Anritsu ShockLine MS46131A-020 Maintenance Manual
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Anritsu ShockLine MS46131A-020 Maintenance Manual

Modular vector network analyzer
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Maintenance Manual
ShockLine™
Modular
Vector Network Analyzer
MS46131A-010, 1 MHz to 8 GHz
MS46131A-020, 1 MHz to 20 GHz
MS46131A-043, 1 MHz to 43.5 GHz
ME7868A, 1 MHz to 43.5 GHz, 2-Port
ME7868A
MS46131A
Anritsu Company
Part Number: 10410-00781
490 Jarvis Drive
Revision: B
Morgan Hill, CA 95037-2809
Published: April 2022
USA
Copyright 2022 Anritsu Company, USA. All Rights Reserved.
http://www.anritsu.com

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Summary of Contents for Anritsu ShockLine MS46131A-020

  • Page 1 MS46131A-043, 1 MHz to 43.5 GHz ME7868A, 1 MHz to 43.5 GHz, 2-Port ME7868A MS46131A Anritsu Company Part Number: 10410-00781 490 Jarvis Drive Revision: B Morgan Hill, CA 95037-2809 Published: April 2022 Copyright 2022 Anritsu Company, USA. All Rights Reserved. http://www.anritsu.com...
  • Page 2 NOTICE Anritsu Company has prepared this manual for use by Anritsu Company personnel and customers as a guide for the proper installation, operation and maintenance of Anritsu Company equipment and computer programs. The drawings, specifications, and information contained herein are the property of Anritsu Company, and any unauthorized use or disclosure of these drawings, specifications, and information is prohibited;...

  • Page 3: Table Of Contents

    Anritsu Customer Service Centers ........
  • Page 4 ShockLine Application Displays ‘No Hardware Detected’ ......4-3 ShockLine Application Displays ‘Anritsu hardware is unavailable’ ....4-4 ShockLine Tray Daemon Indicator Color Definitions .
  • Page 5 Table of Contents (Continued) Fan PCB Assembly............5-5 Replacement Parts .
  • Page 6 Contents-4 PN: 10410-00781 Rev. B MS46131A MM...

  • Page 7: Chapter 1-General Information

    Chapter 1 — General Information Introduction This manual provides service and maintenance information for the Anritsu ShockLine MS46131A Vector Network Analyzer. The information includes product description, performance verification procedures, parts removal and replacement procedures, and troubleshooting information. The ME7868A is a modular 2-port VNA consisting of two ShockLine MS46131A 1-port VNAs, a frequency option, and a s PhaseLync™...

  • Page 8: Identification Number

    Chapter 2 — Performance Verification. Repair Service In the event that the MS46131A VNA requires repair, contact your local Anritsu Service Center. See Section 1-4 “Anritsu Customer Service Centers” for contact information. When contacting Anritsu Service Center, please provide the following information: •...

  • Page 9: Recommended Test Equipment

    5/16 in. Open End Wrench Anritsu Model 01-201 (For Opt. 20 or 43) 8 lbf·in (0.90 N·m) Frequency: 10 MHz to 20 GHz Anritsu Model MF2412B or MF2412C P, A Frequency Counter with Option 3 Frequency: 10 MHz Symmetricom Model...
  • Page 10 Recommended Test Equipment for MS46131A with Option 12 (1 of 2) Equipment Critical Specification Recommended Manufacturer/Model Use Codes Calibration Kit Frequency: DC to 8 GHz Anritsu Model OSLN50A-8 or (For Opt. 10) Connector: N(m) TOSLN50A-8 Calibration Kit Frequency: DC to 8 GHz Anritsu Model OSLNF50A-8 or (For Opt.
  • Page 11 Recommended Manufacturer/Model Use Codes PhaseLync Sync Cable Anritsu Part Number 2000-1947-R Interface Cable Length: 1 m Frequency: 10 MHz to 20 GHz Anritsu Model MF2412B or MF2412C P, A Frequency Counter with Option 3 Frequency: 10 MHz Symmetricom Model P, A Frequency Reference RubiSource T&M...

