MT8852B


Anritsu MT8852B Bluetooth Test Set
Anritsu MT8852B Bluetooth Test Set

Qualified by Bluetooth™ SIG for Measurements

The Anritsu MT8852B Bluetooth™ Test Set is the market leading RF measuring instrument for design proving and production test of a wide range of products that integrate Bluetooth™ technology, including; phones, headsets, computers, audio-visual and gaming products as well as modules. In production, a single key press initiates a measurement script that tests a device in less than 15 seconds.

The MT8852B Bluetooth™ Test Set is compliant with Bluetooth™ 1.2, 2.0, 2.1 + EDR, 3.0 + HS, 4.0, 4.1, 4.2 and 5.0 core specifications

Measurements Performed as Defined in the Bluetooth™ RF Test Specification and also User Definable

As members of the Bluetooth™ Special Interest Group (SIG) since 1999, Anritsu has actively participated in the development of the standard from the first 1.0 core specification release through to the current 5.0 core specification release. The MT8852B Bluetooth™ Test Set builds on this experience to offer an optimized radio layer test instrument.

The MT8852B Bluetooth™ Test Set gives you a one-button test to fully characterize your Bluetooth™ implementation and ensure that your reputation for quality is maintained. Therefore you can ship products to your customers with confidence that they will work perfectly first time, every time.

Fast Comprehensive Transceiver Measurements: < 15 seconds

mt8852b_signaling.jpg

The MT8852B can establish a link with the module under test and perform a comprehensive set of transceiver measurements in under 15 seconds. If the module address is unknown, MT8852B can read it through the module HCI (RS232 or USB), or perform an Inquiry. An integrated CW frequency counter can be used for crystal trimming. Module testing requires a test fixture, ideally in a shielded box, to interface the Bluetooth™ module to the MT8852B. The test fixture should provide a direct RF connection plus, if required, connection to the module's HCI interface.

Option for Bluetooth™ Low Energy Measurements (BLE)

mt8852b_ble.jpg

There are 2 types of Bluetooth™ low energy devices, Dual Mode devices integrate Basic Rate, EDR and low energy functionality into a single chip while Single Mode devices support only the low energy standard. Mobile phones and PCs are expected to support the Dual Mode devices and sensors and peripherals will only support the low energy standard.

The MT8852B, with Option 27 - Bluetooth™ Low Energy Measurements, sends these test controls to the EUT to deliver fully automated testing. With the use of this integrated interface, the MT8852B can run a single test script that with a single key press can test the Basic Rate, EDR and low energy performance of a EUT.

For EUT transmitter tests, test controls sent from the MT8852B configure the low energy device to transmit test reference packets that are captured and analyzed by the MT8852B receiver.

Option for Adaptive Frequency Hopping (AFH) Software

mt8852b_mobile_phone.jpg

Manufacturers need to prove the performance of both the Bluetooth™ and mobile phone radios. Test is typically a bottleneck in any mobile phone production line and so testing the Bluetooth™ interface must be performed with no increment to total test time. It is also vital to confirm that both radios can be active simultaneously without any interference between them.

Should the phone also include an 802.11b/g WLAN radio, the AFH feature of the MT8852B is ideal for validating that both radios can be used simultaneously without mutual interference. This option provides graphical displays of FER and masked channels when interfering signals are introduced, allowing optimization of hardware designs.

Support 3 SCO Channels with CVSD, µ-Law and A-Law Air Interface Audio Measurements

The MT8852B offers comprehensive testing facilities integrated within a Bluetooth™ wireless technology test set. Rear-panel jack-plug connectors provide analog inputs and outputs for all three audio channels.


Basic Performance

Parameters / Characteristics Specifications
Signal Generator Frequency Frequency Range 2.40 to 2.5 GHz
Resolution 1 kHz
Accuracy As Frequency Standard ±500 Hz
Amplitude Amplitude Range -90 dBm to 0 dBm
Accuracy ±1 dB (-80 dBm to 0 dBm)
Resolution ±0.1 dB
Measuring Receiver Frequency Frequency Range 2.40 to 2.5 GHz
Resolution 1 kHz
Accuracy As Frequency Standard ±500 Hz
Amplitude Amplitude Range -55 dBm to +22 dBm Average Power
Accuracy ±1 dB (-35 dBm to +20 dBm)
Resolution ±0.1 dB
Damage Level +25 dBm
Audio Measurement Number of SCO Channels Supported 3
Codec Air Interfaces Supported CVSD, A-Law, µ-Law
Frequency Response (-3 dB) Measured CODEC In to CODEC Out: 160 Hz -3.5 kHz. Measured with 50 Ω Source Impedance and 10 MΩ Load Impedance
Maximum Input / Output Signal Level 3.4 Vpk-pk = 1.2V RMS
Distortion / Noise A-law: Typical -37 dB at 1 kHz, 1V RMS
µ-law: Typical -37 dB at 1 kHz, 1V RMS
CVSD: Typical -30 dB at 300 Hz, 1V RMS
Input / Output Connectors 3.5 mm Audio Jack Plugs (one for each SCO channel)
Input Impedance 20 kΩ
Minimum Output Load 600 Ω
Internal Audio Source 1 kHz Fixed Frequency
General Dimensions and Mass 216.5 (W) x 88 (H) x 380 (D) mm
≤3.8 kg

Measurement Functions

Notes: All measurements made in compliance with Bluetooth™ Core Specification v1.2, 2.0, 2.1, 3.0 + HS, 4.0, 4.2 and 5.0

