 1x 1254 F TCUGeu100 24546 0 1212 F R53 075720240 3 RESISTOR Ik 1 2054 Jan T0210012f n54 07570280 3 RESISTOR 1K ix 1254 F TCmQew100 24546 Cii az T0 1901c R56 069820083 D RESISTOR 1 96X 1x 4125 F TCWQ e100 24546 Chel Bat On 91 oF R57 0683 5105 4 1 RESISTOR 51 5 25W 28480 0683 5105 R58 OeR3euT S o RESISTOR GTO 5x 25 FC TCU UOVI 60O 01121 C84T15 R59 0683 1015 7 1 RESISTOR 100 5 25W 28480 0683 1015 Rot 068324035 1 12 RESISTOR 10K 5x 25 FC TCmeagoQ ToQ 01121 C81035 R62 0683 1015 i 1 RESISTOR 100 5 25W 28480 0683 1015 Rod 075700419 e RESISTOR 681 1 125 F TCROs 100 24546 C4ni BaTO G81RF Red ne95 00A 9 1 RESISTOR 2 15K 1X 125w F tCuora100 2u546 C el BeT0m2151 wF Res OTST e401 6 RESISTOR 100 1x 125 F TCWO 24546 Cu i BeTonio1 F Ret QekzeuTO5 ja RESISTOR OF 5 25 FC TC 01121 cauros Ror Oe98 0085 RESISTOR 1 96K 1 125w F TCgOv 100 20546 Coal BeT Onl 901 F Ros 069803156 2 2 RESISTOR 14 7K jx 4125 F TCWO a100 24546 C4n1 BnTOnI4TZE Rot 0698 3156 2 RESISTOR 14 7K jX l25m F TCNOv 100 24546 C 1 8eTOel T2er RTO OTS Teqdol o RESISTOR 100 1 125 F TCw0 m100 24546 C et BeT0m101 F RTI 0695ea20T 6 t RESISTOR w4 2K X 125m F TCwoewioo 24548 CUni d
34. 44 E 01000101 105 69 45 F 01000110 106 70 46 G 01000111 107 71 47 H 01001000 110 72 48 i 01001001 111 73 49 J 01001010 112 74 4A K 01001011 113 75 4B L 01001100 114 76 4c M 01001101 115 77 4D N 01001110 116 78 4E o 01001111 117 79 4F EOS End of String Line Feed LF 00001010 12 10 A or Asterisk s 00101010 52 42 2A Start Single code must be sent twice SSSS The first sweep SS resets the sweep to start conditions and the second SS starts the Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation Table 3 2 Instrument Programming Codes Data Receive Cont d ASCII Binary Octal Decimal Hexadecimal Instruction Code Code Code Code Code Output Selection by Model Mode 3336A 75 ohm o 01001111 117 79 4F I 01001001 111 73 49 1 00110001 061 49 31 150 ohm o 01001111 117 79 4F 01001001 111 73 49 2 00110010 116 78 4E 600 ohm o 01001111 117 79 4F I 01001001 111 73 49 3 00110011 063 51 33 Modei 33368 75 ohm o 01001111 117 79 4F t 01001001 111 73 49 1 00110001 061 49 31 124 ohm o 01001111 117 79 4F D 01001001 111 73 49 2 00110010 062 50 32 135 ohm o 01001111 117 79 4F I 01001001 111 73 49 3 00110011 063 51 33 600 ohm o 01001111 117 79 4F 01001001 111 73 49 4 00110100 064 52 34 Model 3336C 50 ohm o 01001111 117 79 4F I 01001001 111 73 1 00110001 061 49 75 ohm o 01001111 117 79 01001001 062 50 2 00110010 062
35. 5346 5060 9436 7 PUSHELTTON SAITCM P C vOU T 26480 SObbedu3b ALSSH7 500709436 7 PUSHRUTTON S ITCM P C JUtT 2RGBO 500109436 415888 5056029035 7 PUSHBUTTON SeITCH P C MOUNT 28a8y 5080 9436 215549 5 b 94135 7 PUSMAUTTON SWITCH P C VOU T EGELI 506neqQu3b At5swia 505049436 7 PUSHBUTTON SWITCH P C OUNT 24480 Sion qu3b A159411 5050 9436 7 PUSHBUTTON SAITCH Pauen 5060 9436 A158412 506n 9435 7 PUSHBUTTO SHIT CH a84Bn 506NequIo A158613 505129418 7 PUSMRUTTOM SWITCH 28489 SubreQui6 ALSSwta 506049436 7 PUSHBUTTON SAITCH 28489 5063 9236 A159w15 506029436 7 PUSHRUTTOM SAITCM 28480 506029434 A1SSath 5SOb0e 09436 7 PUSHBUTTCN SWITCH P C OUNT 28480 Sugnegayo 4185417 50bnQuiH 7 PUSHRUTTON SAITCH PLC MOUNT PIPE 504109430 4159418 506129436 7 PUSHRUTTON SAITCH P C MOUNT 78u80 50609430 4153419 50b e943b 7 PUSHBUTTON SMITCH P C Mi 28u8n 500009430 4155420 506049436 7 PUSHBUTTON BalTEN P C MOUNT 26460 TEPEN A1Sgw2i 5nbneaui6 7 PUSHRUTTOM SAITCH P C MOUNT zauen 50009436 A159w22 5nbreauio 7 PUSMALITTON SalTCM P C MOUN E 50bnequib AtSS 21 5060 9436 7 PUSMAUITTON SKRITEM P C JUST zauan SnbreQuI6 81 5Su2u S0breouin 7 PUSHBUTTAN SAITCH P C MOUNT 2480 506040434 A159725 5060 9436 7 PUSHBUTTON SKa TEM P C OUNT 28480 50b709u 36 2158426 5060 9436 7 PUSMRUTTON SWITCH P C MOUT 28456 508 3436 At 58427 SObne9036 7 PUSMRJTTON SWITCH P C VIVAT ZRUAN 5061e9u36 Ay Sgw2e 5060 9436 7 PUSHBUTTON SrlTCM P C mOUNT 28486 5060 0436 A159w29 5060 0436 7 PUSMBUTTON
36. 5522 3336B 75 ohm output 6096 s 6166 1930 lt 1952 124 ohm output 4288 lt s 4337 1357 s 1373 135 ohm output 4474 lt lt 4526 1416 s lt 1433 600 ohm output 1 7242 1 7441 5459 lt 5522 3336C 50 ohm output 6095 s Ss 6166 1930 s s 1952 75 obm output 6096 s lt 6166 I930 lt s 1952 AMPLITUDE FLATNESS 4 16 3336A 75 ohm 10 Hz 100 kHz 1 MHz 10 MHz 20 9 MHz Reference Level 5 00 5 00 5 00 5 00 5 00 5 00 Amplitude Setting T C Error 3336 Flatness 150 onm 10 kHz 100 kHz 1 MHz 2 09 MHz Reference Level 1 50 1 50 1 50 1 50 Amplitude Setting T C Error 3336 Flatness 600 ohm 200 Hz 109 kHz Reference Level 6 5 6 5 Amplitude Setting T C Error 3336 Flatness 4 43 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com 33368 75 ohm 10 Hz 100 kHz 1 MHz 10 MHz 20 9 MHz Reference Level 5 00 5 00 5 00 5 00 5 00 Amplitude Setting T C Error 3336 Flatness 124 ohm 10 kHz 100 kHz 1 MHz 10 9 MHz Reference Level 1 50 1 50 1 50 1 50 Amplitude Setting T C Error 3336 Flatness 135 ohm 10 kHz 100 kHz 1 MHz 2 09 MHz Reference Level 1 50 1 50 1 50 1 50 Amplitude Setting TC Eror 3336 Flatness 600 ohm 200 Hz 109 kHz Reference Level 6 50 6 50 Amplitude Setting T C Error 3336 Flatness 3336C 50 ohm
37. 65512 2140 0016 Artisan Scientific Quality Instrumentation See introduction to this section for ordering information Indicates factory selected value 6 25 Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference Designation Description Mfr Part Number ars 03336 56515 KEYBOARD P C ASSEMBLY 33364 28480 03336 66515 ATSCI 0t6ne1847 CAPACITOR FXD 015UF e20 SOVDC CER 28480 015003847 aisea t6ne1847 CARACITOReFXD niSUF ee20t SoyOC CER 28480 016023847 A15CT 015060052 CAPACITOREFXD Yo0uFe75e10t 6VOC AL 28480 018000062 In ALETE 3847 CAPACITOR FXh niSUF ee2UX SOVOC CER 28480 010003847 a15CS Otou 38u47 CAPACITOReFXO 015UF te20 SAVOC CER 28480 0160 3847 15CH nteneu571 15C7 at6satB47 asea 01 A001 746 CAPACTTOROFXO 1UF RO 20 SayOC CER 28480 0160 4571 CAPACITOReFXO n15UF e20 SUVRC CER 28480 016023847 CAPACITOR FXD 15UFee19 20V0C TA 56289 150D156x9020B2 wo LEG VISIBLE LUM INTBI5MCD FEZUMA MAX 28480 5082 0658 LEO VISIBLE LUVINTE15YCD IFEZOHA MAX 28480 508204658 LEDeyISIBLE LUMSIKTEISMCO IFs2QMAevAX 28480 5082 4658 LEC VISIRALE LUMeIvTE1SMCD Ov amp e MAX 28480 508204658 LEQeVISIBLE LUYRINTELSYOD IF W OMAeYAX 28480 50820465 atSCRI 199082533 kiSCHZ 199040513 415Co3 199000533 41564 199000533 ai5tes 189020533 cerere LED VISIBLE LUVSINTWISYOD IFu2omieMAx 28480 5082 4658 LED VISIRLE LUMeINTEI5 CO Fa20VAeMAX 28480 5082 4658 LED VISIBLE LUMeIN sco I J
38. 91295 182051197 9 IC GATE TTL LS NANO QUAD 2eIxP 91295 182001112 8 3 it FF TTL LS DeTvPE POS EDGEeTAIG 01295 182081568 8 1 BFR TTL LS BUS OVAO 01295 1820 0684 7 1 l SN74S05N 28480 1820 1975 1 1 SHFeRGTR TTL LS NEG EDGESTRIG PALSIN 01295 1820 1759 9 IC BFR TTL LS wONeINV OCTL 27018 1820e11 6 1 IC GATE TTL LS MOR QUAD 2eINP at295 1829 1199 1 IC INV TTL L8 Ex 1 INP 91295 1820 1206 1 1 IC GATE TTL LS NOR TPL 3eI P 41295 182081102 8 IC FF TTL LS D TYPE POSSENGE TRIG 01295 T820 1A73 a y IC AFR TTL LS INV OCTL 2eI P 27914 1A230477 6 1 IC OP AMP GP Bell oer 18324 1820 1435 3 t IC CNTR TTL LS BIN SYNCHRO POR EDGE TRIG 01295 182091197 IC GAT TTL LS NANO QUAD 2 P 21295 19900444 t OPTO TSOLATOR LED POIO XSTP IF E2548uvax 28480 1990 0577 n 2 CPTASISOLATOR LEDePOIO x8T2 IFa5ovievay 28080 19902057 s OPTOSISOLATOR LE ePDICIXSTO IFeBowkeuax 28480 1990 0481 OPTOSISCLATOR LEDeIC GATE Feinvievay 28480 1990 0461 7 DPTO ISOLATOR LEO C GATE IFs nvwievix 28440 1820 2821 a 2 IC BFR TTL NAND Qui5 2015p n1295 mo Mfr Part Number C81825 C81825 CSPOUCO w2ZIJ CB1035 LETTI CB3525 208433 1810 0055 CB1515 81035 0598 5519 089970107 CB5115 CB5115 CB1835 181020136 181020297 CB1035 C85115 C85115 1818 1111 1818 1110 1818 1109 1818 1112 SN74LSOON THS4045m4BJL SNT4LS175N VC14582 1820 1691 OMBILSO7N AM91124PC AMOJ IAPC SN14L8175N SNTULS TUN SN7404N SNT4LSI138N SN74L81 JAN 1820 0683 OMBILSOIN S
39. A3Cana 018001746 CAPACITOR FXD iSUK elOX 20VOC TA 1500156x902082 A3C205 016003558 CAPACITOR FxO 1UF 20 SOVOC CER 016023558 AIC 206 0160 4383 CAPACITORMFXO 6 6PF 5PF 200v0C CER SO2uEn200RD amp 89D A3C207 016084386 CAPACITORMFXO ZZPE w5Y 200VOC CER Dee30 2008200eNPOeS30 A3C208 016020570 CAPACITOREFXO 220PF se20 100VDC CER S024Ev160RD221M A3C209 0160 0576 CAPACITOR FXO 1UF w20x SAVOC CER 0160 0578 A3C210 016093877 CAPACITOR FXO 100PF ee20X 200V0C CER 018023877 A3C211 O160m44U1 CAPACITOR FXO u7UF eeloX SOVOC CER 0160 4441 A3C300 016003674 CAPACITOR FXO LOBE 5PR 200V0C CER 016023874 A3CRI 1901 0040 DIO0E SWITCMING 30V SOMA 2N8 DO IS 1901 0040 A3CR2 190120040 OIDOEL KI TCHING Jav SOMA 2N8 DOS3s 190120040 A3CRI 190120518 DIDDESBCHOTIKY 190120518 A3CRU 19010518 DIODEeSCHOTTKY 1901 0518 ASCRE 1902 3149 OJODE ZNR 9 09y Sy OD POm w TCH 057X 190223149 ASCRI 1902 3030 DIOOEeZNR 3 01y 5 OD POM dw TCR 1902 3030 ASCR 0122 0089 5 OZODE VVC 299F 10x C3 C25 MINms ByRw3oV W109 A3CRI 1901 0040 DIODE SWG 30V 2 PF 1901 0040 A3CR10 1901 0040 DIODE SWG 30v 2 PF 1901 0040 ASCRIO 1906 0207 OTODE MATCHEO 1906 020 A3J1 1251 6567 CONNECTOR 1251 6567 A323 125102969 CONNECTOR PHOND BINGLE PHONO JACKE 1251 2969 A3JS 125122969 CONNECTOR PHONO BINGLE PHONO JACKI 1251 2989 A3J6 125122989 CONNECTORePHONO SINGLE PHONO JACKI 1251 2989 A327 125122989 CONNECTOR PHOND SINGLE PHONO JACKS 1251 2989 A3J8 CONNEC TOR PHOND SINGLE PHONO JACKI
40. Betedoarer AURO 0698e4453 a RESISTOR 402 14 125x F TCeneel0 20546 C e1 ReTOeuQ2ReF AGRIOS obeageuusj a RESISTOR 402 1 125n F TCunemino 24546 Chei BeTOou02REF AUR YOO 009803437 2 3 RESISTOR 133 1 125x F TCe0eeino 24500 C el ReTOely3ReF 448105 068823437 2 RESISTOR 133 1 125x F TrCa0e 100 24546 C el RetOel13SneF AUR O06 0698e3437 RESISTOR 133 1 1254 F TCeOee1 An 20505 C et ReTQe133ReF AuR107 075720368 8 3 RESISTOR 34 1 1254 F TOmlemtan 24546 C e1 8eTOe SURO LELADIJ 07570030A a RESISTOR 34 1 125A F TCmOotej00 24546 C e1 BeTOeSaROeF AuR109 075740368 8 RESISTOR Zu 1 125 F TCmoee100 24546 Cdot RetCnJuRouF AuRI10 069803552 8 a RESISTOR 4 02K 14 4125 F TCunewino 24546 Cuei AeTOwanzi F AGRIJI 1698 355A 8 RESISTOR 4 02K 1 1254 F TCaneel00 24546 Cuet ReTOeu021 MuRti2 089B 8353 H RESISTOR Book 1 125W F rCmaset n 26480 nosa AZEI AURIS 075700380 8 4 RESISTOR 20 1 1254 F TCmO el00 19701 MFUC1 BoTOWZOAOEF AGRI ya 089828353 1 RESISTOR BOOK 1 1254W F TCmOeetOn 28480 nbsA AJSZ AuR415 075700380 a RESISTOR 20 1 1254 F Tlayeeing 19701 ME I Aetea OROOF AURI t 068341815 5 1 RESISTOR 180 Sx 254 FC TCmwuo0s bon olidi 8 815 AuR i7 0698 123 5 RESISTOR 499 14 125 F TCEOe nO 24546 Cues BeTOuUIIRF KURIIB 009804123 5 RESISTOR 499 1 125 F TCmoenton 24546 Choi BaTOuAUFFR F AURI49 669820539 7 1 RESISTOR 402K x 125 F tCeneelnQ 28a8n 069804539 44RI 20 OgsR U123 5 RESISTOR 499 14 1254 F TCmOeelo 24546 CUwi AaTQmyIFREF AuR121
41. Codes used in these figures are T True F False X don tcare Figure 3 A 1 3 A 2 3 A 3 3 A 4 3 A 5 3 A 6 3 A 1 3 A 8 3 A 9 3 A 10 3 A 11 3 A 12 3 A 13 3 A 14 The characters sent or received on the Data lines are ASCII The logic on the HP IB is low true floating high for false Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A A 2 To enter the REMOTE mode BUS MANAGEMENT LINES ATN IFC SRQ REN EO sequence on Data lines T F x T x f le hp 3336 listen address universal untalk 137g universal unlisten 077g To remain in the Remote mode BUS MANAGEMENT LINES ATN IFC SRQ REN EO X X X T X Figure 3 A 1 Remote Message To enter the LOCAL mode BUS MANAGEMENT LINES ATN IFC SRQ REN EOI en rt RE sequency on Data lines T F X T X U SOH universal Go To Local 001g hp 3336 listen address controller talk address universal unlisten 077g Figure 3 A 2 Local Message To enable LOCAL LOCKOUT BUS MANAGEMENT LINES ATN IFC SRQ REN EOI on Data lines T F x T F DC poo universal Local Lockout 021g To maintain LOCAL LOCKOUT BUS MANAGEMENT LINES ATN IFC SRQ REN EOI X X X T X Figure 3 A 3 Local Lockout Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A To clear LOCAL LOCKOUT and SET LOCAL BUS
42. FILTER FOAM 28480 1 FAN GRILL 28480 CLAMP CABLE 25 DIA 438 WD NYL 28480 LIGHT PIPE 28480 WASHER SHLDR 28480 WASHER FL 28480 TERMINAL SLDR LUG 28480 RESISTOR 100 5 25w 01607 TRANSFORMER POWER 28480 Mfr Part Number 03325 61612 0150 0012 0150 0012 0160 0012 0160 0012 0160 0012 0160 4571 0160 4571 0160 4571 0160 4571 5041 2302 5041 2301 5041 1493 5041 1493 5041 1469 5041 1466 5041 2304 5041 2303 5041 1467 5041 1600 9100 3875 312001 2110 0012 FECO31 1603 FEK031 1613 03336 61614 03336 61612 03336 61615 03336 61610 03336 61611 03336 61613 1250 1116 1250 1053 1251 5586 M 1148 1251 5586 1251 5790 1250 1558 03336 64302 03336 64301 03336 64303 5040 6928 03336 29301 03336 29302 03336 29303 03336 60201 5020 8803 5040 7202 5020 8837 5060 9880 5040 7219 5060 9804 5040 7220 5060 9835 03336 60202 5020 8804 03336 66602 5040 4527 5001 0439 5060 9847 5040 7201 1460 1345 03325 61101 3150 0228 3150 0227 3160 0201 1400 0783 5040 6898 00310 48801 3050 0604 3060 1089 C81015 3100 0580 Artisan Scientific Quality Instrumentation See introduction to this section for ordering information Indicates factory selected value 6 35 Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference Designation wi wi w2 Ww w2 W2 w2 W3 wa w5 wA w7 wa Wil
43. Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests d Refer to the following table for Step e Model 3336A B C OUTPUT AMPLITUDE FREQUENCY NOMINAL MINIMUM MAXIMUM 3336A 75Q 2 99 dBm 10 kHz 0 1941 0 1930 0 1952 1500 8 23 dBm 50 kHz 0 1502 0 1493 0 1510 6000 2 99 dBm 10 kHz 0 5490 0 5459 0 5522 3336B 75Q 2 99 dBm 10 kHz 0 1941 0 1930 0 1952 1242 8 23 dBm 50 kHz 0 1365 0 1357 0 1373 1350 8 23 dBm 50 kHz 0 1425 0 1416 0 1433 6002 2 99 dBm 10 kHz 0 5490 0 5459 0 5522 3336C 509 1 23 dBm 10 kHz 0 1941 0 1930 0 1952 75Q 2 99 dBm 10 kHz 0 1941 0 1930 0 1952 e Set up the 3336 for each of test conditions above and enter the ac voltmeter readings on the Performance Test Record Refer to the minimum and maximum values above to see if the measured values meet the specifications 4 16 Amplitude Flatness 4 17 This performance test verifies that the hp Model 3336 meets the Amplitude Flatness specification in Table 4 1 Specification Referenced to amplitudes at 10 kHz for the 50 75 and 600 ohm outputs Referenced to amplitudes at 50 kHz for the 124 135 and 150 ohm outputs 3336A 75 ohm output t l dB 07 dB 10 Hz to 20 9 MHz 150 ohm output 12 dB 10 kHz to 2 09 MHz 600 ohm output 25 dB 200 Hz to 109 kHz 3336B 75 ohm output 1dB 07 dB 10 Hz to 20 9 MHz 124 ohm output 15 dB 10 kHz to 50 kHz 1dB 50 kHz to 10 9 MHz 135 ohm output 12 dB 10 kHz to 2 09 MHz 600 ohm out
44. Guaranteed 888 88 SOURCE www artisan scientific com Replaceable Parts 6 12 ATTENUATOR EXCHANGE PROGRAM Model 3336A B C 6 13 The repair of the attenuator used in the hp 3336 with Option 005 is not easy and is best done at the factory by experienced personnel Furthermore the equipment needed to verify the attenuator accuracy after it is repaired is expensive and not always immediately available For these reasons an exchange program has been established that allows the customer to trade his bad attenuator for a fully certified rebuilt attenuator at a reasonable cost For more information contact your nearest hp Sales and Service Office and ask about the Blue Stripe Exchange program A list of Sales and Service Offices can be found at the back of this manual Table 6 1 List of Abbreviations Ag sitver A aluminum A amperelsi Au gold c capacitor cer ceramic coat coefficient com common come composition conn connection dap deposited OPDT double pole double throw OPST double pole single throw elect electrolytic encap F faradisi FET field effect transistor fad fixed GaAs gallium arsenide GHz gigahertz 10 9 hertz ad guardtedi Ge germanium and groundtedi H henry ies Hg mercury A assembly 8 motor er battery c capacitor CR diode or thyristor DL delay line DS iama E mise electronic part F fuse He 10 impg ined ins kHz ABBREVIATIONS hertz leyclets per secondi NPO negative positi
45. IC UART TTL QUAD IC FF TTL LS DeTYPE POSeEDGE TRIG COM 1C BFR TTL NAND QUAD 2e1NP 1C GATE TTL L8 NANO QUAD 2 INP 1C GATE TTL L9 NAND DUAL e Ne IC GATE TTL LS NANO QUAD 2 INP IC DCOR TTL LS 2 TO q LINE DUAL 2 INP DIODE Fw BRDG 200V A 1C INV TTL LS HEX LeINP HEX STANDOFF HP JB TO REAR PANEL 01295 01295 0129 01295 04713 04713 24713 01295 01295 01295 01295 01295 01295 04713 01295 28480 6 20 See introduction to this section for ordering information Indicates factory selected value Mfr Part Number SNTuLS1954N SNTuL81954N SNT4LS195AN SNT4L 1 UN 8N74018279N SNTuL800N SNTuL81uN SNT4L870N MC7SOSCP MC 4u1AP MC3441AP SNT4L8273N N7438N SN7T4LSOON SNT4LOZON SNTGLSOON 8NTuLS139N Dazn SN7ULSOUN 0380 1188 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ar arct Arce arcs arca arcs arcr ATCR ATCS arcio LRLS arcya ArC13 Aciu ATCIS ATO Ark ATK Arka ATRI ATR2 A7RI ATRU ATRS ATR6 ATR ATRS ATRI ATRIO ATRIG A7MP1 ATMP2 A7C21 ATC22 ATLL Reference Designation L2 03336 65507 0180 2571 Otoneasri 916023558 0160 4871 0 150e4571 0160 3558 018093555 0160 3556 016063555 010003558 016003558 0150 3558 0160 355A Otbu 2239 049024141 0490 1141
46. MANAGEMENT LINES ATN IFC SRQ REN EOI X X X F X Figure 3 A 4 Clear Local Lockout Set Local To CLEAR all devices on the HP IB capable of responding BUS MANAGEMENT LINES ATN IFC SRQ REN EO prom on Data lines T F X X X DC4 YO cen Device Clear 024g The hp 3336 will respond to this message while in LOCAL as well as REMOTE To CLEAR selected devices BUS MANAGEMENT LINES ATN IFC SRQ REN EO sent on Data lines HE T F X X universal Selected Device Clear 004g hp 3336 listen address universal unlisten 077g Figure 3 A 5 Clear Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A A 4 To send specific programming instructions to the hp 3336 using the DATA message First BUS MANAGEMENT LINES ATN IFC SRQ REN EOI liem a iii on Data lines T F X T X U e 3336 listen address controller talk address universal unlisten 077g Second BUS MANAGEMENT LINES ATN IFC SRQ REN EO sequence on Data lines F F X T X Programming Codes NOTE The hp 3336 must already be in REMOTE Figure 3 A 6 Oata send Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A To make the hp 3336 return specific information about its operating state First BUS MANAGEMENT LINES ATN IFC SRQ REN EOI pee D on Data lines T F X T X U Li 3336 li
47. MHz 50 and 75 ohm outputs dB 07 dB with Option 005 Attenuator Accuracy instruments without Option 005 M 20 9MHz 1M 10 NOTE Amplitude Accuracy is the sum of Absolute Accuracy and as needed Flatness and Attenuator Accuracy Attenuation 10Hz 10 to 19 99 dB 20 to 39 99 dB 40 to 79 99 dB Warm Up Time 30 minutes MAIN SIGNAL OUTPUTS On Carrier Return Loss Model 3336A 10Hz 10 K 2 09M 10 9M 2 09MHz K 30 75 ohm output 150 ohm output gt 20 dBj gt 30 dB K 30 Model 3336B 10Hz 10 K 2 09M 10 9M 20 9MHz gt 30 dB 20 dB gt 30 dB gt 20 a gt 30 08 Model 3336C 10Hz 10K 30K 2 09M 10 9M 20 9MHz 75 ohm output 124 ohm output 135 ohm output 50 ohm output 75 ohm output Return Loss of 50 ohm output is gt 30 dB to 20 9 MHz with Option 008 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Model 3336A B C SPECTRAL PURITY Integrated Phase Noise Phase Jitter HARMONIC DISTORTION Spurious dc to 200 MHz except where noted Line related signals from the 600 ohm outputs wil be more than 70 dB below the carrier or 83 dBm whichever is greater Amplitude Blanking Table 4 1 Specifications Cont d Model 3336A 300Hz 10K 50K 2 09MHz 150 ohm output gt 36 dB 600 ohm output gt 38 dB Model 3336B 300Hz 10K 50K 2 09M 10 9MHz 124 ohm output 13
48. O0o050 ouswa Table 6 3 Replaceable Parts Description Mfr Part Number BALANCED OUTPUT P C ASSEMBLY 33354 ulen 3S5a s C PaCITORLFXN SAvAC CER 0160 3666 CAPACITQOR FXD S y t CER Moe 355A a CAPACITOR FX S y C CER Mee BERR a CAPACTTORMFXE LU Sov C CER MASS SA E CAP amp CITORAFXD LIJF mant SuvDC CER 0150 21855 9 CAPACITOPRFXD 1UF 20x SO DC CEE O16D ISKRA a CAPACITOPLFXO 1 F a20 Savne CED D 6netssn s CAPACITOR FXO 1UF 29x Sovre CER In 9 CAPACITORMFXN 1UF 023 Savni CER 15023558 a CAPACITOR FXD 1UF se2ex SAVOC CER 51504 155A a CAPACTTORAFXN e ak SAVNE CER PISA 156A 9 CAPECTIORSFXD 26Y Srvne CER 3 CAPACITORLFAD 220k SIVZC CER 9 CAPACITOR FXN 20Y SuvDC CER Q CAPACITORLFAD 22X amp eynC CER CAPACITOR FXD 01UF 200V CAPACITOR FXD 300PF 300V MICA CAPACITOR FXD 330PF 300V MICA CAPACITOR FXD 360PF 300V MICA CAPACITOR FXD 390PF 300V MICA CAPACITOR FXD 300PF 300V MICA CAPACITOR FXD 330PF 300V MICA CAPACITOR FXD 360PF 300V MICA CAPACITOR FXD 390PF 300V MICA CAPACT TNR SFX 2240PF weary aav0C CER CAPACT TNO XE 2242PF eerie trovDC CER CEPACT TOR OF XD 220 9F 2223 1nNYNC CER 915322190 2 C amp PACITUZeFX TAPE segg YorynQ VIZA EIU 1 CAPACITORLFXD of Fo elAX donyDc CER TENTI 4 CAPACTTORMFXD LAUTUF 2 Y Boyne CER Poe Kuka CAPACITOReFXD AZI A3 anynC POLYE Mb523572 1 CAPALT TORE YN 2220PF e253 I vDC CER MinnanS72 1 CAPACTTORAFXD 2253PF 25X
49. RESISTORLTAMR SK 10 C TOPRADJ LeTRN 28480 210003282 AORE norietn15 7 1 RESISTOR 100 51 255 FC TCmeannseSnn ou CB1015 AQRS f683e2025 1 RESISTOR 2K SX 25A FC TCmoudgye 0n c82025 oui 182050216 1 IC OP AMP GP BenIp P 1820 0216 See introduction to this section for ordering information Indicates factory selected value 6 22 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference Descri n r Part Number Designation Qty scriptio Mfr Pa ato 03356 66510 2 BALANCED OUTPUT P C ASSEMBLY 33368 03336 66510 aoci 016003558 9 CAPACITOR FXO 1UF Sovoc CER 0160 3558 Atoc 016003558 9 CAPACITO ur SovOC CER 28480 0160 3558 41003 016003558 9 CAPACITO NIU SovOC CER 28480 0160 3558 atoca 016083558 9 CAPACITOReFXD 1UF SovbC CER 28480 016093558 A10C5 016003558 9 CAPACITORSFXO 1UF 020 SOVDC CER 28080 0160 3558 a10c7 016003558 9 CAPACITORSFXD 1UF SovoC CER 28480 0160 3558 a1oce 016003558 9 CAPACITOReFXD Sovoc CER 28480 0160 3558 A10C9 0160 3558 9 CAPACI TOR FXO 50vDC CER 28480 0160 3558 AtoCto 016093558 9 CAPACI TDR F X
50. SI 91295 2N5245 028 1854 0296 8 TRANSISTOR NPN 1 TO 92 PDRJJOMK 28480 185420294 929 155440296 8 TRANSISTOR NPN 1 TO 92 3404 28480 18500029 9M 195300069 s TRANSISTOR PNP 2N4917 Si PDR200 x 07263 24917 ase 1854 0830 8 1 TRANSISTOR DUAL NPN 28480 1854 0830 on 185500082 2 TRANSISTOR JeFET PeCHAN De DDE 81 28480 1855 0082 a3 185020215 1 TRANSISTOR NPN 1 POa350Mn FTa300MMZ 94713 283904 FEL 1853 0086 2 3 TRANSISTOR PNP 1 POBJIDMA FTRUOUNZ 27014 2nso87 939 188549051 1 TRANSISTOR JeFET NeCHAN DeMODE I 01295 2NS2us gat 1854 0295 a TRANSISTOR NPN S TO 92 PDaliQMe 28480 1854 0295 Guz 18540295 8 TRANSISTOR NPN 1 TO 92 PDSJJOMA 28480 1854 0296 Gus eo 5 TRANSISTOR PNP 2N4917 SI POa2D0 w 97253 2Na917 See introduction to this section for ordering information ndicates factory selected value 6 29 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part c A Descripti Designation Number seriptton Mfr Part Number 185320089 5 TRANSISTOR PNP 2N4917 SI POuAJOMA 97283 2N401T ars TAS Jouaun a TRANSISTOR PNP S TO 92 POs625 w 04713 MPSHBI 0132 JAS4eGATI 7 TRANSISTOR NPN SI PDeZJOMA FTs200MMI 26480 4854 0071 4161 1353 0248 3 TRANSISTOR PNP 8 Tow02 Ppsag5uw 04713 MPSK81 9162 125250345 6 TRANSIST
51. SPECIFICATION dc Voltage Range 10 V Trigger External Trigger Delay Programmabie Cut Off Frequency 1 MHz Stop Band Frequency 4 to 80 MHz Cut Off Frequency 15 kHz Consisting of Resistor 10K ohm 196 Capacitor 1600 pF 5 Pass Band 500 to 3500 Hz Frequency Range 1 to 20 MHz Accuracy 5 dB Diode Detector Signature 4 digit Hexadecimal Characters O thru 9 A C F H P U Logic Threshold 2 2 V high 5 V low 50 75 ohm 124 75 ohm R1 15 9 ohm 196 R2 119 3 ohm 1 R3 62 0 ohm 1 135 75 ohm R1 22 5 ohm 1 R2 112 5 ohm 1 R3 67 5 ohm 1 150 75 ohm R1231 1 ohm 1 R2 106 1 ohm 1 R3 75 ohm 1 600 75 ohm R1 261 2 ohm 1 R2 80 2 ohm 1 R3 300 ohm 1 50 ohm 2 75 ohm 2 124 ohm 1 135 ohm 1 150 ohm 1 600 ohm 196 REQUIRED FOR P 3336C only P 3336A B only V P A P 3336B only A P 3336B only A P 33364 only A P 3336A B only V P A T V P A T V P A 3336B only V P A 3336B only V P A 3336B only V P A 3336A B only RECOMMENDED MODEL hp Mode 3437A J903 TT Electronics Inc 2214 S Barry Avenue Los Angeles CA 90064 hp Part No 0757 0340 hp Part No 0160 2223 3100 Kronhite Avon Industrial Park Bodwell St Avon MA 02327 hp Model 11096B Model 5004A Model 854288 Part No 0698 4361 Part No 0698 6806 Part No 0698 6800
52. SUF BAmZ20X SOVDC CER 26460 01UF twit 100VDC POLYSTY 84411 2 2UF e20X SOVOC CER 26480 2 2UF se20x 50VDC CER 28480 1 0 UF 28480 UF 20x SOVDC CER 28480 IZ ZUP w20X 15vnC TA 6289 56289 28480 AUF wtGX 100VOC 28480 1 0 UF 80 NISUF w20x 50VDC CER 28480 NISUF 20X SOVOC CER gauan 150PF 5 300v0C ICA 72136 560F 5x ZOOVDC MICA 72136 1n00PF ee20tX 1ONV L CER 28480 AUF 28480 1UF 20X SOVDC CER 28480 AUF 28480 1000PF 20X 100VDC CER 28480 256v 74970 1UF 20 25V0C CER 2A480 1oUF ejoX 20VOC TA 55289 UF ve ox 25VDC CER 26480 isUP o 10 ZOVOC TA 56289 AUF om 20x SOVOC CER 28480 1UF 20 SouDC CER 28480 AUF w20x 5ovbC CER 2as8n TUF 2201 50VOC CER 28480 6 2PF 25PF 500VOC CER 28480 1 UF 28480 4 UF 28480 AUF 20x SOVOC CER 26480 IUF ee20X SovOC CER 28480 AUF n20x SnvOC CER 2940 YUF m20x SOVOC CER 28480 1 UF 28480 2209F w20x 100VDC CER 20932 82PF 300V 28480 91PF 300V 28480 UF 20x SOVOC CER 28280 1UF 20x SOVDC CER 25480 19F se20x 50VDC CER 28480 T5UF 75 10X 16V0C AL 56289 1UF 20 5GVOC CER 26480 JUF e20x SOVne CER 28460 AUF 20 5ovOC CER 28486 JUF 20x SOVDC CER 28480 tUF e20 SOUDC CER 28480 1UF 20 50VDC CER 28480 See introduction to this section for ordering information Indicates factory selected value Mfr Part Number 03335 58504 1500885x000842 21860 3580 0186023827 016084532 1500156x902082 150D456X902082 0186
53. TCaooatgn 24846 Chel BeT 0011 SRoF ASR120 0698o 3440 RESISTOR 196 1x 125 F TCzOse100 24546 CuUot BuTOuia6R F ASR 21 0757 0397 RESISTOR 68 1 1X 125 F TCwovat00 24506 C e1 8eTO 6aR1 F 455122 0757w0397 RESISTOR 68 1 1X 125k F TCu ee100 24846 CUw1 BeTObAR1aF 455125 075720275 RESISTOR 113 125w F TCEneeloo 24546 C e1 8eT0 113R F A3RISI 07572039 RESISTOR 68 1 1X 125w F TCutvoton 24546 Che 1 BoTNeb8Ri F ASRISS 068321025 RESISTOR 1K Sx 25m FC TC o1ter CB1025 AYRISU RESISTOR 1K SX 125 FC TC EER CB1025 AIRIS6 0683 1015 RESISTOR 100 Sx 254 FC T nitet C81015 ASR157 068344705 RESISTOR 47 Sx 25a FC TO 01121 Ca4705 AZRISA 069823039 RESISTOR 178 ix 125x F TCwOseinQ 20506 C e1 8eT0 1788 F ASRIS9 0683 2225 RESISTOR 2 2K 5x 25 FC TCRea00 7n0 01121 CB2225 A3R160 0757 0276 RESISTOR 61 9 1 28480 0757 0276 A3R161 0757 0276 RESISTOR 61 9 1 28480 0757 0276 A3R162 8150 3375 JUMPER WIRE 28480 8150 3375 A3R163 8150 3375 JUMPER WIRE 28480 8150 3375 A3R164 0698 3581 RESISTOR 13 7K 1 28480 0698 3581 A3R165 8150 3375 JUMPER WIRE 28480 2100 3096 A3R20 0757 0346 RESTSTOP 10 1X 125A F TCxDee On 24546 Chal BeTOu10ROEF A3R202 064303625 RESISTOR 3 6K Sx 25w FC TCmoudo 7an 01121 C83625 A3R203 0757w0280 RESISTOR iK 1X 125 F TOWO 20506 Chats8eTOw1001 ASRZOU 07570291 RESISTOR 24 9 1x 125m TCR 19701 MFa C1 8eThe2 uggel ASR2NS 0757 0401 RESISTOR 100 1x 125 F TCs0 eino 24546 C e1 8eThe101eF A3R206 075720384 RESISTOR 2
54. Test Record as VI h Reduce the 3336 level to the value shown in the table above under Step h i Adjust the reference attenuator to 0 dB j Again observe the DVM and record the average value in the Performance Test Record this time as V2 k Repeat Steps e h until all four attenuation levels have been tested 4 20 Phase Increment Accuracy 4 21 This performance test verifies that the hp 3336 meets the Phase Increment Accuracy specification listed in Table 4 1 Specification Any phase increment will be within 0 2 of the selected value Required Equipment Electronic Counter hp Model 5328A with Option 040 or Option 041 75 ohm Feedthru Termination hp Model 11094B a Connect the REF OUT output located on the 3336 DUT rear panel to the B input of the electronic counter This will be the reference source against which phase increments will be measured b Connect the 3336 DUT 75 ohm output to the A input of the electronic counter Ter minate this output with a 75 ohm feedthru termination at the counter s input c Set the 3336 DUT output frequency to MHz and output amplitude to 7 00 dBm 4 21 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C d Set the electronic counter controls to measure the average time interval from input A to input B T I AVG A B Set the counter to average 107 intervals Note th
55. and connect the Direc tional Coupler directly to the 3336 output under test k Record the Wave Analyzer reading on the Performance Test Record for the output and frequency tested NOTE Make sure the Wave Analyzer is tuned to the 15 Hz signal before recording the reading l Repeat Steps c thru k until the return loss at all the test frequencies listed in Step c has been measured m Repeat Steps b thru until the return loss of all the 3336 s signal outputs has been measured IOMHz REF OUTPUT Ap 3336 DUT REFERENCE SYNTHESIZER Casa i i Ha QD 6 EXT REF INPUT 500 OUTPUT af of aaa a SAJ Jasal Jih JI zal it EIE puppy L FEEDTHRU TERMINATION OR TERMINATION RESIS TOR IS INSERTED HERE SO DIRECTIONAL COUPLER SEES A GROSS IMPEDANCE MISMATCH 50 75 OHM MINIMUM LOSS PAD USED TO TEST 75 0 OUTPUT ONLY FEEDTHRU TERMINATION OR TERMINATION RESISTOR WAVE ANALYZER HIGH FREQUENCY PROBE DIODE DETECTOR 3336 4 7 Figure 4 7 On Carrier Return Loss Equipment Set Up Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests 4 25 Performance Tests Model 3336A B C 4 24 On Frequency Return Loss Measurement Technique Since this performance test is new a brief conceptual discussion of the measure follows A small signal is launched in the for
56. at 80 modulation fc 20 MHz fm 10 kHz Required Equipment Sine Wave Source hp Model 3325A Spectrum Analyzer hp Model 141T 8552B 8553B 50 75 ohm Minimum Loss Impedance Matching Pad hp Model 85428B a Connect the equipment as shown in Figure 4 11 b Set the 3336 DUT controls as follows SIGNAL OUTPUT 75 ohm AMPLITUDE 7 00 dBm FREQUENCY corset niederen e ene 20 MHz AMPLITUDE MODULATION On c Set the spectrum analyzer controls to display the carrier center frequency 20 MHz and at least four orders of sidebands frequency span 100 kHz d Set the frequency of the modulating signal to 10 kHz Adjust the amplitude of the modulating signal until the first sideband is 7 96 dB below the carrier amplitude This side band to carrier relationship correpsonds to 80 amplitude modulation Note as the percent of modulation increases the amplitude of the carrier will decrease slightly This is normal and due to the 3336 s leveling loop regulating the output power at a constant level e Measure the amplitude of the distortion related sidebands relative to the first or fun damental sideband Enter this value on the Performance Test Record si SPECTRUM ANALYZER Lo ooo l l pou pin me Jdal sf 22222 vio 75 ampTo 4p 3336 DUT OUTPUT MOD INPUT SINE WAVE SOURC
57. be well within the bandwidth of the 3336 s Amplitude Level ing circuits When Fast Leveling is ON this bandwidth is from dc to 1 kHz When Fast Levling is OFF this bandwidth is from dc to 1 Hz In this particular procedure the frequency difference is 10 Hz therefore Fast Leveling must be ON Since the only difference between Fast Leveling ON and OFF is the bandwidth of the level ing circuits results obtained with Fast Leveling ON apply to the instrument when Fast Leveling is OFF Return loss 20log Zi Zo Zi Zo where Zi is the ideal output impedance Zo is the actual output impedance Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests 4 25 Output Balance 3336A and 3336B only 4 26 This performance test verifies that the hp 3336 meets the Balance specification in Table 4 1 Specification Model 3336A 150 ohm output 36 dB 10 kHz to 2 09 MHz 600 ohm output 38 dB 300 Hz to 50 kHz Model 3336B 124 ohm output gt 30 dB 10 kHz to 10 9 MHz 135 ohm output 36 dB 10 kHz to 2 09 MHz 600 ohm output 38 dB 300 Hz to 50 kHz Required Equipment AC Voltmeter hp Model 400E or EL Resistors 3 ea required R 62 ohm 3336B only 3 required hp Part No 0698 6800 R 67 5 ohm 3336B only 3 required hp Part No 0698 7364 2 in parallel R 75 ohm 3336A only 3 required hp Part No 0698 7363 R 300 ohm 333
58. comprising each programming code must be received in a certain order the order in which the programming codes are received is not important Sending ABO FLI MP1 or MP1 FL2 ABO result in the activation of the same functions Amplitude Blanking OFF Fast Leveling ON and Phase Modulation ON but in reverse order Note the hp 3336 ignores commas and spaces They are included for operator clarity 3 159 When the hp 3336 is in the Local mode certain instrument functions are set using SEVERAL front panel controls For instance to enter Frequency the FREQUENCY key the appropriate digits including the decimal point and then the appropriate frequency UNITS key MHz kHz Hz is pressed Obviously the order in which the controls are ac tuated is important When operating in the Remote mode the same method is used to set the Entry Frequency except that ASCII characters are sent over the HP IB to activate the instru ment functions instead of pressing front panel controls The ASCII character group FR activates the function controlled by the FREQUENCY key ASCII digits correspond to the digit keys and the ASCII character groups MH KH HZ correspond to the MHz kHz and Hz units keys For example to program the hp 3336 to output 12 534 763 MHz the ASCII character group FR12 534763MH is sent As before the order within the character group is important however the character group can be placed
59. dB Harmonic Distortion s 65 dBc Spurious lt 70 dBc Input Z 75 ohms Maximum Input 5 V rms Flatness Certification required at 10 kHz 100 kHz 1 MHz 10 MHz and 20 MHz Vertical Bandwidth dc to 100 MHz Deflection 01V to 10V DIV Horizontal Sweep 05 us to 1s DIV Delayed Sweep Frequency 1 and 10 kHz Functions Sine Squarewave Symmetry Variable Ranges 1 mV to 1 V Frequency Range 25 Hz to 1 MHz Scale Logarithmic Accuracy 2 100 Hz to 10 kHz P 3336B only P 3336B Opt 001 P 3336A only hp Part No 5061 1135 hp Part No 5061 1136 Opt 001 hp Part No 5061 1137 hp Model 6214A hp Model 10534A or 10514A hp Model 8491A Option 010 2 required hp Model 355D hp Model 1417 85538 8552B hp Model 3580A hp Model 11051A H01 hp Model 1740A hp Model 3312A hp Model 400 FL Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com General Information Table 1 2 Recommended Equipment List Cont d INSTRUMENT Resistors for Balance Test 3 of each required Resistor Amplifier Adapters Cables CRITICAL SPECIFICATION 62 ohm 1 67 5 ohm 1 75 ohm 1 300 ohm 1 1K ohm 1 Gain 20 dB Frequency Range 1 to 20 9 MHz Input Output Z 50 ohm BNC f to WECO 440A 3336B only BNC f to WECO 358 3336B only BNC f to WECO 347 3336
60. devices on the bus The action executed depends upon the design of the particular instrument The hp 3336 does not respond to the Trigger Message The remaining ten Bus Messages are used to manage the system Their only purpose is to facilitate the implementation of the Data Trigger Messages 3 124 Implementing Bus Messages Recall that the objective is to answer the question What instructions must be entered on the controller to cause a particular action in the instrument This question is answered by converting the Bus Messages into controller statements that cause the desired action in the instrument when executed by the controller Since these twelve messages describe every possible HP IB operation converting them to controller statements will enable the operator to implement every possible HP IB operation A pro cedure for converting the Bus Messages to controller statements are in the following paragraphs NOTE If the controller used in your system is a hp 9825A Desktop Computer substitute the appropriate Bus Message Implementa tion Table in Appendix C for Table 3 1 The appropriate con troller statements that implement each bus message are given in this table If you do make this substitution be sure to study the descriptions of the Bus Messages thoroughly The information supplied is not restricted to that required to convert the Bus Messages Artisan Scientific Quality Instrumentation Guaranteed 888 88 S
61. e RESISTOR UT 5 25 FC TCas400 500 91421 C84T05 RIIT ATSTey439 4 RESISTOR 6 81K 1x i125w F TCagewian 2u5u6 Cue1 8eT0 6811 F R118 908301025 9 RESISTOR 1K 5X 25 FC TCamdooseon0 01121 CB1025 RILI 06R321835 a 1 RESISTOR 18K 5x 25w FC TC2e n0 e800 01121 CB1835 Ri2t Oboe 3 1025 9 RESISTOR 1K Sx 25w FC TCwmagoseooo0 oti t C81025 R122 O6SRe31e2 0 1 RESISTOR ub 4X 1 4125 F TCade 100 24546 CUwi BoTOmUbU HF R123 OTSTendeS b LI RESISTOR 100K 1x 125w F TC 245460 CUwi 8uT0w10032F Ri u a RESISTOR 1 5K 5x 25 FC T 01121 C81525 A126 0663 1025 9 RESISTOR ix 5 25w FC TCa u00 600 01121 c81025 R130 OORS 2225 3 RESISTOR 2 2x 5 25w rc TC8 200 T00 01121 cez225 R132 075720328 a 1 RESISTOR TS 1x 125 F TCa0emi00 24546 CUw1 8uTo TSROuF R133 069823032 T 1 RESISTOR 26 1 1x 125w F TCmO 100 03888 PMESS wi 8nTO 2Z6R1 F 8130 068321035 1 RESISTOR 10K 5x 25 FC TC3 400 eTQO 01121 C81035 R135 068302205 9 RESISTOR 22 5 25 FC TCH WUOO e500 91121 C82205 R136 068341025 s RESISTOR 1x 5 25w FC TCmoudo e6o0 01121 C81025 R13T 068321035 1 RESISTOR 10K 5 25 FC TCe a00 T00 01121 CB1035 8135 0683w1235 3 1 RESISTOR 12K 5x 25 FC TC 01121 CB1235 Riig 0683 1035 1 RESISTOR 10x 5 25w FC TO 01121 C81035 R11 0683 uT25 2 2 RESISTOR UTK 5x 25w FC TC 01121 C8ur25 Ria 0653 1025 9 RESISTOR IK 5x 25 FC TCawtooseooo 01121 C81025 143 065321015 T 1 RESISTOR 100 5x 25 FC TCswsouse500 01121 CB1015 Riu 0683 3325 o RESISTOR 3 3X 5X 254 FC TCS u00 TOQ 01121 C8332
62. eSx 300V0C MICA eG7UF o 10x SOyDC CER 1UF 20x 25VDC CER 100 0xX SOVDC 100 0x SOVDC 10 X SovDC 100 0 SOVDC CER CER CER CER 1UF 20X 25V0c CER 1UF eBow20x SOVOC CER JPF e 20x 200yDC CER 100PF e Sx 200VDC CER 100PF e Sx 200VDC CER See introduction to this section for ordering information ndicates factory selected value Artisan Scientific Quality Instrumentation Mfr Part Number 03325 66521 D 15t550J03004V1CR 0160 3847 1500276 1901082 1500156x902082 D 15E55020300 V1CK 0160 4571 01003847 016093847 016074571 150027 6X901082 016073847 016092222 0160 3847 otbO 4UB1 2257 15001561902082 1500155 190208e 0160 5306 0l60 J 47 OMISFUTIJOJVONVICR 01603847 0165092243 016022208 0160 3847 0169 3847 016074571 0160 3847 D18E550J0300 VICR 0160238407 0160 3847 0160 4571 0160 3847 twe set 016023 ONT S72 ri JosoonvicR 0160 3847 0160 3847 1500156x9020B2 016073847 0160 3847 1500275x901082 150D156x902082 0160 3879 01602 38uT 010003847 Otbo ya47 Otbow z204 01603807 15001 51902082 15002263901582 0160 2204 016070571 0150 3879 0160238407 0160 4040 0160 2204 0160 0441 0150 0127 01602 3847 0150 3807 0150 38uT 0150 7 0160 0127 0150 4571 0160 3875 1502100 NF0 101J 1502100 N802101J Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts
63. hp Part No 1250 0780 2 required BNC m to Type N f P hp Part No 1250 0077 2 required Cables 50 ohm BNC m to BNC m T2 V P A T hp Model 11170A 2 required 24 V P A T hp Model 11170B 2 reguired 36 V P A T hp Model 11170C 2 required 75 ohm BNC m to BNC m 6 V P A T hp Part No 15582 60010 2 reguired 36 V P A T hp Part No 15582 60020 2 required 75 ohm BNC m to V P A T Siemens type 9 REL STP 6AC Consisting of Siemens type connector m hp Part No 5060 4444 BNC m connector hp Part No 1250 1448 6 RG 59 coaxial cable hp Part No 8120 1289 75 ohm 4 10 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests 4 8 PERFORMANCE TEST RECORD 4 9 A Performance Test Record is located at the end of this section to help you consolidate the test results hp recommends that copies of the Performance Test Record be used Copies of the Performance Test Record can be made at any time without written permission from Hewlett Packard 4 10 PERFORMANCE TESTS 4 11 The following Performance Tests have been specifically developed to test the hp 3336 Test Paragraph No Frequency Accuracy 4 12 Absolute Amplitude Accuracy 4 14 Amplitude Flatness 4 16 Attenuator Accuracy 4 18 Phase Increment Accuracy 4 20 On Carrier Return Loss 4 22 Output Balance 4 25 Harmonic Distortion 4 27 Spu
64. oon PESISTOR 1 5X Sx 25m FC TCweuD0 e700 amp ESISTO IX 5x 2 A FC TCmeb00 600 RESISTOR IK ix 125 F TC RESISTOR 511 A25W RESISTUR 499 1x 125 F TCaoeel00 tejon RESISTOR K 1x 125 F TCa0 elu0 RESISTOR 100 ix 125m F TCudeul00 RESISTOR IK 1x 125 F TCE0pe100 RESISTOR t0K IX t25n F TOUOHH100 RESISTOR 4 99K ix 1255 F TCa0eelop RESISTOR 190 1x 125 F TCuuee100 RESISTOR 27 Uk 1 125m F TCwOeelon RESISTOR 196 1x 125 F RESISTOR 8 45K 1 1254 RESISTOR 6 81X 1 125m F TCuoeelo0 RESISTOR 100 1 125W RESISTOR 51 1 1X 125m p TCUO 100 RESISTOR 1K 1 125w F TCa0 e100 RESISTOR 4 99x 1 125m F rCSO u100 RESISTOR 10k 1 125W F TCa0eej00 RESISTOR 2K 1X t29 F TCageo10n RESISTOR 1K 1x 125 F TCaosotion RESISTOR 330 5x 25 FC TC RESISTOR 4 3K Sx 25 FC T RESISTOR 47 SX 25 FC TCNea0p e500 RESISTOR 6 81X ix 125w F TCsOeel00 RESISTOR 100 iX 125w F TCuOtel00 RESISTOR 10K 1x 125K F TCuOee100 RESISTOR 22 SX 25m FC TCaeu00 e500 RESISTOR 3 10K ix 125w p TCHO 100 IC GATE TTL NAND QUAD 20INP IC FF ECL DeM S DUAL TRANSISTOR ARRAY j ePIN PLSTC DIP IC FF TTL LS DeTYPE POSeEOGEe7RIG COM IC FF TTL LS DeTYPE POSLEDGELTRIG NETWORK RESISTOR 16 PIN DIP IC op Amp GP tousa IC FF TTL Jer NEGS EOGE TRIG IC SN74S140N IC CNTR TTL LS DECO UP OOMN SYNCHRO IC DP AMP GP TQ0 99 lC CNTR TTL LS DECO UP DOMN SYNCHRO IC GATE TTL NAND QUAD 20INP IC FF TIL S Jek NEG EGGE
65. output voltage x current Watt 3 85 AMPLITUDE MODULATION 3 86 Amplitude Modulation Selection 3 87 To program Amplitude Modulation press the BLUE shift key followed by the AM ON STORE key To disable Amplitude Modulation press the BLUE shift key followed by the AM OFF RECALL key The AMPTD MOD annunciator will light when Amplitude Modulation is enabled 3 88 When Amplitude Modulation is enabled and no modulating signal is present the out put level is the programmed level At 100 modulation the maximum output amplitude will be twice the programmed level 3 89 Amptd Mod Input Located on the rear panel is the modulating signal input This input is rated Maximum Input Voltage 5 V peak Nominal Input Impedance 20 k ohm 10 k ohm when Amplitude Modulation is OFF Input Sensitivity 10 V p p for 100 modulation Frequency Range 50 Hz to 50 kHz Envelope Distortion 30 dB to 80 modulation 3 90 PHASE MODULATION 3 91 Phase Modulation Selection 3 92 To program Phase Modulation press the BLUE shift key followed by the PM ON CLEAR key The Phase Mod annunciator will light when Phase Modulation is enabled To disable Phase Modulation press the BLUE shift key followed by the PM OFF key 3 93 Phase Mod Input The PHASE MOD Input located on the rear panel is the Phase Modulating Signal input This input