  • Page 12: Replaceable Parts And Assemblies

    1-6 Replaceable Parts and Assemblies General Information Replaceable Parts and Assemblies To ensure that the correct options are provided on the replacement assembly when ordering a VNA Module Assembly, all installed instrument options must be declared on the order. The installed options are listed on a label on the rear panel of the MS46131A. They can also be viewed in the ShockLine Application About box display (Select 9 Help | 1.

  • Page 13: Chapter 2- Performance Verification

    While there are many ways of verifying VNA performance, sometimes simpler procedures are desired. The use of a verification kit, available from Anritsu, is a simpler method of verifying the measurement capabilities of the instrument by analyzing the measurement of artifacts that are traceable to International System of Units (SI) via national metrology institutes.

  • Page 14: Second Tier Of Uncertainty − Systematic Measurement Errors

    Reference Standards Verification Kit Verification Kit Verification Kit Working Standards Reference Standards Traveling Standards Users Anritsu National Standards Calibrated VNA Without error-correction (accuracy enhencement) by calibration kit System Verification S-parameter measurements with error-correction Figure 2-1. VNA Traceability Electrostatic Discharge Prevention A Vector Network Analyzer is a precision electronic instrument consists of components and/or circuitries that are sensitive to electrostatic discharge (ESD).

  • Page 15: Calibration And Measurement Conditions

    Performance Verification 2-4 Calibration and Measurement Conditions Calibration and Measurement Conditions The condition and stability of the test port connectors, through-cable, calibration kit and adapters (if used), and the surrounding environmental conditions determine system measurement integrity to a large extent. These are all user controlled conditions, and as such, should be evaluated periodically for impact on system performance.

  • Page 16: Pass/Fail Determination

    2-5 PASS/FAIL Determination Performance Verification PASS/FAIL Determination Figure 2-2 shows the rule that is used to determine the pass/fail status of test results that are associated with warranted specifications. + Uncertainty Measurement Point (Reading) – Uncertainty Measurement Data Upper Specification Nominal Lower Specification...

  • Page 17: System Verification − Ms46131A Without Option 12

    Anritsu Model SC8408 Offset Termination Return Loss: 20 dB (For Opt. 10) Connector: GPC-7 Calibration Tee Frequency: DC to 8 GHz Anritsu Model OSLN50A-8 or (For Opt. 10) Connector: N(m) TOSLN50A-8 Torque Wrench 3/4 in. Open End Wrench Anritsu Model 01-200 (For Opt.
  • Page 18 2-6 System Verification − MS46131A without Option 12 Performance Verification 4. Run the ShockLine software on the Personal Computer. 5. Allow the instrument to warm up for 60 minutes. 6. On the ShockLine Software graphic user interface (GUI), click on the Preset icon and then the OK button. a.
  • Page 19 2-6 System Verification − MS46131A without Option 12 Performance Verification 24. Sum the magnitude values of Marker 1 and Marker 3 at the peaks (or troughs) and divide the result by two. This is the average value of the two peaks or (troughs). For example, Marker 1 = −15.9634 dB and Marker 3 = −15.641 dB, then: Average Value = (Marker 1 + Marker 3)/2 = (−15.9634 dB) + (−15.641 dB)/2 = −15.8022 dB 25.
  • Page 20 2-6 System Verification − MS46131A without Option 12 Performance Verification The first three columns are conversion ta- Relative to Unity Reference Return bles for return loss, reflection coefficient, Reflection X dB Loss and SWR. Ref + X Ref - X Coefficient Below Pk to Pk Ripple...

  • Page 21: System Verification − Ms46131A With Option 12

    International System of Units (SI) via national metrology institutes. The procedures are automated by using the ME7868A ShockLine System Verification Software, in conjunction with the appropriate Anritsu Calibration and Verification Kits listed in Table 2-2.

  • Page 22: Verification Result Determination

    The Factory Standard Vector Network Analyzer system is traceable to International System of Units (SI) through the impedance Standards of the Anritsu Calibration laboratory. These standards are traceable to International System of Units (SI) through precision mechanical measurements, microwave theory impedance derivation methods, and electrical impedance comparison measurements.

