Data Sheet - Agilent Technologies
Contents
1. SSB phase noise dBc Hz I 200 Loara 1 10 100 1k 10k 100k 1M 10M 100M Mhart foraner I Figure 1 4 SSB phase noise change by LO optimization SPD carrier 1 GHz 5 dBm input start offset frequency 1 Hz reference oscillator narrowband E5052B SSB PN Sensitivity Change by Reference Oscillator Bandwidth 100 MHz terami eyrin y ryw or tratw t tramal basra e yoro i nanam orna rrr rrom rrna ronf annn a TITI erp en ee e Narrow TITIN Bat i i GA f i f 90 e Wide 100 TIN NET EE MERET 110 hae tasik tarii NAN naf an T a a TT Un aaan 120 130 3 phase noise dBc Hz T Ei Ei pai T hon brain Lin hei D 140 TUT TT it ja iii ii TT iit jel 150 1 10 100 1k 10k 100k 1M 10M 100M 160 170 Offset frequency Hz Figure 1 5 SSB phase noise sensitivity change by reference oscillator bandwidth SPD carrier 100 MHz 5 dBm input start offset frequency 1 Hz LO optimization lt 150 kHz Frequency and RF Power DC Supply Current Measurements Table 3 1 Frequency and power measurement performance Description Specification E5052B Specification E5052B 011 RF frequency range 10 MHz to 7 GHz Measurement frequency bands 10 MHz to 1 5 GHz low band 250 MHz to 7 GHz high band Sweep parameters DC control voltage Vc N A DC sup2. RF IN frequency range 10 MHz to 7 GHz RF IN measurement level 20 dBm to 20dBm gt 30 MHz 15 dBm to 20 dBm lt 30 MHz nput attenuator 0 to 35 dB in 5 dB step nput damage level AC gt 23 dBm DC gt 5V nput VSWR 50 ohm 10 MHz to 30 MHz lt 1 6 30 MHz to 2 GHz lt 1 2 2 GHz to 3 GHz lt 13 3 GHz to 4 GHz lt 1 3 typical 4 GHz to 7 GHz lt 1 5 typical Phase Noise Measurement Table 1 2 Phase noise measurement performance Description Specification E5052B Specification E5052B Option 011 RF IN frequency range 10 MHz to 7 GHz easurement frequency bands 10 MHZ to 41 MHz 39 MHz to 101 MHz 99 MHz to 1 5 GHz 250 MHz to 7 GHz RF frequency tracking range 0 4 of carrier frequency easurement parameters SSB phase noise dBc Hz Spurious noise dBc Integrated rms phase deviation deg rad or time jitter s Residual FM Hz rms umber of trace 1 data trace and 1 memory trace with data math functions easurement trigger continuous single hold source internal external manual bus Offset frequency range effective RF carrier signal gt 1 GHz gt 400 MHz for wide capture mode 1 Hz to 100 MHz 1 Hz to 40 MHz wide capture mode 10 Hz to 100 MHz 10 Hz to 40 MHz wide capture mode RF carrier signal lt 1 GHz lt 400 MHz for wide capture mode 1 Hz to 10 of carrier frequency 1
3. 111 132 143 152 168 170 170 170 3 GHz specification 115 124 130 146 160 160 160 SPD 76 01 24 32 39 58 70 70 170 7 GHz specification 08 117 124 140 154 55 156 SPD 69 94 118 126 135 151 165 170 170 Table 1 5 SSB phase noise sensitivity improvement by correlation Table 1 6 E5052B Typical measurement time sec for phase noise Pema aan pa i T 7 000 10 000 LO optimization lt 150 kHz Ref BW narrow correlation 1 RF input 5 dBm Improvement factor 5 dB 10 dB 15 dB 20 dB Stop frequency Hz Start frequency Hz 1 10 100 1k 100k 8 8 2 2 0 28 0 04 1M 8 8 2 2 0 28 0 04 10M 10 2 5 0 32 0 04 40M 10 2 5 0 32 0 04 100M 12 9 3 3 0 41 0 05 Measurement time sec 0 4 Capture range narrow or 0 6 Capture range wide the above value x number of correlation when applying cross correlation function E5052B ONLY For E5052B Option 011 number of correlation 1 Phase Noise Measurement cont d E5052B SSB PN Sensitivity 10 MHz 100 MHz 1 GHz SSB phase noise dBc Hz 200 Lorann 10 100 1k 10k 100k 1M 10M 100M Offset frequency Hz Figure 1 1 SSB phase noise sensitivity E5052B SPD LO lt 150 kHz optimized 5 dBm input start offset frequency 1 Hz measurement time 12 9 sec 5052B SSB PN Sensitivity Improvement by Correlation
4. 1 GHz SSB phase noise dBc Hz Figure 1 3 SSB phase noise sensitivity improvement by correlation E5052B SPD carrier 1 GHz LO lt 150 kHz optimized 5 dBm input start offset frequency 1 Hz Spectrum Monitor Measurement Table 2 1 Spectrum monitor performance Specification 10 MHz to 7 GHz Description RF frequency range onitoring span 15 MHz maximum with linear scale RBW 1 53 Hz to 400 kHz dBm dBV watt volt dBm Hz dBV Hz watt Hz V VHz easurement parameters Absolute measurement uncertainty 2 dB typical 10 dBm att 10 dB Relative measurement uncertainty 1 5 dB 60 dBm to 10 dBm ratio Residual noise floor 95 dBm typical RBW 24 4 Hz continuous single hold source internal external manual bus easurement trigger 5052B 011 SSB PN Sensitivity 200 LR AAN 1 10 100 1k 10k 100k 1M 10M 100M Offset frequency Hz Figure 1 2 SSB phase noise sensitivity E5052B Option 011 SPD LO lt 150 kHz optimized 5 dBm input start offset frequency 10 Hz measurement time 3 3 sec 5052B SSB PN Sensitivity Change by L O Phase Optimization 1 GHz 60 H H lt 150 kHz opt MI gt 150 kHz opt