Measurements Test Cases Parameters Characteristics Specifications
Basic Rate TRM/CA/01/C Output Power Displayed Results Average Power, Peak Power
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -50 dBm to +22 dBm Average Power (+23 dBm Peak Power)
Resolution 0.1 dB
Accuracy -35 dBm to +20 dBm, ±1.0 dB
-20 dBm to +22 dBm, ±1.5 dB
TRM/CA/03/C Power Control Displayed Results Maximum Power
Minimum Power
Maximum Step Size
Minimum Step Size
Power at Each Power Step
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -35 dBm to +22 dBm Average Power (+23 dBm Peak Power)
Resolution 0.1 dB
Accuracy -35 dBm to +20 dBm, ±1.0 dB
+20 dBm to +22 dBm, ±1.5 dB
TRM/CA/07/C Modulation Characteristics Displayed Results Frequency Deviation
Δf1max
Δf2max
Δf1avg
Δf2avg and Δf2avg/Δf1avg plus % of Δf2max <115 kHz
Number of Frequencies Three, Default to RF Test Specification or User Defined
RF Input Measurement Range -35 dBm to +20 dBm
Deviation Measurement Range 0 Hz to 350 kHz peak
Deviation Resolution 1 kHz
Accuracy 1% for modulation index = 0.32
TRM/CA/08/C Initial Carrier Frequency Tolerance Displayed Results Average Initial Frequency Error
Maximum Positive Frequency Error
Maximum Negative Frequency Error
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -35 dBm to +20 dBm
Initial Frequency Error Measurement Range 0 Hz to ±150 kHz
Resolution 1 kHz
Accuracy 500 Hz ± Frequency Standard
TRM/CA/09/C Carrier Frequency Drift Displayed Results Carrier Frequency Drift
Drift Rate
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -35 dBm to +20 dBm
Initial Frequency Error Measurement Range 0 Hz to 200 kHz, and >2000/50 µs
Resolution 1 kHz
TRM/CA/14/C Enhanced Power Control Displayed Results Maximum Power for Each Packet Type
Minimum Power for Each Packet Type
Maximum Power Step for Each Packet Type
Minimum Power Step for Each packet type
Maximum Power Difference at Any Step between DHn and 2DHn or 3DHn Packets
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -35 dBm to +22 dBm Average Power (+23 dBm Peak Power)
Resolution 0.1 dB
Accuracy -35 dBm to +20 dBm, ±1.0 dB
+20 dBm to +22 dBm, ±1.5 dB
RCV/CA/01/C Sensitivity - Single slot packets Displayed Results BER (percentage)
Total Number of Bit Errors and FER
Number of Frequencies Three, Default to RF Test Specification or User Defined
Number of Measured Bits 1 to 10,000 packets (216 to 2,160,000 bits)
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
BER/FER Measurement Range 0.000% to 100%
BER/FER Resolution 0.001%
RCV/CA/02/C Sensitivity - Multi slot packets Displayed Results BER (percentage)
Total Number of Bit Errors and FER
Number of Frequencies Three, Default to RF Test Specification or User Defined
Number of Measured Bits 1 to 10,000 packets (for DH3, 1,464 to 14,640,000 bits), (for DH5, 2,712 to 27,120,000 bits)
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
BER/FER Measurement Range 0.000% to 100%
BER/FER Resolution 0.001%
RCV/CA/06/C Maximum Input Level Displayed Results BER (percentage)
Total Number of Bit Errors and FER
Number of Frequencies Three, Default to RF Test Specification or User Defined
Number of Measured Bits 1 to 10,000 packets (216 - 2,160,000 bits)
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
Enhanced Data Rate (EDR) TRM/CA/10/C EDR Relative Transmit Power Displayed Results Max Differential Power (from all packets)
Min Differential Power (from all packets)
Average Differential Power (over all packets)
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -35 dBm to +20 dBm Average Power (+23 dBm Peak Power)
Relative Power Resolution 0.01db, GFSK to π/4DQPSK and 8DPSK
Relative Power Accuracy Relative Power Measurement Accuracy between GFSK and π/4DQPSK or 8DPSK, 0.2 dB Typical for a Power Difference of <6 dB
Relative Power Measurement Range Relative Power Measurement Range between GFSK and π/4DQPSK or 8DPSK, (PGFSK -8 dB) < PDPSK < (PGFSK +4 dB)
TRM/CA/11/C EDR Carrier Frequency Stability and Modulation Accuracy Displayed Results Initial Frequency Error ωi
Frequency Error ωo
Frequency Error ωi + ωo
RMS DEVM (block with greatest DEVM value displayed)
Peak DEVM
99% DEVM
Average RMS DEVM (average DEVM for all blocks measured)
Number of Frequencies Three, Default to RF Test Specification or User Defined
Carrier Frequency Stability Measurement Range 0 Hz to ±100 kHz
Carrier Frequency Stability Accuracy 500 Hz ± Frequency Standard
Carrier Frequency Stability Resolution 1 kHz
RMS DEVM Range 30% π/4DQPSK, 20% 8DPSK
RMS DEVM Resolution 0.1% π/4DQPSK and 8DPSK
Peak DEVM Range 0 to 50% π/4DQPSK, 0 to 30% 8DPSK
Peak DEVM Resolution 0.1% π/4DQPSK and 8DPSK
TRM/CA/12/C EDR Differential Phase Encoding Displayed Results Number of Packets Received
Number of Packets with Payload Data Errors
Percentage of Errored Packets
Number of Frequencies Three, Default to RF Test Specification or User Defined
RCV/CA/07/C EDR Sensitivity Displayed Results Overall BER (displayed in exponential format)
Number of Bits in Error
Number of Packets Sent by Test Set
Number of Packets Received in Error by EUT
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
RCV/CA/08/C EDR BER Floor Performance Displayed Results Overall BER (displayed in exponential format)
Number of Bits in Error
Number of Packets Sent by Test Set
Number of Packets Received in Error by EUT
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
RCV/CA/10/C EDR Maximum Input Level Displayed Results Overall BER (displayed in exponential format)
Number of Bits in Error
Number of Packets Sent by Test Set
Number of Packets Received in Error by EUT
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
Bluetooth™ Low Energy (BLE) TRM-LE/CA/01/C and Output Power at NOC Displayed Results Average Power
Peak to Average Power
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -50 dBm to +22 dBm Average Power (+23 dBm Peak Power)
Resolution 0.1 dB
Accuracy -35 dBm to +20 dBm, ±1.0 dB
+20 dBm to +22 dBm, ±1.5 dB
TRM-LE/CA/02/C Output Power at EOC Displayed Results Average Power
Peak to Average Power
Number of Frequencies Three, Default to RF Test Specification or User Defined
Measurement Range -50 dBm to +22 dBm Average Power (+23 dBm Peak Power)
Resolution 0.1 dB
Accuracy -35 dBm to +20 dBm, ±1.0 dB
+20 dBm to +22 dBm, ±1.5 dB
TRM-LE/CA/05/C Modulation Characteristics Displayed Results Frequency Deviation
Δf1max
Δf2max
Δf1avg
Δf2avg and Δf2avg/Δf1avg plus % of Δf2max >185 kHz
Number of Frequencies Three, Default to RF Test Specification or User Defined
RF Input Measurement Range -35 dBm to +20 dBm
Deviation Measurement Range 0 Hz to 500 kHz peak
Deviation Resolution 1 kHz
Accuracy 1% for modulation index = 0.5
TRM-LE/CA/06/C Carrier Frequency Offset and Drift at NOC Displayed Results Carrier Frequency Error
Frequency Drift
Drift Rate
Number of Frequencies Three, Default to RF Test Specification or User Defined
RF Input Measurement Range -35 dBm to +20 dBm
Measurement Range 500 kHz
Resolution 1 kHz
Accuracy 500 Hz ± Frequency Standard
TRM-LE/CA/07/C Carrier Frequency Offset and Drift at EOC Displayed Results Carrier Frequency Error
Frequency Drift
Drift Rate
Number of Frequencies Three, Default to RF Test Specification or User Defined
RF Input Measurement Range -35 dBm to +20 dBm
Measurement Range 500 kHz
Resolution 1 kHz
Accuracy 500 Hz ± Frequency Standard
RCV-LE/CA/01/C Receiver Sensitivity at NOC Displayed Results Receiver PER (Requires DUT to support HCI UART or USB or 2-Wire Interface for Automated PER Results)
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
RCV-LE/CA/02/C Receiver Sensitivity at EOC Displayed Results Receiver PER (Requires DUT to support HCI UART or USB or 2-Wire interface for automated PER results)
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
RCV-LE/CA/06/C Maximum Input Signal Level Displayed Results Receiver PER (Requires DUT to support HCI UART or USB or 2-Wire interface for automated PER results)
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm
RCV-LE/CA/07/C PER Report Integrity Displayed Results Receiver PER (Requires DUT to support HCI UART or USB or 2-Wire interface for automated PER results)
Number of Frequencies Three, Default to RF Test Specification or User Defined
Output Power Range -90 dBm to 0 dBm, Resolution 0.1 dB
Output Power Accuracy ±1 dB, -80 dBm to 0 dBm

NOC = Normal Operating Conditions
EOC = Extreme Operating Conditions
See Bluetooth™ Low Energy RF PHY test specification for details

Adaptive Frequency Hopping (AFH) Channel Utilisation Against Time Display Number of Active Channels as Reported by DUT Local Assessment Scheme
Frame Error Rate Against Time Display of Link FER with 1 Second Reporting Interval
Active Channel Map Display of Active and Masked Channels as Reported by DUT Local Assessment Scheme

Options

Options Descriptions
Hardware MT8852B Bluetooth™ Test Set with EDR and Audio (add option-027 to support BLE measurements)
MT8852B-040 Bluetooth™ Test Set with no EDR and no Audio
MT8852B-041 Bluetooth™ Test Set with no EDR and with Audio
MT8852B-042 Bluetooth™ Test Set with EDR and no Audio
MT8852B-043 Bluetooth™ Low Energy Measurements Only
Options and accessories MT8852B-001 Rack Mount Kit, Single Unit
MT8852B-015 Adaptive Frequency Hopping Option
MT8852B-017 IQ Data Output
MT8852B-027 Bluetooth™ Low Energy Measurements
MT8852B-034*1 BLE Data Length Extension
MT8852B-035*1, *2 BLE 2LE (2 Mbps Low Energy)
MT8852B-036*1, *2, *3 BLE BLR (Bluetooth™ Long Range)
MT8852B-070 Platform Enhancement
Software MX885201B BlueSuite Pro3 Software Application (BlueSuite & BlueTest2 software are standard)

*1 MT8852B-034 (334) requires MT8852B-027 (327) or MT8852B-043.