  • Page 23: Special Precautions

    • The pin depths of all connectors and the proper torquing of connections. These same factors also affect the VNA measurement quality. Consult the reference manual supplied with Anritsu Calibration Kits and Verification Kits for proper use, care, and maintenance of the devices contained in these kits.

  • Page 24: If Verification Fails

    2-8 Instrument Key Parameter Performance Test Performance Verification 11. Enter the local Host address 127.0.0.1 to the Address field and enter 5001 to the Port field. See Figure 2-4. Figure 2-4. TCP/IP IP Address and Port Number 12. On the ShockLine Software graphic user interface (GUI), select: 2 Main | System | Network Interface.

  • Page 25: Frequency Accuracy

    Equipment Required Table 2-3. Equipment Required for Frequency Accuracy Verification Equipment Critical Specification Recommended Manufacturer/Model Frequency: 10 MHz to 20 GHz Anritsu Model MF2412B or MF2412C with Frequency Counter Option 3 Frequency: 10 MHz Symmetricom Model Frequency Reference RubiSource T&M...

  • Page 26: 2-10 Ms46131A High-Level Noise

    Table 2-4. Equipment Required for High-level Noise Test Equipment Critical Specification Recommended Manufacturer/Model Calibration Tee Frequency: DC to 8 GHz Anritsu Model OSLN50A-8 or (For Opt 10) Connector: N(m) TOSLN50A-8 Frequency: DC to 43.5 GHz Anritsu Model TOSKF50A-20 Calibration Tee...
  • Page 27 Performance Verification 2-10 MS46131A High-level Noise f. Repeat Step d through Step e until F2 = 8000 MHz for Option 10 unit, F2 = 20000 MHz for Option 20 unit, or F2 = 43500 MHz for Option 43 unit. g. Select Back. h.
  • Page 28 2-10 MS46131A High-level Noise Performance Verification 8. Connect a short to the test port of the MS46131A. 9. On the ShockLine Software GUI, select Display and then View Trace. 10. Select Store Data to Memory. 11. Select Data, Memory Math. Ensure that Data Mem. Op. is set to [Data/Mem1.]. 12.

  • Page 29: Ms46131A-012 High Level Noise

    Equipment Required for MS46131A-012 High Level Noise Test Recommended Equipment Critical Specification Manufacturer/Model Adapter Frequency: DC to 18 GHz Anritsu Model 34NK50 (For Opt. 10) Connector: N(m) to K(m) Adapter Frequency: DC to 18 GHz Anritsu Model 34NKF50 (For Opt. 10)
  • Page 30 2-11 MS46131A-012 High Level Noise Performance Verification 4. Install the Through Cable to Port 2. 5. Set up the VNA for segmented sweep as follows: a. Select Sweep Setup. b. Select Freq-based Seg. Sweep Setup. c. Enter the data from the first row of Table 2-7 into the setup table on the bottom of the VNA display.
  • Page 31 Performance Verification 2-11 MS46131A-012 High Level Noise h. Select Done. i. This completes the 2-port Transmission Response calibration. j. Leave the Through Cable connected between Port 1 and Port 2. 7. Set up the VNA display as follows: a. Select Trace and then set # of Traces to 2. b.

  • Page 32: 2-12 Ms46131A-012 Or Me7868A System Dynamic Range

    Equipment Required for System Dynamic Range Test Recommended Equipment Critical Specification Manufacturer/Model Adapter Frequency: DC to 18 GHz Anritsu Model 34NK50 (For Opt. 10) Connector: N(m) to K(m) Adapter Frequency: DC to 18 GHz Anritsu Model 34NKF50 (For Opt. 10)

