HP 8753D User's Manual
Contents
1. dg622do dg823do 3 Follow the prompts shown on the follow the analyzer display and then press dg625do Installing Your Analyzer 1 23 To Test the Transmission Mode A 1 Connect the equipment as shown and 2 To check the forward transmission mode press PRESET NOTE The test port return for channel 2 press CH 2 cable should have low loss characteristics to avoid a degradation in frequency response at higher frequencies TEST PORT RETURN CABLE dg626do dg627do 3 Look at the measurement trace displayed 4 To check the reverse transmission mode on the analyzer It should be similar to the for channel 2 press trace below NOTE The analyzer display shown below and to the right is an HP measurement trace should be similar to the 8753D Option 011 option 006 display 30 trace below kHz to 6 GHz span The 1 24 Installing Your Analyzer To Test the Transmission Mode s Load Match 1 Connect the equipment as shown and 2 Look at the measurement trace displayed press PRESET on the analyzer It should be similar to the trace below 22 Jun 2802 83 69 68 10 dB MEF O ak TEST PORT RETURN CABLE dg628do 3 To check the reverse reflection mode for 4 If you are ready to start making channel 1 press measurements continue with the next R The measurement chapter Quick Start Learning How to ilar to the trace shown Make Measurements 20 Jun 2002 24 612. Step 4 Output measurement results This step in the procedure shows you how to output the measurement results to a printer For in depth information on creating a hardcopy of the measurement results refer to the Printing Plotting or Saving Measurement Results chapter in the HP 8753D Option 011 Network Analyzer User s Guide 1 Connect a printer to the analyzer as described in the Installing Your Analyzer chapter a ae Figure 2 11 and then create a title for the measurement as shown in w Use an optional DIN keyboard to type the title or m Use the front panel knob and the softkey menu to select each letter of the title Quick Start 2 15 Learning How to Make Measurements when you finish creating the measurement title The title appears on the orner of the analyzer display 3 Press upper 4 Press to set up the analyzer as the controller If you are using an HP IB printer ensure that there is not another controller on the bus Note that this step is not required when using parallel or serial printers 9 Press COPY o create a black and white hardcopy Note If you encounter a problem when printing a hardcopy refer to To Configure an Analyzer with Printers or Plotters in the Installing your Analyzer chapter 28 Jun 2082 04 37 28 CHL 84 log MAG 2 dB REF 6 dB 1 6 956 dB CENTER 125 080 8000 MHz SPAN 100 000 DOO MHz Figure 2 11 Example Measurement Title Measur
3. 5 The stimulus keys 6 The numeric keypad 7 The instrument state keys 8 The PRESET key normalized or read out at specific points along the trace with up to four independent markers per channel allow you to define an appropriate source output signal for the device under test Source frequency may be swept over any portion of the range 300 kHz to 3 GHz or 30 kHz to 6 GHz with option 006 at powers between 20 18 for option 006 and 5 dBm The stimulus keys also allow you to control the start and stop times in the optional time domain mode The choices for sweep time and resolution linear versus logarithmic sweep power sweep number of points and others are also selected here allows you to enter a numeric value for a chosen parameter for example frequency or amplitude Use the keys to the right of the digit keys to terminate the data entry with the appropriate units Use Giga nano M 4 Mega micro k m kilo milli and basic units dB dBm degree second as applicable You can also use the knob for making continuous adjustments to parameter values while the f and II keys allow you to change values in steps allow you to control several functions including instrument preset save recall printer or plotter control time domain transform optional test sequencing and buiit in diagnostic tests sets the analyzer to either a predetermined factory or user defined preset condition See the Pr
4. REFLECTION PORTION dg633do Figure 2 9 Connections for an S 1 Port Measurement Calibration Press I Press SAVE RECALL Press after measuring the three standards o complete the process 2 14 Quick Start Learning How to Make Measurements Step 3 Measure the device Measuring Return Loss 1 Connect your device to PORT 1 2 Terminate any unused port on your device You can do this by either connecting a load to the device s unused port or by connecting the device s unused port to PORT 2 on the HP 8753D 3 Press SCALE REF 4 Press to read the return loss from the analyzer display as shown in Figure 2 10 The device response indicates that the filter and the analyzer impedances are well matched within the frequency range of the filter passband That is the reflected signal is smaller within the filter passband than outside the passband to reposition the trace In terms of return loss the value within the passband is larger than outside the passband A large value for return loss corresponds to a small reflected signal just as a large value for insertion loss corresponds to a small transmitted signal 20 Jun 2882 94 33 48 CHI 84 tog MAG 2 dB REF B dB 1 6 96 dB PT TCL Pe PO O E O O om A RN NR n ASIA HA AA AAA DO O 00 08 10 HERRAN RAN ES E A O E IO CENTER 125 0900 880 MHz SPAN 188 8000 GOA MHz Figure 2 10 Example Return Loss Measurement Trace
5. TEST PORT CABLES ADAPTERS IF INCLUDED EN MEASUREMENT dg631do Figure 2 3 Connections for a Thru Calibration Standard 2 Press the following keys to make a transmission response calibration CAL 3 After the analyzer takes a measurement sweep press 4 To save the measurement calibration press 5 Next choose from the following options selection determines where saved state will be stored E Choose IN memory RY if you want to save the calibration results to the analyzer s m Choose INTERNAL DISK if you want to save the calibration results to the disk that is in the analyzer s internal disk drive m Choose E TERNAL DISK if you want to save the calibration results to the disk that is in an external disk drive that is configured to the analyzer 6 Press RET URN to save the measurement calibration 2 6 Quick Start Learning How to Make Measurements Note Example procedures for all types of measurement calibrations are located in the Making Measurements chapter in the HP 8753D Option 011 Network Analyzer User s Guide For information on the analyzer operation during a measurement calibration refer to the Application and Operation Concepts chapter in the User s Guide Step 3 Measure the device 1 Connect your test device as in Figure 2 2 Use adapters where appropriate 2 Press SCALE REF 3 Press and turn the front panel knob to place the marker at a frequenc
6. THE REMEDIES PROVIDED HEREIN ARE BUYER S SOLE AND EXCLUSIVE REMEDIES HEWLETT PACKARD SHALL NOT BE LIABLE FOR ANY DIRECT INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES WHETHER BASED ON CONTRACT TORT OR ANY OTHER LEGAL THEORY per 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 Safety Notes The following safety notes are used throughout this manual Familiarize yourself with each of the notes and its meaning before operating this instrument l Warning Warning denotes a hazard It calls attention to a procedure which if not correctly performed or adhered to could result in injury or loss of life Do not proceed beyond a warning note until the indicated conditions are fully understood and met Caution Caution denotes a hazard It calls attention to a procedure that if not correctly performed or adhered to would result in damage to or destruction of the instrument Do not proceed beyond a caution sign until the indicated conditions are fully understood and met General Safety Considerations Warning For continued protection against fire hazard replace line fuse only with same type and rating 3A 250V The use of other fuses or material is prohibited l Warning This is a Safety Class I product provided with a protective earthing gr