66. procedure practice condition or the like which could result in injury or death to personnel even during normal opera tion The WARNING sign denotes a hazard It calls attention to a pro cedure practice condition or the like which if not correctly per formed or adhered to could result in injury or death to personnel The CAUTION sign denotes a hazard It calls attention to an operating procedure practice condition or the like which if not correctly performed or adhered to could result in damage to or destruction of part or all of the product The NOTE sign denotes important information It calls attention to procedure practice condition or the like which is essential to highlight Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C General Information SECTION GENERAL INFORMATION 1 1 INTRODUCTION 1 2 This Operating and Service Manual contains information required to install operate test adjust and service the Hewlett Packard Model 3336A B C Synthesizer Level Generator 1 3 Supplied with the instrument is an Operating Manual This supplement is a copy of the first four sections of the Operating and Service Manual and should be kept with the instru ment for use by the operator The hp part number of the Operating Manual is listed on the title page 1 4 Also listed on the title page of this manual is a Microfiche part number T
67. suv s 1A001730 6 IC FF TTL LS DeTYPE POSeEDGE TRIG COM 01295 SNTUL SZTIN sava 1820 1730 s IC FF TTL L8 DeTYPE POS EDGE TRIG COM at295 SNT4LSZTIN agus 1R 1196 8 IC FF TTL L8 O TvPE POS EDGEeTRIG Com 01295 SNTALSITUN 424932 lagnejant b 1 IC AFR TTL LS NONSINV HEX 1eINP 01295 SNTULSIJOTAN A4U41 1826 0416 5 1 IC 13331 D AN SW 28480 1826 0416 A4U42 1826 0416 5 1 amp nn DAN sw 28480 1826 0416 auUtot 1A260522 a a QUAD la DIP 01295 TLOTUCN aauioe 1482540522 D IC OP AMP QUAD l eDIP P 01295 TLOTUCN aautay t82b n522 a IC 09 AME Quad t4a 0 oup n1295 TLOTUCN auutou 1A2b 0522 a IC OP AYP Quan tu Dre e 01295 TLOTU N AUULNS tAZ2ne1109 1 1 JC TAY TTL LS EX 12INP 01295 SNTUL SOON AuUtnb 1822540321 s 1 IC COMPARATOR GP TO 99 01295 SNTZTIOL Aqui nr 320111 T 1 IC OP AMP GP Mual 73e99 oam MC14saG Auuant 1826000358 4 1 IC DP AMP OneDRIFT TO 99 etor LMYOBAM auvon SASUenAYO e 1 Now Pagana 27014 A4U203 1581 0021 1 RMS CONVERTER POWER DETECTOR 28480 1581 0021 MECHANICAL PARTS A4MPI 1205 0033 6 HT SINK SEMICON 28480 1205 0033 A4MP2 1205 0018 l HT SINK SEMICON 28480 1205 0018 2140 0016 8 1 RPG LIGHT BULB 28480 2140 0016 See introduction to this section for ordering information ndicates factory selected value 6 14 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference as ASCI 45C2 Agcy ASOU ASCS ABC 4 ASC asce ABCRI ASCRZ2 ABCR
68. the hp 3336 will send its output amplitude in dBm formatted as follows AM 00000 DD DD9 DB CR LF amp EOI A minus sign will replace the first zero if the value is less than dBm c Phase After receiving IPH the hp 3336 will send its phase shift in degrees for matted as follows PH 00000DDD D009 DE CR LF amp EOI A minus sign will replace the first zero if the phase shift is negative d Sweep Start Frequency After receiving IST the hp 3336 will send the frequency in Hz formatted as follows ST DDDDD DDDDDD HZ CR LF amp EOI For frequencies with more than 3 signifi cant digits after the decimal point or ST DDDDDDD DDD HZ CR LF amp EOI For frequencies with 3 or less significant digits after the decimal point e Sweep Stop Frequency After receiving ISP the hp 3336 will send the frequency in Hz formatted as follows SP DDDDD DDDDDD HZ CR LF amp EOI For frequencies with more than 3 signifi cant digits after the decimal point or SP DDDDDDDD DDD HZ CR LF amp EOI For frequencies with 3 or less significant digits after the decimal point f Sweep Marker Frequency After receiving IMF the hp 3336 will send the frequen cy in Hz formatted as follows MF DDDDD DDDDDD HZ CR LF amp EOI For frequencies with more than 3 signifi cant digits after the decimal point or MF DDDDDDDD DDD HZ CR LF amp EOI For frequencies with 3 or less significant digits after the decimal point g Sweep Time
69. the following figure 5 4 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Adjustments SPECTRUM ANALYZER LOW FREQ 750 OUTPUT IMHz LOW PASS FILTER REFERENCE SYNTHESIZER EXT REF OUT Figure 5 1 API 100 kHz Spur Adjustment Set Up NOTE 1 This adjustment procedure applies only to newer hp 3336s with the A21 Frequency Synthesis board not the original A1 board On the old Al assembly R107 is not adjustable NOTE 2 Although A21TPl1 is used as a monitoring point in the previous adjustment API Current Source Adjustment paragraph 5 13 it cannot be used with this adjustment set up because the 141T 8552B 8553B has a 50 Q input only d Set up the spectrum analyzer as follows pnr c PE 0 11 MHz center freguency 100 kHz scan width e kon ko w kaa n ak ac aran ao 20 kHz div bandwidth kikonk kankan a ads 3 kHz Scal mE an ok ande e a br a a ATA perd 10 msec div VIGO IE kak wal ar de ve mo as po ape e 10 kHz ref level ad srne Y kin sesa 40 dBm e Misadjust A21R107 until the 100 kHz spur is clearly visible f Zoom in on that spur by adjusting the center frequency and scan width then the band width and scan time until the analyzer is adjusted to center freguency 100 kHz Scan width noga we ai kaba cake nan 0 1 kHz div bandwidth css
70. 0 1x 125 F TCuOsei00 19701 MFUC 1 Aw TO ZOROME A3R207 0757 0401 RESISTOR 100 1x 125 F TCwOee no 24546 Cuo1 BaTOuid1eF A3RZ0S 075700384 RESISTOR 20 1X 125 F TCRO e100 19701 F C1 ReTOe20ROeF 438209 0757 0420 RESISTOR 750 1X 125w F TCeneeton 24506 C e1 BeT0e751 7 4352 10 07570300 RESISTOR 20 1x 125x F TCuOse100 19701 ME UCI BoTOm20RQUF ASR211 978720420 RESISTOR 750 1x 125 F TCabewino 20506 Chwi BeTOu S1eF AZR213 0757en3A4 RESISTOR 20 1x 125 F TCutowino 19701 MFUC1 BaTowz2090 AzR210 075700291 RESISTOR 24 9 1x 125w F TCznsel0n 19701 MFuC1 RetTOeguggel ASRZIS 06831825 RESISTOR 1 AX Sx 25m FC TCweu0n 700 ant t C81825 AZR2I6 0757 0394 RESISTOR 51 1 1x 125W F TCwOeet00 24546 CUwi STOSIRI F ast 916024038 5 1 TRANSFORMER 910044038 AST 0n552 60u4 TRANSFORME Rebu TURNS n8552 6004 A3U1 182021901 IC CNTR TTL LS OECD DUAL UeBIT SUTULSIOON A3Ue 182000629 IC FF TTL Jox NEGSEDGESTPIG SNTUS 12N ASUS 182000321 IC COMPARATOR GP T0999 sN72710L Agua 1820 1199 It INV TTL LS HEX 1eINP ANTUL IOUN ASUS 182020693 IC FF TTL DeTvPE POSSEDGESTRIG SN74087 N A3U6 182060683 IC INV TTL MEX 1eINP SN7USOUN ASU 1A2001 920 IC INV TTL MEX NATOJN Agus tA26 0na3 I OP AMP GP Theoe CA3077 agua 182001568 IC BFR TTL LS RUS Q SNTULS125AN A3U1O 142081195 IC FF TTL LS DeTYeE POSeEDGEeTRIG COY 01295 SATULSI SN A3Ut 1 182600437 IC MULTIPLIER jgeDIPeC 24713 C1495L agus 18260476 IC SWITCH ANLG ReDIPeP a1295 TL601C9 A3U13 1826 0111 IC OP A
71. 0023383 Rag POMSeGT OS a RESISTOR uT 5x 254 FC TCa u00 5J0 91121 C8uTns 891 aesRwavai A RESISTOR 1 96x ix 125 F TCHQeutoo 24546 Cuel ReTO 196l F R92 Gor3win s 9 RESISTOR 1k 5x 25 FC TC3 400 600 01121 C81o25 R93 0683 1015 7 1 RESISTOR 100 5 25W 28480 0683 1015 R94 0683 1015 7 1 RESISTOR 100 5 25w 28480 0683 1015 R96 O75Tead21 a RESISTOR 825 iy 125W F TCage ion 24546 Cuot BuTou825R F Rot Nos Se2225 3 a RESISTOR 2 2K 5x 25W FC TCas4u00 T00 01121 CB2225 R98 06832225 3 RESISTOR 2 2k 5x 25K FC TCowuoo eTou 01121 CB2225 R99 Corse 3154 0 1 RESISTUX 4 ZZK 1X 125n F TCadewion 24546 Chui BwTOmA221 F R101 De83e1025 9 RESISTUR IK 5x 25m FC TC3e 00 600 01121 CBI1025 R102 ova3w2225 3 RESISTOR 2 2X Sy 25w FC TCawuonyeTo9 01121 C82225 RHOS 063304105 A RESISTOR UT 5 25 FC TCa u00 500 01121 CBUTOS Riow 3 2235 5 1 RESISTOR 22K 5x 25n FC TCmwuoosyeBun ott t CBa235 R10b 068301035 1 RESISTOR 10x 5 25w FC TCawuooyeTno HI CB1035 ROT 2160 056T u 1 RESISTORLTAMR 2x 10 C TOPRADJ eTRN 28080 2100 056T R108 069809083 8 RESISTOR 1 96X ty 1254 F TCagentoo 2050o Cu 1 8 TOs1961 F R109 0683 1015 7 1 RESISTOR 100 5 25W 28480 0683 1015 RILI 0683 1015 7 1 RESISTOR 100 5 25W 28480 0683 1015 R112 0751e0421 a RESISTOR 625 1x 125W F TCaoewion 24546 Chwi Be T ORB 25K oF R113 TSTwudto T 3 RESISTOR 11 1 t25W F TCanemiOU 24546 C s1 he TO S11K F LUI 915Tecute T RESISTOR 511 1X 125 amp F TCHO 100 24546 Cu 1 8eTO 511n F Ritb 008304105
72. 01011001 3 di1111061 00011216 ommes 072 01011010 annos 90c11011 nta ou 5 01011011 i 01111011 0001 100 00111100 97 0 91110 01111100 9001110 3 5 O10 BE 5 3 J111115 20011116 ij 5 2 01011110 onna Q00t 1 1 Quin A 13 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix B APPENDIX B hp 3336A B C Programming Times 3 B 1 Approximate Programming Times 3 B 2 The hp 3336 processes each programming code as it is received when in Data Transfer Mode 1 The 3336 can not receive the next program code until the previous code has been processed Approximate times are supplied so the operator can predict program times more accurately This ability allows the program to be executed at its fastest rate without any loss of accuracy arising from not allowing for enough settling time In Data Transfer Mode 2 these times still apply except the Program Codes are not processed until the EOS character is received see Paragraph 3 156 3 B 3 In addition to the program times each character requires 150 to 200 seconds to be received from the HP IB This is the transfer rate when Data Transfer Mode 2 is used The processing times however still exist and processing starts when the EOS character is receiv ed At this time the controller is free to perform other function w
73. 01121 CB2225 44529 6323 2225 3 RESISTOR 2 2X Sy 25 FC Tleedons 700 1121 CBa225 A RS1 6R3 1035 1 RESISTOR tOK SX 25A FC TCmeunnz 700 a121 C81035 AURI 068321035 1 RESISTOR 10k Sx 254 FC TCuounns 7On anit C81035 AuRSA 0e83e1n25 9 RESISTOR 1121 C81925 AuRSa 065325635 5 ki RESISTOR 21121 85635 AURIA NERS e235 5 1 RESISTOR 22x 5x 254 FC Tleeuoos saan LEKSI CB2235 44537 n6R3 2225 4 RESISTOR 2 2K Sx 25 FC TC amp e400 470 91121 C82225 44434 075700289 2 3 RESISTOR 13 3k 1 1254 F TCMO 100 19701 MFaC1 8 T0 1332 F auRzo 0757 0442 9 8 RESISTOR 19k X 1255 F TCunseton 24546 Cae1 8 T0 1002 AuRuo 2100en558 9 1 RESISTOGeTRVR 20x 10 C TOPeADJ 1eTRN 28480 210000558 kuhuy 075700289 2 RESISTOR 13 3x x 125n F Tleotelco 19701 MEC 1 8 T0 1332eF kunaa 06 3e2015 a 1 RESISTOR 200 Sx 25w FC TCEe409 4630 21121 c82015 See introduction to this section for ordering information Indicates factory selected vaiue 6 1 1 Guaranteed 888 88 SOURCE www artisan scientific com Artisan Scientific Quality Instrumentation Table 6 3 Replaceable Parts Reference infi Mfr i nati Descri fr Part Number Designation ption Code Mfr Pa be MURUS 0757 0442 9 RESISTOR 10K 1X 125 F TCmneninn 24546 Caet BetOe1002eF AuRGu 0757aga41 s 1 RESISTOR 8 25K iX 125a F TCmoeein
74. 06029436 PUSHRUTTON SWITCH MOUNT 28480 060 9436 4258w20 So6ngu36 PUSHBUTTON SWITTEN MOUNT 28480 506020436 a25gw21 50609436 PUSHBUTTON SKITCH OUKT 28460 506029436 425822 5060 9436 PUSHBUTTON SWITCH Mount 2Au 0 506049436 A258w23 5050 9436 PUSHBUTTON SWITCH MOUNT 28480 506099436 A25snwau 5060 9436 PUSHBUTTON SWITCH MOUNT 28480 506099436 A253028 506029436 PUSMRUTTON SWITCH MOUNT 28u80 506029436 A258w26 506009436 PUSHBUTTON SAITCH MOUNT 28480 506099436 A258w2T 5060294036 PUSHBUTTON SWITCH MOUNT 28480 506909436 A258428 506049436 PUSHRUTTCN SAITCH MOUNT 28480 50609436 5sw29 506099436 PUSHBUTTON SWITCH MOUN 28480 506099436 A258sw3n 506029036 PUSHBUTTON SWITCH MOUNT 28480 506029436 4A25gn31 506029436 PUSMBUTTON gwITCH MOUN 23480 508029035 A258w32 5060 9436 PUSMBUTTON S ITCH MOUNT 28450 506029436 A258w33 5060 9036 PUSHBUTTON S ITCM MOUNT 28480 506029436 A2Ssw3u 5060 9436 PUSHBUTTON SWITCH MOUNT z6uba 506099436 4258436 506549436 PUSHBUTTON SAITCH MOUNT 28480 506049436 2233431 508029436 PUSHBUTTON SWITCH MOUNT 28480 506109036 A25SW39 3101 2441 1 SW PSHBTN 28480 A25SW39 A2501 199020592 it OISPLAYeNUMeSEG jeCHAR uZeM zBaso 506227653 42502 199000592 DISPLAveNUMeSEG JeCHAR 28480 508207653 A2503 199000592 DISPLAYeNUM SEG teCHAR 28u80 50A207653 LELIT 19990592 OISPLAYeMUMeSEG 1eCHAR 28480 508247653 A2505 199020592 DISPLAYeMUMeSEG 1eCMAR 26466 508207653 A2506 199000592 OISPLAYNUMSSEG taCHAp 28480 50827653 A25UT 199000592 DISPLAYe UMASEG eCHAR 28480 08267653
75. 073879 0186023879 0185023847 016023847 018023847 0160 4571 016023847 0185023847 1185073485 0180 4532 0160 4571 0160 0182 018070182 016073847 0186073847 01860 4871 0185074571 AbJUK 016080128 916980128 0160 5335 01603558 150D335x001542 1500156x902082 0160 0576 916084640 0160 5335 016023847 116093847 DMISFI51JA300AVICR DV15ES80JO300nv1CR 0118093578 0160 5306 0160 3558 0160 5306 0160 3878 15720106005 n160 0127 150D106x9020B2 6160 0127 150 106X 902082 116003558 016093558 0160 3558 016023558 0160 2252 0160 5306 0160 5306 016093558 0160 3558 016083558 016083558 0160 5306 SO24EM100RD2214 0140 0193 0160 2203 018073558 116083558 016023558 300758G 18CC 2 016023558 016083558 018023558 018023558 016083558 016083558 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com 6 9 Table 6 3 Replaceable Parts Reference HP Part Designation Number Description Mfr Part Number AuCito 916003558 AuCiun 0182020210 AuCtat O1 8081746 AuCtu 0180 1748 auCray 0160 0128 CAPACITOReFXO 1UF e20X SOVDC CER 0180 3558 CAPACITOReFXD S 3UFee20X 15VDC TA 1500335x001542 CAPACITOR FXD iSUFeelOX ZOVDC TA 1500156x902082 CAPACITOReFXD SUFeeloX 20VDC TA 5 1500156x902082 CAPACITOReFXD 2 2UF ve20X SOVDC CER 0180 0128 CAPACITDReFXD 2 2UF ee2oX SoyDC CER 01850 0128 CAPACITOREFXD JUF e20X SOVDC CER 016053558 CAPAC
76. 081 2301 INSUL INPUT JI 3336A 001 5051 1593 INSUL INPUT J2 5941 1493 INSUL INPUT J CONNECTOR ADDRESS SWITCHES RPG LIGHT BULB 28489 RGR 28486 zeun 284An 28480 284An 28480 ZAUAN 2Au8 28uRD 2858 28086 28uB 284An 26489 28480 28480 28480 28480 28480 28480 28480 28480 28480 2R480 26185 ZAUR Ruan 28480 Pease 28481 RUB ZRUKA 2P ake PAUR 2R4B4 2BURL aea Sugu 2anar 24480 ENS 224460 PB 20506 2454 2454 26545 121 24546 28480 28480 28480 28480 24454 PELRO 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 3316260511 516023558 016093558 010023558 Oiana3ssA vi n 35sa 016023554 nigna3ssA 0160 3558 0169 3558 018043558 vibra3ssa 6160 3558 1993558 ttyita365R lara355A 0160 0161 0160 2207 0160 2208 0160 2209 0140 0200 0160 2207 0160 2208 0160 2209 0140 0200 16920572 mibnansTZ nibnansy 016222198 niere3Gt4 f16n2087 amp Olbne ubn alenant niguaris72 DIN vie 0160 0161 416041558 AGO a LA aruo olur Bure rad Qtuianza4 814he0251 91u0e6255 O union no C et Ae Tue 701 ap Chat AaTviantI2aF Cuei AoTuab7O aF O REPE TALI CAPIGS Coat Ee Te 3321 OF C22 65 0698 4421 0698 4386 0698 4421 0698 4386 219944454 Clone dang 03336 60606 03336 61220 03336 64111 03336 61203 03336 61204 5041 2302 5041 2301 5041 1493 5051 1593 03336
77. 0x SOVDC CER 28489 0160 3827 A3C57 0100 2265 3 2 CAPACITOReFXO 22PF e5x SANVOC CER ne 30 24080 0160 2265 ASC SA 0ten 2285 H CAPACITOReFXO 22PF SX SAOVNC CER na 30 28480 nie 2285 ASCS9 016003807 9 CAPACITOR FXD 01SUP w20X SOVOC CER 28989 9160 3847 ASCe O160 3847 9 CAPACITORRFXD n1SUF w20x SOVOC CER 28480 016023847 ASCION 916003558 9 CAPACITOReFXD 1UF 20K SAVOC CER 28080 0160 3858 ASC 06 416082252 8 1 CAPACITOR FKD 6 227 se 25PF SOOVOC CER 28480 0160 2252 ASCIOT n160e2266 a 1 CAPACITOR FKO 2UPF wSX SAOVNC CER ee30 28480 01092266 ASCLOA 9t 0 1746 5 CAPACITOReFXO 1SUF 10X ZOVDC TA 56289 1500156x902082 ASC 109 0160 2201 7 1 CAPACITOReFXO SIPF 5x SnovNC VICA 28480 0160 2201 ACISI 0160 2284 2 CAPACITOReFXO 2nPF eSX SAQVOC CER 30 28480 0160 2254 AMI 616022307 a 2 CAPACITOR FXO 47PF s 5X SnOVDC MICA 28480 0160 2307 ayers atonw22en 8 1 CAPACITOReFXO 30F SX SoOyDC CER Asega 28480 116002260 ASCI14 016002307 4 CAPACITOReFXO 47PF SX 3060vOC VICA 28480 0160 2307 DELSET 0180 1746 s CADACITOReFXD 1SUF wiAX 20VDC TA 56289 150D015ex902082 AMCUIT 0166 3A07 9 CAPACITOR FXO n1S8UF ee2 x SOVOC CER 28480 016023847 ASC 116 0160 3847 9 CAPACITOReFXO ni1SUF eszax SCVOC CER 28480 016023847 430119 0160 3847 9 CAPACITOReFXD a1SUF s 20x SOVOC CER 28480 916003847 ASC 120 o16swZz44 a 3 CAPACITOReFXO SDF w 25PF SooVDC CER 26480 niboszzu4 ASC t t 0140 0190 7 u CAPACITOReFXO 39PF SX 3onvoC MICA 72136 DMISESONINSOOAVICR asCi22 0160 2251 2 CAPACITOR
78. 10 Hz 100 kHz 1 MHz 10 MHz 20 9 MHz Reference Level 8 50 8 50 8 50 8 50 8 50 Amplitude Setting T C Error 3336 Flatness 75 ohm 10 Hz 100 kHz 1 MHz 10 MHz 20 9 MHz Reference Level 5 00 5 00 5 00 5 00 5 00 Amplitude Setting T C Error 3336 Flatness 4 44 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ATTENUATOR ACCURACY 4 18 10 dB 1 MHz 10 MHz 20 MHz vi v2 20 log V1 V2 Ref Attenuator Errors 3336 Attenuator Error 20 dB 1 MHz 10 MHz 20 MHz vi v2 20 log V1 V2 Ref Attenuator Errors 3336 Attenuator Error 40 dB 1 MHz 10 MHz 20 MHz vi v2 20 log V1 V2 Ref Attenuator Errors 3336 Attenuator Error 70 dB 1 MHz 10 MHz 20 MHz v1 v2 20 log V1 V2 Ref Attenuator Errors 3336 Attenuator Error PHASE INCREMENT ACCURACY 4 20 Increment Size Lower Limit Measured Time T2 T1 Upper Limit 312 2 22 ns lt lt 3 33 ns 10 27 22 ns s 28 33 ns 100 277 22 ns lt lt 278 33 ns 4 45 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ON CARRIER RETURN LOSS 4 22 3336A 100 kHz 1 MHz 2 09 MHz TO MHz 20 9 MHz 75 ohm lt 30 lt 30 lt 30 150 ohm 30 30 30 3336B 75 ohm 30 30 30 124 ohm 30 30
79. 1000 110 72 48 dBm D 01000100 104 68 44 B 01000010 102 66 42 Degrees D 01000100 104 68 44 E 01000101 105 69 45 Seconds S 01010011 123 83 53 E 01000101 3 27 Artisan Scientific Ouality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C Table 3 2 Instrument Programming Codes Data Receive Binary Decimal Hexadecimal Instruction Code Code Code Leveling Loop Speed Fast F 01000110 46 Leveling L 01001100 4c Off a 00110000 30 Fast F 01000110 106 70 46 Leveling L 01001100 114 76 4c On 1 00110001 061 49 31 Data Transfer Mode Mode 1 M 01001101 115 77 4D D 01000100 104 68 44 1 00110001 061 49 31 Mode 2 M 01001101 115 77 4D D 01000100 104 68 44 2 00110010 062 50 32 Sweep Mode Linear Sweep S 01010011 123 83 53 M 01001101 115 77 4D 1 00110010 061 49 31 Log Sweep S 01010011 123 83 53 M 01001101 115 77 4D 2 00110010 062 50 32 Assign Zero A 01000001 101 65 41 Phase P 01010000 120 80 50 Start Single S 01010011 123 83 53 Sweep S 01010011 123 83 53 Start Continuous Sweep S 01010011 123 83 53 C 01000011 103 67 43 Store Program S 01010011 123 83 53 R 01010010 122 82 52 plus one digit O thru 9 Recall Program R 01010010 122 82 52 E 01000101 105 69 45 plus one digit O thru 9 Masking Service Requests M 01001101 115 77 4D S 01010011 123 83 53 and one of the following o 01000000 100 64 40 A 01000001 101 65 41 B 01000010 102 66 42 Cc 01000011 103 67 43 D 01000100 104 68
80. 1054C 1 MHz Low Pass Filter TT Electronics Model J903 a Connect the equipment as shown in Figure 4 10A b Set the 3336 s amplitude of 7 00 dBm 75 ohm and frequency to 20 MHz c Tune the spectrum analyzer to the 3336s output signal and set a 0 dB reference level Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C d Without changing any controls which will affect the reference level tune the spectrum analyzer to the following frequencies and measure their relative amplitude 100kHz 1MHz 2MHz 30MHz e All spurious signals should be more than 70 dB below the reference level f Set the 3336 sweep controls as follows SWEEP START FREOUENCY 11 MHz SWEEP STOP FREQUENCY 19 MHz SWEEP TIME 5er tied ahaa na ed 5 seconds g Set the spectrum analyzer controls as follows START FREOUENCY LLLLL ee 10 MHz SCAN WIDTH e cenensrevpreens th ik a eere I MHz DIV BANDWIDTH 30 kHz SCAN TIME 20 ms DIV h Press the 3336 CONT key i Set the spectrum analyzer controls to display the 3336 output signal and a 2 1 mixer spur As the 3336 output signal sweeps from 11 MHz to 19 MHz the 2 1 mixer spur will sweep from 19 MHz to 11 MHz Measure the amplitude of the spur relative to the 3336 out put signal reference level j All spurious signals should be more than 70 dB below the reference lev
81. 107 Beginner s Guide The quickest and easiest way to get started with the HP 1B is to use a Beginner s Guide if one is available for the controller in your system A Beginner s Guide has been prepared using the hp 9825A Desktop Computer at this time The guide contains descriptions and excercises that illustrate most of the hp 3336 HP 1B operations and enough of the hp 9825A Input Output characteristics to allow the operator to write working programs It may take as little as 60 minutes for an inexperienced operator to com plete all the exercises in the guide The Beginner s Guide is published as a Programming Note and additional copies may be ordered from your hp Sales and Service Office Order Programming Note 03336 00002 hp 3336 9825 HP 1B Beginner s Guide 3 108 Quick Reference Guide A comprehensive yet succinct description the hp 3336 HP 1B operation has been developed for those operators who are already experienced with the HP 1B One important use for this guide is to include it in your system documentation The Quick Reference Guide is published as a Programming Note and additional copies may be ordered from your hp Sales and Service Office Order Programming Note 03336 00001 hp 3336 HP 1B Quick Reference Guide 3 109 Special Operating Considerations lf possible lock all instruments to a single fre quency reference This will greatly simplify the tuning subroutine in the controller s pro gram Use the most accurate f
82. 125x F TOMA 24506 ChetsBuTQOnuto2teF AuRauT 075720465 e RESISTOR 100K 14 125w F rCa0 e100 24840 Chet ButOu1003eF AuRzUA 009808319 9 2 RESISTOR 10X 1x Jin F TCanewi0 19701 02321 8 T13 1002 F AuR2u9 069863955 s 1 RESISTOR 1 4X 1x IN F TCao 10 28480 069803955 AuR2SO 009803179 s 1 RESISTOR 2 55k 1 125x F TCa se100 245860 C4e1sBoT 002551 AuR2S1 0757 0429 e RESISTOR 20K 1 125 F TCagee100 24546 Cho 1 BwTOw2002 F AuR2S2 0698 4487 b 3 RESISTOR 48 7K 1x 125 F TCudsei0o 24540 CUol BuTOou8TZEF AuR2sy 0b9Bousn7 RESISTOR a8 7k 1 1255 F TCRO e100 2u5 b Cawi BeT0o487Z2eF AuRasu 909804497 e RESISTOR 48 7K 1x 125m F TCaoewion 24506 C et BeTO 0872 F AuR255 2100 3214 o 3 RESISTOReTRMR 100K 10 C TOPeADJ JeTRV 28080 2inoesara A uR28b 2100 3214 0 RESISTOReTRMR 100X 10 C TOPeA4DJ 1etRN 28480 210003214 4248257 21093214 o PESTSTOR TRMR 00x 19 C TOPWAOJ 1eTRN 28486 210003214 AuR2SA dosBeEIIA 8 RESISTOR 10K IX 1A F TCedeetn 19701 02311 8 T13 1002 F AUR288 2100 3088 7 1 RESISTORSTRM2 Sk 10 C TOPeADJ 17eT2N 32997 3202 He 1 502 44260 0598 3953 1 1 RESISTOR 9 82 1x viw F TCMouwio 28480 009503953 AuR2k1 21000329 a 1 RESISTORSTRMR ix 10 C TOPSAJJ LTeTRN 26080 210063296 mr 25 3550 8 1 RESISTOR 9 18k 1x lA F TCaO e10 28480 0698 3054 AUR 263 06983057 1 D RESISTCR Jaak x in F TCanee n 28u80 06083957 AURZOU ATSTegua 2 s RESISTOR 10K 1 1254 F TCBO e1 0 24546 Chwis BuT Oui 002EE Ppt zi L Artisan Scientific Quality Instrumentati
83. 2 RESISTCR 75 2 14 YO TCsO e260 28480 078070026 AURIU 975720346 2 3 RESISTOR 10 1 125m F TCeneeluO 24546 COel BuTOel RO AaRy ae 175740346 2 RESISTOR to 1 1254 F TCe0ee100 24546 C ei Bet e10ROeF auRia3 070000020 2 RESTSTOR 75 2 YO TCenee2nn 28u80 070000020 AUR Ga 975790280 3 9 RESISTCR tK 1 1250 F fCwOeelun 24546 Chut ButGel001eF KUR yas 069848155 1 1 PESISTOG 0 ix iw F Tlacee25 T71b BRSeleT9e SOROR AURI 46 075 7egu 2 5 3 RESISTOR 200 1 125w F TCeneejno 24546 C el 8eT0e2003eF Aaya A698wana2 9 1 RESISTOR 17 4K 1 1256 F TCmase100 03888 ai sBaToel 7420F AURI UR 075 Two2A4 7 1 RESISTOR 150 1x 1 284 F TCenee 00 24546 Cdet BoT Owl SiaF AUR a9 9698 4123 5 RESISTOR 499 iy 125 F TCEbeejna 24546 Cho1 BeTQuNAAREF 4248 150 069828345 1 2 RESISTOR 64x 1 125a F TCmdsei0o 28480 ob9B AZUS AURIS 069807332 4 RESISTOR 1X 1X 125a F TCaneel20 28480 0698 7332 auays2 015720280 3 RESISTOR 1K 1 i25a 24546 Chel BeT0s1001 6 AGRISS 06R3e0515 o 2 RESISTOR 5 1 Sx 25n FC TemedonseSeo 21121 casics AsRI SU 069807332 4 RESISTOR 1M 1x 125a F TCadewioo 28480 0698 7332 See introduction to this section for ordering information ndicates factory selected value 6 12 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Pa
84. 21 ASKS22 ASKS 23 ASKS 24 A5KSIS A5KSI6 ASKS27 A5KS28 A5K529 A5KS30 ASKS31 ASKS3Z A5KS33 ABKS34 A5KS35 A5KS36 A5KS37 ASKS3B A5KS 44 41 0943 5041 0384 5041 0384 5041 0384 5041 0384 5041 0451 5041 0319 5041 0319 5041 0319 5091 1822 5041 0817 5051 0818 5051 0816 5041 1819 5051 1821 5041 0814 5441 0815 3041 0816 5041 1820 5041 5041 9811 5041 0812 5041 0813 5041 1817 5041 0758 3041 1819 504i 0808 5041 1798 5041 1818 5041 0285 5041 0922 5041 0922 5041 0319 5041 0319 5041 0519 5941 0319 5041 0954 C D Qty DESIGNAT KEYCAP TO A18 A s 5i si KEYCAP S KEYCAP Si 1 KEYCAP Bi 7 KEYCAP B KEYCAP B KEYCAP B KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAN KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP KEYCAP XEYCAP KEYCAP KEYCAP 1 KEYCAP Description NOTE KEYCAP DESIGNATORS CORRESPOND TO SWITCH 15 THE Wl KEYCAPS ALSO APPLY ORS EXAMPLE ASKS NO A25 FRONT PANELS MOKEPIPE MOKEPIPE MOKEPIPE MOKEPIPE MOKEPIPE LUEPIPE LK W LIGHT LK W LIGHT LK W LIGHT STORE 7 8 9 CINVERT MHZ RECALL 4 5 6 KHZ CLEAR 1 2 3 Hz DASH a PERIOD DEG DBM PEARLPIPF LEFT ARROW RIGHT ARROW CINVERT BLK W LIGHT BLK W LIGHT BLK W LIGHT BLK W LIGHT POWER M
85. 3 MP ZU MP 25 MP26 MP27 MP28 MP29 RI ul Designation Number HP Part 03325 61612 0150 0012 0150 0012 0160 0012 0160 0012 0160 0012 0160 5571 ERE 0160 4571 0160 4571 0160 4571 5041 2302 5041 2301 5041 1493 5041 1493 5041 1469 o 5041 1466 5041 2304 5041 2303 3 5041 1467 5041 1600 4 9100 3875 2110 0001 2110 0012 2100 0543 2110 0545 03336 61614 03336 61612 03336 61615 03336 61619 03336 61611 03336 61613 1250 1116 1250 1053 1251 5586 1251 5790 1251 5586 1251 5790 1250 1558 03336 64302 03336 64301 03336 64303 5040 6928 03336 29301 03336 29302 03336 29303 03336 60201 5020 8803 5040 7202 5020 8837 5060 9880 5040 7219 5060 9804 5040 7220 5060 9835 03336 60202 5020 8804 03336 66602 5040 4527 5001 0439 5060 9847 5040 7201 1460 1345 03325 61101 3150 0228 3150 0227 3160 0201 1400 0783 5040 6898 00310 48801 3050 0604 0360 1089 0683 1015 9190 0480 Table 6 3 Replaceable Parts Descrip CHASSTS AND CHASSIS MOUNTED COMPONENTS FAN CWITH CABLE C F 01yF 1000 v CAPACITOR FXD 01 UF 1KV CAPACITOR FXD 01 UF 1KV CAPACITOR FXD 01 UF 1KV CAPACITOR FXD 0t UF 1KV F lwF 20 E laF 20 1 F O I vF 20 F lF 20 75 Q CONN PLASTIC INSERT 3336A 001 150 A CONN PLASTIC INSERT 3338A 600 CONN PLASTIC INSERT 3338A 75 Q CONN PLASTIC INSERT 33368
86. 30 30 3336C 50 ohm 30 30 lt 30 75 ohm lt 30 lt 30 30 30 with Option 005 BALANCE 4 25 3336A SPEC 300 Hz 10 kHz 50 kHz 100 kHz 2 09 MHz 150 ohm 36 dB 600 ohm 38 dB 3336B 124 ohm gt 30 dB 135 ohm gt 36 dB 600 ohm gt 38 dB HARMONIC OISTORTION 4 27 Fundamental Test Largest Harmonic Largest Harmonic Frequency Fast Leveling Off Specification Fast Leveling On Specification 10 Hz 35 dB 30Hz 50 dB 50Hz 60 dB 10 kHz 60 dB 50 dB 100 kHz 60 dB 60 dB 1 MHz 60 dB lt 60 dB 5 MHz 55 dB 55 dB 20 9 MHz 50 dB lt 50 dB 4 46 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com SPURIOUS SIGNAL 4 29 Frequency Source all specs lt 70dB 100 kHz Frequency Synthesis Clock 1 MHz Reference Output 2 MHz DAC Clock 30 MHz LO Feedthru 60 Hz Power Line 120 Hz Power L ne 180 Hz Power Line 1 kHz API 1 1st sideband 2 kHz API 1 2nd sideband 3 kHz API 1 3rd sideband 4 kHz API 1 4th sideband 19 11MHz 2 1 Mixer Spur AMPLITUDE MODULATION ENVELOPE DISTORTION 4 31 Specification gt 30 dBc Result PHASE MOOULATION LINEARITY 4 33 Input Voltage Specification Tolerance Measured Results 5V 4V 3V 2V ov 1V 2V 3V 4V 5V Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE
87. 336 WARNING AC power line voltage is present at the rear panel and on the power supply printed circuit board A2 When the front panel power Switch is in the STBY standby position line voltage is still ap plied to the instrument Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Adjustments 5 1 Adjustments Model 3336A B C 5 2 Required Equipment dc Voltmeter hp Model 3466A a Measure the dc voltage at the 15V test point on the A2 Power Supply printed circuit board b Adjust A2R22 until the voltage is 15V 0 03V c Measure the dc voltage at the 5V and 15V test points These voltages should be 5V 0 05V and 0 03V respectively d If necessary readjust A2R22 until all three voltages are within tolerance 5 7 30 MHz Reference Oscillator Frequency Adjustment 5 8 This procedure sets the frequency accuracy of the 30 MHz Reference Oscillator to within 5 parts per million Required Equipment Electronic Counter hp Model 5328A with Option 010 75 ohm Feedthru Termination hp Model 11094B NOTE The hp 3336 must be ON for at least 30 minutes before making this adjustment a If the hp 3336 is equipped with Option 004 disconnect the special BNC to BNC adapter from the 10 MHz Oven Output and the Ext Ref Input b Connect the 3336 s 75 ohm output to the electronic counter using the 75 ohm Feedthru Termination at the electronic count
88. 3536 61601 UNMARKED Wi 28480 8120 2585 CABLE SYNC 28480 P O 03336 61501 UNMARKED W5 28480 8120 2585 E HP IB INCLUDES A12 PC BOARD 28480 03556 66512 BLE AMPTO MOD 28480 P O 03336 61601 UNMARKED W7 28480 8120 2585 CABLE 190 KHZ 28480 P O 03356 51601 UNMARKED W8 28480 8120 2585 CABLE 2 MHZ 28480 P O 03336 6160 UNMARKED W9 28480 8129 2585 CABLE 1 MHZ REF OUT 28480 P O 03336 61601 UNMARKED W10 28480 8120 2587 CABLE EXT R 28480 P O G1136 61601 UNMAR wil 28480 8120 2586 CABLE Z BLANK 28480 03325 61694 CABLE MARKER 28480 03325 61619 CABLE X DRIVE 73480 03325 61620 CABLE VTO 28480 05325 61606 CABLE PHASE MCDF 28430 05325 61607 CABLE PMAS OET 28480 03325 61608 CABLE S amp H 28480 03325 61609 CABLE OVEN OU COPT 004 28480 03125 61610 CABLE DC SUPPLY 28480 04525 61611 CABLE ALC 28980 03325 61605 CABLE MIXER 28680 03525 61609 CABLE FAN INCLUDES FAN B1 28480 05325 61612 CABLE HP IB POWER 28480 03525 61613 CABLE KEYBOARD RIBBON 28480 03325 61616 CABLE OVEN POWER COPT 001 28489 03325 61616 CABLE ATTEN CONTROL 28480 03336 61616 CABLE ATTEN CONTRO OPT 005 28480 03336 61617 9 CABLE MULTICONDUCT 28480 8120 3108 9 CABLE MULTICONDUCT 28480 8120 3108 9 CABLE MULTICONDUCT 28480 8120 3108 CABLE AC PO 28480 8120 1378 CABLE ASSY INCLUDES W3 W4 W5 W7 WB W9 28480 03356 61601 wid Wil CABLE OUTPUT CONTROL 28480 03336 61618 CABLE 15 V UMREG 28480 05525 61625 M CABLE SIGNAL 50 OHM AMP OUT 3336A B 28
89. 40 AuCR205 1902 0041 AuCR206 190120040 AuCR207 1901e0040 AuCR20 190120040 AuCR209 1901 0040 OLODESBWITCHING 30V SOMA 2N8 00035 190120040 OICDE SwI TCHING ZOV SOMA 2N8 DO 35 19010000 DIDDESSHITCHING ZOV SOMA 2N8 00035 190120040 DIODE SWITCHING 30V SOMA 2N8 00635 190120040 DIODE SCHOTTKY 1901 0518 AUCR 10 1901 anua aucratt 190120040 AuCR2l2 190120040 AuCRI3 190120040 aucraia 190100516 DIODE SSCHOTTKY 190120518 DIDDE SwITCHING 30v SOMA 2N8 DDe35 190120040 DIODE SNITCHING 30v SOMA 2N 00 35 190120040 DIDDE ZNR 25 5Y 5X DDe7 PDm W TCme 0BX 190203265 DIODE SWITCHING ZOV SOMA 2N8 00935 1901 0040 AuCR215 190100518 AucRate 190120040 aucrai 1901 0040 aucrata 1902 3255 A CR2l9 1901 0040 o DJODE ZNR 1N827 amp 2V 5X DDeT 1N827 DIDDE SHITCHING ZOV SOMA 2N8 1901 0040 DIODE BKIYCMING JOY SOMA 2NA 190120040 DIDDESSHITCHING 3oV SOMA 2N8 1901 0040 AacReed 1902 0680 AuCR221 190120040 AuCR222 190120040 kacra23 1901 0040 pm Aart 21100343 FUSE 25A4 125V FABTeBLO 281X 093 211090343 Aura 211020343 FUSE 254 125Y FABT BLO 281x 993 211020343 A F 101 211020343 FUSE 25A 125Y FABTeBLDO 281x 093 211020343 1251 6567 CONNECTOR 1251 6567 1251 2969 CONNECTOR PMOND AINGLE PHONO JACKI OIP 12512969 See introduction to this section for ordering information ndicates factory selected value 6 10 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com
90. 41 2304 INSUL INPUT J1 33368 28480 5041 2304 ALOMPS 5041 2303 INSUL INPUT Cul 33368 001 28480 5041 2303 ALOMP6 5041 1469 INSUL INPUT J2 33368 28480 5041 1469 AL0MP6 5041 1466 INSUL INPUT J2 33368 001 28480 5041 1466 ALOMP7 5041 1467 1 INSUL INPUT J3 33368 28480 5041 1467 ALOMP8 5041 1600 1 INSUL INPUT J4 28480 5041 1600 See introduction to this section for ordering information Indicates factory selected value 6 24 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation ant artes arco ATICY Ajita artes Aric atea 41150 aici Dnm LIRISE Ai1C13 ALITA ATICIS ATIC IT w A11C18 A11C19 A11C19 A11C19 A11C19 A11C20 A11C20 A11C20 A11C20 411612 411013 LERLE T atiCAS ALICYS 411037 arias 411049 SELETO alicot aricua A11C43 erica LIELS LIEIS Ariba AIL atily artes TET 1107 Aitor arte mi nm mL 411513 Arteta A11R15 ATIRIG A11R17 A11R18 Ayiti anita ALIMPL ALIMP2 ALIMP3 ALIMPU ALIMPA Al1MP5 ALIMPS ALIMP6 ALIMP8 A12 03335 66511 0160 0161 0160 2207 0160 2208 0160 2209 0140 0200 0160 2207 0160 2208 0160 2209 0140 0200 DI BANKI MAL II OSI Lp 540572 SiurepiBA 915 21208 03336 66512 2140 0016
91. 42500 199020592 DISPLAYeNUMeSEG eCH R 28480 508227653 A 25U9 199000592 DISPLAYeNUMe SEG teCHAR 28480 508207653 A25U10 199020592 DISPLAYeNUMeSEG telman 28480 5082 7653 A25U1t 199020592 DISPLAYe UMeSEG LeCMAR u3eH 28480 50827653 A25U12 ASBeonuT 3 TRANSISTOR ARRAY 16PIN 13606 ULNe20034 A 25U13 152021200 2 IC INV TTL LS MFX 01295 SNTULSOSN A250144 182021433 2 IC SHFeRGTR TTL L Re SERIALeIN PRL SOUT 01295 SNTAL SI GAN 425015 185820047 TRANSISTOR ARRAY 16ePIN 13606 ULNe 20034 A25Ut6 1820 1200 IC INV TTL LI MEX 01295 SNTULSOSN A25U1T 182021433 IC SNE eRGTR TTL LS Reg SERIALeIN PRL OUT 01295 SNTULSLOUN A25UIR 185800047 TRANSISTOR ARRAY 16ePIN 13606 UL 20034 A25U19 182021730 1 IC FF TTL LS DeTYPE POS EOGE TRIG COM vt295 SNTULS2 736 A25U20 182041112 t IC FF TTL LS DeTYPE POSeEDGE TRIG 91295 S TULSTUN A25U21 1825 1435 1 IC UxR DATAeSEL TTL LS 2eTOeleLINE GUAD 91295 SUTGLS75TAN 1200 0473 1 SOCKET IC 16 DIP 28480 1200 0473 1200 0638 1 SOCKET IC 14 DIP 28480 1200 0638 See introduction to this section for ordering information Indicates factory selected value 6 34 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference c202 C203 C205 El FI FI Fx1 FXC1 Ji J2 43 Ju J5 THRU J16 MPI MPL MPL MP2 MP3 MP3 MP3 MP4 MP5 MP6 MP7 MP8 MP9 MP10 MP11 MP12 MP13 MPI4 MP15 MPI6 MP17 MP18 MPL9 MP20 MP21 MP22 MP2
92. 480 03336 61603 3 CABLE SIGNAL 50 OHM 3336C 28480 03336 61602 STRAIN RLF USED ON W27 28480 1251 4288 BNC TO BNC REF JUMPER 28480 1250 1499 6 36 Artisan Scientific Quality Instrumentation See introduction to this section for ordering information ndicates factory selected value Guaranteed 888 88 SOURCE www artisan scientific com e see Looking for more information 4 Artisan Scientific Visit us on the web at http www artisan scientific com for more information QUALITY INSTRUMENTATION GUARANTEED Price Quotations Drivers Technical Specifications Manuals and Documentation Artisan Scientific is Your Source for Quality New and Certified Used Pre owned Equipment Tens of Thousands of In Stock Items Fast Shipping and Delivery Equipment Demos Hundreds of Manufacturers Supported Leasing Monthly Rentals Consignment Service Center Repairs InstraView Remote Inspection Experienced Engineers and Technicians on staff in our Remotely inspect equipment before purchasing with our State of the art Full Service In House Service Center Facility Innovative InstraView website at http www instraview com We buy used eguipment We also offer credit for Buy Backs and Trade lns Sell your excess underutilized and idle used equipment Contact one of our Customer Service Representatives todayl Talk to a live person 888 88 SOURCE 888 887 6872 Contact us by email sales artisan scientific com Visi
93. 5 A2R36 0686 5115 k2R3 0bR6 S115 A2R41 0683 1005 A2R42 0683 1625 A2R43 0683 3025 kasi B1oter ted arse BiMteroaa savi 19060098 au 182690346 A2U3 182600346 agua 1a28 n346 AV 1 0837 0120 FELE 211600269 AQMP 1 03325 61101 A2MP2 03325 21101 A2MP3 0340 0564 A2QL 1853 0453 A2Q2 1854 0800 A203 1853 0450 A2012 1853 0450 A2013 1853 0066 7120 6712 0340 0620 oco wc Ban PHEN HER 2504 eo on Table 6 3 Replaceable Parts Description RESISTOR 100 Sx 255 FC TCm 4nosesnn RESISTOReTRHR iK 10 C TOPeADJ 17 TRN RESISTOR 15K 1x 2125 F TCw0 25 RESISTOR SK 1X 125A F TCuote25 RESISTOR 100 5x 254 FC TC8 200 500 Mfr Part Number CB1015 210093296 669826619 PMESSNI BeTISSJOLle C81015 RESISTOR RESISTOR 12 5K 1X 1250 F TCm0ee25 B 64K 1x l25w F TCUO 25 1 RESISTOR 1 18K 1x 125 F TCmQee 00 RESISTOR 100 SX 25 FC TCme400 e500 1 RESISTOR 10K Sx 255 FC TCS 400 700 RESISTOR a k 5x 25 FC TCme400 70h RESISTOR 10K 1x 125w F TCmOte25 1 RESISTOR 100K SY 25 FC TCMe4OOIHBNO RESTSTO 20K SX 25 FC TCH 400 800 1 RESISTOR 510 5 1 RESISTOR 510 SX 54 CC TCROt529 4 RESISTOR 10 5 25W 1 RESISTOR 1600 5 25W 1 RESISTOR 3000 5 25W 1 SATTCHeSL SPOT MINTR SA 125V4C 0C PC 1 SHTTCHeSL DPOT STO PA 250VAC SLOR LUG 1 DIONE Fw BROG 200V 24 3 IC OP AMP GP DUAL BeDIPeP IC OP AMP GP DUAL BeDIP HP IC OP AMP GP DUAL BeDIPeP 1 VARISTOR 130V 1 FUSEKDL
94. 5 Rus 064341025 9 RESISTOR 1K Sy 25w FC TCa u00 600 o112t CB1025 Ride 068321035 1 RESISTOR 10K 5 25w FC TCM 4dooseT00 91121 C81035 RIAT 085321035 1 RESISTOR 10x 5 25w FC TC8 u00 T00 01121 CB1035 R148 068307515 a 1 RESISTOR 750 5x 25w FC TCumaooseooo 01121 C8T515 R149 068371035 1 RESISTOR tox 5 25N FC TC8 u60 To00 01121 CB1035 R150 068323325 6 RESISTOR 3 3K 5x 25n FC TCa 4u00 100 01121 C83325 R151 0o83e1035 i RESISTOR 10K 5 25w FC TC 01124 CB1035 R152 068321035 1 RESISTOR 10K 5 25w FC TC 91121 C81035 Ret 068302415 3 1 RESISTOR 240 5x 25w FC TC 01121 CB2u15 R162 008 3e uToS s RESISTOR 47 5 25 FC TCa 00 500 91121 CB4To5 R163 068321005 3 3 RESISTOR 100K 5x 25w FC TCmwtyoseboo 91121 CB1045 Rieu 068304735 f 2 RESISTOR ATK 5X 25w FC TCa 400 800 01121 CB4T35 R195 068321045 z PESISTOR 100K Sx 25w FC TCOmu0O 800 01121 CB1045 Ries osaz uT35 u RESISTOR UTK 5x 25 FC TC3e400 800 01121 CBuT35 ROT 0e83 uT25 2 RESISTOR amp TK 5x 25 FC TCae pp eToO 01121 CBaT2S Rios 68371035 1 RESISTOR 10x 5 25 FC TCm 400 TO0 01121 CB1035 RO 069823516 o 1 RESISTOR T 32K 1X 125 F TCagewtoo 24546 Cum1 8 10 7321 F RiTO 0663 2025 ka 1 RESISTOR 2 4X 5x 25 FC TCa 4u00 T0O 01121 cazas RITI 0157 1094 9 1 RESISTOR 1 TK 1x 125R F TCmoewtoo 24546 COn1 BuTOm ATi ak R112 063 1025 3 RESISTOR ix 5X 25w FC TCBe400 600 01121 C81025 R113 065371045 3 RESISTOR Look 5 25w FC TCmwavo Boo 21121 C81045 RTU Oeasest25 8 1 RESISTOR 5 1X 5x 25
95. 5 9 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Adjustments Model 3336A B C These values are set by adjusting the dc offset and gain of the amplitude reference amplifier Required Equipment ac voltmeter hp Model 3455A with Option 001 or hp Model 3490A 50 ohm feedthru termination hp Model 11048C 75 ohm feedthru termination hp Model 11094B 75 ohm cable NOTE The 3336 must be ON 30 minutes before attempting this adjust ment a Connect the ac voltmeter to one of the unbalanced outputs using the proper feedthru termination at the voltmeter s input b Set the output amplitude to 2 99 dBm using the 75 ohm output Set the frequency to 10 kHz c Adjust A4R259 until the ac voltmeter reads 194 Vrms 5 mV d Set the output amplitude to 7 00 dBm e Adjust A4R261 until the ac voltmeter reads 6130 Vrms 1 mV f Repeat Steps b thru e until both voltages are within their tolerances Go to Step h if it is not possible to set these voltages g Set the output amplitude to 3 00 dBm h The ac voltmeter should read 3868 Vrms 1 mV If this voltage is out of tolerance perform the following adjustments and ther try this adjustment again Multiplier Input and Output Offset 5 17 e 10 2 Vdc Reference Voltage 5 21 DAC Offset Voltage 5 23 Leveling Loop Amplifier Zero 5 25 Leveling Loop Bias 5 27 5 31 Output Amplifier Flatness Adju
96. 5 FC TCaeu0g Son att t CBu705 ARAA 683eu715 0 RESISTOR 470 Sx 25 FC TCuwaoo ebon 01121 CB4715 AYRUS n683e1035 4 1 RESISTOR 10x Sx 25 FC Tleeunose700 21121 C81035 A057 031945 3 RESISTOR 100K Sy 25u FC TCuwaonyeB00 01121 CB1048 AyRSA 0757 0uu2 9 RESISTOR 10K X 125u F Tladewing 24546 CuwisBwtOni00Z F AYRSS 0683e1025 9 RESISTOR ix Sx 25 FC TC amp eu00 600 01121 C81025 4 R61 G6ATY47O5 8 RESTSTOR 47 5X 25w FC TCasu00 500 att t CB4705 DI 0757 48 6 1 PESISTOR 20K 1x 125W F TCe0 ei00 duse CUwt BuT Ou 20020F A3R61 060823156 2 RESISTO 14 7 1x 125w F TCane i00 24546 C e1 8eT0 1u72eF 43866 069863279 o 1 RESISTOR 490K 1x 1254 F TCsO eino 20508 CUut BuTOu499LEF A3967 2757 0242 9 RESISTOR 0X 1x 125x F TCsO e100 24546 Cue 1 8e10 1002 F AyRAR 2100 0587 o t RESISTORSTAMA 2K 10x C TOPRADJ 1eTRN 28480 21000567 45460 a698wa202 1 D RESISTOR B 87K 1x 25 F TCsn ei00 dusi Chwi BuTO SETI LF AVR 0683 0705 a RESISTOR 47 54 25A FC TCunuposeSoo DEREZ cBu705 ASRTS 06830705 8 RESISTOR 47 SX 25a FC TCmounQ eSnO 21121 C84705 ARTA 0 amp 3e0705 a RESISTOR 47 5X 25n FC TCamannseSon ot121 C84705 ARTT 0757 n 0 a RESISTOR 100 iX 125 F TCubewt00 24546 Cuer ButOel ater A VRTA 075 Twnwat 9 RESISTOR 100 X 1254 F Tladewja0 24546 Cawt BuTOn1A1 F ARID 983321925 M RESISTOR Im SX 25m FC TCa 200 600 oti t C81025 A3RB1 0698 3581 7 1 RESISTOR 13 7K 1 28480 0698 3581 AYRAD O75 720273 n 3 RESISTOR 3 01X 1x 25 F TCaneuino 24546 Chel BeTOoSOL LaF AI
97. 5 ohm output 600 ohm output Model 3336A and 3336B 72 dB for a 3 kHz band centered 2 kHz either side of a 20 MHz carrier Model 3336C 64 dB for a 30 kHz band centered on a 20 MHz carrier excluding 1 Hz about the carrier 3 peak to peak maximum measured per Bell System Technical Reference PUB 41009 Transmission Parameters Affecting Voiceband Data Transmission Measuring Techniques May 1975 and per CCITT Orange Book Volume IV 2 Specifications of Measuring Equipment No harmonically related signal will exceed these values with respect to the carrier 10Hz 30 50 10K 100K 1M 5M 20 9MHz Fast Leveling Off Fast Leveling On All non harmonically related signals from dc to 200 MHz will be more than 70 dB below the carrier or less than one of the following levels whichever is greater Model 3336A without Option 005 with Option 005 75 ohm output 100 dBm 115 dBm 150 ohm output 100 dBm to 10 MHz 100 dBm to 10 MHz 600 ohm output 100 dBm to 10 MHz 100 dBm to 10 MHz Model 3336B without Option 005 with Option 005 75 ohm output 100 dBm 115 dBm 124 ohm output 100 dBm 115 dBm 135 ohm output 100 dBm 115 dBm 600 ohm output 100 dBm 115 dBm Model 3336C without Option 005 with Option 005 50 ohm output 100 dBm 115 dBm 75 ohm output 100 dBm 115 dBm Maximum signal output during amptitude blanking lt 85 dBm impulse Level in adjacent channels
