Anritsu Spectrum Master MS2722C Maintenance Manual
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Anritsu Spectrum Master MS2722C Maintenance Manual

High performance handheld spectrum analyzer
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Summary of Contents for Anritsu Spectrum Master MS2722C

  • Page 1 T h e t e s t & me a s u r e me n t e q u i p me n t y o u n e e d a t t h e p r i c e y o u w a n t . A l l t e s t I n s t r u me n t s , I n c .
  • Page 2 Maintenance Manual Spectrum Master™ MS2722C, MS2723C, MS2724C, MS2725C, and MS2726C High Performance Handheld Spectrum Analyzer Anritsu Company Part Number: 10580-00279 490 Jarvis Drive Revision: E Morgan Hill, CA 95037-2809 Published: January 2016...
  • Page 4 Spectrum Master is a trademark of Anritsu Company. 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 6 Some or all of the following five symbols may or may not be used on all Anritsu equipment. In addition, there may be other labels attached to products that are not shown in the diagrams in this manual.
  • Page 7 These hazardous compounds present a risk of injury or loss due to exposure. Anritsu Company recommends removing the battery for long-term storage of the instrument and storing the battery in a leak-proof, plastic container.

  • Page 8: Table Of Contents

    Anritsu Customer Service Centers ........
  • Page 9 Table of Contents (Continued) Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer Verification ....3-13 WCDMA Absolute Power Accuracy Verification (Option 44) ..... . 3-13 WCDMA Occupied Bandwidth (OBW) Verification (Option 44) .
  • Page 10 Table of Contents (Continued) Function Key Membrane and Switch Pad Replacement ......5-12 Chapter 6—Troubleshooting Introduction .
  • Page 11 Contents-4 PN: 10580-00279 Rev. E MS272xC MM...

  • Page 12: Chapter 1-General Information

    Appendix A and use them to record measured values. These test records form a record of the performance of your instrument. Anritsu recommends that you make a copy of the blank test records to document the measurements each time a Performance Verification is performed.

  • Page 13: Recommended Test Equipment

    1-3 Recommended Test Equipment Chapter 1 — General Information Recommended Test Equipment The following test equipment is recommended for use in testing and maintaining Anritsu Models MS2722C, MS2723C, MS2724C, MS2725C, and MS2726C. • Table 1-1 is a list of test equipment that is required for verifying the spectrum analyzer functions on Models MS2722C, MS2723C, and MS2724C.
  • Page 14 Power Range: –70 to +20 dBm Anritsu Model ML2438A Power Sensor Frequency: 100 kHz to 40 GHz Anritsu Model SC7413 (Qty 2) K type Power Range: –70 to +20 dB 50 ohm Termination Frequency: DC to 40 GHz Anritsu Model 28KF50-2...
  • Page 15 Power Range: –70 to + 20 dBm Power Meter Anritsu Model ML2438A Power Sensor Frequency: 10 MHz to 18 GHz Anritsu Model MA2482D with Option 1 (Qty 2) Power Range: –60 to +20 dBm Frequency Counter Frequency: 20 GHz Anritsu Model MF2412B...

  • Page 16: Replaceable Parts

    BNC(m) to BNC(m), 50 ohm Adapter K(f) to N(f), 50 ohms, Ruggedized Anritsu Model 71693-R c. Note that MG3692A models require Option 15 to achieve power of +13 dBm. MG3692B models do not require Option 15 to achieve +13 dBm power.
  • Page 17 1-4 Replaceable Parts Chapter 1 — General Information Table 1-4. List of Replaceable Parts (2 of 2) Part Number Description ND70948 40-187-R AC to DC Power Converter 3-71027-3 Main Keypad PCB 3-61362 Main Keypad (Rubber) 3-61363-1 Main Keyboard Bezel 3-61361 Soft keys Keypad (Rubber) 3-61378-1 Soft key Bezel...

  • Page 18: Connector Care

    Chapter 1 — General Information 1-5 Connector Care Connector Care Visually inspect connectors for general wear, for cleanliness, and for damage such as bent pins or connector rings. Repair or replace damaged connectors immediately. Dirty connectors can limit the accuracy of your measurements.
  • Page 19 1-5 Connector Care Chapter 1 — General Information PN: 10580-00279 Rev. E MS272xC MM...

  • Page 20: Chapter 2-Spectrum Analyzer Verification

    Chapter 2 — Spectrum Analyzer Verification Introduction This chapter describes the verification process for the spectrum analyzer in the MS272xC Spectrum Master. Verification tests that are associated with instrument options are described in Chapter The following tests are in this chapter: •...

  • Page 21: Frequency Accuracy Verification

    • Anritsu 3670K50-2 RF Coaxial Cable • BNC male to BNC male Coaxial Cable Procedure 1. Connect the 10 MHz Reference source to the Anritsu MG3692x or MG3695C Synthesized Signal Source. Note Do not connect the external 10 MHz Reference to the Spectrum Master.
  • Page 22 Chapter 2 — Spectrum Analyzer Verification 2-2 Frequency Accuracy Verification 18. Set the MG3692x or MG3695C frequency to: • 7 GHz for MS2722C • 12 GHz for MS2723C • 18 GHz for MS2724C • 30 GHz for MS2725C • 40 GHz for MS2726C 19.

  • Page 23: Single Side Band (Ssb) Phase Noise Verification

    1. Connect the 10 MHz reference source to the Anritsu MG3692x or MG3695C Synthesized Signal Source. 2. Turn on the 10 MHz reference source and the Anritsu MG3692x or MG3695C Synthesized Signal Source. 3. Set the MG3692x or MG3695C output to 1.0 GHz CW, with an RF output level of +4 dBm.
  • Page 24 Chapter 2 — Spectrum Analyzer Verification 2-3 Single Side Band (SSB) Phase Noise Verification 21. Press the Delta On/Off submenu key to turn Delta on. 22. Use the keypad to enter 10 and press the kHz submenu key. 23. Enter the measured value into Table A-2, “Spectrum Analyzer 1.0 GHz SSB Phase Noise Verification”...