7. e m wrist strap cord HP P N 9300 0980 m wrist strap HP P N 9300 1367 m heel straps HP P N 9300 1308 Building Ground amp floor mat not available through Hewlett Packard q96535d Installing Your Analyzer 1 7 STEP 4 Configure the Analyzer o This step shows you how to set up your particular analyzer configuration sm standard configuration option 1D5 configuration high stability frequency reference sw printer or plotter configuration a cabinet rack mount configuration 1 8 Installing Your Analyzer To Configure an Option 011 Analyzer with S Parameter Test Set 1 Connect Type N cables and test set interconnect cable as shown These cables are supplied with the test set ANALYZER TEST SET INTERCONNECT ANTI STATIC CONNECTOR NETWORK ANALYZER INTERCONNECT S PARAMETER TEST SET dg68do 2 HP 87530 OPTION 011 NETWORK ANALYZER TEST SET INYERCONHECT ANTI STATIC CONNECTOR NETWORK ANALYZER utere teret INTERCONNEC FEST PORT CABLES POSSIBLE ADAPTERS dg69do Installing Your Analyzer 1 8 To Configure an Option 011 Analyzer with a Transmission Reflection T R Test Set Connect 7 mm cables DUT and Type N cables as shown HP 8753D OPTION 011 NETWORK ANALYZER RE INPUT INCIDENT REFLECTED T R TEST SET dq610do To Configure an Analyzer that has High Stability Frequency Reference Option 1D5 Connect the jumper cable on the analyzer rear panel as show
8. ON is d on the softkey label Then press ITA AME a i A Activate ime a SECONDS SET MINUTES SEL HOUR E Press to Synchronize Time SET ROUND ZZ SECONDS AR NOTES SET HOUR SET DAY SET MONTH SET YEAR RETURN NON DAY SET MONTH SET YEAR RETURN Press when Finished 46523d Installing Your Analyzer 1 15 To Configure the Analyzer with Cabinet Flange Kits There are three kits available for the analyzer w instrument front handles kit standard HP part number 5062 3990 m cabinet flange kit without front handles option 1CM HP part number 5062 3978 w cabinet flange kit with front handles option 1CP HP part number 5062 4072 1 16 Installing Your Analyzer To Attach Handles to the Analyzer Standard 1 Ensure that the front handles kit is 2 Remove the side trim strips complete NOTE If any items are damaged or missing from the kit contact the nearest HP sales and service office to order a replacement kit Items within the kit handles flanges screws etc are not individually available a 2 front handles m 6 screws m 2 trim strips 3 Attach the handles to the sides of the 4 Place the new trim strip over the screws front panel using three screws for each on the handles handle WARNING If an instrument handle is damaged you should replace it immediately Damaged handles can break while you are moving or lifting the instrument and c
9. product is warranted against defects in material and workmanship for a period of one year from date of shipment 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 designated by Hewlett Packard Buyer shall prepay shipping charges to Hewlett Packard and Hewlett Packard shall pay shipping charges to return the product to Buyer However Buyer shall pay ali shipping charges duties and taxes for products returned to Hewlett Packard from another country Hewlett Packard warrants that its software and firmware designated by Hewlett Packard for use with an instrument will execute its programming instructions when properly installed on that instrument Hewlett Packard does not warrant that the operation of the instrument or software or firmware will 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 1S EXPRESSED OR IMPLIED HEWLETT PACKARD SPECIFICALLY DISCLAIMS THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE EXCLUSIVE REMEDIES
10. to set the analyzer s measurement frequencies 3 Look at the device response to determine if these are the measurement parameters that you want For example if the trace is noisy you may want to increase the input power reduce the IF bandwidth or add averaging Or to better see an area of interest you may want to change the test frequencies Quick Start 2 13 Learning How to Make Measurements Step 2 Make a measurement calibration Follow these instructions to make an S1 1 port calibration 1 Choose the if Select the calibration kit for your device under test Press calibration kit for your test device by pressing the corresponding softkey For the connectors of the calibration kit devices are Type N 500 connectors press Follow the prompts shown on the analyzer display to connect and measure an open short and load on PORT 1 Any choice of male female in the calibration process should always be made for the sex that represents the test port For example if the test port had a male Type N connector you would connect the female Type N calibration device But when you follow the prompts on the analyzer to measure a short calibration standard you would selec sex that represents the test port Caution To ensure an accurate measurement calibration you must connect the calibration standards to the adapters or cables that you will include in the actual device measurement 4 Oo C
11. 1 3 uw STEP 2 Familiarize Yourself with the HP 8753D Option 011 EM Front and Rear Panels HP 8753D Option 011 Front Panel dg64do 1 LINE POWER SWITCH 6 PRESET KEY 2 DISK DRIVE 7 SYSTEM KEY 3 RF OUT CONNECTOR 8 SOFTKEYS 4 R A AND B INPUTS 9 ANALYZER DISPLAY 5 PROBE POWER OUTLETS 14 Installing Your Analyzer HP 8753D Option 011 Rear Panel 00000 O dg65do ISERIAL NUMBER LABEL 13 10 MHZ PRECISION REFERENCE OUTPUT OPT 1D5 2 EXTERNAL MONITOR RED 14 JUMPER OPT 1D5 3 EXTERNAL MONITOR GREEN 15 EXTERNAL REFERENCE INPUT 4 EXTERNAL MONITOR BLUE 16 AUXILIARY INPUT 5 HP IB INTERCONNECT 17 EXTERNAL AM INPUT 6 PARALLEL INTERFACE 18 EXTERNAL TRIGGER INPUT 7 RS 232 SERIAL INTERFACE 19 TEST SEQUENCE OUTPUT 8 DIN KEYBOARD INPUT 20 LIMIT TEST OUTPUT 9 AC POWER INPUT 21 TEST SET I O INTERCONNECT 10 AC POWER FUSE 11 LINE VOLTAGE SELECT SWITCH 12 10 MHZ REFERENCE ADJUST OPT 1D5 Installing Your Analyzer 1 5 STEP 3 Meet Electrical and Environmental Requirements 1 6 1 Set the line voltage selector to the position that corresponds to the AC power source 090000 T 00 aM 23ov T 115V dg66do 3 Ensure the operating environment meets the following requirements m 0 to 55 C m lt 95 relative humidity at 40 C non condensing m lt 15 000 feet 4 500 meters altitude Some HP 8753D Option 011 performance parameters are specified for 25 C 5 C Refer to the HP 875
12. 15 i8 dB REF Q aR A VY EXE AAN PEPA START O38 eua tema STOF amp 109 BUD HOR m Installing Your Analyzer 1 25 STEP 6 To Backup to the EEPROM Disk Description Correction constants are stored in EEPROM on the A9 controller assembly The advantage of having an EEPROM backup disk is its capacity to store all the correction constant data to a new or repaired A9 assembly without having to rerun the correction constant procedures The HP 8753D Option 011 network analyzer is shipped from the factory with an EEPROM backup disk which is unique to each instrument It is prudent to make a second EEPROM backup disk that can be used in case of failure or damage to the original backup disk Equipment 3 5 inch disk inan SS NR TA VAL UE ROME M HP 92192A box of 10 EEPROM Backup Disk Procedure 1 Insert a 3 5 inch disk into the HP 8753D Option 011 disk drive 2 Press so that the preset state is stored 3 If the disk is not formatted press e E To format a LIF disk selec The supplied EEPROM backup disk is LIF The analyzer does not support LIF HFS format a To format a DOS disk select Press 4 Press SYSTEM SAVE RECALL correction constants data onto floppy disk at the query to store the Note A default file FILEO is created The file name appears in the upper left hand corner of the display The file type ISTATE E describes the file as an instrument state with EEPROM b