  • Page 33: Procedure

    Performance Verification 2-12 MS46131A-012 or ME7868A System Dynamic Range Procedure 1. Power on the MS46131A-012 VNAs and allow the instrument to warm up for 30 minutes. 2. Preset the VNAs as follows: a. Select Preset button on the Icon Bar and then the OK button. 3.
  • Page 34 2-12 MS46131A-012 or ME7868A System Dynamic Range Performance Verification c. Select Transmission Freq. Response. d. Select Thru/Recip. e. Connect the Through Cable from Port 2 to Port 1. f. Select Thru 1-2 and then allow the VNA to complete the measurements. g.
  • Page 35 Performance Verification 2-12 MS46131A-012 or ME7868A System Dynamic Range e. Set up Cell K2 to calculate the RMS value in Log Mag by entering the following Formula into the Cell: = 20*LOG(J2,10) f. Copy the formula to the next cell on Column K until it reaches the last frequency point. g.
  • Page 36 2-12 MS46131A-012 or ME7868A System Dynamic Range Performance Verification 2-24 PN: 10410-00781 Rev. A MS46131A MM...

  • Page 37: Chapter 3-Adjustment

    Chapter 3 — Adjustment Introduction This chapter contains procedures that are used to restore and optimize the operation of the MS46131A Vector Network Analyzer. Adjustment Menu Access The hardware adjustment functions are accessed by selecting the Diagnostics button under the System menu. The Diagnostics menu is password-protected to prevent a casual VNA user from changing the correction coefficients inadvertently.
  • Page 38 3-2 Adjustment Menu Access Adjustment 8. The Diagnostics menu appears as shown in Figure 3-2. Figure 3-2. Diagnostics Menu 9. Click on the Hardware Cal button to access the Hardware Cal menu as shown in Figure 3-3. Figure 3-3. Hardware Cal Menu PN: 10410-00781 Rev.

  • Page 39: Time Base Adjustment

    Equipment Required Table 3-1. Equipment Required for Time Base Adjustment Equipment Critical Specification Recommended Manufacturer/Model Frequency: 10 MHz to 20 GHz Anritsu Model MF2412B or MF2412C with Frequency Counter Option 3 Frequency: 10 MHz Symmetricom Model Frequency Reference RubiSource T&M...
  • Page 40 3-3 Time Base Adjustment Adjustment 8. Connect the DC connector from the AC/DC Adapter to the MS46131A and connect the AC power cord of AC/DC adapter to AC power source. 9. Run the ShockLine software on the external Personal Computer. 10.

  • Page 41: Factory Power Adjustment

    Frequency: DC to 18 GHz Anritsu Model 34NKF50 Adapter Connector: N(m) to K(f) Interface Cable USB Type A to Micro-B Cable Anritsu Part Number 2000-1816-R Configuration: − Intel Core i5-6300U Processor − 4 GB RAM Personal Computer − 120 GB Disk −...
  • Page 42 3-4 Factory Power Adjustment Adjustment 12. Press Type soft key until Offset TYPE is Fixed as shown on the display. 13. Press Value soft key. 14. Use the numeric keypad to enter 10. 15. Press Enter soft key to accept the value. 16.

  • Page 43: If Adjustment

    This section provides the procedure to restore or optimize the operation of MS46131A related to the IF level in the VNA Receivers. Equipment Required • For units with N(f) test ports: • Anritsu Model OSLN50A-8 or TOSLN50A-8 Calibration Kit • For units with K(m) test ports: • Anritsu Model TOSLKF50A-43.5 Calibration Kit Procedure 1.

  • Page 44: Factory Rf Calibration (Rf Cal)

    User Measurement Calibration. Equipment Required • For units with N(f) test ports: • Anritsu Model OSLN50A-8 or TOSLN50A-8 Calibration Kit • For units with K(m) test ports: • Anritsu Model TOSLKF50A-43.5 Calibration Kit Procedure 1.

  • Page 45: Chapter 4-Troubleshooting

    Chapter 4 — Troubleshooting Introduction This chapter provides information about troubleshooting tests that can be used to check the MS46131A Vector Network Analyzer and two MS46131A VNAs configured as an ME7868A distributed VNA system for proper operation. These tests are intended to be used as a troubleshooting tool for identifying the faulty components and checking the functionality of internal components and sub-assemblies in the MS46131A and MS46131A-012 VNAs.