  • Page 25: Spurious Response (Second Harmonic Distortion) Verification

    1. Connect the 10 MHz reference source to the Anritsu MG3692x or MS3695B Synthesized Signal Source. 2. Turn on the 10 MHz reference source and the Anritsu MG3692x or MS3695B Synthesized Signal Source. 3. Set the MG3692x output to 50.1 MHz CW, with an RF Output Level of –30 dBm.
  • Page 26 Chapter 2 — Spectrum Analyzer Verification 2-4 Spurious Response (Second Harmonic Distortion) 23. Record the amplitude for 50.1 MHz. Use Table A-3, “Spectrum Analyzer Second Harmonic Distortion” on page A-2. 24. Press the Freq main menu key and select the Center Freq submenu key. 25.

  • Page 27: Input Related Spurious (Irs) Signals Verification

    • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • Anritsu MG3695C Synthesized Signal Source with options 2, 3, 4, 15C, and 22 • Frequency Reference Symmetricom Rubisource T&M • Anritsu 34KFKF50 50 ohm Adapter •...

  • Page 28: 3273 Mhz Input Related Spurious Check

    Chapter 2 — Spectrum Analyzer Verification 2-5 Input Related Spurious (IRS) Signals Verification 21. Press the Marker main menu key and press the Peak Search submenu key. 22. xxRecord the Marker 1 amplitude reading into the “Measured Spur Level” column of Table A-4.
  • Page 29 2-5 Input Related Spurious (IRS) Signals Verification Chapter 2 — Spectrum Analyzer Verification 55. Press the Shift key and then press the Trace (5) key. Press the Trace A Operations submenu key. 56. Press the # of Averages submenu key, use the keypad to enter 5, and then press the Enter key. 57.

  • Page 30: Resolution Bandwidth Accuracy Verification

    • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • Anritsu MG3695C Synthesized Signal Source with options 2, 3, 4, 15, and 22 • Frequency Reference Symmetricom Rubisource T&M • Anritsu 34VKF50 50 ohm Adapter •...
  • Page 31 2-6 Resolution Bandwidth Accuracy Verification Chapter 2 — Spectrum Analyzer Verification Procedure 1. Connect the external 10 MHz Reference both to the MG3692x or MG3695C Synthesized Signal Generator and to the Spectrum Master MS272xC, as shown in Figure 2-1. 2. Set the MS272xC to Spectrum Analyzer mode and then Preset the instrument. Press the Shift key, the Sweep (3) key, Sweep Mode submenu key and then the Performance submenu key.

  • Page 32: Spectrum Analyzer Absolute Amplitude Accuracy Verification

    • Power Splitter, Aeroflex/Weinschel Model 1870A • Fixed Attenuator, Aeroflex/Weinschel Model 4410 • (2) Adapter, Anritsu Model 34NN50A • Coaxial Cable, BNC(m) to BNC(m), 50 ohm • RF Coaxial Cable, N(m) to N(f), Anritsu Model 15NNF50-1.5C Setup ML2438A Power Meter Adapter...
  • Page 33 2-7 Spectrum Analyzer Absolute Amplitude Accuracy Verification Chapter 2 — Spectrum Analyzer Equipment Required for MS2725C and MS2726C • Anritsu MG3695C Synthesized Signal Source with options 2, 3, 4, 15, and 22 • Frequency Reference Symmetricom Rubisource T&M • Anritsu 34VKF50 50 ohm Adapter •...
  • Page 34 Chapter 2 — Spectrum Analyzer Verification 2-7 Spectrum Analyzer Absolute Amplitude Accuracy 6. Set the power meter to display both Channel A and Channel B. Press the Sensor key, the Cal Factor submenu key, and then the Freq submenu key. Use the keypad to enter the value matching the frequency of MG3692x or MG3695C as the input signal frequency, which sets the power meter to the proper power sensor calibration factor.

  • Page 35: Amplitude Accuracy Across Frequency Verification

    • RF Coaxial Cable, N(m) to N(f), Anritsu Model 15NNF50-1.5C Equipment Required for MS2725C and MS2726C • Anritsu MG3695C Synthesized Signal Source with options 2, 3, 4, 15, and 22 • Frequency Reference Symmetricom Rubisource T&M • Anritsu 34VKF50 50 ohm Adapter •...

  • Page 36: Measuring Amplitude Accuracy Across Frequency

    Chapter 2 — Spectrum Analyzer Verification 2-7 Spectrum Analyzer Absolute Amplitude Accuracy Component Characterization 1. Connect both of the power sensors to the power meter and zero the sensors. 2. Connect the equipment as shown in Figure 2-2 on page 2-13. 3.
  • Page 37 2-7 Spectrum Analyzer Absolute Amplitude Accuracy Verification Chapter 2 — Spectrum Analyzer 7. Set the power meter to display Channel B. Press the Sensor key, the Cal Factor submenu key, and then the Freq submenu key. Use the keypad to enter the value matching the frequency of MG3692x or MG3695C as the input signal frequency, which sets the power meter to the proper power sensor calibration factor.

  • Page 38: Residual Spurious Response Verification

    Response Test with Preamp On” on page 2-20. Residual Spurious Response Test with Preamp Off Equipment Required for MS2722C, MS2723C, and MS2724C • Anritsu 28N50-2 50 ohm Termination Equipment Required for MS2725C and MS2726C • Anritsu 28KF50 50 ohm Termination Procedure 1.

  • Page 39: Residual Spurious Response Test With Preamp On

    2-8 Residual Spurious Response Verification Chapter 2 — Spectrum Analyzer Verification Residual Spurious Response Test with Preamp On Equipment Required for MS2722C, MS2723C, and MS2724C • Anritsu 28N50-2 50 ohm Termination Equipment Required for MS2725C and MS2726C • Anritsu 28KF50 50 ohm Termination Procedure 1.

