Data Sheet - Electro Rent Corporation
Contents
1. gt 3 kHz gt 10kHz offset offset 250 kHz to 250 MHz lt 65 dBc 58 dBc 250 MHz to 500 MHz 80 dBc 80 dBc 500 MHz to 1 GHz 80 dBc 80 dBc 1 to 2 GHz 14 dBc lt 74 dBc 2 to 4 GHz 68 dBc lt 68 dBc 4 to 6 GHz 82 dBc lt 62 dBc Subharmonics lt 1 GHz gt 1 GHz None Jitter in pUI s Carrier SONET SDH rms jitter frequency data rates bandwidth uU rms 155 MHz 155 MB s 100 Hz to 1 5 MHz 78 622 MHz 622 MB s 1 kHz to 5 MHz 46 2 488 GHz 2488 MB s 5 kHz to 15 MHz 74 Jitter in seconds Carrier SONET SDH rms jitter frequency data rates bandwidth 155 MHz 155 MB s 100 Hz to 1 5 MHz 0 6 ps 622 MHz 622 MB s 1 kHz to 5 MHz 74 fs 2 488 GHz 2488 MB s 5 kHz to 15 MHz 30 fs Refer to frequency bands on page 11 for N values Harmonic performance outside the operating range of the instrument is typical Spurs outside the operating range of the instrument are not specified Specifications apply for CW mode only Calculated from phase noise performance in CW mode only at 2 5 dBm for Option 503 instruments 0 5 dBm with Option 506 and 2 5 dBm with Option UNB For other frequencies data rates or bandwidths wplease contact your sales representative Specifications for Frequency and Power Characteristic SSB phase noise measured 140 CW mode 150 160 100 IK 10K 100K IM is T 100 IK 10K 102. For example AM and FM can run concurrently and all will affect the output RF This is useful for simulating signal impairments There are some exceptions FM and M cannot be combined Two modulation types cannot be generated simultaneously by the same modulation source General Characteristics Operating characteristics Power requirements Operating temperature range Storage temperature range Shock and vibration Leakage Storage registers Weight Dimensions Remote programming Interface Control languages Functions controlled 180 compliant Reverse power protection 90 to 254 V 50 or 60 Hz 300 W maximum power factor corrected Not for 400 Hz use 0 to 55 C 40 to 70 C Meets MIL STD 28800E Type Ill Class 3 Conducted and radiated emissions conform to CISPR 11 Leakage is typically lt 1 uV nominally 0 1 uV with a 2 turn loop at lt 1000 MHz measured with a resonant dipole antenna one inch from any surface with output level lt 0 dBm all inputs outputs properly terminated Memory is shared by instrument states user data files sweep list files and waveform sequences Depending on the number and size of these files up to 100 storage registers and 1000 register sequences 10 per register are available lt 16 kg 35 Ib net lt 23 kg 50 Ib shipping 133 mm H x 426 mm W x 432 mm D 5 25 in H x 16 8 in W x 17 in D GPIB IEEE 488 2 1987 with listen and talk RS 232 LAN
3. This male DB 9 connector is an RS 232 serial port that can be used for controlling the signal generator remotely It is functionally equivalent to the GPIB connector The following table shows the description of the pinouts The pin configuration is shown below Pin number Signal description Signal name 1 No connection 2 Receive data RECV 3 Transmit data XMIT 4 5 5 Ground 0 V 6 No connection 7 Request to send RTS 8 Clear to send CTS 9 No connection 4 3a 2 1 e o o 95 85 6 View looking into rear panel connector Ordering Information Frequency options Performance enhancement options Manual and accessories Warranty and calibration plans E4428C 503 E4428C 506 E4428C UNB 250 kHz to 3 GHz frequency range electronic attenuator standard 250 kHz to 6 GHz frequency range mechanical attenuator only High output power with mechanical attenuator Note Option 506 is standard with the high power mechanical attenuator used in Option UNB and therefore both options cannot be ordered together E4428C 1EM E4428C 10M E4428C 1CP E4428C 1CN E4428C CD1 E4428C ABA E4428C 0BW E4428C UK6 Moves all front panel connectors to rear Rack mount kit without handles Rack mount kit with handles Front handle kit CD ROM of English user guide and assembly level service manual standard with instrument Printed English documentation set Servic