*2 MT8852B-035 (335) and MT8852B-036 (336) requires MT8852B-034 (334).

*3 MT8852B-036 (336) requires MT8852B-070 (270, 370)



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MT8862A


Anritsu MT8862A Wireless Connectivity Test Set Anritsu MT8862A Wireless Connectivity Test Set Anritsu MT8862A Wireless Connectivity Test Set
Anritsu MT8862A Wireless Connectivity Test Set
Anritsu MT8862A Wireless Connectivity Test Set
Anritsu MT8862A Wireless Connectivity Test Set

Quality Assurance of Diverse and Complex Devices

The Wireless Connectivity Test Set MT8862A supports an RF performance measurement environment under realistic operation conditions (Network Mode).


mt8862a_quality_assurance

Advantages of RF Measurement in Network Mode

The MT8862A Network Mode supports configuration of an RF measurement environment without test firmware, chipset control, and hardware modification.


mt8862a_network_mode

DUT Tx Test

mt8862a_dut_tx_test2
  • At ACK measurement, the MT8862A sends an Test Packet to the DUT; at Data measurement, it sends a ICMP Echo Request packet. Tx measurement is performed when either the ACK or ICMP Echo Reply sent from the DUT is received.
  • The header of the packet received from the DUT is analyzed and RF measurements such as power, modulation accuracy, spectrum, etc., are performed to display results.
  • Packets sent using the IP data TRx ports can also be measured.
mt8862a_dut_tx_test

mt8862a_dut_tx_test3

mt8862a_dut_tx_test4

DUT Rx Test

  • The MX886200A measures the PER/FRR by counting the ACK frames sent by the DUT in response to the Test Packet. Configuring a measurement environment is easier than using the Direct mode.
  • Since tests are made under closer conditions to actual operation, the DUT can also be tested at final shipping for results that are closer to actual usage.
  • The PER (Packet Error Rate) standard of the Receiver Blocking test in ETSI EN 300 328 V 2.1.1 released on January 13, 2017 has been added for broadband wireless devices operating in the 2.4 GHz ISM Band, including WLAN. This test is done easily using the PER measurement function of the MT8862A and a signal generator to generate the interference wave.

mt8862a_dut_rx_test

GUI Control over Ethernet

mt8862a_gui_control

Two connection methods between MT8862A and control PC:

  • One-to-one Ethernet connection
  • Connection over Ethernet network

The MT8862A DHCP Client function supports remote network access from an external PC controller for easy remote control and sharing one MT8862A between multiple users.


Frame Capture for Troubleshooting DUT Connections

mt8862a_frame_capture

The MX886200A captures WLAN frames sent to and received from the DUT. Captured logs can be saved by the PC controller in pcap format for analysis by software such as Wireshark. This eliminates the need for a separate packet sniffer to capture WLAN frames and supports troubleshooting of WLAN frames in the RF measurement environment.

Remote Control Environment

mt8862a_remote_control_env
  • Using the MT8862A, remote-control protocols, such as HiSLIP, VXI11,etc., for controlling instruments using the general-purpose Raw-Socket connection method, can be selected to match an existing remote-control environment.
  • The same remote-control commands are used for the GUI running on the Web browser and the GUI remote control command log can also be captured. Creation times are greatly reduced by using remote-control command sequences.
  • In addition, sample sequences are also provided for the Smart Studio Manager MX847503A for the MT8862A.

Wireless Connectivity Test Set MT8862A Specifications

Parameters Characteristics Specifications
Receiver Frequency Range 2.4 GHz to 2.5 GHz
5.0 GHz to 6.0 GHz (with MT8862A-001 installed)
Resolution 1 Hz
Accuracy Depends on reference oscillator accuracy
Level Setting Range –65 to +25 dBm
Setting Resolution 0.1 dB
Accuracy Measurement Conditions: CW, Measurement Bandwidth: 300 kHz, 20° to 30°C
2.4 GHz ≤ Frequency ≤ 2.5 GHz
   ±0.7 dB (–30 dBm ≤ Setting Level ≤ +25 dBm)
   ±0.9 dB (–55 dBm ≤ Setting Level < –30 dBm)
   ±1.1 dB (–65 dBm ≤ Setting Level < –55 dBm)
5.0 GHz ≤ Frequency ≤ 6.0 GHz
   ±0.7 dB (–30 dBm ≤ Setting Level ≤ +25 dBm)
   ±0.9 dB (–55 dBm ≤ Setting Level < –30 dBm)
   ±1.1 dB (–65 dBm ≤ Setting Level < –55 dBm)

Measurement Conditions: CW, Measurement Bandwidth: 160 MHz, 20° to 30°C
2.4 GHz ≤ Frequency ≤ 2.5 GHz
   ±0.7 dB (–30 dBm ≤ Setting Level ≤ +25 dBm)
   ±1.0 dB (–50 dBm ≤ Setting Level < –30 dBm)
5.0 GHz ≤ Frequency ≤ 6.0 GHz
   ±0.7 dB (–30 dBm ≤ Setting Level ≤ +25 dBm)
   ±1.0 dB (–50 dBm ≤ Setting Level < –30 dBm)
Linearity Measurement Conditions: CW, Measurement Bandwidth: 300 kHz, 0 dB ≤ Setting Level ≤ –40 dB
   ±0.2 dB (–55 dBm ≤ Input Level)
   ±0.4 dB (–65 dBm ≤ Input Level < –55 dBm)

Measurement Conditions: CW, Measurement Bandwidth: 160 MHz, 0 dB ≤ Setting Level ≤ –30 dB
   ±0.4 dB (–40 dBm ≤ Input Level)
Transmitter Frequency Range 2.4 GHz to 2.5 GHz
5.0 GHz to 6.0 GHz (with MT8862A-001 installed)
Resolution 1 Hz
Accuracy Depends on reference oscillator accuracy
Level Setting Range –120 to 0 dBm
Setting Resolution 0.1 dB
Accuracy Output Setting: CW
20° to 30°C, Output Level: ≥–110 dBm, after Calibration
   ±1.0 dB, ±0.7 dB (typ.) (2.4 GHz ≤ Frequency ≤ 2.5 GHz)
   ±1.3 dB, ±1.0 dB (typ.) (5.0 GHz ≤ Frequency ≤ 6.0 GHz)
Signal Purity Harmonic: ≤–25 dBc
Reference Oscillator  At Start ±5 × 10–7 (2 minutes after power-on, at 25°C referenced to frequency at 24 hour after power-on)
±5 × 10–8 (5 minutes after power-on, at 25°C referenced to frequency at 24 hour after power-on)
Aging Rate ±1 × 10–7/year
Temperature Characteristics ±2 × 10–8 (5° to 45°C)
Shipped Frequency Accuracy ±2.2 × 10–8 (1 hour after power-on at 20° to 30°C)
General Dimensions and Mass 426 (W) × 177 (H) × 390 (D) mm (excluding projections)
≤14 kg