  • Page 40: Displayed Average Noise Level (Danl)

    The following test is used to verify the Displayed Average Noise Level (DANL) of the spectrum analyzer systems in the MS272xC Spectrum Master. Equipment Required for MS2722C, MS2723C, and MS2724C • Anritsu 28N50-2 50 ohm Termination Equipment Required for MS2725C and MS2726C • Anritsu 28KF50 50 ohm Termination Preamp On Procedure 1.

  • Page 41: Third Order Intercept (Toi)

    • Signal Generator, Agilent Model 8648D • Power Splitter, Aeroflex/Weinschel Model 1870A • Power Sensor, Anritsu Model MA2442D (10 MHz to 18 GHz, –67 dB to +20 dB) • Fixed Attenuator, Aeroflex/Weinschel Model 442 • Fixed Attenuator, Aeroflex/Weinschel Model 446 •...
  • Page 42 Chapter 2 — Spectrum Analyzer Verification 2-10 Third Order Intercept (TOI) Setup Ext Ref In Fault MS2722C Spectrum Analyzer SpectrumMaster ML2438A Power Meter Shift Back File System Mode Measure Trace Limit Preset Calibrate Sweep Enter Sensor MS272xC Spectrum Master 2 dB 6 dB 20 dB 20 dB 6 dB...
  • Page 43 10. Press the Shift key and the Sweep (3) key. Press Detection, and press RMS (a red dot appears on the label). 11. Disconnect the power sensor from the output of the splitter and connect the splitter output to the MS272xC Spectrum Analyzer RF In connector through the Anritsu Model 34NN50A or 71693-R adapter (Figure 2-6 on page 2-25).
  • Page 44 Chapter 2 — Spectrum Analyzer Verification 2-10 Third Order Intercept (TOI) Adapter Ext Ref In 34NN50A ML2438A Power Meter Fault MS2722C Spectrum Analyzer SpectrumMaster Sensor Shift Back File System Mode Measure Trace Limit Preset Calibrate Sweep Enter MS272xC Spectrum Master 2 dB 6 dB 20 dB 20 dB...
  • Page 45 2-10 Third Order Intercept (TOI) Chapter 2 — Spectrum Analyzer Verification 2-26 PN: 10580-00279 Rev. E MS272xC MM...

  • Page 46: Chapter 3-Options Verification

    Chapter 3 — Options Verification Introduction This chapter describes the verification process for all of the options that are available for the MS272xC Spectrum Master. The following tests are in this chapter: • “Option 31, GPS Frequency Accuracy Verification” on page 3-2 •...

  • Page 47: Option 31, Gps Frequency Accuracy Verification

    Setup Procedure 1. Connect the GPS antenna to the GPS Antenna connector on the MS272xC. If a fixed GPS antenna is not available, then the Anritsu 2000-1528-R GPS antenna can be used for Note this test. Ensure that the Anritsu 2000-1528-R GPS antenna is in a direct line of sight relationship to the satellites or that the antenna is placed outside with no obstructions.
  • Page 48 GPS High Accy. 6. If the GPS fix is acquired using the Anritsu 2000-1528-R GPS antenna outside, then bringing the instrument inside causes a loss of satellite tracking. A red cross appears on the green GPS indicator, and the Reference Source indicator changes to Int Hi Accy.

  • Page 49: Gps Option Bias-Tee Voltage Verification (Option 31)

    3-2 Option 31, GPS Frequency Accuracy Verification Chapter 3 — Options Verification GPS Option Bias-Tee Voltage Verification (Option 31) The following test verifies the GPS Antenna Bias-Tee Voltages of Option 31 in the model MS272xC Spectrum Master. Equipment Required for MS2722C, MS2723C, MS2724C, MS2725C, and MS2726C •...

  • Page 50: Option 40 And/Or 41, Gsm/Gprs/Edge Signal Analyzer Verification

    • BNC male to BNC male Coaxial Cable • Power Splitter, Aeroflex/Weinschel Model 1870A Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter Function Cursor/Edit...

  • Page 51: Gsm Burst Power, Frequency Error, And Phase Error Tests

    3-3 Option 40 and/or 41, GSM/GPRS/EDGE Signal Analyzer Verification Chapter 3 — Options Verification Set up Procedure 1. Zero the power sensor prior to connecting to the power splitter. 2. Set the Power Meter Measurement MODE to True RMS, set Averaging MODE to Moving, and set Averaging NUMBER to 256.
  • Page 52 Chapter 3 — Options Verification 3-3 Option 40 and/or 41, GSM/GPRS/EDGE Signal Analyzer Verification 21. Adjust the Level of the MG3700A so that the power meter reads –50 dBm ± 0.2 dB. Record the adjusted power reading into the “Adjusted Output Power” row of Table A-66, “Option 40, At 850 MHz, –50 dBm Level, TCH All Pattern (GSM)”...

  • Page 53: Edge Burst Power, Frequency Error And Residual Error Tests

    3-3 Option 40 and/or 41, GSM/GPRS/EDGE Signal Analyzer Verification Chapter 3 — Options Verification EDGE Burst Power, Frequency Error and Residual Error Tests Test Procedure 1. Verify that the equipment settings are unchanged from the previous test. 2. On the MG3700A, change the selected pattern to DL_MCS-9_1SLOT. 3.
  • Page 54 Chapter 3 — Options Verification 3-3 Option 40 and/or 41, GSM/GPRS/EDGE Signal Analyzer Verification 20. Adjust the level of the MG3700A so that the power meter reads –10 dBm ± 0.2 dB. Record the adjusted power reading into the “Adjusted Output Power” row of Table A-72, “Option 40, At 850 MHz, –10 dBm Level, DL_MCS-9_1SLOT Pattern (EDGE)”...

