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Anritsu Cell Master MT821 E Series Maintenance Manual

Compact handheld base station analyzer

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Summary of Contents for Anritsu Cell Master MT821 E Series

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 2 MHz to 6 GHz Cable and Antenna Analyzer 9 kHz to 6 GHz Spectrum Analyzer 10 MHz to 6 GHz Power Meter Anritsu Company P/N: 10580-00255 490 Jarvis Drive Revision M Morgan Hill, CA 95037-2809 Published: August 2017 Copyright 2017 Anritsu Company http://www.anritsu.com...
Page 4 Contacting Anritsu ........
Page 5 Table of Contents (Continued) ISDB-T and BER Verification, Options 30 and 79........5-6 Introduction .
Page 6 Table of Contents (Continued) 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 ......5-70 8-PSK Modulation Channel Power, Frequency Error, Rho, and Tau Verification .
Page 7 Table of Contents (Continued) 7-13 Touch Screen Replacement ..........7-13 Chapter 8—Troubleshooting Introduction .
Page 8 Table of Contents (Continued) Test Records for Options Verification ......... . . A-15 Bias Tee Verification, Option 10 .
Page 9 Contents-6 PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 10 Appendix A-1 and use to record measured values. These test records form a record of the performance of the 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 11 1-4 Recommended Test Equipment General Information Recommended Test Equipment The following test equipment is recommended for use in testing and maintaining Anritsu Cell Master Models MT8212E and MT8213E. Table 1-1 is a list of test equipment that is required for verifying the spectrum analyzer functions.
Page 12 Instrument Critical Specification Manufacturer/Model Synthesized Signal Source Frequency: 0.1 Hz to 20 GHz Anritsu Model MG3692A or B with Power Output: +13 dBm options 2A, 4, 22, 15 Power Meter Power Range: –70 to +20 dBm Anritsu Dual Channel Model...
Page 13 Power Meter Power Range: –70 to + 20 dBm Anritsu Model ML2438A Power Sensor Frequency: 10 MHz to 18 GHz Anritsu Model MA2482D with Option 1 Power Range: –60 to +20 dBm (Quantity 2) Frequency Reference Frequency: 10 MHz Symmetricom Model RubiSource T&M Programmable Attenuator (Opt.
Page 14 Adapter (Opt. 44, 65, 881) Frequency: DC to 20 GHz N(m) Maury Microwave Model 8828B to N(m), 50 ohm Quantity: 2 each [One each required only if Anritsu Coupler and Circulator are used] Adapter Frequency: DC to 20 GHz K(m) Anritsu Model 34RKNF50...
Page 15 1-5 Replaceable Parts General Information Replaceable Parts Table 1-5. List of Replaceable Parts (1 of 2) Part Number Description ND70944<R> MT8212E MB/VNA/SPA PCB Assy , units without options 57/79 and s/n < 1147089 ND74530<R> MT8212E MB/VNA/SPA PCB Assy , with 20 MHz IF BW, units without options 57/79 and 1147088 <...
Page 16 General Information 1-5 Replaceable Parts Table 1-5. List of Replaceable Parts (2 of 2) Part Number Description ND73201 Battery Door 633-75 7500 mAH Li-Ion Battery Pack 3-513-100 RF In Connector and RF Out Connector 40-187-R AC to DC Power Converter 3-410-103 Encoder (excluding knob) 3-61360-2...
Page 17 1-5 Replaceable Parts General Information PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 18 Chapter 2 — Spectrum Analyzer Verification Introduction These tests verify that the Spectrum Analyzer of the MT821xE Cell Master is functional. The functional tests include: • “Frequency Accuracy Verification and Adjustment” on page 2-2 • “Single Side Band (SSB) Phase Noise Verification” on page 2-4 •...
Page 19 Do not connect the external 10 MHz Reference to the Cell Master. Caution 2. Turn On the 10 MHz Reference Standard and the Anritsu MG3692X Synthesized Signal Source. 3. Set the MG3692X output to 1 GHz CW, with an RF Output Level of –30 dBm.
Page 20 5.9 GHz ± 8.85 kHz (± 1.5 ppm) for the MT8213E only, and record in Table A-1. If the instrument fails the “Frequency Accuracy Verification and Adjustment” test, contact your local Note Anritsu Service Center (anritsu.com/contact-us). MT8212E and MT8213E MM PN: 10580-00255 Rev. M...
Page 21 1. Connect the 10 MHz reference source to the Anritsu MG3692X Synthesized Signal Source. 2. Turn On the 10 MHz reference source and the Anritsu MG3692X Synthesized Signal Source. 3. Set the MG3692X output to 1.00 GHz CW, with an RF output level of +0 dBm.
Page 22 Spectrum Analyzer Verification 2-3 Single Side Band (SSB) Phase Noise Verification 26. Repeat Step 23 through Step 25 for 100 kHz (set Span to 220 kHz) and 1 MHz offset (set Span to 2.04 MHz). Enter the test results and calculations in the appropriate rows of Table A-2.
Page 23 1. Connect the 10 MHz reference source to the Anritsu MG3692X Synthesized Signal Source. 2. Turn On the 10 MHz reference source and the Anritsu MG3692X Synthesized Signal Source. 3. Set the MG3692X output to 50.1 MHz CW, with an RF Output Level of –30 dBm.
Page 24 Spectrum Analyzer Verification 2-4 Spurious Response (Second Harmonic Distortion) Verification 26. Use the keypad to enter 100.2 and press the MHz submenu key. 27. Press the Shift key and then press the Trace (5) key. Then press the Trace A Operations submenu key. 28.
Page 25 • BNC male to BNC male Coaxial Cable Procedure 1. Connect the 10 MHz reference source to the Anritsu MG3692X Synthesized Signal Source and the MT821xE Cell Master. 2. Turn On the MG3692X, set the frequency to 1 GHz CW, and set the level to –30 dBm.
Page 26 • Anritsu MG3692X Synthesized Signal Source • 10 MHz Reference Standard • Anritsu ML2438A Dual Channel Power Meter • Anritsu MA2442D High Accuracy Power Sensors (2) • Anritsu 34NN50A 50 ohm Adapter • Anritsu 34RKNF50 50 ohm Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable •...
Page 27 2-6 Spectrum Analyzer Absolute Amplitude Accuracy Verification Spectrum Analyzer Verification Test Setup Components Characterization 1. Turn On the ML2438A Power Meter, the MG3692X Signal Source, and the MT821xE Cell Master. 2. On the power meter, press the Channel soft key, the Setup soft key, and then the Channel soft key to display Channel 2 Setup menu.
Page 28 Spectrum Analyzer Verification 2-6 Spectrum Analyzer Absolute Amplitude Accuracy Verification Measuring the Instrument for 50 MHz Amplitude Accuracy 1. Remove Sensor A, add the adapter, and connect it to the Spectrum Analyzer RF In connector of the MT821xE Cell Master as shown in Figure 2-2.
Page 29 2-6 Spectrum Analyzer Absolute Amplitude Accuracy Verification Spectrum Analyzer Verification 10. Press the Span submenu key, use the keypad to enter 10, and press the kHz submenu key. 11. Press the Amplitude main menu and then press the Reference Level submenu key. 12.
Page 30 Equipment Required • Anritsu MG3692X Synthesized Signal Source • Anritsu ML2438A Dual Channel Power Meter • Anritsu MA2442D High Accuracy Power Sensors (2) • 10 MHz Reference Standard • Anritsu 34NN50A 50 ohm Adapter • Anritsu 34RKNF50 50 ohm Adapter •...
Page 31 2-6 Spectrum Analyzer Absolute Amplitude Accuracy Verification Spectrum Analyzer Verification Test Setup Component Characterization 1. Connect both MA2442D power sensors to the power meter and calibrate the sensors. 2. Connect the equipment as shown in Figure 2-3. 10 MHz Reference Adapter MG3692x Synthesized Signal Generator 10 dB Fixed...