4. 10 to 136 dBm Maximum available power measured lr Option UNB MM NT SN e up E Option 506 Power dB Option 503 0 1000 2000 3000 4000 5000 6000 Frequency MHz Level resolution 0 02 dB Level range with Attenuator Hold active Option UNB Option 503 Option 503 Option 506 250 kHz to 1 GHz 23 dB 27 dB 24 dB gt 1 to 3 GHz 20 dB 26 dB 23 dB gt 3 to 6 GHz N A N A 20 dB Specifications for Frequency and Power Error dB Level accuracy dB Option 503 Power level 7 to 50 to 110 to lt 127 dBm 50 dBm 110 dBm 127 dBm 250 kHz to 2 0 GHz 0 5 0 5 0 7 1 5 2 0 to 3 GHz 0 6 0 6 0 8 2 5 Option UNB Power level 10 to 50 to 110 to lt 127 dBm 50 dBm 110 dBm 127 dBm 250 kHz to 2 0 GHz 0 5 0 7 0 8 1 5 2 0 to 3 GHz 0 6 0 8 1 0 2 5 Option 506 Power level 7 to 50 to 110 to lt 127 dBm 50 dBm 110 dBm 127 dBm 250 kHz to 2 0 GHz 0 6 0 8 0 8 1 5 2 0 to 3 GHz 0 6 0 8 1 0 2 5 3 to 4 GHz 0 8 0 9 1 5 2 5 4 to 6 GHz 0 8 0 9 1 5 Option 503 level accuracy at 110 dBm measured 2500 3000 Level accuracy with ALC off Option 506 level accuracy at 110 dBm measured 1 Error dB 1000 2000 3000 4000 Frequency MHz 0 15 dB relative to ALC on 5000 6000 7000 Note Special O
5. 10BaseT SCPI version 1996 0 also compatible with 8662A 8663A 8656B and 8657A B C D J1 mnemonics All front panel functions except power switch and knob The E4428C ESG is manufactured in an IS0 9001 registered facility in concurrence with Agilent Technologies commitment to quality Option 503 Option 506 250 kHz to 2 GHz 47 dBm 30 dBm gt 2 to 4 GHz 44 dBm 30 dBm gt 4 to 6 GHz N A 30 dBm Max DC voltage 40 V SWR Option 503 Option UNB Option 506 250 kHz to 2 2 GHz lt 1 5 1 lt 1 5 1 1 6 1 2 2 GHz to 3 GHz lt 14 1 lt 1 5 1 1 amp 1 3 GHz to 4 GHz lt 1 5 1 lt 1 7 1 1 7 1 gt 4 GHz to 6 GHz N A N A lt 1 8 1 Output impedance 50 Q nominal 1 For 400 Hz systems order transformer 70001 60066 2 Save and recall of user files and instrument states from non volatile storage is guaranteed only over the range 0 to 40 C 3 ESG series does not implement 8657A B Standby or On R0 or R1 respectively mnemonics General Characteristics Accessories Inputs and outputs All front panel connectors can be moved to rear with Option TEM Transit case Part number 9211 1296 10 MHz input 10 MHz output External 1 input External 2 input GPIB LF output RF output Sweep output Trigger input Trigger output Accepts a 1 2 5 or 10 MHz 0 2 ppm Nominal input level 3 5 to 20 dBm impedance 50 ohms BNC rear panel Outputs the 10 MHz ref
6. 50 0 nominal FM path 1 and FM path 2 are summed internally for composite modulation The FM 2 path is limited to a maximum rate of 1 MHz The FM 2 path must be set to a deviation less than FM 1 path 1 All analog performance above 3 GHz is typical 2 Refer to frequency bands on this page to compute specifications 3 At the calibrated deviation and carrier frequency within 5 C of ambient temperature at time of calibration Specifications for Analog Modulations Phase modulation Resolution 0 196 of set deviation Modulation frequency response Maximum Allowable rates 3 dB BW