WLAN Measurement Software MX886200A Specifications

Parameters Characteristics Specifications
Frequency Range 2.4 GHz Band: 2412 MHz to 2484 MHz
5 GHz Band: 5180 MHz to 5825 MHz
Amplitude Measurement  Input Level Range –50 to +25 dBm
Input Level Accuracy ±0.7 dB (–30 dBm ≤ Input Level ≤+25 dBm)
±1.0 dB (–50 dBm ≤ Input Level <–30 dBm), After Calibration at 20° to 30°C
Linearity ±0.4 dB (–40 dBm ≤ Input Level, 0 to –30 dB range compared to setting level)
Bandwidth 40 MHz/20 MHz (802.11n)
20 MHz (802.11a/b/g)
80/40/20 MHz (802.11ac, with MX886200A-001 installed)
Spectrum Measurement  Input Level Range –10 to +25 dBm
EVM (Modulation Accuracy) EVM Measurement Range –20 to +25 dBm
Residual EVM  DSSS: <–28 dB (–20 dBm ≤ Input Level, Average of 20 Packets)
OFDM (802.11a/g/n): <–40 dB (–20 dBm ≤ Input Level, Average of 20 Packets, Channel Estimate: Full Packets)
OFDM (802.11ac, with MX886200A-001 installed): <–38 dB (–10 dBm ≤ Input Level, Average of 20 Packets, Channel Estimate: Full Packets)
EVM Data Format % or dB
Measurement Resolution 0.01% or 0.01 dB
Carrier Frequency Measurement Measurement Level Range –20 to +25 dBm
Carrier Frequency Accuracy ± (Setting Frequency × Reference Oscillator Accuracy +1 kHz) (Average of 20 Packets, DSSS)
± (Setting Frequency × Reference Oscillator Accuracy +1 kHz) (Average of 20 Packets, Channel Estimate: Full Packets, OFDM)
RF Signal Generator EVM: Packet Length 1472 byte
802.11b: ≤–38 dB rms (2412 MHz to 2484 MHz, Long Preamble, Gaussian Filter BT0.5, 5° to 45°C)
802.11g (OFDM): ≤–40 dB rms(2412 MHz to 2484 MHz, 20° to 30°C)
802.11a: ≤–38 dB rms (5180 MHz to 5825 MHz)
802.11n: ≤–40 dB rms (2412 MHz to 2484 MHz, Long GI, HT-mixed format, Channel Bandwidth 40 MHz, 20° to 30°C)
≤–38 dB rms (5180 MHz to 5825 MHz, Long GI, HT-mixed format, Channel Bandwidth 40 MHz, 20° to 30°C)
802.11ac (with MX886200A-001 installed): ≤–37 dB rms (5180 MHz to 5825 MHz, Long GI, Channel Bandwidth 80 MHz, 20° to 30°C)
Functions Network Functions Connection Network Connection using Messages defined by IEEE802.11
Role Access Point (AP)
Frame Capture 1, 2, 4, 8, 16, 32, 64, 128, 256 MB
Tx Test Measurement Type Data, ACK 
Rx Test Measurement Type Packet Error Rate (PER), Frame Reception Rate (FRR)
Payload Type All 0’s, 0101, 1010, PN7, PN9, Random, Counting
Security encryption (with MX886200A-020 installed)  WEP, WPA-Personal, WPA2-Personal

Options

Options Descriptions / Documentations
Hardware MT8862A Wireless Connectivity Test Set (Main Frame)
MT8862A-001 RF Frequency 2.4 GHz, 5 GHz
Software MX886200A WLAN Measurement Software (Requires MT8862A-001)
MX886200A-001 WLAN 802.11ac Option
MX886200A-020 WLAN Security Function
Warranty Service MT8862A-ES210 2 Years Extended Warranty Service
MT8862A-ES310 3 Years Extended Warranty Service
MT8862A-ES510 5 Years Extended Warranty Service


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MT8821C


Anritsu MT8821C Cellular / Radio Communication Analyzer Anritsu MT8821C Cellular / Radio Communication Analyzer Anritsu MT8821C Cellular / Radio Communication Analyzer
Anritsu MT8821C Cellular / Radio Communication Analyzer
Anritsu MT8821C Cellular / Radio Communication Analyzer
Anritsu MT8821C Cellular / Radio Communication Analyzer

The Radio Communication Analyzer MT8821C is designed for R&D into mobile devices (User Equipment: UE), such as smartphones, tablets and M2M/IoT modules. It builds on the technologies of its popular predecessor, the MT8820C used worldwide by UE and chipset vendors. It operates as a base station simulator using standard call processing sequences compliant with test standards to support a versatile test lineup, starting with RF tests.

More Efficient RF Testing Supporting LTE-Advanced UE Measurement

With the introduction of LTE-Advanced, wireless communications are starting to use Carrier Aggregation (CA) technology offering continuing extendibility to wider bandwidths and more frequency bands. Additionally, adoption of the latest in faster communications technologies, such as higher-order 4x4 and 8x8 Multiple Input Multiple Output (MIMO) to improve frequency usage efficiency, means that measurement technologies are also becoming increasingly complex.

mt8821c_siso Supports LTE-Advanced 6CC SISO tests in one unit mt8821c_laa Supports tests of 5 GHz Unlicensed Band used by LAA and LTE-U
mt8821c_mimo Supports LTE-Advanced 6CC 2×2 MIMO tests mt8821c_bw 160 MHz wide frequency bandwidth (Generator/Analyzer) supports evolving UE technologies
mt8821c_2x2_mimo Supports LTE-Advanced 4CC 2×2 MIMO tests in one unit mt8821c_hpue Supports tests of HPUE (High Power User Equipment) which is the specification to improve communication environment by increasing out put power of UE
mt8821c_4x4_mimo Supports LTE-Advanced 4CC 4×4 MIMO/4x2 MIMO tests    
mt8821c_gui

Enhanced GUI for Efficient Operability

Better operability and visibility have been achieved using an enhanced next-generation GUI and easy-to-use large touch panel. As well as operating screens by touching and swiping, easy operation is supported by one-touch switching between grouped/individual graph lists and results outline/detail displays.

Further, the efficiency of complex setting work is improved by a parameter search function, bookmarking function for commonly used parameters, and a function for setting test parameters using one-touch button operation.

3GPP UE RF Measurement

The UE TRX characteristics must be evaluated for compliance with 3GPP/3GPP2 standards at chipset and UE development, evaluation, and acceptance testing by network operators, etc. UE circuits are becoming increasingly complex as more communications technologies and frequency bands are supported; with built-in support for the UE RF TRX tests compliant with the various communications standards, the MT8821C is the ideal test solution whatever the measurement scenario.


Supported 3GPP/3GPP2 Standards

Support Systems RF TRX Measurements
LTE FDD/TDD (DL CA 2CC/3CC/4CC/5CC/6CC, UL CA 2CC) 3GPP TS 36.521-1 Chapter 6, 7
Cat-M1
NB-IoT
W-CDMA (HSPA, HSPA Evolution, (DB-)DC-HSDPA, 3C/4C-HSDPA, DC-HSUPA) 3GPP TS 34.121-1 Chapter 5, 6
GSM (GPRS, EGPRS) 3GPP TS 51.010-1 Chapter 12, 13, 14
TD-SCDMA (HSPA, HSPA Evolution) 3GPP TS 34.122 Chapter 5, 6
CDMA2000™/EV-DO 3GPP2 C.S0011-C Chapter 3, 4
3GPP2 C.S0033-B Chapter 3, 4

One-touch Settings and PASS/FAIL Judgment

With preset measurement parameters based on the 3GPP RF test standard cases, the MT8821C simplifies measurement. In addition, PASS/FAIL judgment of measurement results according to the test standard conditions is automated and results are confirmed at a glance.

Until now, LTE CA measurements have required complex Component Carrier (CC) settings, making operation difficult, but the MT8821C integrates multiple related parameters settings into one operation, greatly simplifying each operation stage to reduce setting operations and time.