  • Page 55: Option 42 And/Or 43, Cdma Signal Analyzer Verification

    • BNC male to BNC male Coaxial Cable • Power Splitter, Aeroflex/Weinschel Model 1870A Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter Function Cursor/Edit...

  • Page 56: Cdmaone Channel Power, Frequency Error, Rho And Tau Tests

    Chapter 3 — Options Verification 3-4 Option 42 and/or 43, CDMA Signal Analyzer Verification Set up Procedure 1. Zero the power sensor prior to connecting it to the power splitter. 2. Set the Power Meter Measurement MODE to True RMS, set Averaging MODE to Moving, and set Averaging NUMBER to 256.

  • Page 57: Cdma2000 Channel Power, Frequency Error, Rho And Tau Tests

    3-4 Option 42 and/or 43, CDMA Signal Analyzer Verification Chapter 3 — Options Verification 21. On the power meter, press the Sensor key, the Cal Factor submenu key, and then the Freq submenu key. Use the keypad to enter 1930 MHz as the input signal frequency, which sets the power meter to the proper power sensor calibration factor.

  • Page 58: Option 44, 45, And/Or 65 Wcdma/Hsdpa Signal Analyzer Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter MS272xC MM PN: 10580-00279 Rev. E 3-13...
  • Page 59 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer VerificationChapter 3 — Options Verification Setup ML2438A Power Meter RF Power Amplifier Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz RF Output Ethernet Control Input Modulation Input MG3700A Vector Signal Generator Circulator High Power Load MN63A...
  • Page 60 Chapter 3 — Options Verification 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer Verification 10. Press the (F1) submenu key to select “Load File to Memory” 11. Press the (F1) submenu key again to select “Select Package” 12. Using the Down Arrow key, step through the selection list until the WCDMA(BS Tx test) option is highlighted.
  • Page 61 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer VerificationChapter 3 — Options Verification ML2438A Power Meter RF Power Amplifier Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz RF Output Ethernet Control Input Modulation Input MG3700A Vector Signal Generator Circulator High Power Load MN63A Coupler...
  • Page 62 Chapter 3 — Options Verification 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer Verification 46. Record the calculated value (MG3700A.28) in Table A-90, “Option 44, Power Level Setting, Components Characterization” on page A-42. 47. On the MG3700A, turn on the RF output and use the knob to adjust power level to the recorded MG3700A.28 value in Table A-90.

  • Page 63: Wcdma Occupied Bandwidth (Obw) Verification (Option 44)

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter Sensor Function...
  • Page 64 Chapter 3 — Options Verification 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer Verification Procedure 1. Turn on the MG3700A Vector Signal Generator and the ML2438A power meter. 2. Connect the power sensor to the power meter and calibrate the sensor. 3.

  • Page 65: Wcdma Rf Channel Power Accuracy And Aclr Verification (Option 44)

    3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer VerificationChapter 3 — Options Verification WCDMA RF Channel Power Accuracy and ACLR Verification (Option 44) The tests in this section can be used to verify the WCDMA RF Channel Power Accuracy and Adjacent Channel Leakage Ratio (ACLR) Accuracy in WCDMA/HSDPA Signal Analyzer Mode.

  • Page 66: Hsdpa Rf Channel Power Accuracy And Aclr Verification (Option 44)

    Chapter 3 — Options Verification 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer Verification (–50/10) (Measured_ACLR/10) ACLR Error at –10 or 10 MHz Offset = 10 LOG + 10 ) – (–50) dB 30. Record the calculated results into the corresponding cells in the “Calculated ACLR Error” column in Table A-94 and verify that it is within specification.

  • Page 67: Error Vector Magnitude (Evm) Verification (Option 45 Or Option 65)

    3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer VerificationChapter 3 — Options Verification 24. Press the Amplitude main menu key, then press the Adjust Range submenu key. 25. Record the measured CH 1 power in dBm to the “Measured RF Channel Power” column of Table A-94.
  • Page 68 Chapter 3 — Options Verification 3-5 Option 44, 45, and/or 65 WCDMA/HSDPA Signal Analyzer Verification 18. Press the MOD On/Off key and verify that the Modulation indicator on the display is On. 19. Press the Frequency key, then enter 1962.5, and press the MHz key. 20.

  • Page 69: Option 46 And/Or Option 47, Fixed Wimax Signal Analyzer Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter Sensor Function...
  • Page 70 Chapter 3 — Options Verification 3-6 Option 46 and/or Option 47, Fixed WiMAX Signal Analyzer Procedure 1. Connect the Power Sensor to the power meter and zero the sensor. 2. Set the Power Meter Measurement MODE to “True RMS”, set Averaging MODE to “Moving”, and set Averaging NUMBER to “256”.

  • Page 71: Fixed Wimax Residual Evm And Frequency Error Tests (Option 47)

    3-6 Option 46 and/or Option 47, Fixed WiMAX Signal Analyzer Verification Chapter 3 — Options 15. Verify that the error is within specification. 16. Set the calibration factor frequency of the power sensor to 3600.5 MHz. 17. Set MG3700A frequency to 3600.5 MHz. 18.
  • Page 72 Chapter 3 — Options Verification 3-6 Option 46 and/or Option 47, Fixed WiMAX Signal Analyzer 9. Record the MS272xC EVM (rms) reading into the “EVM (rms)” column in Table A-101, “Option 47, Fixed WiMAX Residual EVM” on page A-46. 10. Verify that the measured EVM is within specification. 11.

  • Page 73: Option 60 And/Or Option 61, Tdscdma Signal Analyzer Option Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter Function Cursor/Edit...

  • Page 74: Tdscdma Channel Power, Frequency Error, Evm, And Tau Test Procedure

    Chapter 3 — Options Verification 3-7 Option 60 and/or Option 61, TDSCDMA Signal Analyzer Option Setup Procedure 1. Zero the power sensor prior to connecting to the power splitter. 2. Connect the equipment as shown in Figure 3-8. 3. On the power meter, press the Sensor key, the Cal Factor submenu key, and then the Freq submenu key. Use the keypad to enter 2010 MHz as the input signal frequency, which sets the power meter to the proper power sensor calibration factor.