13. 3D Option 011 Network Analyzer User s Guide for information on the environmental compatibility of warranted performance Installing Your Analyzer 2 Ensure the available AC power source meets the following requirements m 90 132 VAC m 50 60 Hz 400 Hz single phase OR w 198 264 VAC 50 60 Hz single phase The analyzer power consumption is 280 VA max 4 Verify that the power cable is not damaged and that the power source outlet provides a protective earth contact PROTECTIVE EARTH GROUND 200009 o 9 06 7 dg67do WARNING Any interruption of the protective grounding conductor or disconnection of the protective earth terminal can result in personal injury or may damage the instrument 5 Ensure there are at least six inches of clearance between the sides and back of either the stand alone analyzer or the system cabinet SiX INCH CLEARANCE SIX INCH CLEARANCE SIDES AND REAF SIDES AND REAR NES EDGE OF BENCH 99884 CAUTION The environmental temperature must be 4 C less than the maximum operating temperature of the analyzer for every 100 watts dissipated in the cabinet If the total power dissipated in the cabinet is gt 800 watts then you must provide forced convection 6 Set up a static safe workstation Electrostatic discharge ESD can damage or destroy electronic components Bul ding m static control table mat and earth ground Ground i aai wire HP P N 9300 0797
14. CM To Attach Cabinet Flanges and Front Handles to an Analyzer Option 1CP STEP 5 Verify the Analyzer Operation l l 2 008 To View the Installed Options o To Initiate the Analyzer Self Test E To Run the Operator s Check a To Test the Transmission Mode To Test the Transmission Mode s Load Match STEP 6 To Backup to the EEPROM Disk 2 8084 Description ut do ex o e ds he BO A AS Equipment css asp da a e MP TARTE A ORO CEU Eee S E EEPROM Backup Disk Procedure s len Quick Start Learning How to Make Measurements The HP 8753D Option 011 Ata Glance s nn Measurement Procedure tt wt sn Step 1 Choose measurement parameters with your test device connected Step 2 Make a measurement calibration ll Step 3 Measure the device e Step 4 Output measurement results Learning to Make Transmission Measurements Step 1 Choose the measurement parameters with the device connected Step 2 Make a measurement calibration Step 3 Measure the device a Step 4 Output measurement results Measuring Other Aspects of Insertion Loss with Marker Functions Learning to Make Reflection Measurements Step 1 Choose the me
15. HI S11 iu Fs i 65 334 mS 76 128 mS 76 436 pF 158 518 482 MHz CENTER 125 890 698 MHz SPAN 188 2000 009 MHz Figure 2 16 Example Admittance Measurement Trace 2 20 Quick Start learning How to Make Measurements If You Encounter a Problem If you have difficulty when installing or using the HP 8753D Option 011 check the following list of commonly encountered problems and troubleshooting procedures If the problem that you encounter is not in the following list refer to additional sections entitled If You Have Problems in the HP 8753D Option 011 Network Analyzer User s Guide Power up problems If the HP 8753D Option 011 display does not light ti Check that the power cord is fully seated in both the main power receptacle and the analyzer power module mM Check that the AC line voltage selector switch is in the appropriate position 230V 115V for your available power supply o Check that the analyzer AC line fuse is not open Warning For continued protection against fire hazard replace the fuse with the same type and rating Refer to Figure 2 17 to remove the fuse from the power module You can use a continuity light or an ohmmeter to check the fuse An ohmmeter should read very close to zero ohms if the fuse is good The 3A 250V fuse is HP part number 2110 0780 o Contact the nearest Hewlett Packard office for service if necessary A list of Hewlett Packard sales and service offices is provided at the end of this gui
16. Installation and Quick Start Guide HP 8753D Option 011 Network Analyzer U HEWLETT PACKARD HP Part No 08753 90303 Printed in USA September 1994 Notice The information contained in this document is subject to change without notice Hewlett Packard makes no warranty of any kind with regard to this material including but not limited to the implied warranties of merchantability and fitness for a particular purpose Hewlett Packard shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing performance or use of this material Copyright Hewlett Packard Company 1994 All Rights Reserved Reproduction adaptation or translation without prior written permission is prohibited except as allowed under the copyright laws 1400 Fountaingrove Parkway Santa Rosa CA 95403 1799 USA 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 National Institute of Standards and Technology to the extent allowed by the Institute s calibration facility and to the calibration facilities of other International Standards Organization members Regulatory Information The regulatory information is in the HP 8753D Option 011 Network Analyzer User s Guide Warranty This Hewlett Packard instrument
17. R ADORESS P MTR HPIB POWER MTR 143647 RETURN e PLTR TYPE CPLOTTER PLTR PORT HPIB PARALLEL SERIAL i DISK AMU AS ETA hey XMET CNTRL dg616do TPLOTTERI PLTR PORT HPIB PARALLEL SERIAL DISK PLOTTER BAUD RATE A XMIT CNTRLZ A 7 t 3 t RE TURN RETURN i ER iR pane PLTR TYPE 3 If you will be using the serial port adjust the analyzer s baud rate until it is equal to the baud rate set on the peripheral by pressing and the and D front The plotter menu is shown as an example It will only appear if you You can set the analyzer to the following rates w 1200 m 2400 4800 x 9600 w 19200 sets transmission on transmission off software handshake TR DSR sets data terminal ready data set ready hardware handshake Installing Your Analyzer 1 13 1 14 7 If you will be using a plotter selec choice you want appears SYSTEM CONTROL LER TALKER LISTENER USE PASS CONTROL SET ADDRESSES PARALLEL COPY HPB DIAG on OFF DISK UNIT NUMBER VOL NUMBER dg617do ADDRESS 8753 PLOTTER PORT PRINTER PORT ADDRESS DISK ADDRESS CONTROLLER ADORESS P MIR HP B POWER MTR 143643 RETURN BER EG CPLOTTERIY A PLTR PORT HPIB PARALLEL SERIAL DESK PLOTTER BAUD RATE XMt T CNTRE Xon Xoft3 RETURN 8 If you will be using
18. a printer press SYSTEM CONTROLLER TALKER LISTENER USE PASS CONTROL SET ADDRESSES PARALLEL CCOPY HP I8 Dt AG on OFF DISK UNIT NUMBER VOLUME NUMBER q96 19d ADDRESS 8753 PLOTTER PORT PRINTER PORT ADDRESS DISK ADDRESS CONTROLLER ADDRESS P MIR HPIB POWER MTR 143643 RETURN Am Installing Your Analyzer tut PRNTR PORT HPIB PARALLEL i SERIAL BAUD RATE XMiT CNTRL Xon Xof 3 RETURN and keep pressing the key until the m Choose for a pen plotter such as the HP 7440A 7470A 7475A or 7550B Choose P printer which the o LaserJet IH for a PCLS compatible pports HP GL 2 such as o LaserJet 4 o DeskJet 1200C until your printer choice appears m Choose your printer type from these HP printers E Choose P2 for Epson compatible printers ESC P2 printer control language E to begin setting and activating the time stamp feature so the analyzer places the time and date on your hardcopies and disk directories 9 Press E 10 Press each of the following softkeys to set the date and time TIME STAMP ON off SYSTEM ROUND SECONDS SETE Select Next Closest MINUTES Minute SET IZ Select o Number for HOUR 24 Hour Clock 0 24 STi Select a Number for DAY Colender Date 1 31 STi Select o Number for MONTH Cotender Month 1 12 SET Select a Four Digit YEAR Mumber for Year RETURN when the time is 12 Press So that