Mode deviation M path 1 M path 2 Normal BW N x 10 radians DC to 100 kHz DC to 100 kHz High BW N x 1 radians DC to 1 MHz DC to 0 9 MHz Deviation accuracy 1 kHz rate Normal BW mode 5 of deviation 0 01 radians Distortion 1 kHz rate deviation 10N radians Normal BW mode 196 9M using external inputs 1 or 2 Sensitivity Input impedance Paths for indicated deviation 50 Q nominal M path 1 and OM path 2 are summed internally for composite modulation The M 2 path is limited to a maximum rate of 1 MHz M path 2 must be set to a deviation less than the M path 1 1 All analog performance above 3 GHz is typical 2 Refer to frequency bands on page 11 for N 3 Bandwidth is automatically selected based on deviation Specifications for Analog Modulations Amplitude modulation fc
7. Represents characteristic performance which is non warranted Represents the value of a parameter that is most likely to occur the expected mean or average Measured Represents characteristic performance which is non warranted Represents the value of a parameter measured on an instrument during design stage 8 Agilent Technologies Table of Contents Key Features else prote 3 Specifications for Frequency and Power 4 dI TE 4 Sweep modes 4 Internal reference 4 Output pOWer ie rierren re du egeret e raa 5 Spectral 9 Specifications for Analog 11 Frequency barids sea edet Rescate che Rude gla d 11 Frequency modulation 11 Phase modulation 0 0 00 c cece eee s en 12 Amplitude modulation 0 0 cece cece eee ee ee eee eee ee en ee ene 13 Wideband i cedent inel Dh 14 LEE 14 Internal analog modulation 15 External modulation inputs 0 00 15 Composite modulatio zeit tete RR tad R
8. gt 500 kHz Range 0 to 10096 Resolution 0 196 Rates 3 dB bandwidth DC coupled 0 to 10 kHz AC coupled 10 Hz to 10 kHz Accuracy 1 kHz rate lt 6 of setting 1 Distortion 1 kHz rate THD Option 503 Option 506 30 AM lt 1 596 lt 1 5 90 AM lt 4 lt 5 AM using external inputs 1 or 2 Sensitivity 1 V to achieve indicated depth Input impedance 50 0 nominal Paths AM path 1 and AM path 2 are summed internally for composite modulation 1 All analog performance above 3 GHz is typical 2 AM is typical above GHz 3 Peak envelope power of AM must be 3 dB less than maximum output power below 250 MHz Specifications for Analog Modulation Pulse modulation On off ratio lt 4 GHz gt 80 dB gt 4 GHz gt 64 dB Rise fall times 150 ns Minimum width ALC on 2 us ALC off 0 4 us Pulse repetition frequency ALC on 10 Hz to 250 kHz ALC off DC to 1 0 MHz Level accuracy relative to CW at lt 4 dBm Option 503 lt 7 5 dBm Option UNB lt 4 5 dBm Option 506 lt 1 dB Pulse modulation using external inputs Input voltage RF on gt 0 5 V nominal RF off lt 0 5 V nominal Input impedance 50 0 nominal Internal pulse generator Square wave rate 0 1 Hz to 20 kHz Pulse Period 8 us to 30 seconds Width 4 us to 30 seconds Resolution 2 us 1 With ALC off specifications apply after the execution of power search With ALC on specifications apply for pulse repetition
9. ohms type N female front panel Generates output voltage 0 to 10 V when signal generator is sweeping Output impedance 1 ohm can drive 2000 ohms BNC rear panel Accepts CMOS signal for triggering point to point in manual sweep mode or to trigger start of LF sweep The damage levels are 0 5 to 5 5 V BNC rear panel Outputs a TTL signal high at start of dwell or when waiting for point trigger in manual sweep mode low when dwell is over or point trigger is received high or low 2 us pulse at start of LF sweep BNC rear panel 1 Rear panel