Page 32 Spectrum Analyzer Verification 2-6 Spectrum Analyzer Absolute Amplitude Accuracy Verification Setup ML2438A Power Meter 10 MHz Reference MA2442D Adapter Sensor B 1870A Power Splitter MG3692x Synthesized Signal Generator 10 dB Attenuator N(m) to N(m) Adaptor MT8212E CellMaster Enter Back Shift Mode System File...
Page 33 2-6 Spectrum Analyzer Absolute Amplitude Accuracy Verification Spectrum Analyzer Verification 8. Set the Attenuation Level to 15 dB. 9. Set the power meter to display Channel B. Press the Sensor key, the Cal Factor soft key, and then the Freq soft key. Use the keypad to enter the value matching the frequency of the MG3692x as the input signal frequency, which sets the power meter to the proper power sensor calibration factor.
Page 34 2-18. Residual Spurious Response Test with Preamp Off Equipment Required • Anritsu 28N50-2 50 ohm Termination Procedure 1. Connect the 50 ohm Termination to the MT821xE Spectrum Analyzer RF In connector. 2. Press the On/Off key to turn On the MT821xE Cell Master.
Page 35 Residual Spurious Response Test with Preamp On Equipment Required • Anritsu 28N50-2 50 ohm Termination Procedure 1. Connect the 50 ohm Termination to the MT821xE Spectrum Analyzer RF In connector. 2. Press the On/Off key to turn On the MT821xE Cell Master.
Page 36 The following test is used to verify the Displayed Average Noise Level (DANL) of the spectrum analyzer systems in the MT821xE Cell Master. This test is performed using the RMS detection mode. Equipment Required • Anritsu 28N50-2 50 ohm Termination Procedure 1. Connect the 50 ohm Termination to the MT821xE Spectrum Analyzer RF In connector.
Page 37 2-8 Displayed Average Noise Level (DANL) Spectrum Analyzer Verification 22. For each measured 100 kHz RBW value in the test record, convert it to 1 Hz RBW value by subtracting 50 dB. For example: –100 dBm – 50 dB = –150 dBm For example, if the marker shows a value of –100 dBm at 100 kHz RBW, then the calculated value at 1 Hz RBW is –150 dBm.
Page 38 The following test verifies the Third Order Intercept point (also known as TOI or IP3) of the Spectrum Analyzer in the MT821xE Equipment Required • Anritsu MG3692x Synthesizer (Quantity 2) • Anritsu ML2438A Power Meter • Anritsu MA2442D Power Sensor •...
Page 39 2-9 Third Order Intercept (TOI) Verification Spectrum Analyzer Verification 19. Choose the larger of the two values from Step 16 Step 18 and put this value into the following equation as the “max” variable: TOI = - 20 + [(- 20 - max) / 2] dBm 20.
Page 40 Antenna Analyzer mode. Equipment Required • Frequency Counter, Anritsu Model MF2412B • RF Coaxial Cable, Anritsu Model 15NNF50-1.5C Procedure 1. Verify that the MT821xE is in Cable and Antenna Analyzer mode and preset the instrument. 2. Verify that no external 10 MHz reference is connected to the MT821xE.
Page 41 Equipment Required • Open/Short, Anritsu Model 22N50 • Termination, Anritsu Model 28N50-2 • 6 dB Offset Termination, Anritsu Model SC7424 • 20 dB Offset Termination, Anritsu Model SC7423 Procedure 1. Verify that the MT821xE is in Cable and Antenna Analyzer mode and preset the instrument.
Page 42 Equipment Required • Anritsu MG3692X Synthesized Signal Source • Anritsu ML2438A Dual Channel Power Meter • Anritsu MA2442D High Accuracy Power Sensors (2) • 10 MHz Reference Standard • Anritsu 34NN50A 50 ohm Adapter • Anritsu 34RKNF50 50 ohm Adapter •...
Page 43 4-1 Power Meter Level Accuracy Power Meter Verification Procedure Component Characterization: 1. Connect both MA2442D power sensors to the power meter and calibrate the sensors. 2. Connect the model 1870A power splitter to the MG3692A/B output, and connect Sensor B to one power splitter output as shown in Figure 4-1 on page 4-1.
Page 44 Power Meter Verification 4-1 Power Meter Level Accuracy Power Meter Measurement Accuracy Procedure 1. Connect the equipment as shown in Figure 4-2. ML2438A Power Meter 10 MHz Reference MA2442D Adapter Sensor B 1870A Power Splitter MG3692x Synthesized Signal Generator 10 dB Attenuator N(m) to N(m) Adaptor MT8212E CellMaster...
Page 45 4-1 Power Meter Level Accuracy Power Meter Verification PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 46 Chapter 5 — Option Verification Introduction This chapter describes the verification process for options that are available for the MT821xE Cell Master. The option verification tests are: • “Bias Tee Verification, Option 10” on page 5-2 • “System Dynamic Range Verification, Option 21” on page 5-5 •...
Page 47 • Anritsu T3377 105 ohm Load Procedure 1. Connect the external power supply (Anritsu PN 40-187-R) to the MT821xE Cell Master. 2. Press the On/Off key to turn On the MT821xE. 3. Set the MT821xE to Cable and Antenna Analyzer mode and preset the instrument.
Page 48 A-18. Verify that the voltage and current readings are within the specifications. 5. Press the Bias Tee On/Off submenu key to turn Off the Bias Tee. Disconnect the Anritsu T2904 40 ohm load and connect the Anritsu T3536 78 ohm load to the RF In port.
Page 49 • Anritsu T2904 40 ohm Load Procedure 1. Connect the external power supply (Anritsu PN 40-187-R) to the MT821xE Cell Master. 2. Press the On/Off key to turn On the MT821xE. 3. Set the MT821xE to Cable and Antenna Analyzer mode and preset the instrument.
Page 50 Equipment Required • Termination, Anritsu Model 28N50-2 • Termination, Anritsu Model 28NF50-2 • RF Coaxial Cable, Anritsu Model 15NN50-1.5C Procedure 1. Verify that the MT821xE is in Transmission Measurement mode and preset the instrument. 2. Press the Shift key, then press the Sweep (3) key.
Page 51 • Anritsu MA2482D Power Sensors (2) • Anritsu 1N50C RF Limiter • Anritsu 34NN50A Adapter • Anritsu 15NNF50-1.5C RF Coaxial Cables (3) • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator • Mini-Circuits TIA-1000-1R8 RF Power Amplifier •...
Page 52 Option Verification 5-4 ISDB-T and BER Verification, Options 30 and 79 Frequency Accuracy Verification The test in this section can be used to verify the frequency accuracy of the MT821xE in ISDB-T Signal Analyzer mode. Setup 10 MHz Reference Function Cursor/Edit MG3700 Vector Signal...
Page 53 5-4 ISDB-T and BER Verification, Options 30 and 79 Option Verification 11. Using the Down Arrow key, step through the selection list until the “Digital_Broadcast” option is highlighted. 12. Press the Set key. 13. Using the Down Arrow key, step through the selection list until the “ISDB-T_1layer_1ch” option is highlighted.
Page 54 Option Verification 5-4 ISDB-T and BER Verification, Options 30 and 79 Procedure 1. Connect the equipment as shown in Figure 5-1 on page 5-7. 2. Preset the MG3700A. 3. Load the “ISDB-T_1layer_1ch” pattern on the MG3700A. Refer to “Frequency Accuracy Verification” on page 5-7 if needing help on loading patterns.
Page 55 5-4 ISDB-T and BER Verification, Options 30 and 79 Option Verification Level Accuracy Verification The tests in this section verify the level accuracy of the MT821xE in ISDB-T Signal Analyzer mode. Setup RF Power Amplifier Function Cursor/Edit MG3700 MN63A Vector Signal Generator 250kHz-6GHz RF Output...
Page 56 Option Verification 5-4 ISDB-T and BER Verification, Options 30 and 79 11. On the MG3700A, adjust the power level so that the Power Meter Sensor A reading is –10.0 dBm ± 0.2 dB. 12. Record Power Meter Sensor A reading and Sensor B reading in Table A-22.
Page 57 5-4 ISDB-T and BER Verification, Options 30 and 79 Option Verification 24. After Average (50/50) appears at the top of the display, record the Channel Power from the MT821xE into the M(Level) column under Pre Amp Off in Table A-24. 25.