19. ackup Use the RPG and the softkey to rename the file FILEO to N 12345 where 12345 represents the last 5 digits of the instrument s serial number The first character in the file name must be a letter When finished press 6 Label the disk with the serial number of the instrument and the words EEPROM Backup Disk Note Whenever the HP 8753D Option 011 network analyzer is returned to Hewlett Packard for servicing and or calibration the EEPROM backup disk should be returned with the analyzer This will significantly reduce the instrument repair time The EEPROM backup disk procedure is now complete 1 26 Installing Your Analyzer Quick Start Learning How to Make Measurements The information and procedures in this chapter teach you how to make measurements with your analyzer mw analyzer front panel operation amp general steps for making measurements o step 1 selecting measurement parameters a step 2 making a measurement calibration O step 3 measuring a device o step 4 outputting measurement results w transmission measurements a transmission measurement calibration o insertion loss ca save recall a 3 dB bandwidth o out of band rejection O ripple or flatness m reflection measurements o reflection measurement calibration return loss print output reflection coefficient standing wave ratio SWR 1 and S5 in polar format impedance admittance OU 0 0 8 0 Quick Start 2 1 Lear
20. andwidth between two equal power levels In this example procedure the analyzer calculates the 3 dB bandwidth relative to the center frequency of the filter i Press Press MARKER FCTN Press Press Press MARKER Press and turn the front panel knob to move the marker to the center frequency position of the filter passband w You can also position the marker by entering a frequency location for example press T to zero the delta marker magnitude and frequency this sets the delta marker reference The 3 dB points will be relative to this marker The softkey label changes to is the smail A symbol to show you that the delta reference point to enter the marker search mode The analyzer calculates the 3 dB bandwidth the center frequency and the Q Quality Factor of the test device and lists the results in the upper right corner of the display Markers 3 and 4 indicate the location of the 3 dB points as shown in Figure 2 5 and enter DO The analyzer now calculates the bandwidth between 6 dB power levels when you are finished with this measurement 20 Jun 2002 24 15 31 26 dB REF 4 dB 1 73 352 dB sz sda mhz REF wa CHL S tog MAG O A A MN CA PA qe CENTER 125 989 Bg MH SPAN 125 088 BB MHz dg645 c Figure 2 6 Example Measurement of Out of Band Rejection Out of Band Rejection l Press MARKER 1 The marker appears where you p
21. asurement parameters with the device connected Step 2 Make a measurement calibration l l Step 3 Measure the device ee 0 Step 4 Output measurement results l l 2048 1 10 em beh p n 4 PA bo poo bl fh pod pd po DO mm CO 0 00 1203 a s pd foi 1E it BR D Bx Co 1 25 Pe fred t i DO BS SS o 1 26 1 26 2 2 2 4 2 4 2 4 2 4 2 4 2 5 2 5 2 6 2 7 2 7 2 8 2 12 2 13 2 14 2 15 2 15 Contents 1 Measuring Other Reflection Characteristics If You Encounter a Problem Power up problems ss dg a Aw 4 ee SS RS SS If the HP 8753D Option 011 display does not light If the display lights but the ventilation fan does not start Data Entry Problems s Ao uw e Ro EEE X eub e USC o gt 9 0 4 e gt 09 8 8 o e If the data entry controls keypad knob 1 E E keys do not respond sds cur uou e a Up qe A nb AU Re ar rident pe A e If the parameter you are trying to enter is not accepted by the analyzer No RF OUIDUU 4 was Set e raio ae tq RODA CARIOR uet Rr Roa de ER TUA DA If there is no RF signal at either PORT lor PORT 2 connector Index Contents 2 e a es 2 16 2 21 2 21 2 21 2 22 2 22 2 22 2 22 2 22 2 22 Figures 2 1 The HP 8753D Option 011 Front Panel Features 2 2 2 2 D
22. ause personal injury or damage to the instrument Installing Your Analyzer 1 17 To Attach the Cabinet Flanges to an Analyzer Option 1CM 1 Ensure that the cabinet flange kit is 2 Remove side trim strips complete a 2 cabinet mount flanges a 6 screws 8 Attach the cabinet flanges to the sides of 4 Remove the feet and the tilt stands the front panel using three screws for each before cabinet mounting the instrument flange 3296254 396264 1 18 Installing Your Analyzer To Attach Cabinet Flanges and Front Handles to an Analyzer Option 1CP 1 Ensure that the cabinet flange kit with 2 Remove the side trim strips handles is complete m 2 cabinet mount flanges a 2 front handles m 8 screws qg62 d 3 Attach the cabinet mount flanges and 4 Remove the feet and the tilt stands the handles to the sides of the front panel using four screws per side Attach the flanges to the outside of the handles before cabinet mounting the instrument q9g629d WARNING If an instrument handle is damaged you should replace it immediately Installing Your Analyzer 1 19 gt STEP 5 Verify the Analyzer Operation This series of procedures shows you how to check your analyzer for correct operation a viewing installed options m initiating the analyzer self test m running operator s check u testing transmission mode m testing reflection mode ia ii CE ma a dE Ss ILE ec ad O E pa
23. d 44 734 696622 Germany Hewlett Packard GmbH Hewlett Packard Strasse Zone D Activite De Courtaboeuf 6380 Bad Homburg v d H Germany 49 6172 16 0 INTERCON FIELD OPERATIONS Australia Hewlett Packard Australia Ltd 31 41 Joseph Street Blackburn Victoria 3130 61 3 895 2895 Headquarters Hewlett Packard Company 3495 Deer Creek Rd Palo Alto California 94304 1316 415 857 5027 China China Hewlett Packard Co 38 Bei San Huan X1 Road Shuang Yu Shu Hai Dian District Beijing China 86 1 256 6888 Japan Yokogawa Hewlett Packard Ltd 1 27 15 Yabe Sagamihara Kanagawa 229 Japan 81 427 59 1311 Taiwan Hewlett Packard Taiwan 8th Floor H P Building 337 Fu Hsing North Road Taipei Taiwan 886 2 712 0404 Quick Start Learning How ta Make Measurements Canada Hewlett Packard Canada Ltd 17500 South Service Road Trans Canada Highway Kirkland Quebec H9J 2X8 Canada 514 697 4232 Singapore Hewlett Packard Singapore Pte Ltd 1150 Depot Road Singapore 0410 65 273 7388 Index A analyzer configuration 1 8 19 analyzers with option 1D5 1 10 attaching cabinet flanges 1 18 attaching cabinet flanges and handles 1 19 attaching handles 1 17 S parameter test set 1 9 T R test set 1 10 with cabinet flange kits 1 16 with plotters 1 11 with printers 1 11 C certification iii clock setting 1 15 contents of shipment 1 2 3 accessories included 1 2 adapters
24. de Warning The power cord is connected to internal capacitors that may remain live for 10 seconds after you disconnect the cord from the power supply FUSE iN USE INSERT SCREWORIVER PRY OPEN q95S2d Figure 2 17 Line Fuse Removal and Replacement Quick Start 2 21 Learning How to Make Measurements If the display lights but the ventilation fan does not start E Check that the fan is not obstructed To check the fan follow these steps 1 Switch the LINE power to the off position 2 Check that the fan blades are not jammed o Contact the nearest Hewlett Packard office for service if necessary A list of Hewlett Packard sales and service offices is provided at the end of this guide Data Entry Problems If the data entry controls keypad knob 1 D keys do not respond o Check that the ENTRY OFF function is not enabled The ENTRY OFF function is enabled after you press the key To return to normal entry mode press any function key that has a numeric parameter associated with it For example START n Check that none of the keys are stuck C Check that the selected function key accepts data For example accepts data but does not a Check that the analyzer s R HP IB STATUS light is not illuminated If the analyzer s R HP IB STATUS light is illuminated a test sequence may be running or a connected computer controller may be sending commands or instructions to or receiving data