inputs and outputs are 3 3 V CMOS unless indicated otherwise CMOS inputs will accept 5 V CMOS 3 V CMOS or TTL voltage levels General Characteristics LAN connector LAN communication is supported by the signal generator via the LAN connector It is functionally equivalent to the GPIB connector The LAN connector enables the signal generator to be remotely programmed by a LAN connected computer The distance between a computer and the signal generator is limited to 100 meters 10BaseT For more information about the LAN refer to the Getting Started chapter in the Programming Guide Data transfer speeds LAN FTP file transfer to volatile memory 700 KB sec to hard drive 500 KB sec LAN SCPI command transfer to volatile memory 146 KB sec to hard drive 128 KB sec Internal file transfer from hard drive to volatile memory 1280 KB sec RS 232 connector
10. 0K IM L dBc Hz vs f Hz fe 850 MHz LO dBc Hz vs f Hz fc 5 7 GHz Option 506 60 1K 10K L dBc Hz vs f Hz 100 100K 1900 MHz 1 10M 10K dBc Hz vs f Hz 10 100 1K 100K 1000 MHz 1M 10M CW mode 10K L dBc Hz vs f Hz 100 100K fc 2200 MHz 10 1K 10K dBc Hz vs f Hz Phase noise modes 1 and 2 at fc 900 MHz 100 100K Specifications for Analog Modulation Frequency bands Band X Frequency range N number 1 250 kHz to 250 MHz 1 2 gt 250 MHz to lt 500 MHz 0 5 3 gt 500 MHz to x 1GHz 1 4 1tox2GHz 2 5 gt 210 lt 4 GHz 4 6 gt 410 lt 6 GHz 8 Maximum deviation Nx1MHz Frequency modulation Resolution 0 196 of deviation or 1 Hz whichever is greater Modulation frequency rate deviation 100 kHz Coupling 1 dB bandwidth 3 dB bandwidth FM path 1 DC DC to 100 kHz DC to 10 MHz FM path 2 DC DC to 100 kHz DC to 0 9 MHz FM path 1 AC 20 Hz to 100 kHz b Hz to 10 MHz FM path 2 AC 20 Hz to 100 kHz b Hz to 0 9 MHz Deviation accuracy 1 kHz rate deviation N x 100 kHz lt t 3 5 of FM deviation 20 Hz Carrier frequency accuracy relative to CW in DCFM2 0 1 of set deviation N x 1 Hz Distortion 1 kHz rate dev N x 100 kHz 196 FM using external inputs 1 or 2 Sensitivity 1 V for indicated deviation peak Input impedance
11. H www agilent com For more information on Agilent 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 800 829 4444 Asia Pacific 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 80 12 15 Finland 358 0 10 855 2100 France 0825 010 700 0 125 minute Germany 49 0 7031 464 6333 Ireland 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 Revised January 6 2012 Product specifications and descriptions in this document subject to change without notice Agilent Technologies Inc 2012 Published in USA May 21 2012 5989 1992EN ES Agilent Technologies
12. Migrate to the new Agilent MXG X Series signal generator and generate true performance The new MXG exceeds the ESG s performance in every category output power phase noise spurious and low frequency coverage to 9 kHz Enjoy frequency and amplitude switching speeds that are 10 to 20 times faster all in a compact 3 5 inch 89 mm tall unit For more information visit www agilent com find X Series SG s Agilent 090 E4428C ESG a z Analog Signal Generator e 9 e e Data sheet e 00 NUES RETE MINUS SS ESES 6 000 000 000 00 se 13600 a i E S mrs w S EE f peres eoa Oga Hiz o SB tco 90 ees s Pulse Std 0n Internal 80 0usec Pulse 12 mj x uw 888 Saas 888 ODA e All specifications apply over a 0 to 55 C range unless otherwise stated and apply after a 45 minute warm up time Supplemental characteristics denoted as typical nominal or measured provide additional non warranted information at 25 C which may be useful in the application of the product Definitions Specifications Represents warranted performance Typical Represents characteristic performance which is non warranted Describes performance that will be met by a minimum of 8096 of all products All typical values are indicated by parenthesis Nominal