For example, only the following three steps are required using the LTE measurement software to measure the 3GPP TS 36.521-1 6.5.2.1 Error Vector Magnitude (EVM):

3GPP RF Test Example

mt8821c_one_touch
  1. Select test parameters
  2. Start measurement
  3. Confirm PASS/FAIL judgment

Remote Control Sample Tool

mt8821c_sample_tool

The MT8821C can be configured in an automated test system using either GPIB or Ethernet for remote control. Anritsu also provides the 3GPP RF test standard compliant automatic remote control sample tool.

Operation is as simple as selecting the required test case from RF test items in the remote control sample tool, so even new users can easily configure automated test environment.


Basic Performance

Parameters / Characteristics Specifications
Frequency Frequency Range 30 MHz to 3.8 GHz
30 MHz to 6.0 GHz (with MT8821C-019)
RF Input Max. Input Level +35 dBm (Main 1, 2)
RF Signal Generator Frequency Frequency Range 30 MHz to 3.8 GHz
30 MHz to 6.0 GHz (with MT8821C-019)
Resolution 1 Hz
Output Level Level Range -140 to -10 dBm (Main 1, 2), -125 to 5 dBm (AUX 1, 2, 3, 4)
Resolution 0.1 dB
Accuracy Main (1, 2):
  ±1.5 dB (Frequency < 350 MHz, Internal signal generator TX 1 output)
  ±1.0 dB, ±0.7 dB (typ.) (350 MHz ≤ Frequency ≤ 3.8 GHz)
  ±1.3 dB, ±1.0 dB (typ.) (3.8 GHz < Frequency ≤ 6.0 GHz)
Aux (1, 2, 3, 4):
  ±1.5 dB (Frequency < 350 MHz)
  ±1.0 dB, ±0.7 dB (typ.) (350 MHz ≤ Frequency ≤ 3.8 GHz)
  ±1.3 dB, ±1.0 dB (typ.) (3.8 GHz < Frequency ≤ 6.0 GHz)

Option

Options Descriptions / Documentations
Hardware MT8821C Radio Communication Analyzer (Main Frame)
MT8821C-001 W-CDMA Measurement Hardware 
MT8821C-002 TDMA Measurement Hardware 
MT8821C-003 CDMA2000™ Measurement Hardware*1 
MT8821C-005 1xEV-DO Measurement Hardware*1, *2 
MT8821C-007 TD-SCDMA Measurement Hardware 
MT8821C-008 LTE Measurement Hardware 
MT8821C-011 Audio Board 
MT8821C-012 Parallel Phone Measurement Hardware*3
MT8821C-019 Extended RF 3.8 GHz to 6 GHz 
MT8821C-025 2nd RF for Phone1
MT8821C-026 3rd RF for Phone1
MT8821C-027 4th RF for Phone1
MT8821C-028 2nd RF for Phone2
MT8821C-029 3rd RF for Phone2
MT8821C-030 4th RF for Phone2
MT8821C-043 CDMA2000™ Time Offset CAL for GPS SG 
Software MX882100C W-CDMA Measurement Software 
MX882100C-001 W-CDMA Voice Codec  
MX882100C-002 W-CDMA External Packet Data 
MX882100C-003 W-CDMA Video Phone Test*5 
MX882100C-005 W-CDMA A-GPS  
MX882100C-019 W-CDMA HSPA Measurement Software*5
MX882100C-032 DC-HSDPA Measurement Software 
MX882100C-033 DC-HSUPA Measurement Software 
MX882100C-034 4C-HSDPA Measurement Software 
MX882170C W-CDMA Ciphering Software*5  
MX882101C GSM Measurement Software 
MX882101C-001 GSM Voice Codec 
MX882101C-002 GSM External Packet Data 
MX882101C-005 GSM A-GPS 
MX882101C-011 EGPRS Measurement Software 
MX882102C CDMA2000™ Measurement Software 
MX882102C-001 CDMA2000™ Voice Codec  
MX882102C-002 CDMA2000™ External Packet Data
MX882106C 1xEV-DO Measurement Software 
MX882106C-002 1xEV-DO External Packet Data
MX882107C TD-SCDMA Measurement Software
MX882107C-001 TD-SCDMA Voice Codec
MX882107C-002 TD-SCDMA External Packet Data
MX882107C-003 TD-SCDMA Video Phone Test
MX882107C-011 TD-SCDMA HSDPA Measurement Software  
MX882107C-012 TD-SCDMA HSDPA Evolution Measurement Software 
MX882107C-021 TD-SCDMA HSUPA Measurement Software  
MX882112C LTE FDD Measurement Software 
MX882112C-006 LTE FDD IP Data Transfer 
MX882112C-011 LTE FDD 2×2 MIMO DL
MX882112C-012 LTE FDD 4×4 MIMO DL
MX882112C-016 LTE FDD CS Fallback to W-CDMA/GSM
MX882112C-017 LTE FDD CS Fallback to CDMA2000™
MX882112C-021 LTE-Advanced FDD DL CA Measurement Software
MX882112C-022 LTE-Advanced FDD UL CA Measurement Software
MX882112C-026 LTE-Advanced FDD DL CA IP Data Transfer
MX882112C-031 LTE-Advanced FDD DL CA 3CCs Measurement Software
MX882112C-036 LTE-Advanced FDD DL CA 3CCs IP Data Transfer
MX882112C-041 LTE-Advanced FDD DL CA 4CCs Measurement Software 
MX882112C-046 LTE-Advanced FDD DL CA 4CCs IP Data Transfer 
MX882112C-051 LTE-Advanced FDD DL CA 5CCs Measurement Software 
MX882112C-061 LTE-Advanced FDD DL CA 6CCs Measurement Software 
MX882113C LTE TDD Measurement Software 
MX882113C-006  LTE TDD IP Data Transfer
MX882113C-011 LTE TDD 2x2 MIMO DL 
MX882113C-012 LTE TDD 4x4 MIMO DL 
MX882113C-016 LTE TDD CS Fallback to W-CDMA/GSM 
MX882113C-017 LTE TDD CS Fallback to CDMA2000™
MX882113C-018 LTE TDD CS Fallback to TD-SCDMA/GSM 
MX882113C-021 LTE-Advanced TDD DL CA Measurement Software 
MX882113C-022 LTE-Advanced TDD UL CA Measurement Software
MX882113C-026 LTE-Advanced TDD DL CA IP Data Transfer 
MX882113C-031 LTE-Advanced TDD DL CA 3CCs Measurement Software 
MX882113C-036 LTE-Advanced TDD DL CA 3CCs IP Data Transfer 
MX882113C-041 LTE-Advanced TDD DL CA 4CCs Measurement Software 
MX882113C-046 LTE-Advanced TDD DL CA 4CCs IP Data Transfer 
MX882113C-051 LTE-Advanced TDD DL CA 5CCs Measurement Software 
MX882113C-061 LTE-Advanced TDD DL CA 6CCs Measurement Software 
MX882115C W-CDMA HSPA Evolution IP Data Transfer 
MX882115C-001 DC-HSDPA IP Data Transfer 
MX882116C LTE Category M1 Measurement Software 
MX882116C-006 LTE Category M1 IP Data Transfer
MX882117C NB-IoT Measurement Software 
MX882117C-006 NB-IoT Data Transfer
MX882120C Sequence Measurement Software 
MX882120C-001 W-CDMA Measurement Software 
MX882120C-002 GSMMeasurement Software 
MX882120C-003 CDMA2000™ Measurement Software 
MX882120C-004 LTE Measurement Software 
MX882120C-005 TD-SCDMA Measurement Software 
MX882132C CDMA2000™ Measurement Software Lite 
MX882136C 1xEV-DO Measurement Software Lite 
MX882142C LTE FDD Measurement Software Lite 
MX882143C LTE TDD Measurement Software Lite 
MX882164C LTE VoLTE Echoback 
Warranty Service MT8821C-ES210  2 years Extended Warranty Service 
MT8821C-ES310  3 years Extended Warranty Service 
MT8821C-ES510  5 years Extended Warranty Service 

*1 RoHS not supported at MT8821C-003, MT8821C-005 installation.

