Test System Overview Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Test System Overview The Agilent Technologies test system is designed to verify the performance of the PSA series spectrum analyzers and ensure that they meet published specifications. Follow the links below to view a listing of the test system requirements, test equipment required, a full description of each performance test, a full description of each adjustment, the associated troubleshooting procedures should any of the tests fail, and the Test Management Environment (TME) software help. Getting Started -- steps for installing and running the test software Required Equipment -- test equipment, ESD precautions Performance Tests -- a list of all performance tests Adjustments -- a list of all adjustments Troubleshooting -- troubleshooting performance test failures Memory Initialization Utilities -- utilities to write serial number information, and to reset instrument statistical data Test Management Environment (TME) help -- information on setting up and using the http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/ (1 of 2) [5/29/2003 8:46:47 AM] Test System Overview TME software NOTE: If your analyzer has firmware revision A.03.xx, click here for information about possible conflicts between Option 266 and Basic Mode. Copyright Agilent Technologies, 2000, 2001, 2002 http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/ (2 of 2) [5/29/2003 8:46:47 AM] Before You Start Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Before You Start Check the following before starting the performance test software. 1. Ensure minimum requirements of the PC: Controller Requirements 200 MHz Pentium processor or higher ❍ 64 MB RAM or more ❍ 200 MB available hard drive ❍ Operating system: Windows 2000, service pack 3, or Windows NT, service pack 6A. (Windows XP is not supported at this time) ❍ A standalone PC to GPIB controller with IEEE 488.2 protocol ❍ A VISA communications interface ❍ IE 4.0 or higher 2. Ensure computer has a GPIB Interface Card installed in it before running the software installation. The recommended card is Agilent model part number 82350A. You may also use a National Instruments model part number AT-GPIB/TNT or PCI-GPIB. 3. Ensure you have the proper test equipment. Let all the test equipment and PSA warm up in accordance to instrument specifications. ❍ http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Getting_Started/getstarthome.htm [5/29/2003 8:46:48 AM] PSA Test Equipment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Test Equipment Instrument Critical Specifications Recommended Agilent Model Number Alternative Agilent Model Number Use1 Signal Sources Synthesized Signal Generator Frequency: 1 MHz to 2.5 GHz Spectral purity: 7 MHz to 1321 MHz Spurious (non-harmonic): at 50 MHz ≤-90 dBc ≤ 2.56 GHz, < -78 dBc Harmonics: < -30 dBc ≤ +13 dBm SSB Phase Noise: ≤ -106 dBc/Hz at 1 kHz offset (or residual FM ≤ 0.5 Hz, 300 Hz to 3 kHz integration BW). VSWR: < 1.5:1 8663A Synthesized Signal Generator Frequency: 100 kHz to 6.0 GHz Spectral Purity: SSB Phase Noise @ 1 GHz, 20 kHz offset = -134 dBc/Hz Harmonics: -30 dBc @ ≤ +10 dBm output 8665B (Option 004) Sweep Signal Generator (2 required, only 1 needs to be Option 008) Frequency: 10 MHz to 26.5 GHz Frequency Resolution: 1 Hz Harmonic level: < -40 dBc Amplitude range: -20dBm to +13 Amplitude resolution: 0.02 Harmonic level: < 2 GHz, < -30 dBc ≥ 2 GHz & < 26.5 GHz, < -50 dBc VSWR: < 20 GHz, 1.6:1 ≤ 31 GHz, 1.8:1 83630B (Option 008) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (1 of 7) [5/29/2003 8:46:54 AM] A, P, T P 83630A (Option 008), 83640A/B (Option 008), 83650A/B (Option 008) A, P, T PSA Test Equipment Sweep Signal Generator (Needed for E4446A, E4448A) Frequency: 10 MHz to 50 GHz Frequency Resolution: 1 Hz Harmonic level: < -40 dBc Amplitude range: -20dBm to +13 Amplitude resolution: 0.02 Harmonic level: < 2 GHz, < -30 dBc ≥ 2 GHz & < 26.5 GHz, < -50 dBc ≥ 26.5 GHz, < -40 dBc VSWR: < 20 GHz, 1.6:1 ≤ 40 GHz, 1.8:1 ≤ 50 GHz, 2.0:1 83650B (Option 008) 83650A A, P, T Digital Signal Generator Ability to create 64 tones across a 5 MHz span synchronously, 5 MHz to 10 MHz Resolution: 0.02 E4433B (Option UND) E4437B (Option UND FW datecode: ≥ B.02.24) Function Generator Frequency: 1 Hz to 15 MHz Amplitude Resolution: 0.1 mv Harmonic Distortion: -35 dBc 33120A (Option 001) 33120A Frequency: 10 MHz Gate time: 10 to 100 seconds Must be capable of measuring signal at +7 dBm (0.5 Vrms) 53132A P, T Digital Voltmeter AC Accuracy (SETACV SYNC mode): ± 4% of reading 3458A A, T Power Meter Dual Channel Absolute Accuracy: ± 0.5% Resolution: 0.01 dB Reference Accuracy: 1.2% Power Reference Accuracy: ± 0.9% Compatible with Agilent 8480 series power sensors dB relative mode E4419B E4419A A, P Power Sensor (2 required) Frequency Range: 100 kHz to 4.2 GHz. VSWR: at 50 MHz: £ 1.05 1 MHz to 4 GHz: £ 1.30:1 Type-N (m) Option H84 Cal Factor: Characterized by standards lab to: ± 0.6%2 8482A (Option H84) 8482A STD (Will increase measurement uncertainty) A, P Power Sensor Frequency Range: 50 MHz to 8 GHz. VSWR: at 50 MHz: ≤ 1.05:1 700 MHz to 3 GHz: ≤ 1.22:1 Option H84 Cal Factor: Characterized by standards lab to: ± 0.6% 8481A (Option H84) 8481A STD, 8485A STD (Will increase measurement uncertainty) P Power Sensor (Needed for E4440A, E4443A, E4445A) Frequency Range: 50 MHz to 26.5 GHz Amplitude Range: -20 to +10 dB VSWR: 50 MHz to 100 MHz: 1.15:1 100 MHz to 2 GHz: 1.10:1 2 GHz to 12.4 GHz: 1.15:1 12.4 GHz to 18 GHz: 1.20:1 18 GHz to 26.5 GHz: 1.25:1 RF Connector: 2.4 mm (M) 8485A 8487A P A, P Counters Universal Counter Meters http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (2 of 7) [5/29/2003 8:46:54 AM] A, P PSA Test Equipment Power Sensor (Needed for E4446A, E4448A) Frequency Range: 50 MHz to 50 GHz Amplitude Range: -20 to +20 dB VSWR: 50 MHz to 100 MHz: 1.15:1 100 MHz to 2 GHz: 1.10:1 2 GHz to 12.4 GHz: 1.15:1 12.4 GHz to 18 GHz: 1.20:1 18 GHz to 26.5 GHz: 1.25:1 26.5 GHz to 40 GHz: 1.30:1 40 GHz to 50 GHz: 1.50:1 RF Connector: 2.4 mm coaxial (M) 8487A Frequency: 10 MHz 5071A A, P Standards Frequency Standard 5061B A, P Accuracy: < ± 1e10 -10 50 MHz, -25 dBm Calibrator Frequency Drift: < 2.5 kHz Typical VSWR: 1.06:1 Output Power Variation: ± .004 dB Total Harmonic Content: -45 dBc Z5602A Opt H51 Opt H35 for BAB Opt H24 for E4446A, E4448A A Attenuators 10 dB Step Attenuator Range: 0 to 110 dB Accuracy: Characterized by standards lab to: ± 0.005 + 0.0052/10 dB step3 8496G 8496H P 8494G 8494H P Calibrated at 50 MHz VSWR: at 50 MHz: ≤1.05:1 1 dB Step Attenuator Range: 0 to 11 dB Accuracy: Characterized by standards lab to: ± 0.01 dB3 Calibrated at 50 MHz VSWR: at 50 MHz: ≤1.05:1 Attenuator Interconnect Kit Type N connector kit to connect the 8496G to the 8494G 11716A P Attenuator Driver Compatible with the 8496G and 8494G step attenuators. 11713A P 6 dB Fixed Attenuator 6 dB Type N (m, f) VSWR: at 50 MHz: ≤ 1.1 8491A (Options 006 & H47) P 20 dB Fixed Attenuator 20 dB Type N (m, f) Accuracy: ± 0.5 dB VSWR: DC to 8 GHz: 1.20:1 8491A (Option 020) A 20 dB Fixed Attenuator 20 dB 3.5 mm (m, f) Accuracy: ± 0.5 dB VSWR: DC to 8 GHz: 1.20:1 8493C (Option 020) A Type N (m) 50 W Frequency: 1 MHz to 4 GHz VSWR: 4 GHz: ≤ 1.05:1 909A (Option 012) P, T 3.5 mm (m) 50 ohm VSWR: ≤ 26.5 GHz: ≤ 1.12:1 909D P 85138B P Terminations 2.4 mm (f) (Needed for E4446A, E4448A) 50 ohm Frequency: DC to 50 GHz BNC 50 ohm 1250-0207 P Frequency: 9 kHz to 3 GHz Type N (f) VSWR: ≤ 1.10:1 11667A P Miscellaneous Devices Power Splitter http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (3 of 7) [5/29/2003 8:46:54 AM] PSA Test Equipment Power Splitter Frequency: DC to 26.5 GHz 3.5 mm (f) VSWR: DC to 3 GHz: < 1.06:1 3 GHz to 26.5 GHz: <1.22:1 Insertion Loss: DC to 8 GHz: 6.5 dB (Typical) 8 to 18 GHz: 7.0 dB 18 to 26.5 GHz: 7.3 dB 11667B (Option H30) Power Splitter (Needed for E4446A, E4448A) Frequency: DC to 50 GHz 2.4 mm (f) VSWR: ≤ 18 GHz:: < 1.29:1 18 GHz to 26.5 GHz: <1.20:1 ≤ 40 GHz:: < 1.50:1 ≤ 50 GHz:: < 1.65:1 Insertion Loss: DC to 18 GHz: 6.0 dB (Typical) 18 to 26.5 GHz: 7.0 dB 26.5 to 40 GHz: 8.0 dB 40 to 50 GHz: 8.5 dB 11667C P Directional Bridge Frequency Range: 5 MHz to 3 GHz Directivity: ≤ 5 MHz: 30 dB 5 MHz to 2 GHz: 40 dB 2 GHz to 3 GHz: 30 dB, VSWR: ≤ 2 GHz: ≤1.15:1 ≤ 3 GHz: ≤ 1.22:1 Insertion Loss: ≤ 1.5, +0.1 dB/GHz Coupling (nominal): 16 dB Type N (f) 86205A P Directional Coupler (2 required) 2 GHz to 20 GHz SMA (f) Directivity >16 dB Transmission arm loss: <1.5dB (nominal) Coupled Arm Loss: ~10dB (nominal) VSWR: ≤ 1.35:1 87300B P DC Probe 11002A 11667B (std) 11003A P A High Frequency Probe 300 kHz to 3 GHz Input Resistance: 1 M ohm (nominal) 85024A T Negative Detector 0.01 to 26.5 GHz ± 0.6 dB to 18 GHz 33330C A E4440-60041 A Bias Adjustment Board Cables APC 3.5 mm (m) (m) (2 required) Frequency: DC to 26.5 GHz Length: ≤ 92 cm (36 in) Insertion Loss: ~2 dB VSWR: DC to 18 GHz: ≤ 1.25:1 18 GHz to 26.5 GHz: ≤ 1.35:1 8120-4921 A, P 2.4 mm (f) (m) (Needed for E4446A, E4448A) Frequency: DC to 50 GHz Length: ≤ 249 mm (9.8 in) Insertion Loss: ≤ 26 GHz, ~4 dB Insertion Loss: ≤ 40 GHz, ~5 dB Insertion Loss: ≤ 50 GHz, ~6 dB VSWR: ≤ 26.5 GHz: ≤ 1.30:1 ≤ 40 GHz: ≤ 1.40:1 ≤ 50 GHz: ≤ 1.55:1 8120-6164 A, P Type-N (2 required) Frequency: 10 MHz to 8 GHz Precision Type-N (m) 62 cm (24 in.) VSWR: ≤ 18 GHz: 1.4:1 Insertion Loss: 1.5 dB 11500C A, P, T BNC (3 required) 50 W Coax BNC (m) 120 cm (48 in.) 10503A A, P, T http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (4 of 7) [5/29/2003 8:46:54 AM] PSA Test Equipment BNC (m) to SMC (f) 10020-61605 10503A BNC cable with 1250-0832 BNC to SMC adapter A Filters 50 MHz Low Pass Cutoff Frequency: 50 MHz Rejection at 65 MHz: > 40 dB Rejection at 75 MHz: > 60 dB Insertion Loss: ~1 dB VSWR: ≤1.5:1 BNC (m) to BNC (f) 0955-0306 P, T 300 MHz Low Pass (2 Required) Cutoff Frequency: 300 MHz Rejection at > 435 MHz: > 45 dB VSWR: ≤1.5:1 BNC (m, f) 0955-0455 P 1.8 GHz Low Pass (2 Required) Cutoff frequency: 1.8 GHz Rejection at > 3 GHz: > 45 dB Insertion Loss: ~0.25 dB VSWR: ≤1.35:1 SMA (f) 0955-0491 P 4.4 GHz Low Pass (2 Required) Cutoff frequency: 4.4 GHz Rejection at > 5.5 GHz: > 42 dB 9135-0005 Frequency: DC to 18 GHz 1250-1472 P 1250-1475 P 1250-1477 P, T 1250-1473 P, T 1250-1743 P 1250-1476 P 360D P Adapters Type-N (f) to Type-N (f) VSWR: ≤ 1.13:1 Type-N (m) to Type-N (m) Frequency: DC to 18 GHz VSWR: ≤ 1.13:1 Type-N (f) to BNC (m) Type-N (m) to BNC (m) Frequency: DC to 1.3 GHz VSWR: 1.13:1 Frequency: DC to 1.3 GHz VSWR: ≤ 1.13:1 Type-N (m) to APC 3.5 mm (m) Frequency: DC to 18 GHz Type-N (m) to BNC (f) Frequency: DC to 1.3 GHz VSWR: ≤ 1.08:1 VSWR: ≤ 1.13:1 APC 3.5 mm (f) to APC 3.5mm (f) (2 Required) Frequency: DC to 26.5 GHz APC 3.5 mm (m) to APC 3.5 mm (m) (2 Required) Frequency: DC to 26.5 GHz APC 3.5 mm (f) to APC 3.5mm (f) Frequency: DC to 34 GHz 83059B 1250-1749 P VSWR: ≤ 1.05:1 1250-1748 P 1250-1749 P VSWR: ≤ 1.12:1 VSWR: ≤ 1.15:1 2.4 mm (f) to APC 3.5 mm Frequency: DC to 26.5 GHz (m) (Needed for E4446A, VSWR: 1.05:1 E4448A) 11901D A, P APC 3.5 mm (f) to Type-N (f) 1250-1745 A, P ≤ APC 3.5 mm (f) to 2.4 mm (f) (Needed for E4446A, E4448A) For 83630B Frequency: DC to 18 GHz VSWR: 1.08:1 11901B Frequency: DC to 26.5 GHz VSWR: 1.05:1 http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (5 of 7) [5/29/2003 8:46:54 AM] P PSA Test Equipment BNC (m) to SMA (f) 1250-1700 P Type N (m) to APC 3.5 mm (f) (2 Required, Opt. BAB 3 VSWR: ≤ 1.08:1 Required) 1250-1744 P Type N (f) to 2.4 mm (f) Frequency: DC to 18 GHz VSWR: ≤ 1.08:1 11903B A, P Type N (m) to 2.4 mm (f) (Needed for E4446A, E4448A) 11903D P Frequency: DC to 18 GHz VSWR: 1.08:1 Type N (f) to APC 3.5 mm (m) Frequency: DC to 18 GHz VSWR: ≤ 1.14:1 Frequency: DC to 1.3 GHz VSWR: ≤ 1.13:1 Frequency: DC to 18 GHz BNC Tee 1250-1750 A, P 1250-0781 A, P SMB (f) to BNC (f) Frequency: DC to 1.3 GHz 1250-1236 A, P BNC (f) to SMA (m) Frequency: DC to 1.3 GHz 1250-1200 A, P 1251-2277 A, P BNC (f) to Dual Banana Controller Computer IBM compatible PC Intel Pentium 90 MHz or greater Windows 2000 ® or NT ® 4.0 at least 32 MB RAM At least 200 MB of available hard disk space CD-ROM Drive 800x600 Minimum monitor resolution Web browser4 A, P Accessories IEEE 488 Interface Card High-performance GPIB with: Agilent-VISA 1.25 or greater or 82341D NI-VISA 1.26 or greater National p/n ATGPIB/TNT or PCI-GPIB A, P 1 A = Adjustments, P = Performance Testing, T = Troubleshooting) 2 The 8482A power sensor uses cal factors to compensate the power sensor for frequency response errors. Cal factors are stated in percentages. The 8482A factory cal factor uncertainty ranges from 2.2% to 3.1%. The cal factor uncertainty can be reduced to < 2.0% by using metrology grade calibration techniques. The power sensor cal factor uncertainty becomes one component of the Verification Test uncertainty analysis. Lower cal factor uncertainties will translate to wider test margins. 