25. dece Note The HP 8753D Option 011 has an on site warranty where available If the HP 8753D Option 011 should fail any of the following checks call your local HP sales and service office A customer engineer will be dispatched to service your instrument on site If for some reason a customer engineer is not available in your area send the analyzer to the nearest HP service center for repair including a description of any failed test and any error message Ship the analyzer using the original or comparable anti static packaging materials A table listing of Hewlett Packard sales and service offices is provided at the end of this guide 1 20 installing Your Analyzer To View the Installed Options 1 Switch on the AC power supplied to the analyzer or cycle the AC power using the LINE button AC POWER LINE SWITCH dg6 19do documents Installing Your Analyzer 1 21 To Initiate the Analyzer Self Test 1 Switch on the AC power supplied to the analyzer and press PRESET AC POWER LINE SWITCH MESSAGES APPEAR IN SEQUENCE IINTTIALIZING INSTRUMENT PLEASE WAIT ILLUMINATES DURING AND Sec TEST PASSED AFTER PRESET ILLUMINATES 4 SECONDS DURING PRESET PARAMETERS APPEAR AFTER PRESET CH1 S log MAG 10dB REF 0d8 START 300kHz STOP 3GHz or start 30 kHz stop amp GHz FOR OPTION 006 dg62 tdo 1 22 installing Your Analyzer To Run the Operator s Check MENU SOFTKEYS SYSTEM
26. e Smith chart display and is inductive in the top half of the display E Choose if you want the analyzer to show the linear magnitude and the phase of the reflection coefficient at the marker m Choose if you want the analyzer to show the logarithmic magnitude and the phase of the reflection coefficient at the active marker This is useful as a fast method of obtaining a reading of the log magnitude value without changing to log magnitude format E Choose f you want the analyzer to show the values of the reflection coefficient at the marker as a real and imaginary pair Choose t to show the real and imaginary parts of the device impedance at the marker Also shown is the equivalent series inductance or capacitance the series resistance and reactance in ohms Quick Start 2 19 Learning How to Make Measurements poe 20 Jun 2082 25 93 10 CHi Sy 1UFS l1 6 4729 0 7 5569n 132 87 pF 158 519 999 MHz CENTER 125 000 049 MHz SPAN 199 800 ABA MHz Figure 2 15 Example Impedance Measurement Trace Measuring Admittance To change the display to an inverse Smith chart graticule and the marker information to read admittance press As shown in Figure 2 16 the marker reads admittance data in the form G jB where G is conductance and B is susceptance both measured in units of Siemens equivalent to mhos the inverse of ohms Also shown is the equivalent parallel capacitance or inductance 20 Jun 2002 05 04 3B C
27. eset State and Memory Ailocation portion of the HP 8753D Option 011 Network Analyzer User s Guide for the conditions at preset Quick Start 23 Learning How to Make Measurements Measurement Procedure This generic measurement procedure is used throughout the guide to illustrate the use of the HP 8753D Option 011 Step 1 Choose measurement parameters with your test device connected m Press the key to return the analyzer to a known state u Connect your test device to the analyzer u Choose the settings that are appropriate for the intended measurement 3 measurement type o frequencies O number of points D power c measurement trace format m Make adjustments to the parameters while viewing the device response Step 2 Make a measurement calibration Press the key to begin to make a measurement calibration using a known set of standards a calibration kit A measurement calibration establishes a magnitude and phase reference for the test setup and reduces the effects of systematic measurement errors Step 3 Measure the device m Reconnect the device under test m Use the markers to identify various device response values Step 4 Output measurement results m Store the measurement file to a disk w Generate a hardcopy with a printer or plotter 2 4 Quick Start Learning How to Make Measurements Learning to Make Transmission Measurements This example procedure shows you how to measure the transmission response of a bandpa
28. evice Connections for a Transmission Measurement 2 5 2 3 Connections for a Thru Calibration Standard 2 6 2 4 Example Measurement of Insertion Loss l l n 2 7 2 5 Example Measurement of 3 dB Bandwidth 2 8 2 6 Example Measurement of Out of Band Rejection 2 0 2 7 Example Measurement of Passband Flatness or Ripple 2 10 2 8 Connections for Reflection Measurements l l 2 13 2 9 Connections for an S4 1 Port Measurement Calibration 2 14 2 10 Example Return Loss Measurement Trace e a bee 2 15 2 11 Example Measurement Title 2 16 2 12 Example Reflection Coefficient Measurement Trace 2 17 2 13 Example Standing Wave Ratio Measurement Trace 2 17 2 14 Example Measurement Trace in Polar Format with Markers 2 19 2 15 Example Impedance Measurement Trace 2 20 2 16 Example Admittance Measurement Trace l l 2 20 2 17 Line Fuse Removal and Replacement 2 21 Tables 2 1 Hewlett Packard Sales and Service Offices l l Ln 2 24 Contents 3 Installing Your Analyzer This chapter shows you how to install your analyzer and confirm the correct operation by following the steps below Verify the shipment Familiarize yo
29. from the analyzer Press if you want to return to LOCAL control If the parameter you are trying to enter is not accepted by the analyzer ci Ensure that you are not attempting to set the parameter greater than or less than its limit Refer to the HP 8753D Option 011 Network Analyzer User s Guide for the parameter limits No RF Output If there is no RF signal at either PORT 1 or PORT 2 connector This procedure only applies if a test set is being used O Verify proper connection of the RF cables between the analyzer and the test especially RF OUT on the analyzer to RF IN on the test set and R in on the analyzer to R out on the test set o Check that the signal at the test ports is switched on m Press label c If you are applying external modulation AM to the analyzer check the external modulating signal or external gate trigger signals for problems Caution If the error message CAUTION OVERLOAD ON INPUT X POWER REDUCED 2 22 Quick Start learning How to Make Measurements appears on the HP 8753D Option 011 display too much source power is being applied at the input In such a case the input power will need to be reduced before the source power will remain on o Look for phase lock error messages and then contact your nearest Hewlett Packard office for service A list of Hewlett Packard Sales and Service offices is provided at the end of this guide o Note The HP 8753D Option 011 must have a connection from the s