Page 58 Option Verification 5-4 ISDB-T and BER Verification, Options 30 and 79 49. Subtract Sensor A reading from Sensor B reading and record the result in the ΔAB(QP50) column of Table A-23. 50. Calculate the AT(set) values for test levels –55 dBm through –84 dBm and record the values into the AT(set) column in Table A-24.
Page 59 5-4 ISDB-T and BER Verification, Options 30 and 79 Option Verification 5. Set the mode of the MT821xE to ISDB-T Signal Analyzer and preset the instrument. 6. Press the Frequency/Level main menu key and confirm that the instrument is set to Channel 13. Change the Reference Level to –10 dBm and ensure that the Pre Amp is Off.
Page 60 Option 79 in the Cell Master ISDB-T Analyzer. Equipment Required: • Anritsu MG3700A Vector Signal Generator • RF Coaxial Cable, Anritsu Model 15NN50-1.5C Procedure: 1. Turn On the MG3700A and the Cell Master. 2. Connect the MG3700A Signal Generator and Cell Master as shown in Figure 5-1 on page 5-7.
Page 61 5-4 ISDB-T and BER Verification, Options 30 and 79 Option Verification 32. Press the Meas Selection main menu key, then press BER. Press the Stop Measurement main menu key. 33. To verify option 79 is functional, press the Start Measurement main menu key and verify the Signal Sync turns from Unlocked to Locked.
Page 62 1. Connect the GPS antenna to the GPS Antenna connector on the MT821xE. On the MT821xE, change the mode to Spectrum Analyzer and preset the instrument. If a fixed GPS antenna is not available, then the Anritsu 2000-1528-R GPS antenna can be used for this test.
Page 63 5-5 GPS Verification, Option 31 Option Verification 14. Press the VBW submenu key and set to 30 Hz. 15. Press the Marker key, and press the Peak Search submenu key. 16. Note the Reference Source value and use the appropriate table row to record the data in the following steps.
Page 64 • Anritsu MA2482D Power Sensors (2) • Anritsu 1N50C RF Limiter • Anritsu 34NN50A Adapter • Anritsu 15NNF50-1.5C RF Coaxial Cables (3) • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator • Mini-Circuits TIA-1000-1R8 RF Power Amplifier •...
Page 65 5-6 ISDB-T SFN Verification, Option 32 Option Verification Level Accuracy Verification The tests in this section verify the level accuracy of the MT821xE in ISDB-T SFN Signal Analyzer mode. Setup RF Power Amplifier Function Cursor/Edit MG3700 MN63A Vector Signal Generator 250kHz-6GHz RF Output Ethernet...
Page 66 Option Verification 5-6 ISDB-T SFN Verification, Option 32 9. Using the Down Arrow key, step through the selection list until the “Digital_Broadcast” option is highlighted. 10. Press the Set key. 11. Press the F6 (Return) soft key. 12. Press the Set key. 13.
Page 67 5-6 ISDB-T SFN Verification, Option 32 Option Verification RF Power Amplifier Function Cursor/Edit MG3700 MN63A Vector Signal Generator 250kHz-6GHz RF Output Ethernet Control Input Modulation Input 44-10 MG3700A 1N50C From: MG3700A 10 MHz Out To: MT821xE Ext Trigger In MA2482D Sensor B 34NN50A 1870A...
Page 68 Option Verification 5-6 ISDB-T SFN Verification, Option 32 46. After the Measuring percentage gets to 100%, record the –20 dBm Channel Power from the MT821xE into the M(Level) column under Pre Amp On in Table A-32. 47. Calculate the Deviation using the following formula: Deviation = M(Level) –...
Page 69 5-6 ISDB-T SFN Verification, Option 32 Option Verification Displayed Average Noise Level (DANL) Verification The tests in this section verify the DANL of the MT821xE in ISDB-T SFN Signal Analyzer mode. Procedure 1. Set the mode of the MT821xE to ISDB-T SFN Signal Analyzer and preset the instrument. 2.
Page 70 • Anritsu MA2482D Power Sensor • Anritsu 34NN50A Adapter (2) • Anritsu 15NNF50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard MT8212E and MT8213E MM PN: 10580-00255 Rev. M...
Page 71 5-7 GSM/GPRS/EDGE Signal Analyzer Verification, Options 40/41/880 Option Verification Setup 10 MHz Reference ML2438A Power Meter Function Cursor/Edit MA2482D MG3700 Vector Signal Generator 250kHz-6GHz Power Sensor RF Output 1870A Ethernet Control Input Modulation Input Power Splitter MG3700A Vector Signal Generator MT8212E CellMaster Enter...
Page 72 Option Verification 5-7 GSM/GPRS/EDGE Signal Analyzer Verification, Options 40/41/880 10. Press the (F1) soft key again to select Select Package. 11. Using the Down Arrow key, step through the selection list until the “GSM” option is highlighted. 12. Press the Set key. 13.
Page 73 5-7 GSM/GPRS/EDGE Signal Analyzer Verification, Options 40/41/880 Option Verification 35. For an MT821xE with Option 41 or 880 (GSM/GPRS/EDGE Demodulator), record the displayed Phase Err RMS (deg) in section At 1800 MHz, –10 dBm Level, TCH ALL Pattern in Table A-39.
Page 74 • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard Procedure 1. Confirm that the equipment settings are unchanged from the previous test. Refer to...
Page 75 5-7 GSM/GPRS/EDGE Signal Analyzer Verification, Options 40/41/880 Option Verification 16. For an MT821xE with Option 40 or 880 (GSM/GPRS/EDGE RF Measurements), take the displayed Burst Power value and subtract an offset of 3 dB. Then subtract this value from the power meter reading Step 14.
Page 76 Option Verification 5-8 CDMA Signal Analyzer Verification, Options 42/43/884 CDMA Signal Analyzer Verification, Options 42/43/884 The tests in this section verify the optional CDMA Signal Analyzer functions in Anritsu Model MT821xE Cell Master. The tests are as follows: • “cdmaOne Channel Power, Frequency Error, Rho, and Tau Verification (Option 42/43/884)”...
Page 77 5-8 CDMA Signal Analyzer Verification, Options 42/43/884 Option Verification Setup 10 MHz Reference ML2438A Power Meter Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz MA2482D Adapter RF Output Power Sensor Ethernet Control Input Modulation Input 1870A MG3700A Vector Signal Generator Power Splitter From: VSG AUX Input/Ouput Connector 1 N(m) to N(m) Adaptor To: MT821xE Ext Trigger In...
Page 78 Option Verification 5-8 CDMA Signal Analyzer Verification, Options 42/43/884 11. Press the Set key. 12. Press the F6 (Return) soft key. 13. Press the Set key. The Select Package box appears. Use the rotary knob to highlight “CDMA2000” and press the Set key to select. 14.
Page 79 • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard Procedure 1. Confirm that the equipment settings are unchanged from the previous test. Refer to...
Page 80 Option Verification 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, The tests in this section verify the optional WCDMA Signal Analyzer functions in Anritsu Model MT821xE Cell Master. The tests are as follows • “WCDMA Absolute Power Accuracy Verification (Option 44/881)”...
Page 81 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Option 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 Circulator High Power Load MN63A Coupler MA2482D MA2482D Sensor A Sensor B Figure 5-8.
Page 82 Option Verification 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, 9. Press the Set key. Note The MG3700A has two Set keys, and they both have the same function. 10. Press the (F1) soft key to select Load File to Memory. 11.
Page 83 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Option Verification ML2438A Power Meter RF Power Amplifier Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz RF Output Ethernet Control Input Modulation Input MG3700A Circulator High Power Load MN63A Coupler MA2482D Sensor B MA2482D MT8212E CellMaster Sensor A...
Page 84 Option Verification 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, 42. Record the calculated value in the Error column of the +10 dBm row of Table A-44 and verify that it’s within specification. 43. Turn Off the RF output of the MG3700A. 44.