  • Page 75: Option 62 And/Or Option 63, Evdo Signal Analyzer Option Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter Function Cursor/Edit...

  • Page 76: 8Psk Modulation Channel Power, Frequency Error, Rho, And Tau Tests

    Chapter 3 — Options Verification 3-8 Option 62 and/or Option 63, EVDO Signal Analyzer Option Set up Procedure 1. Zero the power sensor prior to connecting to the power splitter. 2. Connect the equipment as shown in Figure 3-9. 3. On the power meter, press the Sensor key, the Cal Factor submenu key, and then the Freq submenu key. Use the keypad to enter 870.03 MHz as the input signal frequency, which sets the power meter to the proper power sensor calibration factor.

  • Page 77: Qpsk Modulation Channel Power, Frequency Error, Rho, And Tau Tests

    3-8 Option 62 and/or Option 63, EVDO Signal Analyzer Option Verification Chapter 3 — Options QPSK Modulation Channel Power, Frequency Error, Rho, and Tau Tests Test Procedure 1. Ensure that the equipment settings are unchanged from the previous test. 2. On the MG3700A, change the selected pattern to FWD_38_4KBPS_16SLOT. 3.

  • Page 78: Idle Slot Channel Power, Frequency Error, Rho, And Tau Tests

    Chapter 3 — Options Verification 3-8 Option 62 and/or Option 63, EVDO Signal Analyzer Option Idle Slot Channel Power, Frequency Error, Rho, and Tau Tests Test Procedure 1. Ensure that the equipment settings are unchanged from the previous test. The power sensor Cal Factor frequency should still be at 1930 MHz, and the MG3700A frequency and MS272xC Center Frequency should still be at 1930.05 MHz.

  • Page 79: Option 66 And/Or Option 67, Mobile Wimax Signal Analyzer Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter ML2438A Power Meter MA2482D Power Sensor...

  • Page 80: Channel Power Accuracy (10 Mhz Bandwidth And 10 Ms Frame Length)

    Chapter 3 — Options Verification 3-9 Option 66 and/or Option 67, Mobile WiMAX Signal Analyzer Setup 1. Connect the Power Sensor to the power meter and zero the sensor. 2. Set the Power Meter Measurement MODE to True RMS, set Averaging MODE to Moving, and set Averaging NUMBER to 256.

  • Page 81: Channel Power Accuracy (5 Mhz Bandwidth And 5 Ms Frame Length)

    3-9 Option 66 and/or Option 67, Mobile WiMAX Signal Analyzer Verification Chapter 3 — Options 9. Record the “MS272xC Reading”, the displayed Channel Power (RSSI) value, into Table A-115. 10. Calculate the Channel Power Error by subtracting the “MS272xC Reading” of Channel Power (RSSI) from the “Power Meter Reading”...
  • Page 82 Chapter 3 — Options Verification 3-9 Option 66 and/or Option 67, Mobile WiMAX Signal Analyzer 6. Calculate the Channel Power Error by subtracting the “MS272xC reading” from the “Power Meter Reading” in Step 2. Record the result into Table A-118. 7.

  • Page 83: Mobile Wimax Residual Evm And Frequency Error Tests (Option 67)

    • Anritsu 34NN50A 50 ohm Adapter (2) • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Function Cursor/Edit MG3700 Vector Signal...

  • Page 84: Residual Evm And Frequency Error (10 Mhz Bandwidth And 10 Ms Frame Length)

    Chapter 3 — Options Verification 3-9 Option 66 and/or Option 67, Mobile WiMAX Signal Analyzer Residual EVM and Frequency Error (10 MHz Bandwidth and 10 ms Frame Length) 3. Set the MG3700A as follows: a. Press the yellow Preset button (answer yes to the question). b.

  • Page 85: Residual Evm And Frequency Error (5 Mhz Bandwidth And 5 Ms Frame Length)

    3-9 Option 66 and/or Option 67, Mobile WiMAX Signal Analyzer Verification Chapter 3 — Options 19. Repeat Step 11 through Step 13 to measure the Frequency Error at 3600.5 MHz. Residual EVM and Frequency Error (5 MHz Bandwidth and 5 ms Frame Length) 20.

  • Page 86: 3-10 Lte Signal Analyzer Option 541 And/Or 542 And/Or 543 Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter Setup ML2438A Power Meter MA2482D Power Sensor...

  • Page 87: Lte Channel Power Accuracy Tests (Option 541 And 543)

    3-10 LTE Signal Analyzer Option 541 and/or 542 and/or 543 Verification Chapter 3 — Options Verification LTE Channel Power Accuracy Tests (Option 541 and 543) The tests in this section verify the function of the optional LTE Signal Analyzer in Model MS272xC. Procedure 1.

  • Page 88: Lte Residual Evm And Frequency Error Tests (Option 542 And 543)

    Chapter 3 — Options Verification 3-10 LTE Signal Analyzer Option 541 and/or 542 and/or 543 Verification 13. Record the MS272xC Channel Power reading into the test record in the column labeled “Measured Channel Power” (row labeled 750 MHz, –50 dBm) in Table A-126.
  • Page 89 3-10 LTE Signal Analyzer Option 541 and/or 542 and/or 543 Verification Chapter 3 — Options Verification n. Turn the output On. 6. Adjust the MG3700A Level setting with the knob so that the power meter reads –10.0 dBm ± 0.5 dB. 7.

  • Page 90: Td-Lte Signal Analyzer Option 551 And/Or 552 And/Or 543 Verification

    • Anritsu 15NN50-1.5C RF Coaxial Cable • BNC male to BNC male Coaxial Cable Equipment Required for MS2725C and MS2726C • All of the above, plus • Anritsu 71693-R Ruggedized K(f) to N(f) Adapter MS272xC MM PN: 10580-00279 Rev. E 3-45...