13. e documentation assembly level Commercial calibrations certificate with test data For more information please visit www agilent com find removealldoubt Extended return to Agilent warranty and service Agilent calibration upfront plan Agilent calibration plus upfront plan 7540 calibration upfront plan 1 All options should be ordered using E4428C xxx where the xxx represents the option number 20 Related Literature Signal Generator Spectral Purity Considerations in RF Communications Testing Application Note 388 Literature Number 5952 2019 RF Source Basics a self paced tutorial CD ROM Literature Number 5980 2060E IntuiLink Software Data Sheet Literature Number 5980 3115EN Security of Agilent Signal Generators Issues and Solutions Application Note Literature Number 5989 1091EN 21 Additional Resources See the ESG Web page Get the latest news product and support information application literature firmware upgrades and more Agilent s Internet address for the ESG is www agilent com find esg Quality Management System www agilent com quality E Agilent Email Updates www agilent com find emailupdates Get the latest information on the products and applications you select 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
14. ec RR Dd go ed 16 Simultaneous modulation 5 16 General Characteristi S i ese 17 Operating characteristics ese 17 ACCESSO Siusi i aiia A a a a S a ae dub a det 18 mouts and OUTPUTS ieia Ea E dn ie EE EEES 18 Ordering Mormaii 000 aa aa I nn 21 Related Literature emer Rr EE E EE E E R E mE 22 Key Features Key standard features Optional performance Industry leading spectral purity Superior level accuracy High output power High stability timebase Wideband FM and Excellent modulation accuracy and stability Step and list sweep both frequency and power Built in function generator Lightweight rack mountable 2 year calibration cycle Option 503 frequency range from 250 kHz to 3 GHz electronic attenuator standard Option 506 frequency range from 250 kHz to 6 GHz mechanical attenuator only Option UNB higher output with mechanical attenuator Note Option 506 is standard with the high power mechanical attenuator used in Option UNB and therefore both options cannot be ordered together Option move all front panel connectors to rear panel Specifications for Frequency and Power Frequency Frequency range Option 503 250 kHz to 3 GHz electronic attenuator standard 506 250 kHz to 6 GHz mechanical attenuator only Frequency minimum 100 kHz Frequency
15. erence signal Level nominally 3 9 dBm 2 dB Nominal output impedance 50 ohms BNC rear panel This BNC input connector accepts a 1 V signal for AM FM pulse and phase modulation For all these modulations 1 V produces the indicated deviation or depth When ac coupled inputs are selected for AM FM or phase modulation and the peak input voltage differs from 1 V by more than 3 the hi lo annunciator light on the display The input impedance is 50 ohms and the damage levels are 5 V and 10 V If you configure your signal generator with Option 1EM this input is relocated to a female BNC connector on the rear panel This BNC input connector accepts a 1 V signal for AM FM phase modulation and pulse modulation With AM FM or