Page 85 • Anritsu MA2482D Power Sensor • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • Aeroflex/Weinschel Model 44-10 Attenuator (2) • 10 MHz Reference Standard 5-40 PN: 10580-00255 Rev. M...
Page 86 Option Verification 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Setup ML2438A Power Meter 10 MHz Reference Function Cursor/Edit MG3700 Sensor Vector Signal Generator 250kHz-6GHz RF Output 10 dB Ethernet Control Input Modulation Input Attenuator 1870A MG3700A Vector Signal Generator Power Splitter 10 dB Attenuator 34NN50A Adapter...
Page 87 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Option Verification 9. Press the Set key. Note The MG3700A has two Set keys, and they both have the same function. 10. Press the (F1) soft key to select Load File to Memory. 11.
Page 88 • Anritsu MA2482D Power Sensor • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • Aeroflex/Weinschel Model 44-10 Attenuator (2) • 10 MHz Reference Standard Procedure 1. Turn On the MG3700A Vector Signal Generator and the ML2438A power meter.
Page 89 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Option Verification 21. Use the knob to adjust the power meter to read –20 dBm, and record the Power Meter reading in the Power Meter Reading column of Table A-46, “Option 44/881, WCDMA RF Channel Power Accuracy” on page A-35.
Page 90 • Anritsu MA2482D Power Sensor • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • Aeroflex/Weinschel Model 44-10 Attenuator (2) • 10 MHz Reference Standard Procedure 1. Turn On the MG3700A Vector Signal Generator and the ML2438A power meter.
Page 91 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Option Verification 21. Use the knob to adjust the power meter to read –20 dBm and record the Power Meter reading in the Power Meter Reading column of Table A-47, “Option 44/881, HSDPA RF Channel Power Accuracy” on page A-36.
Page 92 • Anritsu MA2482D Power Sensor • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Anritsu PN 2000-1627-R Coaxial Cables (2) • Aeroflex/Weinschel Model 44-10 Attenuator (2) • 10 MHz Reference Standard Procedure 1. Turn On the MG3700A Vector Signal Generator and the ML2438A power meter.
Page 93 5-9 WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Option Verification 21. Use the knob to adjust the power meter to read –20 dBm. 22. On the MT821xE, press the Center Frequency submenu key, enter 1962.5, and then press the MHz submenu key. 23.
Page 94 • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator (2) • Anritsu PN 2000-1627-R Coaxial Cables (3) • 10 MHz Reference Standard MT8212E and MT8213E MM PN: 10580-00255 Rev. M...
Page 95 5-10 Fixed WiMAX Signal Analyzer Verification, Options 46/47/885 Option Verification Setup 10 MHz Reference ML2438A Power Meter MA2482D Power Sensor Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz 10 dB Attenuator RF Output Ethernet Control Input Modulation Input 1870A Power Splitter MG3700A Vector Signal Generator 10 dB Attenuator From: VSG AUX Input/Ouput Connector 1...
Page 96 Option Verification 5-10 Fixed WiMAX Signal Analyzer Verification, Options 46/47/885 k. Press the MOD On/Off key and verify that the LED is On. Confirm that the “Playing” indicator is displaying the moving pattern. l. Press the Frequency key, then enter 2600.5 MHz. m.
Page 97 • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator (2) • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard Procedure 1. Connect the MA2482D Power Sensor to the power meter and zero the sensor.
Page 98 Option Verification 5-10 Fixed WiMAX Signal Analyzer Verification, Options 46/47/885 8. Record the MT821xE EVM(rms) reading in Table A-51, “Option 47/885, Fixed WiMAX Residual EVM” on page A-38. 9. Verify that the measured EVM is within specification. 10. Adjust the MG3700A level setting to approximately –33 dBm so that the power meter reads –50.0 dBm ±...
Page 99 Equipment Required • Anritsu MP1570A Sonet Analyzer with MP0121A and MP0122A modules • Anritsu PN 806-16 Cable T1 Bantam Plug to Bantam Plug (Quantity 2) • LeCroy Model WaveRunner 62Xi Digital Oscilloscope with ET-PMT Electrical Telecom Mask software and TF-ET Telecom Adapter Set •...
Page 100 Option Verification 5-11 T1 Analyzer Verification, Option 51 T1 Clock Frequency Test Verification This test will verify that the internal signal is being clocked at the correct frequency and also verify that the clock recovery circuit can generate the correct frequency. Procedure 1.
Page 101 5-11 T1 Analyzer Verification, Option 51 Option Verification 8. On the MT821xE, press the Configuration main menu key near the bottom-left corner of the display and verify that Tx Clock is set to Internal, Line Code is set to B8ZS, and Framing is set to ESF. Then set Tx LBO to 0 dB and Pattern to PRBS-15.
Page 102 Option Verification 5-11 T1 Analyzer Verification, Option 51 15. Disconnect the bantam cable from the Oscilloscope and connect it to the Rx port on the MT821xE. 16. On the MT821xE, press the Measurements main menu key and press Rx Signal. 17.
Page 103 Equipment Required • Anritsu MP1570A Sonet Analyzer with MP0121A and MP0122A modules • Anritsu PN 3-806-169 Cable 75 ohm BNC(m) to BNC(m) (Quantity 2) • Anritsu PN 2000-1627-R Coaxial Cable • Anritsu PN 806-117 Cable RJ48 to dual Bantam •...
Page 104 Option Verification 5-12 E1 Analyzer Verification, Option 52 2. Set up the MP1570A as follows: • Set Mapping to Tx&Rx • Set Config. to SDH/PDH • Set Bit Rate to 2M • Set Frame to ON • Set Channel to 30ch •...
Page 105 5-12 E1 Analyzer Verification, Option 52 Option Verification E1 Transmit Level Test Verification The tests in this section verify the transmit level of the E1 signal from the MT821xE in E1 Analyzer mode. Procedure BNC (75 ohm unbalanced [Single End]) Interface Check: 1.
Page 106 Option Verification 5-12 E1 Analyzer Verification, Option 52 25. Verify that the measured peak-to-peak voltage is between 5.4 volts and 6.6 volts. 26. On the T3450 Test Fixture, disconnect the Bantam plug end of the cable from the Oscilloscope. 27. Connect the Receive Bantam plug of the Bantam “Y” Plug of the RJ48 cable to the open jack of the T3450 Test Fixture.
Page 107 Equipment Required • Anritsu MP1570A Sonet Analyzer with MP0121A and MP0122A modules • Anritsu PN 806-16 Cable T1 Bantam Plug to Bantam Plug (Quantity 2) • LeCroy Model WaveRunner 62Xi Digital Oscilloscope with ET-PMT Electrical Telecom Mask software and TF-ET Telecom Adapter Set •...
Page 108 Option Verification 5-13 T1/T3 Analyzer Verification, Option 53 T1 Clock Frequency Test Verification This test will verify that the internal signal is being clocked at the correct frequency and verify that the clock recovery circuit can generate the correct frequency. Procedure 1.
Page 109 5-13 T1/T3 Analyzer Verification, Option 53 Option Verification 4. Set up the MP1570A as follows: • Mapping set to Tx&Rx • Configuration set to SDH/PDH • Meas. Mode set to Out_of_service • Bit Rate set to 1.5M • MUX/DEMUX: set to OFF (not present on all units). •...
Page 110 Option Verification 5-13 T1/T3 Analyzer Verification, Option 53 T1 Transmit Level Test Verification The tests in this section verify the transmit level of the T1 signal from the MT821xE in T1/T3 Analyzer mode. Procedure 1. Install the LeCroy AP100 100 ohm Telecom Adapter to the Channel 1 input of the LeCroy Oscilloscope. 2.
Page 111 5-13 T1/T3 Analyzer Verification, Option 53 Option Verification T3 Clock Frequency Test Verification This test will verify that the internal signal is being clocked at the correct frequency and verify that the clock recovery circuit can generate the correct frequency. Procedure 1.
Page 112 Option Verification 5-13 T1/T3 Analyzer Verification, Option 53 T3 Transmit Level Test Verification The tests in this section verify the transmit level of the T3 signal from the MT8221B in T1/T3 Analyzer mode. Procedure 1. Preset the MT821xE. Press the Configuration main menu key, highlight Test Mode, and press the DS3 soft key.