  • Page 46: Troubleshooting Test - Non-Ratio Power Level Check

    MS46131A is connected to the Personal Computer running the ShockLine Software. Equipment Required • For units with N(f) test ports: • Anritsu Model TOSLN50A-8 Calibration Kit • For units with K(m) test ports: • Anritsu Model TOSLKF50A-43.5 Calibration Kit Procedure 1.

  • Page 47: Troubleshooting Turn-On Problems

    Windows Device Manager 2. If it is displayed as Anritsu Programmed USB with an exclamation mark (!) on it, right-click on it and then select Uninstall. On the next dialog box, check Delete the driver software for this device and the click the OK button.

  • Page 48: Shockline Application Displays 'Anritsu Hardware Is Unavailable

    If an IVI client is running, ShockLine Application Software will not be able to start and the ‘Anritsu hardware is unavailable’ message will be displayed. 2. If the problem still exists, the IVI client might not be properly closed. Try manually restarting the IVI Server to release the hardware using the following steps: a.

  • Page 49: Troubleshooting Operating Problems

    Troubleshooting 4-5 Troubleshooting Operating Problems • Red The tray menu provides two status states when Red. • If the state is CONNECTED, an IVI Client is connected and the hardware is busy so ShockLine Application Software could not be used. •...

  • Page 50: Troubleshooting Measurement Problems

    4-6 Troubleshooting Measurement Problems Troubleshooting Troubleshooting Measurement Problems If the MS46131A measurement quality is suspect, the following paragraphs provide guidelines and hints for determining possible quality problems. VNA Measurement Quality The quality of MS46131A VNA measurements is determined by the following test conditions and variable: •...

  • Page 51: Chapter 5-Assembly Removal And Replacement

    Chapter 5 — Assembly Removal and Replacement Introduction This chapter describes the removal and replacement procedures for the various assemblies. Illustrations (drawings or photographs) in this manual may differ slightly from the instrument that you are servicing, but the basic removal and replacement functions will remain as specified. The illustrations are meant to provide assistance with identifying parts and their locations.

  • Page 52: Disassembly Procedure

    5-3 Disassembly Procedure Assembly Removal and Replacement Disassembly Procedure Use this procedure to prepare the MS46131A for removal and replacement procedures for all of its replaceable components. All replacement components require this common disassembly procedure. Reference Figures • Figure 5-1, “MS46131A Instrument Enclosure” on page 5-2 •...

  • Page 53: Common Disassembly Procedures

    Assembly Removal and Replacement 5-3 Disassembly Procedure 1 − Test Port Connector Panel 2 − Face Panel 3 − Fan PCB Assembly 4 − M3 x 6 Pan Head Phillips Screws (Qty 4) Figure 5-2. Top View of MS46131A Enclosure Common Disassembly Procedures 1.
  • Page 54 5-3 Disassembly Procedure Assembly Removal and Replacement Fan Side Cover Removal 6. Remove the Fan Side Cover as follows: a. Unplug the four Fan Wiring Harnesses from the Fan PCB Assembly. Refer to Figure 5-2. b. Remove the two M2.5 x 4 Flat Head Phillips screws that secure the Fan Side Cover. c.

  • Page 55: Fan Pcb Assembly

    Assembly Removal and Replacement 5-4 Fan PCB Assembly Fan PCB Assembly Use this procedure to replace the Fan PCB Assembly. Replacement Parts • Fan PCB Assembly − 3-ND85130 Reference Figures • Figure 5-2, “Top View of MS46131A Enclosure” on page 5-3 Replacement Procedure 1.

  • Page 56: Fan Assembly

    5-5 Fan Assembly Assembly Removal and Replacement Fan Assembly Use this procedure to replace the Fan Assembly. Replacement Parts • Fan Assembly − 3-ND85129 Reference Figures • Figure 5-1, “MS46131A Instrument Enclosure” on page 5-2 • Figure 5-2, “Top View of MS46131A Enclosure” on page 5-3 Replacement Procedure 1.