5. 0 1m 0 2m 0 5m 1m 2m 5m 10m 20m 50m 0 1 0 2 0 5 1 2 5 10 Time resolution s 8n 16n 40n 80n 0 16y 04u 1p 2u Sp 10p 20u 50p 125 yp 250p 625p 1 25m 2 5m 6 25m 12 5m Measurement point 1251 1251 1251 1251 1251 1251 1001 1001 1001 1001 1001 1001 801 801 801 801 801 801 801 Frequency resolution Hz 7k 2 5k 879 311 Table 4 5 Narrowband mode 1 6 MHz span frequency resolution vs time span Time span s 0 1m 0 2m 0 5m 1m 2m 5m 10m 20m 50m 01 02 0 5 1 2 5 10 Time resolution s 0 13 p 10 26 u 0 64 p10 64u 1 28 u 3 2p 64u 16u 80u 160p 320p 800n 1 6m 3 2m 8m 16m Measurement point 783 783 783 1564 1564 1564 1564 1251 626 626 626 626 626 626 626 626 Frequency resolution Hz 110 39 13 7 4 9 Table 4 6 Narrowband mode 200 kHz span frequency resolution vs time span Time span s Im 2m 5m 10m 20m 50m 0 11 0 21 0 51 1 2 5 101 Time resolution s Tul 291 Spt 10pu1 20p1 51 p1 128 p 256 p 640 py 11 28m 2 56m 6 4m 12 8m Measurement point 978 978 978 978 978 978 783 783 783 783 783 783 783 Frequency resolution Hz 4 9 4 9 1 72 0 61 0 21 Table 4 7 Narrowband mode 25 kHz span frequency resolution vs time span Time span s 10m 20m 150m1 0 11 0 21 0 51 1 2 5 10 Time resolution s 8 2 u 16 4u 41u 82u 164p 410p 1 02m 2 05m 5 12 m 10 24m Measurement point 1222 122
6. 105 120 124 140 149 153 26 5 GHz 104 117 122 137 146 150 Table 10 2 A System AM noise sensitivity dBc Hz E5053A E5052B SPD correlation 1 RF input 0 dBm gt 400 MHz AM noise sensitivity Offset frequency Hz from the carrier 1 10 100 1k 10 k 100 k 1M 10M 40M E5052B start frequency 1 Hz measurement time 13 s 3 to 10 GHz 100 110 117 127 130 137 137 137 10 to 26 5 GHz 100 110 117 127 129 129 129 129 E5052B 011 Option 011 start frequency 10 Hz measurement time 3 3 s 3 to 10 GHz 97 107 114 124 127 134 134 134 10 to 26 5 GHz 97 107 114 124 126 126 126 126 E5052B E5053A System SSB PN Sensitivity SPD SSB phase noise dBc Hz b 100 100k Offset frequency Hz Figure 10 2 System phase noise sensitivity E5053A E5052B SPD 1M 10M 100M 17 26 4 GHz 18 GHz 16 2 GHz 3 GHz Figure 10 3 Measurement samples for the ultra low noise N5507A LO System Performance with the E5053A Microwave Downconverter cont d About mmW pplication Phase noise measurements above 26 5 GHz can be done by using external harmonic mixers such as Agilent 11970 series and a power divider splitter with E5053A LO and IF terminals The E5052B s mmW application software sets up appropriate LO frequencies for the harmonic mixers E5053A Mic
7. 0 Hz to 10 of carrier frequency Phase noise uncertainty at effective offset frequencies Offset 1 Hz to 10 Hz 4 dB SPD N A Offset 10 Hz to 100 Hz 4 dB SPD Offset 100 Hz to 1 kHz 3 dB Offset 1 kHz to 40 MHz 2 dB 3 dB for wide capture range mode Offset 40 MHz to 100 MHz 3 dB SSB phase noise sensitivity See Table 1 3 1 4 1 5 Figure 1 1 1 2 1 3 F gain setting 0 dB to 50 dB in 10 dB step not available in wide capture mode 0 dB to 30 dB in 10 dB step not available in wide capture mode Enhanced sensitivity Cross correlation method available N A Number of correlation 1 to 10 000 See Table 1 5 and Figure 1 3 Built in LO phase noise optimization lt 150 kHz optimized for better close in phase noise measurement gt 150 kHz optimized for better far out phase noise measurement See Figure 1 4 Reference oscillator bandwidth optimization Narrow Wide See Figure 1 5 Residual spurious response level lt 80 dBc SPD at gt 10 kHz offset frequency with correlation gt 120 sec except for 23 5 MHz 1 MHz and 71 MHz 3 MHz of carrier frequency lt 65 dBc typical at 1 kHz to 10 kHz offset frequency easurement time See Table 1 6 easurement range Capture mode Normal or Wide PN mode Regular RBW Auto X axis Offset frequency in log scale Segment PN mode RBW 96 mHz to 25 kHz stepped Maximum offset N A freque
8. 00090 052000000000000 f 2000000000000000 Figure 8 2 Rear view 23 4 ab 416 8 ma 32 8L L997 6 cl Figure 8 3 Side view 14 Display Funtions Table 9 1 Display functions windows and traces Description General characteristics Measurement windows Up to 6 windows and 1 user definable window User definable window 8 data traces and 8 memory traces Trace functions Data traces Display current measurement data and or memory data Trace math Addition subtraction multiplication or division of trace data Title Add customized title to each measurement window Titles are printed on hard copies of displayed measurements Auto scale Automatically selects scale resolution and reference value to vertically center the trace Statistics Calculates and displays mean standard deviation and peak to peak deviation of the trace Marker functions Data markers Marker search Marker to Searching range Tracking 10 independent markers per trace Reference marker available for delta marker operation Maximum value minimum value peak peak left peak right target target left target right multi peak and band markers with user definable bandwidth value Set start stop center to active marker stimulus value Set reference to act