Page 113 • Anritsu MA2482D Power Sensor • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator (2) • Anritsu PN 2000-1627-R Coaxial Cables (3) • 10 MHz Reference Standard Setup 10 MHz Reference...
Page 114 Option Verification 5-14 TD-SCDMA Signal Analyzer Verification, Options 60/61/882 Procedure Note The TD-SCDMA pattern requires a Waveform Data license MX370001A, which must be purchased. 1. Calibrate the power sensor prior to connecting to the power splitter. 2. Connect the equipment as shown in Figure 5-12.
Page 115 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 Option Verification 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 The tests in this section verify the optional EVDO Signal Analyzer functions in Anritsu Model MT821xE Cell Master. The tests are as follows: •...
Page 116 Option Verification 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 Setup 10 MHz Reference ML2438A Power Meter Cursor/Edit Function MG3700 Vector Signal Generator 250kHz-6GHz MA2482D RF Output Power Sensor Ethernet Control Input Modulation Input MG3700A Vector Signal Generator 1870A Power Splitter From: VSG AUX Input/Ouput Connector 1 N(m) to N(m) Adaptor To: MT821xE Ext Trigger In...
Page 117 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 Option Verification 8. Press the (F1) soft key to select Load File to Memory. 9. Press the (F1) soft key again to select Select Package. 10. Using the Down Arrow key, step through the selection list until the CDMA2000_1xEV-DO option is highlighted.
Page 118 Option Verification 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 7. For an MT821xE with Option 62 or 884 (EVDO RF Measurements), subtract the displayed Channel Power value from the power meter reading in Step 5. Then record the calculated Channel Power error to the At 1930.05 MHz, 0 dBm Level, 38.4kps QPSK Modulation section of Table A-66 on page A-43.
Page 119 5-15 EVDO Signal Analyzer Verification, Options 62/63/884 Option Verification Idle Slot Channel Power, Frequency Error, Rho, and Tau Verification, Options 62/63/884 The tests in this section verify the function of the optional EVDO Signal Analyzer in Model MT821xE Cell Master. Procedure 1.
Page 120 “BER Measurement Functional Check, Option 57 Only” on page 5-85 Equipment Required • Anritsu MG3700A Vector Signal Generator • Anritsu 15NN50-1.5C RF Coaxial Cable • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard MT8212E and MT8213E MM PN: 10580-00255 Rev. M...
Page 121 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 Option Verification Frequency Accuracy and Residual MER Verification The tests in this section verify the frequency accuracy and residual modulation error ratio (MER) of the Cell Master in DVB-T/H Signal Analyzer mode. 10 MHz Reference Function Cursor/Edit...
Page 122 Option Verification 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 14. Press the Set key. 15. Set the Level to –20 dBm. 16. Set the Frequency to 470 MHz. 17. Press the Baseband key and then the More key. 18. Press the F5 soft key labeled Pattern Combination [Defined]. 19.
Page 123 • RF Coaxial Cable, Anritsu Model 15NN50-1.5C • Anritsu PN 2000-1627-R Coaxial Cables (2) Procedure: 1. Connect the 10 MHz Frequency Reference source to the Anritsu MG3700A and Cell Master as shown in Figure 5-14 on page 5-76. 2. On the MG3700A, press the yellow Preset key located on the upper-left side of the instrument.
Page 124 • Power Sensor, Anritsu Model MA2482D (2) • Power Splitter, Aeroflex/Weinschel Model 1870A • Fixed Attenuator, Aeroflex/Weinschel Model 44-10 • RF Coaxial Cable, Anritsu Model 15NN50-1.5C (3) • Adapter, Anritsu Model 34NN50A • Midwest Microwave ADT-2615-NF-BNM-02 Adapters (2) • Anritsu 1N50C RF Limiter •...
Page 125 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 Option Verification RF Power Amplifier Function Cursor/Edit MG3700 MN63A Vector Signal Generator 250kHz-6GHz RF Output Ethernet Control Input Modulation Input 44-10 MG3700A 1N50C MA2482D MA2482D Sensor A Sensor B 1870A Power Splitter ML2438A Power Meter Figure 5-15.
Page 126 Option Verification 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 14. Use the Down Arrow key to step through the selection list until the DVB-T_H_00 option is highlighted. 15. Press the Set key. 16. Perform a Zero/Cal on Sensor A and Sensor B on the power meter. Set the calibration factor of both sensors to 474 MHz.
Page 127 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 Option Verification RF Power Amplifier Function Cursor/Edit MG3700 MN63A Vector Signal Generator 250kHz-6GHz RF Output Ethernet Control Input Modulation Input 44-10 MG3700A 1N50C From: MG3700A 10 MHz Out To: MT821xE Ext Trigger In MA2482D Sensor B 34NN50A...
Page 128 Option Verification 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 36. Record the result in the “Pre Amp Off Dev (dB)” column in Table A-75 on page A-47, and verify that it’s within specification. 37. Set the MN63A attenuation to the next AT(set) value in Table A-75.
Page 129 Displayed Average Noise Level (DANL) Verification The tests in this section verify the DANL of the Cell Master in DVB-T/H Signal Analyzer mode. Equipment Required: • 50 ohm termination, Anritsu Model 28N50-2 • Cell Master MT821xE Procedure: 1. Set the mode of the Cell Master to DVB-T/H Analyzer and preset the instrument.
Page 130 • Power Splitter, Aeroflex/Weinschel Model 1870A • Power Sensor, Anritsu Model MA2482D • Adapter, Anritsu Model 34NN50A • RF Coaxial Cable, Anritsu Model 15NN50-1.5C • RF Coaxial Cable, BNC-to-BNC, 75 ohm, Anritsu Model 3-806-169 MT8212E and MT8213E MM PN: 10580-00255 Rev. M 5-85...
Page 131 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 Option Verification Setup MP8931A MP8931A ML2438A Power Meter MA2482D Power 15NNF50-1.5B Sensor MG3700A Cursor/Edit Function MG3700 Vector Signal Generator 250kHz-6GHz RF Output Power Ethernet Control Input Modulation Input Splitter 1870A N(m) to Adapter N(m) Adapter MT8212E...
Page 132 Option Verification 5-16 DVB-T/H Signal Analyzer Verification, Options 64/57 4. On the MP8931A, press the Menu key. 5. Press the Down Arrow key until the triangle pointer is at System* on the display. 6. Press the Right Arrow key so that Initialize appears in the display. 7.
Page 133 • Anritsu MA2482D Power Sensors (2) • Anritsu 34NN50A Adapter • Anritsu 15NNF50-1.5C RF Coaxial Cables • Aeroflex/Weinschel 1870A Power Splitter • Anritsu 28N50-2 50 ohm Terminator • Anritsu PN 2000-1627-R Coaxial Cables (2) 5-88 PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 134 Option Verification 5-17 DVB-T/H SFN Verification, Option 78 Level Accuracy Verification The tests in this section verify the level accuracy of the MT821xE in DVB-T/H SFN Signal Analyzer mode. Setup 10 MHz Reference ML2438A Power Meter Function Cursor/Edit MA2482D MG3700 Vector Signal Generator 250kHz-6GHz...
Page 135 5-17 DVB-T/H SFN Verification, Option 78 Option Verification 10. Press the F6 (Return) soft key. 11. Press the Set key. 12. Using the Down Arrow key, step through the selection list until the “Digital_Broadcast” option is highlighted. 13. Press the Set key. 14.
Page 136 Option Verification 5-17 DVB-T/H SFN Verification, Option 78 Displayed Average Noise Level (DANL) Verification The tests in this section verify the DANL of the MT821xE in DVB-T/H SFN Signal Analyzer mode. Procedure 1. Set the mode of the MT821xE to DVB-T/H SFN Signal Analyzer and preset the instrument. 2.