3 The 8494G and 8496G step attenuators should be permanently joined via the 11716A Interconnect Kit. The step attenuator combination should have each step attenuation characterized by a metrology lab at 50 MHz. For the best test results the step attenuation should be characterized to the following uncertainty levels; http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (6 of 7) [5/29/2003 8:46:54 AM] PSA Test Equipment ● ● ● 0 dB to 40 db Attenuation: ± .005 dB 41 dB to 80 dB Attenuation: ± .01 dB 81 dB to 120 dB Attenuation: ± .21 dB 4 Microsoft ® Internet Explorer ® 4.0 or greater or Netscape ® 4.0 or greater. 5 Agilent Technologies Agilent-VISA is available at http://www.agilent.com. 6 National Instruments NI-VISA is available at http://www.natinst.com/gpib/gpib_dl.htm ------------------------------------- http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/testequip.htm (7 of 7) [5/29/2003 8:46:54 AM] PSA Performance Tests Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software PSA Series Performance Tests The Agilent PSA series test system uses the following performance tests to verify the specifications of the PSA series spectrum analyzers. Important: Some of the performance tests require actual step attenuator calibration data to obtain valid results. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Residual Responses Displayed Average Noise Level Frequency Reference Accuracy Frequency Readout Accuracy Count Accuracy Spurious Responses Third Order Intermodulation Distortion Gain Compression Second Harmonic Distortion Power Bandwidth Accuracy http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/test.htm (1 of 2) [5/29/2003 8:46:55 AM] PSA Performance Tests 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. Resolution Bandwidth Switching Uncertainty IF Amplitude Ripple (Option B7J) IF Phase Ripple (Option B7J) Display Scale Fidelity Input Attenuation Switching Uncertainty Absolute Amplitude Accuracy Noise Sidebands < 50 kHz Offsets Noise Sidebands > 50 kHz Offsets Frequency Response (Option B7J) Frequency Response 300 kHz to 3 GHz Frequency Response Above 3 GHz Frequency Response Below 300 kHz Memory Initialization Utilities http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/test.htm (2 of 2) [5/29/2003 8:46:55 AM] Residual Responses Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Residual Responses Performance Test The PSA RF Input is terminated and the analyzer is swept from 200 kHz to 1 MHz. Then the analyzer is swept in incremental 10 MHz spans from 1 MHz to the upper frequency range. After each sweep, the Marker Peak function is used to measure the highest amplitude. The amplitude and frequency of any response above the specification are noted. Required Test Equipment Test Equipment Model Number 50 ohm Termination 50 ohm Termination 3.5 mm (f) to Type N (f) adapter 909A, Option 012 85138B 1250-1745 E4440A E4446A E4443A, E4445A E4448A X X (Option BAB) Residual Responses Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/resid.htm (1 of 2) [5/29/2003 8:46:55 AM] Residual Responses Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/resid.htm (2 of 2) [5/29/2003 8:46:55 AM] Displayed Average Noise Level (DANL) Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Displayed Average Noise Level Performance Test The PSA’s input is terminated with a 50 ohm load, and the displayed average noise level (DANL) is measured within the specified frequency ranges. If the PSA has the preamp option 1DS, additional testing is performed with the preamp on. All tests are performed in DC-Coupled mode. Required Test Equipment Test Equipment Model Number 50 ohm Termination 50 ohm Termination 3.5 mm (f) to Type N (f) adapter 909A Option 012 85138B 1250-1745 E4440A E4443A, E4445A X E4446A E4448A X (Option BAB) Displayed Average Noise Level Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/danl.htm (1 of 2) [5/29/2003 8:46:56 AM] Displayed Average Noise Level (DANL) Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/danl.htm (2 of 2) [5/29/2003 8:46:56 AM] Frequency Reference Accuracy Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Reference Accuracy Performance Test This test determines that the frequency reference is functional, provides a measured frequency value, suggests that an adjustment be made if the yearly allowable frequency offset value is exceeded. The instrument is set to Internal Reference mode and is allowed a sufficient warm-up time of 24 hours while powered on (not in Standby mode). The frequency of the 10 MHz Reference is measured at its rear-panel port using a counter locked to a frequency standard. The measured value is compared to the allowable offset guideline, and is also printed on the Performance Test printout. Placing the analyzer in Standby mode turns the frequency reference oscillator off, while continuing to provide power to the oven. While keeping the oscillator warm will reduce its stabilization time, it will not cause aging. Required Test Equipment Test Equipment Model Number Universal Counter 53132A E4440A E4443A, E4445A X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/reffreq.htm (1 of 2) [5/29/2003 8:46:57 AM] E4446A E4448A X Frequency Reference Accuracy Performance Test Frequency Standard BNC Cable (2 required) 5071A 10503A X X Frequency Reference Accuracy Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/reffreq.htm (2 of 2) [5/29/2003 8:46:57 AM] X X Frequency Readout Accuracy Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Readout Accuracy Performance Test The test verifies the accuracy of a displayed frequency relative to either the start frequency or the center frequency of the sweep. It is not necessary that the start/center frequency be accurately known. It must, however, be the same as the frequency supplied by the external source. This is accomplished by locking the source and DUT references thus eliminating the Frequency Reference term. With the references locked, the test is done in several spans to check all modes of the synthesizer circuitry. Required Test Equipment Test Equipment Synthesized Sweeper BNC Cable APC 3.5 Cable Type N (f) to 3.5 mm (f) adapter 3.5 mm (f) to 3.5 mm (f) adapter 2.4 mm (f) to 3.5 mm (f) adapter Model Number 83630A/B 83640A/B, 83650A/B 10503A 8120-4921 1250-1745 83059B 11901B E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqread.htm (1 of 2) [5/29/2003 8:46:58 AM] X X Frequency Readout Accuracy Performance Test Type N (m) to 3.5 mm (f) adapter 1250-1744 X Frequency Readout Accuracy Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqread.htm (2 of 2) [5/29/2003 8:46:58 AM] Count Accuracy Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Count Accuracy Performance Test The test verifies the count accuracy of the built-in frequency counter. The PSA performs the Marker Count function by pausing between sweeps, tuning the center frequency to the marker frequency, setting the span to zero hertz, and then counting the frequency of the signal long enough to achieve a valid reading. A synthesized source is used to supply the signal at a known frequency. The PSA 10 MHz frequency reference is connected to the source to lock it to the DUT. Required Test Equipment Test Equipment Synthesized Sweeper BNC Cable APC 3.5 Cable Type N (f) to 3.5 mm (f) adapter 3.5 mm (f) to 3.5 mm (f) adapter 2.4 mm (f) to 3.5 mm (f) adapter Type N (m) to 3.5 mm (f) adapter Model Number 83630A/B 83640A/B, 83650A/B 10503A 8120-4921 1250-1745 83059B 11901B 1250-1744 E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/count.htm (1 of 2) [5/29/2003 8:46:58 AM] X X Count Accuracy Performance Test Count Accuracy Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/count.htm (2 of 2) [5/29/2003 8:46:58 AM] Spurious Responses Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Spurious Responses Performance Test This test verifies that the PSA Series Spectrum Analyzer meets its specification for input related spurious responses. In this test, the source is connected to the RF Input and set for the spur frequency. The source amplitude is measured using a power meter. The source frequency is then moved to the frequency location that will create the spur. The amplitude of the source is kept the same by using the power meter. The PSA then measures the spurious response at the spur frequency. Required Test Equipment Test Equipment Synthesized Sweeper Synthesized Sweeper Power Meter Power Sensor Model Number 83630A/B, Option 008 83640A/B, 83650A/B, Option 008 83650A/B, Option 008 E4419A 8485A E4446A E4440A E4443A, E4445A E4448A X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/spurs.htm (1 of 3) [5/29/2003 8:46:59 AM] X X Spurious Responses Performance Test Power Sensor Power Splitter Power Splitter APC 3.5 Cable 2.4 mm Cable BNC Cable 3.5 mm (f) to 3.5 mm (f) adapter 3.5 mm (f) to 2.4 mm (f) adapter 8487A 11667B 11667C 8120-4921 8120-6164 10503A X X 83059B X 11901B X X X X Power Meter Calibration Spurious Responses Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/spurs.htm (2 of 3) [5/29/2003 8:46:59 AM] X X Spurious Responses Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/spurs.htm (3 of 3) [5/29/2003 8:46:59 AM] Third Order Intermodulation Distortion Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Third Order Intermodulation Distortion Performance Test This test measures the Third-Order Intermodulation distortion produced by two discrete signals, and computes the Third Order Intercept (TOI) point. Two signals separated by 100 kHz are combined in a directional bridge or directional coupler (for isolation) and are injected into the analyzer input. The spectrum analyzer measures the amplitude of the lower and upper distortion products. TOI is computed using the higher (worst case) of these two products. Testing begins by turning on one signal source and measuring the signal level at the directional bridge/coupler output port with a power meter. The bridge/coupler is then connected to the analyzer input, and the signal from the source is displayed on the analyzer. The second signal source is turned on and its amplitude is adjusted to match that of the first source. In the 3 Hz to 3 GHz band, a filter is used to attenuate the second harmonic of the signal closest to the distortion product being measured. Above 3 GHz the analyzer provides internal preselection so the source does not require an external filter. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/toi.htm (1 of 4) [5/29/2003 8:47:01 AM] Third Order Intermodulation Distortion Performance Test Test Equipment Synthesized Sweeper (2 required) Power Meter Power Sensor Directional Bridge Directional Coupler (2 required) BNC Cable (2 required) APC 3.5 Cable (2 required) 50 MHz Low Pass Filter 1.8 GHz Low Pass Filter 3.5 mm (f) to 3.5 mm (f) adapter (2 required) BNC (m) to SMA (f) adapter Type N (m) to Type N (m) adapter Type N (m) to BNC (f) adapter Type N (m) to 3.5 mm (m) adapter Type N (m) to 3.5 mm (f) adapter (2 required, 3 required for Option BAB) 3.5 mm (m) to 3.5 mm (m) adapter (2 required) 3.5 mm 50 ohm Termination 2.4 mm (f) to 3.5 mm (f) adapter 2.4 mm (f) to 3.5 mm (m) adapter Model Number E4440A E4446A E4443A, E4445A E4448A 83630A/B 83640A/B, 83650A/B E4419B 8485A 86205A 87300B 10503A 8120-4921 0955-0306 0955-0491 X X X X X X X X X X X X X X X X X X 83059B X X 1250-1700 1250-1475 1250-1476 1250-1743 X X X X X X X X 1250-1744 X X 1250-1748 X X 909D 11901B 11901D X X X X X Power Meter Calibration http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/toi.htm (2 of 4) [5/29/2003 8:47:01 AM] Third Order Intermodulation Distortion Performance Test Third Order Intermodulation Distortion Low Band Test Setup Third Order Intermodulation Distortion High Band Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/toi.htm (3 of 4) [5/29/2003 8:47:01 AM] Third Order Intermodulation Distortion Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/toi.htm (4 of 4) [5/29/2003 8:47:01 AM] Gain Compression Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Gain Compression Performance Test The test is performed at center frequencies of 50 MHz, 2 GHz and 7.6 GHz (excluding E4443A). The E444XA Reference Level is set to +10 dBm, the RBW is set to 30 kHz, and the tone spacing is 3 MHz. The E444XA input attenuator is set to 6 dB to provide acceptable input VSWR and yet to allow sufficient signal level at the input mixer without the need of an external amplifier. An input signal is set so that the mixer power is appropriate for the specification. The signal amplitude is measured and a second tone is applied to bring the DUT into compression. The resulting amplitude drop of the first tone is measured. If the amplitude drop is greater than 1 dB the test result is "Fail". A directional coupler or bridge is used to combine the tones and provide sufficient source isolation. Test Equipment Test Equipment Model Number Synthesized Sweeper (2 required) Power Meter Power Sensor Directional Coupler 83630A/B 83640A/B, 83650A/B E4419A/B 8481A 87300B E4440A E4446A E4443A, E4445A E4448A X X X X X X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/gaincomp.htm (1 of 4) [5/29/2003 8:47:07 AM] Gain Compression Performance Test Directional Bridge APC 3.5 Cable (2 required) BNC Cable 2.4 mm (f) to 3.5 mm (f) adapter (2 required with 83640B) 3.5 mm (f) to 3.5 mm (f) adapter (2 required with 83630B) Type N (m) to Type N (m) adapter Type N (f) to 3.5 mm (m) adapter Type N (m) to 3.5 mm (f) adapter (up to 3 required for Opt BAB) Type N (m) to 2.4 mm (f) adapter BNC Tee 86205A 8120-4921 10503A X X X X X X 11901B X X 83059B X X 1250-1475 1250-1750 X X 1250-1744 X 11903D 1250-0781 X Power Meter Calibration Gain Compression (50 MHz and 2 GHz) Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/gaincomp.htm (2 of 4) [5/29/2003 8:47:07 AM] X X Gain Compression Performance Test Gain Compression (7.6 GHz) Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/gaincomp.htm (3 of 4) [5/29/2003 8:47:07 AM] Gain Compression Performance Test http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/gaincomp.htm (4 of 4) [5/29/2003 8:47:07 AM] Second Harmonic Distortion (SHD) Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Second Harmonic Distortion Performance Test At each test frequency, a signal is applied whose amplitude meets the requirement for the power at the first mixer. One or more low pass filters are inserted between the source and the PSA under test to prevent the second harmonic of the source from artificially raising the second harmonic product as it is displayed on the PSA. The Marker Amplitude function is used to measure the level of the distortion product and the theoretical Second Harmonic Intercept point (SHI) is calculated. To reduce amplitude uncertainty due to flatness, a power meter is used to characterize the PSA at the fundamental and 2nd harmonic frequencies. Required Test Equipment Test Equipment Synthesized Sweeper Power Meter Model Number 83630A/B 83640A/B, 83650A/B E4419B E4446A E4440A E4443A, E4445A E4448A X X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/shd.htm (1 of 3) [5/29/2003 8:47:08 AM] Second Harmonic Distortion (SHD) Performance Test Power Sensor Power Splitter 50 MHz Low Pass Filter 300 MHz Low Pass Filter (2 required) 1.8 GHz Low Pass Filter (2 required) 4.4 GHz Low Pass Filter (2 required) BNC Cable Type N Cable Type N (m) to BNC (f) adapter 3.5 mm (m) to 3.5 mm (m) adapter Type N (m) to Type N (m) adapter Type N (f) to 3.5 mm (f) adapter Type N (f) to BNC (m) adapter Type N (m) to 3.5 mm (f) adapter (2 required for Option BAB; 1 for std.) 2.4 mm (f) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (m) adapter 2.4 mm (f) to Type N (f) adapter Type N (f) to 3.5 mm (m) adapter 8481A 11667A 0955-0306 0955-0455 0955-0491 9132-0005 10503A 11500C 1250-1476 1250-1478 1250-1475 1250-1745 1250-1477 X X X X X X X X X X X X X 1250-1744 Opt BAB 11901B 11903D 11903B 1250-1750 X X Power Meter Calibration Second Harmonic Distortion Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/shd.htm (2 of 3) [5/29/2003 8:47:08 AM] X X X X X X X X X X X X X X X Second Harmonic Distortion (SHD) Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/shd.htm (3 of 3) [5/29/2003 8:47:08 AM] Power Bandwidth Accuracy Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Power Bandwidth Accuracy Performance Test In this test, the power bandwidth function is checked at a CW frequency of 50 MHz for resolution bandwidths from 1 Hz to 1.2 MHz in a 1, 3, 10 sequence. The signal source is the internal 50 MHz calibrator signal. The power bandwidth function reads the integrated power between a marker pair which enclose the CW signal.. This power is compared to the maximum power of the CW signal as read by the E444XA marker. Required Test Equipment None Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/powbw.htm [5/29/2003 8:47:09 AM] Resolution Bandwidth Switching Uncertainty Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Resolution Bandwidth Switching Uncertainty Performance Test Resolution bandwidth switching uncertainty is the relative amplitude error caused by the multiple filters that produce a specific RBW. To measure the resolution bandwidth switching uncertainty, an amplitude reference is taken with the resolution bandwidth set to 30 kHz using the marker delta function The resolution bandwidth is changed to settings between 300 Hz and 8 MHz, as applicable, and the relative amplitude variation is measured at each setting and compared to the specification. Required Test Equipment None Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/resbwswitch.htm [5/29/2003 8:47:09 AM] IF Amplitude Ripple (Option B7J) Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software IF Amplitude Ripple (Option B7J) Performance Test NOTE: This test is to be performed on PSA analyzers with Option B7J only. This test is a functional test. The IF Amplitude Ripple is measured in order to meet the EVM specification listed for various Digital Comms personalities. In this test, a CW signal of fixed amplitude is applied through a power splitter to the input of the PSA and to a power meter. With the PSA center frequency set to the CW value set by the source, the source amplitude is adjusted to a reference level, as indicated by the power meter. The source frequency is then changed to a series of offset frequencies within the span of interest. At each offset frequency, the source amplitude is adjusted to maintain a constant reading from the power meter. The amplitude at each offset frequency is measured by the PSA. The difference between the amplitude at an offset frequency and the amplitude at the reference frequency is the IF Amplitude Ripple. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/ifamprip.htm (1 of 3) [5/29/2003 8:47:10 AM] IF Amplitude Ripple (Option B7J) Performance Test Test Equipment Model Number Signal Generator Power Meter Power Sensor Power Splitter Type N Cable BNC Cable Type N (m) to Type N (m) adapter Type N (m) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (m) adapter E4433B E4419A/B 8481A Option H84 11667A 11500C 10503A 1250-1475 1250-1744 11903D E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X X X X X (Option BAB) X Power Meter Calibration IF Amplitude Ripple Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/ifamprip.htm (2 of 3) [5/29/2003 8:47:10 AM] IF Amplitude Ripple (Option B7J) Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/ifamprip.htm (3 of 3) [5/29/2003 8:47:10 AM] IF Phase Ripple (Option B7J) Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software IF Phase Ripple (Option B7J) Performance Test NOTE: This test is to be performed on PSA analyzers with Option B7J only. This test is a functional test. The IF Phase Ripple is measured in order to meet the EVM specification listed for various Digital Comms personalities. In this test the source is set to output 64 tones in groups of 8 tones which are generated synchronously. The tones are measured in groups to reduce error due to noise. An algorithm is applied to the measurement data to determine the relative phase between the tones. Required Test Equipment Test Equipment Model Number Signal Generator Type N Cable BNC Cable Type N (f) to 3.5 mm (f) adapter E4433B 11500C 10503A 1250-1745 E4440A E4443A, E4445A X X X Option BAB http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/ifphaserip.htm (1 of 2) [5/29/2003 8:47:11 AM] E4446A E4448A X X X IF Phase Ripple (Option B7J) Performance Test Type N (f) to BNC (m) adapter 2.4 mm (f) to Type N (f) adapter 1250-1477 11903B X IF Phase Ripple Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/ifphaserip.htm (2 of 2) [5/29/2003 8:47:11 AM] X X Display Scale Fidelity Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Display Scale Fidelity Performance Test This test verifies that the PSA meets its amplitude accuracy specification for amplitude linearity. The input attenuator is set to 10 dB in zero span mode. The first part of the test sets the source to 5 dBm and external attenuators are set to 30 dB. The signal is then measured. The value measured is recorded as the reference level. The RF input is then varied between the specification intervals of 0 dBm and -17 dBm. The second part of the test sets the source to -20 dBm and external attenuators are set to 5 dB. The signal is then measured. The value measured is recorded as the reference level. The RF input is then varied between the specification intervals of -25 dBm and -55 dBm. Signals below this level are guaranteed by design and are not measured. NOTE: This test requires step attenuator calibration data to obtain valid results. Make sure you enter the calibration data for the step attenuators that you're using. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. You must enter the data for the following columns to obtain valid results: Attn(dB), Uncert(dB) and ReflSize. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/scalefid.htm (1 of 2) [5/29/2003 8:47:12 AM] Display Scale Fidelity Performance Test Test Equipment Model Number Digital Signal Generator 1 dB Step Attenuator 10 dB Step Attenuator Attenuator Driver Attenuator Interconnect Kit Type N Cable BNC Cable 3.5 mm (f) to Type N (f) adapter 2.4 mm (f) to Type N (f) adapter 8663A 8494G 8496G 11713A 11716A 11500C 10503A 1250-1745 11903B E4440A E4443A, E4445A X X X X X X X Option BAB Display Scale Fidelity Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/scalefid.htm (2 of 2) [5/29/2003 8:47:12 AM] E4446A E4448A X X X X X X X X Input Attenuation Switching Uncertainty Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Input Attenuation Switching Uncertainty Performance Test This test measures the step accuracy of the PSA input attenuator at 50 MHz. A signal source is connected to the PSA through the 10 dB and 1 dB precision step attenuators. The PSA input attenuator is varied from 0 dB to 70 dB while the external attenuator is switched from 70 dB to 0 dB. The step loss of the external attenuator is characterized to ± .03 dB, therefore the PSA Input Attenuator Switching Uncertainty can be calculated through RF substitution. The PSA mixer level is maintained at a constant level, thus eliminating scale fidelity error. If the PSA is outfitted with Option B7J, Digital Demod Hardware, the test is performed once again on the internal Electronic Attenuator. NOTE: This test requires step attenuator calibration data to obtain valid results. Make sure you enter the calibration data for the step attenuators that you're using. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. You must enter the data for the following columns to obtain valid results: Attn(dB), Uncert(dB) and ReflSize. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/atten.htm (1 of 2) [5/29/2003 8:47:13 AM] Input Attenuation Switching Uncertainty Performance Test Test Equipment Model Number Signal Generator 1 dB Step Attenuator 10 dB Step Attenuator Attenuator Driver Attenuator Interconnect Kit 20 dB Fixed Attenuator BNC Cable Type N Cable Type N (f) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (f) adapter 8663A 8494G 8496G 11713A 11716A 8491A Option 020 10503A 11500C 1250-1745 11903B E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X X X X X X X X Opt BAB X Input Attenuation Switching Uncertainty Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/atten.htm (2 of 2) [5/29/2003 8:47:13 AM] Absolute Amplitude Accuracy Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Absolute Amplitude Accuracy Performance Test This test measures the absolute amplitude of the PSA at 50 MHz. A synthesized signal source and attenuators are used as the signal source to the analyzer. A power meter is used to measure this signal source. The value measured is recorded as the source amplitude. The PSA's input attenuator is fixed at 10 dB attenuation and the source amplitude is varied using the external attenuators. NOTE: This test requires step attenuator calibration data to obtain valid results. Make sure you enter the calibration data for the step attenuators that you're using. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. You must enter the data for the following columns to obtain valid results: Attn(dB), Uncert(dB) and ReflSize. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/absampstd.htm (1 of 3) [5/29/2003 8:47:14 AM] Absolute Amplitude Accuracy Performance Test Test Equipment Model Number Signal Generator Power Meter Power Sensor 6 dB Attenuator 10 dB Step Attenuator 1 dB Step Attenuator Attenuator Driver Attenuator Interconnect Kit Type N Cable (2 required) BNC Cable Type N (f) to Type N (f) adapter Type N (f) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (f) adapter 8663A E4419B 8482A Option H84 8491A Options 006, H47 8496G 8494G 11713A 11716A 11500C 10503A 1250-1472 1250-1745 11903B E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X X X X X X X X X X X X X X X Power Meter Calibration Measure Source Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/absampstd.htm (2 of 3) [5/29/2003 8:47:14 AM] Absolute Amplitude Accuracy Performance Test Absolute Amplitude Accuracy Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/absampstd.htm (3 of 3) [5/29/2003 8:47:14 AM] Noise Sidebands < 50 kHz Offsets Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Noise Sidebands < 50 kHz Offsets Performance Test This test verifies that the PSA meets it's noise sidebands specifications for offsets less than 50 kHz from the center frequency. In this test, the source is connected to the RF Input and the noise level is measured at offsets of 100 Hz, 1 kHz, 10 kHz, and 30 kHz from the carrier. The sideband power is then subtracted from the carrier power to convert the measurement to dBc. The resulting dBc measurement is normalized to 1 Hz RBW, and 2.25 dB of corrections are added. The 2.25 dB corrections account for: 1. The Rayleigh Distribution of noise (1.05 dB). 2. The Log Response of the PSA (1.45 dB). 3. Equivalent Noise Bandwidth of the RBW filters (-.25 dB). This test is performed in conjunction with the Noise Sidebands > 50 kHz Offsets test. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/noisesb1.htm (1 of 2) [5/29/2003 8:47:15 AM] Noise Sidebands < 50 kHz Offsets Performance Test Test Equipment Model Number Signal Generator BNC Cable 3.5 mm Cable 3.5 mm (f) to 3.5 mm (f) adapter Type N (m) to 3.5 mm (f) adapter 2.4 mm (f) to 3.5 mm (f) adapter 8663A 10503A 8120-4921 1250-1749 1250-1744 11901B E4440A E4443A, E4445A X X X Opt BAB X Noise Sidebands < 50 kHz Offsets Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/noisesb1.htm (2 of 2) [5/29/2003 8:47:15 AM] E4446A E4448A X X X X Noise Sidebands > 50 kHz Offsets Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Noise Sidebands > 50 kHz Offsets Performance Test This test verifies that the PSA meets it's Noise Sidebands specification for offsets greater than 50 kHz from the center frequency. In this test, the source is connected to the RF Input and the noise level is measured at offsets of 100 kHz, 1 MHz, 6 MHz, and 10 MHz. In order to minimize the PSA DANL effects, near noise corrections are applied at each offset frequency. Near noise corrections involve measuring the noise sidebands with the RF signal On, and then measuring the DANL with the RF signal Off. Both measurements are then converted to power (in Watts), and the noise power is subtracted from the sideband power. The resulting power is converted to dBm. The sideband power is then subtracted from the carrier power to convert the measurement to dBc. The resulting dBc measurement is normalized to 1 Hz RBW, and 2.25 dB of corrections are added. The 2.25 dB corrections account for: 1. The Rayleigh Distribution of noise (1.05 dB). 2. The Log Response of the PSA (1.45 dB). 3. Equivalent Noise Bandwidth of the RBW filters (-.25 dB). This test is performed in conjunction with the Noise Sidebands < 50 kHz Offsets test. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/noisesb2.htm (1 of 2) [5/29/2003 8:47:17 AM] Noise Sidebands > 50 kHz Offsets Performance Test Required Test Equipment Test Equipment Model Number Signal Generator BNC Cable 3.5 mm Cable 3.5 mm (f) to 3.5 mm (f) adapter Type N (m) to 3.5 mm (f) adapter 2.4 mm (f) to 3.5 mm (f) adapter 8665B 10503A 8120-4921 1250-1749 1250-1744 11901B E4440A E4443A, E4445A X X X Opt BAB X Noise Sidebands > 50 kHz Offsets Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/noisesb2.htm (2 of 2) [5/29/2003 8:47:17 AM] E4446A E4448A X X X X Frequency Response (Option B7J) Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response (Option B7J) Performance Test NOTE: This test is to be performed on PSA analyzers with Option B7J only. The PSA Option B7J is hardware which supports the Digital Comms options. An electronic attenuator is included in the option. The attenuator realizes 40 dB of attenuation with 1, 2, 2, 5, 10, and 20 dB steps. The PSA Option B7J Flatness Test measures the flatness of each attenuator section relative to the reference frequency of 50 MHz. The test levels the signal source output by employing a power splitter and a power meter. Measurement uncertainties are kept to a minimum by using a reference sensor to calibrate a buried sensor. The buried sensor calibration calibrates out errors such as output tracking of the splitter. Required Test Equipment Test Equipment Model Number Signal Generator 8665B E4440A E4446A E4443A, E4445A E4448A X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresb7j.htm (1 of 3) [5/29/2003 8:47:18 AM] Frequency Response (Option B7J) Performance Test Power Meter Power Sensor (2 required) Power Splitter Type N Cable Type N (m) to Type N (m) adapter Type N (m) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (m) adapter E4419A/B 8482A Option H84 11667A 11500C 1250-1475 1250-1744 11903D X X X X X X Power Meter Calibration (Channel A) Power Meter Calibration (Channel B) Buried Sensor Transfer Calibration http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresb7j.htm (2 of 3) [5/29/2003 8:47:18 AM] X X X X X X Frequency Response (Option B7J) Performance Test Frequency Response (Option B7J) Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresb7j.htm (3 of 3) [5/29/2003 8:47:18 AM] Frequency Response 300 kHz to 3 GHz Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response 300 kHz to 3 GHz Performance Test Frequency Response (or flatness) is defined as the amplitude deviation from the reference value at 50 MHz. The complete E444XA Frequency Response is measured with three different tests; ● ● ● Frequency Response Below 300 kHz Frequency Response 300 kHz to 3 GHz Frequency Response Above 3 GHz The Frequency Response Below 300 kHz test is used to verify flatness from 10 Hz to 300 kHz. The 300 kHz normalized error from the Frequency Response 300 kHz to 3 GHz test is used as the reference point for the Frequency Response Below 300 kHz test. The Frequency Response Above 3 GHz test verifies flatness from 3.0 GHz up to 50 GHz, depending on your instrument frequency range. This test measures Frequency Response 300 kHz to 3.0 GHz with the preamplifier (Option 1DS) off and on, in AC coupled mode, and with 10, 20, 30, and 40 dB of attenuation. For each test frequency, the amplitude error is normalized to 50 MHz, and the result is called Frequency Response. This test has three sections. The first section measures the flatness from 300 kHz to 3 GHz http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresmidf.htm (1 of 5) [5/29/2003 8:47:20 AM] Frequency Response 300 kHz to 3 GHz Performance Test with the preamplifier turned off and 10 dB of RF attenuation. This section will characterize the tracking error of the 11667A power splitter in order to reduce measurement uncertainties. The second section measures flatness from 50 MHz to 3 GHz with 20, 30, and 40 dB of RF attenuation (preamplifier is off). This section is performed on instruments with Serial Number Prefixes greater than US4140, or MY4140. As with the first section, the splitter tracking will be characterized in an effort to reduce the measurement uncertainties. The third section measures flatness from 300 kHz to 3 GHz with the preamplifier turned on. As with the first section, the splitter tracking will be characterized in an effort to reduce the measurement uncertainties. Required Test Equipment E4440A E4446A E4443A, E4445A E4448A Signal Generator 8665B X X Power Meter E4419A/B X X Power Sensor (2 required) 8482A Opt H84 X X 20 dB Attenuator 8491A/B Opt 020 (Opt 1DS only) (Opt 1DS only) Power Splitter 11667A X X Type N Cable 11500C X X BNC Cable 10503A X X Type N (m) to Type N (m) adapter 1250-1475 X Type N (m) to 3.5 mm (f) adapter 1250-1744 Opt BAB 2.4 mm (f) to Type N (m) adapter 11903D X Test Equipment Model Number Power Meter Calibration (Channel A) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresmidf.htm (2 of 5) [5/29/2003 8:47:20 AM] Frequency Response 300 kHz to 3 GHz Performance Test Power Meter Calibration (Channel B) 300 kHz to 3 GHz Splitter Calibration 300 kHz to 3 GHz Flatness Test Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresmidf.htm (3 of 5) [5/29/2003 8:47:20 AM] Frequency Response 300 kHz to 3 GHz Performance Test 300 kHz to 3 GHz Splitter Calibration (Preamp on, Opt 1DS only) 300 kHz to 3 GHz Flatness Test Setup (Preamp on, Opt 1DS only) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresmidf.htm (4 of 5) [5/29/2003 8:47:20 AM] Frequency Response 300 kHz to 3 GHz Performance Test Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqresmidf.htm (5 of 5) [5/29/2003 8:47:20 AM] Frequency Response Above 3 GHz Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response Above 3 GHz Performance Test Frequency Response (or flatness) is defined as the amplitude deviation from the reference value at 50 MHz. The complete E444XA Frequency Response is measured with three different tests; ● ● ● Frequency Response Below 300 kHz Frequency Response 300 kHz to 3 GHz Frequency Response Above 3 GHz The Frequency Response Below 300 kHz test is used to verify flatness from 10 Hz to 300 kHz. The 300 kHz normalized error from the Frequency Response 300 kHz to 3 GHz test is used as the reference point for the Frequency Response Below 300 kHz test. The Frequency Response Above 3 GHz test verifies flatness from 3.0 GHz up to 50 GHz, depending on your instrument frequency range. This test verifies the displayed amplitude vs. frequency over the frequency range from 3.0 GHz to 50 GHz. For each test frequency, the amplitude error is normalized to 50 MHz, and the result is called Frequency Response. Two sources, and two sets of power sensors are used to provide the needed frequency range. The E444XA flatness corrections are located every 100 MHz for frequencies above 3 GHz. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqreshf.htm (1 of 3) [5/29/2003 8:47:21 AM] Frequency Response Above 3 GHz Performance Test Above 3 GHz the flatness specification widens out such that higher uncertainties can be tolerated, therefore a splitter calibration is not necessary. Required Test Equipment Test Equipment Synthesized Sweeper Synthesized Sweeper Power Meter Power Sensor Power Sensor Power Splitter Power Splitter 3.5 mm Cable BNC Cable 2.4 mm Cable 2.4 mm (f) to 3.5 mm (f) adapter Type N (m) to 3.5 mm (m) adapter 3.5 mm (f) to 3.5 mm (f) adapter Type N (m) to 2.4 mm (f) adapter Model Number 83630A/B 83640A/B, 83650A/B 83640A/B, 83650A/B E4419A/B 8485A 8487A 11667B 11667C 8120-4921 10503A 8120-6164 11901B 1250-1743 83059B 11903D E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X X X X X X X Power Meter Calibration (Channel A) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqreshf.htm (2 of 3) [5/29/2003 8:47:21 AM] X Frequency Response Above 3 GHz Performance Test Power Meter Calibration (Channel B) Frequency Response Above 3 GHz Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqreshf.htm (3 of 3) [5/29/2003 8:47:21 AM] Frequency Response Below 300 kHz Performance Test Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response Below 300 kHz Performance Test NOTE: The test Frequency Response 300 kHz to 3 GHz must be performed before performing this test. Frequency Response (or flatness) is defined as the amplitude deviation from the reference value at 50 MHz. The complete E444XA Frequency Response is measured with three different tests; ● ● ● Frequency Response Below 300 kHz Frequency Response 300 kHz to 3 GHz Frequency Response Above 3 GHz The Frequency Response Below 300 kHz test is used to verify flatness from 10 Hz to 300 kHz. The 300 kHz normalized error from the Frequency Response 300 kHz to 3 GHz test is used as the reference point for the Frequency Response Below 300 kHz test. The Frequency Response Above 3 GHz test verifies flatness from 3.0 GHz up to 50 GHz, depending on your instrument frequency range. This test measures the E444XA flatness over the frequency range from 10 Hz to 300 kHz, http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqreslf.htm (1 of 3) [5/29/2003 8:47:22 AM] Frequency Response Below 300 kHz Performance Test relative to the amplitude at 300 kHz. This relative flatness is converted to an absolute flatness by adding the 300 kHz flatness error from the Frequency Response (300 kHz to 3 GHz) test. A function generator, and a multimeter are used in the test. The function generator and DVM provide an accurate, flat CW level of 0.0707 V (RMS) (-10 dBm into 50 ohms) to the E444XA. This is the same input level that is used in the 300 kHz to 3 GHz test. The E444XA measures the amplitude of the signal in dBm. Flatness (frequency response) is defined as the difference between the multimeter reading and the E444XA reading in dB. The E444XA has three flatness correction points below 300 kHz. The correction points are 9 kHz, 50 kHz, and 200 kHz. The firmware applies the 9 kHz Flatness Correction as an offset to all points below 9 kHz. Required Test Equipment Test Equipment Model Number Function Generator Multimeter BNC Cable (2 required) Type N (m) to BNC (f) adapter BNC (f) to dual banana adapter BNC Tee Type N (f) to 3.5 mm (f) adapter Type N (f) to 2.4mm (f) adapter BNC 50 ohm termination 33120A 3458A 10503A 1250-1476 1251-2277 1250-0781 1250-1745 11903B 1250-0207 E4440A E4443A, E4445A X X X X X X (Option BAB) X Frequency Response Below 300 kHz System Calibration http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqreslf.htm (2 of 3) [5/29/2003 8:47:22 AM] E4446A E4448A X X X X X X X X Frequency Response Below 300 kHz Performance Test Frequency Response Below 300 kHz Test Setup Troubleshooting http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Performance/freqreslf.htm (3 of 3) [5/29/2003 8:47:22 AM] PSA Memory Initialization Utility Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Memory Initialization Utilities The PSA Memory Initialization Utilities encompass two functions. One utility resets the statistics (attenuator actuations, 50 MHz calibrator actuations, temperature ranges, hours of operation, etc.). The other writes the latest default calibration constants into the memory of a particular board assembly. This is needed since one part number board assembly is used in several model numbers, and certain model numbers require different default calibration constants. Utilities are selected the same way as performance tests and adjustments. Utility 1: Modification of Hardware Statistical Data Utility 1 resets the statistical data (attenuator actuations, 50 MHz calibrator switches, hours of operation, etc.) on the A12 assembly. This statistical information is viewed on the analyzer screen when you press: System, More, Show System. It is to be used to reset one of the fields for troubleshooting, or due to an assembly replacement. For example, the number of preamplifier switch actuations will need to be reset to zero if the preamplifier is replaced. When used: After replacing either of the attenuators or the preamp, or if you want to reset the temperature extremes the instrument encounters or the auto align Off time. The utility will: http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/adjustmemory.htm (1 of 2) [5/29/2003 8:47:23 AM] PSA Memory Initialization Utility ● ● ● ● ● ● ● Reset mechanical attenuator actuations when either the A14 or A15 Input Attenuators are replaced. Reset 50 MHz switch actuations when the A14 Input Attenuator is replaced. Reset AC/DC switch actuations when the A14 Input Attenuator is replaced. Reset Preamp switch actuations when the A22 Preamp is replaced. Reset the temperature extremes. You may wish to reset this counter when troubleshooting temperature related problems. Reset the Auto Align OFF time. You can turn the Auto align function off so an auto align will not occur during a critical test. This counter keeps track of the time in hours that auto align is turned off. Being able to reset this allows you to restart the clock if you wish. Reset Overload Events. You may wish to reset this when troubleshooting input power related problems. Utility 2: Calibration Constant Memory Initialization Utility 2 supports four board assemblies that can be configured via memory initialization to work in a particular instrument model. Eight variations are needed to initialize the memory on the current instruments. The 3rd Converter, Analog IF, and LO/Synthesizer assemblies need to be configured either for the E4440A/E4443A/E4445A or for the E4446A/E4448A. The Front End Driver assembly needs to be configured differently for either the E4446A or E4448A. When used: After replacing the following board assemblies. ● ● ● ● A8 Analog IF A10 3rd Converter A12A1 Synthesizer Board or entire A12 Synthesizer Assembly A13 Front End Driver (E4446A or E4448A) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/adjustmemory.htm (2 of 2) [5/29/2003 8:47:23 AM] PSA Adjustments Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software PSA Series Adjustments The following adjustments can be performed on the PSA series spectrum analyzers. These procedures are designed to reset various circuit parameters or recalculate correction values associated with some measurements. The software is designed to adjust an instrument operating within the operational temperature range defined by the instrument specifications. Never perform adjustments as routine maintenance. Adjustments should be performed only after a repair or a performance test failure. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Lowband Mixer Bias Adjustment SLODA Adjustment (E4440A, E4443A, E4445A) FELOMA Adjustment (E4446A, E4448A) Second LO Power Adjustment Analog IF Input Detector Adjustment Attenuator Slope Adjustment 50 MHz Calibrator Amplitude Adjustment Overload Detector DAC Adjustment 10 MHz Internal Frequency Reference Adjustment YTF Alignment Adjustment Frequency Response Adjustment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/adjust.htm (1 of 2) [5/29/2003 8:47:24 AM] PSA Adjustments 12. Frequency Response Adjustment (Option B7J) Memory Initialization Utilities http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/adjust.htm (2 of 2) [5/29/2003 8:47:24 AM] Lowband Mixer Bias Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Lowband Mixer Bias Adjustment The bias currents for the A20 Lowband (1st and 2nd mixer) internal amplifiers are adjusted. These are for the 1st mixer LO amplifier and IF amplifier, and for the 2nd mixer LO amplifier. The currents are set by measuring voltage differences across 1 ohm sense resistors. Voltages are monitored on test points on the A13 Front End Driver with a DVM and are adjusted by supplying data to DACs on A13. The test points are accessible via a header on the top of A13, so placing A13 on an extender is not necessary. The instrument cover and top shield must be removed, however. This adjustment should be performed after replacing the A20 and/or A13 assemblies. Required Test Equipment Test Equipment Model Number Digital Voltmeter E4440-60041 DC Probe 3458A Bias Adjustment Board 11002A, 11003A E4440A E4443A, E4445A X X X Lowband Mixer Bias Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustmixbias.htm (1 of 2) [5/29/2003 8:47:24 AM] E4446A E4448A X X X Lowband Mixer Bias Adjustment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustmixbias.htm (2 of 2) [5/29/2003 8:47:24 AM] Switched LO Distribution Amplifier (SLODA) Adjustment (E4440A, E4443A, E4445A) Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Switched LO Distribution Amplifier (SLODA) Adjustment (E4440A, E4443A, E4445A) The Switched LO Distribution Amplifier (SLODA) requires six ALC bias voltages and one gate bias. The voltages for each of these biases are printed on the SLODA label. These voltages can be read with a DVM on the test connector on the Front End Driver, A13J12. The computer sends commands to the PSA to set the appropriate latch and bias DAC, and the DVM is used to verify that the proper bias voltages are present. This adjustment should be performed after replacing the A21 or A13 assemblies. Required Test Equipment Test Equipment Digital Voltmeter E4440-60041 DC Probe Model Number 3458A Bias Adjustment Board 11002A, 11003A http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustsloda.htm (1 of 2) [5/29/2003 8:47:25 AM] Switched LO Distribution Amplifier (SLODA) Adjustment (E4440A, E4443A, E4445A) SLODA Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustsloda.htm (2 of 2) [5/29/2003 8:47:25 AM] Frequency Extended Local Oscillator Multiplier Amplifier (FELOMA) Amplifier Adjustment (E4446A, E4448A) Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Extended Local Oscillator Multiplier Amplifier (FELOMA) Adjustment (E4446A, E4448A) The Frequency Extended Local Oscillator Multiplier Amplifier (FELOMA) provides amplitude leveling and distribution of the first LO (3 to 7 GHz) to the Lowband assembly, RYTHM, SBTX, and the LO Synthesizer assembly. There are three ALC loops in the FELOMA. The main input ALC loop can have its sense voltage come from either the RYTHM/Lowband path or the Front Panel External LO out path. The 2nd ALC loop is used to level the power going into the sampler. The 3rd ALC loop is for the SBTX output. The SBTX output frequency is twice that of the LO. The FELOMA requires eleven level adjustments and four bias adjustments. The voltages for each of these adjustments are printed on the FELOMA level. The voltages are measured with a DVM which is connected to a board attached to the Front End Driver A13J12 connector. This adjustment should be performed after replacing the A21 or A13 assemblies. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustfeloma.htm (1 of 2) [5/29/2003 8:47:26 AM] Frequency Extended Local Oscillator Multiplier Amplifier (FELOMA) Amplifier Adjustment (E4446A, E4448A) Required Test Equipment Test Equipment Digital Voltmeter E4440-60041 Model Number 3458A Bias Adjustment Board FELOMA Adjustment Setup FELOMA Label Locations http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustfeloma.htm (2 of 2) [5/29/2003 8:47:26 AM] Second LO Power Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Second LO Power Adjustment The 3.6 GHz 2nd LO Power is measured with a power meter at the A20 Lowband 2nd LO Test Port, A20J6. The power is controlled by a DAC on the A13 Front End Driver. The computer reads the power and adjusts the DAC for the proper level. The instrument cover and top shield must be removed to access the LO Test Port, but it is not necessary to put PC assemblies on extenders. The instrument internally reads the power level with a detector and ADC. This is done to keep the power level constant with changing temperature. The adjustment stores a value in the FE Driver EEROM used to calibrate the ADC so that the value corresponds to the proper power level. The 2nd LO Power needs to be adjusted from a conservatively low level, and then gradually increased to the proper level in order to avoid saturating the 2nd LO amplifiers. This adjustment should be performed after replacing the A20 and/or A13 assemblies. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjust2lopow.htm (1 of 3) [5/29/2003 8:47:28 AM] Second LO Power Adjustment Test Equipment Model Number Power Meter Power Sensor Type N (f) to 3.5 mm (m) adapter E4419A/B 8481A 1250-1750 E4440A E4443A, E4445A X X X Power Meter Calibration Second LO Power Adjustment Setup A20J5 http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjust2lopow.htm (2 of 3) [5/29/2003 8:47:28 AM] E4446A E4448A X X X Second LO Power Adjustment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjust2lopow.htm (3 of 3) [5/29/2003 8:47:28 AM] Analog IF Input Detector Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Analog IF Input Detector Adjustment The adjustment determines the power detected by the A8 Analog IF (AIF) input power detector under known conditions. The detector gives a DC level which corresponds to this power. An ADC converts this DC level to a digital value which is then stored in the A8 EEPROM. The 321.4 MHz calibrator on the A10 Third Converter is used to provide a stable -7 dBm, 21.4 MHz signal to the A8 input. A power meter is used to measure this signal at A10J5 to accurately set its power level. This adjustment should be performed after replacing the A8 assembly. Required Test Equipment Test Equipment Model Number Power Meter Power Sensor E4419A/B 8481A 1250-1477, 1250-0077 1250-1236 Type N (f) to BNC (m) adapter SMB (f) to BNC (f) adapter E4440A E4443A, E4445A X X E4446A E4448A X X X X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustaifindet.htm (1 of 2) [5/29/2003 8:47:29 AM] Analog IF Input Detector Adjustment Power Meter Calibration Analog IF Input Detector Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustaifindet.htm (2 of 2) [5/29/2003 8:47:29 AM] Attenuator Slope Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Attenuator Slope Adjustment The slopes for each attenuator setting in DC Coupled mode, and in the 10 dB AC Coupled mode, are calculated and are stored in an array in EEROM on the A13 Front End Driver assembly. The test is performed at 50 MHz, 2.8 GHz, 6 GHz, 10 GHz, 15 GHz, and 20 GHz for the E4440A, up through 10 GHz for E4445A, up through 6 GHz for E4443A, and up through 40 GHz for E4446A/E4448A. At each test frequency, source power level is set so that the power meter reads -10 dBm with the PSA set at 10 dB, DC Coupled attenuation. This value is then used as the reference for the other attenuator states at that frequency. Instrument covers do not need to be removed for this adjustment. Also, this adjustment must only be performed if the PSA has valid flatness correction data. This adjustment should be performed after replacing the A13 Front End Driver, or after replacing the A14 and/or A15 step attenuators. Required Test Equipment Test Equipment Model Number E4440A E4446A E4443A, E4445A E4448A http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustattslope.htm (1 of 3) [5/29/2003 8:47:30 AM] Attenuator Slope Adjustment 83630A/B 83640A/B, 83650A/B Synthesized Sweeper 83640A/B, 83650A/B Power Meter E4419A/B Power Sensor 8485A Power Sensor 8487A Power Splitter 11667C Power Splitter 11667B BNC Cable 10503A 2.4 mm Cable 8120-6164 3.5 mm Cable 8120-4921 3.5 mm (f) to 3.5 mm (f) adapter 83059B Type N (m) to 3.5 mm (m) adapter 1250-1743 2.4 mm (f) to 3.5 mm (f) adapter 11901B 2.4 mm (f) to Type N (m) adapter 11903D Synthesized Sweeper X X X X X X X X X X X X X X X Power Meter Calibration Attenuator Slope Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustattslope.htm (2 of 3) [5/29/2003 8:47:30 AM] X Attenuator Slope Adjustment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustattslope.htm (3 of 3) [5/29/2003 8:47:30 AM] 50 MHz Calibrator Amplitude Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software 50 MHz Calibrator Amplitude Adjustment An RF substitution method is made using the 50 MHz, -25 dBm calibrator Z5602A. The level of the calibrator is read by the PSA and then the PSA’s internal 50 MHz calibrator is measured. The difference is stored in memory as a correction. Required Test Equipment Test Equipment Model Number 50 MHz Calibrator Z5602A 0ption 51 (Opt H35 for BAB Opt H24 for E4446A, E4448A) E4440A E4443A, E4445A E4446A E4448A X X 50 MHz Calibrator Amplitude Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustcalpow.htm (1 of 2) [5/29/2003 8:47:31 AM] 50 MHz Calibrator Amplitude Adjustment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustcalpow.htm (2 of 2) [5/29/2003 8:47:31 AM] Overload Detector DAC Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Overload Detector DAC Adjustment The overload detector is in the first IF in the A20 Low Band. It is used as a warning when a high input level outside the viewing span is compressing the first mixer. It can also be used as a diagnostic tool. This adjustment should be performed after replacing the A20 assembly. Required Test Equipment Test Equipment Model Number Signal Generator Type N Cable Type N (f) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (f) adapter E4433B 11500C 1250-1745 11903B E4440A E4443A, E4445A X X Opt BAB Overload Detector DAC Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustoverdet.htm (1 of 2) [5/29/2003 8:47:32 AM] E4446A E4448A X X X Overload Detector DAC Adjustment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustoverdet.htm (2 of 2) [5/29/2003 8:47:32 AM] 10 MHz Internal Frequency Reference Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software 10 MHz Internal Frequency Reference Adjustment This procedure adjusts the 10 MHz internal frequency reference within minimal variance. This adjustment is generally done after the results from the Internal Frequency Reference Performance Test indicate that it is time for an adjustment. In this test the signal from a 10 MHz frequency standard is inserted into the RF input of the PSA. The instrument’s internal timebase is then adjusted by programming its DAC and doing a marker count on the displayed signal. The specification for the 10 MHz reference accuracy is ± [(Time Since Last Adjustment x 1x10-7) + (Temperature Stability) + (Achievable Initial Calibration Accuracy)]. With this adjustment the first term is zero. At 20° to 30° C the rest of the specification comes to ±0.8 Hz. The objective of this procedure is to bring the reference to within 0.1 Hz of 10 MHz. Note: A minimum warm-up time of 24 hours is required for minimal frequency reference drift. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustocxo.htm (1 of 2) [5/29/2003 8:47:33 AM] 10 MHz Internal Frequency Reference Adjustment Test Equipment Model Number Frequency Standard 20 dB Fixed Attenuator Type N Cable 5071A 8491A/ Option 020 11500C 1250-1477, 1250-0077 1250-1745 11903B Type N (f) to BNC (m) adapter Type N (f) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (f) adapter E4440A E4446A E4443A, E4445A E4448A X X X X X X X X Opt BAB 10 MHz Internal Frequency Reference Adjustment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustocxo.htm (2 of 2) [5/29/2003 8:47:33 AM] X YTF Alignment (RYTHM and SBTX) Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software YTF Alignment (RYTHM and SBTX) The instrument firmware tunes the YTF (Yig Tunable Filter) via a DAC. The relationship between DAC value and tuned center frequency follows a 3rd order polynomial curve. The non-linearity of this curve is enough to offset the center frequency of this filter by several tens of MHz. This alignment calculates the coefficients of the 3rd order polynomial. The RYTHM YTF tunable range (2.85 GHz to 26.5GHz) is split into two different regions: Band 1-2-3 (2.85 GHz to 19.2 GHz) and Band 4 (18.7 GHz to 26.5 GHz). The SBTX YTF frequency range is separated into band 5 (26.4 GHz to 31.15 GHz) and band 6 (31 GHz to 50 GHz). For each freq: ● ● ● ● The DUT is tuned to the desired Cal Freq. The YTF center freq is found using a SW controlled preselector center routine. The YTF center amplitude is found during the fine adjust. The associated Start Tune Dac number is found. Required Test Equipment http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustytf26.htm (1 of 3) [5/29/2003 8:47:34 AM] YTF Alignment (RYTHM and SBTX) Test Equipment Synthesized Sweeper Synthesized Sweeper Power Meter Power Sensor Power Sensor Power Splitter Power Splitter 3.5 mm Cable 2.4 mm Cable BNC Cable 3.5 mm (f) to 2.4 mm (f) adapter Type N (m) to 3.5 mm (m) adapter Model Number 83630A/B 83640A/B, 83650A/B 83640A/B, 83650A/B E4419A/B 8485A 8487A 11667B 11667C 8120-4921 8120-6164 10503A 11901B 1250-1743 E4440A E4446A E4443A, E4445A E4448A X X X X X X X X X X X X Power Meter Calibration YTF Alignment Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustytf26.htm (2 of 3) [5/29/2003 8:47:34 AM] X X X YTF Alignment (RYTHM and SBTX) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustytf26.htm (3 of 3) [5/29/2003 8:47:34 AM] Frequency Response Adjustment Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response Adjustment This adjustment procedure performs the following steps: The instrument’s internal flatness corrections are turned off. Amplitude error as a function of frequency from 9 kHz to 26.5 GHz is measured and normalized to the 50 MHz measurement. Predetermined frequency points are used when testing from 9 kHz to 50 MHz and 3 GHz to 26.5 GHz. Frequency points tested from 50 MHz to 3 GHz are determined by the Adaptive Flatness procedure. The Adaptive Flatness procedure gathers a custom list of the most critical frequency points for each instrument. At each frequency the source amplitude is adjusted to keep the power constant as measured by a power meter connected to the power splitter. Special note for E4443A and E4445A instruments: Since these instruments have max frequency limits that line up near the band breaks of the 26.5 GHz E4440A, it is necessary to gather a few correction points in the next higher band. This allows the instrument to tune a center screen signal at the instrument’s specified max frequency and still be able to sweep 400 MHz past the signal. For example, the 6.7 GHz E4443A will have correction values gathered from 6.2 GHz to 7.1 GHz in Band 2. This is not only necessary to sweep past a 6.7 MHz center screen signal, but also, Band 1 ends at 6.6 GHz, not 6.7 GHz. If the instrument contains Option 1DS, 500 kHz to 3 MHz preamplifier, additional testing is performed with the preamp turned on. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (1 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Two sources, and two sets of power sensors are used to provide the needed frequency range. To measure frequencies below 100 kHz, a DVM with a 50 ohm load replaces the power sensor and a function generator is used as the source. For improved amplitude accuracy below 3 GHz, the power splitter is characterized using a specially-calibrated power sensor (the “reference” sensor) connected to one power splitter output port. The other power splitter output port connects to the “buried” sensor; it is not removed from the power splitter. Once the characterization is done, the reference sensor is removed and replaced by the PSA. Before testing frequencies >3 GHz, measurements are made at several frequencies in bands 1 through 4, as applicable, to determine a target power level. The target power level is the highest power level measured at the PSA that allows the synthesized sweeper output to remain leveled. The ideal target power level is –10 dBm, but levels as low as –20 dBm may be used. Uncorrected flatness data is collected for each state. This is the raw frequency response data. The uncorrected flatness data is normalized to the 50 MHz reference measurement taken in each state. Further processing manipulates the uncorrected data so all states are measured relative to the 10 dB input atten, preamp off, DC coupled reference. The corrections are stored in the Front End Driver EEPROM as frequency/amplitude pairs under unique File ID numbers. The related performance test for this adjustment is “Frequency Response”. Required Test Equipment Test Equipment Synthesized Sweeper Synthesized Sweeper Function Generator Multimeter Model Number 83630A/B 83640A/B, 83650A/B 83640A/B, 83650A/B 33120A 3458A E4440A E4446A E4443A, E4445A E4448A X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (2 of 11) [5/29/2003 8:47:37 AM] X X X Frequency Response Adjustment Power Meter Power Sensor (2 required) Power Sensor Power Sensor Power Splitter Power Splitter Power Splitter 50 ohm Termination 20 dB Attenuator 20 dB Attenuator 3.5 mm Cable 2.4 mm Cable BNC Cable (3 required) BNC (m) to SMC (f) Cable Type N (m) to 3.5 mm (m) adapter Type N (f) to 3.5 mm (f) adapter Type N (m) to 3.5 mm (f) adapter (2 required) BNC (f) to SMA (m) adapter Dual Banana to BNC (f) adapter BNC Tee (f, m, f) Type N (m) to BNC (f) adapter Type N (m) to Type N (m) adapter 3.5 mm (f) to 3.5 mm (f) adapter 3.5 mm (f) to 2.4 mm (f) adapter 2.4 mm (f) to 3.5 mm (m) adapter Detector E4419A/B 8482A 8485A 8487A 11667A 11667B 11667C 1250-0207 8491A Option 020 8493C 8120-4921 8120-6164 10503A 10020-616051 X X X 1250-1743 1250-1745 X X 1250-1744 X 1250-1200 1251-2277 1250-0781 1250-1476 1250-1475 83059B 11901B 11901D 33330C X X X X X X X X X X X X X X X X X X X X X X X X X X X X 1 As an alternative to this cable you can use a 10503A BNC cable with a 1250-0832 BNC to SMC adapter. 10 MHz Reference Connections http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (3 of 11) [5/29/2003 8:47:37 AM] X X X X X X X Frequency Response Adjustment Adaptive Flatness Adaptive Flatness (Preamp on, Opt. 1DS only) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (4 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Power Meter Calibration (Channel A) Power Meter Calibration (Channel B) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (5 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Frequency Response Adjustment (100 kHz to 3 GHz) Splitter Calibration, Step 1 Frequency Response Adjustment (100 kHz to 3 GHz) Splitter Calibration, Step 2 Frequency Response Adjustment (100 kHz to 3 GHz) Splitter Calibration, Step 1 (Preamp on, Opt. 1DS only) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (6 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Frequency Response Adjustment (100 kHz to 3 GHz) Splitter Calibration, Step 2 (Preamp on, Opt. 1DS only) Frequency Response Adjustment (100 kHz to 3 GHz) Setup, Step 1 http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (7 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Frequency Response Adjustment (100 kHz to 3 GHz) Setup, Step 2 http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (8 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Frequency Response Adjustment (100 kHz to 3 GHz) Setup, Step 1 (Preamp on, Opt. 1DS only) Frequency Response Adjustment (100 kHz to 3 GHz) Setup, Step 2 (Preamp on, Opt. 1DS only) http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (9 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Frequency Response Adjustment (< 100 kHz) System Calibration Frequency Response Adjustment (< 100 kHz) Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (10 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment Frequency Response Adjustment (Bands 1 through 4) Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjstd.htm (11 of 11) [5/29/2003 8:47:37 AM] Frequency Response Adjustment (Option B7J) Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response Adjustment (Option B7J) The E4440A Option B7J is a Digital Modulation Demodulation option. An electric attenuator is included in the option. The E4440A Electronic Attenuator contains six attenuator sections. The sections are 1, 2, 2, 5, 10, and 20 dB steps. A maximum of 40 dB attenuation can be realized with these six sections. The E4440A Electronic Attenuator Flatness is corrected with 101 data points from 1 MHz to 3 GHz. These correction points are not evenly spaced across the 1 MHz to 3 GHz band. The points are spaced in 15 MHz intervals in the Comms bands, and 50 MHz intervals outside the Comms bands. The same correction points are used for each of the 41 attenuator steps. Required Test Equipment Test Equipment Model Number Signal Generator Power Meter Power Sensor (2 required) Power Splitter 8665B E4419A/B 8482A 11667A E4440A E4443A, E4445A X X X X http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjb7j.htm (1 of 3) [5/29/2003 8:47:38 AM] E4446A E4448A X X X X Frequency Response Adjustment (Option B7J) Type N Cable BNC Cable Type N (m) to Type N (m) adapter Type N (m) to 3.5 mm (f) adapter 2.4 mm (f) to Type N (m) adapter 11500C 10503A 1250-1475 1250-1744 11903D X X X Opt BAB X X X X Power Meter Calibration (Channel A) Power Meter Calibration (Channel B) Frequency Response Adjustment (Option B7J) Splitter Calibration http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjb7j.htm (2 of 3) [5/29/2003 8:47:38 AM] Frequency Response Adjustment (Option B7J) Frequency Response Adjustment (Option B7J) Setup http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Adjustment/adjustflatadjb7j.htm (3 of 3) [5/29/2003 8:47:38 AM] Troubleshooting Test Failures Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Troubleshooting Test Failures If a test will not proceed, then suspect either the setup is incorrect, or the test equipment or DUT is faulty. Specifically you should: ● ● ● ● Compare your test connections with the test setup on the computer screen. Ensure the cables and adapters are correct and not damaged. Check the output and input connectors on the test equipment for damage. Check for error messages on the PSA display such as unlock or overload states that signal an instrument failure. If the test can be completed as normal, but the test fails, you should: ● ● ● ● ● Ensure the equipment connections are torqued to proper specs. Ensure that cables and adapters meet the specifications listed in the software and the Getting Started Guide. Check cables and adapters for damage. Check the output and input connectors on the test equipment for damage. Ensure that there are no error messages on the DUT screen that can signal a problem elsewhere in the instrument. Each of the performance tests has an associated troubleshooting procedure should problems be encountered. These troubleshooting procedures can be accessed used the following links. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/trouble.htm (1 of 2) [5/29/2003 8:47:39 AM] Troubleshooting Test Failures 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. Residual Responses Troubleshooting Displayed Average Noise Level Troubleshooting Frequency Reference Accuracy Troubleshooting Frequency Readout Accuracy Troubleshooting Count Accuracy Troubleshooting Spurious Responses Troubleshooting Third Order Intermodulation Distortion Troubleshooting Gain Compression Troubleshooting Second Harmonic Distortion Troubleshooting Power Bandwidth Accuracy Troubleshooting Resolution Bandwidth Switching Accuracy Troubleshooting IF Amplitude Ripple Troubleshooting IF Phase Ripple Troubleshooting Input Attenuation Switching Uncertainty Troubleshooting Display Scale Fidelity Troubleshooting Absolute Amplitude Accuracy Troubleshooting Noise Sidebands Troubleshooting Frequency Response Troubleshooting Memory Initialization Utilities http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/trouble.htm (2 of 2) [5/29/2003 8:47:39 AM] Residual Responses Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Residual Responses Troubleshooting Related Adjustments ● None If the residuals test fails, check the results of the DANL TEST. If DANL is out of spec, there is a good possibility that the high average noise level is causing the residuals test to indicate a false failure. Also assure the 50 ohm load is attached to the analyzer RF Input connector. Failures are usually caused by loose or defective cables or loose shielding on an assembly. See the PSA Service Guide for troubleshooting information. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleresid.htm [5/29/2003 8:47:40 AM] Displayed Average Noise Level Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Displayed Average Noise Level Troubleshooting Related Adjustments ● None An increase in the Displayed Average Noise level is often the result of incorrect gain in the signal path. There may be an assembly with low gain that is compensated for by adding excessive gain elsewhere in the signal path. See the PSA Service Guide for troubleshooting information. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubledanl.htm [5/29/2003 8:47:40 AM] Frequency Reference Accuracy Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Reference Accuracy Troubleshooting Related Adjustments ● 10 MHz Internal Frequency Reference Adjustment If the adjustment does not solve the problem, suspect a faulty A11 Reference assembly. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublereffreq.htm [5/29/2003 8:47:41 AM] Frequency Readout Accuracy Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Readout Accuracy Troubleshooting Related Adjustments ● 10 MHz Internal Frequency Reference Adjustment If a failure occurs, be sure the 10 MHz reference is connected. Failure to meet this specification can be due to a faulty A11 Reference assembly if the adjustment does not solve the problem. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublefreqread.htm [5/29/2003 8:47:41 AM] Count Accuracy Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Count Accuracy Troubleshooting Related Adjustments ● 10 MHz Internal Frequency Reference Adjustment If a failure occurs, be sure the 10 MHz reference is connected. Failure to meet this specification can be due to a faulty A11 Reference assembly if the adjustment does not solve the problem. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublecount.htm [5/29/2003 8:47:42 AM] Spurious Responses Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Spurious Responses Troubleshooting Related Adjustments ● None Spurious responses can be caused by a loose or damaged cable, a faulty filter or a faulty assembly. See the PSA Service Guide for troubleshooting details. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublespurs.htm [5/29/2003 8:47:42 AM] Third Order Intermodulation Distortion Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Third Order Intermodulation Distortion Troubleshooting Related Adjustments ● ● ● Lowband Mixer Bias Adjustment Switched LO Distribution Amplifier Adjustment Second LO Power Adjustment If TOI fails to meet specifications, suspect the first mixer of the band which fails (A20 Low Band or A19 RYTHM). Next suspect the A10 Third Converter assembly. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubletoi.htm [5/29/2003 8:47:43 AM] Gain Compression Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Gain Compression Troubleshooting Related Adjustments ● ● ● Lowband Mixer Bias Adjustment Switched LO Distribution Amplifier Adjustment Second LO Power Adjustment Failures can be caused by the A20 Lowband assembly or the or the A10 3rd Converter. See the PSA Service Guide for troubleshooting information. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublegaincomp.htm [5/29/2003 8:47:43 AM] Second Harmonic Distortion Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Second Harmonic Distortion Troubleshooting Related Adjustments ● ● Lowband Mixer Bias Adjustment Switched LO Distribution Amplifier Adjustment Failures when the source frequency is less than or equal to 1.5 GHz are usually a low band path problem. Suspect the A20 Lowband Assembly or something between the input connector and the Lowband assembly. Failures when the source frequency is greater than 1.5 GHz are usually a high band problem. Suspect the A19 RYTHM or something between the input connector and the RHYTHM assembly. See PSA Service Guide for more troubleshooting information. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleshd.htm [5/29/2003 8:47:44 AM] Power Bandwidth Accuracy Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Power Bandwidth Accuracy Troubleshooting Related Adjustments ● None Failures could be caused by A8 Analog IF (prefilters) or A7 Digital IF Assembly. See the PSA Service Guide for troubleshooting information. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublepowbw.htm [5/29/2003 8:47:44 AM] Resolution Bandwidth Switching Uncertainty Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Resolution Bandwidth Switching Uncertainty Troubleshooting Related Adjustments ● None Failures could be caused by A8 Analog IF (prefilters) or A7 Digital IF Assembly. See the PSA Service Guide for troubleshooting information. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleresbwswitch.htm [5/29/2003 8:47:44 AM] IF Amplitude Ripple Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software IF Amplitude Ripple Troubleshooting Related Adjustments ● None If the IF Amplitude Ripple Test fails, the most likely caused by the A8 Analog IF. Less likely is the A10 Third Converter or A7 Digital IF. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleifamprip.htm [5/29/2003 8:47:45 AM] IF Phase Ripple Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software IF Phase Ripple Troubleshooting Related Adjustments ● None A failure of the IF Phase Ripple test would most likely be the A12 synthesizer board, provided the other tests passed. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleifphaserip.htm [5/29/2003 8:47:45 AM] Input Attenuation Switching Uncertainty Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Input Attenuation Switching Uncertainty Troubleshooting Related Adjustments ● None A faulty attenuator (A14 or A15) will cause this to fail. A second possible cause can be the A13 Front End Driver not properly driving an attenuator. NOTE: This test might fail due to incorrect calibration data of the 8494 and 8496 step attenuators. Make sure you have entered the calibration data for the step attenuators that you're using. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. You must enter the data for the following columns to obtain valid results: Attn(dB), Uncert(dB) and ReflSize. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleatten.htm [5/29/2003 8:47:46 AM] Display Scale Fidelity Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Display Scale Fidelity Troubleshooting Related Adjustments ● None If this test fails at input power levels greater than -15 dBm, suspect the A8 Analog IF Assembly (gain compression), or possibly the A7 Digital IF Assembly. Failures at input power levels of less than -15 dBm may be caused by the A7 Digital IF Assembly (ADC). NOTE: This test might fail due to incorrect calibration data of the 8494 and 8496 step attenuators. Make sure you have entered the calibration data for the step attenuators that you're using. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. You must enter the data for the following columns to obtain valid results: Attn(dB), Uncert(dB) and ReflSize. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublescalefid.htm [5/29/2003 8:47:46 AM] Absolute Amplitude Accuracy Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Absolute Amplitude Accuracy Troubleshooting Related Adjustments ● ● ● 50 MHz Calibrator Amplitude Adjustment Switched LO Distribution Amplifier Adjustment Second LO Power Adjustment Perform the 50 MHz Calibrator Adjustment if this test fails. If the adjustment does not cure the problem, suspect a hardware failure. See the PSA Service Guide for troubleshooting information. Assemblies that can cause a failure are anything in the Lowband signal path, especially the input attenuators or A20 Lowband Assembly. NOTE: This test might fail due to incorrect calibration data of the 8494 and 8496 step attenuators. Make sure you have entered the calibration data for the step attenuators that you're using. Please refer to the Enter Equipment Calibration Data section in the TME help for details on how to enter this data. You must enter the data for the following columns to obtain valid results: Attn(dB), Uncert(dB) and ReflSize. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troubleabsampstd.htm [5/29/2003 8:47:47 AM] Noise Sidebands Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Noise Sidebands Troubleshooting Related Adjustments ● None If the Noise Sidebands test fails, check the results of the DANL TEST. If DANL is out of spec, there is a good possibility that the high average noise level is causing the noise sidebands test to indicate a false failure. Phase Noise is a parameter that describes short term instability of LO tune frequency. Phase Noise appears as modulation sidebands near the LO. The modulation source is noise within the LO Phase Lock Loop. A Noise Sidebands failure would indicate that noise is being injected into the LO Phase Lock Loop. The assembly most likely to be the source of the failure would be the A18 YTO assembly. If the noise sideband is relative to a carrier frequency below 3 GHz, suspect the A9 2nd LO Assembly. The 2nd LO Assembly is turned off in highband (frequencies above 3 GHz), which means it cannot cause a problem in highband. Failures at the 100 HZ offset are usually caused by 10 MHz Oven Controlled Crystal http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublenoisesb.htm (1 of 2) [5/29/2003 8:47:47 AM] Noise Sidebands Troubleshooting Oscillator (OCXO) on the A11 Reference Board. Failures at other offsets can be caused by the A12 Synthesizer Assembly. See the PSA Service Guide for troubleshooting information on how to determine which half of the A12 Synthesizer assembly is at fault. Another, but least likely, assembly that could cause a Phase Noise failure would be the A13 Front End Driver assembly. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublenoisesb.htm (2 of 2) [5/29/2003 8:47:48 AM] Frequency Response Troubleshooting Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Frequency Response Troubleshooting Related Adjustments ● Frequency Response Adjustment If the Frequency Response Test fails by a small amount (5 dB or less) the instrument can probably be fixed by performing the Flatness Adjustment. If an adjustment cannot fix the problem, or the test fails by a large error (5 dB or more), this would indicate a faulty assembly. In order to troubleshoot an RF problem, refer to the PSA Series Service Guide for troubleshooting procedures and the overall block diagram. Assemblies can be bypassed by injecting 321.4 MHz, or 3921.4 MHz signals at the appropriate places. If the frequency response test fails at frequencies 3 GHz and above (high bands), the following should be done: Perform the Frequency Response Adjustment in its entirety. If the adjustment does not fix the problem, or the adjustment can not complete, suspect a hardware problem. Major assemblies at fault could be: The A19 RYTHM, the RYTHM/Bias control signals from the A13 Front End Driver Assembly may be wrong, the amplitude of the LO signal from A21 SLODA may be too low, or the A10 Third Converter input stage could be damaged. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublefreqres.htm (1 of 2) [5/29/2003 8:47:48 AM] Frequency Response Troubleshooting If the frequency response test fails at frequencies below 3 GHz (Low band), the following should be done: Perform the Frequency Response Adjustment in its entirety. If the adjustment does not fix the problem, or the adjustment cannot complete, suspect a hardware problem. Major assemblies to suspect are: The A20 Lowband Assy, the optional A22 Lowband preamp, optional A27 Electronic attenuator, or the A13 Front End Driver circuits that control the assemblies listed. If frequency response fails at several frequencies between 9 kHz and the maximum frequency range of the analyzer (failures in both High band and Low band), and a readjustment does not fix the problem, suspect assemblies that are common to both High and Low bands such as a damaged Input Attenuator or the A10 Third Converter. In order to troubleshoot an RF problem, refer to the PSA Series Service Guide for troubleshooting procedures and the overall block diagram. Assemblies can be bypassed by injecting 321.4 MHz, or 3921.4 MHz signals at the appropriate places. Frequency Response (Option B7J) Related Adjustments ● Frequency Response Adjustment (Option B7J) If the option B7J frequency response test fails, but the standard frequency response is in spec, suspect the A27 Electronic Attenuator or A27 interconnect cables. If both the option B7J and the standard frequency response both fail, troubleshoot as if B7J were not present, but do not discount the signal path switch in the A27 electronic attenuator. http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/Troubleshooting/troublefreqres.htm (2 of 2) [5/29/2003 8:47:48 AM] Option 266/Basic Mode Conflicts Agilent Technologies PSA Series Spectrum Analyzers Test and Adjustment Software Option 266/Basic Mode Conflicts The A.03.xx release of PSA firmware introduced Option 266 (8566 code compatibility). It was discovered that Option 266 I/O commands collided with the Basic Mode I/O. Since it was reasonable to assume that Basic Mode (with Option B7J for digital comms measurements) and Option 266 would not be needed at the same time, there were two firmware builds created. One build contained Basic mode without Option 266.The other build contained Option 266 without Basic mode (the Basic mode key is grayed out). By the time the A.04.00 release was introduced, the Option 266 I/O conflicts were resolved, so the new firmware allows Option 266 and Basic mode to coexist in the PSA. NOTE: If your analyzer has the A.03.xx firmware build without Basic mode, and contains Option 266 (8566/8568B code compatibility firmware) and Option B7J (digital demod hardware), Option B7J hardware cannot be verified. This will result in an incomplete calibration. It is highly recommended that customers upgrade to the latest firmware, available from the Agilent Technologies web site at http://www.agilent.com/find/psa. Be sure to close the Agilent Test Management Environment (TME) before upgrading your firmware. If you do not want to upgrade your A.03 firmware, please contact the Agilent Technologies Call Center. If you choose to continue testing without upgrading your firmware, these http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/opt266.htm (1 of 2) [5/29/2003 8:47:49 AM] Option 266/Basic Mode Conflicts tests/adjustments will have invalid results: ● ● ● ● ● ● ● IF Phase Ripple IF Amplitude Ripple Absolute Amplitude Accuracy Input Attenuation Switching Uncertainty Frequency Response (Option B7J) Frequency Response Adjustment Frequency Response Adjustment (Option B7J) Copyright Agilent Technologies, 2000, 2001, 2002 http://mktwww.soco.agilent.com/field/lp/PSA/PSAcalSWwebhelp/opt266.htm (2 of 2) [5/29/2003 8:47:49 AM]