98. 5 ohm output 150 ohm output Model 33368 10 9M 20 9M 75 ohm output 124 ohm output 135 ohm output Model 3336C 10 0M 20 9M 50 ohm output 75 ohm output Return Loss of 50 ohm output is gt 30 dB to 20 9 MHz with Option 005 Balance Model 3336A 300 JOK 50 K 150 ohm output gt 36 dB 600 ohm output gt 38 dB Model 3336B 300 10K 50K 124 ohm output 135 ohm output 600 ohm output SPECTRAL PURITY Integrated Phase Noise Model 3336A and 3336B gt 64 dB for a 3 kHz band 2 kHz either side of a 20 MHz carrier Model 3336C gt 54 dB for a 30 kHz band centered on a 20 MHz carrier excluding 1 Hz about Phase Jitter the carrier 3 peak to peak maximum measured per Bell System Technical Reference PUB 41009 Transmission Parameters Affecting Voiceband Data Transmission Measuring Techniques May 1975 and per CCITT Orange Book Volume IV 2 Specifications of Measuring Equipment Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com General Information Model 3336A B C Table 1 1 Specifications and General Information Cont d Harmonic Distortion No harmonically related signal will exceed these values with respect to the carrier 10 30 50 10K 100K 1M 5M 20 9M 350B 5008 60dB 55a8 5008 Normal Leveling 55aB 5008 Fast Leveling Spurious dc to 200 MHz except where noted Ali non harmonically related signals from dc to 200 MHz wili
99. 50 Modulation Amplitude M 01001101 115 77 Modulation A 01000001 101 64 Off 9 00110000 060 48 Amplitude M 01001101 115 77 Modulation A 01000001 101 64 On 1 00110001 102 49 Phase M 01001101 115 FI Modulation P 01010000 120 80 Off 9 00110000 060 48 Phase M 01001101 115 77 Modulation P 01010000 120 80 On 1 00110001 061 49 Amplitude Blanking Amplitude A 01000001 101 65 Blanking B 01000010 102 66 Off e 00110000 060 48 Amplitude A 01000001 101 65 Blanking B 01000010 102 66 On 1 00110001 061 49 3 29 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation HP IB programmer Afx2 display BUS ADDRESS Af 2 all controls in the Modify Group MRKR CF CLEAR display These HP IB operations are NOT available from the front panel Data Transfer Mode Selection Service Request Masking Interrogration of Programming Errors 3 156 Data Transfer Mode Selection The hp 3336 accepts Data Messages in one of two Data Transfer Modes a Data Transfer Mode 1 The hp 3336 is in Data Transfer Mode I at turn on and while in this mode each Instrument Programming Code is processed when received That is the instrument immediately performs the instruction The hp 3336 can NOT receive another character until the instrument has completely performed the previous instruction The time required to transfer data has been extended by the time hp 3336 takes to perf
100. 50Y 37 5LG ND 910023315 A3L it 910023315 COILeMLO 820NM SX 1550x 375LG NDM 9150 3315 A3L113 9100 3548 CDILeMLO 1 3UM 5 0x33 1550X 375L Ge ND 9100 3548 AJLI 14 910093546 COIL MLO 1 3UH 5X Qa33 1550X 375LGe Dv 910093546 ASL t 910023548 COILeMLO 1 3UH 5X Qa33 1550X 375LGeNOM 9100 3548 ASL 910073548 COILeMLO 1 3UH 5X 0833 1550x 375 Ge NOV 910093548 A3L118 9100 3345 INDUCTOR 2 UH 5 9100 3345 ASLIMI 9100 3458 CHOKE IDE BAND 910073458 A3LIS2 910020539 CDIL MLO touH Sx GESS 1550X 37SLGeNOM 9100 0539 ASLISS 9149 0210 CDILeMLO 100UM SY OaSn 1550X 375LGeNDV 2 otugwa 19 A3LISU 9100 3562 CDILeMLO 4 7UH 5X 0833 1550X 375LGu 0M 9100 3582 ASLISS 910023582 COIL MLO 4 7UM 5X Om33 1550X 375LGe ND 9100 3582 A301 1853e0n4548 TRANSISTOR PAP 3 TO 92 PDx amp 25Vw MP6HBY A302 1855 0081 TRANSISTOR JeFET MeC AN DeMODE 8I ans2us A303 1853 0089 TRANSISTOR PAP 214917 S PDS200M 2Nu917 4306 1854en215 TRANSISTOR NBN s PORJSOVA FTEZNAJMNZ 2N390u A3G101 LAS Jouyun TRANSISTOR PAP 8 TOw92 POmb2SYA MPgNOL See introduction to this section for ordering information ndicates factory selected value Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference Descr fr Designation scription Mfr Part Number 430502 1eS
101. 5480 5082 7653 DISPLAYe U 5 28080 5082 7653 DIBPLAYeNUMe EG 26460 5082 7653 asue 199960592 4507 199000592 A SUB 199000592 ASUS 199420592 ASU L0 1990 1592 UU MUU ouve DISPLAYe UMeSEG LeCHAR 43eH 28480 5082 7653 TRANSISTOR ARRAY 16ePIN 13606 ULNe 20034 IC INV TTL LS MEX 01295 SN7ULSO5N I SHFeRGTR TTL LS Re SERTALSIN PRLSOUT 01295 SNTGLS1GUN TRANSISTOR ARRAY bePIN 13606 ULNe 20034 ASUI 1 19900592 asuye 1258 0047 ASUI3 182091200 asura 182091433 ASUIS 1858 0047 IC I y TTL LI x 91295 SNTUL OSN IC SHESRGTR TTL LS Re SESIALeIN PRLSOUY 01295 SNT LS162N TRANSISTOR APR Y bePIN 13606 ULN 2003A IC FF TTL LS DeyyP POSSEDGE TRIG COM n1295 SN7ULS273N I FF TTL L8 OwtyPE POSSEOGESTRIG n1295 SNT4LS TUN ABULO 1620 1200 A5U17 182691433 ASUIS 185420047 ASU19 182001730 ASU20 182041112 ASU 21 1820 1438 IC MUXR DATASSEL TTL LS 2eTOeteLINE QUAD 01295 SN7GLS257AN 1200 0473 SOCKET IC 16 DIP 28480 1200 0473 1200 0638 SOCKET IC 14 DIP 28480 1200 0638 See introduction to this section for ordering information 6 16 Indicates factory selected value Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation Table 6 3 Replaceable Parts HP Part Number va A5KS1 ASKSZ ASKS3 ABKSH A5KS5 ASKSB ASKS7 ASKSH A5K59 ASKS10 A5KS11 A5KSIZ A5KS1 4 A5K514 A5KSi5 ASKSI A5KS17 ASKSI8 A5KS19 ASKSZO ASKS
102. 58A WECO type 372A WECO type 241A WECO type 310 50 ohm BNC 75 ohm BNC 3 15 It is possible to enter frequencies from 10 Hz to 20 999 999 999 MHz for any front panel output The instrument specifications however apply only during operation within the following frequency limits Output 50 ohm unbal 75 ohm unbal 124 ohm bal 135 ohm bal 150 ohm bal 600 ohm bal Lower Frequency Limit 10 Hz 20 9 MHz 10 Hz 20 9 MHz 10 kHz 10 9 MHz 10 kHz 2 09 MHz 10 kHz 2 09 MHz 200 Hz 109 kHz 3 16 Frequency Resolution 3 17 The frequency resolution for all outputs with programmable frequencies is l Hz for frequencies below 100 kHz 1 mHz for frequencies 100 kHz and above Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Upper Frequency Limit 3 5 Operation Model 3336A B C 3 6 3 18 Level Limits 3 19 Every front panel output has an amplitude range of 79 99 dB with 0 01 dBm resolu tion The absolute maximum and minimum amplitudes however differ from output to out put The upper and lower output level limits for each output are Output Lower Level Limit Upper Level Limit 50 ohm unbal 71 23 dBm 8 76 dBm 75 ohm unbal 72 99 dBm 47 00 dBm 124 ohm bal 78 23 dBm 4 1 76 dBm 135 ohm bal 78 23 dBm 4 1 76 dBm 150 ohm bal 78 23 dBm 1 76 dBm 600 ohm bal 72 99 dBm 7 00 dBm NOTE When changing from one output to another expect a level change e
103. 6 ABZUI 03335 89503 1 10 DB PAD 28480 03335 89505 ABZU 03335 89502 1 20 DB PAD 28480 03335 89502 ABZUS 03335 89501 1 10 DB PAD 28480 03335 89501 A8ZU4 03335 89506 1 25 OHM PAD 03335 89506 ag 03325 66509 9 HIGH STAB FREG REF P C ASSEVBLY 03325 66509 OPTION 004 DI 018040582 8 CAPACITOR FXO 220UF Soel0Y 35vDC AL 35v88L 220 act 015021847 9 2 CAPACITOReFXO 01SUF ew20x SOVDC CER 28480 016003847 Agcy 016001847 9 CAPACITOReFXO 015UF e 20X Soy0C CER 28uso 0160 3847 agtu 01 0 0693 9 CAPACITORSFXD i000UF SOelOX 25VDC AL 049b 25VB8L1000 A9CRI 190120049 9 DIODE PwR RECT SOV 750M4 Doe29 1901200 4 9CR 190100049 9 DIODE PwR RECT SOV 750MA 00 29 28480 1901200 AGCRS 1902 0049 2 1 DIODERZNA 6 19v Sy 00 7 POu 4k TCu 022 28u80 199200049 AQEL 0960 0465 1 OSCILLATOR HIGH STABILITY 28480 0960 0465 A9J1 125172246 CONNECTOR yePIN w POST TYPE 1251 4246 A9J19 125102969 8 CONNECTOR PHOND SINGLE PHONO JACK DIP 125122969 4901 454 0053 5 TRANSISTOR NON 242219 SI TOeS PDRBOOUK 2N2218 koda 145300450 a TRANSISTOR PNP SI TOw22048 PDuKOH MJESTIK ORI OATES 9 RESISTOR 1K 5X 25 FC TCa u00 600 CB1025 452 431933 1 K RESISTOR 10K SY 25w FC TCwe200 700 01121 C8103s 4983 06 ye 3325 6 1 RESISTOR 3 3K Sx 25W FC TCuounose7on 01121 CB3325 agra 075720290 5 1 RESISTOR amp 19X 1x 125a F TCnoewtgo 19701 wF C1 BeTOeb191eF aaRS 069Re340A 5 1 RESISTOR 8 b6K 1 125A F TCuQewi00 Chet 8uTO BEbReF 4986 49 3230 s RESISTOR 10K 1x 1254 F TCuneo2k 069803270 A9RT 21003252 6 1
104. 6A 3336B 6 required hp Part No 0698 6319 a Connect the equipment as shown in Figure 4 8A Neither voltmeter input can be con nected to ground b Set the 3336 frequency to 10 kHz c Set the 3336 amplitude to maximum The maximum output amplitudes by output are 124 ohm 1 76 dBm 135 ohm 1 76 dBm 150 ohm 1 76 dBm 600 ohm 7 00 dBm d Record the voltmeter reading using the dB scale Vref e Connect the equipment as shown in Figure 4 8B f Set the 3336 frequency to each of the test frequencies listed below For each frequency take a voltage measurement using the dB scale Vba OUTPUT OUTPUT LEVEL RESISTOR TEST FREQUENCIES 1240 1 76 dBm 620 10 kHz 100 kHz 1 MHz 10 MHz 1350 1 76 dBm 67 52 10 kHz 100 kHz 2 09 MHz 1502 1 76 dBm 750 10 kHz 100 kHz 2 09 MHz 6002 7 00 dBm 3002 300 Hz 10 kHz 50 kHz g Subtract V bal Step d from Vref Step f and enter the results on the Performance Test Record for each test frequency 4 27 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C A AC VOLTMETER Ap 3336 Z2eooo 89 CELIT asg 2 222a2a 224 gada sh 22222 A dA ooo aa B AC VOLTMETER hp 3336 ea 389 ooo 1 2233 ap 2a22223 2244 aaa sf 22222 dizl Ai ee a figurs 4 8 Equipment Set Up for Output Balance
105. 80 28480 28460 26480 0 28480 26480 26480 28480 28480 26460 28480 28480 28480 28480 28480 28480 26460 28480 28480 28080 28480 28480 284080 284080 25480 01121 01121 n1121 01121 atiz1 n1121 01121 01121 28480 0t121 01121 01121 01121 01121 attz1 a1tz1 Mfr Part Number 03336 525 016063847 016063847 0180 0062 0160 3447 0160 3847 0160 4871 0160 3847 1500156x902082 S082 4658 082 4658 A SOB2 W 5082 4658 5082 4658 HEFER S062 5 iie 5082 u858 5082 4658 ets s H 42 46 5082 0680 199020665 1990 06 H 19996 1990006 H 199000665 19900665 1990 0408 199060665 109050008 1990 1990 0863 03582 61620 1251 5041 910073334 185320016 1853 00 1853200 1853 0016 1853 0016 185300016 185320016 1855 0016 C82205 CB2205 C82205 CB2205 CB2205 CB2205 C82205 CB2205 0757 0280 C81325 C81325 C81325 C81325 C81325 C81325 CB1325 Artisan Scientific Quality Instrumentation See introduction to this section for ordering information Indicates factory selected value Guaranteed 888 88 SOURCE www artisan scientific com 6 33 Table 6 3 Replaceable Parts Reference HP Part inti Mfr T A escription Mfr Designation Number Descript
106. 8480 016003647 Aol19 016023557 a CAPACITOReFXD atsyF e20x SOVOC CER 28480 016093847 delan Ima 9 CAPACITOReFXD 01SUF ee20X SOyoC CER 28480 0160 3847 aot 0160241847 s CAPACITOR FXD 015UF ee20X SOVDC CER 28480 0160 3847 eC nl ne1AuT 9 CAPACITORHFXD 01SUF seag Soyot CER 26480 016023847 doled GtoneJa47 9 CAPACITOR FXD 01SUF se20x SOVDC CER 26460 0160 3847 sola Ol6e 3847 9 CABACITOReFYD 01SUF ee20X SOVDC CER 28480 O1od 38u7 Abts atoveiau7 9 CAPACITOReFXO 01SUF ee2 t SOVDC CER 28480 016093847 A6C20 0169eYA4T s CAPACITOReFXO 41SUF ee20t SOVOC CER 28480 016093847 AeC2T OLouesear 9 CAPACITOR FXD niSUF se20 SOVOC CER 28480 015093847 hota Otoge3A47 9 CAPACITORSFXD 015UF ee20X SOVOC CER 28080 016093847 kel 29 ion iB47 9 CaPACITOReFXO 0150F se20x SOVOC CER 28460 016073847 A6C 30 1093847 9 CAPACITOReFXO O1SUF 20 SOVDC CER 28480 0160 3847 bold atoveJAau7T 9 CAPACITOReFXO 01SUF se20x SOVDC CER 26460 0160384 AeC32 010003847 9 CAPACITORFXD otSUF se2ux SovOC CER 28480 015073847 AeC33 016he3827 9 CAPACITOReFXD 01SUF se20x SOVDC CER 28480 0160 3847 AeCSa O 60eJAU 9 CAPACITOReFXD 015UF se20 SOVDC CER 26480 otoow3au7 46035 01603847 9 CAPACITOReFXO 01SUF se 0 SOVDC CER 26480 016023847 ASC 36 918002823 1 4 CAPACITOReFXDO 47QOUF SOe10X b 3VDC AL 26460 0180 2823 ABCST 012022223 1 CAPACITOReRXO 470UF SO 1OY b 3VOC AL 28480 0180 2823 ABCAR NAG Oba a 2 CAPACITOR FXD 220UF Sawtut ZSVDC AL 00490 ISVOBLA20 kel za 01 0e0892 5 CAPACITOR FXO 22nUFeSnetOY 3
107. 8480 199000 a1scead 199nen amp 65 LED VISIBLE LUVAINTEIMCD IFW2QMA MAX 28480 1900 0645 ATSCRM 199020666 LED VISIHLE LUMLINTEIMCO IFU OMASMAX 28480 1990 0665 ALSEL 03582 61520 RPG 28480 03582 61620 A15J2 1251 5041 CONNECTOR 28480 1251 5041 MISLI 91006333 COIL 25UH 10 Heu RFaT HD 28080 9100 3334 41591 453 6516 a TRANSISTOR PNP TO 92 PDRZOOMA 28480 1853 0016 41502 1AS Sant TRANSISTOR PNP T0 92 POw300V 26460 1853 0016 41503 125360018 TRANSISTOR PNP 70 92 P0w300M 28aeo 185320016 41504 MRK SOKA TRANSISTOR PNP TO 92 PONZONMA 25480 185320016 41556 LAS Senne TRANSISTOR PNP T0002 POESONMA 28480 185320016 41 SCB26 189020665 418Cr27 t99nanbaH A 5CROR 1990 n665 Ne oh oh ia inae 41506 185320018 TRANSISTOR PNP T0 92 De3oo w 28480 185320016 41557 196320016 TRANSISTOR PNP 10 32 PoESIONW 28480 185320016 A480A 1853 n016 TRANSISTOR PVP T 92 PHESOOMR 78480 1853 0016 41551 Obs302295 RESISTOR 22 5X 25A FC TCumanos 500 ott t cB2205 41592 hb amp 3e2205 RESISTOR 22 51 re ant t CBae0s assou 06832205 RESISTOR 22 5X 25 FC ettet CB2205 A158 De 3e22ots RESISTOR 22 51 25 FC nitet CBa205 A15R6 n623 2255 RESISTOR 22 5 25 FC 01121 CB2205 415R6 96 3 2205 RESISTOR 22 5X J 5A FC 01121 C82205 41587 bP3e2208 RESISTOR 22 5 24 FC att t CB2205 ASRA nbe 302205 RESISTOR 22 5 25 FC TCweduns 500 ntj2t C82205 A15R9 0757 0280 RESISTOR 1000 1 125W 28480 0757 0280 215211 fo8Y t325 RESISTOR 1 3 Sx 25w FC TCWeu0n e70n odidi cB13e5 ATSRIT2 623 1325
108. 8C hp Model 11094B hp Part No 0698 6364 hp Part No 0698 6800 hp Part No 0698 7363 hp Part No 0698 7364 hp Part No 0698 6774 hp Part No 0757 0980 hp Part No 0698 3242 hp Part No 0698 7408 hp Part No 0698 4194 hp Part No 0757 0340 hp Part No 0160 2223 QB 300 Q Bit Corp P O Box 2208 Melbourne Florida 32901 305 727 1838 hp Model 5328A w Option 10 hp Model 5335A w Option 10 hp Model 5345 w o Option 001 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C Table 4 2 Recommended Test Equipment Cont d INSTRUMENT SPECIFICATION REQUIREO FOR RECOMMENDED MODEL Adapters BNC f to WECO 440A hp Part No 1250 0556 2 required 3336B only BNC f to WECO 358 V PLA T hp Part No 1250 0591 2 required 3336B only BNC f to WECO 347 V P A T hp Part No 1251 3759 2 required 3336B only BNC f to 1 6 5 6 m V P A T S 230 3336A with Option 001 only W amp G Instruments Inc 119 Naylon Avenue Livington NJ 07039 201 994 0854 BNC f to WECO 310 V P AT hp Part No 1251 3757 3336B only BNC f to TRIAX m P hp Part No 1250 0595 BNC f to Dual Banana Plug V P A T hp Part No 1250 2277 BNC m to Dual Banana Post V P A T hp Part No 1250 1264 Dual Banana Plug used with v P hp Part No 1251 2816 4 required termination resistors BNC f to Type N m P
109. 95 SNTULS1OUN A5915 185840007 5 TRANSISTNO ARRAY vbePIN 13606 Litvezonja 415068 IR2netano 5 IC INV TTL LS mEx 1295 SNTULSO5N A5917 152041433 b IC ef RGTR TTL L8 ReS SERIAL IN PRLeCYT 01295 SNTULSIKUK A1SUIA 1858ennaT 5 TRANSISTOR ARRAY 1beP N 136006 ULNe2na3A 415018 TARGUS TIO 1 IC FF TTL LS DeTYPE POSSEDGE TRIG COY 91295 SNTGLS273N A15U20 1A2Ne1112 8 1 IC FF TTL LS CeTvPE POS EDGEeTRIG 31295 SvrOLSTAN A15U21 182061438 1 1 TC MUXR DATASSEL TTL LG 2eTOeleLINE Quad a1295 SNTULS257E 1200 0473 1 SOCKET IC 16 DIP 28480 1200 0473 1200 0638 1 SOCKET IC 14 DIP 28480 1200 0638 d L J Artisan Scientific Quality Instrumentation See introduction to this section for ordering information Indicates factory selected value 6 27 Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation C100 C181 Cia c1as 162 tes C168 Cie C168 Cie9 Hu an c170 C176 cary C178 C179 C181 C182 Hu crag C85 C185 cis ci a C190 C195 C195 C197 6 28 HP Part c Number D 93325 521 oiugeo1o1 a1o003847 U1BO 1861 O1Ade 1 THe wo 0120 0191 0160e4571 01604 807 otoves847 atbc a571 asou Olanelge 0160 y847 oteuw2250 016083847 016042222 w eo ou 916023847 ib e dal 016022257 018091 Tas 015071708 0160 5306 916023847 0149 0149 0160 3847 0160 2243 oco 0160e220 nib
110. 98 5197 150 ohm 3336A only hp Part No 0757 0715 600 ohm 3336A and 3336B hp Part No 0698 5405 NOTE The 3336 must be ON for 30 minutes before attempting this ad justment a Terminate a balanced output with the corresponding termination resistor b Connect the ac voltmeter to the terminated output c Activate the output and use the following table to determine the hp 3336 amplitude setting the hp 3336 frequency setting the component to adjust the ac output voltage to adjust to the ac output voltage tolerance Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Adjustments Model 3336A B C Freq Amplitude Component Output Voltage Output Setting Setting To Adjust Voltage Tolerance 124 obm 50kHz 1 76 dBm A4R257 4312 tl mV 135 obm 50 kHz 1 76 dBm A4R255 4500 tl mV 150 ohm 50 kHz 1 76 dBm A4R257 4743 tl mV 600 ohm 10 kHz 7 00 dBm A4R256 1 7341 17 4 mV e Repeat Steps a thru c until all of the unbalanced outputs have been adjusted 5 35 X Drive Final Voltage Adjustment 5 36 This adjustment sets the final voltage of the X drive ramp to 10 5 Vdc Reguired Eguipment dc voltmeter hp Model 3466A a Connect the dc voltmeter to the hp 3336 X Drive output b Starting with the hp 3336 in turn on condition set the Sweep Time to 999 seconds c Press the hp 3336 SINGLE key twice The first actuation resets the sweep to the start conditi
111. ACTTOR FKO 015UF s 20x SOvOC CER 28086 0160 3847 ases otAn oz29 7 1 CAPACITOR FXO JIUF w10X 10VDC TA 56289 1500336X901082 ASC SP 0180 1748 5 CAPACITOReFXO 1SUF 1OX 20v0C TA 56289 500156x902082 ASCSS 016003558 bi CAPACITOR FXD 4UF se20x SOVDC CER 25450 0160 3558 ASC Sa 916003847 9 CAPACI TOR FKO o1SUF se20x SOvDC CER 28480 016003807 ASCY6 016093847 9 CAPACITOR FXD 01SUF se20x SOVDC CER 28480 len 3847 ASCS7 018043847 9 CAPACTTOR FXO o15UF ee20X SAVOC CER 28080 618023847 LELEL 0160 3847 9 CAPACITOREFXD ni1SUP 20x SnyDC CER 28480 16003847 ASCSO 0160 3847 9 CAPACITOR FXO 1SUF se20x SOVDC CER 28480 0160 3847 DELTEI 0160 3847 9 CAPACITOR FXO 01SUF 20X SOVDC CER 28086 018093847 ascu atogu 3520 s 1 CAPACITOR FXD 7SPF X 100y0OC MICA 2BuBo 016073520 ANCUS 0160 2261 9 CAPACITOReFXD 15PF se5x SOQvOC CER 04 30 28480 0160 2261 ASC au 016002255 1 t CaPACITOR FXD 8 297 40 25PF SonvOC CER 28480 aton z2255 ASCU46 016523247 9 CAPACITOR FXD o15UF se20x SOvOC CER 28480 0160 3847 asca7 016083085 7 1 CAPACITOR FXO SINPF 4wix JONVDC MICA 28480 0160 3085 aycag 0160 3247 9 CAPACITOReFXO 015UF se20x SovOC CER 28080 0160 3847 AYCSI 016003847 9 CAPACITOReFXO 01SUF se20X SOvOC CER 28480 016023847 ASCS2 0160 3847 9 CAPACITOReFXO 01SUF se20x SOVOC CER 26480 aton yau7 A3C53 016003847 9 CAPACITOReFXD 01SUP ee2uX SAVIC CER 28480 016003847 LELET o1 nentoe 3 1 CAPACITOReFXO 150PF seSK SOOVOC MICA 72136 D 1SF151J0300nV1CR ASCS6 0160 3847 9 CAPACITOReFXO o1SUF se2
112. ANK DUT OUTPUT SYSTEM VOLTME TER Leooocf 337 eeseo Josh sj a2222 2244 ed 24 1 A 2222 O oa Si Ja oo BNC TO TRIAX ADAPTER Figure 4 13 X Drive Linearity Performance Test Equipment Set Up Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests 4 37 Integrated Phase Noise 4 38 This performance test verifies that the hp 3336 meets the Integrated Phase Noise specification in Table 4 1 Specification 3336A B 72 dB for a 3kHz band centered 2 kHz either side of the 3336 carrier 3336C gt 60 dB for a 30 kHz band centered on the 3336 carrier excluding Hz about the carrier Required Equipment Low Phase Noise Synthesizer hp Model 3335A Mixer hp Model 10534A 1 MHz Low Pass Filter TT Electronics Model J903 dc Voltmeter hp Model 3455A ac Voltmeter hp Model 400FL 75 to 50 ohm Minimum Loss Impedance Matching Pad hp Model 85428B 50 ohm Feedthru Termination hp Model 11048C 15 kHz noise equivalent Low Pass Filter consisting of Resistor 10 k ohm hp Part No 0757 0340 Capacitor 1600 pF hp Part No 0160 2223 a Connect the equipment as shown in Figure 4 14 Make sure that the frequency references of the 3336 and the reference synthesizer are locked together b Set the reference synthesizer controls as follows FREQUENCY dean e hae 20 001 MHz AMPLITUDE
113. Amplitude Modulation is programmed the instrument will automatically return to the Normal Leveling Mode Conversely Amplitude Modulation will be automatically turned OFF when Fast Leveling is programmed 3 52 Normal Amplitude Leveling and Amplitude Modulation The Amplitude Leveling circuit senses an increase in output power as the percentage of modulation increases because of the presence of sideband energy The Leveling circuit responds by reducing the signal carrier and sidebands until the TOTAL output power equals the amplitude setting of the instrument This constant power regulation of the output causes what appears to be carrier compression The ratio of the carrier to the sidebands however is correct 2 53 External Amplitude Leveling An external Amplitude Leveling input located on the rear panel allows regulation of the amplitude at a remote point This input marked EXT LEVEL has a nominal input impedance of 1 K ohm and a 1 V change at this input causes a 4 25 dB change at the signal output Terminating or connecting the EXT LEVEL input to circuits other than an active amplitude leveling voltage source will degrade the amplitude accuracy Leave this input disconnected unless external ly leveling the instrument 3 54 Amplitude Blanking 3 55 When the instrument is making a frequency change the output signal does not instan taneously change to the new frequency The potential exists in the Normal no blanking operati
114. At0C26 016000575 4 2 CAPACITOR FKD nu7UF ew20X SavOc CER 28480 016060575 AtoC27 016000575 4 CAPACITOReFXD 0uJUP o 20 SOVDC CER zauan 0160 0575 4y0c28 Otbow3914 i CAPACITORSFXO 01UF eetoX 100VDC CER 28480 aibow39L4 A10C29 016900573 2 CAPACITOR FXD U700PF ee 20X 1GAVDC CER 28480 016020573 A10C30 016000573 2 CAPACITOR FXO u700PF w20x LOOVDC CER 28480 9160 0573 A10C3t 016002199 2 CAPACITORWFXD yoPF ee5X ZOOVDC MICA 28480 0160 2199 a10C32 916000572 1 4 CAPACITOR FXD 2200PF 29 to VOC CER 28480 nt60n 0572 ALOC33 016000572 1 CAPACITOR FXD 2200PF se20 199V0C CER 28480 016000572 A10C34 0160 0573 2 CAPACITOR FXO 4700PF ew20x 1ANVOC CER 2848n A10C35 916002199 2 CAPACITOR FKD yoPF e5 JOOVDC MICA 28480 At0C36 otbowj914 1 CAPACITOR FXD 01UF eeioX 100VOC CER 284909 016073914 A10C37 0160 3914 1 CAPACITDReFXO niUF eetoX I00VDC CER 28u80 nt neyota A10C38 0160 3468 0 CAPACITOReFXO 12UF eeioX BOVDC POLYE 28480 016003068 A10C39 016000573 2 CAPACITOR FXO 4700PF ew20x 10CVDC CER 28480 0160 0573 A10C40 016ne0572 t CAPACITOR FXD 2200PF 20X 100VDC CER 2nubo 016000572 atocar 016050572 1 CAPACITOR FXD 2200PF e20X inovbC CER 28080 016090572 AtoCu2 916002199 2 CAPACITOReFxD 30 F 05 ZOOVDC ICA 28480 Ol6ne2199 A10C43 0160 0161 4 1 CAPACITOR FXD O1UF 200V 28480 0160 0161 At10Cuy 916003556 9 1UF se 20 50VDC CER 28480 0160 3558 AtoKt 0490e11ut 1 28480 n 9hettdl 410K oudd t tat 1 28480 OUONeLI4I A1OLI 9140 0283 8 5 COIL MLD 910NM BY
115. B only BNC f to 1 6 5 6 m 3336A with Option 001 only BNC f to WECO 310 3336B only BNC f to TRIAX m BNC f to Dual Banana Plug BNC m to Dual Banana Post Dual Banana Plug used with termination resistors BNC f to Type N m BNC m to Type N f 50 ohm BNC mi to BNC m 12 24 36 75 ohm BNC m to BNC m 6 36 75 ohm BNC m to Siemens type 9 REL STP 6AC Consisting of Siemens type conneci r m BNC m connector 6 RG 59 coaxial cable 75 ohm P 3336B only P 3336B only P 3336A only P 3336A B only T P su gt 4 lt lt lt v 4 vu lt lt lt vou PPP Aaa PP RECDMMENDED MODEL hp Part No hp Part No hp Part No hp Part No hp Part No QB 300 Q Bit Corp P O Box 2208 Melbourne Florida 32901 hp Part No hp Part No hp Part No S 230 W 8 G Instruments Inc 119 Naylon Avenue Livington hp Part No hp Part No hp Part No hp Part No hp Part No hp Part No hp Part No Model 3336A B C oa 0698 6800 0698 8558 0757 0710 0698 6982 1250 0556 2 required 1250 0591 2 required 1251 3759 2 required NJ 07039 1251 3757 1250 0595 1250 2277 1250 1264 1251 2816 4 required 1250 0780 2 required 1250 0077 12 required hp Model 11170A 2 required hp Mode 111708 2 required hp Model 11170C 2 required hp Part No 15582 60010 2
116. C d Set the system voltmeter delay to each of the following times xp For each delay time record the voltage reading yn in column C of the work sheet at the end of this procedure and on the Performance Test Record in the Measured Results column In both places record this voltage to 2 decimal places xo 001s x3 004s x6 007s x 002s x4 005s x7 008s x2 003s XS 006s xg 009s e Total all the entries in column C f Multiply the corresponding entries in column A and column C together and enter the results to 5 decimal points in column D g Total all the entries in column D h The general equations to find the slope and y intercept for a best fit straight line are rather involved however in this particular procedure they reduce to b 527778C 83 333D m 16 667D 83 333C i Using the values for C and D from the work sheet and the formula from the previous step compute values for m and b j Using the formula y mx b with the specific values m and b just found compute a value y for each x recorded in column A Enter the results in the Specification column on the Performance Test Record k In order for the 3336 to pass this performance test the Measured Results must equal the corresponding Specification plus or minus the Tolerance hp 3336 z BL
117. D 28480 910003058 AuLin6 9taneZusA H CHOKE IDE BAND 26480 Aulto 910003458 1 CHOKE IDE BAND 26480 910003458 AAP203 1258 0141 1 JUMPER 28480 1258 0141 Aug 125500092 4 1 TRANSISTOR JeFET NeCHAN DevoDE TOe B SI 28480 185500092 AuGa 1A550006 4 1 TRANSISTOR JeFET PeCHAN DeYODE SI 32293 17110 A423 185 e5692 a 1 TRANSISTOR NPN SI PDeiS5 FTRSOURZ 04713 MJE223 A4Q4 1855 0406 4 1 JFET P CH 28480 1855 0406 44025 1A5Sena10 a TRANSISTOR JeFET NeCHAN DeVODE TOe18 SI 28480 18550410 44926 tAS3e0020 a 1 TRANSISTGR PDASOOYN FTE1SOYHZ 28480 185390020 44027 185320066 a TRANSISTOR 1092 PDabzEMK 28480 485300066 Augen 1850 0215 1 TRANSISTOR PDe350 FTeSOQMAZ 4713 283904 AUGJOH 18530044A a a TRANSISTOR 79492 PDe625v 04713 MPSHB1 dagio 1853en aB a TRANSISTOR T092 POebZSHN 04713 MP SHEL Augias tAS3enuaa o TRANSISTOR 70 92 PDa62544 04713 MPSKB1 A4Q104 1854 0233 3 1 TRANSISTOR NPN 2N3866 28480 1854 0233 t nseansA 7 1 HEAT SINK TOelaeCs 28680 120540018 AuGtos 1AS JonsuA a TRANSISTOR PNP TOe02 PORBASVA 04713 MP SHO A4G 106 185 e0795 t TRANSISTOR NPN I TOe92 POs625 A 04713 MPBHIO 440107 185480378 7 3 TRANSISTOR NAN 2N5109 SI TO 39 POsROUMs 01928 2N5109 4408105 185300293 3 3 TRANSISTOR PNP 245583 SI TOe39 PDajw 04713 2N5583 AuQ109 185300793 3 TRANSISTOR PNP 2NSS83 SI 70939 Ppetw 94713 2N5583 AUGIJO 185420375 7 TRANSISTOR NPS 2N5109 SI PDEBOOMH 01928 2N5109 TTE 185440378 7 TRANSISTOR NPN 2NS169 SI Poeton 01928 25109 LEVERT 185300293 3 TRANSISTOR PNP 2N
118. DERSCLIP TYPE 2500FUSE MECHANICAL PARTS i HT SINK ASSY 1 HT SINK 3 INSUL XSTR 1 XSTR PNP SI 1 XSTR NPN SI l XSTR PNP SI 1 TRANSISTOR MJE371K 1 TRANSISTOR 2N4250 1 LBL WARNING 1 INSULATOR 19701 19701 24546 o1t21 01121 01121 26480 oli i 01121 28480 01121 28480 28480 28480 28480 26480 44713 27014 27014 27014 28480 28480 28480 28480 28480 01698 28480 02037 28480 28480 28480 28480 MF4CI BuTOw12S82 B MFUC1 B 2199664108 Cool BaTOnl1B19F CB1015 CB1035 C8u s 0698 6360 C81045 c82035 0686 5115 EBS115 0683 1005 0683 1625 0683 3025 3101e1162 31n1e2042 mpA202 LMSSBN L358N LM358N 0837 0120 211000269 03325 61101 03325 21101 0340 0564 TIP36 1854 0800 MJESTLK 1853 0450 1853 0066 7120 6712 0340 0620 See introduction to this section for ordering information Indicates factory selected value Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference inti Designation Description Mfr Part Number ay 03336 66503 FREQ REF P C ASSEMBLY 28480 03335 66503 DELSI 0160 355 8 CAPACITOR PXD 1UF te20x SAVOC CER 28u80 018023558 AC 0166 3847 9 32 CaPACITOR FXD ALSUF e 20x SavOC CER 28480 0150 3847 ASCH 0160 0362 7 2 CAPACITOReFXD S10PF wSx 320VOC VICA 28480 0180 0322 a
119. DPPN www ene LEDeVISIALE LUMeINTBIMCD IFBZOMA MAX LEOwVISIBLE LUMeINTWIMCD IFE2QYA MAX LEDeVISIBLE LUMLINTWIMCN IFw20 4AwMAX LEDWVISIBLE LUVSINTWIMCO Fw20VAeMAX RPG CONNECTOR COIL 25UH 10x 4DeNOM SRFETUHI TRANSISTOR PNP POwSon w TRANSISTOR PNP PDwS00 w TRANSISTOR POu3ONYA TRANSISTOR PDRZONVN TRANSISTOR PONZONMN TRANSISTOR PNE POuZNHM TRANSISTOG PNE PONZOHMN TRANSTSTOR PNP POu30Qun 42591 42592 A2SRY 42554 A252 AP5R6 42587 A gt SRA A25R9 42SR11 APSRI2 ApSe1S a Sni A25RIS APSRIS 425017 OR 3e2205 0683 2505 0683e220S n amp nSe220S e 3eg205 9883e 205 OAS e2205 nsAZS2205 0757 0280 6 3 1325 0643 1325 0543 14 325 068321325 0683 1125 GSASe1325 0683 1325 A VNNVNNNG DSI RESISTOR 22 51 RESISTOR 22 1 254 FC TCw 00 4500 RESISTOR 22 St 25 FC TCw u00 500 RESISTCR 22 5 25N FC TCu w0oo 500 RESISTOR 22 St 25w FC TCuey0074500 Tlweuans45o0 RESISTOR 22 St 25A FC TCmwunnssSnn RESISTOR 22 St 25n FC TCueounnyeS00 RESISTOR 22 St 5w FC TCuouons Sno RESISTOR 1000 1 RESISTOR 1 3K SI 900 4700 RESISTOR en sr 40044700 RESISTOR 1 3X Sx 40044700 PESTSTOR s s sz 40076700 RESISTOR st 40074700 RESISTOR 1 l si 200 4700 RESISTOR 1 3X Sx u50 700 28480 28480 28480 28480 28480 28480 28480 6289 26460 26480 28480 28480 26480 26460 26480 284080 28080 26480 28460 284
120. DULATION specifications EXTERNAL LEVELING input from an External Leveling voltage source to regulate the signa amplitude at a remote point Input Sen sitivity 25 dB volt OPTION 004 HIGH STABILITY FREQUENCY REFERENCE Aging Rate 5x10 8 per week after 72 hours continuous operation 1x 10 7 per month after 15 days continuous operation Ambient Stability 5 x 10 8 maximum O to 55 C Warm Up Time Reference frequency will be within 1 x 10 7 of the turn off frequency 20 minutes after turn on for an off time less than 24 hours OPTION 005 HIGH ACCURACY ATTENUATOR Attenuation 10Hz 20 MHz 10 to 19 99 dB 20 to 39 99 dB 40 to 79 99 dB GENERAL Operating Environment Temperature O to 55 C Relative Humidity 85 O to 40 C Altitude lt 15 000 ft 4600 meters Storage Environment Temperature 50 to 65 C Altitude lt 50 000 ft 15 000 meters Power Requirements 100 120 220 240 V 5 10 48 to 66 Hz 60 VA 100 VA with all options 10 VA standby Size 132 6 mm 5 1 4 in high x 425 5 mm 16 3 4 wide x 497 8 19 5 8 deep Weight 10 kg 22 Ibs net 15 5 kg 34 lbs shipping 1 6 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C 1 12 This manual may have a yellow Manual Change Supplement with it This supplement contains information for correcting errors in the manual and
121. E DAV NRFD 77277277 19202497 LE NDAC P Pam Period in which all listeners become ready for data Period in which data is Quaranteed to be valid DLP A k A 40722927 Period in which all NAN ZAN 144444745 listeners accept data List of Events for Handshake Process Source initializes DAV to high False data not valid P Acceptors initialize NRFD to low True none are ready for data and set NDAC to low True none have accepted the data Ti Source checks for error condition both NRFD and NDAC high then places data byte on DIO lines Source delays to allow data to settle on DIO lines Appendix A Figure 3 A 14 Handshake Timing Relationship Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A Ta Acceptors have all indicated readiness to accept first data byte NRFD goes high Ta When the data is settled and valid and the source has sensed NRFD high DAV is set low Ta First acceptor sets NRFD low to indicate that it is no longer ready then accepts the data Other acceptors follow at their own rates Ts First acceptor sets NDAC high to indicate that it has accepted the data NDAC remains low due to other acceptors driving NDAC low Ts Last acceptor sets NDAC high to indicate that it has accepted the data all have now accepted and NDAC goes high Ts Source having
122. E 50 75 A MINIMUM LOSS IMPEDENCE MATCHING PAD SINE WAVE OUTPUT 500 EN 434 Figure 4 11 Amplitude Modulation Envelope Distortion Equipment Set Up Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests 4 33 Phase Modulation Linearity 4 34 This performance test verifies that the hp Model 3336 meets the Phase Modulation Linearity specification in Table 4 1 Specification The phase shift of the main signal caused by the phase modulation input voltage will be linear within 5 of the peak to peak phase deviation compared to a best fit straight line Required Equipment dc Power Supply hp Model 6216A dc Voltmeter hp Model 3455A Electronic Counter hp Model 5328A 75 ohm Feedthru Termination hp Model 11094B a Connect the equipment as shown in Figure 4 12 b Set the 3336 controls as follows FREQUENCY apot bel kreten sw ane a spei won Del ne 1 MHz OUTPUT iii ran asie are dlaki 75 ohm AMPLITUDE ke de ako am ra sa aka tn Katia an ek Ak anana 7 00 dBm PHASE MODULATION ON c Set the electronic counter controls to measure the average time interval between input A and input B T I AVG A B Set the number of intervals averaged to 106 d Set the power supply voltage to 5 000 V 002 V Use the dc voltmeter to adjust this voltage as precisely as possible This is the first voltage x0 from t
123. ED TO A4R205 28080 0698 3952 136255 969804495 4 1 RESISTOR VT UK X 125m f TCuD el00 24840 C e1 BeTOe yTu2eF AuR 208 10De3659 7 1 RESTSTORSTRMR 20K 10x C TOPWADJ 17eTRN 32997 Irel e203 AuR2no 069223952 b RESISTOR 499K MATCHED TO A4R210 28480 069893952 aR210 009863952 o RESISTOR 499K MATCHED TO A4R209 28480 060Be3052 AaR211 0757 0472 5 RESISTOR 2n0k 1x 125W F TCmO 100 2asu6 Coat Bul 0e20030F AR N P1003096 RESISTOR TAMR SOK 10 C TOPeADJ 17eTRN 32997 3292n 1 503 aur213 nosB zas9 A 1 RESISTOR J63K 1x 125w F TCaO e 00 26480 0698 34 9 449294 757e0u85 0 RESISTOR 68 K 1 125a F TCmOse100 28480 076720485 448215 0757 0346 2 RESISTOR 10 1 12 na F TCmO e100 248406 Chel sBuT0el ROOF kaR to 075760402 9 RESISTOR 10K 1 125A F TCmO e106 24546 CuwisBwTOmi g0ZEF AuR217 075700270 4 2 RESISTCR 249K 1x lS F TCagreton 24546 C e1 BeTO 2u8YeF 408218 075700270 1 RESISTOR 249k 1x 125w p TCaoue160 24546 Chwi BoT0e249JeF amp uR219 De9BeuSoB 8 1 RESISTOR 16 9K 1 125 F TCmOreton 24540 C el BeTOelo92eF AuR220 0609844817 1 RESISTOR 127K 1x 125 amp F TCBO e 00 24546 Cue 1 BeTOel27Y 4248221 069BeuS2n 1 RESISTOR 210x 1x 128 F TCmO el00 24840 C e1 ReTOe2103eF AURA nodRoUATN s t RESISTOR 6 98X 1x l25A F TCRO e100 2usuo Chel Bu T0081 oF 4245273 069Bennb 5 RESISTOR 9 31X 1x 125K F TCunse100 91637 CMFei 8eTie93iteF Aungon 060824078 3 1 RESISTOR 10 7 1x 1254 F TCa0se100 24846 C e1 8eTOe1072 F 249225 97870426 7 1 RESISTO
124. EN Output is a 0 dBm 50 ohms square wave and is pre sent when the Model 3336 is connected to a power source 3 29 REF OUT Frequency Reference Output 3 30 This output supplies a 1 MHz 0 dBm 50 ohm square wave derived from the Model 3336 s frequency reference When this signal is applied to the external reference input of a compatible instrument the reference oscillator of both instruments will be phase locked together 3 31 MANUAL PROGRAMMING 3 32 Programming the Model 3336 from the front panel can be done in two ways The value of the operating parameter may be set exactly using the Entry keys and the Number Units keyboard or the value can be modified using the Tuning Knob in the Modify group 3 33 To exactly set the value of any operating parameter 1 Press the key associated with the desired operating parameter the light in the center of any Entry key indicates the active entry parameter 2 Press the exact number sequence including decimal point and minus sign of the value to be assigned 3 Press the appropriate Units key to execute the entry 3 34 There are two operating rules to be aware of when modifying frequency 1 If the last frequency entered with the Number Units keyboard is within the specified frequency limits of the selected output the frequency can be modified using the Tuning control ONLY within those frequency limits 2 Frequency can be modified from 10 Hz to 20 999 999 999 MHz if the last
125. F CAPACI TORE 1 CAPACITOR P 14 CEDE VISIBLE LEDeVISIBLE LEDeVISIBLE LEDevISIBLE LED VISIBLE LEDe VISIBLE LED VISIBLE LEDe VISIBLE LEDe VISIBLE LEC VISIRLE LECSVISIBLE LEDeVISIBLE LEDeVISIALE 2 LEDeVISIBLE LEDeVISIBLE 15 LED VISIBLE LED VISIBLE LEOSVISIBLE LED VISIBLE LEDeVISIBLE LEDeVISIBLE LEDeVISIBLE LEO VISIBLE LEOSVISIALE LEDeVISIALE LEDeVISIBLE LEOeVISTBLE LEOeVISTELE LEOeVISISLE LEOwVISIBLE 1 RPG ASSY 1 CONNECTOR COIL 25uH t TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR a RESISTOR 22 RESISTOR 22 RESISTOR 22 RESISTOR 22 RESISTOR 22 RESISTOR 22 RESISTOR 22 8 RESISTOR 1 RESISTOR 1 RESISTOR 1 RESISTOR 1 RESISTOR 1 RESISTOR 1 RESISTOR 1 45916 45821 ASR22 ASR23 asReg AsR25 0683 1325 TAthented 1810 0164 1810 0135 181064055 011 3089 Artisan Scientific Quality Instrumentation rm RESISTOR 1 NETWORK RES KEYBOARD P C LECe VISIBLE L RESISTOR 22 5x 1 RESISTOR 1000 1 Description ASSEMBLY 3 XD 015U e 20 XD ni5UF ve u XD JnouFe75 10 XD n15UF ew20 X 015UF ew20 XD tuF 980020 XD 015UF e920 xD 15UF ewtot LUMeINTSL SCD LUMeINTRL SCD LUveINTa15 CD LUMeINTMISNCD LUMeINTBISMCD LUMeINTM ISMCD LUMeINT BISCO LUMeINTBL SCD LUMeINTRISMCD LUMeINTBI5MCD LUMeINTM LEMCO INTRLSMCD LUYSINTAIBYCD LUYSINTAISYC
126. FC 7CmmuooseT00 C85125 See introduction to this section for ordering information Indicates factory selected value 6 3 1 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation 6 32 HP Part Number vokSesTus V757ecu17 OR Ze 3915 0757 0401 9b53e3915 96 3e1525 Ne set nas OTST euere 0757 0280 b96e2123 0757e u2 6 0757en8p1 075769286 0757en ug 069 3279 07 7 0401 075700452 969A yaan vocBesaTU 075720430 0757 0401 075700394 07 7e025 169803279 VISTeOKUZ 975720283 0757e9280 0583e3315 06A322325 065323915 6 3eu70 vosJeu n5 u757e0439 Qo ye2205 075720275 1420 0681 162020617 1 21 00U1 Ik2C 1196 182uoi112 1810 0294 thegecdat 182990629 1820 0697 1821 4279 182620043 tr2vet279 1R2900681 182 0629 182Gel196 1823e4196 1A2001322 182090629 1820 2000 1R2ne0683 182000681 1822 0681 182020629 182000693 182020693 1820 0629 182091041 1820 0629 182001144 1820 0629 1826 0111 182900802 03325 20601 03325 20602 03325 04104 2140 0016 USOs base c ve mo rew teoov m oto xN m waw Table 6 3 Replaceable Parts Description Mfr Part Number RESISTOR a7 5x 25 FC TCweuvoseSon RESISTO 62 iz 1254 F TCH0 e100 RESISTOR 390 Sx 25 FC TCwmuoos 6on RESISTOR 100 1 125W RESISTOR 390 Sx 23 FC TCumayosy
127. Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C 4 22 On Carrier Return Loss Performance Tests 4 23 This performance test verifies that the hp 3336 meets the On Carrier Return Loss specification in Table 4 1 Specification 3336A 10Hz 10kHz 75 ohm output 150 ohm output 124 ohm output 135 ohm output 30kHz 3336B 75 ohm output 30 dB gt 20 dB gt 30 dB gt 20 dB gt 30 dB 30 gt 30 dB 2 00MHz 10 9MHz 20 9MHz 3336C 50 ohm output gt 30 dB 25 dB 75 ohm output NOTE 50 Return Loss from 10 MHz to 20 9 MHz is gt 30 dB with Op tion 005 Reguired Eguipment Synthesizer Wave Analyzer High Freguency Probe diode detector 50 75 ohm Minimum Loss Impedance Matching Pad 75 ohm Directional Bridge 50 ohm Directional Bridge 3336C only 124 ohm Directional Coupler 3336B only 124 ohm Direction Coupler 3336B with Option 001 150 ohm Directional Coupler 3336A only 50 ohm Feedthru Termination 3336C only 75 ohm Feedthru Termination 124 ohm Termination Resistor 3336B only 2 x 248 ohm 150 ohm Termination Resistor 3336A only Ohmmeter hp Model 3325A or 3335A hp Model 3581A C hp Model 11096B hp Model 85428B hp Model 8721A Option 008 hp Model 8721A hp Part No 5061 1135 hp Part No 5061 1136 hp Part No 5061 1137 hp Model 11048C 2 required hp Model 11094B 2 required hp Part No 0698 6793
128. HOTTKY 2bu80 190120518 cried 0122 0089 5 2 DIOotevYE 29 F 10 CJ C25e 1N85 gyreJOY 04713 Mv109 CRies 19y 190516 8 DIODE SCHUTTKY 28u80 190120518 CRI b O ra env89 5 OIODE vYE 29PF 10x CJ C2Se 1NaS avreJov 04713 v109 Ji 1251 6567 1 CONNECTOR geatu 1251 6567 vy 1 19eg29u 1 NETMORKeRESISTOR pb PIN DIP RES 28480 181020294 JA 125107969 A CONNECTUR PHOAD SINGLE PHOND JACKE OIP 28080 125192909 J15 125102909 3 CONNECTOR PHONO SINGLE PHONO JACK1 DIP 28480 125192969 Jih 125142909 CONNECTORePMOMO SINGLE PRONU JACKI DIP 28080 125192909 gi7A 125102909 a 7 COMWECTUR SINGLE JACKS DIP 28080 125162969 478 125102969 a CONNECTOR SINGLE JACK DIP 28480 125192908 Ji8A 1251w2969 8 CONMECTOR PMONO SINGLE JACKI DIP 26480 125162909 J188 125302909 s CONNECTOR PHONO SINGLE JACK DIP 28460 125102909 Li 910001022 7 INDUCTORRE CHWHLD uy 5 1b00x JASLG 26080 9100 1522 L si60eteda 7 INOUCTOHRKeCHeMLO ZAUN 51 16b0X J8SLG 28480 9100 1622 L UL 0023456 1 3 CHOKE WIDE RAND 28480 9100 3458 Lise 910003458 1 CHOKE WIDE BAND 28080 910003458 kis VI 7vwoAaU E 1 CORE SMIELDING BEAD 26080 9170 0894 Libr 910023458 1 CHOKE MIDE RAND 28080 9100 3458 Lid 9tavegawo 3 1 COIL VAR ZSINHLU ONH Qu120 PCeMIG 28480 Giuowoubo i163 910000539 3 t IMDUCTORRFeCHMe LO 10UK 51 I1550X 38SLG 2848 910040539 hes 915680349 7 1 INDUCTORRFeCMeMLO 1 104 53 1680X 385LG 25080 914000349 9 1853en ud v b TRANSISTOR PNP TOe92 PDap25Hn 04713 MPSHO 1 92 1853 0u08 o TRANSISTO
129. ITOR FXD 33PF 300V 0160 2150 CAPACITOR FXD 68 PF 300V 0140 0192 CAPACITOReFXD OLUF ee20X 100VDC CER 0150 3879 CAPACITONeFXO oluF e 20X 100y0C CER 0150 3879 CAPACITOR FXD 1UF ee20x SOVDC CER 016020576 CAPACITOR FXD 100PF 5x JOOVDC MICA 0160 2204 CAPACITOP FXO y F s 25PF KOOVOC CER o 220b CAPACITOR FXO 1UF e20x SOVOC CER aucrag dibo ai ze AuCiuS 116063558 A4C202 0160 2150 A4C202 0140 0192 aacany 018023879 AuC208 018023479 AuC207 0159 0578 suC20n 0160 2200 AuC2aon 0150 2248 auC2t0 916000576 ucalt 016093558 0576 ou oou YON OU s CAPACITDR FXD 1UF o 20X SOVDC CER 016003558 aucare 0160eu44 auC2t3 Autari AuC215 016000128 AuCets 0150 0155 CAPACITDReFXO 47UF ve10x SOVDC CER otbo uau1 CAPACITOReFXD 300PF 10X 200VDC POLYE 0160 0155 CAPACITOReFXD 2 2UF w20X SOVDC CER CAPACITDReFXD 2 2UF 2nX SOVDC CER CAPACITOR FXD 3300PF e 10X 200VDC POLYE 0180 0155 FPPP auCz18 016003558 auc 19 016003558 AuC220 016003558 AuC2 1 016000158 A4CSK0 016002307 CAPACITORSFXO 1UF e20x SOVDC CER 016003558 CAPACITOR FXD 1UF w20X SOVDC CER 0180 3558 CAPACITOReFXD 1UF ee20X SOVDC CER 3558 CAPACITDReFXO K60OPF ewtoX 20nVDC POLYE 016020158 CAPACITDReFXD 7PF 5X JOOVDC MICA 0160 2307 coocoo CAPACITOReFXD 220PF e 20X 100yDC CER BOZUEMIOORDZZIM CAPACITOReF XD 220PF w20X 100VDC CER SO2UEM100RD2 21M CAPACITOR GFXD 20X 100VDC CER SO UEMIOORDA IM CAPACITOReFXD 4 20X 100VDC CER 016003878 CAPACITOR F