Page 137 • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator (2) • 10 MHz Reference Standard • Anritsu PN 2000-1627-R Coaxial Cables (2) 5-92 PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 138 Option Verification 5-18 Mobile WiMAX Signal Analyzer Verification, Options 66/67/885 Setup ML2438A Power Meter 10 MHz Reference MA2482D Power Sensor Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz 10 dB Attenuator RF Output 1870A Ethernet Control Input Modulation Input Power Splitter MG3700A Vector Signal Generator 10 dB Attenuator 34NN50A Adaptor...
Page 139 5-18 Mobile WiMAX Signal Analyzer Verification, Options 66/67/885 Option Verification e. Using the Down Arrow key, step through the selection list until “mWiMax” is highlighted. f. Press the Set key. g. Press the F6 (Return) soft key. h. Press the Set key. The Select Package list box appears. Again select mWiMax and press Set. i.
Page 140 Option Verification 5-18 Mobile WiMAX Signal Analyzer Verification, Options 66/67/885 e. Using the Down Arrow key, step through the selection list until mWiMax is highlighted. f. Press the Set key. g. Press the F6 (Return) soft key. h. Press the Set key. The Select Package list box appears. Again select mWiMax and press Set. i.
Page 141 The tests in this section verify the function of the optional Mobile WiMAX Signal Analyzer in Model MT821xE Cell Master. Equipment Required • Anritsu MG3700A Vector Signal Generator • Anritsu 15NN50-1.5C RF Coaxial Cable • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard Setup 10 MHz Reference...
Page 142 Option Verification 5-18 Mobile WiMAX Signal Analyzer Verification, Options 66/67/885 k. Press the MOD On/Off key and verify that the LED is On. Confirm that the “playing” indicator is displaying the moving pattern. l. Press the Frequency key, then enter 2600.5 MHz. m.
Page 143 5-18 Mobile WiMAX Signal Analyzer Verification, Options 66/67/885 Option Verification Residual EVM and Frequency Error (5 MHz Bandwidth and 5 ms Frame Length) 19. Set the MG3700A as follows: a. Press the yellow Preset button (answer Yes to the question). b.
Page 144 • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator (2) • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard MT8212E and MT8213E MM PN: 10580-00255 Rev. M...
Page 145 5-19 LTE Signal Analyzer Verification, Options 541/542/883 Option Verification Procedure 10 MHz ML2438A Power Meter Reference MA2482D Power Sensor Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz 10 dB Attenuator RF Output 1870A Ethernet Control Input Modulation Input Power Splitter MG3700A Vector Signal Generator 10 dB Attenuator 34NN50A Adapter MT8212E...
Page 146 Option Verification 5-19 LTE Signal Analyzer Verification, Options 541/542/883 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. Press the (F1) soft key to select Load File to Memory. d.
Page 147 5-19 LTE Signal Analyzer Verification, Options 541/542/883 Option Verification 21. For units with 20 MHz IF BW Available, which can be seen within the System Status window, repeat Step 3 through Step 20 using the 20 MHz pattern, E-TM_1-1_20M. LTE Frequency Error Tests (Option 542/883) The tests in this section verify the function of the optional LTE Signal Analyzer in Model MT821xE Cell Master.
Page 148 Option Verification 5-19 LTE Signal Analyzer Verification, Options 541/542/883 11. Adjust the MG3700A level setting to approximately –33 dBm so that the power meter reads –50.0 dBm ± 0.5 dB. 12. Record the MT821xE Frequency Error reading into the 750 MHz, –50 dBm section of Table A-92.
Page 149 • Anritsu 34NN50A Adapter • Anritsu 15NN50-1.5C RF Coaxial Cable • Aeroflex/Weinschel 1870A Power Splitter • Aeroflex/Weinschel 44-10 10 dB Fixed Attenuator (2) • Anritsu PN 2000-1627-R Coaxial Cables (2) • 10 MHz Reference Standard 5-104 PN: 10580-00255 Rev. M...
Page 150 Option Verification 5-20 TD-LTE Signal Analyzer Verification, Options 551/552/883 Procedure 10 MHz ML2438A Power Meter Reference MA2482D Power Sensor Function Cursor/Edit MG3700 Vector Signal Generator 250kHz-6GHz 10 dB Attenuator RF Output 1870A Ethernet Control Input Modulation Input Power Splitter MG3700A Vector Signal Generator 10 dB Attenuator 34NN50A Adapter MT8212E...
Page 151 5-20 TD-LTE Signal Analyzer Verification, Options 551/552/883 Option Verification 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. Press the (F1) soft key to select Load File to Memory. d.
Page 152 Option Verification 5-20 TD-LTE Signal Analyzer Verification, Options 551/552/883 21. For units with 20 MHz IF BW Available, which can be seen within the System Status window, repeat Step 3 throughStep 20 using the 20 MHz pattern, TDLTE-E-TM_1-1_20M. TD-LTE Frequency Error Tests (Option 552/883) The tests in this section verify the function of the optional TD-LTE Signal Analyzer in Model MT821xE Cell Master.
Page 153 5-20 TD-LTE Signal Analyzer Verification, Options 551/552/883 Option Verification 11. Adjust the MG3700A level setting to approximately –33 dBm so that the power meter reads –50.0 dBm ± 0.5 dB. 12. Record the MT821xE Frequency Error reading into the 750 MHz, –50 dBm section of Table A-94.
Page 154 Chapter 6 — Battery Information Introduction The following information relates to the care and handling of the Anritsu battery pack and Lithium-Ion batteries in general. • The battery supplied with the Cell Master may need charging before use. Before using the instrument,...
Page 155 6-2 Battery Pack Removal and Replacement Battery Information Battery Pack Removal and Replacement This section provides instructions for the removal and replacement of the Cell Master battery pack. 1. Locate the battery access door as illustrated in Figure 6-1. Battery Door Figure 6-1.
Page 156 Battery Information 6-2 Battery Pack Removal and Replacement 4. With the battery access door completely removed, grasp the battery lanyard and pull the battery straight out of the instrument, as illustrated in Figure 6-3. Figure 6-3. Removing the Battery 5. Replacement is the opposite of removal. Note the orientation of the battery contacts, and be sure to insert the new battery with the contacts facing the front of the instrument, as illustrated in Figure 6-4.
Page 157 6-2 Battery Pack Removal and Replacement Battery Information PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 158 Chapter 7 — Assembly Replacement Replaceable Parts List Refer to Table 1-5, “List of Replaceable Parts” on page 1-6 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 not match your instrument.
Page 159 7-2 Opening the Cell Master Case Assembly Replacement 3. Place the Cell Master face down on a stable work surface that will not scratch the display. 4. Use a Phillips screwdriver to remove the six screws securing the two halves of the Cell Master case together (Figure 7-2).
Page 160 Assembly Replacement 7-3 PCB Assembly Removal PCB Assembly Removal Procedures in this section are generic, and apply to many similar instruments. Photos and Note illustrations of assemblies are representative, actual assemblies may vary. This procedure provides instructions to remove the Motherboard/VNA/SPA from the Cell Master Case. 1.
Page 161 7-4 SPA Assembly Replacement Assembly Replacement SPA Assembly Replacement This procedure provides instructions to remove the SPA assembly. 1. Open the case as described in Section 7-2 “Opening the Cell Master Case”. 2. Remove the PCB assembly from the front panel as described in Section 7-3 “PCB Assembly Removal”.
Page 162 Assembly Replacement 7-5 SPA and MB/VNA N Connector Replacement SPA and MB/VNA N Connector Replacement This procedure provides instructions to replace the N connector attached to the SPA or MB/VNA assembly. 1. Open the case as described in Section 7-2 “Opening the Cell Master Case”.
Page 163 7-6 GPS (Option 31) Replacement Assembly Replacement GPS (Option 31) Replacement This procedure provides instructions for removing and replacing the GPS assembly. 1. Open the case as described in Section 7-2 “Opening the Cell Master Case”. 2. Remove the PCB assembly from the front panel as described in Section 7-3 “PCB Assembly Removal”.
Page 164 Assembly Replacement 7-7 Option Assembly Replacement Option Assembly Replacement This procedure provides instructions to replace the following option asssemblies: • T1 Analyzer (Option 51) • E1 Analyzer (Option 52) • T3/T1 Analyzer (Option 53) • Ethernet (Option 411) • CPRI (Option 751). Due to calibration requirements, the BER assembly (Option 57 and/or 79) is not a replaceable Note assembly, if this assembly fails, the Main/VNA/SPA/BER assembly is replaced as a singe assembly.