9. 103 117 131 142 151 154 158 159 E5052B 011 Option 011 start frequency 10 Hz measurement time 3 3 s specification 124 135 144 147 151 152 typical 100 114 128 139 148 151 155 156 1 AM noise measurement uncertainty specified at 10 MHz and 1 GHz of carrier frequency with 0 dBm level AM level gt 60 dBc 10 Baseband Noise Measurement Table 6 1 Baseband noise measurement performance Description Specification Baseband input connector BNC 50 ohm nominal AC coupled easurement frequency range 1 Hz to 100 MHz E5052B 10 Hz to 100 MHz E5052B Option 011 easurement parameters dBV Hz dBm Hz V VHz easurement level range lt 5 dBm Baseband input damage level gt 23 dBm gt 35 V DC oise floor level See Table 6 2 easurement uncertainty 4 dB lt 1 kHz SPD 2 dB gt 1 kHz typical easurement trigger continuous single hold source internal external manual bus Table 6 2 Baseband noise floor dBm Hz correlation 1 baseband input 0 ohm terminated BB noise floor Baseband frequency Hz 1 10 100 1k 10 k 100 k 1M 10M 40M 100 M E5052B start frequency 1 Hz measurement time 13 s specification 151 158 163 160 160 156 156 typical 119 132 145 155 162 167 164 164 160 160 E5052B Option 011 start frequency 10 Hz measurement speed 3 3 s specification 1
10. 2 1222 1222 1222 1222 978 978 978 978 Frequency resolution Hz 0 21 0 08 0 03 0 01 Table 4 8 Narrowband mode 3 125 kHz span frequency resolution vs time span Time span s 0 11 0 2 0 5 1 2 5 10 Time resolution s 65 u1 131 p1 328 yt 655 1 31 m 3 3m 8 2 m Measurement point 1527 1527 1527 1527 1527 1527 1222 Frequency resolution Hz 0 01 3m 1m 0 4m 1 Means approximately AM Noise Measurement Table 5 1 AM noise measurement performance Description Specification RF frequency range 60 MHz to 7 GHz Effective offset frequency range 10 Hz to 40 MHz gt carrier 400 MHz 10 Hz to 10 of carrier frequency lt carrier 400 MHz AM noise sensitivity See Table 5 2 Measurement uncertainty 4 dB 100 Hz to 1 kHz offset typical 2 dB 1 kHz to 1 MHz offset typical 3 dB 1 MHz to 40 MHz offset typical Spurious level lt 65 dBc Hz at gt 1 kHz offset typical Measurement trigger continuous single hold source internal external manual bus Table 5 2 AM noise sensitivity dBc Hz correlation 1 RF input 0 dBm gt 400 MHz AM noise sensitivity Offset frequency Hz from the carrier 1 10 100 1k 10 k 100 k 1M 10 M 40M E5052B start frequency 1 Hz measurement time 13 s specification 127 138 147 150 154 155 typical
11. 48 155 160 157 160 156 156 typical 129 142 152 159 164 161 164 160 160 Internal Timebase Table 7 1 Internal timebase 0CX0 performance Description Specification Frequency uncertainty 5 Hz at 10 MHz 0 5 ppm Frequency temperature coefficient lt 0 5 ppb degC Frequency aging rate lt 0 5 ppb day 24 hours after a cold start for lt 30 days continuous operation 1 Baseband measurement uncertainty specified at gt 60 dBm level 11 General Information Table 8 1 Front panel information Description Supplemental information nominal Connectors terminals RF IN Type N female 50 ohm Baseband IN BNC female 50 ohm AC coupled DC power BNC female DC control BNC female 50 ohm RF1 RF2 IN OUT SMA female 50 ohm See the simplified block diagram USB 2 ports designed for USB2 0 Probe DC power output 15 V 150 mA maximum 12 6 V 150 mA maximum Ground terminal 1 Display 10 4 inch TFT color LCD with touch screen 1 024 x 768 resolution Table 8 2 Rear panel information Description Supplemental information nominal External trigger input port Connector Input signal level BNC female TTL level 0 V to 5 V Threshold Low 0 5 V High 2 1V Trigger pulse width gt 2 us Trigger polarity positive negative edge selectable Auxiliary output port Connector BNC