130. L LUMINTE IMID LUMeINTEIMCO LUMeINTS1 CD LUM INTEI NCO LUMRINTHiIMLO LUMeINTaIvCh LUMeINT IMCD LUVeINTEIVCD LUE INTEIMED UM SINTRIMCO LUVRINTaikCO LUMe INTEJMCO LUMeINTEINCD LUMSINTBIMCO LUMSINTBIMCO LUMSINT 1MLO LUV e INTsIVCD 0X 3DeNDM SR PNP SI TDe92 PNP SI PRP SI T0992 PAP SI TO 92 PNP SI TO 92 PAP SI T0092 DNO gl TOe92 PNP 9 TOe92 5X 250 SX 256 51 25 5X 25 FC Sw JK 5x 255 FC JK 5X 25 FC 23 12 IK 5X 250 FC Ja 5y 25 FC 3 5x 25n FC 34 5X 25w FC 3K 5x 25 FC IK 5x 25n FC Ges Pu 7x On 3368 Code 28480 03336 66505 Mfr Part Number X Sava CER X Sovoc CER X amp voC AL X 5ny2C CER X BOVOC CER X Sovoc CER X Sovec CER ovOC Ta lFagovAe Ax IFa omievax IFB2QMAwMAX IFa2294evAx TFE OVA SVA IfsgovAevax IFago ieAX IfFsgovAe ay IFBZ0YANMAN IF BZQ0YAaYAN 1fagovAevAX Ifs2nvAevix IF B20YAwMAX IF BZOMA YAN IF E20 beMAX IfagovAevAx IFagovaevix Ifa2nvaevAx IFBZOMA MAX lfagnvaevix IFag0v evAX IfFagov evax Ifs2ov evax 1Fn20 Ae AX lfagovievAx IFa2nvAevAx Ifs20vAe ax IFAZUMA MAX IFWZ0YA MAX 1Fa20 aevax IF BZAYA MAX Farm FDESANOY Ane Sanw POBSNOMW PORZONMA P ayonva PDRy00 w Powsocva RELA 400 e50n 40070500 40079500 4onse5on 40070500 TCBe4dnze7Aa TCawaoaze7ON Towedoose7 An Tomeaonse7an TCmwuonse7Oa TCmeunose TOU TCmawanoye7AQ
131. MHz Low Pass Filter 15 kHz Low Pass Filter High Frequency Probe Signature Analyzer Minimum Loss Impedance Matching Pads Terminations Resistor Capacitors Amplifier Frequency Counter CRITI SPECIFICATION Performance Tests Table 4 2 Recommended Test Equipment Cont d Cut Off Frequency 1 MHz Stop Band Frequency 4 to 80 MHz Cut Off Frequency 15 kHz Consisting of Resistor 10K ohm 1 Capacitor 1600 pF 5 Frequency Range 1 to 20 MHz Accuracy 5 dB Diode Detector Signature 4 digit Hexadecimal Characters O thru 9 A C F H P U Logic Threshold 2 2 V high 5 V low 50 75 ohm 50 ohm 1 75 ohm 1 1 x 502 1 125W 4x 620 196 125W 5 x 750 196 125W 9 x 1350 1x 1500 196 125W 1 x 2250 196 5W 1x 3580 196 125W 8 x 6000 1 125W 1x 6750 196 125W 1 x 10kQ 196 25W 1 x 1600pF 5 300V Gain 20 dB Freguency Range 1 to 20 9 MHz Input Output Z 50 ohm Resolution 1 Hz 20 MHz Aging Rate lt 1 x 10 8 wk for standard instruments lt 5 x 10 9 wk for Option 004 REQUIREO FOR RECOMMENOEO MODEL P 3336C only P T v P V P A T V P AT V P A T V P A T V PLA T V P A T V PAT V P A T V PLA T V P A T V P A T VP AT V P A T P J903 TT Electronics Inc 2214 S Barry Avenue Los Angeles CA 90064 213 478 8224 hp Model 110968 hp Model 5004A hp Model 85428B hp Model 1104
132. MP MC1458G 28480 1826 0111 AJUJU 1458 0063 TRANSISTOR ARRAY 1GePIN PLSTC OIP 01928 CASLOZE ASUS 1A58w00U0 TRANSISTOR ARRAY 91928 CA3127E A3U16 1858 0059 XSTR ARRAY 8P DIP 28480 1858 0059 AUT 1820 0802 IC GATE ECL NUR QUAD 2eINP 04713 C10102P AZULA 182001322 IC GATE TTL S MR QUAD 2eIhP 01295 SN74G802N A3U19 tA20 0629 IC FF TTL Jek NEGSEOGETRIG 01295 SNTUS112N ayy 041021115 CRYSTALeQUARTZ 30 00000 mz 23430 001021115 MECHANICAL PARTS 03325 20601 SHIELD TOP 28480 03325 20601 03325 20602 SHIELD BOTTOM 28480 03325 20602 03325 04101 COVER 1 28480 03325 04101 03325 05103 COVER 3 28480 03325 04103 See introduction to this section for ordering information Indicates factory selected value 6 8 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com HP Part Number Reference Designation AG 03336 58504 Auti 018021701 Aut 016023580 AuC3 0160 3847 Autu 0160 4532 aacs 015021746 kite 0180 1746 auc Auta 016023879 44026 018023847 Aul 7 016023847 Auta 03603847 A4C29 0160 4571 AuC31 016023647 AuC32 0160 3807 AuC33 015073485 AuC3u 0160 4532 44035 016084571 A4C36 016090162 AuC37 016020182 AuC3A 01860 23847 AuC3S 015023847 A4C 41 0160 4571 Autu 01604571 44043 Ot o 4137 Autau 0160 0128 Aatas 016080128 A4C46 0160 5335 Autu
133. Masking Service Requests At instrument turn on all four SRQ conditions are masked disabled from generating a Request Service Message The true states of these four conditions are encoded into the Status Byte bits 0 thru 3 Any combination of these four Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Model 3336A B C Operation conditions can be enabled by sending one of the following Program Instruction Codes Instrument System Sweep Sweep Program Programming Fail Start Stop Error Codes ASCII Bit 3 Bit 2 Bit Bit 0 MS Mask Mask Mask Mask MSA Mask Mask Mask Enable MSB Mask Mask Enable Mask MSC Mask Mask Enable Enable MSD Mask Enable Mask Mask MSE Mask Enable Mask Enable MSF Mask Enable Enable Mask MSG Mask Enable Enable Enable MSH Enable Mask Mask Mask MSI Enable Mask Mask Enable MSJ Enable Mask Enable Mask MSK Enable Mask Enable Enable MSL Enable Enable Mask Mask MSM Enable Enable Mask Enable MSN Enable Enable Enable Mask MSO Enable Enable Enable Enable 3 158 Formats for Instrument programming Codes The format for the programming codes is identical to the front panel manual operation A unique one two or three ASCII character programming code is sent to the instrument to activate the same functions that are activated by front panel switches in manual operation For example the instruction ABI programs Ampltidue Blanking ON While the characters
134. Mineral Wells TX 76067 San Diego CA 92129 Wakefield MA 01880 Bradford PA 16701 Santa Monica CA 90404 Santa Clara CA 95051 Palo Alto CA 94304 Cupertino CA 95014 Riverside CA 92507 Sunnyvale CA 94086 State College PA 16801 North Adams MA 01247 Willimantic CT 06226 Waseca MN 56093 Philadelphia PA 19108 Des Plaines IL 60016 Ogaliala NE 69153 Columbus NE 68601 Table 6 3 Replaceable Parts Reference Descripti A escription Mfr Part Number Designation P ae 03125 56522 9 POKER SUPPLY P C ASSEMBLY 28480 03325 60502 agCi 0160 1508 9 CAPACITOReFXD LUF 80 2nY SOVOC CER 26480 916083508 aac 016023508 9 CAPACITOPOFXO UF 80e20Y SovCC CER 28480 016001508 s ti 016001558 9 CAPACITOReFXD 1UF e20Y SOVDC CER 28480 016003558 atu 918021558 a CSPACITORSFXD 15F e20y Sovo CER 28480 016023554 acs 180 2615 3 CAPACITOReFXO 000UFe50210 15yDC AL 28480 0180 2615 kale 916003508 9 CAPACITOR FXD JUF eBow2ay SOVOC CER 28480 016021508 APCT 018002109 CAPACITOReFXD d TUR e20Y 10VDC TA 0289 1500475x001042 Aca 018002635 3 CAPACTTORSFXD JADAUFeSQSTON ZSVDC AL 28480 618022635 ato AIBG 46tO a 26460 018 eu610 alio O1ed0T AUT 9 CAPACITOPRFXD 01 UF e20t SOVOC CER 28480 otonezauy A2C11 016ne 150A 9 CAPACTTOR FXD UF eBne2nt Sovnc CER 28480 016003508 aai 016004571 8 1 CAPACITOReFXD 1UF 80e20Y SOVAC CER 28480 0160eu T1 hacia NARNe EOS 2 1 CAPACITOReFXD G AJFem20Y
135. Model 11094B hp Part No 0698 6284 hp Part No 0698 5197 hp Part No 0698 5405 hp Model 11048C hp Model 11094B Model 3336A B C Performance Tests NOTE The ac voltmeter used in this test must be accurate to 15 a Connect the equipment as shown in Figure 4 2 Use the proper termination at the voltmeter s input For example if you are testing the 600 ohm output use a 600 ohm ter mination like AC VULIMEIER hp 3336 m DUT m J Hi espe sll pw 23223 z i l J Figure 4 2 Absolute Amplitude Accuracy Equipment Set Up b Refer to the following table for Step c OUTPUT AMPLITUDE FREQUENCY NOMINAL MINIMUM MAXIMUM 3336A 750 7 00 dBm 10 kHz 0 6131 0 6096 0 6166 1500 1 76 dBm 50 kHz 0 4743 0 4716 0 4770 6020 7 00 dBm 10 kHz 1 7341 1 7242 1 7441 3336B 75Q 7 00 dBm 10 kHz 0 6131 0 6096 0 6166 1242 1 76 dBm 50 kHz 0 4312 0 4288 0 4337 1352 1 76 dBm 50 kHz 0 4500 0 4474 0 4526 6002 7 00 dBm 10 kHz 1 7341 1 7242 1 7441 3336C son 8 76 dBm 10 kHz 0 6130 0 6095 0 6166 75Q 7 00 dBm 10 kHz 0 6131 0 6096 0 6166 c Set up the 3336 for each of test conditions above and enter the ac voltmeter readings on the Performance Test Record Refer to the minimum and maximum values above to see if the measured values meet the specifications 4 13 Artisan Scientific Quality Instrumentation
136. N BNTUBOON 8N748112N BNT4L 174N SNTULSI7UN N7u 02N N708112N 1820 2004 BNTUSOUN 574800N SN7USOON N7ug112N SN7US7UN 8N74874N N708112N SN7 AL S365AN SN74S1L2N SN7U 112N SNTULSO2N SN7US112N 1826 0111 MC1o102P 03325 20601 03325 20602 03325 04104 2140 0016 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation 425 ASCI 425C2 APSCY ApSCa A SCS 425C6 ADSC ApSCA A2SCPI ApSCR2 APSCRS A SCRU APSCRS 4 gt SCR6 ApSCR APSCRB 45CR9 ApSCRIO A 5CR11 ApSCRt2 A SCRIY 25CRiu APSCRIS HP Part Number 03136 66525 016003847 116503847 OROeNOK2 9100436657 016003847 016040571 ni ye3A47 0418221746 199020533 199020533 199020533 199040533 199020533 1990 0835 199009533 199020533 199020533 199020533 199000533 19900533 199000533 199900533 1990 04A6 oor oo BRSSECS cecer now ertet Table 6 3 Reptaceable Parts Description ASSEMBLY 3336C KEYBOARD PLC CARACITORUFXD n15UF e20tX SOVOC CER CAPACITOReFXD 01SUF e20t SOVDC CER CAPACITORSFXO JnouF 7S t0t BVOC AL CAPACITORWFXO u1SUF sez0x SOVDC CER CAPACITOReFXD 01SUF 201 SOVDC CER CAPACITOR F YS 1UF eBOegot SovOC CER CAPACITOR FXO n1SUF se20 SOVDC CER CAPACITORSFXD j amp UFeeint 2OVDE TA LEDeVISIBLE LUMeINTSISMCO IF820MAwMAX LEDevI
137. N7HL8193N SN74L8193N DMRILS97N BNTULSOON BNTALS32N S874 8138N OMBILSOIN SNTULS273N DMBILSO7N BNTAL SI BAN SN7ULSOON SN7ULS32N SNTGLS175N SNTULSOON SN7GLS7UN SN74LS125aN 1820 0684 SN7UL8165N OMBILSOIN SNTULSN2N SUTULSO4N SV7GL827N SNTULSTUN OYAILSGAN L 301AN SN74L81614N SNTaLSDON 6136 508204355 5082 4355 S082 u354 5082 4354 SN7UJAN See introduction to this section for ordering information Indicates factory selec Artisan Scientific Quality Instrumentation ted value Guaranteed 888 88 SOURCE www artisan scientific com 6 19 AbUSS Agen 46U61 kelue2 46063 doled koles kbUbb 46967 AUGA holed AoUTO AbUT AOUT AOUTY ABUTU 460075 Reference Designation HP Part Number 182001300 1820 1300 182001300 142001416 1820 1440 wae oo 182001157 1820 1416 182001112 1826 0108 1A26 1558 rr 182001558 1820 1730 1820 5621 1826 1197 1420 120 oowoo 182004197 192 251 490be0006 1A001199 uwo 0380 1188 L Table 6 3 Replaceable Parts Description IC SHF RGTR TTL LS 8 3 PRL IN PRLeOUT IC SHF RGTR TTL LS R 8 PRLeIN PRL OUT IC SHF RGTR TTL LS 8 8 PRLeIN PRLeOUT I SCHMITT TRIG TTL LS INV MEX 1 INP CH TTL LB GUAD 1C GATE TTL LS NAND QUAD geluP IC sCHvITT TRIG TTL LS INV HEx 1 INP IC FF TTL LS DeTyPE POSREDGE TRIG IC 7805 v RGLTR TO 220 IC UART TTL Quan
138. NOTE The hp 3336 will respond to a universal Clear Message when it is in the Local operation mode 3 142 Require Service The Require Service Message is a request for service which is sent from a device on the HP IB to the active controller Any of the following conditions in the hp 3336 can when enabled generate a Require Service Message Received an unrecognizable program string Sweep started Sweep stopped System failure External reference unlocked or main oscillator failure OSC FAIL All conditions that cause a Require Service Message from the hp 3336 are disabled masked at turn on The condition or conditions that will cause a Require Service Message are enabled using the Data Message Paragraph 3 153 The Require Service Message is com pletely independent of all other bus activity It is sent on a single line wire called the SRQ Line whose state is either true or false This line is shared by all devices on the HP 1B If the controller is programmed to respond when a Require Service Message is received the con troller must determine which device or devices are requesting service This is accomplished by conducting a Serial Poll Each polled device responds by sending a Status Poll Each poll ed device responds by sending a Status Byte which indicates among other things whether or not the device requested service Serial Polling and Status Byte Messages are fully explained in the discussion of the St
139. Number 28480 03337 66507 016022871 28480 DiB euSTi 28480 010003558 28480 0160 4571 28480 atove4sti 28480 6160 3558 28480 016003558 28480 018023558 28480 010003554 28280 916003558 28480 0160 3558 28480 016023558 28480 0165 3558 28480 a160 2239 28480 0490e1141 28480 0u80e 161 28480 0490e114l 28480 ouvletyui 28080 0699 0065 28480 0699 0065 24480 009900273 25480 0699 0274 19701 MFS2C1 eT9e2UTRS B 28480 no9A TAB4 28480 0698 7984 19701 wFS2Cl uet2eT1RibeR 19701 ME S2C1 4u 296R25u8 19701 MFS2C1 0 72 96R25 B 19701 MFS2C1 zun Ze 258048 28480 03336 60601 28480 03336 64115 04393 200 200 NPC 330J 28486 0166 3875 28480 9100 2247 See introduction to this section for ordering information Indicates factory selected value 6 21 Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part Descripti scription Mfr Part Number Designation Number p 03336 69210 5 REBUILT ATTENUATOR CONTROL P C ASSEMBLY 03336 69210 OPT 005 EXCHANGE ASSEMBLY 03336 64210 5 NEW ATTENUATOR CONTROL P C ASSEMBLY OPT 005 28480 03336 64210 185300419 5 TRANSISTOR PNP BT PDu3in e FTa200MHZ 2N4403
140. O 50VDC CER 28080 916093558 arocit 0160 3558 a CAPACITORAFKO Sovoc CER 28480 0160 3558 aroct2 016093558 9 CAPACITOReFXO Sovoc CER 28480 0160 3558 A10C13 0160 3558 9 CAPACI TDReP XD 50vDC CER 28480 016003558 Atoctu 016003558 9 CAPACITDReFXO 50vDC CER 28080 0160 3558 AtOC15 616003558 9 CAPACITOR FXD SoybC CER 28480 0160 3558 A10C16 016003558 9 CAPACITOREFXD 50vOC CER 28u80 0160 3558 Atoc17 018092973 CAPACITOReFXD fnUF 50s10 200VOC AL NPOL 6289 6tabtasFZanDL2 A10C18 0160 0161 4 1 CAPACITOR FXD 01UF 200v 28480 0160 0161 A10C19 0160 2207 3 1 CAPACITOR FXD 300PF 300V MICA 28480 0160 2207 A10C19 0160 2208 4 1 CAPACITOR FXD 330PF 300V MICA 28480 0160 2208 A10C19 0160 2209 5 1 CAPACITOR FXD 360PF 300V MICA 28480 0160 2209 A10C 19 0140 0200 0 1 CAPACITOR FXD 390PF 300V MICA 28480 0140 0200 A10C20 0160 2207 3 1 CAPACITOR FXD 300PF 300V MICA 28480 0160 2207 A10C20 0160 2208 4 1 CAPACITOR FXD 330PF 300v MICA 28480 0160 2208 A10C20 0160 2209 5 1 CAPACITOR FXD 360PF 300V MICA 28480 0160 2209 A10C20 0140 0200 0 1 CAPACITOR FXD 390PF 300V MICA 28480 0140 0200 atott 0160 0573 2 6 CAPACITOReFXD 4700PF ee20X 100VOC CER 28480 0160 0573 Atoc 2 916000573 2 CAPACITOReFXD 4700PF sw20x LONVDC CER 28480 0160 0573 AtoC23 0160 3914 1 a CAPACITOReFXO gqUF stat 1009VDC CER 25485 016073914 atocad 01603468 0 2 CAPACITOReFXD 12UF e10X B vOC POLYE 28480 016093468 a10c25 Ol6O 2I90 2 4 CAPACITOR FXD S3OPF ee5X ZOGVDC MICA 28480 516002199
141. OR NPN 2N5179 SI TOeT2 POszoota g4TIZ 8N51T9 9163 145420345 a TRANSISTOR NPN 215179 SI TO T2 PDa200 ours 288119 9160 WASue03u5 ja TRANSISTOR NPN 2N6179 S TO T2 PDe200 K Gatis 2N5179 2165 185 0315 3 TRANSISTOR NPN 2N5179 S TOeT2 PDS GOMA G4TI 2w5iT9 dies 1AS 300408 o TRANSISTOR PNP SI TO 92 PDs625uw ouri3 MPSHBL RI OTS T0395 1 2 RESISTOR 56 2 1x 125m F TCu esl00 24546 C el ferOeSon2eF Ra VT5TeGUEI bi 3 PESISTOR 681 1x 125 TCens 100 20546 CUejs BaTonbbirak RS OTST endo HI RESISTOR O81 1X 125x F TCZO 100 24546 C4wi BuTOn63 NaF au do8Ze4TO5 a 23 RESISTOR 47 Sx 25n FC TCRe400 500 21121 Caras Ro OTST endar a 3 SESTSTO 825 1x 125 TCaoveton 24546 Cue1 8eTo 825 F RT Opa 3euT 5 0 3 RESISTON 470 Sx 25 FC TCw 400 600 01121 C84715 RB OeB3euToS 8 RESISTOR UT 5X 25n FC TCRe400 50 01121 WR ag 0698 3040 T 2 RESISTOR 196 1X 125w F TCedeeino 24546 Cue1 8 70196ReF Rit vokiez2u5 a 4 RESISTOR 22 5X 25w FC TCe u0o e500 vt1 l C82205 RI anStwos3a 3 3 RESISTOR 5 11K 1X 125n F TCaOveion 265460 LIE OTSTe0438 3 RESISTOR 11K 1x p125 F TC 24546 148070n5111af aid 075720418 q 2 RESISTOR 619 1X 125n F TC 24546 Pa pp ra R16 075Teou440 7 1 RESISTOR T SK ix 125 F TC80ew100 24546 Cun1 80T0nT5010f RIT 69863152 D RESISTOR 3 U8K tX l125w F TC809 100 20546 C4wi 8nTOnJ481 p RIB OTS Teguda 1 2 RESISTOR 12 1K 1X 125 p TCSOsa100 24546 PATER R19 OT5Te02TA q t RESISTOR 1 78K 1 125n F TCeQeel00 24540 c R21 0oB3
142. OURCE www artisan scientific com Model 3336A B C Model 3336A B C Operation 3 125 Step One Choose one of the Bus Messages for conversion Begin with the System Management Messages since they are usually easier to convert to controller statements than the Trigger or Data Messages Locate the description of the Bus Message in this manual The description of each message contains the following information as applicable the response of the hp 3336 to the message the device dependent information required for the controller statement any prerequisite operations suggestions for optimizing the use of the message The device dependent information required for the controller statement is always found under the heading Implementation NOTE The Require Service Message originates at the instrument rather than at the controller Consequently there is no controller message that implements this message This does not diminish the importance of this message to the operator Study it carefully in turn 2 The Status Bit Pass Control Abort and Trigger Messages can not be implemented because the hp 3336 does not have the capacity or the need to respond to them 3 126 Step Two Find the description of the selected Bus Message in the controller documentation This description usually consists of the following information one or more controller statements that implement the message mnemonics for the controller stat
143. OVOC TA 6289 1500685x0 0642 APCIS leCe 3847 9 CAPACITOReFXD 01SUF e20Y SOVOC CER 28480 otoldes847 aac 01A0w2823 1 1 CAPACTTOR FXD TOUF S0e10Y 6 3V0C AL 28480 018002823 acir 018020423 1 2 CAPACITOReFXD 100UFeS0e10 25v2C AL 28480 0180e0423 alin OIROSNUJI 1 CAPACITOReFXO 100UFeS0e10 25V5C AL 28480 18080425 A2C19 0180 3008 6 1 CAPACITOR FXD 470 UF 35V 28480 0180 3008 A2C20 0180 2823 1 1 CAPACITOR FXD 470 UF 6 3V 28480 0180 2823 ACRI 190120662 1 4 DIODE PwR RECT 100V o Davis MRYSI aglr 190100002 3 DIOOEePwr RECT 100V ba ansyin MATS ACRI 190120662 1 DIODE PwR RECT 100V ob t MRTSI ACRO 190100662 3 DIONEePAR RECT 10av ba O4TIJ MRIS Aaces 190220025 a D DIQDE 2NR 10V SY DOeT PDa uK TCe 061 28480 190220025 A2CR7 1902 3214 1 DIODE BKDN 16 2V 28480 1902 3214 ACRA 19010040 1 s OTODE SHITCHING 30V SOMA 2NS Do 1s 28480 1901 0040 Aacre 190200777 z 1 DIODELZNR 1N amp 23 6 2V SY DOT POB U outis 1N825 aacrto 1354 0200 s t THYRISTOR SCR 2N6400 TOw220A8 yRRvaSn n1928 aNouoo agCRi2 1901 0040 1 DICDE SHITCHING zav SOMA NS DO 15 28480 190120040 A2CRI3 1901 poun 1 DIDDE SKITCHING SOV SOMA 208 00 35 28480 190120040 APCRt a 195160040 1 DIODESSHITCHING Jav SOMA 2VS po is 2880 190120040 aatas 190120518 a 1 OIODELSCKOTIKY 284k 150120518 EU 1901e0nun 1 OTODE SHITCHING zov SOMA 2NS 00035 28480 190120040 A2CR17 1901 0535 1 DIODE SM SIG 10V 28480 1901 0535 A2CR18 1901 0518 1 DIODE 70V 410MW 28480 1901 0518 nara 2ttoenzaz2 1 1 FUSE SA 250
144. PUSHBUTTON SWITCH MOUNT 28480 5080 9036 PUSHBUTTON SWITCH MOUNT 28480 505029436 PUBHBUTTON SwITCh MOUNT 28480 508029436 PUSHBUTTON SWITCH MOUNT 28460 5060 9436 asanat 5060 9436 423422 506009036 A823 50609436 A5 KNAG 50609436 450425 5060 9u36 vv PUSHBUTTON SWITCH MOUNT 26480 50609436 PUSHBUTTON SWITCH MOUNT 26480 5060 9035 PUSHBUTTON SNITCH MOUNT 28480 50619436 PUSHBUTTON SWITCH MOUNT 28080 5060 9436 PUSHBUTTON SWITCH MOUNT 28080 5060 9436 ASSW26 5060 9436 A5Sw27 506029436 AsSw k 506069436 A53w29 506099436 ASSW30 5060 9436 PUSMBUTTON SWITCH MOUNT 28480 506079036 PUSHBUTTON SWITCH MOUNT 25080 5060 9036 PUSHBUTTON SHITCH P C MOUNT 28080 50609036 PUSHBUTTON SWITCH MOUNT 28080 50609036 PUBMBUTTON SNITCH MOUNT 28480 5060 9036 ASIn31 5060 9436 A58n32 5060wou 36 452433 5060 9036 A59W3 5060 9436 450435 5060 9436 A58n36 5060 9436 458437 3060 9436 4584360 A5SW39 asut 1990 0592 agua 199960592 ASUS 199000592 agua 199080892 ASUS 199000592 9 9999 PUSMRUTTON SKIYEH MOUNT 28480 5060 9436 PUSHBUTTON SwITCH MOUNT 28480 5060 9436 PUSHBUTTON MOURT 26080 5060 9236 SW PSHBIN 28480 3101 2441 DISPLAYeNUVeSEG ICHAR u eM 25480 5082 7653 DISPLAYeNUMeSEG wCHER Sex 28480 5082 7653 DIBPL amp YeNUMeSEG feCHAR uUBen 28480 508207653 DISPLAYeNUMeSEG 1e NAR uZeM 28480 S0R2 7653 DISPLAYeNUMeSEG 1eCHAR 3eM 28480 5082 7653 DISPLaYe UMeSEG 1 CMAR 28480 5082 7653 DISPLAYeNUM SEG 1eCHAR 28430 508267653 DISPLAYeNUMeSEG 2
145. Qm50 1550x 37 5LGeNOV 28480 9140 0283 Atol 9140 0253 a COIL MLD 9LONH 5X QuB0 1550X 375LGeNOM 28480 9140 0283 Atout 9t4nwoz83 8 COTLeMLD 910NM 5x D 5n 1550X 37 5LGe NOV 2848 O lu0en 283 atoka 9140 0283 8 COILeULD 910NM SK OB50 1550X 375LGeNOM 28480 9140 0283 A10LS5 9140 0283 8 COILe LO 910 Sx O50 1550x 37 5LGeNO 28480 9140 0283 A10L6 914090266 2 COILeMLD 1 8UM 8 Om33 1550x 375 Gesou 28480 9140 0266 1 A10L7 9140 0266 COIL MLD 1 8UH 5 Q333 1550X 375LGe NOM 28480 214002660 At10L8 9104 0351 1 COIL MLD 18UH 28480 9104 0351 A10L9 9104 0351 1 COIL MLD 18UH 28480 9104 0351 A10LI0 9100 3314 1 COIL MLO 15UH 28480 9100 3314 AHOL11 9100 3314 1 COIL MLD 15UH 28480 9100 3314 ALORI 069B uuuS u 2 RESISTOR 5 76X 1x 1254 F TCMneuton 2u5u6 Chet sbaT 005761 oF ALOR2 075720276 7 2 RESISTOR 65 9 1 1255 F TCareeton zu546 C et BeTOub192eF ALORS 0698 u45 a RESISTOR 5 76K 1x 1257 F TCs0eeion 2u5u6 C c 1 8e T0 5761 F A1ORG 075720276 7 RESISTOR 61 9 1x 125w F TCedes100 2u5u6 CawisBnTOubt9ZLE ALORS 075720433 a PE I TO 3 32X iX 125n F TCadeeto0 20506 C e1 8eTOe3321eF 41056 abAZ 0275 9 RESISTOR 2 7 5x J25w FC TC nitet CB2765 aOR 9653 0275 9 RESISTOR 2 7 5x 25w FC Ti attzy CR2765 ALORS 0698 uuu6 5 RESISTOR 267 1x 125n F TCuboutno 24546 ChwisAnTOu267R F A10R9 0698 2384 o RESISTOR 54 9 1x 1254 F TCanseton 24546 Coat Bute 5 RGeF ALOR1O 0698 4384 a RESISTOR 54 9 1X 1254 F TCacoutan 24546 Coot BuT Ow SURF S
146. R 1 1X 1x 125w F TCmO el00 2446 CuwisBuTOu1101 AuR226 0698e u S o RESISTOR S36 iX 12 K F TC 100 24846 Cuwi BuTOnSJIoRLF 246227 075700405 b RESISTOR 100K 1x 125P F TCmOuwion 24840 ChwisBeTAwti00JEF 4uR228 075790408 6 RESISTOR 100K 1x 126 F TCad elo0 24540 C el BeTOel00yeF auR229 MGAJ 1225 1 t RESISTOR 1 2X 54 2SM FC TCmeu00 700 ottet cares AuR Yo 075700454 3 2 RESISTOR J3 2k 1x l25 F TCaOvelon 24540 C e ReTOe3322eF AuR2M 075700458 7 1 RESISTOR S1 1K 13 vl SA F T 100 24846 ChwisBuTOuS112aF AuR Qe9ReuuTy a 1 RESISTOR ANOK 1 125x F TCansetoo 24846 C e1 8eTOeBQbleF amp uR233 069804307 t RESISTOR l4 3K 1 l264 F TCmoewton 24540 Cu l 8eTOeq32eF 448234 0e8AeRYuu 0 1 RESISTOR amp 04X x 125u f TCBO e100 28480 00988 340 ELTEL 69803162 o 1 RESISTOR e K 14 125x F T 20545 Chwi BuTOutibuzeF AuR236 075700450 3 RESISTOR JI 2K 1 125n F TCmO el0n 245460 Cuwl BaTOu33220F AuR237 078720240 3 RESISTOR tk 1 125w F TCmOveroo 24546 ZIP CTI Aun2yo 0757 0442 bi RESISTOR 10K 1 125w F TCwO el00 24840 C c 1 Bet0el002 F AOR239 075700420 9 1 RESISTOR 1 3X 1x 1254 F TCmO e100 24546 CHet BurTOH1 301 eF AuRzut 075799280 3 RESISTOR IK 1x 1254 F TCa0 e100 24840 Chot But0e100LeF 248242 787 0 u2 s RESISTOR 10K 1x 125K F TCnoeeto0 24546 C e1 8eTo 1002 F AuR2uy 0698 7312 4 RESISTOR 14 1 125 F TCsO e100 28480 069897332 taRewa 078790289 2 RESISTOR 13 3k 1x 125m F TCmo 19701 MFaCl getoe1332eF AuR2uS 075720028 1 1 RESISTOR 1 62X 1x
147. R CONSE QUENTIAL DAMAGES WHETHER BASED ON CONTRACT TORT OR ANY OTHER LEGAL THEORY ASSISTANCE Product maintenance agreements and other customer assistance agreements are available for Hewlett Packard products For any assistance contact your nearest Hewlett Packard Sales and Service Office 12 1 81 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com KAJ oio SAFETY SUMMARY The following general safety precautions must be observed during all phases of operation service and repair of this instrument Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design manufacture and intended use of the instrument Hewlett Packard Company assumes no liability for the customer s failure to comply with these requirements This is a Safety Class 1 instrument GROUNO THE INSTRUMENT To minimize shock hazard the instrument chassis and cabinet must be connected to an elec trical ground The instrument is equipped with a three conductor ac power cable The power cable must either be plugged into an approved three contact electrical outlet or used with a three contact to two contact adapter with the grounding wire green firmly connected to an electrical ground safety ground at the power outlet The power jack and mating plug of the power cable meet International Electrotechnical Commission IEC safety st
148. R PNP S1 TO 92 POmb2S W 90713 Pana a3 185440305 a s TRANSISTOR NPN 2NSI79 Si TO 72 POS200MN 94713 25179 gu LES Jeyaan TRANSISTUR PNP 1 TOs92 PDsb25MN 04713 MPSHBy LL 1853e00A9 s 9 TRANSISTOR PNP 2N4917 SI POs200vw 97253 284917 a7 145300049 5 TRANSISTOR PNP 250917 Si Pos200mw 07203 2nuo17 oe 1A530049 5 TRANSISTOR PNP QNu917 SI PDs200Mw 07203 2Nu917 99 145400296 A a TRANSISTOR NPN SI TOe 92 PO3310 w 28480 4854 0290 910 1ASJonon9 5 TWANSISTOR PNP 2N49817 S POR200M 07203 254917 ait 185 Wey 290 a TRANSISTOR NPN SI TU 92 POx310 w 26489 185490296 a12 185309089 5 TRANSISTOR PNP 2N4917 S POs2o0MW 07203 254917 913 185 en29b a TRANSISTOR NPN S TOe92 PDS310MN 28480 185400296 910 185400290 a TRANSISTOR NPN 1 TOw92 PORJLOMK 28480 185420294 016 1A8 e0295 8 TRANSISTOR NPN TO 92 PDRJJOMK 28480 16540029 017 145540305 2 1 TRANSISTOR JeFET 2N41174 NeCHAN DeMODE 17856 2841174 918 1855euoAl 1 a TRANSISTOR JeFET NeCMAN DeMODE SI 01295 2N52u5 019 1A550006 1 TRANSISTOR JeFET NeCHAN DeMODE SI 91295 2N5245 gal LAS Sey0R2 2 2 TRANSISTOR JeFET PeCNAN DeMODE SI 26480 1855 0082 922 185000215 n s TRANSISTOR NPN St PDmjySoV FTRJOOMNZ 04713 2n390u 023 18549215 1 TRANSISTOR NPN SI POWISO w FTa300MMZ 94713 2N3904 aga 1854 n215 1 TRANSISTOR NPN St PDS3SOQu FTS300MMZ 04713 283904 925 1A530009 5 TRANSISTOR PAP 2N4917 SI POR200KW 07263 2Nu917 dab 185400215 1 TRANSISTOR NPN 1 PDRJSOMA FIR 3Q0MHZ 94713 283904 927 185520081 1 TRANSISTOR JeFET NeCHAN DeMODE
149. RAS 0757 n273 4 RESISTOR 3 01 1x 125 24546 ChuisBuTOn SOL 1uF A3RAU 075720271 4 RESISTOR 01X 1x 1254 F TCanee o 24565 C e1 BeTOe3011eF AIRRA 059Reuu75 2 1 RESISTOR 9 76K 1 125n F TCsoeeton 03888 PMESS 1 8 19 9761 oF A3RAT fi amp 83 1025 M RESISTOR 1x 5X 250 FC TCmwannyenon atii carns AYRAR 0757 0437 2 2 RESISTOR 4 7SK 1X 125x F TCanee100 24546 Chwi BuTO4751nF AYRAS 0757 n437 2 RESISTOR 4 75K 1X 1254 F TCMfewino 24546 CUwi 8uTO 4751n LELEII ds9B UUZI 6 1 RESISTOR 249 1x 1254 F TCenewyon 24546 Chwi 8aTOn249REF DI n amp Ryen2S 9 RESISTOR x 5X 25K FC TCMwUON eboO 21121 CB1025 AROS 5R3eu705 8 RESISTOR 47 SX 25 FC TCeeu0n e500 01121 CBu705 ASRIt n7STensa7 s RESISTOR 200 iX 125w F TCan eion 24546 Chwi BuTOu201 F A3R113 0698 3444 1 1 RESISTOR 316 1 0698 3444 A3R114 0698 3444 1 1 RESISTOR 316 1 0698 3444 See introduction to this section for ordering information indicates factory selected value Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part c int Designation Number Description Mfr Part Number A3R115 210020568 RESTSTOPSTRMR 100 10 C TOPRADJ 1eTRN 28080 2100 0568 A3RI16 0757 0384 RESISTOR 20 1 125W 28480 0757 0384 A3R117 0698 3444 RESISTOR 316 126 28480 0698 3444 A3R118 0698 3444 RESISTOR 316 1 28480 0698 3444 AZRI19 0757 0275 RESISTOR 113 1 125w F
150. REQUENCY sorset mesian wate ele raja 10 kHz Amplitude sane ore eene 7 00 dB d Connect 5Vdc to the rear panel AMPTD MOD input on the 3336 e Remove cable W23 on the A3 assembly f Connect the 3312A 50 ohm output to J23 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Adjustments g Monitor A3 TP4 with the oscilloscope and a 10 1 scope probe h Press AM ON press blue button then STORE 0 9 button i Adjust A3R69 for minimum modulation j Disconnect the 5Vdc source from the 3336 AMPTD MOD input k Disconnect the 3312A from A3J23 and connect it to the AMPTP MOD input on the 3336 1 Connect the 50 ohm feedthru termination to A3J23 m Adjust A3R33 for minimum modulation and adjust A3R68 for OVdc n Disconnect the 3312A and the 50 ohm termination from the 3336 and reconnect cable W23 5 19 2 1 Mixer Spur Adjustment 5 20 This procedure minimizes the 2 1 intermodulation products of the mixer The 2 1 spur is a product of the second harmonic of the VCO and the reference fundamental Required Equipment impedance matching pad hp Model 85428B spectrum analyzer hp Model 141T 8553B 8552B a Set the 3336 as follows Er duency sine ao he nonce need 10 MHz Amplitude 2 99 dBm OUI PU voies 75 ohm b Set the 141T 3583B 8582B as follows Range is hes anti ten a ceu nta ee leson av 0 11 MHz Center frequen
151. RESISTOR 1 3X 5x 25w ean CBr325 AYSRIJ OoR3e1325 RESISTOR 1 3X 54 25 FC ant t CB1325 ar SRI 003301325 RESISTOR 1 3x 54 255 FC vit t CB1325 445RI5 065341325 RESISTOR 1 3 Sx 25w FC ott t CB1325 DU 003301325 RESISTOR 1 3 51 25a FC asad C81 325 415017 COAJe1325 RESISTOR 1 3x Sx 25w FC 01121 CB1325 15R1A 583e1325 RESISTOR 1 3K 51 25A FC TCweqo0 e700 out t C81325 415821 812en16a NET ORKeRES JegIPU 7K OMY X A 91637 CSP08Co7 a72J 415822 1At tou KETADRKARES AeGIPY LTK OMY X 91637 CsP0sCo7 u72J 415223 181200135 NETRORKeRES beSTPIOANK OHM x 5 28450 1810 0135 415526 A1320056 N TACRKePES SeSIPIO OK DAM X 28480 1810 0055 415828 0415 3000 RESISTOR 4 5X 54 Pw TCmOeet5 150542 Aw20egesR0 See introduction to this section for ordering information Indicates factory selected value 6 26 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part D Mfr A escri Mfr Part Number Designation Number P Code 415941 505029036 7 37 PUSHBUTTON SAITCH P C VDUKT 28440 500625436 415542 506040436 7 PUSHBUTTON SAITCM P C MOUAT 28480 506Ce9uib 415543 5060 5436 7 PUSMRUTTON SwITCH P C vOU T 28486 5 8h 9438 415904 500009430 7 PUSHBUTTON SNITCH PLC OUNT 28480 506109436 A15885 506029235 7 PUSHBUTTON BITCH P C MOUNT gesan S08 eQulb A1
152. S astra ASCRE ABCRE ASCR ABCRE ASCRI ABCRIO ASCRI L ASCRI2 ASCRIJ ASCR14 ASCRIS ASCR L6 ASCARI ASCRIB ASCRIS ASCR20 ASCR21 ASCR22 ASCR 3 ASCRJU ASCR25 ASCR26 ASCRAT ASCR2B ASCR29 ASCRIO ASCRSI ASEL A5J2 ALI 4501 A502 A503 Asou A505 4506 4507 4508 ASRI ASR ASAJ ABR AGRE ARG ASR ABRG ASRI ABRIL ASRI ASRIY ASRU ASRIS ASRI 6 ABRIL Designation HP Part Number 03336 66505 016003827 016043847 0180 0082 0160 3847 016023847 0180 4571 016023847 018001746 199060533 199020533 199000533 199020533 199000533 1990 0533 199020533 199020537 199000533 199000533 199060533 199020533 199020533 199000533 19900486 1990 0486 1990 0865 199060665 199060665 199000665 199020665 199000665 1990 0685 1990 0685 199020665 199000665 199020665 109020665 199000665 199000665 199020665 03582 61620 1251 5041 910023332 185320016 1853 0016 185340016 185300016 185320016 1885320016 1851e5 16 185300016 068302205 0683 2205 06 3e2205 0683 2205 O8A3 2205 068302205 0O6 3 2205 0683 2205 0757 0280 n6h3e1325 068321325 0683 1325 0683 1325 0683 1325 9883 1325 085321325 mon MO OE EE RE BRE mooeow o wvvosoooooon vuv Table 6 3 Replaceable Parts CAPACI TORE CAPACI TOP OF 1 CAPACITOReF CAPACITOR F CAPACITORS 1 CAPACITOGe
153. SAITC P C DUNT 284B0 506009430 4158430 506029436 7 PUSKRUTTOM SITCOM P C YOU Y 2huBC 506109436 A159431 5060 0436 7 PUSMAUTTON SWITCH P C MOUNT 28686 506009035 a158w32 506049436 7 PUSMBUTTON SmITCu P C YOUKT 28480 506009436 8159433 50609436 7 PUSHBUTTON SAITCH P C UJU T 28480 50609430 41554134 506049436 7 PUSHBUTTON Saltem P C YOUNT zauan 5n amp 0eQulb 4158435 506020436 7 SAITCH PLC MOUNT 25480 506 9038 LELETET 50622494135 7 PUSHBUTTON SAITCH P C MOUNT 26480 5050 9435 A159438 Sooneduye 7 PUSMALITYON SWITCH P C MOUNT 28480 506040436 A 15SW39 3101 2441 6 1 SW PSHBTN 28480 3101 2441 415i4 199000592 5 3M DISPLAv UMeSES eCHaR dJen Buer 5082 7853 i502 199000592 5 DISPLAveMUMeSEG 1 CHAR 4 ten 28480 508207653 41514 199000592 5 OTSPLAVeMUM SEG 1eCHAR ujem 28480 508207653 A15 199000592 5 DISPLAY NUMeSEG eCMAR iJon 26490 508207653 41505 199009592 5 OISPLAYNUMSSEG 1aCHAR ujen 28480 5082076053 1506 1990 0592 3 DISPLAY eNUMeSEG telr b ulen 24480 508207653 41597 199900802 5 OISPLiYeAUMeSEG 1eCHAR uyer 2848 508207653 AL SUR 199000592 5 OISPLAYLNUVLSEG telman 43er Ban 508207653 41500 199020592 5 DISPL Ye UMeSEG 1elCM8R Lydon 28480 SvAZ2 7651 a1suto 109100592 5 DISPLAVLNUMeSEG aCMAR uJeH Pauen 598207653 4y5ur1 1990 0592 5 DISPLAYe UVeSEG jeCHAR ugen zauan 508297653 ki5Ut2 1858 0007 5 3 TRANSISTOR APRAY 164P I 13606 ULNe 20034 415013 182041200 s 2 IC INV TTL L8 HEX 61295 SNTULSOSK arSura Abe 1433 6 2 IC SwFa26TR TTL LS 8 8 SERJAL I POL OUT 612
154. SIBLE LUMeINTRISVCO IFw20 AuMAX LEDeVISIELE LUM INTBISMCO IFu2OMAeMAX LEDeVISIBLE LUMSINTWISMCD IFu20MAePAX LEDeVISIALE LUMRINTWISMCD IPUZOMASMAXx LEP VISIBLE LUMSINTBISHCD IFs20MAeMAX LEDWVISISLE LUMeIN7BISMCO IFs20MAeVAX LEDeVISIBLE LUYeINTBLSMCO IFWZOMA MAX LEO VISISLE LUMINTWISMCD IFs20V eVAX LEDeVISIBLE LUM INTWISMCD IFw20MAe AX LEDeVISTBLE LUMerATE1SMCO JE W20MA mAx LEDeVISIBLE LUMeINTSISVCO Fu20MAeMAX LEDeVISIALE LUMeINTwISMCD IFm20MAeMAX LEDeVISIBLE LUMeINTWISMCD IFw20MAwYAX LEDeVISIBLE LUMeINTWIMCO IFa20YASMAX A2SCR16 A gt SCR17 AgSCRIA APSCRIO A gt SCR20 A 5CR21 APSCR2 AgSCR2Y 4256020 A25Cr25 1990 04 1990 0 1995 5 199009 199980665 199020665 199020665 1990 0665 enn LEDeVISIALE LUMeINTsI CO IFg20Vae AX LEQeVISIBLE LUMSINTWIMCD IFw20 YAwMAX LEOeVISIBLE LUMeINTSIMCD IFaZOVA MAN LEDLVISIBLE LUMeINTSIMCO IFu2AMAnMAN LEDEVISIBLE LUMeINTUJMCD IFu20MAeMAx LEDeVISIRLE LUMLINTNIMCO IFw20MAeMAX LEDeVISIALE LUMeINTSIMCD IFu nvkuMax LEDeVISIBLE LUMeINTUIMCO F20MAevAy LEDeVISIBLE LUMeINTNIMCO IFu20MAwMAX LEDeVISIBLE LUMeINTNIVCO IFu2O A MAX APSCP2K ApSCo27 ApSCo2Q LILET A25E1 A25J2 425L1 APSO A502 A2503 42594 42508 42506 42507 42500 1990 0665 1990 0665 199020665 1990 0665 03582 61620 1251 5041 91003344 1853 0016 145320016 1855 0016 185300016 145320016 1853 0016 1853 0016 185320018
155. SSAS SI Poutan 04713 aNS583 AuQtt3 185 ep2t5 1 TRANSISTOR NPN SI PDa350vw FTASQOMMZ 04713 2N3904 Augant 185000215 1 TRANSISTOR NAN SI PDa3So w FTRZNOMAZ 04713 2N3904 442202 185300066 8 TRANSISTOR PNP SI TOe92 PDa625VA 25450 185320066 440203 1454 0400 6 1 TRANSISTOR NPS SI TOe18 PDs36n 28480 185400404 AuR 9683 2213 1 1 RESISTOR 220 Sx 254 FC TCweunossonn 01121 CB2215 AuR3 069863155 t 1 RESISTOR 4 64K 1x 125a F TCuoeeton 24546 ChetsBoTOutb41EF AuRU 075700039 4 1 RESISTOR amp BtK 1 125n F TCaoset0n 24546 Chet BeTOobbiteF AuRS 6R3e2225 3 a RESISTOR 2 2k 5x 25w FC TCwea00 47 0 ott C82225 IT 21003253 7 1 RESISTOReTRMR Sok 10 C TOPe amp DJ 1eTRN 28480 210003253 4497 069804817 1 RESISTOR OSIK 1x 25 F TCange100 28480 069804817 Aura 69 amp e7250 1 1 RESISTOR 9 055k 14 1254 F TCaOwe25 19701 MRUCI BeTOeDUSSReB AAR 0757 0410 1 2 RESISTOR 301 iy 125 F TCuoselon 24546 Cumi BoeTO S01ReF AURI 0757e0a10 1 RESISTOR 301 1x 24546 CdotsBoT e301 ROF AuRt2 N6RZe1035 1 7 RESISTOR 10K 5 01121 C81035 44513 0683e1n35 1 RESISTOR tox Sx 01121 C81035 Agata 0bR3e1035 t RESISTOR 10K Sx atiz1 31035 AURI ABAZ NAS 9 s RESISTOR IK 01121 CB1025 AURIS MoAse1 035 1 RESISTOR 10K Sx n1121 CB1 35 KURJA 0653 1535 9 Li PESISTOR 18K Sx 254 FC TCwwaoy 8no sitar c81835 44826 NG 302225 3 RESISTOR 2 2X Sx 25a FC TCSe400 700 sit l t82225 44527 90 3c2225 S RESISTOR 2 2K SX 254 FC TCeeoagnse7on 01121 CB2225 AuR n 068302225 3 RESISTOR 2 2X 5x a5r FC TCwougos4 70n
156. STOR 100 1x 128W F TCmOe Qn 24846 Chel 6 eT 001 0030F A uR277 0757 0486 1 1 RESISTOR T50 1x 1254 F TCensetoo 28480 nT5Te0uBb Auk TA 0695 3258 T 1 RESISTOR ZUBK 1x 1258 F TCenemi00 28480 0698 3458 AUR2TS OTSTanub5 sb RESISTOR 100k 1 125w F TCuosel0n C e1 8eT0 1003 F AuR2RQ 075720273 RESISTOR 3 0IK 1 125A F TCMnoutan Cunt BoTOe3Ot1eF ARR O75 Tenuas 2 RESISTOR 13K 1 125A F TCwOsm100 24546 Chut BaTO 1302 F AuR n2 04987132 a RESISTOR 1 1254 F TCE0 100 28480 1698 T332 AUR amy Dobe T3382 u RESISTOR 1 1 125A F TOadew1on 26480 0698 7332 AURQRU 069804279 6 RESISTCR 4 99X 1 1084 F Tledeetng 2 5 b C el eT0 uo01eF AuRZAS nodR iZZE 9 RESISTOR 49 9K 1 125n F TCenem100 069893228 AuRZAb OTST A PAD 3 RESISTOR 1K 1 1254 F Tledemsan 24506 C 1 8eTOe1001 F 4246287 698e1558 a RESISTOR a n k 1 125x F Tlenseind 24546 C e1 BeTO ungteF AURAA ason 1558 A RESISTOP 4 02X 1 125x F TCensot00 24546 C e1 ReT0ed02l F aaR2o0 OTST enua2 s RESISTOR 10K ix 1t2Sa F TCabselno 24546 Cunt Bo Onl 0020F AaReal T amp Teh2a0 RESISTOR IK 1 125A F TCaOeeinn C4ui S T0u10018F aust 31016134 SNITCMe L SPOT SUAMIN 54 1 25VAC7DC 3101 1341 LLET J1iat 1341 SWITCHeSL SPDT SUBVIN 54 125vAC OC 310151341 AUVI 1A201196 a IC FF TTL LS D TYPE POS EDGEeTRIG COM SNTGL91 TAN auu 142081197 s 1 IC GATE TTL LS NAND QUAD 2 INP 1295 SNTULSOON A4U3 1826 0476 7 1 IC SW TL601CP 28480 1826 0476 Auuu 1A2b 0U7b 7 IC S ITCM ANLG A DIPeP 01295 TL691CP A4U5 1826 0304 0
157. STRIG IC FF TTL LS DetyPE POSeEQGESTRIG COM IC FF TTL LS OeTYPE POSSEOGESTRIG COM IC GATE TTL S NOR GUAD 2 INP IC FF TTL S JeK NEG EDGESTRIG 1C MISC NMOS IC INV TTL 8 MEX le NP IC GATE TTL NAND QUAD 2eINP 1C GATE TTL S NAND QUAD 20INP IC FF ttl J K NEGSEDGESTRIG IC FF TTL S DeTyPE POSSEDGE TRIG IC FF TTL S DetyPE POS EOGE TRIG IC FF TTL S Jek NEG EDGE TRIG 1C QRVR TTL L8 BUS DRVR MEX lejip iC FF TIL s NEGeEDGESTRIG Ic FF TIL S RIG ic ic GATE TTL LS NOR QUAD 2e1NP FF TTL S Jex NEG EDGESTRIG IC OP AMP MC1458G IC GATE ECL NOR QUAD 20JNP SHIELD TOP SHIELD BOTTOM COVER 2 RPG LIGHT BULB See introduction to this section for ordering information Indicates factory selected value 49074600 amp 00 700 RESISTOR 390 5x 25 FC TCw a00 600 RESISTOR 47 5x 25 FC TCs 400 500 C84705 Chw1 8BatOuS62R F C53915 0757 0401 C83915 Cu1525 Cisl025 C c1 8eT0e1001eF 0757 0280 Cha1 8BaT0n F C4o1 8aToa10A1F C oi ReTUelOleF Cue1 8eTOelO0leF Chet 8ar0n1002 F Chat BoToa4991EF Chal Bal ool 01eF Col BeT 0027 U2 F Cue1 8et0eS1RIeF Ce SaT0e F C4 1 8e T0 Cue1 eT0e1002 F Cho1 8aT0 2001F Chet Bal Del 001 aF cassis cauys C83915 C8u705 cae7us Chet sbal Deb S11 oF Chet BaT el 019F Chal bat 001 0020F C62205 Chet bet0o316lof SNTUSOON MC10131P CA3046 SNTUL 17UN SNTULSTUAN 1810 0294 Lasion 8N7u8112N 1820 0697 BN74LS190N CA307T 8N74LS190
158. SX SOOVDC CER 0e bo 1SUFestOx ZOVDC TA 1SUFe 50x ZOVDC Ta 100 0x SOVOC CER taS JVOVDC MICA iug dx SOVDC CER 25PF SoovOC CER 2 O1UF eeSx JOUVDC MICA 100 0x SOVOC CER 108max SOVOC CER CAPACITOR FXD O1UF 50V Ca ACI TORR xo Ca ACTTOR2P YO SePF Sy JOOVDC MICA 1UF 100 0x SOVOC CER LOLUF 100 0X SOVOC CER CAPACITOR FXD 1UF 80V CAPACITOR FXD CApACI TpreFxD CAPACITOR FXD CAPACITOR F x0 ACITOR FXO CAPACITOR F XD ACIYOR F xD ACITOR FXO 170R F xO ACTTOR F XD ACITOReFXD ACITOR FxD CAPACITOR AF YO CAPACITOR FXO CAPACITOR FXD CAPACITOR FXD CAPACITOR FID CAPACITORS FXD CAPACITOR F xD CAPACITOR FXID CAPACI TOR FXD CAPACITOR FxD CAPACITOR FID CaPACITORLF JO CaPACITOReFXO CAPACITOR FXO CAPACITOR FXO CAPACITOR FIO CAPACITOR FXD CAPACITOR FxD CAPACITOR FxD CAPACITOR FxD CAPACITOR FID ACITOR FXO eO1UF 100 0x SOVOC CER 100 0x SOyDC CER 100 0X SOVDC CER x SooyDC MICA 10090X SOVDC CER 100m0x SOVDC CER oiuf Q1UF 270PF TA MIU 1SUF 10x 20y0C zA eO1UF 100 0 SOVDC CER amp 01UF 100m0x SOVDC CER Z7UFe idx 10VO TA ISUFe 1OX 20VOC TA 20x 100yDC CER F etgo ox SaVDC CER 100 0x SOVDC CER 100 0x SovOC CER 5X SOOVOC MICA ou 1SUF w10X 20VDC Ta 22UFe 10x isvoc TA 100PF e 5x JVOVDC MICA 4TOPF ex20x 100V0C CER 100 0x sovoc CER sO1UF ew20x 100VDC CER 1UF 00 0x SOVDC CER 1ouoPF e Sx 100VDC CER 100PF
159. Set NRFD High es an gnal P ace we war nen a ue oo ceo a YES T38 T12 Dota is va d 118 may now DE accepted Set DAV Low weed ide YES T4 BTI4 Syme Cees Accep Duta Byte Signal ine Stays lou YES Na CCeDtors t T7876 oo SR ine data bye C Te ATIS Set DAV H ah Set NOAC H an ne IS Maree ta T8 8 TIT Set NOAC Low Figure 3 A 13 Handshake Functional Block Diagram Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com The timing diagram illustrates the handshake process by indicating the actual waveforms on the DAV NRFD and NDAC lines The NRFD and NDAC signals each represent composite waveforms resulting from two or more Listeners accepting the same data byte at slightly different times This is usually due to variations in the transmission path length and individual instrument response rates delays The flow chart represents the same sequence of events in a different form The subscripted letters on the flow chart and the timing diagram refer to the same event on the list of events HANDSHAKE line timing diagram for one talker and multiple listeners using the handshake process Two cycles of the handshake sequence are shown Also refer to the flow diagram and list of events on this figure Ti Ta Ts Tats Te Tr Te Ts Tro Tu Ti2Ti 4 TisTis Tire i r i i A NES lyann z DIO LINES Hali OL ONLY ONE LINE SHOWN AS AN EXAMPL
160. Single Sweep Execution 3 64 The Single Sweep has a two step execution cycle To begin a Single Sweep SINGLE Press fo to set the output and display to the Start Frequency and reset the X axis drive SINGLE Press e again to start the sweep The light in the center of this key will be on when the instrument is sweeping After a Single Sweep stops the output and display remain at the Stop Frequency until the cycle is initiated again The X axis drive remains at its maximum value 10 5 Vdc NOTE The actual stop frequency at the end of a single sweep may be slightly higher than the programmed value 3 65 Sweep Entry 3 66 To exactly set any of the sweep parameters press the appropriate sweep parameter en try key and then enter the numerical value followed by the appropriate units key To change from linear to log or log to linear sweep mode press the BLUE shift key followed by The light to the lower right of this key will be on when the instrument is in the logarithmic sweep mode 3 87 Continuous Sweep Execution 3 68 Press to start a continuous sweep The light in the center of this key will be on when the instrument is sweeping In the Linear Sweep Mode the instrument will sweep from the Start Frequency to the Stop Frequency in the programmed time and then sweep back to the Start Frequency In the Log Sweep Mode the instrument will sweep from the Start Fre quency to the Stop Frequency in the programmed ti
161. SyDC AL 90490 ISVABLA20 AeCun nIAne2823 1 CAPACITORYFXD GTOUF SOwtOX 6 3VDC AL 26480 0180 2823 Aotu Alegent 0 2 CAPACITOReFXh 100PF eS ZOOVDC MICA 26460 otodw zou AeCuy nt amp negana a CAPACITOReFXD 100PF se5Y ZOOVOC VICA 26480 otbow zou tols 0loney8a 9 CAPACITOR FXD 01SUP ee20X SOVDC CER 28460 0160 3847 40852 1302523 1 CAPACITOReFXO U7NUF SnwtOX 6 3VDC AL 28480 0180 2823 LELER 01An 2826 4 1 CAPACITOReFXO i0n0UF S0el0X leVOC AL 26480 0180 2826 AeCSu atonet1SSsA 9 3 CAPAGITOR FXD 1UF w20x SOVOC CER 26460 016043558 AeCSS 01603155A 9 CAPACITOReFXO 1UF o 20x SOVDC CER 26480 0160 3558 A6CS6 010003847 s CAPACTTOR FXD 01SUF se20x SOVDC CER 28480 016003847 eos 016ne1R47 a CAPACITOReFXD 01SUF e20 SOVOC CER 28460 016023847 AeCSA Otonwib 8 3 CAPACIYOReFXD 1UF Bne20X 100V0C CER 20054 atyovsvtooRtou ACs 0160 3622 L CAPACITOR FXO 1UF 80020 10NVDC CER 26654 2130YSV100R1047 hoton otonwJb22 8 CAPACITOReFXD 1UF Bne20X 100VOC CER 20054 213ovsytooRtou2 AeCe t 016602009 3 2 CAPACTTORGFXD AZOPF eSy ZOOVOC MICA 28460 0160w 2009 holo Otogw nns 3 CAPACITOR FXO 820PF e SX 3nnvDC MICA 26460 016092009 olor 018043558 9 CAPACITOReFXO 1UF se 0Y SnyOC CER 28480 016003558 Aola 190203153 s 1 DIODESZNR 9 31v 2 OD POm 4n TCme oSAY 28480 Antr 1901 0n40 1 3 DIDDE KITCNING Joy SOMA 248 DO 35 28480 R 190twooua 1 DIDOE SkITCHING Sov SOMA 2NS DD 3S 28480 1901 0040 AeCRS tanjwnoun t DIODE SWITCHING Jnv SOMA 2NS 00935 28480 190twoguo Ael 910002059