  • Page 91: Td-Lte Channel Power Accuracy Tests (Option 551 And Option 543)

    3-11 TD-LTE Signal Analyzer Option 551 and/or 552 and/or 543 Verification Chapter 3 — Options TD-LTE Channel Power Accuracy Tests (Option 551 and Option 543) The tests in this section verify the function of the optional TD-LTE Signal Analyzer in Model MS272xC. Setup ML2438A Power Meter MA2482D...
  • Page 92 Chapter 3 — Options Verification 3-11 TD-LTE Signal Analyzer Option 551 and/or 552 and/or 543 5. Set the MG3700A as follows: a. Press the yellow Preset button (answer yes to the question). b. Press the Set key. Note: Both Set keys on the MG3700A perform the same function. c.

  • Page 93: Td-Lte Residual Evm And Frequency Error Tests (Option 552 And Option 543)

    3-11 TD-LTE Signal Analyzer Option 551 and/or 552 and/or 543 Verification Chapter 3 — Options 20. For instruments with Option 543, press the Setup main menu key and set the BW to 20 MHz. Then repeat Step 5 Substep through Step 19 by using the TDLTE-E-TM-1-1_20M pattern for Step 5...
  • Page 94 Chapter 3 — Options Verification 3-11 TD-LTE Signal Analyzer Option 551 and/or 552 and/or 543 11. Adjust the MG3700A Level setting to approximately –15 dBm so that the power meter reads –30.0 dBm ± 0.5 dB. 12. Record the MS272xC Residual EVM(rms) and Frequency Error reading into the section “750 MHz, –30 dBm”...
  • Page 95 3-11 TD-LTE Signal Analyzer Option 551 and/or 552 and/or 543 Verification Chapter 3 — Options 3-50 PN: 10580-00279 Rev. E MS272xC MM...

  • Page 96: Chapter 4-Battery Information

    Chapter 4 — Battery Information General Information The following information relates to the care and handling of the Anritsu battery pack and Lithium-Ion batteries. • The battery supplied with the Spectrum Master may need charging before use. Before using the Spectrum Master, the internal battery may be charged either in the unit using the AC-DC Adapter or the 12-Volt DC adapter, or separately in the optional Dual Battery Charger.

  • Page 97: Battery Pack Removal And Replacement

    4-2 Battery Pack Removal and Replacement Chapter 4 — Battery Information Battery Pack Removal and Replacement This section provides instructions for the removal and replacement of the Spectrum Master battery pack. Many of the procedures in this section are generic, and apply to many similar instruments. Photos Note and illustrations used are representative and may show instruments other than the Spectrum Master.
  • Page 98 Chapter 4 — Battery Information 4-2 Battery Pack Removal and Replacement 3. Remove the battery access door as shown Figure 4-3. Slide Battery Access Door Down and Remove. Figure 4-3. Removing the Battery Access Door 4. With the battery access door completely removed, grasp the battery lanyard and pull the battery straight out of the unit, as illustrated in Figure 4-4.
  • Page 99 4-2 Battery Pack Removal and Replacement Chapter 4 — Battery Information 5. Replacement is the opposite of removal. Note the orientation of the battery contacts, and be sure to insert the battery with the contacts facing the bottom of the unit, refer to Figure 4-5.

  • Page 100: Chapter 5-Assembly Replacement

    Chapter 5 — Assembly Replacement Replaceable Parts List Refer to Table 1-4, “List of Replaceable Parts” on page 1-5 for the list of replaceable parts. Refer to the following sections for basic replacement instructions. Many of the procedures in this section are generic, and apply to many similar instruments. Photos Note and illustrations used are representative and may show instruments other than the Spectrum Master.
  • Page 101 5-2 Opening the Spectrum Master Case Chapter 5 — Assembly Replacement 4. Use a Phillips screwdriver to remove the four screws securing the two halves of the Spectrum Master case together (Figure 5-2). Carefully lift this side first Location of the 4 screws to remove. Figure 5-2.
  • Page 102 Chapter 5 — Assembly Replacement 5-2 Opening the Spectrum Master Case 6. Partially open the case and carefully disconnect the ribbon cable that connects the Spectrum Analyzer Assembly to the Main PCB Assembly. The cable is attached between the two sides of the Spectrum Master.

  • Page 103: 5-2 Opening The Spectrum Master Case

    5-2 Opening the Spectrum Master Case Chapter 5 — Assembly Replacement Spectrum Analyzer Assembly Top Connector Panel (Specify Spectrum Master model) (Replaced with the SPA Assembly) Encoder PCB Bend Tab Over Option 31 Cable and Connector Option 31 PCB and Encoder Wires Battery Main PCB Connector...

  • Page 104: Spectrum Analyzer Module Assembly Replacement

    Chapter 5 — Assembly Replacement 5-3 Spectrum Analyzer Module Assembly Replacement Spectrum Analyzer Module Assembly Replacement This procedure provides instructions for removing and replacing the Spectrum Analyzer PCB Assembly. The Spectrum Analyzer Module Assembly is located in the back half of the case and includes the Top Connector Panel.

  • Page 105: Main Pcb Assembly Replacement

    5-4 Main PCB Assembly Replacement Chapter 5 — Assembly Replacement Main PCB Assembly Replacement This procedure provides instructions for replacing the Main PCB assembly. The Main PCB assembly is located in the front panel half of the instrument. 1. Open the case as described in Section 5-2 “Opening the Spectrum Master Case”.
  • Page 106 Chapter 5 — Assembly Replacement 5-4 Main PCB Assembly Replacement 7. Remove the 9 screws retaining the Main PCB Assembly to the Spectrum Master case (Figure 5-7). Remove the 9 screws Figure 5-7. Remove the 9 Screws Retaining the Main PCB Assembly 8.