12. 5 Hz to 500 Hz See Figure 10 6 10 7 10 8 11 kg AD E5053A Microwave Downconverter Specifications and General Information Summary cont d Table 10 6 E5053A LO phase noise performance dBc Hz RF input frequency Offset frequency Hz from the carrier 1 10 100 1k 10 k 100 k 1M 10M 40M 100 M 3 GHz specification 110 116 113 127 140 140 140 typical 49 79 94 114 120 117 131 144 144 144 6 GHz specification 104 110 109 123 140 140 140 Typical 43 73 88 108 114 113 127 144 144 144 10 GHz specification 100 103 102 119 140 140 140 typical 39 69 84 104 107 106 123 144 144 144 E5053A LO Phase Noise typical gee E a as ree SSB phase noise dBc Hz i fi if fi fi fi fi 1 10 100 1k 10k 110k 1M 10M 100M Offset frequency Hz Figure 10 5 E5053A LO phase noise typical Web Sources Visit our Signal Source Analyzer Web site for additional product information and literature http www agilent com find ssa Phase noise measurements http www agilent com find phasenoise 12 9 Jitter measurements http www agilent com find jitter RF and microwave accessories http www agilent com find accessories 132 7 20 132 7 Figur
13. Agilent E5052B Signal Source Analyzer 10 MHz to 7 GHz 26 5 GHz or 110 GHz Data Sheet Anticipate ___Accelerate Achieve Eee Agilent Technologies Definitions All specifications apply over a 23 C 5 C range unless otherwise stated and 30 minutes after the instrument has been turned on All specified and supplemental values for RF input signals are applicable to sinusoidal wave carriers unless otherwise noted Specification spec Warranted performance Specifications include guard bands to account for the expected statistical performance distribution measurement uncertainties and changes in performance due to environmental conditions Following supplemental information is intended to provide information that is helpful for using the instrument but that is not guaranteed by the product warranty Typical typ Describes performance that will be met by a minimum of 80 of all products It is not guaranteed by the product warranty Supplemental performance data SPD Represents the value of a parameter that is most likely to occur the expected mean or average It is not guaranteed by the product warranty General characteristics or nominal nom A general descriptive term that does not imply a level of performance It is not guaranteed by the product warranty RF Input Port Table 1 1 RF IN port Description Specification RF IN connector Type N female 50 ohm nominal
14. cification 111 120 127 143 157 158 159 SPD 43 74 99 A21 129 138 154 171 174 175 Table 1 3 W SSB phase noise sensitivity dBc Hz in wide capture range mode E5052B SPD LO optimization lt 150 kHz Ref BW narrow correlation 1 RF input 5 dBm start offset frequency 1 Hz measurement time 12 9 sec RF input frequency Offset frequency Hz from the carrier 1 10 100 1k 10 k 100 k 1M 10M 40M 1 GHz SPD 108 128 144 155 160 160 3 GHz SPD 107 119 134 150 158 158 7 GHz SPD 107 112 126 146 156 156 Table 1 4 SSB phase noise sensitivity dBc Hz in normal capture range mode E5052B Option 011 LO optimization lt 150 kHz Ref BW narrow correlation 1 RF input 5 dBm start offset frequency 10 Hz measurement time 3 3 sec RF input frequency Offset frequency Hz from the carrier 10 100 1k 10 k 100 k 1M 10M 40 M 100 M 10 MHz specification 35 147 160 160 SPD 120 35 51 63 70 70 100 MHz specification 142 152 154 156 159 SPD 107 128 149 160 168 170 170 1 GHz specification 125 134 141 157 160 160 160 SPD 86
15. e 10 6 Front view 31 9 fel Clare Gren ni io e 132 7 416 7 Figure 10 8 Side view 125 7 18 LAI WARRANTY myAgilent www agilent com find myagilent A personalized view into the information most relevant to you www lxistandard org LAN eXtensions for Instruments puts the power of Ethernet and the Web inside your test systems Agilent is a founding member of the LXI consortium Three Year Warranty www agilentcom find ThreeYearWarranty Beyond product specification changing the ownership experience Agilent is the only test and measurement company that offers three year warranty on all instruments worldwide Agilent Assurance Plans www Agilent com find AssurancePlans Five years of protection and no budgetary surprises to ensure your instruments are operating to specifications and you can continually rely on accurate measurements www agilent com quality Agilent Electronic Measurement Group DEKRA Certified ISO 9001 2008 Quality Management System Agilent Channel Partners www agilent com find channelpartners Get the best of both worlds Agilent s measurement expertise and product breadth combined with channel partner convenience www agilent com For more information on A