162. Tladeet00 24546 CHat AeT010012F m 0T T 02A0 ki RESISTOR IK 1x 4125m F Catenin 24546 Chai BeT0o1001eF ARA 06 1e2015 3 RESISTOR 20x Sy 25 FC TCanuoozeBnn 01121 52035 apre ObATe1O25 9 2 RESISTOR 1K SY L254 FC TCmedooseond ar11 c81025 A2R10 0811 0548 2 1 RESISTOR 47 5 5W 28480 0811 0548 aks 0043 1025 9 RESISTOR IK SX 254 FC TCme np 606 a121 ca1025 42512 OGAT AT S o 1 RESISTOR aro SY 25n FC TCasu00 e600 01121 cBuris AQRIY 068341525 4 1 RESISTOR 1 5 SY 25n FC TOwmu0ooze ron oli i CB1525 22814 DEATH1O15 T a RESISTOR 100 SY 25A FC TCmouo0 eS0n att t C81015 A2R15 0757 0404 3 1 RESISTOR 130 1 28480 0757 0404 ARIO OTS fen t 8 1 RESISTOR B 25K 1x 125a F Ttan 24546 Chat BaTOHA251aF A2RI OTSTeJUHO 1 1 RESISTOR 61 9K 1x 125w F TCwa 24546 Chel BeTOnbt 9ZeF 42214 f681e5125 a 1 RESISTOR tK 5x 25a FC TCmounozeToo mitan t8sias AQRIS 0681e2T705 a 1 RESISTOR 27 SY 25x FC TCaeubn e500 01121 CB2705 A2R20 069826160 6 2 RESISTOR 10K 1Y 1254x F TCanen25 28480 0698 6350 4 See introduction to this section for ordering information Indicates factory selected value 6 3 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation 0683e1015 210043296 0698 6619 0698 6320 068301015 A2R26 0598e8191 apa n6sA BNDN APR2A assR ISIZ 12520 B ARRIA ObAZe1 038 422632 neRieu 2s APRII ngJALSIEN ARIU Mersey 048 APRIS f683e203
163. UL MAX 28080 5082 4658 LEDeVISIALE LUMMINT ISHCD Fa20VAevAX 28480 5082 4658 LED VISIBLE LUMeINTSISYCO IFm20vA VAX 28480 508224658 AISCR 6 199520533 A15CR7 199020533 A15CRA 199020633 AISCHI 199000533 asscRIn 1990 0531 crete LED VISIBLE LUMINTEJSMCD IFmQnPAeVAX 28480 5082 4658 LED VISIBLE LUMeIATWISMCD IFs20MAeVAX 28480 508204658 LECeVISIPLE LUMeIvTEiS5YCD IFudoMaeMAX 28460 5082 0658 LED VISIALE LUMeINTSISMCO IFEZOYA MAX 26480 5082 0658 LED VISIBLE LUMeINTBIMCD IFs20VAe AX 28480 5082 d684 A1SC811 199040533 A15CRI2 1899 50533 LILICA 199540533 MiSCRI4 1990 0533 ALBCRIS 199020486 ocene LEDSVISIBLE LUMAINTBIMCD IFw20 Aa max 28480 5082 6684 LEOeVISIALE M IFw20 Ae AX 26480 1990 0665 LEC VISIBLE v IF e20YAomAX 264609 1990 0665 LEDSVISIBLE LUV INTSIMCD IFagoVAevAX 28480 1990 0655 LEDeVISIRLE LUV INTSIMCD IFW2NYA MAX 28480 199020665 A15CR16 99040486 AISCRI7 19900665 AYSCRIA 199nen665 A1SCR19 19920665 EITENS 1999 0665 LEDeVISIBLE LUYRINTELHCD IFu oWbeVAX 26480 1990 0665 LEDAVISIBLE LUMINTE1MCO IFW DMA MAX 28480 1990 0665 LENeVISIALE LUVRINTELHCO IFwgOUA MAX 2s48n 1990 0665 LEDeVISTALE LUM INTE1HCO IFw nMA MAX 28480 1990 0565 LEO VISISLE LUVRINTWIMCD IFu OMAeMAX 26480 1990 0665 ELLES 199020665 A1SCRA gt 199020665 a1SCR2y 199000665 arSCRau 199000665 4150625 190420665 LED VISIRLE LUMeINTERI CO Fedowkekix 25460 1990 0665 LED VISIBLE LUMeINTELYCD IFm20 AeMAX 28080 1990 sous LEDeVTSIBLE LUVeINTe1MCD IFw ttborax 2
164. V SLO BLO 1 25x 25 vi 75915 313 500 ad 120000661 6 SOCKE TexSTA JeCONT 26u80 120000001 LESS 20000001 rj SOCKE TeXITR SeCONT 28480 1800 0661 kaki n490e0T4 9 1 RELAY 1C evDCeCOIL 14 115yac 26480 nugoeoras ati 9100 3AN s 1 COTL MLO 110NM SY GaSO 1550x 37SLG NOV 26480 910res amp or 125103058 o 1 CONNECTOR bePIN M POST TYPE 28480 125123638 125103750 T 2 CONNECTOR 100PIN w POST TYPE 28480 125123750 125103750 T CONNECTOR j0 PIN M POST TYPE 28485 125121750 125104246 8 1 CONNECTOR X PIN M POST TYDE 28480 128194246 TAS manda u 1 TRANSISTOR NPN I PDa200Yn F as50v42 28480 1854 0094 185320089 s a TRANSISTOR PAP 2NG917 SI POwZAQUN nT263 254917 4294 185090215 3 2 TRANSISTOR NAN SI P ISn a FTRZOOM4Z aarty 243904 PE 185120049 s TRANSISTOR PNB 254917 1 PDm200 T2631 2Nu9 T aga VASueoats 1 TRANSISTOR NPN SI PDWiSOYw FTajoounZ burty 283900 aata 185000071 7 1 TRANSISTOR NPN SI PDmi00v FTe200 HZ 28480 185020071 pain 185400692 8 1 TRANSISTOR NPN SI POmiSA FTASOMMZ ouviz MJEZ21 42011 145300089 5 TRANSISTOR PNB 2Nu917 SI PDm2nQMA 07261 2na9it AP 0TSTen2A3 s 2 RESISTOR 2X 1X 128 amp F TCa0esi00 24546 Cuel amp eTOe2001 F kara 075700283 6 RESISTOR 2k 1 1254 F TCadeetnd 20846 CUei ReTOn2001eF APR 088342035 3 3 RESISTOR 20K SY 25 FC TCmouonse8on 01121 C82015 A2R4 0AIL e2540 4 2 RESISTOR 56 5x SA Pw TCmO et0n T5042 Bie20e1 2eRSb J ARS 06511925 2 1 RESISTOR 3 9K SY 25a FC TOmmagaze 100 01121 CB1325 A2R6 0T T 0280 3 2 RESISTOR IK IX 125w F
165. XD CAPACTTOR FXO CAPACITOR FxD CAPACTTOR FXD CAPACITOR FXO CAPACITOR FXD 4 CITOR FXD CAPACTTOR FXN CAPACTTOR FXD CAPACTTORWF XD CAPACITOR Fx0 CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACTTOR FXD CAPACTTOR FXD CAPACTTOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACI TOR FXD CAPACITORSFXO CAPACI TOR FXD CAPACITOS F xD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACI TOR FXO CAPACITOR FxD CAPACITOR FXD CAPAC ITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITORSFXD CAPACITO x0 CAPACTTOR F XD CAPACI TOR FXD CAPACITORSFXO CAPACITOREF XD CAPACITORS FxD CAPACITOR F XD CAPACITOR F XD CAPACTTOR FXD Description OUTPUT DAC P C CAPACITOR FXD CAPACITOR y TRMReAIR 1 7811 PF ASSEMBLY S8UF 20x amp vDC TA 1UF 2x 100VOC MET POLYE 28480 015UF 20x SovOC CER 28480 1000PF s20x 50VDC CER 28480 15UF 10x 20VDC Ta 56289 15UF 10X 20VOC TA 56289 OIUF 20X 1NCVDC CER 28480 MIUF ewZAX 100v0C CER 28480 015UF m20x SOVDC CER 28480 0150F 20x SOVOl CER 28480 MISUF 20X 5AVDC CER 28480 1 UF 20 28480 015UF 20 SovDC CER 28480 015UF 20 SovOC CER 28480 100PF eeint 1KVOC CER 28480 1000PF 20 SOVDC CER 28480 iUF Anm20x 50VDC CER 28480 022UF l0X 200VDC POLYE 28480 OZZUF 10X 20nVOC POLYE 28480 015UF 20 SovOC CER 28480 015UF 20 SOVOC CER 28480 VF 80 20 50VOC CER 28480
166. XD 220PF sw20X 100VDC CER 5024EM100RD221M auchoy 016020570 AuCSna 016080570 AUCS04 01600570 AuCSnS 015093278 AuC506 016020570 CAPACITOR FXD 1SUF LOX ZOVDC TA 1500156x902082 A4CS10 1800 Tks CAPACITOReFXD tnUFeelnX ZOVDC TA LI 15001 902082 KUCSIL OIR0 0ITU n DIQDESZNP 5 11V 5x DD 7 PDm w TCS 009X 1902 0041 DIODE SHITCHING ZOV SOMA 2N8 ODe35 1901 0040 DIODE SKITCHING JOV SOMA 2N8 DO 35 19010040 DNIODE gwITCHING BOV ZOOMA 2NA DOe35 190140050 DIODE NA S1 1V 5x ODe7 PDz w TCES 081X 190293345 AuCRI 1902 0041 AuCR2 19010040 KUCRI 190120040 MuCRU 190129050 AuCRS 190223345 DIODESSNITCHING AOV 200MA 2NB DD 35 1901 0050 DIDDEeBAITCHING BOV 200MA 2N8 DD 35 1901 0050 DIDDE ZNR 3 01v SX DD POR Um TCH 1902 3030 OIODESZNR 9 09v 5x DO 7 Poe an TCHS 190203149 DIODESANITCHING ZOV SOMA 2N8 DDe35 1901 0040 AuCRE 190120050 AuCRT 190720050 A CRIO 1902 3030 AuCRIO 190203149 AuCRIOJ 190120040 ouu DIODE SKITCHING JoY SOMA 2N8 00035 190190040 DIDDEeBCHDTTKY 190140518 DIDDE CKOTTKY 190160518 DIODE AKITCHING ZOV SOMA 2N8 00 35 1901 0040 OIODE AKITCHING JOY SOMA 2N8 DDe35 190120040 AUCRIO4 1901 0n4a AUCR Ot 190120518 AuCR202 190100518 AuCP203 1901 0040 AuCn20u 1901 0040 DIDDEeZNR 5 11V 5X DD 7 POM 4H TCE 009X d 190220041 OJODE SHITCHING JOY SOMA 2NB DDe35 190120040 DIODE SWITCHING ZOV SOMA 2N8 00635 190120040 DIODE aKITCHING 30V SOMA 2NS DD JS 1901 0040 OIODE AKITCHING JAV SOMA 2M8 DDe3s 1901 00
167. aged it should be kept until the contents of the shipment have been checked for completeness and the instrument has been checked mechanically and electrically This in strument was carefully inspected both mechanically and electrically before shipment lt should be free of mars and scratches and in perfect electrical order upon receipt Procedures for checking electrical performance are given in Section IV If there is mechanical damage or defect or if the instrument does not pass the electrical performance test notify the nearest Hewlett Packard Sales and Service Office listed at the end of this manual If the shipping container is damaged or the cushioning material shows signs of stress notify the carrier as well as the Hewlett Packard office Keep the shipping material for the carrier s inspection The warranty statement is located in the front of this manual 2 5 PREPARATION FOR USE 2 6 Power Requirements 2 7 The Model 3336 requires a power source of 100 120 220 or 240 Vac 5 10 48 to 66 Hz single phase Power consumption is 100 VA maximum Before connecting ac power to this instrument make sure the Model 3336 is set to the line voltage of the power source Also en sure that the common connection of the power outlet is connected to a protective earth contact 2 8 Line Voltage Selection 2 9 The line voltage selection switches are set at the factory to correspond to the most com monly used line voltage of the countr
168. alue exclusive of programming and processing time 10 ms for 100 kHz step 25 ms for 1 MHz step 70 ms for 20 MHz step Phase Switching Time to within 90 of phase lock exclusive of programming and processing time 15 ms Amplitude Switching Time to within 1 dB of final value exclusive of programming and processing time 500 ms 4 4 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests Table 4 1 Specifications Cont d AUXILIARY OUTPUTS AUX 0 dBm Frequency range is from 21 MHz to 60 999 999 999 MHz underrange to 20 000 000 001 MHz Amplitude is O dBm 50 ohm SYNC OUT Square wave with Vhigh 1 2 V Viow 0 2 V into 50 ohms to synchronize other instruments to the Main Signal Outputs Level transition occurs at Main Signal Output zero crossing REF OUT O dBm 50 ohm 1 MHz signal for phase locking additional instruments to the Model 3336 10 MHz OVEN OUT Instruments with Option 004 only O dBm 50 ohm 10 MHz signal from a temperature stabilized crystal oscillator for phase locking the Model 3336 or other instruments X DRIVE Oto gt 10 Vdc linear ramp proportiona to the sweep frequency Linearity 1 of final value 10 to 90 best fit straight line Z BLANK Sweep related TTL compatible voltage levels Low level is capable of sinking current from a positive voltage source M
169. an only describe how the instrument interfaces with the HP IB An analogous situation exists for the controller s operating instructions Almost all statements sent over the HP IB to Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation operate an instrument contain a portion that depends upon the individual instrument anda portion that depends upon the controller used in the system The operator must produce the required statement from information found parially in the controller documentation The concept of Bus Messages presented in the next paragraph is a significant aid to this process 3 123 Bus Messages When all the bus operations are organized according to how they are physically implemented on the HP IB twelve unique Bus Messages are found DATA Data Send to hp 3336 Data Receive from hp 3336 TRIGGER REMOTE LOCAL LOCAL LOCKOUT CLEAR LOCKOUT SET LOCAL System CLEAR Management REQUIRE SERVICE STATUS BYTE PASS CONTROL ABORT STATUS BIT The Data Message implements the primary purpose of the HP IB It is used to send the codes that activate instrument functions and transfer measurement data from one device to another This message is subdivided into Data Send and Data Receive for operator conve nience Technically there is no difference between Data Messages used to send and receive information The Trigger Message causes simultaneous action in two or more
170. andards 00 NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE Do not operate the instrument in the presence of flammable gases or fumes Operation of any electrical instrument in such an environment constitutes a definite safety hazard KEEP AWAY FROM LIVE CIRCUITS Operating personnel must not remove instrument covers Component replacement and internal adjustments must be made by qualified maintenance personnel Do not replace components with power cable connected Under certain conditions dangerous voltages may exist even with the power cable removed To avoid injuries always disconnect power and discharge circuits before touching them DO NOT SERVICE OR ADJUST ALONE Do not attempt internal service or adjustment unless another person capable of rendering first aid and resuscitation is present 00 NOT SUBSTITUTE PARTS OR MODIFY INSTRUMENT Because of the danger of introducing additional hazards do not install substitute parts or per form any unauthorized modification to the instrument Return the instrument to a Hewlett Packard Sales and Service Office for service and repair to ensure that safety features are main tained DANGEROUS PROCEDURE WARNINGS Warnings such as the example below precede potentially dangerous procedures throughout this manual Instructions contained in the warnings must be followed Dangerous voltages capable of causing death are present in this Instrument Use ex treme ca
171. anewio0 24546 Cuut BuTon3i612F PEGER 0757 5038 3 1 RESISTOR 5 91K 1x 125w F TCao el00 2uS 6 Cue1 8BeTO S111eF ASR 24 0683 2225 3 RESISTOR 2 2X SX 254 FC TCa u00 700 onset C82225 AIR 075720283 O 1 RESISTOR 2x 1X 1254 F TCuneut00 24546 Chwis BuTOu 001uF AYR27 0757 0442 9 RESISTOR 10K ix 125w F TCa0es100 24546 Chwi BwTOu1G0ZF AYR2R 0698 3160 8 1 RESISTOR 31 6 1X 125n F TCaneuton 24505 C e1 8eTOe S162 A zado 069823154 a 1 RESIBTOR 4 22K 1 125 F Tlanewion 24546 Chwi BoTOu4Z221 F ASR Sn 2100 3286 6 1 RESTSTORLTRMR ox 10X C TOPWADJ 7eTRN 32997 32921 103 43832 90632 1025 9 RESISTOR ix SX 25 FC TCseu00 600 ott t CB1025 A3R33 2100 3286 6 1 RESISTOR TMR 10K 10 28480 2100 3286 ARIO 069820123 5 1 RESISTOR 499 iX 1254 F TCMnewt00 AY837 068301045 3 RESISTOR 100K Sx 254 FC TCmwagnye gon 01121 CB1045 A3R38 0757 0437 1 RESISTOR 4750 1 125W 28480 0757 0437 25830 0757 0274 5 RESISTOR 1 21X X 1258 F TCaO el0n 24546 Cue shut Oul2i tor ASRU 0653 1025 9 RESISTOR 1x SX 28u FC TCaeu00 600 01121 caros AW 2757 0407 6 2 RESISTOR 200 1 125K F TCudewi00 24566 Cawi BuTOu201 F AyRay 069803155 1 RESISTOR U 6UKX ix 1 25 F TCe0es100 24546 C e1 BeT e g teF ayRay 0698 3155 1 RESISTOR 4 64k 1X 125 F Tledewlon 245460 CUwi BnTOudbutwF AyRUR 060623156 2 3 RESISTOR 14 7X 1X 1254 F TCa0ee100 24545 C e1 geTOelu72eF AVRUA 069823156 2 RESISTOR 14 7X 1x 125 F TCan e no 24546 Cuwi BuToui47ZLF AYRAT 08A3eu705 8 RESISTOR u7 SX 25
172. anywhere withina larger group of instrument instructions Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C 3 160 Data Receive In addition to the information about the instrument encoded into the Status Byte see Paragraph 3 144 the following instrument functions may be individual ly interrogated and the hp 3336 will return the value or state of the function using the Data message Frequency Sweep Time Amplitude Output Impedance Phase Programming Errors Sweep Start Frequency Sweep Mode Log Linear Sweep Stop Frequency Amplitude Modulation On Off Sweep Marker Frequency Phase Modulation On Off Amplitude Blanking On Off Leveling Loop Speed Fast Slow 3 161 Implementation The interrogation of an instrument function is a two step process That is the instrument must be sent the Programming Code IFR for instance and then the instrument must be addressed to Talk At this time the hp 3336 will return the data asked for The syntax and mnemonics for the controller statements come from the controller documentation In the first step the instrument listen address which is for the hp 3336 and the Instrument Programming Codes come from the instrument documentation In the second step only the instrument Talk address which is D for the hp 3336 comes from the instrument documentation The instrumen
173. ary functions after the next key is pressed SWEEP Group Contains entry keys for entering sweep parameters plus sweep start stop keys When preced ed by the BLUE Shift Key the entry keys become sweep modification keys the TIME key selects Linear Log sweep and the SINGLE sweep start stop key selects Fast Slow internal leveling Sweep Paragraph 3 60 Internal leveling Paragraph 3 49 LOCAL Key Switches the instrument from remote to local front panel control uniess a Local Lockout state ment was executed When preceded by the BLUE Shift Key displays the HP IB address in decimal code Paragraph 3 114 STATUS Annunciator Group Indicates the in Strument s HP IB status REMOTE Service Request SRQ Addressed to TALK Addressed to LISTEN Remote Programming Paragraph 3 103 ENTRY Group Prefix keys for the major operating parameters When one of these keys is pressed the selected parameter is displayed and can be changed us ing the Modify Controls or the Number Units Keyboard Paragraph 3 31 When preceded by the BLUE Shift Key the PHASE key assigns zero degrees phase to the present output Paragraph 3 57 ALPHANUMERIC Display Displays the values of the operating parameters programming error codes HP IB address and OSC FAIL if the internal osciliator is not operating properly Error Codes Paragraph 3 36 DATA Group Contains a Number Units keyboard to exactly set the value of a selected parameter Paragrap
174. ator Verification are Test Paragraph No Frequency Accuracy 4 12 Absolute Amplitude Accuracy 4 14 Amplitude Flatness 75 ohm output only 4 16 Harmonic Distortion 4 27 Spurious Response 4 29 4 6 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests Table 4 2 Recommended Test Equipment REQUIRED FOR RECOMMENDED MODEL V Oper Ver P Performance Test T Troubleshooting A V CRITICAL SPECIFICATION INSTRUMENT Adjustments Electronic Counter Frequency Measurements P A hp Modei 5328A with Options 010 and Range to 20 9 MHz 040 or 041 Resolution 8 digits Accuracy 1 part 109 Time Interval Average Resolution 1 ns Digitai Voltmeter dc Function T hp Model 34664 or Ranges 1V 1V 10V 100V hp Model 3455A w Option 001 Accuracy 296 Resolution 4 digits ac Function Ranges 1V 10V 100V Accuracy t 596 Resolution 4 digits dc function V P A hp Model 3455A with Option 001 Ranges 1V 1V 10V 100V Average Responding Converter Accuracy 05 or hp Model 3490A Resolution 6 digits ac Function Ranges 1V 10V 100V Accuracy 15 at 10 and 50 kHz Resolution 5 digits Wave Analyzer Frequency Range 15 Hz to V P A hp Model 3581A or 3581C 50 kHz Amplitude Accuracy 5 dB Spurious Response lt 80dBc Y Axis output Synthesizer Frequency Range 200 Hz to P hp M
175. atus Byte Message see Paragraph 3 144 Status Byte The Require Service Message will be cleared when the device sending it is polled or the condition causing it disappears In some applications the controller is programmed to interrupt its main pro gram and respond to a Require Service Message immediately In other applications it may periodically check the status of the Service Request Line and respond when a request is discovered 3 143 Implementation The Require Service Message originates in the devices on the bus A technical description of its implementation is presented in Figure 3 6 of Appendix B 3 144 Status Byte A Status Byte Message is sent by a device on the bus to the active con troller The individual bits of the Status Byte indicate the status of various instrument func tions and whether the instrument request service Once the Status Byte of an instrument is in the controller the status of the instrument functions may be determined by examining the truth state of each bit The controller can be programmed to take the appropriate action bas ed upon the functional status of the bus instruments For example if bit 6 of the hp 3336 3 24 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation Status Byte is true the hp 3336 request service If bit is also true the reason it requested service is because the hp 3336 received a program str
176. aximum Current 200 mA Maximum Voltage 45 Vdc Maximum Power Dissipation 1 W V x A MARKER TTL compatible high to low level transition at the programmed Marker Frequency AUXILIARY INPUTS EXT REF IN For phase locking the 3336A B C to an external frequency reference Signal from O dBm to 20 dBm 50 ohm Signal frequency must be within 1 x 10 6 of a sub harmonic of 10 MHz from 1 MHz to 10 MHz AMPTD MOD Amplitude modulation input see AMPLITUDE MODULATION specifications PHASE MOD Phase modulation input see PHASE MODULATION specifications EXTERNAL LEVELING Input from an External Leveling voltage source to regulate the signal amplitude at a remote point Input Sensitivity 1 dB Volt 25 dB OPTION 004 HIGH STABILITY FREQUENCY REFERENCE Aping Rate 5x 1078 per week after 72 hours continuous operation 1x 10 7 per month after 15 days continuous operation Ambient Stability 5x 10 8 maximum 0 to 55 C Warm Up Time Reference frequency will be within 1 x 10 7 of the turn off frequency 20 minutes after turn on for an off time less than 24 hours OPTION 005 HIGH ACCURACY ATTENUATOR Attenuation 10Hz 20 MHz 10 to 19 99 dB 20 to 39 99 dB 40 to 79 99 dB 4 5 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C Table 4 1 Specifications Cont d GENERAL Operating Environment Temperat
177. be more than 70 dB below the carrier or less than one of the following levels whichever is greater Model 3336A without Option 005 with Option 005 75 ohm output 100 dBm 115 dBm 150 ohm output 100 dBm to 10 MHz 100 dBm to 10 MHz 600 ohm output 100 dBm to 10 MHz 100 dBm to 10 MHz Model 3336B without Option 005 with Option 005 75 ohm output 100 dBm 115 dBm 124 ohm output 100 dBm 115 dBm 135 ohm output 100 dBm 115 dBm 600 ohm output 100 dBm 115 dBm Model 3336C without Option 005 with Option 005 50 ohm output 100 dBm 115 dBm 75 ohm output 100 dBm 115 dBm Line related signals from the 600 ohm outputs will be more than 70 dB below the carrier or 83 dBm whichever is greater Amplitude Blanking Maximum signal output during amplitude blanking 85 dBm Impulse Level in adjacent channels caused by amplitude blanking gt 22 dBm O PHASE OFFSET Range 719 9 with respect to arbitrary starting phase or assigned zero phase Resolution 0 1 Increment Accuracy 0 2 Ambient Stability 1 degree of phase per degree C FREQUENCY SWEEP Sweep Flatness 15 dB Normal Leveling 50 Hz to 1 MHz 5s Sweep Time 15 dB Fast Leveling 10 kHz to 20 MHz 03s Sweep Time Sweep Time Linear Sweep O1 sec to 99 99 sec Single Log Sweap 2 sec to 99 99 sec Continuous Log Sweep 1 sec to 99 99 sec Minimum Sweep Width Log Sweep 1 decade Linear Sweep Minimum Bandwidth
178. caused by amplitude blanking gt 22 dBm O Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Performance Tests Model 3336A B C Table 4 1 Specifications Cont d PHASE OFFSET 719 9 with respect to arbitrary starting phase or assigned zero phase Resolution 0 1 Incramant Accuracy O 2 Ambient Stability 1 degree of phase per degree C FREQUENCY SWEEP Sweep Flatness 15 dB Normal Leveling 50 Hz to 1 MHz 5s Sweep Time 15 dB Fast Leveling 10 kHz to 20 MHz 03s Sweep Time Sweep Time Linear Sweep O1 sec to 99 99 sec Single Log Sweep 2 sec to 99 99 sec Continuous Log Sweep 1 sec to 99 99 sec Minimum Sweep Width log Sweep 1 decade Linear Sweep Minimum Bandwidth Hz 1 Hz sec x Sweep Time sec Phase Continuity Sweep is phase continuous over the full frequency range AMPLITUDE MODULATION Modulation Depth O to 100 96 Modulation Frequency Renge 50 Hz to 50 kHz Envelope Distortion 30 dBc to 80 modulation Input Impedance 20 k 2 PHASE MOOULATION Range O to 850 linearity lt 5 of peak to peak deviation from best fit straight line Modulation Frequency Range dc to 5 kHz Input Sensitivity 5 V peak for 850 phase shift s 170 volt Input Impedance gt 20 k 9 HP IB CONTROL Frequency Switching Time Time to settle to within 1 Hz to final v
179. ches 4 3 2 1 NOTE Ta ZAN 1 The Equivalent Codes shown correspond only to the 5 bit binary RE p switch code These bits are the same for both listen and talk ad ji Li 24 iL Li o dresses The sixth and seventh bits determine whether the ad dress is listen O1 or talk 10 Some controllers distinguish bet ween talk and listen automatically requiring only the Device ad dress decimal equivalent Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C 2 17 HP IB Description 2 18 A description of the HP IB is provided in Section 111 of this manual A study of this information is necessary if you are not familiar with the HP IB concept Additional infor mation concerning the design criteria and operation of the bus is available in IEEE Standard 488 1975 IEEE Standard Digital Interface for Programmable Instrumentation 2 19 Connecting Oven Option 004 2 20 In order to use the Oven Option 004 an external connection must be made between the rear panel 10 MHz OVEN OUTPUT and the REF IN connectors A special connector for this purpose hp Part No 1250 1499 is supplied with instruments having Option 004 To prevent potential electrical or fire hazard do not expose equip ment to rain or moisture 2 21 OPERATING ENVIRONMENT 2 22 In order for the Model 3336 to meet the Specifications listed in Table 1 1 the operating environment must be
180. cy 10 MHz Scan time mneee a acevo msec div Bandwidth 30 kHz Scan width 0 05 MHz Input attenuation 0 dB Log tef level cc w sana sera cx ern 10 dB 10 dB div Video filter 1 2 si ia sea his 10 kHz c Connect the impedance matching pad between the 75 ohm output on the 3336 and the spectrum analyzer s input d Adjust the center frequency of the spectrum analyzer to center the signal and adjust the log ref vernier to achieve a 0 dB signal 5 7 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Adjustments Model 3336A B C e while maintaining the signal in the center of the screen adjust the spectrum analyzer as follows Bandwidth vasa ousa es sese sateen 0 3 kHz Scan MAMI ise yee py Ge nace Gewese Va 2 kHz div Scan ANNO ai aaa ee ci user ee k sec div Video filter koka aaa ke aaa e or Ree ee 10 Hz f Program the 3336 to 20 MHz and set the log ref level on the spectrum analyzer to 30 dB g Switch the spectrum analyzer to manual scan mode and move the beam to the 10 MHz spur in the center of the screen then switch to non storage h Turn on PHASE entry with MODIFY at 1 on the 3336 i Adjust the phase through 360 and find the worst case spur j Adjust A3R115 to minimize the worst case spur Adjust the phase through a full 360 again and make su
181. d fasteners are colored silver and 16 DIO8 metric threaded fasteners are colored black DO NOT mate 5 EOI Silver and black fasteners to each other or the threads or 17 REN either or both will be destroyed Metric threaded HP IB 6 DAV cable hardware illustrations and part numbers follow 7 NRFD LOCKSCREW LONG MOUNT NG STUD SHORT MOUNTING STUD 8 NDAC 1390 0360 O380 0643 0380 0644 9 IFC 10 sra 3 11 ATN p 12 SHIELD CHASSIS GROUND T 18 P O TWISTED PAIR WITHPIN 6 19 P O TWISTED PAIR WITH PIN 7 20 P O TWISTED PAIR WITH PIN 8 21 P O TWISTED PAIR WITH PINS gt INTERNALLY 22 P O TWISTED PAIR WITH PIN 10 GROUNDED ARE THESE PINS 23 P O TWISTED PAIR WITH PIN 11 24 ISOLATED DIGITAL GROUND Figure 2 2 HP IB Connector 2 14 Cable Length Restrictions System components can be interconnected in virtually any configuration However to achieve reliable System performance proper voltage levels and timing relationships must be maintained If the system cable is too long the lines cannot be driven properly and the system will fail to perform The maximum length of cable that can be used to connect a group of instruments must not exceed 2 meters 6 5 ft times the number of instruments to be connected or 20 meters 65 6 ft whichever is less 2 15 3336 Listen Talk Address 2 16 The Model 3336 is normally shipped from the factory with the Device address of 4 talk address D listen address The address s
182. de Modulation After receiving IMA the hp 3336 will send the digit 0 or l indicating amplitude modulation is Off or On 1 formatted as follows MA D CR LF amp EOI l Phase Modulation After receiving IMP the hp 3336 will send the digit 0 or 1 in dicating phase modulation is Off 8 or On 1 formatted as follows MP D CR LF amp EOI m Amplitude Blanking After receiving IAB the hp 3336 will send the digit 0 or 1 indicating amplitude blanking is Off or On 1 formatted as follows AB D CR LF amp EOI n Fast Leveling After receiving IFL the hp 3336 will send the digit 8 or 1 indicating that fast leveling is Off 8 or On 1 formatted as follows FL D CR LF amp EOI Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE w APPENDIX A Detailed Implementation of Bus Messages 3 A 1 Introduction Appendix A 3 A 2 This appendix contains technical descriptions of the implementation of the HP IB messages Included at the end are two timing diagrams describing the handshake technique The figure that comprise this appendix are Message Remote Local Local Lockout Clear Lockout Set Local Clear Data send Data receive Serial Poll status byte Trigger Require ervice Pass Control Abort I O Handshake Functional Diagram Timing Relationship 3 A 3
183. de in the instrument to improve performance and reliability the appropriate pages will be revised to include this information To prevent potential fire or shock hazard do not expose equipment to rain or moisture Manual Part No 03336 90001 Microfiche Part No 03336 90051 Copyright Hewlett Packard Company 1979 P O Box 301 Loveland Colorado 80537 U S A Printed June 1983 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com A Packar CERTIFICATION Hewlett Packard Company certifies that this product met its published specifications at the time of shipment from the factory Hewlett Packard further certifies that its calibration measurements are traceable to the United States Na tional Bureau of Standards to the extent allowed by the Bureau s calibration facility and to the calibration facilities of other International Standards Organization members WARRANTY This Hewlett Packard product is warranted against defects in material and workmanship for a period of one year from date of shipment except that in the case of certain components listed in Section I of this manual the warranty shall be for the specified period During the warranty period Hewlett Packard Company will at its option either repair or replace products which prove to be defective For warranty service or repair this product must be returned to a service facility designat
184. djust the hp 3336 is listed in each adjustment procedure and in Table 4 2 Table 4 2 also gives the critical specifications for each piece of equipment Other test equipment may be substituted if it meets or exceeds these critical specifications however the adjustment procedure may have to be modified slightly to account for the new equipment For this reason the adjustment procedures are in general terms and in some cases a discussion of the measurement technique is included 5 4 Ifa series of adjustments must be performed the order that they should be performed in is the order they are given in this section An adjustment may affect one or more of the adjustments that follow it but should not affect those that precede it It is recommended that a 30 minute warm up precede any adjustment unless otherwise noted Adjustment Paragraph Power Supply Voltage 5 5 30 MHz Reference Oscillator Frequency 5 7 Option 004 High Stability Frequency Reference 5 9 VCO Range 5 11 API Current Sources 5 13 API Spur 5 15 Multiplier Input and Output Offset 5 17 2 1 Mixer Spur 5 19 10 2 Vdc Reference Voltage 5 21 DAC Offset Voltage 5 23 Leveling Loop Amplifier Zero 5 25 Leveling Loop Bias 5 27 75 ohm Level Accuracy 5 29 Output Amplifier Flatness 5 31 124 135 150 600 ohm Level Accuracy 5 33 X Drive Final Voltage 5 35 5 5 Power Supply Voltage Adjustment 5 6 This adjustment sets all three supply voltages within the operating tolerances of the hp 3
185. e All ON OFF and FAST SLOW type controls have separate ASCII instructions to select each mode These front panel controls or operations are NOT available to the Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Model 3336A B C Operation Table 3 2 Instrument Programming Codes Data Receive Octal Oocimai Hexadecimal Instruction Code Code Coda Code Code Entry Parameters Frequency F 01000110 106 70 46 F 01000110 106 70 46 or F 01000110 106 70 46 R 01010010 122 82 52 Amplitude A 01000001 101 65 41 M 01001101 115 77 4D Phase P 01010000 120 80 50 H 01001000 110 72 48 Sweep Start S 01010011 123 83 53 Freguency T 01010100 124 84 54 Sweep Stop S 01010011 123 83 53 Freguency P 01010000 120 80 50 Marker M 01001101 115 VEA 4D Frequency F 01000110 106 70 46 Sweep Time T 01010100 124 84 54 01001001 111 73 49 Digits 9 e 00110000 060 48 30 1 1 00110001 061 49 31 2 2 00110010 062 50 32 3 3 00110011 063 51 33 4 4 00110100 064 52 34 5 5 00110101 065 53 35 6 6 00110110 066 54 36 7 7 00110111 067 55 37 8 8 00111000 070 56 38 9 9 00111001 071 57 39 t 00101110 056 46 2E 00101011 053 43 2B 00101101 055 45 2D Units Hertz H 01001000 110 72 48 H 01001000 110 72 48 or H 01001000 110 72 48 z 01011010 132 90 9A Kilo Hertz K 01001011 113 75 8B H 01001000 110 72 48 Mega Hertz M 01001101 115 23 4D H 0100
186. e air filter and replacing the line fuse 3 99 Line Fuse Replacement 3 100 To replace the line fuse located in a fuseholder on the rear panel disconnect the power cord and rotate the fuseholder on the rear panel disconnect the power cord and rotate the fuseholder s slotted cap 2 turn counterclockwise Install the new line fuse in the fuseholder and secure it by rotating the slotted cap turn clockwise Generally if the line fuse needs replacement a malfunction exists in the instrument and it must be referred to qualified service personnel The correct replacement fuse is Line Voltage Fuse hp Part No 100 120 V 1 Amp 2110 0001 220 240 V 2 Amp 2110 0012 DO NOT USE SLOW BLOW FUSES The use of SLOW BLOW fuses prevents the proper operation of an important protection circuit and may result in damage to the in Strument 3 101 Air Fiiter Replacement 3 102 The Air Filter located over the intake fan on the rear panel should be inspected fre quently and cleaned or replaced as necessary to allow a free flow of air through the instru ment To remove the filter disconnect the instrument from power and remove the four thumbscrews from the filter retainer Remove the filter and wash thoroughly using a mild soap rinse clear and air dry If the filter needs replacement use hp Part No 3150 0227 3 103 REMOTE OPERATION 3 104 Introduction 3 105 The Model 3336 can be remotely operated via the Hewlett Packard Interface Bu
187. e before taking any measurements The accuracy of this test is enhanced if the thermal converter is protected from drafts and other sources of temperature change Measure and record the thermal converter s output with the 3336 programmed at 10 kHz Use extreme caution when making the following measurements at the 75 ohm output The converter voltage will approach maximum and the converter will be destroyed if care is not exercised d Measure the thermal converter voltage for each output at the frequencies listed above At each frequency setting adjust the amplitude of the 3336 in 01 dBm steps until the con verter voltage is equal to the reference voltage recorded at 10 kHz When the converter level matches the reference level record the amplitude setting of the 3336 Do not adjust the amplitude of the 3336 in increments larger than 01 dBm Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests e If the certified error of the thermal converter being used was given in dBm enter this value in the Performance Test Record If it was given as a percentage convert it to dBm using the following formula dBm 20log l error 1000 f Compute the amplitude flatness of the 3336 at each output and frequency setting using the following formula Reference level from Step c 336 Amplitude setting from Step d Thermal converter error from step e
188. e epseii ra Fs 0 03 kHz SCAN LAME seer erir dodo io IMPR 0 2 sec div 5 5 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Adjustments Model 3336A B C g Switch the 8552B to manual scan mode and adjust the manual scan until the beam is on the spur h Switch the 141T to non storage i Adjust A21R107 to minimize the spur j Return the analyzer to storage and internal sweep modes to make certain that the beam was centered on the spur k It will not be possible to get the spur down into the noise floor but it should be possible to get it down in the area of 60 dBm 5 17 Multiplier Input and Output Offset Adjustment 5 18 This procedure optimizes the balance of the voltage multiplier IC A3U11 Required Equipment oscilloscope hp Model 1740A function generator hp Model 3312A 50 ohm feedthru termination hp Model 11048C a Set the hp 3312A as follows K nnee kai ERR NR QN 1 kHz Dial sis n nae Genn 1 arl p TEN Cal Amplitude x10 Ampl Vernier Center Lio krak Cal Function visi esesssteeseegeneTt wee Square Wave b Set the hp 1740A as follows Channel ua sheet me Rs A Volts DIiV ie ies ne e ano osans mode 0 05V Man THB w pawa ewa ana ao a going ares Ext Time DIY fe ki ay e n pa a fow Ga 0 2msec JJ e Saa Ne an a art k Coupled c Set the hp 3336A B C as follows F
189. e gate time to average 107 intervals will be 1 second Do not use the first reading displayed after changing phase e Adjust the 3336 DUT output phase until the counter displays a time interval from 190 ns to 210 ns Each degree incremented on the 3336 will cause a 2 8 ns change in the counter display f Assign zero phase to the 3336 signal output This is a shifted function of the PHASE key i g Record the electronic counter reading with no phase shift T1 h Change the phase of the 3336 output signal by one of these values 1 10 100 i Record the electronic counter reading with the test phase shift T2 j Reset the 3336 output phase to zero degrees The electronic counter should again display a time interval from 190 ns to 210 ns k Repeat Steps e thru j until each phase increment has been measured Reading T1 may change slightly from test to test and a new value should be recorded for each test increment l Compute the actual time difference of each phase increment by subtracting T1 from T2 Record this value on the Performance Test Record and compare it to the upper and lower limits hp 3336 DUT ELECTRIC COUNTER jo ooo 38 eoooo sad aou O E ini 22222 Zdi cer S dA zona 750 OUTPUT 750 FEED THRU TERMINATION 3336 4 6 Figure 4 6 Phase Increment Accuracy Equipment Set Up 4 22 Artisan Scientific Quality Instrumentation
190. e messages to determine the nature of the programming problem Error Code Message l Numeric entry too large or small 2 Incorrect units assigned to parameter 4 Sweep time too long or too short 6 Sweep bandwidth too small Start fre quency greater than stop frequency log sweep 3 38 F bound Err For added flexibility the actual programmable frequency limit of every front panel output is from 10 Hz to 20 999 999 999 MHz However the instrument may not meet it s stringent specifications when operated outside the frequency limits of each output As a warning F bound Err will be displayed for second after a frequency is entered that exceeds these frequency limits These limits are printed on the front panel just below each output select key and are listed in Paragraph 3 14 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C 3 39 Clear Display 3 40 The key causes the display to clear to zero This key is useful when an error is made entering numerical data This key has no effect on existing programs 3 41 Output Selection 3 42 Pressing the key above any front panel output activates that output port and deac tivates all other output ports in this group The light in the center of these keys indicates the active port When the 21 60 MHz AUX Output on the rear panel outputs are deactivated At this time the light in the center of the Output Selec
191. eFXO S 6PF w 25PF SONVDC CER 28480 0160 2251 ASC123 014020190 7 CAPACITOS FXO SOF SX 300vDC VICA 72136 O 1SE390Jn300V1CR ASC 124 016002244 8 CAPACITOReFXO SPF e 25PF SOUVDC CER 28480 0160 2244 ASC 126 0140 0190 7 CAPACITORYFXD SAPE o Sx Jnavdl ICA 72136 OVISES9OJOSONMVICR A3C127 016002251 7 CAPACITOReFXO S 6PF s 25PF SonyOC CER 28480 Olenea25i ASC 128 Oladeo10n 7 CAPACITOReFXO SOPF e5x SotyOC MICA 72135 D 1SE390J0S00AVICR asci2s Otoow2244 8 CAPACITOPeFXD SPF w 252F SnovOC CER 25080 0160 2204 4 See introduction to this section for ordering information Indicates factory selected value 6 5 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part em Designation Number Description Mfr Part Number A3C151 0160 3847 CAPACITORSPAD 01SUE 20 SOVOC CER 0180 3847 A3CIS2 516923847 CAPACITOR EXO 01S5UF 20 SOVOC CER 0180 3847 A3C153 0160 3847 CAPACITOR FXD AISUF ee20X SOVOC CER 018073847 A3C 154 0186023847 CAPACITOR FXD n15UF 20 SOVDC CER 116073847 A3C156 0160 3847 CAPACITOR FXD 015UF ee20X SOVOC CER niso 3847 A3C157 01RO 1 746 CAPACITOReKXO 15UFe s10 20VOC TA 1500155x902082 A3C158 018023847 CAPACITOReKXO 015UF ee20X SOVOC CER 018073847 A3C201 0160 0128 CAPACITOR FXD 2 2UP 20X SOyOC CER ai nwo128 A3C202 016093558 CAPACITOReKXO UF ee20X SOVOC CER 016023558 A3C203 0160 3558 CAPACITOR FXD tUF te20 SOVOC CER 016093558
192. ed by hp Buyer shall prepay shipping charges to hp and hp shall pay shipping charges to return the product to Buyer However Buyer shall pay all shipping charges duties and taxes for products returned to hp from another country HP software and firmware products which are designated by HP for use with a hardware product when properly in stalled on that hardware product are warranted not to fail to execute their programming instructions due to defects in materials and workmanship If HP receives notice of such defects during the warranty period HP shall repair or replace software media and firmware which do not execute their programming instructions due to such defects HP does not warrant that the operation of the software firmware or hardware shall be uninterrupted or error free LIMITATION OF WARRANTY The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by Buyer Buyer supplied software or interfacing unauthorized modification or misuse operation outside of the environmental specifications for the product or improper site preparation or maintenance NO OTHER WARRANTY IS EXPRESSED OR IMPLIED HEWLETT PACKARD SPECIFICALLY DISCLAIMS THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE EXCLUSIVE REMEDIES THE REMEDIES PROVIDED HEREIN ARE BUYER S SOLE AND EXCLUSIVE REMEDIES HEWLETT PACKARD SHALL NOT BE LIABLE FOR ANY DIRECT INDIRECT SPECIAL INCIDENTAL O