  • Page 57: Vna Assembly

    Assembly Removal and Replacement 5-6 VNA Assembly VNA Assembly Use this procedure to replace the VNA Assembly. Replacement Part • VNA Assembly of MS46131A with Option 10 − 3-ND85131-RFB • VNA Assembly of MS46131A with Options 10 and 12 − 3-ND85132-RFB •...
  • Page 58 5-6 VNA Assembly Assembly Removal and Replacement d. Secure the Test Port Connector Panel to the VNA Assembly with the two M3 x 6 Flat Head Phillips Screws and then tighten the connection between the Test Port Adapter and the Sampler Module of the VNA Assembly with an 8 in·lb torque wrench.

  • Page 59: Test Port Adapter

    Assembly Removal and Replacement 5-7 Test Port Adapter Test Port Adapter Use this procedure to replace the Test Port Adapters. Replacement Part • Test Port Adapter of MS46131A with Option 10 − 3-513-149 • Test Port Adapter of MS46131A with Option 20 or Option 43 − 3-83773 Reference Figure •...
  • Page 60 5-7 Test Port Adapter Assembly Removal and Replacement b. Secure the adapter to the Test Port Connector Panel with the Hex Nut and Washer supplied with the replacement adapter. c. Connect the RF Coaxial Cable Assembly from the VNA Assembly to the Test Port Adapter. d.

  • Page 61: Rf Coaxial Cable Assembly (For Instruments With Option 10)

    Assembly Removal and Replacement 5-8 RF Coaxial Cable Assembly (For Instruments with Option 10) RF Coaxial Cable Assembly (For Instruments with Option 10) Use this procedure to replace the RF Coaxial Cable Assembly linking between the Test Port Adapter and the VNA Assembly of MS46131A with Option 10.
  • Page 62 5-8 RF Coaxial Cable Assembly (For Instruments with Option 10) Assembly Removal and Replacement 5-12 PN: 10410-00781 Rev. B MS46131A MM...

  • Page 63: Appendix A-Test Records

    Appendix A — Test Records Introduction This appendix provides test record that can be used to record the performance of the ShockLine MS46131A. Make a copy of the following Test Record pages and document the measured values each time performance verification is performed.

  • Page 64: A-2 Shockline Ms46131A Without Option 12 Test Record

    A-2 ShockLine MS46131A without Option 12 Test Record Test Records Instrument Information Serial Number: Firmware Revision: Operator: Options: Date: ShockLine MS46131A without Option 12 Test Record Corrected Directivity Table A-1. Corrected Directivity of MS46131A with Option 10 Frequency (GHz) Specification (dB) Measured (dB) Uncertainty (dB) Pass/Fail...

  • Page 65: Shockline Ms46131A With Option 12 Test Record

    Test Records A-3 ShockLine MS46131A with Option 12 Test Record Instrument Information Serial Number: Firmware Revision: Operator: Options: Date: ShockLine MS46131A with Option 12 Test Record This test is automated using the System Performance Verification software that is included with 3663-3 amd 3668-4 Verification Kit.

  • Page 66: Shockline Ms46131A Instrument Key Parameter Test Record

    A-4 ShockLine MS46131A Instrument Key Parameter Test Record Test Records Instrument Information Serial Number: Firmware Revision: Operator: Options: Date: ShockLine MS46131A Instrument Key Parameter Test Record Frequency Accuracy Table A-5. Frequency Accuracy Specification Frequency (See Note below) Measured Value Uncertainty Pass/Fail 1 GHz 32 Hz...
  • Page 67 Test Records A-4 ShockLine MS46131A Instrument Key Parameter Test Record Table A-6. MS46131A High-level Noise - S11 Magnitude (2 of 2) Measurement Measured Value Uncertainty Frequency (MHz) (dB RMS) Specification (dB) (dB RMS) Pass/Fail 12000 0.006 0.00029 13000 0.006 0.00029 14000 0.006 0.00029...
  • Page 68 A-4 ShockLine MS46131A Instrument Key Parameter Test Record Test Records Table A-7. MS46131A High Level Noise - S11 Phase (1 of 2) Measurement Measured Value Uncertainty Frequency (MHz) (deg RMS) Specification (deg) (deg RMS) Pass/Fail 0.12 0.0032 0.12 0.0032 0.12 0.0059 0.12 0.0059...
  • Page 69 Test Records A-4 ShockLine MS46131A Instrument Key Parameter Test Record Table A-7. MS46131A High Level Noise - S11 Phase (2 of 2) Measurement Measured Value Uncertainty Frequency (MHz) (deg RMS) Specification (deg) (deg RMS) Pass/Fail 31000 0.0019 32000 0.0019 33000 0.0019 34000 0.0019...