*2 The MT8821C-005 hardware supports both IS-856-0 (1xEV-DO Rev. 0) and IS-856-A (1xEV-DO Rev. A) RF measurements.

*3 The following measurement hardware support the Parallelphone™ measurement option: MT8821C-001, MT8821C-002, MT8821C-003, MT8821C-005, MT8821C-007 and MT8821C-008. All the measurement hardware can be installed simultaneously.

*4 MT8821C-00x

Select from the following according to the option type.

1: Retrofit option (Must be returned to factory in Japan)

2: Retrofit option (Must be returned to service center outside of Japan)

*5 For UE connectivity, contact your Anritsu sales representative.

*6 A commercial SIM adapter CANNOT be used. If used, it may jam and break in the UE.

*7 Refer to the P0135Ax/P0250Ax/P0260Ax/P0135Bx/P0250Bx/P0260Bx leaflet for details.



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MT8870A


Anritsu MT8870A Universal Wireless Test Set Anritsu MT8870A Universal Wireless Test Set
Anritsu MT8870A Universal Wireless Test Set
Anritsu MT8870A Universal Wireless Test Set

Suitable for Non-signaling Testing of Smartphone and Chipset Module

The MT8870A Universal Wireless Test Set has been specifically designed for the high volume manufacturing test of all common cellular and short range wireless technologies. An MT8870A instrument mainframe can contain up to four MU887000A/01A TRx test modules, each capable of independent control by an external PC. Each module has an integrated Vector Signal Generator (VSA) and Vector Signal Analyzer (VSA) to perform both Transmitter and Receiver RF tests, including both Analog and Digital Audio Analyzer.

All-in-one Platform Accommodating 4 Test Modules

mt8870a_modular.jpg

Up to four measurement modules can be installed in one main frame and each module can be controlled independently. The four installed modules share the same power supply, chassis, and internal bus interface, helping cut infrastructure costs.

Lower Cost of Test, Smaller Footprint and Cuts Line Downtime

With four TRx modules installed in one MT8870A main frame, the shared power supply, chassis, internal communications bus, remote controller, reference frequency oscillator, software license, etc., cut capital costs.

Whereas easy module swap-out cuts line downtime without having to send the whole unit for repair and an immediate changeovers takes only minutes.

Four Test Ports per Module (2 Full-duplex and 2 Half-duplex OR 4 Full-duplex)

mt8870a_ports.jpg

Each MU887000A/01A TRX Test Module has two full-duplex and two half-duplex RF connectors.

The full-duplex ports incorporate dividers at the front end to support simultaneous tests in both TX and RX directions when testing typical wireless standards.

The half-duplex ports incorporate switches at the front end to switch between each test port when used either for TX or RX tests. These half-duplex ports have higher sensitivity than the full-duplex ports and are ideal for low-level wireless signals.

Shared Software License and Easy Software Expansion

mt8870a_license.jpg

The TX measurement software packages and waveforms can each be licensed separately. One license can be used for up to four TRX test modules, cutting test equipment costs. A TX measurement software package is required for TX tests for each communication standard and a waveform is required for RX tests.

Since hardware specifications are shared by all MU887000A/01A TRx modules, new standards are easily supported by adding software licenses.

Fast Measurements Independent of External PC

mt8870a_mu887000a.jpg

The Dual Core CPU, DDR3 memory and fast PCIe bus in each MU887000A/01A TRx Test module assure fast measurements independent of the external PC.

Rx test waveforms can be preloaded into 4-GB ARB memory, cutting reload times when switching wireless standards.

Wide Frequency Range from 10 MHz to 6 GHz (Option MU887000A/01A-001)

To provide future-proof frequency-band extendibility, the frequency band covers a wide range from 10 MHz at the lower end to 6 GHz (option) at the upper end.

The wideband (10 MHz to 6 GHz) signal generator and signal analyzer support easy and smooth extendibility for new wireless standards, unlike dedicated test set supporting only specific frequencies.

Note: Standard TRx module operates from 10 MHz to 3.8 GHz

160 MHz Measurement Bandwidth comes as Standard

The MU887000A/01A TRx Test Module is able to perform RF transmitter / receiver testing of the latest WLAN standard 802.11ac wireless modules

Usually, upgrading bandwidth requires extra costs for changing instruments, adding options, etc., but since the MU887000A/01A has a 160MHz wide bandwidth as standard, these extra costs are unnecessary.

Support All Assorted Cellular and Wireless Standards Test

The MU887000A/01A TRx Test module is able to support the RF (PHY) testing of both cellular (LTE, W-CDMA, GSM etc.) and Short Range Wireless (WLAN and Bluetooth™) receivers and transmitters.

Supported Standards:

Supported Standards Specifications
W-CDMA/HSDPA 3GPP TS 34.121-1
3GPP TS 25.141
GSM/EDGE 3GPP TS 51.010-1
LTE/LTE-Advanced/ NB-IoT/Cat-M 3GPP TS 36.521-1
3GPP TS 36.141
CDMA2000™ 3GPP2 TSG-C.S0011-C
1xEV-DO 3GPP2 TSG-C.S0033-B
TD-SCDMA 3GPP TS 34.122
WLAN IEEE 802.11a/b/g/n/p/ac (Wave 2)/ax
Bluetooth™ Basic Rate/EDR/Bluetooth™ low energy (Bluetooth™ v5.0)
ZigBee IEEE 802.15.4
Z-Wave ITU-T G.9959
FM RDS (IEC 62106 Edition 2.0)
GPS GPS standard Positioning Service Signal
Galileo European GNSS (Galileo) Open Service Signal In Space Interface Control Document
GLONASS GLONASS ICD Navigational radiosignal In bands L1, L2
BeiDou BeiDou Navigation Satellite System Signal In Space Interface Control Document Open Service Signal (Version 2.0)
DVB-H ETSI EN300 744
ISDB-T/Tmm ARIB STD-B31/B46

Simultaneous Measurement of 4 Devices and Parallel Measurement of Multiple Wireless Technologies

mt8870a_parallel.jpg

With four modules installed in the MT8870A, four test devices can be connected and measured in parallel simultaneously. Different technologies can be measured in parallel, helping reduce both measurement times and line test equipment footprint.

For example: Two TRx Test Modules can be used to measure multiple wireless technologies in one smartphone. The multiple antennas for the various wireless technologies in the smartphone are connected all at one time to execute measurements in parallel, greatly reducing the problems of moving smartphones between test stations and re-booting time for smartphone.

Comprehensive MIMO Measurement Solutions

mt8870a_mimo.jpg

The MT8870A is ideal for performing streaming measurements from each antenna under conditions closely mimicking a real usage environment at the R&D and design stages. There is no need for troublesome external cable connections, because the timing of each MU887000A/01A unit and the 10-MHz reference frequency are synchronized by the internal connections, offering easy True MIMO measurement.


mt8870a_mimo_chart.jpg

Audio Analyzer and Audio Generator in Each TRx Module (Option MU887000A/01A-002)

By using FM TRx measurement capability, the built-in audio analyzer / generator is available to perform audio signal measurements. Support mono audio and stereo audio with analog interface or digital interface helping reduce the equipment footprint for wireless module manufacturing.