phase modulation 1 produces the indicated deviation or depth With pulse modulation 1 V is on and 0 V is off When ac coupled inputs are selected for AM FM or phase modulation and the peak voltage differs from 1 V by more than 3 the hi lo annunciator light on the display The input impedance is 50 ohms and the damage levels are 5 and 10 V If you configure your signal generator with Option 1EM this input is relocated to a female BNC connector on the rear panel Allows communication with compatible devices rear panel Outputs the internally generated LF source Outputs 0 to 2 5 V into 50 ohms or 0 to 5 V into high impedance BNC front panel Nominal output impedance 50
16. o a given power setting after a random excursion to any other frequency and power setting It is a relative measurement that reflects the difference in dB between the maximum and minimum power readings for a given setting over a specific time interval It should not be confused with absolute power accuracy which is measured in dBm Relative level accuracy Initial power 7 dBm Lower limit Lower STD deviation Mean Upper STD deviation Upper limit Power error dB 0 20 40 60 80 100 120 140 Final power dBm Relative level accuracy measures the accuracy of a step change from any power level to any other power level This is useful for large changes i e 5 dB steps 1 Repeatability and relative level accuracy are typical for all frequency ranges Specifications for Frequency and Power Linearity CW 850 MHz attenuator hold On ALC On 0 3 r 0 25 x Typical Option 503 unit 23 Typical Option UNB unit Linearity measures the accuracy of small changes while the attenuator iig 777 Typical Option 506 unit is held in a steady state to avoid power glitches This is useful for Power fine resolution changes 0 1 Upper limit 0 05 a E 0 S 005 01 S d 015 0 2 0 25 Limit is undefined above 13 dBm 0 3 7 for Option 503 uni
17. ption HF8 is required for frequency capability up to 7 GHz Conditions After power search is executed Level switching speed Option UNB Option 503 Option 503 Option 506 Normal operation ALC on lt 15 ms lt 21 ms lt 21 ms When using power search manual lt 83 ms lt 95 ms lt 95 ms When using power search auto lt 103 ms lt 119 ms lt 119 ms Quoted specifications for 23 C 5 C Accuracy degrades by less than 0 03 dB C over full temperature range Accuracy degrades by 0 3 dB above 7 dBm and by 0 8 dB above 10 dBm Quoted specifications for 23 C 5 C Accuracy degrades by less than 0 03 dB C over full temperature range Accuracy degrades by 0 2 dB above 10 dBm and by 0 8 dB above 13 dBm Quoted specifications for 23 C 5 C Accuracy degrades by less than 0 02 dB C over full temperature range Accuracy degrades by 0 2 dB above 7 dBm Specifications for Frequency and Power Repeatability and linearity Repeatability Repeatability 1900 MHz CW 5 dBn attenuator hold On ALC On 1900 MHz CW 5 dBn attenuator hold Off ALC Off 01 05 0 09 z 0 45 Typical unit 0 08 Limits 04 0 07 0 35 _ 006 _ 03 z 5 005 5 025 5 00 02 5 5 bici 0 02 0 10 0 01 0 05 0 20 40 60 80 100 120 Elapsed time minutes Elapsed time minutes Repeatability measures the ability of the instrument to return t