30. he log magnitude value without changing to log magnitude format E Choose f you want the analyzer to show the values of the marker as a real and imaginary pair Note You can also enter the frequency of interest from either the attached keyboard or the numeric keyboard and read the magnitude and phase at that point 2 18 Quick Start Learning How to Make Measurements 28 Jun 2002 94 58 19 CENTER 125 000 098 MHz SPAN 136 608 BBB MHz Figure 2 14 Example Sj Measurement Trace in Polar Format with Markers Measuring Impedance The amount of power reflected from a device is directly related to the impedance of the device and the measuring system Each value of the reflection coefficient T uniquely defines a device impedance F 0 only occurs when the device and analyzer impedance are exactly the same The reflection coefficient for a short circuit is T 1 Z 180 Every other value for T also corresponds uniquely to a complex device impedance according to the equation Zu 1 D 1 M xZo where Z is your test device impedance and Zo is the measuring system s characteristic impedance 500 or 750 1 Press FORMAT 2 Press MARKER and turn the front panel knob to read the resistive and reacti p mpedance at any point along the trace as shown in Figure 2 15 This is the default Smith chart marker The marker annotation tells that the complex impedance is capacitive in the bottom half of th
31. included 1 2 cables included 1 2 documentation included 1 2 correction constants 1 26 D definitions 2 12 return loss dB 2 12 return loss T 2 12 standing wave ratio SWR 2 12 E EEPROM backup disk 1 26 electrical requirements 1 6 7 environmental requirements 1 6 7 F front and rear panel features 1 4 5 front panel 1 4 front panel features 2 2 channel keys 2 2 display 2 2 instrument state keys 2 3 numeric keypad 2 3 PRESET key 2 3 response softkeys 2 2 softkeys 2 2 stimulus softkeys 2 3 I installation 1 1 M making measurements 2 1 20 manual conventions v measurement procedure 2 4 measurement sequence choosing measurement parameters 2 4 making a measurement calibration 2 4 measuring a device 2 4 outputting measurement results 2 4 O operation 1 20 25 checking reflection mode 1 25 checking transmission mode 1 24 installed options 1 21 operator s check 1 23 self test 1 22 P plotter configuration 1 11 14 polar format 2 18 printer configuration 1 11 14 problems data entry 2 22 controls do not respond 2 22 parameters not accepted 2 22 problems power up 2 21 22 display does not light 2 21 display lights but fan does not start 2 21 problems RF output 2 22 no RF signal at either PORT 1 or PORT 2 2 22 R rear panel 1 5 reflection measurements 2 12 20 admittance 2 20 choosing the measurement parameters 2 13 impedance 2 19 making a measure
32. ing Other Reflection Characteristics You can derive several important filter parameters from the measurement shown on the analyzer display The following set of procedures is a continuation of the previous reflection measurement procedure Measuring Reflection Coefficient l Press FORMAT SCALE REF So the analyzer shows the same data in terms of reflection coefficient as shown in Figure 2 12 The units mU displayed on the analyzer are milli units where units or U is used to indicate that the parameter is unitless as opposed to log or linear For example 200 mUnits 0 2 2 18 Quick Start Learning How to Make Measurements 28 Jun 2002 04 49 09 CHi Sii lin MAG 200 mis REF 400 mU gu qs ME A E e IM CENTER 125 262 208 MHz SPAN 180 900 0082 MHz Figure 2 12 Example Reflection Coefficient Measurement Trace Measuring Standing Wave Ratio Press o the analyzer shows the same data in terms of standing wave ratio SWR as shown in Figure 2 13 Now the analyzer shows the measurement data in the unitless measure of SWR where SWR 1 perfect match at the bottom of the display 5 Dec 2009 96 18 09 USA AA SM eee ee ENG CENTER 125 696 080 MHz SPAN 198 068 0090 MHz Figure 2 13 Example Standing Wave Ratio Measurement Trace Quick Start 2 17 Learning How to Make Measurements Measuring S1 and Sz in a Polar Format 11 is a measurement parameter used to measure the reflection c
33. ke Measurements P m Choose RNAL DISK if you want the analyzer to show the catalog for the contents of a disk that is in an external disk drive that is configured to the analyzer f you want to store the error corrected data on disk with the if you want to store the formatted data on disk with the m Choose if you want to store user graphics on disk with the instrument state E Choose f you want to only store the measurement data of the device under test zer will not store the instrument state and measurement calibration therefore the saved data cannot be retrieved into the analyzer Choose if you want to store data in a binary format Choose computer at a later time if you want to store data in an ASCII format to be read on a 4 Press and the analyzer saves the file with a default title Measuring Other Aspects of Insertion Loss with Marker Functions Using the analyzer marker functions you can derive several important filter parameters from the measurement trace that is shown on the analyzer display 20 Jun 290802 84 14 12 CH So iog MAG 28 dB REF 40 dB i 0042 dB BW 23 140 38 1 MARKER 1i 4fs cent i24 346646 mz Q 5 Mp l loss 37 73 an EBERT i CENTER 125 888 BOD MHz SPRN 125 000 HAB MHz dg844 c Figure 2 5 Example Measurement of 3 dB Bandwidth 3 dB Bandwidth 2 8 Quick Start learning How to Make Measurements The analyzer can calculate your test device b
34. laced it during the bandwidth measurement 2 Press M The marker automatically searches for the minimum point on the trace The frequency and amplitude of this point relative to the delta symbol in the center of the filter passband Quick Start 2 9 Learning How to Make Measurements appear in the upper right corner of the display This value is the difference between the maximum power in the passband and the maximum power in the rejection band that is one of the peaks in the rejection band Note You can use the marker search mode to search the trace for the maximum point or for any target value The target value can be an absolute level for example 3 dBm or a level relative to the location of the small delta symbol for example 3 dB from the center of the passband 3 If your measurement needs some noise reduction you could reduce the IF bandwidth or add averaging u To reduce the IF bandwidth press E To add averaging press a 28 Jun 2002 04 21 82 CH1 Spy lag MAG 20 dB REF 60 dB 2 4 seis dB O O O ees mina UH T Lost ES E FF E CE EXE S PP MM RN CRURA A E ESL MENU RARE ER CENTER 125 000 0040 MHz SPAN 125 882 099 MHz Figure 2 7 Example Measurement of Passband Flatness or Ripple Passband Flatness or Ripple Passband flatness or ripple is the variation in insertion loss over a specified portion of the passband Continue with the following steps to measure pas
35. ment calibration 2 13 measuring a device 2 14 measuring return loss 2 15 Index 1 outputting measurement results 2 15 reflection coefficient 2 16 S and Sz in polar format 2 18 standing wave ratio 2 17 regulatory information iii S safety considerations general iv safety notes iv smith chart 2 19 static safe workstation 1 7 T transmission measurements 2 5 11 3 dB bandwidth 2 8 Index 2 choosing the measurement parameters 2 5 making a measurement calibration 2 5 measuring insertion loss with marker functions 2 8 measuring the device 2 7 out of band rejection 2 9 outputting the measurement results 2 7 passband flatness 2 10 passband ripple 2 10 troubleshooting 2 21 23 Ww warranty iii
36. n nb ER eur Eo a BNC BNC JUMPER dg611do 110 Installing Your Analyzer To Configure an Analyzer with Printers or Plotters 1 Connect your printer or plotter to the corresponding interface KEYBOARO RS 232 SERIAL PORT PARALLEL PORT HP IB dg612do 2 If you are using the parallel interface press and until your choice of GPIO or COPY appears SYSTEM CONTROLI ER TALKER CISIERER USE PASS CONTROL SET Py JURU L 3 s H9 G DIAS on OFF DISK UNIT NUMBER VOLUME NUMBER dg613do If you choose COPY the parallel port is dedicated for normal copy device use printers or plotters a If you choose GPIO the parallel port is dedicated for general purpose I O The HP 8753D Option 011 controls the data input or output through the sequencing capability of the analyzer Installing Your Analyzer 1 11 1 12 SYSTEM ex E TALKER LISTENER USE PASS CONTROL SET ADDRESSES PARALLEL copy HP 8 DIAG on OFF DISK UNIT NUMBER VOLUME NUMBER nd then choose either depending on your hardcopy device Or if you are plotting your files to disk press SYSTEM aoogess CONTROLLER E Keg TALKER LISTENER e Me A ADDRESS Es 7 UIT A DRESBE Z mm 2002252 DISK PARALLEL ADDRESS CONTROLLER M tCcoPY3 sal DIAG n OFF DISK UNIT POWER MTR NUMBER 43541 VOLUME NUMBER RETURN j P RAPE i dg614do 4 Pre