Basic Performance

Parameters / Characteristics Specifications
General Number of Slots 4
Remote Programming Interface Ethernet (1000Base-T), GPIB for each module (with option MT8870A-001)
Dimensions and Mass 426 (W) x 221.5 (H) x 498 (D) mm (Exclude surface projection)
≤11.5 kg (Excluding all options and modules)
≤30.0 kg (Including options and modules)

MU887000A TRX Slot-in Test Module

Parameters / Characteristics Specifications
RF Test Ports Ports 4 (2 Full-duplex, 2 Half-duplex)
Max. Input Level +35 dBm (Test port 1 and 2)
+25 dBm (Test port 3 and 4)
AF Test Ports Ports Analog Port (L/R BNC-female), Digital Port (RJ-45)

MU887001A TRX Slot-in Test Module

Parameters / Characteristics Specifications
RF Test Ports Ports 4 Full-duplex
Max. Input Level +35 dBm
AF Test Ports Ports Analog Port (L/R BNC-female), Digital Port (RJ-45)

Signal Generator Function

Frequency Setting Range 10 MHz to 3.8 GHz
10 MHz to 6.0 GHz (with MU887000A/01A-001)
Resolution 1 Hz
Accuracy Depends on MT8870A reference oscillator accuracy
Amplitude Setting Range Full-duplex Test Port
  -130 to -10 dBm (≤ 3.8 GHz)
  -130 to -18 dBm (> 3.8 GHz)
Half-duplex Test Port
  -120 to 0 dBm (≤ 3.8 GHz)
  -120 to -8 dBm (> 3.8 GHz)
Setting Resolution 0.1 dB
Accuracy CW, After CAL, 10° to 40°C
Full-duplex Test Port
  Output level: ≥ -120 dBm (≤ 3.8 GHz), ≥ -100 dBm (>3.8 GHz)
  ±1.3 dB (10 MHz ≤ f < 400 MHz) (Signal Analyzer input level: +15 dBm)
  ±0.7 dB (typ.), ±1.0 dB (400 MHz ≤ f ≤ 3.8 GHz)
  ±1.0 dB (typ.), ±1.3 dB (3.8 GHz < f ≤ 6.0 GHz)
Half-duplex Test Port
  Output level: ≥ -110 dBm
  ±1.3 dB (10 MHz ≤ f < 400 MHz)
  ±0.7 dB (typ.), ±1.0 dB (400 MHz ≤ f ≤ 3.8 GHz)
  ±0.7 dB (typ.), ±1.3 dB (3.8 GHz < f ≤ 6.0 GHz)
Spurious Response Harmonic Distortion < -25 dBc
Vector Modulation Bandwidth Maximum 160 MHz

Signal Analyzer Function

Frequency Setting Range 10 MHz to 3.8 GHz
10 MHz to 6.0 GHz (with MU887000A/01A-001)
Resolution 1 Hz
Amplitude Resolution 0.1 dB
Accuracy CW, Measurement bandwidth: 300 kHz, RBW: 100 kHz, After CAL
Full-duplex Test Port
 10 MHz ≤ f < 400 MHz, Signal Generator: Off, +10° to +40°C
   ±0.7 dB (-30 dBm ≤ p ≤ +15 dBm)
   ±0.9 dB (-55 dBm ≤ p < -30 dBm)
   ±1.1 dB (-65 dBm ≤ p < -55 dBm)
 400 MHz ≤ f ≤ 3.8 GHz, +10° to +40°C
   ±0.3 dB (typ.), ±0.5 dB (-30 dBm ≤ p ≤ +35 dBm)
   ±0.7 dB (-55 dBm ≤ p < -30 dBm)
   ±0.9 dB (-65 dBm ≤ p < -55 dBm)
 3.8 GHz < f < 6.0 GHz, +20° to +30°C
   ±0.7 dB (-30 dBm ≤ p ≤ +35 dBm)
   ±0.9 dB (-55 dBm ≤ p < -30 dBm)
   ±1.1 dB (-65 dBm ≤ p < -55 dBm)
Half-duplex Test Port
 10 MHz ≤ f < 400 MHz, Signal Generator: Off, +10° to +40°C
   ±0.7 dB (-30 dBm ≤ p ≤ +15 dBm)
   ±0.9 dB (-55 dBm ≤ p < -30 dBm)
   ±1.1 dB (-65 dBm ≤ p < -55 dBm)
 400 MHz ≤ f ≤ 3.8 GHz, +10° to +40°C
   ±0.7 dB (-30 dBm ≤ p ≤ +25 dBm)
   ±0.9 dB (-55 dBm ≤ p < -30 dBm)
   ±1.1 dB (-65 dBm ≤ p < -55 dBm)
 3.8 GHz < f < 6.0 GHz, +20° to +30°C
   ±0.7 dB (-30 dBm ≤ p ≤ +25 dBm)
   ±0.9 dB (-55 dBm ≤ p < -30 dBm)
   ±1.1 dB (-65 dBm ≤ p < -55 dBm)
Linearity CW, Measurement bandwidth: 300 kHz, RBW: 100 kHz
±0.2 dB (0 to -40 dBm, ≥ -55 dBm)
±0.4 dB (0 to -40 dBm, ≥ -65 dBm)
Modulation Analysis Maximum Bandwidth 25 MHz (10 MHz ≤ f < 500 MHz)
80 MHz (500 MHz ≤ f < 1.9 GHz)
160 MHz (1.9 GHz ≤ f ≤ 6.0 GHz)

Audio Measurement Hardware (MU887000A/01A-002)

Parameters / Characteristics Specifications
Analog Audio Audio Generator Frequency Range 20 Hz to 20 kHz
Output Level Range 0 (off), 1 mV to 5 Vpeak (100 kΩ termination)
Impedance 1Ω (nominal), (AC Coupling)
Audio Analyzer Frequency Range 20 Hz to 20 kHz
Input Level Range 1 mV peak to 5 V peak (30 Vrms Max.)
Impedance 100 kΩ (nominal), (AC Coupling)
Digital Audio Audio Generator Frequency Range 20 Hz to 20 kHz (44.1 kHz, 48 kHz Sampling)
20 Hz to 14 kHz (32 kHz Sampling)
20 Hz to 7 kHz (16 kHz Sampling)
Bit Resolution 16 bits / 24 bits
Audio Generator Sampling Rate 16 kHz, 32 kHz, 44.1 kHz, 48 kHz
Bit Resolution 16 bits / 24 bits

Options

Options Descriptions / Documentations
Hardware
Main Frame
MT8870A Universal Wireless Test Set (Main Frame)
MT8870A-001 Add GPIB Control (for all modules)

Ethernet (1000Base-T is standard)