18. rates 10 kHz and pulse widths gt 5 Specifications for Analog Modulation Internal analog modulation source Provides FM AM pulse and phase modulation signals and LF audio out External modulation inputs Waveforms sine square ramp triangle pulse noise Rate range Sine 0 1 Hz to 100 kHz Square ramp triangle 0 1 Hz to 20 kHz Resolution 0 1 Hz Frequency accuracy same as RF reference source Swept sine mode frequency phase continuous Operating modes Triggered or continuous sweeps Frequency range 0 1 Hz to 100 kHz Sweep time 1 ms to 65 sec Resolution 1 ms Dual sinewave mode Frequency range 0 1 Hz to 100 kHz Amplitude ratio 0 to 10096 Amplitude ratio resolution 0 196 LF audio out mode Amplitude 0 to 2 5 V a into 50 Q Output impedance 50 nominal Noise Noise with adjustable amplitude generated as a peak to peak value RMS value is approximately 80 of displayed value Modulation types Ext 1 FM OM AM pulse Ext 2 FM M AM and pulse High Low Indicator 100 Hz to 10 MHz BW AC coupled inputs only Activated when input level error exceeds 396 nominal Specifications for Analog Modulation Composite modulation Simultaneous modulation AM FM and M each consist of two modulation paths which are summed internally for composite modulation The modulation sources may be any two of the following Internal External 1 External 2 Multiple modulation types may be simultaneously enabled
19. resolution 0 01 Hz Frequency switching speed Option 503 Option 506 Freq Freq Amp Freq Freq Amp lt 9 ms lt 9 ms lt 16 ms lt 17 ms For hops lt 5 MHz within a band lt 9 ms lt 9 ms lt 12 ms lt 14 ms Phase offset Phase is adjustable remotely LAN GPIB RS 232 or via front panel in nominal 0 1 increments Sweep modes Operating modes Dwell time Frequency step amplitude step and arbitrary list 1 ms to 60 s Number of points 2 to 65 535 Step 2 to 1601 List Internal reference oscillator Stability Aging rate Temp 0 to 55 C Line voltage Line voltage range lt 0 1 ppm yr or 10 0005 ppm day after 45 days lt 0 05 ppm lt 0 002 5 to 10 RF reference input requirements Frequency RF reference output Frequency Amplitude 1 2 5 10 MHz 0 2 ppm 10 MHz 4 dBm 2 dB 1 Performance below 250 kHz not guaranteed 2 To within 0 1 ppm of final frequency above 250 MHz or within 100 Hz below 250 MHz 3 Frequency switching time with the amplitude settled within 0 1 dB Output power Specifications for Frequency and Power Power Option 503 Option UNB Option 503 Option 506 250 kHz to 250 MHz 250 MHz to 1 GHz gt 1 to 3 GHz gt 3 to 6 GHz 11 to 136 dBm 13 to 136 dBm 10 to 136 dBm N A 15 to 136 dBm 17 to 136 dBm 16 to 136 dBm N A 12 to 136 dBm 14 to 136 dBm 13 to 136 dBm
20. ts Limit line applies 0 35 only to UNB and 506 units 0 4 Amplitude dBm Linearity Linearity CW 1900 MHz attenuator hold On ALC On CW 5750 MHz attenuator hold On ALC On 0 3 0 3 Mean Option 506 unit Lower limit 0 25 Typical Option 503 unit 0 25 E Typical Option UNB unit E Lower Option 503 deviation Upper limit 02 E 02 Upper Option 503 deviation Typical Option 506 unit 0 15 Lower limit 4 0 15 01 Upper limit q 005 005 5 5 o 5 E 0 05 0 05 3 9 o d 0 15 0 15 0 2 0 2 0 25 0 25 0 3 0 3 10 8 6 4 2 0 2 4 6 8 10 12 14 16 Amplitude dBm amplitude dBm 1 Repeatability and relative level accuracy are typical for all frequency ranges Specifications for Frequency and Power Spectral purity SSB Phase noise at 20 kHz offset at 500 MHz lt 135 dBc Hz lt 138 dBc Hz at 1 GHz lt 130 dBc Hz lt 134 dBc Hz at 2 GHz lt 124 dBc Hz lt 128 dBc Hz at 3 GHz lt 121 dBc Hz lt 125 dBc Hz at 4 GHz lt 118 dBc Hz 122 dBc Hz at 6 GHz lt 113 dBc Hz lt 117 dBc Hz Residual FM CW mode 0 3 to 3 kHz BW CCITT rms Nx1 Hz lt N x 0 5 Hz Harmonics output level lt 4 dBm Option 503 lt 7 5 dBm Option UNB lt 4 5 dBm Option 506 lt 30 dBc above 1 GHz lt 30 dBc 1 GHz and below Nonharmonics lt 7 dBm output level decreases lt 4 dBm Option 506
Download Pdf Manuals
Related Search