37. ning How to Make Measurements The HP 8753D Option 011 At a Glance dg629do Figure 2 1 The HP 8753D Option 011 Front Panel Features 1 The analyzer display 2 The softkeys 8 The channel keys 4 The response keys 2 2 Quick Start Learning How to Make Measurements shows the measurement trace softkey labels and the values of the current measurement parameters allow you to make choices from the menus that are shown on the analyzer display The menus list the possible choices for a particular function allow you to choose which channel is active and the measurement parameters for that channel You can select many of the measurement and display functions independently for each measurement channel To modify the measurement parameters of a particular channel first select channel one or two and then make the desired measurement choices Notice that the light next to the current active channel s key is illuminated allow you to control the analyzer s receiver The top three keys allow you to choose the measurement parameter UR ES MEAS for softkey m t options such a etc presentation format a plitude or phase versus frequency Smith chart polar coordinates and so on and scale and reference values for a full screen display The lower five keys in this section enhance the usability of the measured data The displayed traces may be overlaid manipulated with math function keys averaged
38. o the unused analyzer test port to act as a termination For example when you are measuring S or S you can connect an unused device port to the analyzer s PORT 2 or PORT 1 respectively The signal reflected from the device under test is measured as a ratio of the reflected energy versus the incident energy It can be expressed as reflection coefficient return loss or standing wave ratio SWR These measurements are mathematically defined as follows reflection coefficient I reflected voltage incident voltage Si or 85 magnitude and phase li fi return loss dB 201og p p iTr V maximum V minimum 1 p 1 p standing wave ratio SWR i 2 12 Quick Start learning How to Make Measurements Step 1 Choose the measurement parameters with the device connected Note For purposes of explanation a 125 MHz bandpass filter was used as the test device throughout this section 1 Connect your test device to the S parameter and analyzer combination as shown in Figure 2 8 Doga 05090 BB a OR TERMINATION TEST DEVICE dg632do Figure 2 8 Connections for Reflection Measurements 2 Press and choose the following measurement parameters E um TD SCALE REF Note If you press and STOP the analyzer will show the frequencies at the beginning and end of the frequency span that you have set up around the center frequency This is also another method you could use
39. oefficient of the test device input where Soo is a measurement parameter used to measure the reflection coefficient of the test device output In both instances all the unused ports must be terminated 1 Press FORMAT 2 Press SCALE REF The analyzer shows the results of an S measurement with each point on the polar trace corresponding to a particular value of both magnitude and phase The center of the circle represents a coefficient T of 0 that is a perfect match or no reflected signal The outermost circumference of the scale shown in Figure 2 14 represents p 2 00 or 200 reflection The phase angle is read directly from this display The 3 O clock position corresponds to zero phase angle that is the reflected signal is at the same phase as the incident signal Phase differences of 90 180 and 90 correspond to the 12 O clock 9 O clock and 6 O clock positions on the polar display respectively 3 Press MARKER 4 Turn the front panel knob to position the marker at any desired point on the trace then read the frequency linear magnitude and phase in the upper right hand corner of the display as shown in Figure 2 14 to reposition the trace as shown in Figure 2 14 if you want the analyzer to show the linear magnitude and the phase of if you want the analyzer to show the logarithmic magnitude and the phase of the active marker This is useful as a fast method of obtaining a reading of t
40. ound incorporated in the power cord The mains plug shall only be inserted in a socket outlet provided with a protective earth contact Any interruption of the protective conductor inside or outside the instrument is likely to make the instrument dangerous Intentional interruption is prohibited Caution Ventilation Requirements When installing the instrument in a cabinet the convection into and out of the instrument must not be restricted The ambient temperature outside the cabinet must be less than the maximum operating temperature of the instrument by 4 C for every 100 watts dissipated in the cabinet If the total power dissipated in the cabinet is greater than 800 watts then forced convection must be used How to Use This Guide This guide uses the following conventions This represents a key physically located on the instrument This indicates a softkey a key whose label is determined by the instrument s firmware Screen Text This indicates text displayed on the instrument s screen HP 8753D Option 011 Network Analyzer Documentation Map vi EM The Installation and Quick Start Guide familiarizes you with the HP 8753D Option 011 network analyzer s front and rear panels electrical and environmental operating requirements as well as procedures for installing configuring and verifying the operation of the HP 8753D Option O11 The User s Guide shows how to make measurements explains commonly
41. ource output to the analyzer R input The power at the R channel must be between 0 dBm and 30 dBm If the R channel is not connected a NO IF FOUND message will appear Quick Start 2 23 Learning How to Make Measurements 2 24 Table 2 1 Hewlett Packard Sales and Service Offices US FIELD OPERATIONS Headquarters Hewlett Packard Company 19320 Pruneridge Avenue Cupertino CA 95014 USA 800 752 0900 California Northern Hewlett Packard Co 301 E Evelyn Mountain View CA 94041 415 694 2000 Colorado Hewlett Packard Co 24 Inverness Place East Englewood CO 80112 303 649 5000 Georgia Hewlett Packard Co 2000 South Park Place Atlanta GA 30339 404 955 1500 Texas Hewlett Packard Co 930 E Campbell Rd Richardson TX 75081 214 231 6101 New Jersey Hewlett Packard Co 150 Green Pond Road Rockaway NJ 07866 201 627 6400 California Southern Hewlett Packard Co 1421 South Manhattan Ave Fullerton CA 92631 714 999 6700 IHinois Hewlett Packard Co 5201 Tollview Drive Rolling Meadows IL 60008 708 255 0800 EUROPEAN FIELD OPERATIONS France Hewlett Packard France 1 Avenue Du Canada Headquarters Hewlett Packard S A 150 Route du Nant d Avril 1217 Meyrin 2 Geneva Switzerland 41 22 780 8111 F 91847 Les Ulis Cedex France 33 1 69 82 60 60 Great Britain Hewlett Packard Ltd Eskdale Road Winnersh Triangle Wokingham Berkshire RF11 5DZ Englan