  • Page 107: Lcd Assembly Replacement

    5-5 LCD Assembly Replacement Chapter 5 — Assembly Replacement LCD Assembly Replacement This procedure provides instructions for removing and replacing the Liquid Crystal Display (LCD) once the Main PCB assembly has been separated from the Spectrum Master. 1. Open the case as described in Section 5-2 “Opening the Spectrum Master Case”.

  • Page 108: Keypad Membrane And Main Keypad Pcb Replacement

    Chapter 5 — Assembly Replacement 5-6 Keypad Membrane and Main Keypad PCB Replacement Keypad Membrane and Main Keypad PCB Replacement This procedure provides instructions for removing and replacing the keypad membrane and PCB. Note The keypad PCB and membrane can be replaced without opening the Spectrum Master case. 1.
  • Page 109 5-6 Keypad Membrane and Main Keypad PCB Replacement Chapter 5 — Assembly Replacement 4. Remove the keypad membrane by carefully lifting the speaker and pulling the membrane off of the keypad PCB (Figure 5-10). Figure 5-10. Keypad Membrane The speaker is held in place by four locating pins on the inside of the keypad bezel. When the Note keypad bezel is removed, the speaker is only held by the fragile connecting wires.
  • Page 110 Chapter 5 — Assembly Replacement 5-6 Keypad Membrane and Main Keypad PCB Replacement 6. Remove the Main Keypad PCB, taking care not to damage the speaker wires. The Keyboard PCB is attached to the Main PCB Assembly with the socket connector shown in Figure 5-8 on page 5-8.

  • Page 111: Function Key Membrane And Switch Pad Replacement

    5-7 Function Key Membrane and Switch Pad Replacement Chapter 5 — Assembly Replacement Function Key Membrane and Switch Pad Replacement This procedure provides instructions for replacing the function key membrane and switch pad. Note The function key membrane and switchplate can be replaced without opening the Spectrum Master. 1.

  • Page 112: Chapter 6-Troubleshooting

    Turn-on Problems Unit cannot boot-up, no activity occurs when the On/Off key is pressed: 1. Battery may be fully discharged. Use an external charger (Anritsu part number 2000-1374) to charge a completely discharged battery. 2. Battery may be the wrong type. Use only Anritsu approved battery packs. Some non-approved battery packs will fit into the MS272xC, but are electrically incompatible and will not charge correctly.
  • Page 113 6-3 Other Problems Chapter 6 — Troubleshooting Spectrum Analyzer Problems: 1. Inspect the Spectrum Analyzer RF In connector for damage. 2. Refer to the User Guide. 3. Update system software using Master Software Tools (via Tools menu). 4. Spectrum Analyzer PCB has failed. Replace the Spectrum Analyzer PCB assembly. Other Issues: 1.

  • Page 114: Appendix A-Test Records

    This appendix provides test records that can be used to record the performance of the MS272xC Spectrum Master. Anritsu recommends that you make a copy of the following test record pages and document the measurements each time a Performance Verification is performed. Continuing to document this process each time it is performed provides a detailed history of instrument performance, which can allow you to observe trends.

  • Page 115: Test Records For Spectrum Analyzer Verification

    A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Test Records for Spectrum Analyzer Verification Table A-1. Spectrum Analyzer Frequency Accuracy Frequency Measured Value Error Specification 1 GHz...
  • Page 116 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Input Related Spurs for –30 dBm Input at 1000 MHz Table A-4. Measured Input Signal Level at 1000 MHz Start Freq Stop Freq Measured Spur Level...
  • Page 117 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Table A-8. Spectrum Analyzer Resolution Bandwidth Accuracy RBW Setting Span Measured Value Specification 10 MHz 20 MHz 1 MHz 9 MHz to 11 MHz...
  • Page 118 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Table A-9. Characterization Chart for 50 MHz Amplitude Accuracy Verification Test Power Level at 50 MHz Required Sensor B Reading 0 dBm –4 dBm...
  • Page 119 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Table A-11. Characterization Chart for Fixed Level with Varying Frequency (1 of 2) –2 dBm (MS2722C, MS2723C, MS2724C) –5 dBm (MS2725C, MS2726C) –30 dBm Frequency...
  • Page 120 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification Table A-11. Characterization Chart for Fixed Level with Varying Frequency (2 of 2) –2 dBm (MS2722C, MS2723C, MS2724C) –5 dBm (MS2725C, MS2726C) –30 dBm Frequency 23000 MHz 24000 MHz 25000 MHz 26000 MHz 27000 MHz...
  • Page 121 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 122 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 123 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 124 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 125 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 126 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 127 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 128 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 129 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 130 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 131 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 132 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 133 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 134 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 135 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 136 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 137 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 138 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 139 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 140 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 141 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 142 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 143 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 144 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ The listed Amplitude Accuracy specifications apply when the instrument is being verified in an environment between 20°C and 30°C after a 30 minute warm-up period. For an instrument that is not being verified in a temperature controlled environment, but within a temperature range between Note –10°C and 50°C (–10°C and 40°C for MS2726C only) and after a 60 minute warm-up, add ±...
  • Page 145 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Table A-59. Spectrum Analyzer Residual Spurious (Preamp Off) Start Freq Stop Freq Measured Values (Marker 1) Specification ≤...
  • Page 146 Appendix A — Test Records A-2 Test Records for Spectrum Analyzer Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Table A-60. Spectrum Analyzer Residual Spurious (Preamp On) Start Freq Stop Freq Measured Values (Marker 1) Specification ≤...
  • Page 147 A-2 Test Records for Spectrum Analyzer Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Table A-61. Spectrum Analyzer DANL (Preamp On) Frequency Measured dBm Calculated dBm 1 Hz Start / Stop (kHz) (kHz) (100 kHz RBW)

  • Page 148: Test Records For Options Verification

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Test Records for Options Verification Option 31 GPS Receiver Table A-64. Option 31, GPS Receiver Frequency Accuracy Frequency Measured Value Error...