193. ed by the MKR cf The point of interest should now be in the center of the display 3 Expand the display by using the Blue shift key and the Af 2 key Repeat these steps as necessary to modify the sweep until the desired display is produced Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C 3 78 Sweep Marker 3 79 Sweep Marker Output The MRKR Output located on the rear panel produces a TTL high to low level transition at the programmed Marker Frequency during the linear sweep up This signal resets to the high level at the end of sweep The marker transition wil not occur in the sweep down or Log sweep Set the Marker Frequency by pressing A followed by the desired frequency and finally the appropriate Units key 3 80 The Marker Frequency can be set anywhere in the sweep band but if it is set within 400 microseconds of the sweep stop the Stop Frequency will be increased until it occurs ap proximately 400 microseconds after the Marker The equation to determine the approximate maximum Marker Frequencies is 0004 x Bandwidth Max Marker Freq Stop Freq Sweep Time 3 81 X axis Drive 3 82 The X DRIVE Output located on the rear panel supplies the following signals Single Linear Sweep 0 V at start frequency increasing linearly to gt 10 V dc at stop frequency Remains at final voltage until reset prior to start of the next sw
194. ee handshake lines return to their initialized states as at Ti and T4 Figure 3 A 14 Handshake Timing Relationship Cont d Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A Table 3 A 1 ASCII Character Codes EQUIVALENT FORMS EOUIVALENT FORMS EQUIVALENT FORMS EQUIVALENT FORMS Binary Octa Dec Binary Octal Dec Binary Octal Dec Binary Octal Dec 00002000 000 90100000 a ondoove 100 01100000 140 00000000 0c 00100001 01000001 01100001 0000 19 201000 2 C1000010 01100010 00000011 E 0510001 5 01000011 01190011 0000010 00100100 lt 01000100 s 1100106 00006101 7 09100101 7 01000101 5 01100121 00000110 00100110 01900110 21100110 0000011 d 00100111 01000111 01100111 00001000 00101000 01901000 01101000 00001001 0 01001 01061501 3 01101001 00001010 012 00101010 01001016 01101010 90001011 001010 1 01001011 01101011 00001100 3 00101100 D O100110c 01101100 00001101 00101791 O12 a 01101101 00001110 00101118 05 01001110 01101110 00001111 00101111 7 01001111 7 01101111 00010000 02 00119000 01010000 01110000 00010001 90 100C1 01010001 01110001 00010010 001 0C10 21010010 01110010 00010011 001100 1 3 1 01010011 01110011 00010100 06110100 s 01010100 07110100 00010101 901 0101 Q10 2101 01110161 00019110 6 00119119 a y 01010110 Bi 01112110 00010 1 00110011 010 0111 onion 00011900 0 1 000 070 01011000 01111000 00011001 00111001
195. ee introduction to this section for ordering information Indicates factory selected value 6 23 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts HP Part Number Reference Designation Mfr Part Number Description ATORTI 069893510 a RESISTOR 453 iX 1 Sk F TCHO lOU 24546 Caw I BoTOw4SJR F AT0RI2 068320275 s RESISTOR 2 7 5x 25w FC TCmeuo0 450n ort C82765 A1ORIJ 069820085 0 RESISTOR 2 61K 1 125 F TCaoeelno 24546 Cha1 BuTO2611F ayoRiG 568120275 9 RESISTOR 2 7 5x 25w FC TCmeunozs Son 51121 C82765 ALORS B a RESISTOR 309 ix 125m F TCmOsel00 24546 Caw1 BaTOuJ0GREF A10R16 0698 4382 8 RESISTOR 52 3 1 28480 0698 4382 A10R17 0698 3445 2 RESISTOR 348 1 125W 28480 0698 3445 A10R18 0698 4382 8 RESISTOR 52 3 1 28480 0698 4382 41071 310020458 5 TRANSFORMER PULSE 50 600 OHMS 23480 9100 nu5B8 A10T2 9100 3889 2 TRANSFORMER PULSE 50 128 OF 3 28480 9100 3889 03336 61621 75 OHM CONN 3336B 28480 03336 61621 MECHANICAL PARTS ALOMPI 03336 60606 OUTPUT BOX ASSY 28480 03336 60606 ALOMP2 03336 61220 OUTPUT BOX SUPPORT 28480 03336 61220 A10MP3 03336 64111 OUTPUT BOX COVER 28480 03336 64111 ALOMP4 03336 61201 OUTPUT BOX FRONT PANEL 33368 28480 03336 61201 ALOMP4 03336 61202 OUTPUT BOX FRONT PANEL 3336B 001 28480 03336 61202 ALOMPS 50
196. eep Continuous Linear Sweep Increases linearly from 0 V to gt 10 V dc during sweep up Resets and remains at 0 V during sweep down Log Sweep 0 V at start frequency increasing to gt 10 V de with the sweep segments The X DRIVE Output has a nominal voltage of 10 5 V dc at the end of a sweep to be com patible with oscilloscopes requiring 10 0 V for full screen horizontal deflection At the end of Single Sweeps no reset the X DRIVE voltage decays toward 0 V at less than 10 mV per second 3 83 Z axis Blank 3 84 The Z BLANK Output located on the rear panel produces TTL compatible voltage levels as follows Single Linear Sweep Low level during sweep from Start to Stop Frequency High level at all other times Continuous Linear Sweep Low level during sweep up High level during sweep down Single Log Sweep Low level during sweep up High level at all other times Continuous Log Sweep Low level during sweep up High level momentarily at end of sweep Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation The Z BLANK Output low level is capable of sinking current from a positive voltage source through a pen lift relay or other device The Z BLANK Output ratings are Maximum Current 200 mA Voltage Range 0 V to 45 V dc Maximum Power
197. el k Connect the equipment as shown in Figure 4 10B l Set the 3336 s amplitude to 7 00 dBm 75 ohm and frequency to 1 kHz m Tune the spectrum analyzer to the 3336 output signal at 1 kHz and set a 0 dB reference level Using a battery powered spectrum analyzer enhances the accuracy of this part of the test n Without changing any controls that will affect the reference level tune the spectrum analyzer to the following frequencies and measure their amplitude relative to the 0 dB reference level 60Hz 120Hz 180Hz o All spurious signals should be more than 70 dB below the reference level p Connect the equipment as shown in Figure 4 10C q Set the 3336 s output amplitude to 2 7 dBm 75 ohm and frequency to 20 001 MHz r Make sure the frequency references of both synthesizers are locked together and set the reference synthesizer s output amplitude to 7 00 dBm 50 ohm and frequency to 20 MHz s Tune the spectrum analyzer to the 1 kHz signal from the mixer and low pass filter and set a 0 dB reference level Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests t Change the reference synthesizer output frequency to 20 001 MHz u Increment the phase of the 3336 s output signal until the dc output of the mixer is 0 Vdc 01 V v Disconnect the dc voltmeter to eliminate a possible noise source w Tune the spectrum analyzer
198. ements syntax of the controller statements suggestions for optimizing the implementation of the message 3 127 Step Three Integrate the device dependent information found in Step One with the controller dependent information found in Step Two The syntax of the controller statement explains how this should be done 3 128 Step Four Record the statements that implement each Bus Message in Table 3 1 as they are found The operator needs to translate the Bus Messages only once Table 3 I can be used as a quick reference when writing programs in the future and should be included in your system documentation 3 129 When searching for a message in the controller documentation it is usually best to start with the Table of Contents If the message is not referenced there look in the Index In order to use the twelve bus messages the controller documentation must organize the In put Output Operation programming statements according to the definitions of the twelve messages It would be unusual for any manufacturer of controllers to do otherwise The ex act nomenclature however used to describe the Bus Messages may vary from one manufac turer to another NOTE If your controller documentation does not contain a program mable statement for a particular Bus Message the controller may not be capable of implementing the message 3 21 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scienti
199. en Si silicon Dupont de Nemours DESIGNATORS me Q transistor TS terminal sinp heme OCR transistor diode U microcircuit integrated circuit Alpi resistoripack V vacuum tube neon bulb photocell etc jack RY thermistor W cable reay S swich X socket mductor T transtormel XDS lampholder meter TB terminal board XF fuseholder mechanical par TC thermocouple Y crystal plug TP test point Z network Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 2 Code List of Manufacturers Manufacturer Name Allen Bradley Co Texas Instr Inc Semicond Cmpnt Div RCA Corp Solid State Div KDI Pyrofilm Corp Motorola Semiconductor Products Fairchild Semiconductor Div TRW Inc Burlington Div Sprague Elect Co Semiconductor Div Signetics Corp Mepco Eiectra Corp Emcon Div ITW Transitron Electronic Corp Corning Glass Works Bradford Varadyne Inc National Semiconductor Corp Hewlett Packard Co Corporate Hq Intersil Inc Bourns Inc Trimpot Prod Div Advanced Micro Devices Inc Centre Engineering Inc Sprague Electric Co Electro Motive Corp Sub IEC Johnson E F Co TRW inc Philadelphia Div Littelfuse Inc TRW Capacitor Div Dale Electronics inc Milwaukee WI 53204 Dallas TX 75222 Somerville NJ 08876 Whippany NJ 07981 Phoenix AZ 85062 Mountain View CA 94042 Burlington IA 52601 Concord NH 03301 Sunnyvale CA 94086
200. er s Hi Z input c Set the 3336 output amplitude to 7 00 dBm maximum and frequency to 20 MHz d Adjust A3R30 until the counter reads 20 MHz as accurately as possible The specifica tion is 20 MHz 100 Hz e If necessary reconnect the special adapter removed in Step a 5 9 Option 004 High Stability Reference Frequency Accuracy 5 10 This procedure sets the frequency accuracy of the High Stability Frequency Reference Option 004 to within 1 part in 10 million Required Equipment Electronic Counter hp Model 5328A with Option 010 75 ohm Feedthru Termination hp Model 11094B Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Adjustments NOTE The hp 3336 must be connected to ac power for at least 72 hours before making this adjustment a Make sure the special BNC to BNC adapter supplied with Option 004 is connected between the 10 MHz Ref Output and the Ext Ref Input and that the EXT REF annunciator is ON b Connect the 3336 s 75 ohm output to the electronic counter using the 75 ohm Feedthru Termination at the counter s Hi Z input c Set the 3336 output amplitude to 7 00 dBm maximum and frequency to 20 MHz d Set the electronic counter controls to resolve 1 Hz On the hp 5328A this may make the counter overflow This overflow condition does not affect the accuracy of the measure ment and the overflow digit may be dete
201. euT 0S 8 PESISTOR at 5X 25 FC TCx 4007 590 01121 Cares R22 oR3e1525 u 3 RESISTOR 1 5K 5X 25w FC rCwnuooze70o origi C81525 Ras 66436815 5 2 ESISTOR 680 5x 25w FC TCw 400 600 01121 cs6815 R24 065321825 T 1 RESISTOR 1 8x 5x 25n Fe Tpx 400 700 0112 CB1825 826 015740395 1 RESISTOR 56 2 ix 125m F TCUO 100 one Ret OTSTeOSIT 7 RESISTOR 1 33K 1x 125n F TCe0velon I AnTOn1331 OF R28 07570317 7 RESISTOR 1 33K 1x 125 F TCsovel00 EE HM 829 ovtzeuTA5 8 RESISTOR UT 5x 25 FC TCme400 500 01121 CBuTOS R31 0683 3325 I RESISTOR 3 3K 5x 25W FC TCseu00 T00 91121 C83325 R32 5 H RESISTOR 470 5 25 FC TCu 400 600 01121 CB4TIS R33 0683euT05 8 RESISTOR 47 5x 25w FC TCwmyoo e500 01121 CBuT0S R34 0TSTeQu3a 3 RESISTOR 5 11K IX 125w F TCS0ve100 24546 CHwi 8ntOn5111 np R36 0T5T 0280 3 e RESISTOR tk 1 125w F TCUOS IJO 24546 Chwi BeTO 1001 F a37 059823153 M 3 RESISTOR 3 83K 1 125w F TCeoeel00 24546 Cunt Bot Ow S831 oF R38 Qe98enO By ja 6 RESISTOR 1 9eK 1X ot25w F TCulrm100 Cu 1 gnTQul06lnF R39 uT5Te0401 D s RESISTOR 100 1x 125 F TCsneeloU CUwisBoTow101 F R41 068326815 5 RESISTOR 680 5x 25 FC TCweougasooon 86815 Rue 069823153 s RESISTOR 3 83K 1 12 m F TCu0om100 C4wi 9ut0 3631 OF Ras 069823153 Q RESISTOR 3 93x 1 1255 p TCUQmI00 24546 CHel 8uTQOn3631 OF Rus 0698 0U83 RESISTOR 4 96K 1x 125 F TCsOve100 240545 CUw1 8eTOn1961F R46 0683 1015 7 1 RESISTOR 100 5 25W 28480 0683 1015 RUT 065323325 b RESISTOR 3 3K Sx
202. ever normally this message originates from the device The hp 3336 can send this message It will not res pond to a Service request from another device of controller Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C 4 1 INTRODUCTION Performance Tests SECTION IV PERFORMANCE TEST 4 2 This section contains in cabinet test procedures to verify that the hp Model 3336 is operating properly These performance tests compare the instrument s performance to its specifications listed in Table 4 1 In most tests the result is a measure of the actual perfor mance of the instrument in other tests the result is a pass fail indication Table 4 1 Specifications Frequency Range Model 3336A 75 ohm unbalanced 10 Hz to 20 999 999 999 MHz 150 ohm balanced 10 kHz to 2 099 999 999 MHz 600 ohm balanced 200 Hz to 109 999 999 kHz Model 33368 75 ohm unbalanced 10 Hz to 20 999 999 999 MHz 124 ohm balanced 10 kHz to 10 999 999 999 MHz 135 ohm balanced 10 kHz to 2 099 999 999 MHz 600 ohm balanced 200 Hz to 109 999 999 kHz Model 3336C 50 ohm unbalanced 10 Hz to 20 999 999 999 MHz 75 ohm unbalanced 10 Hz to 20 999 999 999 MHz Resolution nn 1 uHz for frequencies lt 100 kHz 1 mHz for frequencies 100 kHz Aging Rate instruments without Option 004 45x 10
203. fic Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests DCVOLTME TER DC SUPPLY NL zhp MODULATION hp 3336 INPUT IMHz REFOUTPUT COUNTER 29 ooo 87 eoooo Ek O 8 A cll a AN a to 750 OUTPUT 750 FEEDTHRU TERMI NATION Figure 4 12 Phase Modulation Linearity Equipment Set Up 4 35 X Drive Linearity 4 36 This performance test verifies that the hp 3336 meets the X Drive Linearity specifica tion in Table 4 1 Specification The X Drive ramp will be linear within 19 of the final ramp votage from 10 to 90 compared to a best fit straight line Required Equipment System Voltmeter hp Model 3437A BNC to Triax Adapter hp Part No 1250 0595 a Connect the equipment as shown in Figure 4 13 b Set the system voltmeter controls as follows RANGE e faute taa dd Cox en nq bea brie 10 V NUMBER OF READINGS 1 TRIGGER ema prar re ZEE ke ua a de RE RES Ext NOTE The hp 3437A triggers on the negative going edge of the 3336 s Z Blank signal This occurs at the start of each sweep up c Starting with the 3336 in its turn on condition set the Sweep Time to 01 seconds and press the CONT key Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B
204. fic com Operation Data Trigger Clear Remote Local Locat Lockout Clear Lockout Set Local Pass Control Serial Poll Status Byte Abort 1 0 Require Service Table 3 1 Bus Message Implementation Table Select Code Device Address Listen Talk Description Output text and variables to single devices Output single characters Input data from a device Input single characters Specify addressed and send data in ASCII form Output data to multiple listeners Transfer data from device to device Send a Group Execute Trigger to all devices Send a Group Execute Trigger to selected devices Clear ail devices Clear selected devices Enable remote mode on all devices Device will remote when addressed Set remote on selected devices Returr selected device to front panel control Prevent all devices from returning to local mode Set local mode and disable local lockout on all devices Transfer bus management to another controller Input the Status Byte of a selected device Clear all bus operations and return the bus management to the system controlier Request Service from the controller 3 22 Artisan Scientific Quality Instrumentation Controller Instrument 1 Model 3336A B C Instrument 2 na E yes Normally originates from the device Controllers can send the Requires Service
205. fier Q Bit Corp Model QB 300 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Cables 1 50 ohm 1 ft hp 11170A 1 50 ohm 2 ft hp 11170B 1 50 ohm 3 ft hp 11170C Adapters 50 ohm 1 Type N m to BNC m hp 1250 0082 2 Type N f to BNC m hp 1250 0077 1 Type N m to BNC f hp 1250 0780 1 BNC f to Dual Banana hp 1251 2277 1 BNC m to BNC m hp 1250 0216 Adapters 75 ohm 1 BNC m to BNC m hp 1250 1288 NOTE Q Bit Corporation P O Box 2208 Melbourne Florida 32901 Model 3336A B C a Connect the equipment electrically as shown in Figure 4 4 and physically as shown in Figure 4 5 NOTE The quality of the test results depends upon the equipment ar rangement It is important that the physical location of the in struments be as shown in Figure 4 5 Do not cross cables Allow the Q Bit Amplifier 30 minutes to warm up b Set the 3336 DUT controls as follows Ampltiude 7 00 dBm 75 ohm output occ P E 20 MHz Set the Reference Synthesizer as follows DPasplitude iaa us iua aree go 47 00 dBm 50 ohm output PEOQUERIGE sceau s ado n Gorda UR CRUS k LR ADR HR 20 008 MHz d Set the Wave Analyzer controls as follows Roc e rer Volts Resolution Bandwidth 100 Hz Sweep MOode suis sitno HEY Mad as Bre n eb Manual Amplitude Reference Level
206. fr Code Mfr Part Number 28480 28480 28480 28480 28480 5041 0943 5041 0384 5041 0384 5041 0384 5041 0384 5041 0384 5041 0384 5041 0451 5041 0319 5041 0319 5041 0319 5041 1822 5041 0817 5041 0818 5041 0816 5041 1819 5041 1821 5041 0814 5041 0815 5041 0816 5041 1820 5041 0946 5041 0811 5041 0812 5041 0813 5041 1817 5041 9758 5041 1819 5041 0808 5041 1798 5041 1818 5041 0485 5041 0922 5041 0922 5041 0319 5041 0319 5041 0319 5041 0319 5041 0944 Artisan Scientific Quality Instrumentation See introduction to this section for ordering information Indicates facto ry selected value Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part c o Descripti Mfr A cription Mfr Part Number Designation Number ty senp Code do 0333006500 1 VICROPBOCESSOR CONTROL P C ASSEYBLY 2608 03336 56505 aec 016020978 1 1 CAPACITOReFXD 1500PF sott Snovoc MICA 28080 0150 0978 Ala Olbve3J847 ki 23 C amp PACITOReFXD o1SUF eot SOVDC CER 28080 016003847 Aalt 018070337 2 C amp PACITOReFXD 160PF eit ZOOVDC ICA 28u80 016020337 selu 016020337 o CAPACITOReFXD 140PF evit ZOOVDC MICA 26060 0160 0337 m5 016003807 3 CAPACTTOR FXO 01SUF se20x SOVDC CER 28080 01603847 Al DUTIES 4 1 CAPACITOR FXO 22UFeeioX 1SVDC TA S6289 150022619015B2 aol 016023847 a CAPACITOPeFXD 01SUF se20x S6yDC CER 2
207. frequencies equal to or less than 10 kHz and one for frequencies greater than 10 kHz b Set the 3336 controls as follows OUTPUT 75 ohm AMPLITUDE 5 00 dBm FAST LEVELING c Perform Steps d through f for each configuration listed below 3336 FREQUENCY FAST LEVELING SETUP 10 Hz OFF 30 Hz OFF 50 Hz OFF Figure 4 9A 10 kHz OFF 10 kHz ON 100 kHz OFF 100 kHz ON 1 MHz OFF 1 MHz ON Figure 4 9B 5 MHz OFF 5 MHz ON 20 9 MHz OFF 20 9 MHz ON d Tune the spectrum analyzer to display the fundamental frequency and at least four of its harmonics e Adjust the analyzer s input sensitivity controls until the amplitude of the fundamental is 0 dB full scale display 4 29 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests f Measure the value of the largest harmonic relative to the fundamental and record this value in the Performance Test Record g Repeat Steps d f until each of the conditions in the table above have been tested A hp 3336 DUT H LOW FREQUENCY SPECTRUM ANALYZER Le occ is zo JJ 22d aaa a 222223 Io ta ouu son MINIMUM FEEDTERU o LOSS PAD TER TION B p 3336 DUT i HIGH FREQUENCY SPECTRUM ANALYZER Ze ose aos of on EI ao 75 502 MINIMUM LOSS PAD ji F
208. frequency entered with the Number Units keyboard is outside the specified frequency limits of the selected output 3 7 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C 3 8 3 35 To modify the present value of any operating parameter l Turn the Modify group ON by pressing the ON OFF key ON status is inidicated by the light in the center of this key MODIFY 2 Press one of the horizontal arrow keys to move the flashing digit to be modified one position to the left or right This flashing digit is the least significant digit that will be modified 3 Rotatethe Tuning Knob clockwise to increase the flashing digit and counterclockwise to decrease it This is a two speed control That is if the Tuning Knob is rotated slowly the flashing digit increases decreases by one If however the Tuning Knob is rotated faster gt 5 rpm the flashing digit will increase decrease by three NOTE Attempts to enter or modify operating parameters beyond the capabilities of the instrument are ignored and result in the word ERROR followed by a number to be displayed for one second Refer to the Error Code Messages to determined the exact nature of the programming problem 3 36 Programming Errors 3 37 The word ERROR followed by a number will be displayed for one second after a programming error occurs Refer to the error cod
209. ge 1 to 100 MHz Amplitude Accuracy 1 dB Harmonic Distortion lt 65 dBc Spurious x 70 dBc Spectrum Analyzer Frequency Range 10 Hz to 50 kHz Amplitude Accuracy 1 dB Harmonic Distortion x 65 dBc Spurious 70 dBc Input Z 75 ohms Maximum Input 5 V rms Flatness Certification Thermal Converter Vertical Bandwidth dc to 100 MHz Defiection 01V to 10V DIV Horizontal Sweep O5 us to 1s DIV Delayed Sweep Oscilloscope Frequency 1 and 10 kHz Functions Sine Squarewave Symmetry Variable Function Generator Ranges 1 mV to 1 V Frequency Range 25 Hz to 1 MHz Scale Logarithmic Accuracy 2 100 Hz to 10 kHz ac Voltmeter dc Voltage Range 10 V Trigger External Trigger Delay Programmable System Voltmeter Attenuation Step Size 10 dB required at 10 kHz 100 kHz 1 MHz 10 MHz and 20 MHz P 3336B only P 3336A only V P A hp Part No 5061 1137 hp Part No 5061 1136 Opt 001 hp Part No 5061 1135 hp Model 6214A hp Model 10534A or 10514A hp Model 8491A Option 010 2 required hp Model 355D hp Model 1417 85538 8552B hp Model 3580A hp Model 11051A HO7 hp Model 1740A hp Model 3312A hp Model 400 E or EL hp Model 3437 A 4 8 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C INSTRUMENT 1
210. h 3 33 Also included are keys to STORE and later RECALL the operating state of the instrument Paragraph 3 94 When preceded by the BLUE Shift Key the MHz units key selects the Amplitude Blanking operation mode and the kHz SEC key returns the instru ment to normal operation mode Paragraph 3 54 The STORE RECALL CLEAR and keys become the Amplitude or Phase modulation ON OFF controls Paragraph 3 85 90 MODIFY Group Consists of a Modify ON OFF Key two Horizontal Arrow keys to move the digit to be modified left or right and a Tuning Knob to increase or decrease the selected flashing digit Paragraph 3 35 UNITS Annunciators Indicates the units of measure ment of the displayed value The ENTRY Annunciator lights when an entry is in progress OUTPUT Group Main Signal Outputs and Output Select Keys to activate an output port Output Select Keys automatically deactivate all other output ports in this group MODULATION STATUS Annunciators Appropriate an nunciator lights when Amplitude or Phase Modulation is enabled Paragraph 3 85 90 EXT REF Annunciator Lit when an external frequency reference is connected to the EXT REF Input Flashes if the instrument does not lock to the external reference Paragraph 3 23 Figure 3 1 Panel Features Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C oo 0 0 8 Operati
211. he following list XQ 5 000 V x3 2 000 V x6 1 000 V x9 4 000 V x 4 000 V X4 1 000 V x7 2 000 V x10 5 000 V x2 3 000V xS 0 000 V x6 3 000 V It may be easier to obtain an accurate 0 000 V by disconnecting the power supply and placing a short across the 3336 s Phase Modulation input e With the RPG modify the phase of the 3336 s main output until the electronic counter measures a time interval of 200 ns 5 ns To achieve this accuracy the final phase in crements must be in 1 steps f Without changing any other controls set the dc power supply to the next voltage from the list in Step d The voltages listed in Step d must be used in sequence and must be accurate to within 002 V g Record the time interval Tn in column T of the work sheet at the end of this pro cedure 4 35 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C h Repeat Steps e thru g until time interval measurements have been taken for each voltage listed in Step d The repeating sequence is 1 Set the time interval to 200 ns 2 Increment the dc voltage by 1 V 3 Record the new time interval on the work sheet i Each value entered in column T is the incremental time interval for a 1 volt input step plus 200 ns The accumulative time interval is the sum of all the preceeding incremental time intervals less
212. hile the hp 3336 is pro cessing program codes NOTE These times are in addition to the settling times for frequency amplitude and phase changes listed in Table 1 1 Table 3 B 1 Programming Code Execution Time Numeric Data in Entry Parameter Strings 1 7 ms per digit Frequency FF FR 6 5 ms Delimiter HH HZ KH MH 10 9 ms Start Frequency ST 6 5ms Stop Frequency SP 6 5 ms Marker Freguency MF 6 5 ms Delimiter HH HZ KH MH 7 5 ms Sweep Time ST 5ms Delimiter SE Sms Amplitude AM 6ms Delimiter DB 165 ms Phase PH 5ms Delimiter DE 28ms Output Impedance Ooi 9ms Store SR 20 ms Recall 4 RE 975 ms Assign Zero Phase AP 10ms Start Single Sweep SS 500 ms Start Continuous Sweep SC 500 ms Interrogation l mnemonic 5 ms mnemonic time Mask Service Reguest MS 2ms Sweep Mode SM 3ms Programming Mode MD 2 ms Amplitude Blanking AB 2 5 ms Fast Leveling FL 4 5 ms Artisan Scientific Ouality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE w APPENDIX C hp 9825A Bus Message Implementation Table Controller Instrument 1 Instrument 2 hp 9825A hp 3336 Select Code x 5 ki Device 21 04 Address Listen 5 o T Talk U D m _ Bus Messaga Dascrigtion Sample Implementation Data Output text and
213. his number can be used to order 4 x 6 inch microfilm transparencies of the Operating and Service Manual Each microfiche contains up to 96 photo duplicates of the manual pages The microfiche package also includes the latest Manual Changes supplement as well as pertinent Service Notes 1 5 SPECIFICATIONS 1 6 Instrument specifications and supplemental characteristics are listed in Table 1 1 The specifications are the performance standards or limits against which the instrument is tested Supplemental characteristics are included in Table l 1 as additional information for the user 1 7 SAFETY CONSIDERATIONS 1 8 This product is a Safety Class instrument provided with a protective earth terminal The instrument and manual should be reviewed for safety markings instructions cautions and warnings to ensure safe operation 1 9 INSTRUMENTS COVERED BY THIS MANUAL 1 10 Attached to the instrument rear panel is a serial number plate The serial number is in the form 0000A00000 It is in two parts the first four digits and letter are the serial prefix and the last five digits are the suffix The prefix is the same for all identical instruments it changes only when a change is made to the instrument The suffix however is assigned se quentially and is different for each instrument The contents of this manual apply to in struments with the same serial number prefix and higher serial number suffixes listed under SERIAL NUMBERS on the t
214. hronize other instruments to the Main Signal Outputs Level transition occurs at Main Signal Output zero crossing REF OUT O dBm 50 ohm 1 MHz signal for phase locking additional instruments to the Model 3336 10 MHz OVEN OUT instruments with Option 004 only O dBm 50 ohm 10 MHz signal from a temperature stabilized crystal oscillator for phase locking the Model 3336 or other instruments X DRIVE Oto gt 10 Vdc linear ramp proportional to the sweep frequency Linearity 1 of final value 1096 to 90 best fit straight line Z BLANK Sweep related TTL compatible voltage levels Low level is capable of sinking current froma positive voltage source Maximum Current 200 mA Maximum Voltage 45 Vdc Maximum Power Dissipation 1 W MARKER TTL compatible high to tow level transition at the programmed Marker Frequency 1 5 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com General Information Model 3336A B C Table 1 1 Specifications and General Information Cont d AUXILIARY INPUTS EXT REF IN For phase locking the 3336A B C to an external frequency reference Signal from O dBm to 20 dBm 50 ohm Signal frequency must be within 1 x 10 8 of a sub harmonic of 10 MHz from 1 MHz to 10 MHz AMPTD MOD Amplitude modulation input see AMPLITUDE MODULATION specifications PHASE MOD Phase modulation input see PHASE MO
215. ic Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Installation Installation Model 3336A B C 2 30 STORAGE AND SHIPMENT 2 31 Environment 2 32 The instrument should be stored in a clean dry environment The following en vironmental limitations apply ta both storage and shipment Temperature 40C to 75 C Relative Humidity 95 at 40 C Altitude 15 300 meters 50 000 feet 2 33 Instrument Identification 2 34 If the instrument is being returned to Hewlett Packard for servicing attach a tag in dicating the type of service required return address model number and full serial number In any correspondence refer to the instrument by model number and full serial number 2 35 Packaging 2 36 Original Packaging If the original packaging has been retained pack the instrument in the same manner as it was received Be sure to seal the shipping container securely Also mark the container FRAGILE to assure careful handling 2 37 Other Packaging The following general instructions should be used for repackaging with commercially available materials a Wrap the instrument in heavy paper or plastic If shipping to a Hewlett Packard of fice or service center attach a tag indicating the type of service required return address model number and full serial number b Use a strong shipping container A doublewall carton made of 250 pound test material is adequate c Use e
216. ides the following a Total quantity used in the instrument Qty column The total quantity of a part is given the first time the part number appears b Description of the part See List of Abbreviations in Table 6 1 c Typical manufacturer of the part is a five digit code See Table 6 2 for List of Manufacturers d Manufacturer s part number 6 3 Miscellaneous parts are listed in Table 6 3 following their respective assemblies General miscellaneous parts are listed at the conclusion of Table 6 3 6 4 ORDERING INFORMATION 6 5 To obtain replacement parts address order or inquiry to your local Hewlett Packard Field Office See List of Office Locations at the end of this manual Identify parts by their Hewlett Packard part numbers Include instrument Model and serial numbers 6 6 NON LISTED PARTS 6 7 To obtain a part that is not listed include Instrument model number Instrument serial number Description of the part Function and location of the part anoo 6 8 PROPRIETARY PARTS 6 9 Items marked by a dagger 1 in the reference designator column are available only for repair and service of Hewlett Packard instruments 6 10 PRINTED CIRCUIT ASSEMBLIES 6 11 Printed circuit assemblies are listed in Table 6 3 An itemized parts listing of each assembly is located in the service group associated with each printed circuit assembly 6 1 Artisan Scientific Quality Instrumentation
217. idth Limits 3 74 The maximum sweep bandwidths are the specified frequency limits of each output See Paragraph 3 14 The minimum sweep limits are Log eeeeeeeee caine l decade Linear Sweepos aaa ses dwa ata kaa as a 1 Hz sec x sweep time 3 75 Sweep Modification 3 76 While the instrument is continuously sweeping the Sweep Time Start Frequency Stop Frequency Marker Frequency Sweep Bandwidth and Output Amplitude can be modified When a modification is entered the sweep stops resets to the Start Frequency and then after a brief computation period the sweep automatically restarts 3 77 Sweep Bandwidth Modification In Linear Sweep Mode the sweep bandwidth can be doubled or halved by pressing the Blue shift key followed by Af x 2 or Af 2 When MKR cf is used to set the sweep center frequency equal to the marker frequency in con junction with these bandwidth modification keys it is possible to ZOOM in on a specific point of the sweep For example during a continuous linear sweep from MHz to 10 MHz while monitoring the Marker and the response of the swept device on an oscilloscope an in teresting response is noted at about 8 MHz This point of interest however is too compress ed to analyze properly To ZOOM in on this point center it in the display by 1 modify ing the Marker frequency until the marker transition occurs at the same time as the point of interest and 2 pressing the Blue shift key follow
218. igure 2 1 Power Cables 2 12 HP IB Connections 2 13 Interconnection data concerning the rear panel HP 1B connector is provided in Figure 2 2 This connector is compatible with the hp 10631 A B or C HP 1B cables The lengths of these cables are as follows 10631A meter 10631B 2 meters 10631C 4 meters 2 2 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Installation Up to 15 instruments including the controller may be connected in an HP 1B system The HP 1B cables have identical stacking connectors on both ends so that several cables can be connected to a single source As a practical matter avoid stacking more than three or four cables on any one connector If the stack gets too large the force on the stack can produce enough leverage to damage the connector mounting Be sure that the connector screws are tightened firmly in place to keep it from working loose during use and be sure to observe the CAUTION of Figure 2 2 S e mes HGR HEUS aa SSH Sh 2 D102 The 3336A contains metric threaded HP IB cable mounting 3 Di03 studs as opposed to English theads Metric threaded hp 4 DI04 10631A B or C HP IB cable lockscrews must be used to 13 DIOS secure the cable to the instrument identification of the two 14 DI06 types of mounting studs and lockscrews is made by their 15 0107 color English threade
219. igure 4 9 Harmonic Distortion Equipment Set Up 4 30 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Performance Tests 4 29 Spurious Signal 4 30 This performance test verifies that the hp 3336 meets the Spurious Signal specifica tion in Table 4 1 Specification dc to 200 MHz except where noted All non harmonically related signals from 0 Hz to 200 MHz will be more than 70 dB below the carrier or one of the following levels whichever is greater Model 3336A Without Option 005 With Option 005 75 ohm output 100 dBm 115 dBm 150 ohm output 100 dBm 100 dBm to 10 MHz to 10 MHz 600 ohm output 100 dBm 100 dBm to 10 MHz to 10 MHz Model 3336B 75 ohm output 100 dBm 115 dBm 124 ohm output 100 dBm 115 dBm 135 ohm output 100 dBm 115 dBm 600 ohm output 100 dBm 115 dBm Model 3336C 50 ohm output 100 dBm 115 dBm 75 ohm output 100 dBm 115 dBm NOTE Line related signals from the 600 ohm outputs will be more than 70 dB below the carrier or 83 dBm whichever is greater Required Equipment Spectrum Analyzer High Frequency hp Model 141T 8553B 8552B Spectrum Analyzer Low Frequency hp Model 3582A Synthesizer hp Model 3335A Mixer hp Model 10534A DC Voltmeter hp Model 3455A 75 to 50 ohm Minimum Loss Impedance Matching Pad hp Model 85428B 50 ohm Feedthru Termination hp Model 1
220. ing for more information about the Trigger Message 3 152 Remote Operation of the hp 3336 3 153 Data Almost every function of the hp 3336 can be activated remotely by sending Instrument Programming Codes over the HP IB The Instrument Programming Codes are sent using the Data Message 3 154 Implementation Usually there are several controller statements that will implement the Data Message Each statement will have some unique advantage Thoroughly research this Bus Message in the controller documentation to be certain you are using the optimum statement for your application The syntax and mnemonics for the controller statement come from the controller documentation The instrument listen address which is for the hp 3336 and the Instrument Programming Codes come from the instrument documenta tion The Instrument Programming Codes and their format are presented in the paragraphs that follow 3 155 Instrument Programming Codes All of the hp 3336 programming codes and their binary octal decimal and hexadecimal values are presented in Table 3 2 Each program ming code is an instruction to the instrument In most cases sending these instructions cor responds to pressing front panel controls during local operation For isntance receiving the ASCII characters AM during remote operation has the same effect as pressing the AMPLITUDE entry key during local operation There are exceptions to this one to one rela tionship They ar
221. ing it could not recognize or respond to In this case the appropriate action may be to print a message advising the operator that the hp 3336 received an invalid instruction Only the instrument status associated with bits 0 thru 3 can cause service requests See Masking Service Requests 76543210 Status Byte Bits FRFxSSSS F Flag R Request Service S Status L Program String Error 1 Sweep Stopped 1 Sweep Started 1 System Failure Main Oscillator Unlocked Ext Ref Unlocked 1 Sweep Flag Sweep in progress 1 Service Requested 1 Busy Flag 3336 is busy processing data Does not cause a Request Service Message 3 145 Status Bytes are requested by the controller by conducting a Serial Poll see Paragraph 3 131 Serial Polling Usually a serial poll is conducted in response to a Require Service Message received from an instrument on the HP IB Occasionally a Serial Poll is conducted even though a Require Service Message was not received The programmer may wish to check the status of an instrument function that is encoded in the status Byte but does not generate a Service Request There are two and up to six such functions in the hp 3336 Bit 0 through bit 3 of the Status Byte are maskable That is the corresponding conditions of each bit will not cause a Service Request unless programmed to do so Bit 7 of the Status Byte is the Busy Flag This bit will be true 1 when the hp 3336 is processing instructions and
222. ing the number of degrees for negative phase shifts 3 59 After entering a phase shift the new phase may be assigned the zero phase position Subsequent changes in phase will be referenced to this point extending the 719 9 offset limit To assign zero phase press the BLUE shift key followed by the PHASE entry key 3 60 Frequency Sweep 3 61 The Model 3336 produces phase continuous logarithmic or linear single or con tinuous frequency sweeps over its entire frequency range Three auxiliary outputs provide sweep related X axis drive Z axis blanking and frequency marking for X Y axis presenta tions of the frequency sweep A special ZOOM feature can quickly position and expanda point of interest in the sweep display NOTE F bound Err will be displayed for 1 second after a sweep is started if either the Start or Stop frequency is outside the specified frequency limits of the output selected 3 62 At instrument Turn on the sweep parameters are Sweep Modes veb associa oid viene dasa ta a em le M p ie Linear Start Frequency co 1 000 000 0 Hz Stop Freguency 10 000 000 0 Hz Marker Freguency 5 000 000 0 Hz Time cL Ib a akeri e onore As b k raids 1 0 Sec Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C 3 12 3 63
223. instrument addresses instrument control instructions measurement results and instruments status information in bit parallel byte serial form Ordinarily a seven bit ASCII code represents each byte of DATA The eighth bit is available for parity checking DATA is sent over the DATA lines in both direc tions 3 118 Handshake Lines DAV NFRD NDAC Data is transferred between devices using an interlocked HANDSHAKE technique This method causes the data to be moved at a rate determined by the slowest device involved in the transfer The HANDSHAKE lines coor dinate the asynchronous data transfer by communicating the status of the transfer to the device sending the data talker the device receiving the data listener and the device con trolling the transfer controller 3 119 General Interface Management Lines These five lines operate independently and in conjunction to send Bus Management Message to the devices connected to the HP IB Each line has a precise definition that is either sent or not sent depending on the truth state of the line The lines are defined as follows Attention ATN When TRUE identifies ASCII characters on the DATA lines as commands Identifies ASCII characters on the DATA lines as data when FALSE Remote Enable REN Places the interface bus in the REMOTE mode Interface Clear IFC Halts all activity on the HP B Service Request SRQ A device on the bus uses this line to request service from the co
224. io Code Part Number A25R48 0883 1325 RESISTOR 4 3K 5 25 FC TCze400 T00 01121 C81325 A25R21 181020164 2 NETWORKSRES 9eSIPO TK OHM x 8 91637 CSPOSCOTeuT2J 125222 181020160 NETAOGKeRES 9esIDU TK OHM x 8 91637 CSPOOCOTe4UT2J A75R23 181020135 1 NETKORKePE begIP10 0x OMM x 5 28480 1810240135 425020 181240055 1 NETWORK RES 9egIP10 0K DAM X B 28280 181020055 ApSR25 081103069 1 RESISTOR 1 Sx S5 Pa TCnoeotsn T5042 812021a1R0eJ A25S41 Soonega3o 36 PUSHBUTTON SWITCH MOUNT 28460 506029436 A259n2 5060 9436 PUSHBUTTON SWITCH MOUNT 28480 50609436 425843 5060 9236 PUSHBUTTON SKITCN DUNT 28480 506029436 A 5Sw4 Sobna9436 PUSHBUTTON SAITCH MOUNT 28480 506029436 425845 Suboeg436 PUSHBUTTON SATTCH MOUNT 25280 506029436 A25Sw6 506029036 PUSHBUTTON SwITCH MOUNT 28480 506009036 423547 506049436 PUSHBUTTON SKITCH MOUNT 28480 50609436 425808 50609436 PUSHBUTTON SwITCH MOUNT 28480 596009436 425849 506009436 PUSMAUTTON SAITCH MOUN T 28480 506029436 A258w10 50609436 PUSHBUTTON SWITCH MOURT 28460 5060 9436 A2sswyi 506009436 PUSHBUTTON SaITCH MQUNT 28480 506029436 A25sw12 50099436 PUSHBUTTON SAITCN MOUNT 28480 506099436 4253413 506029436 BUSHBIITTON SWITCH MOUNT 28480 060 9436 4258w14 5060 9436 PUSHAUTTON SAITCH MOUNT 28480 506099436 A258w15 506029436 PUSHBUTTON SAITCH MOUNT 28480 506099436 A258416 500029436 PUSHBUTTON SWITCH MOUNT 28480 506129436 A258w1T 506009436 PUSHAUTTON SAITCH MOUNT 26480 506029436 425Swia 506nedu36 PUSHBUTTON SWITCH MOUNT 25480 516009436 4259419 5