42. sband flatness or ripple 1 Press and turn the front panel knob to move marker 1 to the left edge of the passband 2 Press o change the marker 1 position to the delta reference point 3 Press passband 4 Press MARKER FCTN When A markers are on the analyzer calculates the mean standard deviation and peak to peak variation between the A REF marker and the active marker and lists the and turn the front panel knob to move marker 2 to the right edge of the 2 10 Quick Start learning How to Make Measurements results in the upper right corner of the display The passband ripple is automatically shown as the peak to peak variation between the markers Quick Start 2 11 Learning How to Make Measurements Learning to Make Reflection Measurements This example procedure shows you how to measure the reflection response of a bandpass filter The measurement parameter values listed are unique to this particular test device For further measurement examples refer to the Making Measurements chapter in the HP 8753D Option 011 Network Analyzer User s Guide Note Reflection measurements monitor only one port of a test device When a test device has more than one port you must ensure that the unused port s are terminated in their characteristic impedance for example 500 or 759 If you do not terminate unused ports reflections from these ports will cause measurement errors You can connect an unused device port t
43. ss filter The measurement parameters listed are unique to this particular test device For further measurement examples refer to the Optimizing Measurement Results chapter in the HP 8753D Option 011 Network Analyzer User s Guide Step 1 Choose the measurement parameters with the device connected l Connect your test device to the S parameter test set and analyzer combination as shown in Figure 2 2 TEST PORT CABLES TEST DEVICE SRM i dg630do Figure 2 2 Device Connections for a Transmission Measurement Press and choose the following measurement settings m z Change to match the center frequency of your device Change to match the bandwidth of your device MENU POWER GD RETURN D SCALE REF Look at the device response to determine if these are the parameters that you want for your device measurement For example if the trace is noisy you may want to increase the input power reduce the IF bandwidth or add averaging Or to better see an area of interest you may want to change the test frequencies Quick Start 2 5 Learning How to Make Measurements Step 2 Make a measurement calibration 1 Connect a thru between the measurement cables as shown in Figure 2 3 Include all the adapters that you will use in your device measurement If noise reduction techniques are needed for the measurement the instrument s settings reduced IF BW and or averaging should be done prior to any calibration
44. ss the key that corresponds to your printer or plotter interface parallel port serial port NOTE The plotter menu is shown as an example ADDRESS 8753 PLOTTER PORT PRINTER PORT ADDRESS DISK ADDRESS CONTROLLER ADDRESS P OMTR HPIB POWER MTR 4364 RETURN installing Your Analyzer It will only appear if you select you select 7 PLTR TYPE EPLOTTER3 YORE Yup PORTZ WY M Ni G KA ERA tE BAUD RATE XMiT CNTRL Xon Xatf3 RETURN dg615do Similar interface choices will appear if amp If you select the HP IB address is active so you can then set the address of your printer or plotter m If you have already selected the choice for the uration you must also in this menu in order to panel keys NOTE select SYSTEM cs 7 CONTROL WE R TALKER LISTENER USE PASS CONTROL SET ADDRESSES PARALLEL ECOPY HP i18 DIAG on OFF DISK UNIT NUMBER VOLUME NUMBER set program you select SYSTEM coins TALKER LISTENER i USE PASS CONTROL SET ADDRESSES Tre PARALLEL ECOPY HP B DIAG on OFF DiSK UNIT NUMBER VOL UME NUMBER qo 16d ADDRESS 8753 PLOTTER PRINTER PORT ADDRESS DIS ADDRESS CONTROLLER ADDRESS P MTR HPIB POWER MTR 143647 PORT K Bir peace ager ADDRESS 8753 PLOTTER PORT PRINTER PORT ADDRESS DISK ADDRESS CONTROLLE
45. urself with the HP 8753D Option 011 front and rear panels Meet electrical and environmental requirements o GW NO LA Configure the analyzer o standard configuration o option 1D5 configuration high stability frequency reference a printer or plotter configuration c rack mount configuration Verify the analyzer operation or O self test installed options D operator s check c transmission mode o reflection mode 6 Backup the EEPROM disk Installing Your Analyzer 1 1 STEP 1 Verify the Shipment 1 Unpack the contents of all the shipping containers WARNING The HP 8753D Option 011 weighs approximately 73 pounds 33 kilograms Use correct lifting techniques dg tdo 2 Carefully inspect the analyzer to ensure that it was not damaged during shipment dg82do Note If your analyzer was damaged during shipment contact your nearest Hewlett Packard office or sales representative A list of HP sales and service offices is provided at the end of this guide 1 2 Installing Your Analyzer 3 Verify that all the accessories have been inciuded with the analyzer HP 8753D OPTION 011 NETWORK ANALYZER dg amp 83do oomoo 1 nsalation and Quick Start Gude ome 2 users tds esses 2a ers Quick Reference Guide ranas 8 programming Gude orsssmos 4 System veian and Ts Guide MM NM De BM NR M Rack Flange Kit with Handles option 1CP only UIT TIT O E Installing Your Analyzer
46. used features and tells you how to get the most performance from your analyzer The Quick Reference Guide provides a summary of all available user features The Programmer s Guide provides programming information including an HP IB command reference an HP IB programming reference as well as programming examples The System Verification and Test Guide provides the system verification and performance tests and the Performance Test Record for your HP 8753D Option 011 network analyzer Contents Li Installing Your Analyzer STEP 1 Verify the Shipment 0 808002 ee STEP 2 Familiarize Yourself with the HP 8753D Option 011 Front and Rear Panels HP 8753D Option 011 Front Panel ee HP 8753D Option 011 Rear Panel STEP 3 Meet Electrical and Environmental Requirements STEP 4 Configure the Analyzer a To Configure an Option 011 Analyzer with S Parameter Test Set To Configure an Option 011 Analyzer with a Transmission Reflection T R Test Bet Nou cats LAN I Wie AL a cee tens REM a xe He SUM O foe b oes oe ew cient To Configure an Analyzer that has High Stability Frequency Reference Option PS ENSE A AA To Configure an Analyzer with Printers or Plotters To Configure the Analyzer with Cabinet Flange Kits To Attach Handles to the Analyzer Standard 2 To Attach the Cabinet Flanges to an Analyzer Option 1
47. y of interest Read the device s insertion loss to 0 0001 dB resolution as shown in Figure 2 4 to reposition the measurement trace for the best view The analyzer shows the frequency of the marker location in the active entry area upper left corner of display The analyzer also shows the amplitude and frequency of the marker location in the top right corner of the display 20 Jun 2082 84 12 64 CHL Soy jog MAS 28 dB REF 49 dB 8 8296 dB 1 al d Bos pus PNE MAC CETERI Ee I SN SI ae men CERA qc ae seu qun de ir toe mera end CENTER 125 699 624 MHz SPAN 125 9006 ZBE MHz dg643 c Figure 2 4 Example Measurement of Insertion Loss Step 4 Output measurement results In this example procedure you are shown how to output store measurement results to a disk For more information on creating a hardcopy of the measurement results refer to the Printing Plotting or Saving Measurement Results chapter in the HP 8753D Option 011 Network Analyzer User s Guide 1 Insert a DOS or LIF formatted disk into the analyzer disk drive The analyzer does not support LIF HFS hierarchy file system 2 To output the measurement results to a disk press SAVE RECALL 8 stored The following selection determines where saved state will be m Choose if you want the analyzer to show the catalog for the contents of the disk that is in the analyzer s internal disk drive QuickStart 27 Learning How to Ma
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