  • Page 149: Option 40, Gsm/Gprs/Edge Rf Measurements (Continued

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 40, GSM/GPRS/EDGE RF Measurements (Continued) Table A-67. Option 40, At 1800 MHz, –10 dBm Level, TCH ALL Pattern (GSM) Measurement Measured Value Specification...
  • Page 150 Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 40, GSM/GPRS/EDGE RF Measurements (Continued) Table A-71. Option 40, At 850 MHz, –50 dBm Level, DL_MCS-9_4SLOT Pattern (EDGE) Measurement Measured Value Specification...

  • Page 151: Option 41, Gsm/Gprs/Edge Demodulator

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 41, GSM/GPRS/EDGE Demodulator Table A-73. Option 41, At 850 MHz, –10 dBm Level, TCH Pattern (GSM) Measurement Measured Value Specification...

  • Page 152: Option 41, Gsm/Gprs/Edge Demodulator (Continued

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 41, GSM/GPRS/EDGE Demodulator (Continued) Table A-79. Option 41, At 850 MHz, –50 dBm Level, DL_MCS-9_4SLOT Pattern (EDGE) Measurement Measured Value Specification...

  • Page 153: Option 42 Cdma Rf Measurements

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 42 CDMA RF Measurements Table A-81. Option 42, At 870.03 MHz, –30 dBm Level, cdmaOne Measurement Measured Value Specification...

  • Page 154: Option 43 Cdmaone And Cdma2000 1Xrtt Demodulator

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 43 cdmaOne and CDMA2000 1xRTT Demodulator Table A-85. Option 43, At 870.03 MHz, –30 dBm Level, cdmaOne Measurement Measured Value Specification...

  • Page 155: Option 44 And/Or 45 And/Or 65 Wcdma And Hsdpa Rf Measurements

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 44 and/or 45 and/or 65 WCDMA and HSDPA RF Measurements Table A-89. Option 44, Sensor A and Sensor B Readings, Components Characterization Δ...

  • Page 156: Option 44 And/Or 45 And/Or 65 Wcdma And Hsdpa Rf Measurements (Continued

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 44 and/or 45 and/or 65 WCDMA and HSDPA RF Measurements (Continued) Table A-93. Option 44, WCDMA RF Channel Power Accuracy Power Meter Measured RF RF Channel...
  • Page 157 A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 44 and/or 45 and/or 65 WCDMA and HSDPA RF Measurements (Continued) Table A-96. Option 44, HSDPA ACLR Accuracy Frequency/Offset Measured ACLR Calculated ACLR Error...

  • Page 158: Option 46 Fixed Wimax Rf Measurements

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 46 Fixed WiMAX RF Measurements Table A-99. Option 46, Fixed WiMAX Channel Power Accuracy Adjusted MG3700A Level Settings Frequency Input Power Setting Input Power Reading...

  • Page 159: Option 47 Fixed Wimax Demodulator

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 47 Fixed WiMAX Demodulator Table A-101. Option 47, Fixed WiMAX Residual EVM Frequency Power EVM (RMS) Specification –15 dBm ≤...

  • Page 160: Option 62, Evdo Rf Measurements

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 62, EVDO RF Measurements Table A-104. Option 62, At 870.03 MHz, –50 dBm Level, 921.6 kps 8PSK Modulation Measurement Measured Value Specification...

  • Page 161: Option 62, Evdo Rf Measurements (Continued

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 62, EVDO RF Measurements (Continued) Table A-108. Option 62, At 870.03 MHz, –10 dBm Level, Idle Slot Measurement Measured Value Specification...

  • Page 162: Option 63 Evdo Demodulator (Continued

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 63 EVDO Demodulator (Continued) Table A-111. Option 63, At 1930.05 MHz, –50 dBm Level, 2457.6 kps 16QAM Modulation Measurement Measured Value Specification...

  • Page 163: Option 66 Mobile Wimax Rf Measurements

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 66 Mobile WiMAX RF Measurements Channel Power Accuracy (10 MHz Bandwidth and 10 ms Frame Length) Table A-114.

  • Page 164: Option 66 Mobile Wimax Rf Measurements (Continued

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 66 Mobile WiMAX RF Measurements (Continued) Channel Power Accuracy (5 MHz Bandwidth and 5 ms Frame Length) Table A-118.

  • Page 165: Option 67 Mobile Wimax Demodulator

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 67 Mobile WiMAX Demodulator Table A-122. Option 67, Mobile WiMAX Residual EVM (10 MHz Bandwidth and 10 ms Frame Length) Frequency Power EVM (rms)

  • Page 166: Option 541 And Option 543 Lte Measurements

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 541 and Option 543 LTE Measurements Table A-126. Option 541 and Option 543, LTE Channel Power Accuracy Frequency Input Power Measured...

  • Page 167: Option 542 And Option 543, Lte Measurements

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 542 and Option 543, LTE Measurements Table A-127. Option 542, LTE Residual EVM and Frequency Accuracy Measurement Measured Value Specification...

  • Page 168: Option 551 And Option 543 Td-Lte Measurements

    Appendix A — Test Records A-3 Test Records for Options Verification MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 551 and Option 543 TD-LTE Measurements Table A-128. Option 551 and Option 543, TD-LTE Channel Power Accuracy Frequency Input Power Measured...

  • Page 169: Option 552 And Option 543, Td-Lte Measurements

    A-3 Test Records for Options Verification Appendix A — Test Records MS272__C Firmware Rev: ______________ Operator: ____________________ Date: ____________ Serial Number: _______________ Options: __________________________________________________ Option 552 and Option 543, TD-LTE Measurements Table A-129. Option 552, TD-LTE Residual EVM and Frequency Accuracy Measurement Measured Value Specification...
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