16. female Output signal level TTL level L 0 V H 5 V 50 mA max pulse width 1 us Reference output port Connector BNC female 50 ohm Output frequency same as timebase Output level 2 5 dBm 2 dB typical Output signal waveform Sinusoidal wave Reference input ports Connector Input frequency Input signal level Ref In 1 Ref In 2 BNC female 50 ohm 10 MHz 10 Hz 0 dBm to 10 dBm PC connection ports 24 BIT 1 0 parallel port GPIB port USB host ports USB USBTMC2 port LAN port Video output port 36 pin D sub female connector to a handler system TTL level 8 bit 1 0 16 bit Out 24 pin D sub female connector compatible with IEEE 488 4 type A compatible with USB 2 0 1 type B compatible with USBTMC USB488 and USB 2 0 10 100 base T ethernet 15 pin mini D sub female connector drives XGA compatible monitors AC power line a third wire ground is required AC frequency AC voltage AC power 47 Hz to 63 Hz 90 to 132 V or 198 to 264 V automatically selected 500 VA maximum 1 Valid pixels gt 99 998 Below 0 002 of fixed points of black blue green or red are not regarded as failures 2 USB test and measurement class TMC interface that communicates over USB complying with the IEEE 488 1 and IEEE 488 2 standards 12 General Information cont d Table 8 3 Analyzer environment and dimensions Description Supplemental information nominal Operating envir
17. fset frequency gt 300 Hz typical IF inputs Input connector Frequency range Maximum input level IF gain Noise floor Mixer bias current SMA female 50 ohm nominal 250 MHz to 1 250 MHz 0 dBm typical 0 dB to 35 dB in 5 dB step lt 162 dBm Hz SPD 10 mA to 10 mA 19 External reference signal input port Input connector Input frequency Input level BNC female 50 ohm nominal 10 MHz 10 Hz typical 6 dBm to 6 dBm typical Internal reference signal output port Output connector Output frequency Output level USB port BNC female 50 ohm nominal 10 MHz 50 Hz typical 2 5 dBm 3 dB typical type B female provides connection to E5052A B AC power Line a third wire ground is required AC frequency AC voltage AC power 47 Hz to 63 Hz 90 V to 132 V or 198 V to 264 V automatically selected 120 VA maximum Table 10 5 Analyzer environmental and dimensions Description Supplemental information nominal Operating environment Temperature Humidity Altitude Vibration 10 degC to 40 degC RH 20 to 80 at wet bulb temp lt 29 degC non condensing 0 to 2 000 m 0 to 6 561 feet 0 21 G maximum 5 Hz to 500 Hz Non operating storage environment Temperature Humidity Altitude Vibration Instrument dimensions Weight NET 10 degC to 60 degC H 20 to 90 at wet bulb temp 40 degC non condensing 0 4 572 m 0 to 15 000 feet 0 5 G maximum
18. gilent Technologies products applications or services please contact your local Agilent office The complete list is available at www agilent com find contactus Americas Canada 877 894 4414 Brazil 11 4197 3600 Mexico 01800 5064 800 United States Asia Pacific 800 829 4444 Australia 1 800 629 485 China 800 810 0189 Hong Kong 800 938 693 India 1 800 112 929 Japan 0120 421 345 Korea 080 769 0800 Malaysia 1 800 888 848 Singapore 1 800 375 8100 Taiwan 0800 047 866 Other AP Countries 65 375 8100 Europe amp Middle East Belgium 32 0 2 404 93 40 Denmark 45 45 801215 Finland 358 0 10 855 2100 France 0825 010 700 0 125 minute Germany 49 0 7031 464 6333 lreland 1890 924 204 Israel 972 3 9288 504 544 Italy 39 02 92 60 8484 Netherlands 31 0 20 547 2111 Spain 34 91 631 3300 Sweden 0200 88 22 55 United Kingdom 44 0 118 927 6201 For other unlisted countries www agilent com find contactus BP 09 27 13 Product specifications and descriptions in this document subject to change without notice Agilent Technologies Inc 2013 Published in USA November 26 2013 5989 6388EN ae Agilent Technologies
19. h USBTMC and SCPI protocols The instrument can be controlled by an external PC using the USB interface with a USB cable 10 100 base T Telnet SICL LAN Optional Application Software Table 9 3 E5001A SSA J precision clock jitter analysis software Description General characteristics Measurement functions RJ random jitter PJ periodic jitter frequency PJ decomposition with auto trend correction Measurement parameters RJ rms PJ frequency rms p p 6 6 TJ total jitter p p jitter trend phase deviation waveform jitter histogram Jitter spectrum analysis range 1 Hz to 100 MHz E5052B 10 Hz to 100 MHz E5052B Option 011 15 System Performance with the E5053A Microwave Downconverter The system performance is the combination of the E5052B SSA and the E5053A microwave downconverter All data is typical performance Table 10 1 System performance characteristics Description Performance characteristics RF input port Input connector Frequency range Input level Carrier search range APC 3 5 female 50 ohm nominal E5053A input 10 MHz to 3 GHz E5052B RF IN port 3 to 26 5 GHz E5053A Input port 3 to 10 GHz frequency band fundamental mixing 9 to 26 5 GHz frequency band third harmonics mixing 15 to 20 dBm 10 MHz to 3 GHz E5052B RF IN port 30 to 10 dBm 3 to 10 GHz frequency band 20 to 5 dBm 9 to 26 5 GHz frequency band 10 to 10 dBm 3 to 10 GHz fre