225. is message switches all instruments on the HP IB to the Local mode and clears all Local Lockout conditions Other methods to accomplish the same thing are to disconnect the HP IB cable turn the controller off or turn the individual in struments off 3 139 Implementation The entire program statement that implements the Clear Lockout Set Local Message is found in the controller documentation No part of the pro gram statement depends on the individual instrument A technical description of the Clear Lockout Set Local Message is presented in Figure 3 4 of Appendix B 3 23 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C 3 140 Clear The Clear Message resets instruments to a predefined state The predefined state of the hp 3336 is its turn on state see Paragraph 3 10 except that stored instrument states are retained The Clear Message can be a universal instruction resetting all devices on the bus capable of responding or an addressed instruction sent to selected devices only 3 141 Implementation When the Clear Message is a universal instruction the entire pro gram statement is found in the controller documentation When it is an addressed instruc tion the syntax and mnemonics of the program statement are found in the controller documentation A technical description of the Clear Message implementation is presented in Figure 3 5 of Appendix B
226. is not capable of communicating except for the Status Byte over the HP IB 3 146 Serial Polling A Serial Poll is a routine in the program that sequentially requests the Status Byte from some or all devices on the HP IB The structure of the routine depends on the way the controller implements the Serial Poll and the purpose of the poil Some con trollers have a single program statement that enables a Serial Poll polls the addressed device and then disables the Serial Poll In this case a Serial Poll of a system consists of several Serial Polls one for each device Recall that Serial Polls are sometimes conducted on a single device to learn the status of an instrument that is encoded in the Status Byte but does not generate a Service Request 3 147 Implementation The syntax and mnemonics for the controller statements that im plement a Serial Poll are found in the controller documentation The structure of the Serial Poll what instruments to be polled in what order routine is developed in accord with the total system Only the listen addresses of the devices to be polled and the definitions of the bis in the Status Byte are taken from the instrument documentation The listen address of the hp 3336 is A technical description of the Status Byte Message implementation is presented in Figure 3 7 of Appendix B Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation 3 148 Sta
227. is rated Maximum Input Voltage 5 V peak Nominal Input Impedance 10 k ohm Input Frequency Range dcto 5 kHz Maximum Shift 850 Input SensitivitY gt 170 volt 3 94 OPERATING STATE STORAGE 3 95 Up to ten entire instrument operating states programs may be saved for use in the future Each instrument state is stored in a location identified by a number from 0 to 9 To Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C Store the current operating state press the STORE 0 9 key followed by the number of the desired storage location If two programs are stored in the same location the first program is lost To Recall an operating state press the RECALL 0 9 key followed by the number of the location where the program is stored 3 96 All stored information is lost when power is removed from the instrument or when the POWER switch is set to STBY Any stored phase information is invalid because the phase of the output signal is arbitrary when recalled The command to start a frequency sweep is not saved and therefore either the CONT key or SINGLE key must be pressed after recalling a frequency sweep 3 97 OPERATOR MAINTENANCE 3 98 Maintenance performed by the operator is limited to checking and cleaning th
228. itle page 1 11 If your instrument s serial number suffix is lower than that listed on the title page refer to Section VII Manual Changes There you will find information to backdate your manual making it apply to your instrument Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com General Information Model 3336A B C Table 1 1 Specifications and General Information FREQUENCY Model 3336A Modei 3336B Model 3336C Resolution 75 ohm unbalanced 150 ohm balanced 600 ohm balanced 75 ohm unbalanced 124 ohm balanced 135 ohm balanced 600 ohm balanced 50 ohm unbalanced 75 ohm unbalanced 1 wHz for frequencies lt 100 kHz 1 MHz for frequencies gt 100 kHz Accuracy instruments without Option 004 5x 10 6 of programmed frequency Aging Rate instruments without Option 004 5 x 107 per year 20 to 30 C Warm Up Time 30 minutes AMPLITUDE Range Model 3336A Model 3336B Model 3336C 75 ohm output 150 ohm output 600 ohm output 75 ohm output 124 ohm output 135 ohm output 600 ohm output 50 ohm output 75 ohm output 10 Hz to 20 999 999 999 MHz 10 kHz to 2 099 999 999 MHz 200 Hz to 109 999 999 kHz 10 Hz to 20 999 999 999 MHz 10 kHz to 10 999 999 999 MHz 10 kHz to 2 099 999 999 MHz 200 Hz to 109 999 999 kHz 10 Hz to 20 999 999 999 MHz 10 Hz to 20 999 999 999 MHz 72 99 to 7 00 dBm 78 23 to 1 76 dBm
229. joevOC CER Atlonans7a 1 CAPACITOReKXh 22naPFE 22 3 ATOVEC CER dihom 2190 2 CAPACITOPeFXD 1oPF abi SANYDE vICA 0160 0161 4 CAPACITOR FXD O1UF 200V Mare ISSR a CAPACITQORAFXO 11F ea amp ey C CER LTD 1 RELAY va TRANS Mi HP IB FG eM QR a COJLeMLE FINK 5x GESA 155 4 375 GeO QturaczA3 5 COTLAYLO 91084 5x Qa5 1 amp 50X 37SL Ge NOV Qiu 243 A COlL LD 910 GR 585v 1650X 19 5LGe O 9lunanza3 a COILevLh 910uM amp y Qm amp 1S6Dx 37616040 Un a CGILaML 91 one amp x 2150 1 amp 50x 17 SLGe DV Vd enreo 7 COTLAMLO 1 RUM 5X 23313 15SDX 7 5LGe O 7 COIL LO 1 AJM amp 5331 1550X 975LGe sO 0605 4445 RESISTOR 5 76K 1x 12 amp F TON mini 218720276 7 RESISTOR 61 9 1x 125 Mere auus u RESISTOR 5 76x Y L128 NIST ANITA 7 RFSISYOR 61 0 1x 128 26A 275 9 RESISTOR 2 7 S 254 FC TCxe nn Soc 275722035 A RESISTOR A A2K 1x 125 F Tear ati 7638250275 e RESISTOR 2 7 5x 254 FC Tema semen 0698 4421 6 RESISTOR 619 1 125W 0698 4386 2 RESISTOR 59 1 0757 0418 9 RESISTOR 249 1 125W 0698 4386 2 RESISTOR 59 1 FORMER PULSE 50 600 OHMS THANSFCRVER SOUL SE Sha121 Jwespfijens POT EECHANICAL PARTS 03336 60606 OUTPUT BOX ASSY 03335 61220 OUTPUT BOX SUPPORT 03336 64111 OUTPUT BOX COVER 03336 61203 OUTPUT BOX FRONT PANEL 3336A 03336 61205 OUTPUT BOX FRONT PANEL 3336A 201 5051 2302 INSUL INPUT J1 33364 5
230. lloscope probe to A4TP AMP ZERO located beside A4S1 e Set the 1740A in the the ground mode with 005 volts div and adjust the vertical posi tion so that the trace is on the zero reference line in the center of the screen f Put the oscilloscope in the dc mode and adjust A4R208 labeled AMP ZERO located beside A4J23 for zero dc offset at A4TP AMP ZERO g Return switches A4S1 and A4S2 and jumper A4207 to their normal positions 5 27 Leveling Loop Bias Adjustment 5 28 This procedure balances the bias current to the thermal converter Required Equipment Oscillscope hp Model 1740A NOTE The 3336 must be on for 30 minutes before making this adjust ment a Remove cable W24 from A4J24 b Ground test point A4TP201 c Connect the oscilloscope to test point A4TP AMP ZRO d Set the oscilloscope to dc coupled zero center and 1 volt div e Adjust A4R212 located between A4J40 and A4TP207 to center the signal and main tain it at the center of the screen f Increase the sensitivity of the oscilloscope and readjust A4R212 g Repeat Step f until the oscilloscope is set at 005 Volts div and the trace remains on the screen for at least 5 seconds h Remove the short from A4TP201 and reconnect W24 5 29 75 ohm Output Level Accuracy Adjustment 5 30 This adjustment sets the absolute amplitude accuracy of the unbalanced outputs by accurately setting the minimum and maximum values of the amplitude s dynamic range
231. me immediately reset to the Start Fre quency and continue the cycle NOTE The Stop Frequency must be greater than Start Frequency when ihe instrument is in the Log Sweep Mode 3 89 Log Sweep 3 70 The Single Log Sweep is a logarithmic approximation made up of 10 linear segments per decade The minimum log sweep width is one decade of frequency NOTE The actual Stop Frequency at the end of a Single Log Sweep will be higher than the programmed value because of computation time required by the control circuits The actual value will always be within 0 25 of the programmed value and the error will decrease as the sweep time increases Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3 71 Sweep Time Limits 3 72 The maximum sweep time for all sweep types and sweep modes is 99 99 sec The sweep time resolution is 0 01 sec for sweep times sec and 0 001 sec for sweep times 1 sec The minimum sweep times are Linear Sweep SUN B A O IE WERDEN b e nO ees 0 01 sec Continfas i aa aaa ka e eee ke ek dna 0 01 sec Log Sweep be TITA NA RE WAN CREE A AE i RE AVENE 2 00 sec COMIMMMOUS ki kw wii a a ae a a a tien A a EE RETE 0 10 sec NOTE In Single Log Sweep the sweep time is increased between segments The time increase in seconds is approximately equal to Stop Frequency IRE ka siren Start Frequency seconds 3 73 Sweep Bandw
232. mens type 3 prong 9REL STP 6 AC 3336B 75 ohm unbal WECO type 439A or 440A 124 ohm bal WECO type 443A 135 ohm bal WECO type 241A 600 ohm bal WECO type 310 3336B with 75 ohm unbal WECO type 358A Option 001 124 ohm bal WECO type 372A 135 ohm bal WECO type 241A 600 ohm bal WECO type 310 3336C 50 ohm unbal 50 ohm BNC 75 ohm unbal 75 ohm BNC 1 17 ACCESSORIES SUPPLIED 1 18 A special BNC to BNC connector is supplied with the High Stability Frequency Reference Option 004 to connect the High Stability Frequency Reference to the instru ment This connector is hp Part No 1250 1499 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com General Information General Information Model 3336A B C 1 19 ACCESSORIES AVAILABLE 1 20 The following accessories are available for use with the Model 3336A B C hp Part No Description 11048C 50 ohm Feedthrough Termination 11094B 75 ohm Feedthrough Termination 11356A Ground Isolator 85428B 50 to 75 Q Minimum Loss Impedance Matching Pad 11477A High Stability Frequency Reference Kit converts standard instrument to Option 004 5061 0077 Rack Mount Flange Kit Option 908 5061 0083 Rack Mount Flange Front Handle Kit Option 909 5061 0089 Front Handle Kit Option 907 11473A 2 600 Q Balanced WECO 310 to 75 Q Unbalanced BNC Balancing Transformers 11473B 2 600 Q Balanced Siemens 9REL STP 6AC 75 Q Unbalanced BNC
233. ment is operated using front panel controls while in the Local mode Another way to switch the instrument to the Local mode is to actuate the front panel Local control see Local Lockout Message Paragraph 3 136 3 135 Implementation The syntax and mnemonics for the program statement that im plements the Local Message are found in the controller documentation Only the listen ad dress which is for the hp 3336 is taken from the instrument documentation An instru ment must be addressed to listen in order for it to enter the Local mode A technical descrip tion of the Local Message implementation is presented in Figure 3 2 of Appendix B 3 136 Local Lockout The Local Lockout Message disables the Local control on the front panel of the hp 3336 All devices on the HP IB with Local Lockout capability will respond when this message is sent The instrument can be switched to Local mode by executing the Local Message Local Lockout however will still be in effect if the instrument is switched back to the Remote mode To remove Local Lockout see Paragraph 3 138 Clear Lockout Set Local Message 3 137 Implementation The entire program statement that implements the Local Lockout Message is found in the controller documentation No part of the program statement depends on the individual instrument A technical description of the Local Lockout Message implementation is presented in Figure 3 3 of Appendix B 3 138 Clear Lockout Set Local Th
234. message however normally this message originates from the device The hp 3336 can send this message It will not res pond to a service request from another device or controller Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3 130 System Management Messages 3 131 The purpose of the ten System Management Messages is to control the system so that Data and Trigger messages can be sent as desired 3 132 Remote When it is first turned on the hp 3336 is in the Local mode and under front panel control In order to be operated over the HP IB it must be switched to the Remote mode The Remote Message switches the instrument to the Remote mode In this mode the only operational front panel controls are the Power switch and the Local key see Local Lockout Message Paragraph 3 136 All other instrument functions are activated over the HP IB through the system controller The instrument configuration does not change when switched to Remote 3 133 Implementation The syntax and mnemonics for the program statement s that im plements the Remote Message are found in the controller documentation Only the listen ad dress which is for the hp 3336 must come from the instrument documentation A technical description of the implementation of the Remote Message is presented in Figure 3 1 of Appendix B 3 134 Local The Local Message switches the hp 3336 from Remote to Local operation The instru
235. n Guaranteed 888 88 SOURCE www artisan scientific com Operation 3 6 POWER REQUIREMENTS Model 3336A B C 3 7 The Model 3336 requires a power source of 100 120 220 or 240 Vac 5 10 48 to 66 Hz single phase Instructions to change the line voltage selection are located in the Ser vice Section of the Operating and Service Manual Fuse replacement is described in the Operator Maintenance chapter of this section Paragraph 3 97 3 8 WARM UP 3 9 A standard instrument without Option 004 requires 30 minutes to warm up In struments with the High Stability Frequency Reference Option Option 004 require 30 minutes to warm up if power has been disconnected for less than 24 hours If an Option 004 instrument is disconnected from its power source longer than 24 hours the warm up period may be as long as 72 hours 3 10 INITIAL Turn On OPERATING CONDITIONS 3 11 When the instrument is turned on its operating state will be FREQUENCY ei erre pi E e ege Ped 10000 Hz AMPLITUDE dua Minimum PHASE caves 0 0 deg OUTPUT PHASE RELATIONSHIP TO FREQUENCY REFERENCE Arbitrary OUTPUT 75 ohm Models A or B 50 ohm Model C SWEEP Linear Start FREGUCHACY sena sess aa anana xw as laj ar RC 1 MHz Stop Frequenee 10 MHz Marker Frequerncy ceeseseac daa ere ey Ime 5 MHz Sweep TIME 1 sec AMPLITUDE BLANMKING ee Off PHASE MODULATION
236. new information to keep your manual current To keep this manual as current and accurate as possible Hewlett Packard recommends that you periodically request the latest Manual Change Supplement The sup plement for this manual is identified with the manual print date and part number Both ap pear on the manual title page Complimentary copies of the supplement are available from Hewlett Packard 1 13 DESCRIPTION 1 14 The Hewlett Packard Model 3336 Synthesizer Level Generator is an accurate stable and spectrally pure sine wave source producing synthesized frequencies with 11 digits of resolution from 10 Hz to 20 999 999 999 MHz and precise output levels from 72 99 to 7 00 dBm 75 ohm output in 01 dBm steps A general purpose model and two com munications models are available each having a different combination of balanced and un balanced outputs output impedances and output connectors 1 15 AVAILABLE MODELS 1 16 The Model 3336 is manufactured as one of three models identified by the letters A B or C following the model number The difference between models is the configuration of the front panel outputs The outputs on each model are MODEL OUTPUTS ACCEPTS CONNECTOR TYPE 3336A 75 ohm unbal 75 ohm BNC 150 ohm bal Siemens type 3 prong 9REL STP 6 AC 600 ohm bal Siemens type 3 prong 9REL STP 6 AC 3336A with 75 ohm unbal Siemens type 1 6 5mm coaxial Option 001 150 ohm bal Siemens type 3 prong 9REL STP 6 AC 600 ohm bal Sie
237. ng mode to produce unwanted energy at intermediate frequencies during a frequen cy change 1n the Amplitude Blanking mode the output level is automatically reduced dur ing the frequency change resulting in the unwanted energy becoming insignificant Amplitude Blanking reduces the output level to less than 85 dBm during the time the in strument is changing frequencies 3 10 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3 56 To select Amplitude Blanking press the BLUE shift key and then press The AMPTD BLANK annunciator will be lit when the instrument is in the Amplitude Blanking Mode Even though the Amplitude Blanking Mode is selected the output signal will not be affected if the frequency is changed using the Modify Group tuning knob Fast Leveling and Amplitude Blanking are mutually exclusive operating modes That is the instrument will automatically return to Normal Leveling when Amplitude Blanking is selected and con versely when Fast Leveling is selected Amplitude Blanking is removed To return to Nor mal operation press the BLUE shift key followed by 3 57 Phase Entry 3 58 The phase of the output signal may be shifted up to 719 9 with 0 1 resolution To enter a phase shift press the PHASE entry key followed by the exact number sequence of the desired phase shift and then the units key Press the key before enter
238. nough shock absorbing material 3 to 4 inch layer around all sides of the instru ment to provide firm cushion and prevent movement inside the container Protect the con trol panel with cardboard d Seal the shipping container securely e Mark the shipping container FRAGILE to assure careful handling 2 6 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Installation 2 38 Rack Mounting 2 39 The Model 3336 can be mounted in a rack having an EIA standard width of 482 6 mm 19 inches The instrument can be rack mounted with or without a handle kit by use of the following items a Rack mounting without handles use Rack Mount Flange Kit hp Part No 5061 0077 Option 908 b Rack mounting with handles use the combination Rack Mount Flange Front Handle Kit hp Part No 5061 0083 Option 909 NOTE The Rack Mount Flange Kit item a will not provide the space re quirement for rack mounting when used with the bench handle assembly hp Part No 5060 9899 Option 907 To rack mount with handles the combination kit of item b Option 909 must be used see Figure 2 3 If either Option 908 or 909 is ordered the corresponding kit is shipped with the instrument Otherwise both kits are available separately by their hp part numbers OPTION 908 RACK MOUNT FLANGE KIT NS TRIM HANDLE KIT BENCH OPERATION RACK MOUNT FLANGE FRONT HANDLE KIT
239. ntroller End or Identify EOI Indicates the last character of a multi byte message Also used with ATN true to indicate a parallel poll 3 120 Producing Controller Statements for Instrument Operation 3 121 The interface between the operator and the instrument is changed dramatically when an instrument is operated over the HP IB During non HP IB operation the operator ac tuates front panel controls that are labeled according to function Often only a single con trol is used to activate a function and getting the results of a measurement simply consists of reading the display In contrast during HP IB operation the operator typically faces an alpha numeric keyboard Neither the key functions nor their labels correspond to the instru ment operation The natural question arises What instructions must be entered on the controller to cause a particular action in the instrument This sub section explains how to answer that question 3 122 An ideal HP IB operating section in an instrument manual would include specific in structions such as To set the frequency of the hp 3336 to 19 5 MHz enter wrt 704 FRI9 5MH on the controller This instruction is very specific and leaves no room for error Unfortunately it is not possi ble to supply such specific instructions because it is not possible to predict which instruments and controllers will be used together The instrument s operating instructions therefore c
240. o 24546 Cdet ButOeb25i0F 44845 058324705 8 1 RESISTOR a7 5 25 FC TCmwungseSnn 01121 CBu705 LELET 068321025 9 RESISTOR 1x 5 25 FC TCme un b0n 91121 CBto25 AGR47 04432265 1 RESISTOR 22M Sx 250 FC TCme900 1200 01121 C82265 Agus 068324725 2 RESISTOR u 7X 5 254 FC TCeeugo 700 61121 BuT25 AuRUR 075720438 3 2 RESISTOR 11K 1 125a F TCmaselon 24846 C ei BetOeSti1uF AuRSn 068302225 3 RESISTOR 2 2 51 25 FC tleedonse700 o112t C82225 AURS 075720279 o t RESISTOR 10K 1 125a F TCmoeai00 2454o ChuisBeTOuJibileF AGRS2 075720438 3 RESISTOR 5 11K 13 125a F TCE0 e100 24546 Cue sRet heads liek AURSS 069Rus547 s RESISTOR 1 5K 1 1254 F TCenee25 28480 os98waz47 AGRSa 069825935 1 RESISTOR 156X S t25 F TCeneeSo 28280 0698 5935 A RSS ne83 1025 5 RESISTOR 1X Sy 254 FC TOmauno 0Nn 01121 81025 AURSO 0757 0248 2 RESISTOR 20K 1 125a F TCmDeetn 2u5u6 Chaj RetOe2nO2eF AURST 009900121 7 RESISTOR 2 05 jt 128 F TCehwelno 28u80 699 0121 AuR65 068321015 7 RESISTOR 100 5x 25 FC TCzu4uoD 6530 01121 CB1015 AURO 068301025 9 RESISTOR 1K SX 25x FC Toweunn 4o09 01121 C81025 AUROA 008301025 9 RESISTOR 1K 5x 25 FC TCmounn eoon atizi 81025 AuRBO 064341015 7 RESISTOR 100 Sy 25 FC TCMesnoz S50n otii C81015 AGRT 6 0683w 635 1 RESISTOR 10K 5 25 FC TCweu00 700 oji2i C81035 AURIT 06A3w2225 3 RESISTOR 2 24 5 25 FC TCmwanose700 oti2i C82225 AURIOL 069 BeuuSy a 3 RESISTOR 402 1 125 amp F TCedewinu 24546 Chel
241. odel 3335A 20 9 MHz hp Model 3325A is acceptable except for Amplitude Range 60 toj Phase Noise and Spurious Performance Tests 13 dBm Phase Noise 70 dBc 20MHz Spurious 75 dBc Unbalanced 50 ohm P 3336C only hp Model 8721A Directional requency Range 1 to Couplers 20 9 MHz Directivity 40 dB 75 ohm P all models hp Model 8721A with Option 008 Frequency Range 1 to 20 9 MHz Directivity 40 dB Unbalanced Directional Couplers are also part of Transmission Refiecticn kits 50 Q Transmission Reflection Kit hp Model 11652A 75 Q Transmission Reflection Kit hp Model 11652A with Option 008 4 7 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C Table 4 2 Recommended Test Equipment Cont d REQUIRED FOR RECOMMENDED MODEL INSTRUMENT CRITICAL SPECIFICATION Balanced 124 ohm Directional Frequency Range 01 to Couplers 10 9 MHz Directivity gt 40 dB 150 ohm Frequency Range 01 to 20 9 MHz Directivity gt 40 dB Output Voltage Output Current 20 mA DC Power Supply Double Balanced Input Output Z 50 ohm Mixer Frequency Range 1 to 20 9 MHz Attenuators Attenuation 10 dB fixed VSWR s 1 02 dc to 20 9 MHz input Output Z 50 ohms Attenuation O to 70 dB Input Output Z 50 ohm Certification required at 1 MHz 10 MHz 20 9 MHz Frequency Ran
242. odel 3336 has two leveling modes Normal and Fast with different settling times The settling times are nominally 250 ms for the Normal mode and 1 ms for the Fast mode At turn on the instrument is in the Normal Leveling Mode and this is the operating mode that should be used unless the advantage of faster settling time is needed One advantage of the Fast Leveling Mode is improved flatness of frequency sweeps above 10 kHz Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation 3 9 Operation Model 3336A B C NOTE Use discretion when using the Fast Leveling Mode below 10 kHz At frequencies below 10 kHz the Fast Leveling circuit responds to the instantaneous amplitude changes of the output signal resulting in distortion and degraded amplitude accuracy Asa war ning F bound Err will be displayed when frequencies below 10 kHz are entered while in the Fast Leveling Mode 3 51 Amplitude Leveling Mode Selection To change from one leveling mode to the other press the BLUE shift key followed by The light to the lower left of this key will be on when the instrument is in the Fast Leveling Mode Fast Leveling Amplitude Modulation and Amplitude Blanking are mutually exclusive operating modes That is the instrument cannot have Fast Leveling Amplitude Modulation or Amplitude Blanking enabled at the same time For example if the instrument is in the Fast Leveling Mode when
243. on ATOR INSIDE II O X DRIVE Output Supplies a O V to gt 10 Vdc linear ramp during frequency sweeps Does not reset after single sweep until SINGLE key is pressed Paragraph 3 81 Z BLANK Output Supplies a TTL low level during fre quency sweeps capable of sinking current from a positive source Paragraph 3 71 MARKER Output Supplies a TTL high to low level tran sition at the programmed Marker Frequency Oniy oc curs during linear sweep up Paragraph 3 83 AC Line Fuseholder Contains the line fuse Use a 1 Amp fuse for 100 120 volt operation Use a Amp fuse for a 220 240 Volt operation Paragraph 3 99 DO NOT USE SLOW BLOW FUSES AC Line Input Connector Accepts power cord supplied with the instrument HP IB Connector Used to interface the instrument with the Hewlett Packard Interface Bus HP IB This connector accepts metric threaded cable lockscrews only Metric lockscrews are black anodized Figure 2 3 HP IB Address Selection Switches Binary weighted switches that set the HP IB talk and listen Address of the instrument Preset to 14 at the factory Paragraph 2 15 LON Switch When set to LON the instrument will Listen ONLY to messages from the HP IB The in strument s transmit capabilities are disabled Air Filter Cleans air circulated through the instrument for cooling Check and clean this filter periodically Paragraph 3 101 0
244. on See introduction to this section for ordering information Indicates factory selected value Guaranteed 888 88 SOURCE www artisan scientific com 6 13 Table 6 3 Replaceahle Parts Reference HP Part Descripti Mfr s fr Part Number Designation Number escription Code Mfr Pa e AyR2H5 62824455 b RESISTOR 536 1 125A F TCunouton C 1 8 TO 536R F AuR266 ATST n2R3 6 1 RESISTOR 2X 1 125 F TCaoe ion Cue 1 8 TO 2001 F AuRebT nTSTenauS 2 3 RESISTOR 13K 1 1254 F Tledsei to 2546 CGu1 SeTOwi J02 F AuR268 D amp 9BeTORT 9 1 RESISTOR 9 8X 1 125a F TCROe 25 19701 MPUCL Q TO TETI OF AuR268 210nea56T a 1 RESISTORSTAHR 2x 10 C TOPRADJ TRV 210020567 AuR TO 0757 0430 5 RESISTOR 2 21K 1 125n F TCmOeelno C e1 eTO 2211eF AuR2TI aoPA sL B 6 1 RESISTOR OK 1 125x F TCane 2s 28480 0698 6625 AuReT 075T n27T 8 RESISTCR 49 9 1x 125 F TCugemtan 24546 Chel RaT eNO 20F AgReTY 0T5Tep2T3 u RESISTOR 3 01K 1x 125 F TCarezino 2u84b C4et SB eT O03 IEF AuRata 9757 0045 2 RESISTOR 13K 1 1257 F TCene ino Chel BeTOm13020F AuR2TS 069823161 9 RESISTOR 38 3K 1 1254 F TCs eelO C e1 8eTO y832 F AUR2TE ATST 0465 6 RESI
245. ons and the second starts a single sweep d At the end of the sweep the dc voltmeter should read 10 5 Vdc 05 V If the voltmeter reads less than 10 5 Vdc adjust A4R6 slightly clockwise If the voltmeter reads more than 10 5 Vdc adjust A4R6 slightly counterclockwise NOTE The voltmeter will not respond directly to the adjustment of A4R6 The effect of the adjustment can only be seen after another single sweep e Press the SINGLE key twice to execute another single sweep f Readjust A4R6 and execute single sweeps as necessary until the end voltage is 10 5 Vdc 05 V g Check the decay rate of the X Drive voltage The final voltage should decay at less than 10 mV second Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Adjustments A5 A15 A25 Bottom View BEHIND FRONT PANEL Figure 5 2 Location of Printed Circuit Assemblies 5 13 5 14 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE w Model 3336A B C Replaceable Parts SECTION VI REPLACEABLE PARTS 6 1 INTRODUCTION 6 2 This section contains information for ordering replacement parts Table 6 3 lists parts in alphanumeric order of their designators and indicates the description hp Part Number of each part together with any applicable notes and prov
246. or products and chemical analysis businesses are now part of Agilent Technologies We have made no changes to this manual copy The HP XXXX referred to in this document is now the Agilent XXXX For example model number HP8648A is now model number Agilent 8648A About this Manual We ve added this manual to the Agilent website in an effort to help you support your product This manual provides the best information we could find It may be incomplete or contain dated information and the scan quality may not be ideal If we find a better copy in the future we will add it to the Agilent website Support for Your Product Agilent no longer sells or supports this product You will find any other available product information on the Agilent Test amp Measurement website www tm agilent com Search for the model number of this product and the resulting product page will guide you to any available information Our service centers may be able to perform calibration if no repair parts are needed but no other support from Agilent is available i Agilent Technologies Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com CA cxnso SERVICE MANUAL MODEL 3336A B C SYNTHESIZER LEVEL GENERATOR Serial Number 1930A00101 3336A 1931A00101 3336B 1932A00101 3336C IMPORTANT NOTICE This manual applies to instruments with the above serial numbers and greater As changes are ma
247. ore when a controller addresses a device it also specifies whether the device will talk or listen Some controllers require a decimal equivalent of the talk and listen addresses called the DEVICE ADDRESS The factory presets the device ad dress automatically assigning talk and listen addresses to Device Address 4 Talk Address D Listen Address The device address may be changed if desired see Section II of this manual Actually there is no reason to change it unless another device with the same address is added to the system 3 115 Abridged Description of the HP IB 3 116 The HP IB consists of 16 active signal lines that are used to interconnect up to 15 devices e g instruments The 16 signal lines are organized according to function The catagories are DATA HANDSHAKE and GENERAL INTERFACE MANAGEMENT lines The structure of the HP IB is illustrated in Figure 3 2 e g calculator e g digital voltmeter e g signal generator e g tape reader DEVICE A DEVICE B DEVICE C DEVICE D TALKS LISTENS TALKS AND LISTENS LISTENS ONLY TALKS ONLY AND CONTROLS TOOTHER DEVICES BUS MANAGEMENT 5 signal lines 3 signal lines DATA INPUT OUTPUT 8 signal lines Figure 3 2 General Interface Management Lines Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3 117 Data Lines Eight DATA lines are used to carry
248. orm the in struction The advantage of Mode I is that it is less complicated to use but as your system sophistication increases the advantage of faster programming time makes Data Transfer Mode 2 important b Data Transfer Mode 2 The hp 3336 accepts and stores a string of Program Instruc tion Codes in an interrnal buffer when it is in Data Transfer Mode 2 These codes are NOT processed until the buffer is full 48 characters or the EOS End of String character is received The advantage of Data Transfer Mode 2 is that after a string of Instructions is sent to the hp 3336 at the fastest rate the instrument can accept them 150 200 psec per character communication can take place between other devices on the bus A Busy flag encoded into bit 7 of the Status Byte indicates when the instrument is Busy processing a string of Instructions The instrument can NOT accept Data Messages during the time it is Busy If a string longer than 48 characters is sent the instrument will hold up the bus until the first 48 characters are processed and the remaining characters are accepted Therefore to realize the maximum effectiveness a program string longer than 48 characters should be divided and an EOS character sent after or at a convenient place before the 48th character Data Transfer Mode 2 must be remotely programmed The instrument will re main in Mode 2 until Mode I is programmed or the POWER switch is set to STBY 3 157
249. p Model 10007B a Set the 3336 output frequency to 5 001 000 Hz b Connect the spectrum analyzer to test point A21TP11 using a 1 1 probe c Manually tune the spectrum analyzer to the 1kHz component It may be necessary to misadjust A21R76 to find this signal however once it is found the analyzer will not have to be retuned d Adjust A21R76 until the 1 kHz signal is at its minimum amplitude e Change the 3336 frequency to 5 000 100 Hz f Adjust A2IR74 until the 1 kHz signal is at its minimum amplitude g Change the 3336 frequency to 5 000 001 Hz h Adjust A21R88 until the 1 kHz signal is at its minimum amplitude i The current sources that have been adjusted are API 1 API 2 and API 4 API 3 and API 5 are not adjustable 5 15 Analog Phase Interpolation API Spur Adjustment 5 16 This procedure minimizes the API 100 kHz spurs Required Equipment synthesizer hp Model 3335A impedance matching pad hp Model 85428B spectrum analyzer hp Model 141T 8552B 8553B DVM hp Model 3466A or hp Model 3455A 1 MHz low pass filter TT Electronics Inc Model J903 a Set up the 3335A as follows amplitude eese nnn 47 00 dBm 75 ohm output freguency 20 MHz b Set up the 3336 as follows amplitude 10 dBm freguency 20 MHz c Connect the DVM and adjust the phase of the 3336 to obtain 0 volts 10 mV at the output of the filter as shown in
250. per year 20 to 30 C Warm Up Time 30 minutes AMPLITUOE Range Model 3336A 75 ohm output 150 ohm output 600 ohm output Model 3336B 75 ohm output 124 ohm output 135 ohm output 600 ohm output Model 3336C 50 ohm output 75 ohm output 150 ohm outputs after 30 minutes warmup u 72 99 to 7 00 dBm 78 23 to 1 76 dBm 72 99 to 7 00 dBm 72 99 to 7 00 dBm 78 23 to 1 76 dBm 78 23 to 1 76 dBm 72 99 to 7 00 dBm 71 23 to 8 76 dBm 72 99 to 7 00 dBm Absolute Accuracy specified at 10 kHz for the 50 75 and 600 ohm outputs specified at 50 kHz for the 124 135 and O5 dB for the top 9 99 dB of amplitude range 20 to 30 C O8 dB for the top 9 99 dB of amplitude range O to 55 C Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com 4 1 Performance Tests 42 Table 4 1 Specifications Cont d Flatness referenced to amplitudes at 10 kHz for the 50 75 and 600 ohm outputs referenced to amplitudes at 50 kHz for the 124 135 and 150 ohm outputs Model 3336A 10Hz 200 10K 5OK 109K 2 09M 20 9MHz 75 obm output 1 dB t 07 dB with Option 005 150 ohm output 600 ohm output Model 3336B 10Hz 200 10K 50K 109K 2 09M 10 9M 20 9MHz 75 ohm output 1dB 07 dB with Option 005 124 ohm output 15dB 1dB 135 ohm output 12 dB 600 ohm output 25 dB Modei 3336C 10Hz 20 9
251. put 25 dB 200 Hz to 109 kHz 3336C 50 ohm output dB 07 dB 10 Hz to 20 9 MHz 75 ohm output 1 dB 07 dB 10 Hz to 20 9 MHz NOTE Specifications in parenthesis apply to instruments with Option 005 Required Equipment 75 ohm 5 V Thermal Converter DC Voltmeter hp Model 11051A H07 hp Model 3455A 4 14 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Impedance Matching Pads 3336A 150 to 75 ohm RI lt 75 ohm 1 600 to 75 ohm RI 2225 ohm 1 R2 300 ohm 1 3336B 124 to 75 ohm RI 358 ohm 1 R2 62 ohm 1 135 to 75 ohm R1 675 ohm R2 67 5 ohm 2 x 135 600 to 75 ohm RI 225 ohm 1 R2 300 ohm 1 3336C 50 to 75 ohm Performance Tests hp Part No 0698 7363 hp Part No 0757 0980 hp Part No 0698 6319 hp Part No 0698 3242 hp Part No 0698 6800 hp Part No 0698 4194 hp Part No 0698 7364 need 2 hp Part No 0757 0980 hp Part No 0698 6319 hp Model 85428B a Connect the equipment as shown in Figure 4 3 Connect the thermal converter directly to the 3336 DUT 75 ohm output If this is not possible use the shortest cables available Use the appropriate impedance matching pad between the other 3336 outputs and the 75 ohm thermal converter b Set the frequency and amplitude of the 3336 to the values in the following table The 10 kHz measurement must be taken first because the thermal conve
252. qual to the difference of the output level limits For example when changing from the 50 ohm to the 75 ohm output the output level will decrease 1 76 dB Conversely expect the level to increase when changing back to the 50 ohm output 3 20 SYNC OUTPUT 3 21 This rear panel output supplies a TTL level square wave for synchronizing other in struments to the signal from any front panel output The phase relationship between the front panel signal and the Sync signal is always constant with the transition between levels occurring at the zero crossing of the front panel signal 3 22 When the SYNC Output is terminated with 50 ohms the Sync Signal levels are Low Level lt 40 2 V High Level z 41 2 V NOTE If the SYNC Output is connected to a high impedance load the voltage levels will be approximately twice the values given The im proper termination of a 50 ohm system however may cause ring ing at the positive and negative transitions 3 23 EXT REF INPUT 3 24 The Model 3336 s reference oscillator may be phase locked to an external frequency standard transferring the standard s frequency accuracy and aging rate to the Model 3336 The input signal level must be from 0 dBm to 20 dBm 50 ohm and the frequency must be within 10 parts per million of 10 MHz or a submultiple of 10 MHz down to 1 MHz 10 MHz 5 MHz 3 3333 MHz 2 5 MHz 1 MHz The EXT REF annunciator will light con tinuously when the instrument and an e
253. r between the 10 MHz OVEN Output and the EXT REF Input f Measure the frequency again and enter the reading on the Performance Test Record hp 3336 DUT Z if f aaa fal 32223 Jou OO x d Ton ELECTRONIC COUNTER A HI Z E Sohn 75ohm FEEDTHRU j AH Figure 4 1 Frequency Accuracy Equipment Set Up 4 14 Absolute Amplitude Accuracy 4 15 This performance test verifies that the hp Model 3336 meets the Absolute Accuracy specification in Table 4 1 Specification Accuracy applies to the top 9 99 dB of amplitude range 20 to 30 C 3336A 75 ohm output 150 ohm output 600 ohm output 75 ohm output 124 ohm output 135 ohm output 600 ohm output 50 ohm output 75 ohm output 3336B 3336C Required Equipment AC Voltmeter Terminations all 0 1 or better 3336A 75 ohm 150 ohm 600 ohm 75 ohm 124 ohm 135 ohm 600 ohm 50 ohm 75 ohm 3336B 3336C 4 12 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com 05 dB at 10 kHz 05 dB at 50 kHz O5 dB at 10 kHz 05 dB at 10 kHz 05 dB at 50 kHz 05 dB at 50 kHz 05 dB at 10 kHz 05dB at 10 kHz 05 dB at 10 kHz HH HH HH RH EF hp Model 3455A with Option 001 average responding hp Model 11094B hp Part No 0757 0715 hp Part No 0698 5405 hp
254. rage Responding Converter Accuracy 05 or hp Model 3490A Resolution 6 digits ac Function Ranges 1V 10V 100V Accuracy 15 at 10 and 50 kHz Resolution 5 digits Wave Analyzer Frequency Range 10 Hz to V P A hp Model 3581A or 3581C 50 kHz Amplitude Accuracy 5 dB Spurious Response lt 80dBc Y Axis output Synthesizer Frequency Range 200 Hz to P hp Model 3335A 20 9 MHz hp Model 33254 is acceptable except for Amplitude Range 60 to Phase Noise and Spurious Performance Tests 13 dBm Phase Noise 70 dBc Spurious 75 dBc Unbalanced 50 ohm P 3336C only hp Mode 8721A Directional Frequency Range 1 to Couplers 20 9 MHz Directivity 40 dB 75 ohm P all models hp Model 8721A with Option 008 Frequency Range 1 to 20 9 MHz Directivity 40 dB Unbalanced Directional Couplers are also part of Transmission Reflection kits 50 0 Reflection Transmission Kit hp Model 11652A 75 Reflection Transmission Kit hp Model 11652A with Option 008 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com General Information INSTRUMENT System Voltmeter 1 MHz Low Pass Filter 15 kHz Low Pass Filter 500 Hz 3500 H2 Bandpass Fiiter High Frequency Probe Signature Analyzer Minimum Loss Impedance Matching Pads Terminations Model 3336A B C Table 1 2 Recommended Equipment List Cont d CRITICAL
255. re that the worst case is 50 dB on the screen 70 dB below the signal 5 21 10 2 Vdc Reference Voltage Adjustment 5 22 This procedure sets the dc reference voltage used in the DAC and the leveling loop Required Equipment dc voltmeter hp Model 3455A a Connect the dc voltmeter to test point A4TP208 b Adjust A4R269 until the dc voltage at test point A4TP208 is 10 202V 001V 5 23 Digital to Analog Converter DAC Offset Voltage Adjustment 5 24 This adjustment compensates for the offset voltage in the DAC Required Equipment dc voltmeter hp Model 3455A a Connect the dc voltmeter to test point A4TP AMPL b Set the output amplitude to maximum 8 76dBm 50 ohm output or 7 00 dBm 75 ohm output c Adjust A4R40 located between A4J4 and A4J9 labeled DAC OS until the dc voltmeter reads 10 000V ImV 5 25 Leveling Loop Amplifier Zero Adjustment 5 26 This adjustment compensates for the voltage offsets of the leveling loop amplifier Required equipment oscilloscope hp Model 1740A Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Adjustments a Remove cable W24 from A4J24 b Place jumper A4TP207 located midway between A4J2 and A4J23 in the test position away from the A3 assembly c Place switches A4S1 and A4S2 located beside A4J2 to the test position away from the A3 assembly d Connect an osci
256. requency reference availalble The hp 3336 aging rate is specified at less than 5 x 10 6 per year The hp 3336 with Option 004 aging rate is specified at less than 5 x 10 8 per week 3 110 HP IB Operating Principles 3 111 Talker Any device that can when addressed send over the HP 1B is a TALKER Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C The hp 3336 is a talker since it can send messages indicated its operating state and the values of all its programmable functions 3 112 Listener Any device that can when addressed receive over the HP IB is a LISTENER The hp 3336 is a listener since it can receive messages that program its func tions Obviously it is possible for a device to be both a talker and a listener though not at the same time 3 113 Controller The device that directs which device will talk and which device or devices will listen is the CONTROLLER The system controller usually a calculator or computer is the active controller most of the time However it may direct another device to become the active controller The system controller is the only device which can unconditionally assume control of the bus 3 114 Addressing The active controller directs which device will talk and which device or devices will listen by specifically ADDRESSING those devices Each device has a talk ad dress and a listen address Theref