Page 165 7-9 Fan Assembly Replacement Assembly Replacement 5. Remove the Option PCB (if installed) as described in Section 7-7 “Option Assembly Replacement”. When ordering the Main/VNA PCB assembly all options installed on the instrument must be stated Note on the order. 6.
Page 166 Assembly Replacement 7-10 LCD Assembly Replacement 3. Remove the 9 screws connecting the LCD assembly to the front half of the case (Figure 7-11). Remove the 9 screws holding the LCD Assembly to the case. Figure 7-11. Removing the LCD Assembly 4.
Page 167 7-11 LCD Backlight PCB Removal and Replacement Assembly Replacement 5. Use a Phillips screwdriver to remove the four screws securing the LCD to the housing (Figure 7-13). LCD Backlight Cable LCD Cable to Motherboard LCD Backlight Remove 4 screws to replace LCD Figure 7-13.
Page 168 Assembly Replacement 7-11 LCD Backlight PCB Removal and Replacement 5. Use a Phillips screwdriver to remove the two screws securing the LCD backlight PCB to the LCD bracket (Figure 7-14). LCD Backlight Cable Ribbon Cable Connects to Keypad PCB Remove 2 screws to replace LCD PCB Figure 7-14.
Page 169 If no touch screen calibration data is stored in the new keypad PCB when powering on a unit, it will stay at the boot up screen with the Anritsu logo shown and a message at the bottom of the screen stating: Failed to load touch screen calibration data.
Page 170 Assembly Replacement 7-13 Touch Screen Replacement 7-13 Touch Screen Replacement This procedure provides instructions to replace the touch screen. 1. Open the case as described in Section 7-2 “Opening the Cell Master Case”. 2. Remove the PCB assembly from the front panel as described in Section 7-3 “PCB Assembly Removal”.
Page 171 7-13 Touch Screen Replacement Assembly Replacement 7-14 PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 172 DC converter (Anritsu part number 40-187-R) to the instrument allowing the battery to charge. 2. Battery may be the wrong type. Use only Anritsu approved battery packs. Some non-approved battery packs will fit into the MT821xE, but are electrically incompatible and will not charge correctly.
Page 173 8-2 Turn-on Problems Troubleshooting Boot-up Self Test fails: 1. Perform a Master Reset. 2. Verify the date and time are set correctly. 3. The Main PCB has failed. Replace the Main PCB/Spectrum Analyzer assembly. PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 174 Troubleshooting 8-3 Other Problems Other Problems Touch Screen Problems: Instrument boots correctly, but the touch screen is unresponsive. 1. The touch screen may have lost its calibration data. Press Shift then 0 to enter the touch screen calibration procedure. Follow the on-screen directions. 2.
Page 175 8-3 Other Problems Troubleshooting PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
Page 176 This appendix provides test records to record the performance of the MT8212E and MT8213E. Anritsu recommends making 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, allowing for trends to be observed.
Page 177 A-2 Test Records for Spectrum Analyzer Verification Test Records MT821_E Firmware Rev: ______________ Operator: ____________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification Frequency Accuracy Verification and Adjustment Table A-1. Spectrum Analyzer Frequency Accuracy Frequency Measured Value Deviation Specification...
Page 178 Test Records A-2 Test Records for Spectrum Analyzer Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification (Continued) Resolution Bandwidth Accuracy Verification Table A-4. Spectrum Analyzer Resolution Bandwidth Accuracy BW Setting Span Lower Limit...
Page 179 A-2 Test Records for Spectrum Analyzer Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification (Continued) Spectrum Analyzer Absolute Amplitude Accuracy Verification Table A-5. Spectrum Analyzer 50 MHz Absolute Amplitude Accuracy Setup Table Test Power Level at 50 MHz Required Sensor B Reading 0 dBm...
Page 180 Test Records A-2 Test Records for Spectrum Analyzer Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification (Continued) Spectrum Analyzer Absolute Amplitude Accuracy Verification Table A-6. Spectrum Analyzer 50 MHz Absolute Amplitude Accuracy Input Power Level Reference Level Input Atten.
Page 181 A-2 Test Records for Spectrum Analyzer Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification (Continued) Spectrum Analyzer Absolute Amplitude Accuracy Verification Table A-7. Spectrum Analyzer Absolute Amplitude Accuracy Across Frequency Setup Table Required Sensor B Required Sensor B reading Required Sensor B reading...
Page 182 Test Records A-2 Test Records for Spectrum Analyzer Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification (Continued) Spectrum Analyzer Absolute Amplitude Accuracy Verification (continued) Table A-8.
Page 183 A-2 Test Records for Spectrum Analyzer Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Table A-8. Spectrum Analyzer Absolute Amplitude Accuracy Across Frequency (Sheet 2 of 4) Reference Input Power Level Setting Atten.
Page 184 Test Records A-2 Test Records for Spectrum Analyzer Verification Table A-8. Spectrum Analyzer Absolute Amplitude Accuracy Across Frequency (Sheet 3 of 4) Reference Input Power Level Setting Atten. Level Pre-Amp Marker 1 Reading Spec Freq (MHZ) (dBm) (dBm) Setting (dB) Setting (dBm) (dB)
Page 185 A-2 Test Records for Spectrum Analyzer Verification Test Records Table A-8. Spectrum Analyzer Absolute Amplitude Accuracy Across Frequency (Sheet 4 of 4) Reference Input Power Level Setting Atten. Level Pre-Amp Marker 1 Reading Spec Freq (MHZ) (dBm) (dBm) Setting (dB) Setting (dBm) (dB)
Page 186 Test Records A-2 Test Records for Spectrum Analyzer Verification Test Records for Spectrum Analyzer Verification (Continued) Residual Spurious Response Verification Table A-9. Spectrum Analyzer Residual Spurious with Preamp Off Start Freq. Stop Freq. Measured Values Specification ≤ – 90 dBm 10 MHz 50 MHz 1 kHz...
Page 187 A-2 Test Records for Spectrum Analyzer Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Spectrum Analyzer Verification (Continued) Displayed Average Noise Level (DANL) (continued) Table A-12. Spectrum Analyzer DANL with Pre Amp On Measured Value at Calculated for Start Freq...
Page 188 Test Records A-3 Test Records for Cable and Antenna Analyzer Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Cable and Antenna Analyzer Verification Frequency Accuracy Verification Table A-14. VNA Frequency Accuracy Frequency Measured Value Specification...
Page 189 A-4 Test Records for Power Meter Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Power Meter Verification Power Meter Level Accuracy Table A-16. Characterization Chart for Power Meter Verification Test Power Level at 50 MHz Required Sensor B Reading 0 dBm...
Page 190 Test Records A-5 Test Records for Options Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification Bias Tee Verification, Option 10 Table A-18. Option 10 Bias-Tee Voltage Voltage Current Setting Measured Values Specification Specification...
Page 191 A-5 Test Records for Options Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 Table A-20. ISDB-T Signal Analyzer Frequency Accuracy Pre Amp Off Pre Amp On Channel...
Page 192 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 (continued) Table A-23. Level Accuracy Verification, AT(–50) Frequency Sensor A Sensor B...
Page 193 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 (continued) Table A-24. ISDB-T Signal Analyzer Level Accuracy Measurement Channel = 13ch at 473.14285714 MHz Pre Amp Off Pre Amp On SB(–10)
Page 194 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 (continued) Table A-25. ISDB-T Signal Analyzer Level Accuracy Measurement Channel = 38ch at 623.14285714 MHz Pre Amp Off Pre Amp On SB(–10)
Page 195 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 (continued) Table A-26. ISDB-T Signal Analyzer Level Accuracy Measurement Channel = 62ch at 767.14285714 MHz Pre Amp Off Pre Amp On SB(–10)
Page 196 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 (continued) Table A-27. ISDB-T Signal Analyzer DANL with Pre Amp Off Channel Frequency Ref Level...