20. imited up to 99 9 MHz when frequency range is 9 to 26 5 GHz frequency band E5053A microwave downconverter Fundamental or 3rd harmonic mixing 5052B signal source analyzer Figure 10 1 E5053A with E5052B simplified block diagram 16 System Performance with the E5053A Microwave Downconverter cont d Table 10 2 System SSB phase noise sensitivity dBc Hz in normal capture range mode E5053A E5052B SPD 0 dBm input start offset frequency 1 Hz correlation 1 LO optimization lt 150 kHz measurement time 13 sec Input frequency Offset frequency Hz from the carrier 1 10 100 1k 10k 100 k 1M 10M 40M 100 M 3 GHz 48 79 99 124 135 137 153 164 167 167 10 GHz 38 72 91 116 124 128 147 156 160 160 18 GHz 33 66 85 110 121 125 141 150 154 154 26 5 GHz 30 63 82 107 118 122 138 147 151 151 Table 10 2 W System SSB phase noise sensitivity dBc Hz in wide capture range mode E5053A E5052B SPD 0 dBm input start offset frequency 1 Hz correlation 1 LO optimization lt 150 kHz measurement time 13 sec Input frequency Offset frequency Hz from the carrier 1 10 100 1k 10 k 100 k 1M 10M 40M 3 GHz 107 127 136 150 158 159 10 GHz 107 122 127 146 154 157 18 GHz
21. ion 10 us to 10 s in 1 2 5 step in advanced mode maximum time span time resolution 10 000 up to 1000 sec See Table 4 2 through 4 8 in details 8 ns to 10 ms See Table 4 2 to 4 8 in details Measurement trigger Trigger mode Trigger source External trigger polarity Video trigger Video filter time constant Pre trigger delay External trigger delay adjustment External trigger detection jitter continuous single hold internal external manual bus wide video narrow video positive negative TTL level positive negative frequency band in frequency band out 160 ns to 41 ps 80 of time span to 1 s 0 to 1 ps lt 1 us time resolution 1 Equation is based on simplified model of phase noise characteristic of local oscillator in the E5052B Transient Measurement Wideband Mode Table 4 2 Wideband mode frequency resolution vs time span and frequency band Wideband mode Transient time span X axis setting Time span s 10u 20u 50p 01m 0 2m 0 5m 1m 2m 5m 10m 20m 50m 0 1 0 2 0 5 1 2 5 10 Time resolution s 8n 16n 40n 80n 016p 04u 1p 2p Su py 20p 50u 125pu 250p 625u 1 25m 2 5m 6 25m 12 5 m Measurement point 1251 1251 1251 1251 1251 1251 1001 1001 1001 1001 1001 1001 801 801 801 801 801 801 801 Frequency band GHz Frequency resolut
22. ion Hz 0 05 to 0 15 28 k 9k 3k 1k 0 1 to 0 3 56 k 19k 7k 2k 0 2 to 0 6 112k 39k 14 4k 0 3 to 0 9 168 k 59k 21k 7k 0 4 to 1 2 225 k 79k 28 9k 0 5 to 1 5 281 k 99k 35 12k 0 6 to 1 8 337 k 119k 42k 14k 0 8 to 2 4 450 k 159k 56 19k 1 0 to 3 0 562 k 198k 70 24 k 1 2 to 3 6 675 k 238k 84k 29 k 1 4 to 4 2 787k 278k 98k 34 k 1 6 to 4 8 900 k 318k 112k 39 k 1 8 to 5 4 1 012 M 357 k 126 k 44 k 2 0 to 6 0 1 125 M 397 k 140 k 49 k 2 2 to 6 6 1 237 M 437 k 154k 54k 2 4 to 7 2 1 35 M 477 k 168 k 59 k Transient Measurement Narrowband Mode Table 4 3 Narrowband mode 80 MHz span frequency resolution vs time span Time span s 10u 20p 50u 0 1m 0 2m 0 5m 1m 2m 5m 10m 20m 50m 0 1 0 2 0 5 1 2 5 10 Time resolution s 8n 16n 40n 80n J0 16p 04yp 1u 2u Sp 10p 20p 50p 125p 250 py 625 1 25m 2 5m 6 25m 12 5m Measurement point 1251 1251 1251 1251 1251 1251 1001 1001 1001 1001 1001 1001 801 801 801 801 801 801 801 Frequency resolution Hz 7k 2 5k 879 Table 4 4 Narrowband mode 25 6 MHz span frequency resolution vs time span Time span s 10p 20u 50p
23. ive marker response value User definable Performs marker search continuously or on demand Data Processing Capabilities Table 9 2 Data processing capabilities Description General characteristics Graphical user interface The analyzer employs a graphical user interface based on Windows OS There are three ways to operate the instrument manually you can use a hard key interface a touch screen interface or a mouse interface Limit line test Define the test limit that appears on the display for pass fail testing Defined limits may be any combination of horizontal or sloping lines and discrete data points Data storage Internal removable HDD File sharing Screen hard copy Store and recall instrument states and trace data on internal removable hard disk drive Instrument states include all control settings and memory trace data Files on user disk drive F can be accessed from an external Windows PC through LAN or USB USB TMC Print outs of instrument data are directly produced on a printer via USB Automation Built in VBA Controlling via GPIB or USB Controlling via USBTMC LAN Applications can be developed in a built in VBA Visual Basic for Applications language The GPIB interface operates with IEEE488 2 and SCPI protocols The instrument can be controlled by a GPIB external controller The instrument can control external devices using a USB GPIB interface The USB interface operates wit