  • Page 70: Ms46131A-012 High-Level Noise (100 Hz Ifbw, Rms

    A-4 ShockLine MS46131A Instrument Key Parameter Test Record Test Records MS46131A-012 High-level Noise (100 Hz IFBW, RMS) Table A-8. MS46131A-012 High Level Noise - S11 Phase (1 of 2) Measurement Measured Value Uncertainty Frequency (MHz) (deg RMS) Specification (deg) (deg RMS) Pass/Fail 0.21 0.0014...
  • Page 71 Test Records A-4 ShockLine MS46131A Instrument Key Parameter Test Record Table A-8. MS46131A-012 High Level Noise - S11 Phase (2 of 2) Measurement Measured Value Uncertainty Frequency (MHz) (deg RMS) Specification (deg) (deg RMS) Pass/Fail 31000 0.56 0.0034 32000 0.56 0.0034 33000 0.56...
  • Page 72 A-4 ShockLine MS46131A Instrument Key Parameter Test Record Test Records Table A-9. MS46131A-012 High Level Noise – S12 Phase (2 of 2) Measurement Frequency Measured Value Uncertainty (MHz) (Deg rms) (Deg rms) 12000 0.0018 13000 0.0018 14000 0.0018 15000 0.0018 16000 0.0018 17000...
  • Page 73 Test Records A-4 ShockLine MS46131A Instrument Key Parameter Test Record Table A-10. MS46131A-012 High Level Noise – S21 Magnitude (1 of 2) Measurement Frequency Measured Value Uncertainty (MHz) (dB rms) (dB rms) 0.00059 0.00059 0.0029 0.0029 0.0029 1000 0.0029 2000 0.0029 3000 0.0029...
  • Page 74 A-4 ShockLine MS46131A Instrument Key Parameter Test Record Test Records Table A-10. MS46131A-012 High Level Noise – S21 Magnitude (2 of 2) Measurement Frequency Measured Value Uncertainty (MHz) (dB rms) (dB rms) 32000 0.0029 33000 0.0029 34000 0.0029 35000 0.0029 36000 0.0029 37000...
  • Page 75 Test Records A-4 ShockLine MS46131A Instrument Key Parameter Test Record Table A-11. MS46131A-012 High Level Noise – S21 Phase (2 of 2) Measurement Frequency Measured Value Uncertainty (MHz) (Deg rms) (Deg rms) 14000 0.0018 15000 0.0018 16000 0.0018 17000 0.0018 18000 0.0018 19000...

  • Page 76: Ms46131A-012 Or Me7868A System Dynamic Range

    A-4 ShockLine MS46131A Instrument Key Parameter Test Record Test Records MS46131A-012 or ME7868A System Dynamic Range (High Power, 10 Hz IFBW, RMS) Table A-12. MS46131A-012 or ME7868A S12 System Dynamic Range Measurement Frequency Measured Value Uncertainty Specification Pass/Fail dB rms 0.91 dB rms 97 dB rms 1 MHz to 5 GHz...

  • Page 77: Index

    Identification Number ..... .1-2 Anritsu Service Center ..... 1-2 IF Level Adjustment .
  • Page 78 General Safety ......4-1 Troubleshooting Anritsu hardware is unavailable ..4-4 Application Cannot Launch ....4-3 Frequency-Related Problems .
  • Page 80 Anritsu Company 490 Jarvis Drive Anritsu utilizes recycled paper and environmentally conscious inks and toner. Morgan Hill, CA 95037-2809 http://www.anritsu.com...

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