257. required hp Part No 15582 60020 2 required hp Part No 5060 4444 hp Part No 1250 1283 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C General Information 1 23 OPTIONS 1 24 The following options are available for the Model 3336 Synthesizer Level Generator Option 001 Special Output connectors Model 3336A and B only See Paragraph 1 15 Option 004 High Stability Frequency Reference Option 005 High Accuracy Attenuator Option 907 Front Handle Assembly Option 908 Rack Mount Flange Kit Option 909 Rack Mount Flange Kit Front Handle Assembly Option 910 Additional Operating and Service Manual Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C SECTION Il INSTALLATION 2 1 INTRODUCTION 2 2 This section contains instructions for installing and interfacing the Model 3336A B C Synthesizer Level Generator Included are initial inspection procedures power and groun ding requirements line voltage selection environmental requirements installation instruc tions HP IB connection procedure and instructions for repackaging for shipment 2 3 INITIAL INSPECTION 2 4 Inspect the shipping container for damage If the shipping container or cushioning material is dam
258. rious Signals 4 29 Amplitude Modulation Envelope Distortion 4 31 Phase Modulation Linearity 4 33 X Drive Linearity 4 35 Integrated Phase Noise 4 37 4 12 Frequency Accuracy 4 13 The frequency accuracy of the 3336 is not specified However the aging rate is A standard 3336 should pass this test one year after the frequency has been calibrated A 3336 with Option 004 should pass this test one week after the frequency has been calibrated Specification Aging Rate 5 x 10 6 per year 20 to 30 C 5 x 10 8 per week Option 004 Required Equipment Electronic Counter hp Model 5328A with Option 010 75 ohm Feedthru Termination hp Model 11094B a Connect the equipment as shown in Figure 4 1 b Set the 3336 DUT output amplitude to 7 00 dBm 75 ohm output Set the output frequency to 20 MHz If the 3336 has Option 004 disconnect the adapter between the 10 MHz OVEN Output and the EXT REF Input c Set the electronic counter to measure frequency with 1 Hz resolution On the hp 5328A the counter will overflow however the accuracy of the measurement is not affected 4 11 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C To determine the overflow digit measure the output frequency with 1 Hz resolution d Enter the counter reading on the Performance Test Record e If the 3336 has Option 004 reconnect the adapte
259. rmined by changing the resolution to 1 Hz e Adjust A9R7 until the counter reads 20 MHz as accurately as possible The specifica tion is 20 MHz 1 Hz f If A9R7 does not have enough range remove the access screw from the Coarse Fre quency Adjustment on the Oven assembly g Adjust A9R7 to mechanical center and then using a non conductive tool adjust the Coarse Frequency Adjustment until the counter reads 20 MHz as accurately as possible h Replace the access screw and readjust A9R7 5 11 Voltage Controlled Oscillator Range Adjustment 5 12 This adjustment sets the low frequency tune voltage to the VCO and checks the VCO frequency versus tune voltage range Required Equipment dc Voltmeter hp Model 3466A a With the hp 3336 in its turn on condition measure the dc voltage at test point A21TP11 b Set the hp 3336 frequency to 60 MHz Using a non conductive tool adjust A21L162 until the voltmeter reads 3 00Vdc 05V c Set the frequency to 10 kHz The voltmeter should read 10V 2V 5 13 Analog Phase Interpolation API Current Source Adjustment 5 14 This procedure adjusts the API current sources reducing the corresponding API phase modulation sidebands to their minimum value 5 3 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Adjustments Model 3336A B C Required Equipment Spectrum Analyzer low frequency hp Model 3580A 1 to 1 Probe h
260. rt Description Mfr Part Number Designation Number D senp Code P b uRISS 075703220 3 RFSISTOR 1X IX 125w F TCadewtae C el BeTOelo01eF AuR SS arson a RESISTOR 5 1 5x 25a FC TCmeacu S00 otis cesics A4R467 080847332 a PESTSTCR IM 1X 12 4 F TCaheelon 28080 069827332 AuRISA DRA Re 2265 RESISTOR 22v Sx 254 FC TCewogozet2nn otal C32255 AuRISS 07872272 s RESISYOZ 200K ix l25A F TCmouw100 23546 Chel BeTOW2003 F Aue ton 178760280 3 RESISTERE IX dy 025 F TCaD elon 24S 6 C e1 8e Tel DOL eF A4P 161 978709273 4 a RESISTOR 3 01X 1x 1284 F TCsnselna 24640 ChotzhuTOSYolleF saki n 275 7enate 7 1 RESISTOR Si ty 125 F TCa0se100 20546 Cel BoT 0051 ReF AUPRL OS 975 7enua2 a 3ESISTCR LOK 1g 125 F TCunsejon 29845 Caet 8eTo i002 F AuRIAU 757 n280 a RESISTO 1 IX 12Sa 7020 2100 245406 C4e1 BeTaet 0teF 448165 078701005 b RESISTOR 100K 3 1257 F YOn ice 24546 Cae1 BeTOe100 Se F AyRt bb n757 2277 8 RESTSTO9 49 0 1x 1258 F TCaa 24546 Cuwi AuTQoudIZEF W 535 1 RESISTOR eSuk ix 126K F TOWO 28480 069B8e8345 auRany A 569841951 s a RESISTOR 10K MATCHED TO A4R204 28480 069893951 A4R202 0698 4450 1 1 RESISTOR 324 1 28480 0698 4450 A4R202 0698 4424 9 1 RESISTOR 1400 1 28480 0698 4424 AuR203 DeA3e1065 7 1 RESISTOR 10M Sy 2 4 FC TCawogozesion atii ca1065 AuRgnu 069823951 s RESISTOR 10K MATCHED TO A4R201 28480 009Ae3951 449205 695 39652 5 a RESISTOR 499K MATCHED TO A4R206 28480 009803952 A R208 009803952 RESISTOR 499K MATCH
261. rter voltage at this fre quency will be used as a reference for the other frequencies OUTPUT FREQUENCIES 3336A 75Q 10 Hz 100 kHz MHz 10 MHz 20 9 MHz 1502 10 kHz 100 kHz 1 MHz 2 09 MHz 6002 200 Hz 109 kHz 3336B 750 10 Hz 100 kHz MHz 10 MHz 20 9 MHz 1249 10 kHz 100 kHz MHz 10 9 MHz 1350 10 kHz 100 kHz MHz 2 09 MHz 6002 200 Hz 109 kHz 3336C son 10 Hz 100 kHz MHz 10 MHz 20 9 MHz 759 10 Hz 100 kHz 1 MHz 10 MHz CONVERTER AMPLITUDE VOLTAGE 5 00 dBm 0 487 V 1 50 dBm 0 230 V 6 50 dBm 0 205 V 5 00 dBm 0 487 V 1 50 dBm 0 209 V 1 50 dBm 0 218 V 6 50 dBm 0 205 V 8 50 dBm 0 377 V 5 00 dBm 0 487 V 20 9 MHz 4 15 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C 4 16 hp 3336 DUT DC VOLTMETER loocc 229 gescccl aaa io fou o3 0 a aaa SEO 3 2la22o223 4 3 3 IMPEDENCE MATCHING PADS i AS REGUIRED do n 5V 75 OHM THERMAL CCNVERTER IMPEDANCE MATCHINS PADS 124 AND 135 TO 75 OHM 155 TO 75 OHM 6979 T9 75 OHM e R1 BALANCED R 750 BALANCED 750 BALANCED 7585 IMPEDANCE UNBALANCED IMPEDANCE UNBALANCED IMPEDANCE UNBALANCED R2 R Re Figure 4 3 Amplitude Flatness Equipment Set Up c Allow time for the thermal converter to settl
262. s HP IB This section describes how the Model 3336 responds to specific messages and how Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation to implement these messages over the HP 1B Directions to interface the instrument with an HP 1B system are given in Section ll Since remote operation parallels manual front panel operation the operator should be thoroughly familiar with the front panel operation of the instrument before attempting to operate it via the HP 1B 3 106 The Hewlett Packard Interface Bus The Hewlett Packard Interface Bus referred to as the HP 1B from now on isa multi wire parallel bus interconnecting up to 15 devices pro viding a means of communication between these devices The ability to communicate bet ween devices program and coordinate instrument operation transfer measurement data and manage the system create new and powerful capabilities such as unattended operation data manipulation and storage automatic generation of permanent records by using peripherals such as plotters and printers the capabilities created by the coordinated operation of two or more devices In fact it is not unusual to see all these capabilities used in a single application of the HP 1B NOTE HP IB is Hewlett Packard s implementation of IEEE Std 488 1975 Standard Digital Interface for Programmable In strumentation 3
263. san Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Reference Designation 46334 46R55 A6U1 ABLI2 A6U3 ABU4 46U5 AbUb 4607 ABUS Aelia 46411 460u12 4608143 AbUtu ABUIS 46U16 AbUIS Table 6 3 Replaceable Parts HP Part Descripti escription Number p Code 0683 1825 7 RESISTOP 1 8 5x 254 FC TCmwatos 700 0683 4825 7 RESISTOR 1 8x 5 25K FC TCw u00 4700 01121 tAtOw0140 9 NETWORKSRES deSIP22 0k O v x 3 91637 0643 1035 1 RESISTOR 10K 5 25 FC TCuwaoos on ora 058321525 9 2 RESISTOR 3 6K 5x 254 FC TCawaons 700 01121 06583 21525 9 RESISTOR 3 6K 5x 25a FC TCmewuons 70n 21121 1810 0229 5 1 NET amp ORKePES BeSIP310 0 OHM x 7 1121 1810 0055 5 1 NETWORK RES 9eSIPIU OK OMY x 28480 0683 1515 2 t RESISTOR 31121 0683 1035 t RESISTOR 01121 0598 5519 8 1 RESISTOR 15K X 125w F TCense25 28480 059920107 9 1 RESISTOR 4 75K x 125 amp F TCensm s 28480 0883 5115 5 a RESISTOR 510 5x 254 FC TC olr 6683 5115 6 RESISTOR 510 5y 01121 0583 1835 9 1 RESISTOR 18K 5 25 FC TCuouon s BOn ant n 181020136 3 1 NETWORK RES jouSIP MULTIeVALUE 28480 181020207 7 1 NETMORK RES BegIP3 3K OMM x 7 28480 058321035 D RESISTOR 10K 5x 254 FC TCanunos ton ant t 053 5115 6 RESISTOR 510 5x opted 0853 5415 6 RESISTOR 510 54 254 FC TC 01181 1818 1111 2 1 IC MEMORY ROM 28480
264. scientific com Appendix A To cause simultaneous action in all devices capable of responding BUS MANAGEMENT LINES IFC SRQ REN EOI sent on Data lines T F X T X BS La universal Group Execute Trigger 101g ATN To cause simultaneous action in selected devices First BUS MANAGEMENT LINES IFC SRQ REN EOI de rl sequence on Data lines T F X T X U 6 ATN L device 2 listen address device 1 listen address controller talk address universal unlisten 077g Second BUS MANAGEMENT LINES ATN IFC SRQ REN EOI sent on Data lines BS F F X T x universal Group Execute Trigger 010g Figure 3 A 9 Trigger To send the REOUIRE SERVICE message BUS MANAGEMENT LINES ATN IFC SRQ REN EO X X T X X Figure 3 A 10 Require Service Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A To PASS CONTROL of the HP IB from one controller to another First BUS MANAGEMENT LINES ATN IFC SRQ REN EO as ali Data lines U 9 T F X T X ma address of controller to receive bus control talk address of controller giving up bus control universal unlisten 077g Second BUS MANAGEMENT LINES ATN IFC SRQ REN EOI HT F F X T X universal Take Control 011g sent on Data lines Figure 3 A 11 Pass Control
265. scu 0160 0352 CAPACITOR FXD SiQPF wSx SoavDC ICA zauan nienean go2 ASCO 0160 3847 9 CAPACITOS FXD 01S5UF e 20X SHVOC CER 28484 015093847 ASC7 0160 2202 o 1 CAPACITOR FXO 1000F SX 360v0C ICA 28480 0180 2204 asce 0180 0228 6 1 CAPACITDR PXD 22UFeet X 15yDC TA 0289 1500226x901582 n 0160 3558 9 CAPACITOR FXD 1UF e 20X SOvOC CER 28080 0160 3558 ASCH1 01bnwg174 9 1 CAPACITOReFXO 47UF 80 020K 25vOC CER 28480 alonwgt74 asc 014020194 8 1 CAPACITOReFXO SOPF s 5X 300VOC VICA 72136 DMISESenJOSODNVICR AMCIN 0100 0199 s gi CAPACITORSFKO 240PF 405K SaoVOC MICA 72136 OV1SF201J0300 V1CR ASC 14 Olede2264 2 2 CAP amp CITOReFXO 20PF se5X SANVOC CER f4e30 28480 0180 2284 LELAI 016003847 9 CAPACITOReFXD n1SUF te20x SOVDC CER 28u80 0160 1807 ACL 916005847 9 CAPACITOR FXO A1SUF ee2ox SavOC CER HI 0160 3847 AJCLA otu4nwozou 4 1 CAPACITOReFXO 47PF 8x SOOVOC MICA 72130 DVISEUTOJNSOOKVICA 43019 0160 3847 q CAPACITORePXD o1SUF se20x SovOC CER 28480 CLES GISA AxCat 018080197 a 2 CAPACITOReFXO 2 2UF minx 20VOC TA 56289 1500225x902042 ASC22 118020197 8 CAPACITOR PXO 2 2UF 10x Zavot TA 56289 1500225X902042 43525 01 0e1746 s 6 CAPACITOR FXO SUF sei aK 2nVDC TA 56289 150015649020B2 ASC 2u 6168003558 9 1UF 20x SOVOC CER 28480 016023558 ASC26 0160 3847 9 CAPACITOR FXD 015UF se20x SuvOC CER 28480 16003847 A3C27 0160 3847 9 CAPACITOReFXD 01SUF se20x SOWDC CER 28080 016093847 ASC 28 01603847 9 CAPACITOR FXD 015UF w20x SOyOC CER 28280 016523547 AsC29 016003647 9 CAP
266. sensed that NDAC is high sets DAV high This indicates to the acceptors that data on the DIO lines must now be considered not valid Upon completion of this step one byte of data has been transferred P Source changes data on the DIO lines T4 Tro Ts Acceptors upon sensing DAV High set NDAC low in preparation for next cycle NDAC goes low as the first acceptor sets it low Ts First acceptor indicates that it is ready for the next data byte by setting NRFD high NRFD remains low due to other acceptors driving NRFD low Tio Source checks for error condition both NRFD and NDAC high then places data byte on DIO lines as at Tj Pa Source delays to allow data to settle on DIO lines Trio Ti2 Tii Last acceptor indicates that it is ready for the next data byte by setting NRFD high NRFD signal line goes high Ti Source upon sensing NRFD high sets DAV low to indicate that data on DIO lines is settled and valid Tis First acceptor sets NRFD low to indicate that it is no longer ready then accepts the data Tis First acceptor sets NDAC high to indicate that it has accepted the data Tis Last acceptor sets NDAC high to indicate that it has accepted the data as at T Tie Source having sensed that NDAC is high sets DAV high as at T Ti Source removes data byte from DIO signal lines after setting DAV high Tis Acceptors upon sensing DAV high set NDAC low in preparation for next cycle Note that all thr
267. sten address controller talk address universal unlisten 077g Second BUS MANAGEMENT LINES ATN IFC SRQ REN EOI sequence on Data lines F F X T X Interrogate Program instruction Third BUS MANAGEMENT LINES ATN IFC SRO REN EOI sequence on Data lines T F X T X D 5 laa address of device receiving data hp 3336 talk address universal unlisten 077g Fourth BUS MANAGEMENT LINES ATN IFC SRQ REN EOI sequence on Data lines F F X T F The hp 3336 will return the interrogated information now Bus Management Line EOI will be true concurrent with the last character of a multi byte message The sending device sets this line Figure 3 A 7 Data receive A S Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Appendix A To SERIAL POLL the hp 3336 First BUS MANAGEMENT LINES ATN IFC SRQ REN EO ii M on Data lines T F xX X X CAN D 5 listen address hp 3336 talk address universal Seria Poll Enable 030g universal unlisten 077g Second BUS MANAGEMENT LINES ATN IFC SRQ REN EO send on Data lines F F x x F Status Byte Third BUS MANAGEMENT LINES ATN IFC SRQ REN EOI lt on Data lines T F X X X EM universal Serial Poll Disable 031g Figure 3 A 8 Serial Poll obtaining the Status Byte A 6 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan
268. stment 5 32 This adjustment optimizes the ac feedback in the output amplifier insuring the flattest possible frequency response Required Equipment oscilloscope hp Model 1740A 50 ohm feedthru termination hp Model 11048C 75 ohm feedthru termination hp Model 11094B Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Adjustments a Set the hp 3336 controls as follows Active Output arab obdaja nc pea ERE 50 or 75 ohm Amplitude soccer aa Max 7 00 dBm 75 ohm Sweep Start Freguency 1 MHz Sweep Stop Freguency 20 9 MHz Sweep TIME nan tad iv ei caddies ke ee delili 0 01 seconds SWEEP TI Linear Fast Leveli g cc cide w erore eee ON b Connect the oscilloscope to test point A4TP203 using an ac coupled 10 to 1 probe c Adjust A4C109 using a non conductive tool until the error voltage is reduced to its minimum peak to peak amplitude with no discontinuities 5 33 124 135 150 600 ohm Output Level Accuracy Adjustment 5 34 These adjustments set the absolute amplitude accuracy of the balanced outputs NOTE Perform the 75 ohm Output Level Adjustment before adjusting these output levels Required Equipment ac voltmeter hp Model 3455A with Option 001 or hp Model 3490A termination resistors 124 ohm 3336B only hp Part No 0698 6284 135 ohm 3336B only hp Part No 06
269. t Programming Codes and their binary octal decimal and hexadecimal values are presented in Table 3 3 NOTE When using Data Transfer Mode 2 see Paragraph 3 156 the In terrogate instruction must be placed at the end of the string of Pro gramming Codes or programming errors will occur Only one in terrogating instructing may be sent in each string Table 3 3 Instrument Programming Codes Data Send Binary Decimal Hexadecimal Instruction Code Code Code Interrogation Frequency 01001001 01000110 01010010 01001001 01000110 01000110 Amplitude 01001001 01000001 01001101 01001001 01010000 01001000 Sweep Start Frequency 01001001 01010011 01010100 Sweep Stop Frequency 01001001 01010011 01010000 3 32 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation Table 3 3 instrument Programming Codes Data Send Cont d ASCII Binary Octal Decimal Hexadecimal Instruction Code Code Code Code Code Sweep Marker Frequency 01001001 111 73 49 M 01001101 115 77 4D F 01000110 106 70 46 Sweep Time 01001001 111 73 49 T 01010100 124 84 54 01001001 111 73 49 Output Impedance I 01001001 111 73 49 o 01001111 117 79 4F 01001001 111 73 49 Sweep Type 01001001 111 73 49 S 01010011 123 83 53 M 01001101 115 77 4D Amplitude Modulation State LI 01001001 114 73 49 M 01001101 123 83 53 A 01000001 101 65 41 Phase Modulation S
270. t key indicates the front panel output port to be activated if and when the 21 60 MHz AUX Output is deactivated Any front panel output may be selected at any time NOTE When changing from one output to another expecta level change relative to the different absolute amplitude ranges of each output Paragraph 3 16 3 43 Frequency Entry 3 44 To enter frequency press the FREQUENCY Entry key it is not necessary to press this key if the light in its center is lit indicating that it is already the entry function Next enter the number sequence most significant digit first including decimal point of the desired fre quency and finally press the appropriate Units key MHz kHz Hz Three units keys allow the frequency to be entered in the most convenient form however the instrument always displays the frequency in Hz 3 45 21 60 MHz Aux Output 3 46 This rear panel output is activated by entering frequencies gt 21 MHz and deactivated by entering frequencies below 20 MHz 3 47 Level Entry 3 48 Output levels are entered by pressing the AMPLITUDE Entry key followed by the key if needed the exact number sequence of the desired level most significant digit first including decimal point and the dBm Units key 3 49 Amplitude Leveling 3 50 Internal Amplitude Leveling Internal Amplitude Leveling regulates the output power ensuring accurate output levels throughout the entire frequency range of the instrument The M
271. t our website http www artisan scientific com
272. tate 01001001 111 73 49 M 01001101 123 83 53 P 01010000 120 80 50 Error Codes i 01001001 111 73 49 E 01000101 105 69 45 R 01010010 122 82 52 Amplitude Blanking State l 01001001 111 73 49 A 01000001 101 65 41 B 01000010 102 66 42 Fast Leveling I 01001001 111 73 49 F 01000110 106 70 46 L 01001100 114 76 4C Carriage Return CR 00001101 15 13 D Line Feed LF 00001010 12 10 A 3 162 Data Formats The format of the data that is returned is illustrated in the following paragraphs The characters that are used in the illustrations and their definitions are D ASCII digits through 9 9 ASCII digit 8 zero t ASCII decimal point ASCII minus sign CR ASCII carriage return LF amp EOI ASCII line feed concurrent with EOI message All other characters are the actual ASCII characters used Spaces have been added to the illustrations for operator clarity but are not used by the in strument a Frequency After receiving IFR or IFF the hp 3336 will return its frequency in Hz formatted as follows FR DDDDD DDDDDD HZ CR LF amp EOI For frequencies with more than 3 signifi cant digits after the decimal point or FR DDDDDDDD DDD HZ CR LF amp EOI For frequencies with less than 3 significant digits after the decimal point 3 33 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Operation Model 3336A B C b Amplitude After receiving IAM
273. the reference synthesizer s output amplitude to 4 dBm when testing the 75 ohm outputs f Set the reference synthesizer s output frequency to the test frequency selected in Step c plus 15 Hz g Tune the Wave Analyzer to lock to and measure the 15 Hz signal from the High Fre quency Probe Use a 3 Hz or narrower resolution bandwidth If you have a hp Model 3581A C Wave Analyzer set the controls as follows SWEEP MODE satin isse uper Paneg erred dd odie AMPLITUDE REFERENCE LEVEL INPUT 3581C t kk suae nies e m ata P aka INPUT SENSITIVITY iiseesse seh nha ttu AB OUT Tune to 15 Hz Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C h Create an impedance mismatch factor of two by inserting a feedthru termination bet ween the load port of the directional coupler and the 3336 under test If the output under test is a balanced output create a mismatch by placing a termination resistor across the 3336 output The value of this resistor must be the same as the impedance of the output under test e g use a 50 ohm termination when testing the 50 ohm output i In all cases adjust the wave analyzer s input sensitivity controls until it displays 9 5 dB If the impedance mismatch is a factor of two all the mismatches produced in Step h have a return loss of 9 54 dB j Remove the Feedthru Termination or Termination Resistor
274. to the following frequencies and measure their amplitude relative to the reference level set in Step s IkHz 2kHz 3kHz 4kHz x Enter a Pass of Fail indication on the Performance Test Record This test checked a number of the most important largest spurious signals There may be other spurious signals present however they normally are well within the specification and need not be checked A h p 3336 SPECTRUM ANALYZER HIGH FREQUENCY simol y A 75 50 S MINIMUM LOSS IMPEDANCE MATCHING PAD B hp 3336 seti ren else SPECTRUM ANALYZER LOW FREQUENCY 75N FEEDTHRU TERMINATION EXT REFIN hp 3336 SPECTRUM ANALYZER LOW FREQ p f 500 FEEDTHRU TERMINATION IMHz 4 Low PASS d FIETER DC VOLTMETER l j I Figure 4 10 Spurious Signal Eguipment Set Up 4 33 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Performance Tests Model 3336A B C 4 31 Amplitude Modulation Envelope Distortion 4 32 This procedure verifies that the hp 3336 meets the Amplitude Modulation Envelope Distortion specification listed in Table 4 1 Specification All distortion related sidebands will be more than 30 dB below the first or fundamental sideband
275. tus Bit The Status Bit Message is sent from a device on the bus to the active con troller It communicates the truth state of a predefined condition which may describe a specific instrument function or the entire instrument condition The advantage of the Parallel Poll is that the status of up to eight devices can be checked at the same time The hp 3336 does not respond to a Parallel Poll Refer to the controller documentation or the documentation of an instrument with Parallel Poll capabilities for more information about the Status Bit 3 149 Pass Control The Pass Control Message transfers the management of the bus from the system controller to another device with controller capability in the system The hp 3336 does not have controller capability See the controller documentation or the documentation of a device with controller capability for more information about the Pass Control Message 3 150 Abort The Abort Message is used by the system controller to regain control of the HP IB from the active controller See the system controller documentation for more infor mation about the Abort Message 3 151 Trigger The Trigger Message causes a predefined response in each device receiving it When more than one device receives the Trigger Message the predefined response in all devices occurs simultaneously The hp 3336 does not respond to the Trigger Message See the controller documentation or the documentation of a device capable of respond
276. uality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Phase Modulation Work Sheet A B D Gal 25 0 Syy x1 16 dy 1 yo Ti 200n3 2 9 3y 22 yj Ta 200ns Ga 4 2y 52 y2 T 200ns xa 1 1y ya Y T4 200ns xs 0 Oys 5 Ya Ts 200ns x9 1 lyg Y6 Y5 Tg 200ns Qo 4 2y yz yg T 200ns Ba 9 3yg yg y Tg 200ns 16 4yg Yo vg To 200ns Quo 25 5Y10 Gino 7 Yo T 19 200ns 0 B 110 D Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com X Drive Linearity Work Sheet 4 42 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com PERFORMANCE TEST RECORD HEWLETT PACKARD MODEL 3336A B C Tested By SYNTHESIZER LEVEL GENERATOR Location SERIAL NO Date FREQUENCY ACCURACY 4 12 3336 19 999 900 Hz s 20 000 100 Hz should pass for one year 3336 with Option 004 19999999 0Hz lt Ss lt 20 000 001 0 Hz should pass for one week ABSDLUTE AMPLITUDE ACCURACY 4 14 3336A Full Output Full Output 9 99 dB 75 ohm output 6096 lt lt 6166 1930 lt s 1952 150 ohm output 4716 lt s 4770 1493 s 1510 600 ohm output 1 7242 s s 1 7441 5459
277. ure O to 55 C Relative Humidity 85 O to 40 C Altitude lt 15 000 ft lt 4600 meters Storage Environment Temperature 50 to 65 C Altitude lt 50 000 ft 15 000 meters Power Requirements 100 120 220 240 V 5 1096 48 to 66 Hz 60 VA 100 VA with all options 10 VA standby Size 132 6 mm 5 1 4 in high x 425 5 mm 16 3 4 wide x 497 8 19 5 8 deep Weight 10 kg 22 Ibs net 15 5 kg 34 ibs shipping 4 3 RECOMMENDED EQUIPMENT 4 4 Each performance test lists the recommended equipment to complete that test A com plete list of the equipment used to perform all the tests is provided in Table 4 2 Substitute equipment may be used only if it meets or exceeds the critical specifications listed in the table For this reason some of the test procedures contain discussions of measurement techniques 4 5 OPERATOR VERIFICATION 4 6 A special sub set of the Performance Tests called the Operator Verification is recom mended for a Incoming inspection b General after repair inspection c Instilling high confidence about the instruments operation when time and equipment resources are limited After repair there may be one or more Performance Tests not in this list that will verify that the repair is complete These should also be performed In some cases these additional tests are recommended in Section VIII 4 7 The recommended Performance Tests that comprise the Oper
278. us 3527 01600 1847 016074871 0160 3847 514020191 015023807 0160 3807 0160 4571 0160 847 4905999 grosos 016023847 0160 3807 0100 0206 016083847 016023547 eavoe 018091746 DL 916023807 IU 0180 1746 mwe ou 9160 3879 Vibe 3807 016023847 016003847 016622206 PEPI Otyvesau7 018021746 0150 0228 0160 2205 016020571 2ocwa 016023879 016023847 0160 4000 n160 2208 0160 a1 mou ou 0160 0127 viege 3807 016023847 9160 3847 0160 3547 osoon 0100e0127 016024571 016023476 otbo 4283 016024283 aosan Table 6 3 Replaceable Parts Description PC AggEMALY FF 3 D A CAPACITOR FXO CAPACI TURMFKO CAPACITUR FXD CAPACITOR FXO CAPACI TORSF XD CAPACITOR FXD CAPACITUReF XD CAPACI TOR FxD CAPACITOReFXO CAPACI TOR F xD CAPACI TOR F xD CAPACI TOR F XO CAPACI TOR F XD CAPACI TOR F XD CAPACITOR F xO CAPACITOR FXO CAPACITOReFXO CAPACITOR F xO CAPACITOR FxXD CAPACITOR se AUF CAPACI TURSF CAPACITOR FXD CAPACITOR FXD CAPACI TUR mF XD CAPACITURSF RO SePF e Sx ZOOVOC ICA eO1UF 100m0x SOVDC CER 27UFe 10x 10VOC Ta 1SUFeeinx 20V0C TA S6PF eeSy JOUVDC MICA e1UF Bo 20x SoyDC CER 01UF ei00 U0X SOVDC CER e01UF eto0eox SAVDC CER LAVE Boe20X SOVOC CER 2jyUF e10x 10VOC Ta Q01UF 100 0x SOVDC CER 1PF o 250F SO0vOC CER Tita L6g 0X SOVOC CER 1500PF Sx SOOyDC MICA OLUF 1000 SOVOC CER ASOPF ew2 5x 180VDC POLYP 0PF
279. ution when handling testing and adjusting Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com SAFETY SYMBOLS General Definitions of Safety Symbols Used On Equipment or In Manuals A 4 tp 2 77 ca JL Ki a ae NOTE Instruction manual symbol the product will be marked with this symbol when it is necessary for the user to refer to the instruction manual in order to protect against damage to the instrument Indicates dangerous voltage terminals fed from the interior by voltage exceeding 1000 volts must be so marked Protective conductor terminal For protection against electrical shock in case of a fault Used with field wiring terminals to in dicate the terminal which must be connected to ground before Operating equipment Low noise or noiseless clean ground earth terminal Used for a signal common as well as providing protection against electrical shock in case of a fault A terminal marked with this symbol must be connected to ground in the manner described in the installation operating manual and before operating the equipment Frame or chassis terminal A connection to the frame chassis of the equipment which normally includes all exposed metal struc tures Alternating current power line Direct current power line Alternating or direct current power line The DANGER sign denotes a hazard It calls attention to an operating
280. utonis2 F Ay 068321025 H RESISTOR IK amp X 425 FC TC 21121 C81025 RTS osBimuTUS 8 RESISTOR uT 5x 29 FC TC 01521 CBu o5 are 210083211 f RESISTORSTRMR 1k 40X C TOPRADJ 1 TRN 28480 210063211 RTS OTSTaqua2 M REB STOR 10x 1X 125m F TCSOse100 24546 Cu21 82TO 100 eF Are 2100 3096 6 RESISTOR TRMR 50K 10 C TOPRADJ ITSTRN 32997 32925 1 503 4 6 See introduction to this section for ordering information 30 Indicates factory selected value Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Table 6 3 Replaceable Parts Reference HP Part Descripti escription Mfr Part Number Designation Number p Code art Numbe A21 RTI 068321665 7 RESISTOR 10M 5x 254 FC TC3 900 e1100 91121 C81005 RTA OTSTayaaA 3 1 RESISTOR 28486 0T5T 0488 R79 7STanaut V RESISTOR 24546 Cu21 8eT0e101 F Ral Wor dei 035 1 RESISTOR 10x 5 25a FC TCamu00 e Tov onset C51035 Ra2 168325625 3 t RESISTOR Syok Sy 25 FC TCawuouseT00 01121 C85625 R83 iSfi e2o2s 1 t RESISTOR 2x 5x 25 FC TCawaoozyoToo 01121 CB2025 RBU G15Tay2A9 2 1 RESISTOK 13 3x EX t25 F TC30e 100 19701 MFUC1 8 70 1332 F Rao OTS Toya 39 4 a RESISTOR 6 BIX ty 125 F TCagewioo 24546 Cue1 82T0e681leF RAT 004324705 a RESISTOR 4T 5x 255 FC TCa 900 500 01121 ceaTos Res 210223343 a 1 RESISTORSTRMR 50 10 C TOP ADJ 1 TRN 28080 21
281. variables to single devices wrt 704 FR20 25MH yes Output single characters wtb 704 A m yes E D Input data from a device red 704 A yes Input single characters rdb 704 A yes M Specify addressed and send data in ASCI form cmd 7 2U FR20 25MH yes E Output data to multiple listeners wrt SYN1 SYN2 AM 24 37DB cmd 7 U 1 AM 24 37DB yes We yt Transfer data from device to device cmd 7 D1 yes e Trigger Send a Group Execute Trigger to all devices trg 7 no Sedat pees Send a Group Execute Trigger to selected devices trg 711 no m Clear Clear ali devices k7 yes Clear selected devices clr 704 ce _ yes Remote Enable remote mode on ali devices Device will remote when addressed rem 7 S yes Set remote on selected devices rem 704 yes 7 Local Return selected device to front panel control ici 704 yes Local Lockout Prevent all devices from returning to local mode lo7 oo M yes Clear Lockout Set local mode and disable local Set Local lockout on all devices lol 7 _ H yes Pass Controi Transfer bus management to another controller pet 723 yes Serial Poli Input the Status Byte of a selected Status Byte device rds 704 A yes Abort I O Clear all bus operations and return the bus management to the system controller cli 7 no Require Service Request Service from the controller Originates from the device yes Controllers can send the Requires Service message how
282. ve zero sl Slide zero temperature coxthcrent SPDT Single pole double throw inside diameter ns nanosecondisi 10 9 seconds SPST single pole single throw impregnated nsr not Separately replaceable incandescent Ta a tantalum insulanoniedi Q ohms TC temperature coefficient obd order by description TiO2 titanium dioxide kilohmis 10 3ohms OU outside diameter tog toggle kilohertz 10 3henz tot tolerance D peak trim trimmer inductor pA picoamperelsi TSTR transistor linear taper pc printed circuit loganthmic taper pF picoferadis 10 12 farads vV voltisi piv Deak inverse voltage vacw alternating current working voltage milkampere s 10 3 amperes pio partof var variable megahenz 10 8 hertz pos positionis vdew direct Current working voltege megohmis 10 6 ohms poly polystyrene metal fim pot potentiometer W wants manulacturet p p peak to peak w with mihsecond pom parts per million wiv working inverse voltage mounting prec precision temperature coeficient wo without milkoltisi 107 3 volts long term stability andor tolerance ww Wirewound amerotaradis microsecondis A resistor microvoltisi 10 6 volts Ak rhodium Mylar ms root mean square optimum value selected at factory tot rotary average value shown part may be omitted nanoamperels 10 9 amperes no standard type number assigned normally closed Se selenium selected or special type neon sect sectionis Normally op
283. ward direction into the active hp 3336 output The addition of the 3336 s output signal fc and the small signal fo at the 3336 s output could be considered as the 3336 output signal with one sideband Furthermore this signal the carrier and one sideband is mathematically equivalent to the 3336 output signal the carrier with a pair of AM sidebands and a pair of PM sidebands cancelling on one side of the carrier and reinforcing on the other side The 3336 s amplitude leveling cir cuits will compensate for any amplitude changes and effectively cancel them at the Leveled Node located on the other side of the output termination inside the 3336 Since no AM components can exist at this Leveled Node there will be no AM components reflected either Any reflected AM components seen at the output of the 3336 are solely due to the output termination impedance and hence are a measure of the ON Frequency Return Loss A directional coupler introduces the small signal to the 3336 s output and isolates the reflected signals A diode detector recovers the AM components recall that there are also PM sidebands by demodulating the reflected signals and a wave analyzer tuned to the modulating frequency measures the relative magnitude of this signal and a signal from a known gross impedance mismatch us ed as a reference To insure that the measurement is ON Fre quency Return Loss the frequency difference between fe and fo must
284. witches are located on the rear panel The binary weighted HP 1B address switches thru 5 set the Device address and consequenctly the Talk and Listen address All the possible Device Listen and Talk addresses and the HP 1B address switch positions are shown in Table 2 1 Switch 6 marked Listen Only disables the instruments talk capability This is normally left in the position talk enabled Switch 7 is not used The instrument will display it s Device address for 1 second after press ing the Blue Shift key and then the LOCAL key 2 3 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Installation Model 3336A B C Table 2 1 HP IB Addresses ASC I Code Character Address Switches 5 bit Listen Talk A5 A4 A3 A2 A1 Decima Code SP 0 0 0 0 0 T 00 A 0 0 0 0 1 01 a B 0 0 0 1 0 02 Factory F c 0 0 0 1 1 03 Selected gt D 0 0 1 0 O 04 Address E 0 0 1 0 1 05 amp F 0 0 1 1 0 06 G 0 0 1 1 1 07 H 0 1 0 0 0 08 0 1 0 O 1 09 J 0 1 0 1 0 10 K 0 1 0 1 1 11 E 0 1 1 0 0 12 M 0 1 1 0 1 13 s N 0 1 1 1 0 14 O 0 1 1 1 1 15 Q P 1 0 0 0 0 16 1 Q 1 0 0 0 1 17 2 R 1 0 0 1 0 18 3 S 1 0 0 1 1 19 4 T 1 0 1 0 0 20 5 U 1 0 1 0 1 21 6 V 1 0 1 1 0 22 7 W 1 0 1 1 1 23 8 X 1 1 O o 0 24 9 Y 1 1 0 0 1 25 i Z 1 1 0 1 0 26 1 1 0 1 1 27 1 1 1 0 0 28 1 1 1 0 1 29 1 1 1 1 0 30 Listen Only Address Swit
285. within the following limits Temperature Oto 55 C Relative Humidity 95 at 40 C Altitude 4600 meters 15 000 feet 2 23 Cooling System 2 24 The cooling fan intake and the exhaust vent are located in the rear panel When Operating the instrument provide at least 75 mm 3 inches of clearance at the rear and at least 7 mm inch on all sides of the instrument Failure to allow adequate air circulation will result in excessive internal temperature reducing instrument reliability 2 25 It is imperative that the fan filter be inspected frequently and cleaned or replaced as necessary to permit the free flow of air through the instrument To clean the filter remove the four nuts that secure the filter retainer Remove the filter and flush with soapy water rinse clean and air dry 2 26 Bench Operation 2 27 The instrument has plastic feet attached to the bottom panel The front feet contain foldaway tilt stands for convenience in bench operation The tilt stand raises the front of the instrument for easier viewing of the control panel The plastic feet are shaped to make fullwidth modular instruments self align when they are stacked A front handle kit hp Part No 5061 0089 Option 907 can be installed for ease of handling the instrument on the bench see Figure 2 3 The kit is shipped with the instrument if Option 907 is ordered Otherwise the front handle kit is available separately by its hp part number Artisan Scientif
286. www artisan scientific com 4 47 X ORIVE LINEARITY 4 35 Specification Tolerance Measured Results Step d 10 0105V Yo 20 0105V Yi 30 0105v Yo 409 0105V Y3 50 0105V Ya 60 0105V Ys 70 0105V Y6 80 0105V Y 90 0105V Yg INTEGRATED PHASE NOISE 4 37 Specification gt 60 dB Measured Result 4 48 Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Maintenance described herein is performed with power supplied to the instrument and pro tective covers removed Such maintenance should be performed only by service trained personnel who are aware of the hazards in volved for example fire and electrical shock Where maintenance can be performed without power applied the power should be removed Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com ic Quality Instrumentation Guaranteed 888 88 SOURCE w Model 3336A B C SECTION V ADJUSTMENTS 5 1 INTRODUCTION 5 2 This section contains adjustment procedures required to make the hp 3336 meet its specifications listed in Table 4 1 These adjustments should be performed after repair and when the performance tests indicate a deficiency To identify and locate the individual printed circuit assemblies inside the hp 3336 refer to Figure 5 2 on page 5 13 14 5 3 The equipment required to a
287. xternal frequency reference are phase locked together If they are not phase locked but a signal is present the annunciator will flash on and off Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Model 3336A B C Operation 3 25 10 MHz OVEN OUTPUT Option 004 3 26 This output is available on instruments equipped with Option 004 only Option 004 is a temperature stabilized crystal oscillator with an aging rate specified at 5 x 10 8 per week after 72 hours operation Option 004 is connected to the instrument with a BNC to BNC adapter hp part number 1250 1499 connecting the 10 MHz OVEN Output to the EXT REF Input The EXT REF annunciator will be on continuously when the instrument and Option 004 or any frequency standard are phase locked together If they are not locked but a signal is present the annunciator will flash on and off 3 27 To reduce the warm up time and realize the maximum performance from an instru ment equipped with Option 004 always leave the instrument connected to a power source Power is maintained to Option 004 whenever the instrument is plugged in The warm up time for an instrument equipped with Option 004 is 20 minutes if power has been interrupted for less than 24 hours If however power is interrupted for longer than 24 hours it may take as long as 72 hours before Option 004 will meet its aging rate specification 3 28 The signal at the 10 MHz OV
288. y of destination The serial number plate located on the rear panel is marked at the factory to indicate the selected line voltage To reduce confu sion update this plate every time the line voltage switches are changed Information necessary to change the line voltage selection is in the Power Supply Service Group of the Operating and Service Manual Artisan Scientific Quality Instrumentation Guaranteed 888 88 SOURCE www artisan scientific com Installation 2 1 Installation Model 3336A B C Make sure the correct fuse is installed for the selected line voltage Line Voltage Fuse hp Part Number 100 120 Vac 1 Amp 2110 0001 220 240 Vac A Amp 2110 0012 USE FAST BLOW TYPE FUSES ONLY Using slow blow type fuses or fuse values other than those recommended defeats an im portant protection circuit and will damage the Model 3336 2 10 Power Cable 2 11 In accordance with international safety standards this instrument is equipped with a three wire cable When connected to an appropriate power line outlet this cable grounds the instrument cabinet The type of power cable shipped with each instrument depends on the country of destination Refer to Figure 2 1 for the connector configuration and hp part number of the available power cables Ja di 8120 1351 8120 1369 8120 1689 NA 125V 6A 250V GA ma N TA 8120 1348 a 8120 0698 STO 8 4195 Ut LISTED FOR USE IN THE UNITED STATES OF AMERICA F
289. yequua H TRANSISTCR PAP 10 92 PDs625 x MPBHBL avaz01 125490795 H 3 TRANSISTCR NPN T0w92 PORK SVA MPSHJO A30202 1854 0215 1 1 TRANSISTOR 2N3904 1854 0215 A30203 1854 0215 1 1 TRANSISTOR 2N3904 1854 0215 ASRI e83 4705 8 RESISTOR 07 SX 25w FC TCasu00 500 CB4705 A3R2 n amp 8Reyuy2 7 D RESISTOR 26 1 1x 125w F TCeneejno PYES Set BeTOe26R eF ASRI 0757 0398 a 1 RESISTOR 75 iX 1259 F TCaCeeton Chut BuTO 7SROUF AIRS e5y 2225 3 a RESISTOR 2 2X 5x 256 FC TCgeun0 70 cB2228 4387 069823439 u 6 RESISTOR 178 1x 1254 F TCanemino 24546 Chwi BuTOu178REF ayaa 0757 0397 3 5 RESISTOR 64 1 1x 25w p TCanew10n 24546 Chal BoT OBR I ak 4580 068324715 0 2 RESISTOR 470 Sx 25 FC TC amp eu00 600 01121 C84715 AyRIn 07570401 n 5 RESISTOR 100 1x 125W F TCanewino 24546 Chwis BoTOui01 F 45511 075700397 3 RESISTOR GA 1x 125W F TCanewi n 24546 C e1 8 TO 68R F ASRID 00321245 5 1 RESISTOR 120K Sx 25A FC TCEeAOO 900 niet CB12u5 ARIS 6nyeu725 2 1 RESISTOR 4 7x Sx 25W FC TCseu00 700 01121 CB4725 AyRia 545321025 9 11 RESISTOR x Sx 25s FC TC ott t C81025 AIRIA nbRyet025 9 RESISTOR 1K SX 25h FC TC vit t C81025 AY817 06 3 2225 3 RESISTOR 2 2X Sx 25W FC TCasuno e70 51121 82225 AIRIA O7STenu42 s a RESISTOR 10K ix 125W F TCa0ee100 2u4s46 Chel buTOn1 0020F AVIS 06R3 4045 3 3 RESISTOR 100x SX 25W FC TCs u00 800 21121 C81045 AVR n amp ye1025 9 RESISTOR 1X Sx 255 FC TCEe4UNO eb00 01121 C81025 AY822 075720279 o 1 RESISTOR 3 16X 1x 125W F TC
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