24. ncy span 93 2 Hz to 24 4 MHz stepped X axis Offset frequency in liner scale 1 Wide capture mode is available for 250 MHz to 7 GHz only 2 Phase noise uncertainty specified at 10 MHz and 1 GHz of carrier frequency with 0 dBm level PN level gt 60 dBc 3 Segment PN mode is available with the firmware revision 3 20 or later In this datasheet specification of phase noise sensitivity residual spurious response level and measurement time are applicable to the regular PN mode In the segment PN mode number of these parameters depend on the measurement setting For more detail refer to the user s manual Phase Noise Measurement cont d Table 1 3 SSB phase noise sensitivity dBc Hz in normal capture range mode E5052B LO optimization lt 150 kHz Ref BW narrow correlation 1 RF input 5 dBm start offset frequency 1 Hz measurement time 12 9 sec RF input frequency Offset frequency Hz from the carrier 1 10 100 1k 10 k 100 k 1M 10M 40M 100 M 10 MHz specification 148 156 166 168 SPD 100 131 151 164 172 1178 178 100 MHz specification 147 156 163 168 170 SPD 80 111 136 154 164 171 175 178 1 GHz specification 28 137 144 160 170 168 69 SPD 60 91 16 35 146 155 171 178 178 77 3 GHz specification 118 127 133 149 163 164 165 SPD 50 81 106 127 135 142 161 175 177 177 7 GHz spe
25. ng resolution 0 1 mV Setting uncertainty 0 1 of setting 15 V 5 mV Vc 15 V to OV 0 1 of setting 2 mV Vc 0 to 35 V Maximum output current 20 mA Noise level 1 nVrms VHz 10 kHz Vc 0 to 20V 1 5 nVrms VHz 10 kHz Vc otherwise Output resistance lt 50 ohm DC Output settling time lt 20 ms 0 1 uncertainty Measurement trigger continuous single hold source internal external manual bus Transient Measurement Table 4 1 Transient measurement performance Description Specification Target frequency range 10 MHz to 7 GHz Measurement parameters Narrowband mode Frequency RF power phase Wideband mode Frequency Frequency transient bandwidth Wideband See Table 4 2 Narrowband 3 125 kHz 25 kHz 200 kHz 1 6 MHz 25 6 MHz gt carrier 200 MHz 80 MHz gt carrier 800 MHz Frequency measurement Resolution Uncertainty Residual FM See Table 4 2 through Table 4 8 resolution time base uncertainty 1 25 0 2f3N1 11f3 Hz_ GHz SPD f resolution RF power measurement Power level range Resolution Uncertainty 20 dBm to 20 dBm 0 1 dB 2 dB typical Phase measurement when DUT signal is locked to a target frequency Uncertainty Trace noise Stability 0 1 deg 0 1 deg GHz typical 0 02 deg 0 02 deg GHz s typical 10 deg sec typical Sweep measurement time Time span Time resolut
26. onment Temperature Humidity Altitude Vibration 10 degC to 40 degC RH 20 to 80 at wet bulb temp lt 29 degC non condensing 0 to 2 000 m 0 to 6 561 feet 0 21 G maximum 5 Hz to 500 Hz Non operating storage environment Temperature Humidity Altitude Vibration Instrument dimensions Weight NET 10 degC to 60 degC RH 20 to 90 at wet bulb temp lt 40 degC non condensing 0 to 4 572 m 0 to 15 000 feet 0 5 G maximum 5 Hz to 500 Hz See Figure 8 1 8 2 8 3 24 5 kg Table 8 4 LXI compliance LXI LAI Class C only applies to units that are shipped with firmware revision A 03 10 or later Table 8 5 EMC safety and WEEE ISM 1 A ICES NMB 001 European Council Directive 89 336 EEC 92 31 EEC 93 68 EEC EC 61326 1 1997 A1 1998 A2 2000 EN 61326 1 1997 A1 1998 A2 2001 CISPR 11 1997 A1 1999 A2 2002 EN 55011 1998 A1 1999 A2 2002 EC 61000 4 2 1995 A1 1998 A2 2001 EN 61000 4 2 1995 A1 1998 A2 2001 EC 61000 4 3 1995 A1 1998 A2 2001 EN 61000 4 3 1996 A1 1998 A2 2001 EC 61000 4 4 1995 A1 2001 A2 2001 EN 61000 4 4 1995 A1 2001 A2 2001 EC 61000 4 5 1995 A1 2001 EN 61000 4 5 1995 A1 2001 EC 61000 4 6 1996 A1 2001 EN 61000 4 6 1996 A1 2001 EC 61000 4 11 1994 A1 2001 EN 61000 4 11 1994 A1 2001 This ISM device complies with Canadian ICES 001 1998 Cet appareil ISM est conforme a la norme NMB 001 du Canada AS NZS 2064 1 Group 1 Class A Group 1 Cla