Page 197 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T and BER Verification, Options 30 and 79 (continued) Table A-29. ISDB-T Signal Analyzer Phase Noise at 10 kHz at 100 kHz Freq...
Page 198 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) GPS Verification, Option 31 Table A-30. Option 31 GPS Receiver Frequency Measured Value Error Specification Spectrum Analyzer Frequency Accuracy with GPS High Frequency Accuracy...
Page 199 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: ______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T SFN Verification, Option 32 Table A-31. ISDB-T SFN Level Accuracy Verification, AT(–10) Frequency Sensor A Sensor B...
Page 200 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T SFN Verification, Option 32 (continued) Table A-32. ISDB-T SFN Analyzer Level Accuracy Measurement Channel = 13ch at 473.14285714 MHz SB(–10) Ref Level Pre Amp Off...
Page 201 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T SFN Verification, Option 32 (continued) Table A-33. ISDB-T SFN Level Accuracy Verification, AT(–50) Frequency Sensor A Sensor B...
Page 202 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T SFN Verification, Option 32 (continued) Table A-34. ISDB-T SFN Analyzer Level Accuracy Measurement Channel = 38ch at 623.14285714 MHz Pre Amp Off Pre Amp On SB(–10)
Page 203 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T SFN Verification, Option 32 (continued) Table A-35. ISDB-T SFN Signal Analyzer Level Accuracy Measurement Channel = 62ch at 767.14285714 MHz Pre Amp Off Pre Amp On SB(–10)
Page 204 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) ISDB-T SFN Verification, Option 32 (continued) Table A-36. ISDB-T SFN Analyzer DANL with Pre Amp Off Channel Frequency Ref Level...
Page 205 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) GSM/GPRS/EDGE Signal Analyzer Verification, Options 40/41/880 Table A-38. Option 40/880 GSM/GPRS/EDGE RF Measurements Error Type Measured Value Specification...
Page 206 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) GSM/GPRS/EDGE Signal Analyzer Verification, Options 40/41/880 (continued) Table A-39. Option 41/880 GSM/GPRS/EDGE Demodulator Measurement Measured Value Specification...
Page 207 A-5 Test Records for Options Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) CDMA Signal Analyzer Verification, Options 42/43/884 Table A-40. Option 42/884 CDMA RF Measurements Measurement Measured Value Specification...
Page 208 Test Records A-5 Test Records for Options Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) CDMA Signal Analyzer Verification, Options 42/43/884 (continued) Table A-41. Option 43/884 cdmaOne and CDMA2000 1xRTT Demodulator Measurement Measured Value Specification...
Page 209 A-5 Test Records for Options Verification Test Records MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, Table A-42. Option 44/881, Sensor A and B Reading Components Characterization Table Δ1 PMA.10 PMB.10...
Page 210 Test Records A-5 Test Records for Options Verification MT821_E Firmware Rev: ______________ Operator: _________________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, (continued) Table A-46. Option 44/881, WCDMA RF Channel Power Accuracy Power Meter Measured RF RF Channel...
Page 211 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) WCDMA/HSDPA Signal Analyzer Verification, Options 44/65/881, (continued) Table A-47. Option 44/881, HSDPA RF Channel Power Accuracy Power Meter Measured RF RF Channel...
Page 212 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) Fixed WiMAX Signal Analyzer Verification, Options 46/47/885 (continued) Table A-50. Option 46/885, Fixed WiMAX Channel Power Accuracy Measured Channel Frequency Input Power...
Page 213 MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) Fixed WiMAX Signal Analyzer Verification, Options 46/47/885 (continued) Table A-51. Option 47/885, Fixed WiMAX Residual EVM Frequency Power EVM (RMS) Specification ≤...
Page 214 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) T1 Analyzer Verification, Option 51 Table A-53. Option 51, T1 Frequency Clock Measurement Measured Value Specification Internal Clock Error...
Page 215 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) E1 Analyzer Verification, Option 52 Table A-56. Option 52, E1 Frequency Clock Measurement Measured Value Specification Internal Clock Error...
Page 216 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) T1/T3 Analyzer Verification, Option 53 Table A-59. Option 53, T1/T3 Frequency Clock Measurement Measured Value Specification Internal Clock Error...
Page 217 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) T1/T3 Analyzer Verification, Option 53 (continued) Table A-63. Option 53, T3 Transmitted Level Voltage Measurement Measured Value Specification...
Page 218 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) EVDO Signal Analyzer Verification, Options 62/63/884 Table A-66. Option 62/884, EVDO RF Measurements Measurement Measured Value Specification...
Page 219 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) EVDO Signal Analyzer Verification, Options 62/63/884 (continued) Table A-67. Option 63/884, EVDO Demodulator Measurement Measured Value Specification...
Page 220 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) DVB-T/H Signal Analyzer Verification, Options 64/57 Table A-68. Option 64, DVB-T/H Signal Analyzer, Frequency Accuracy for –20 dBm Reference Level Channel Reference Level Frequency Error...
Page 221 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) DVB-T/H Signal Analyzer Verification, Options 64/57 (continued) Table A-72. Option 64, DVB-T/H Signal Analyzer, Frequency Lock Range Channel Frequency Measured Frequency Offset...
Page 222 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) DVB-T/H Signal Analyzer Verification, Options 64/57 (continued) Table A-75. Option 64, DVB-T/H Signal Analyzer, Level Accuracy Measurement, Channel = 21 at 474 MHz Pre Amp Off Pre Amp On SB(–10)
Page 223 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ DVB-T/H Signal Analyzer Verification, Options 64/57 (continued) Table A-76. Option 64, DVB-T/H Signal Analyzer, Level Accuracy Measurement, Channel = 45 at 666 MHz Pre Amp Off Pre Amp On SB(–10)
Page 224 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) DVB-T/H Signal Analyzer Verification, Options 64/57 (continued) Table A-77. Option 64, DVB-T/H Signal Analyzer, Level Accuracy Measurement, Channel = 69 at 858 MHz Pre Amp Off Pre Amp On SB(–10)
Page 225 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) DVB-T/H Signal Analyzer Verification, Options 64/57 (continued) Table A-78. Option 64, DVB-T/H Signal Analyzer, DANL, Pre Amp Off Channel Frequency Ref Level...
Page 226 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) Table A-81. Option 78, DVB-T/H SFN, Level Accuracy for Channel 45, 666 MHz Pre Amp Off Pre Amp On Test...
Page 227 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) Mobile WiMAX Channel Power Accuracy Tests (Option 66/885) Table A-85. Option 66/885, Mobile WiMAX Channel Power Accuracy (10 MHz Bandwidth and 10 ms Frame Length) Frequency Input Power Measured Channel Power...
Page 228 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) Mobile WiMAX Signal Analyzer Verification, Options 66/67/885 (continued) Table A-87. Option 67/885, Mobile WiMAX Residual EVM (10 MHz Bandwidth and 10 ms Frame Length) Frequency (MHz) Power (dBm)
Page 229 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) LTE Signal Analyzer Verification, Options 541/542/883 Table A-91. Option 541/883, LTE Channel Power Accuracy Frequency Measured (MHz)
Page 230 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) LTE Signal Analyzer Verification, Options 541/542/883 (continued) Table A-92. Option 542/883, Frequency Accuracy Measurement Frequency Error Specification...
Page 231 A-5 Test Records for Options Verification Test Records MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) TD-LTE Signal Analyzer Verification, Options 551/552/883 Table A-93. Option 551/883, TD-LTE Channel Power Accuracy Frequency Measured (MHz)
Page 232 Test Records A-5 Test Records for Options Verification MT821_E Firmware Revision: _______________ Operator: _______________ Date: _____________ Serial Number: _______________ Options: ___________________________________________________ Test Records for Options Verification (continued) TD-LTE Signal Analyzer Verification, Options 551/552/883 (continued) Table A-94. Option 552/883, TD-LTE Frequency Accuracy Measurement Frequency Error Specification...
Page 233 A-5 Test Records for Options Verification Test Records A-58 PN: 10580-00255 Rev. M MT8212E and MT8213E MM...
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