27. ply voltage Vs Vc and Vs constant Measurement parameters Full analysis capability available for No Analysis mode Frequency Hz AHz ppm Only Meter mode is available Tuning sensitivity Af AVc Hz V frequency pushing Frequency Hz Af AVs Hz V RF power dBm RF power level dBm DC supply current A DC supply current A Meter mode is also available Frequency resolution 10 Hz 1 kHz 64 kHz Frequency uncertainty frequency resolution time base uncertainty RF power measurement range 20 dBm to 20 dBm carrier 30 MHz to 7 GHz 15 dBm to 20 dBm carrier 10 MHz to 30 MHz RF power resolution 0 01 dB RF power uncertainty by peak detection 0 5 dB carrier 30 MHz to 3 GHz gt 10 dBm 1 dB other than the above DC Vs current measurement range 0 to 80 mA DC Vs current resolution 10 pA DC Vs current uncertainty 0 2 of reading 160 pA Swept measurement points 2 to 1 001 N A DC supply voltage source Vs output Setting range 0 to 16 V sweep 0 to 16 V one point Setting resolution 1mV Setting uncertainty 0 2 of setting 2 mV Maximum output current 80 mA Noise level lt 10 nVrms VHz 10 kHz typical Output resistance lt 0 3 ohm typical DC control voltage source Vc output Setting range 15 V to 35 V sweep 15 V to 35 V one point Setti
28. quency band 10 to 5 dBm 9 to 26 5 GHz frequency band Phase noise measurement SSB phase noise sensitivity Frequency tracking range See Table 10 2 Figure 10 2 and Figure 10 3 1 8 MHz lt 4 9 GHz carrier in 3 to 10 GHz frequency band 2 8 MHz gt 4 9 GHz carrier in 3 to 10 GHz frequency band 1 3 MHz lt 10 GHz carrier in 9 to 26 5 GHz frequency band 2 6 MHz gt 10 GHz carrier in 9 0 26 5 GHz frequency band Spectrum monitor measurement Frequency span RBW resolution bandwidth Level uncertainty 5 MHz maximum 1 53 Hz to 400 kHz 4dB Frequency amp RF power measurement Frequency measurement resolution RF power measurement uncertainty 10 Hz 1 kHz or 64 kHz 2 dB 10 MHz to 3 GHz E5052B RF IN port 3 dB low band 3 to 10 GHz 4 dB high band 9 to 26 5 GHz Power uncertainty can be improved by applying the user power cal function Transient measurement Wideband frequency range Narrowband frequency range RF power measurement uncertainty 50 MHz to 3 GHz E5052B RF IN port 500 MHz E5053A Input port 3 125 kHz 25 kHz 200 kHz 1 6 MHz 25 6 MHz or 80 MHz 2 dB 10 MHz to 3 GHz E5052B RF IN port 3 dB low band 3 to 10 GHz 4 dB high band 9 to 26 5 GHz Power uncertainty can be improved by applying the user power cal function 1 Segment PN mode is available with the firmware revision 3 20 or later In segment PN mode offset frequency range is l
29. rowave downconverter Lo 3 to 10 GHz 50 MHz step g 16 dBm up to 6 GHz Harmonic aaa heii 10 dBm up to 10 GHz mixer xN ko J To E5052B RF RF2 IN mmWave Source KAKAK e Power IF Gain divider po ss eB Af 4 To EG0528 RF1IN Harmonic mixer Figure 10 4 System set up for harmonic mixers E5053A E5052B Table 10 2 H Frequency band example of phase noise measurement with mmW harmonic mixers Mixer model Frequency band N 11970A 26 5 to 40 GHz 8 119700 33 to 50 GHz 10 11970U 40 to 60 GHz 10 11970V 50 to 75 GHz 14 11970W 75 to 110 GHz 18 18 E5053A Microwave Downconverter Specifications and General Information Summary Table 10 3 E5053A front ports Table 10 4 General information Description Specification Description Supplemental information nominal RF Input port Input connector Frequency range Input level Input damage level APC 3 5 female 50 ohm nominal 3 GHz to 26 5 GHz 3 GHz to 10 GHz fundamental mixing 9 GHz to 26 5 GHz third harmonics mixing lt 10 dBm 3 GHz to 10 GHz band lt 5 dBm 9 GHz to 26 5 GHz band gt 23 dBm LO outputs Output connector Output frequency Frequency resolution Output power LO spurious SMA female 50 ohm nominal 3 GHz to 10 GHz 50 MHz 10 dBm to 16 dBm 3 GHz to 6 GHz 10 dBm to 15 dBm 6 GHz to 10 GHz lt 55 dBc of
30. ss A 4kVCD 8kVAD 3 V m 80 1000 MHz 80 AM 1 kV power 0 5 kV signal 0 5 kV normal 1 kV common 3 V 0 15 80 MHz 80 AM 100 1 cycle Safety European Council Directive 73 23 EEC 93 68 EEC IEC 61010 1 2001 Measurement category EN 61010 1 2001 Pollution degree 2 ISM 1 A EC60825 1 1994 indoor use Class 1 LED Measurement category GR LR95111c CAN CSA C22 2 61010 1 04 Pollution degree 2 Indoor use WEEE pd European Council Directive 2002 96 EC 13 General Information cont d 1992 ves VILE 425 6 HE Aglan Tecnologies NENG g g g g aaa i Oooo ogag Hos 205 2 lt gt Q59 Bo 5G 0650 HO 88 SAH Ey EC BS papa pai ron 174 7 Figure 8 1 Front view 197 02 giz 426 422 vel 801 20 128 42qJ2q24262 2020242 28oFo80808o808 0808080 QBoFososososogogosogo 0000090000000009 OBogqososogosogososogo QSosoSo8o8o80808osogo9 O8GLo8oSo8o8o8o8o8G8o SoSBosososo808o o G o 959d009090909090 5 67 090909090 09902090909090 0809080308080809 2 4 H o d A l iy i 3 j 0925990529920 1 2899999999999999 1 8080202090200090 1 1 20909090909
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