Slot-in Test Module MU887000A 2 Full-duplex and 2 Half-duplex TRx Test Module (10 MHz to 3.8 GHz)
MU887001A-001 4 Full-duplex TRx Test Module (10 MHz to 3.8 GHz)
MU887000A/01A-001 6 GHz Frequency Extension (per module)
MU887000A/01A-002 Audio Measurement Hardware (per module)
Software MX887010A Cellular Standards Sequence Measurement
MX887011A W-CDMA/HSPA Uplink TX Measurement
MX887012A GSM/EDGE Uplink TX Measurement
MX887013A LTE FDD Uplink TX Measurement
MX887013A-001 LTE-Advanced FDD Uplink CA TX Measurement
MX887014A LTE TDD Uplink TX Measurement
MX887014A-001 LTE-Advanced TDD Uplink CA TX Measurement
MX887015A CDMA2000™ Reverse Link TX Measurement
MX887016A 1xEV-DO Reverse Link TX Measurement
MX887017A TD-SCDMA Uplink TX Measurement
MX887021A W-CDMA/HSPA Downlink TX Measurement
MX887023A LTE FDD Downlink TX Measurement
MX887030A WLAN 802.11b/g/a/n TX Measurement*2
MX887031A WLAN 802.11ac TX Measurement*2
MX887032A WLAN 802.11p TX Measurement*2
MX887033A WLAN 802.11ax TX Measurement*2
MX887040A Bluetooth™ TX Measurement
MX887040A-001 DLE TX Measurement*3
MX887040A-002 2LE TX Measurement*3, *4
MX887040A-003 BLR TX Measurement*3, *4
MX887050A Short Range Wireless Average Power and Frequency Measurement
MX887060A IEEE 802.15.4 TX Measurement
MX887061A Z-Wave TX Measurement
MX887065A Category M FDD Uplink TX Measurement
MX887067A NB-IoT Uplink TX Measurement
MX887070A FM/Audio TRX Measurement*5
MX887090A Multi-DUT Measurement Scheduler
Waveform File MV887011A W-CDMA/HSPA Downlink Waveforms
MV887012A GSM/EDGE Downlink Waveforms
MV887013A LTE FDD Downlink Waveforms
MV887014A LTE TDD Downlink Waveforms
MV887015A CDMA2000™ Forward Link Waveforms
MV887016A 1xEV-DO Forward Link Waveforms
MV887017A TD-SCDMA Downlink Waveforms
MV887021A W-CDMA/HSPA Uplink Waveforms
MV887023A LTE FDD Uplink Waveforms
MV887030A WLAN 802.11b/g/a/n Waveforms*2
MV887031A WLAN 802.11ac Waveforms*2
MV887032A WLAN 802.11p Waveforms
MV887033A WLAN 802.11ax Waveforms*2
MV887040A Bluetooth™ Waveforms
MV887040A-001 DLE Waveforms*6
MV887040A-002 2LE Waveforms*6, *7
MV887040A-003 BLR Waveforms*6, *7
MV887060A IEEE 802.15.4 Waveforms
MV887061A Z-Wave Waveforms
MV887065A Category M FDD Downlink Waveforms
MV887067A NB-IoT Downlink Waveforms
MV887070A FM RDS Waveforms
MV887100A GPS Waveforms
MV887101A Galileo Waveforms
MV887102A GLONASS Waveforms
MV887103A BeiDou Waveforms
MV887110A DVB-H Waveforms
MV887111A ISDB-T Waveforms
MV887112A ISDB-Tmm Waveforms
Warranty Service
(Main Frame)
MT8870A-ES2102 years Extended Warranty Service
MT8870A-ES3103 years Extended Warranty Service
MT8870A-ES5105 years Extended Warranty Service
Warranty Service
(Per Module)
MU887000A/01A-ES2102 years Extended Warranty Service
MU887000A/01A-ES3103 years Extended Warranty Service
MU887000A/01A-ES5105 years Extended Warranty Service

*1 Installed in empty slots

*2 Requires MU88700xA-001 for 5 GHz (802.11a/n/p/ac) frequency measurements

*3 Requires MX887040A

*4 Requires MX887040A-001

*5 Requires MU88700xA-002 for audio signal measurements

*6 Requires MV887040A

*7 Requires MV887040A-001



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RWC5020A


RedwoodComm RWC5020A LoRa Tester RedwoodComm RWC5020A LoRa Tester RedwoodComm RWC5020A LoRa Tester
RedwoodComm RWC5020A LoRa Tester
RedwoodComm RWC5020A LoRa Tester
RedwoodComm RWC5020A LoRa Tester

RWC5020A LoRa Tester is a compact all-in-one tester, providing a perfect solution for test and measurement of LoRaWAN™ technology, which is fully suitable for R&D, QC, and manufacturers. It provides various test functions that can be performed in signaling mode, e.g. including activation procedures, as well as non-signaling mode. Automated PC software will help users test and debug their devices by performing pre-certification tests, as specified by LoRa Alliance™.

3 Operational Modes

Operational Modes

Operational Modes

Operational Modes

Link Analyzer

Analyzing frames for MAC/PHY analysis

RWC5020A provides a function of Link Analyzer for EDT and GWT. Link Analyzer in EDT (or GWT) helps to create a link between RWC5020A and an End Device (or Gateway/Server) Under Test and to analyze the protocol messages.


link_analyzer_edt
link_analyzer_gwt

Transmission of MAC commands :

mac_commands

send MAC commands to your device and check how it works and responds

  • multiple MAC commands in a single frame
  • all MAC commands defined in LoRaWAN™ with user-configurable parameters
  • field selection: frame payload or frame options
  • message type selection: confirmed or unconfirmed
  • user defined message: editable payload data and port field

Power vs. Time

Continuously monitoring TX power of DUT with respect to data rates(SF)

RWC5020A provides a function of Power vs. Time measurement for EDT and GWT. Power vs. Time measurement in EDT (or GWT) helps to create a link between RWC5020A and an End Device (or Gateway/Server) Under Test and to measure the received power with respect to data rates.


power_time_edt
power_time_gwt

Power vs. Channel

Continuously monitoring TX power of DUT with respect to channels

RWC5020A provides a function of Power vs. Channel measurement for EDT and GWT. Power vs. Channel measurement in EDT (or GWT) helps to create a link between RWC5020A and an End Device (or Gateway/Server) Under Test and to measure the received power with respect to RF channels.


power_channel_edt
power_channel_gwt

Receiver Sensitivity

Finding the minimum power level which DUT can receive frames from the Tester

Receiver Sensitivity is a function of testing the receiver performance of DUT. RWC5020A sweeps its power level from the start value to the stop value with the step value and checks whether DUT functions properly, and stops immediately after DUT does not function properly.


receiver_sensitivity_edt
receiver_sensitivity_gwt

Signal Generator

Transmiting LoRa test frames/CW

Signal Generator is a function of transmitting the defined test waveform to DUT repeatedly. Two different modes are provided; LoRa and CW. Especially in case of LoRa mode, various parameters are configurable to compose a LoRa test frame.


parameters_sig_gen
sig_gen_running

Signal Analyzer

Measuring received power in NST

Signal Analyzer is a function of analyzing LoRa frames received from DUT repeatedly. Various parameters are configurable to receive a LoRa test frame.


parameters_sig_analyzers
sig_analyzers_running

Key Features

lorawan

Confirming that the end device meets the functional requirements of the LoRaWAN™ protocol specification

RWC5020A certification test is recommended for purpose of pre-qualification. Some of certification test items could be limited or not fully covered due to the limitation of maximum number of channels supported simultaneously.


Supported Pre-certification Test Option

  • LoRa Alliance™ European EU 863-870MHz Region End Device Certification Requirements V1.5
  • LoRa Alliance™ US + Canada US902-928MHz Region End Device Certification Requirements V1.2
  • LoRa Alliance™ Asia AS 923MHz Region End Device Certification Requirements V1.0
  • LoRa Alliance™ South Korea 920-923MHz Region End Device Certification Requirements V1.1

Supported LoRaWAN™ Region

EU 863~870 // EU 433 // US 902~928 // AU 915~928 // CN 470~510 // KR 920~923 // AS 923 // IN 865~867


Supported LoRaWAN™ Protocol

Class A/B/C for LoRaWAN™ V1.0.2 and V1.1



Basic Performance

Parameters / Characteristics Specifications
Frequency Range 400MHz ~ 510MHz, 862MHz ~ 960MHz
Resolution  100Hz
Accuracy ±1ppm/year @ operating temperature
Channel up to eight 125kHz channels and one 500kHz channel simultaneously
Output Level Range -10dBm ~ -150dBm
Resolution 0.5dB
Accuracy ±1dB
Input Level Range +30dBm ~ -50dBm
Accuracy ±1dB
RF Characteristics VSWR Better than 1:1.5
Impedance 50Ω
Frequency Reference Internal Reference & Stability 10 MHz, ±1ppm/year @ operating temperature
External Reference 10MHz (0dBm ~ +20dBm MAX)
Remote Programming Ports RJ45(TCP/IP), RS-232C
Miscellaneous  Operating temperature 5 ~ 40°C
Line Voltage 100 to 240 VAC, 50/60Hz
Dimension 250(w) x 110(h) x 348(d) mm
Weight 5kg

Options

Options Descriptions
C5020A-00 EDT+GWT+NST mode (Full option)
C5020A-01 EDT+GWT mode (Signaling option)
C5020A-02 NST only (Non-signaling option)
C5020A-03 EDT only
C5020A-04 GWT only
C5020A-05 EDT+NST mode
C5020A-06 GWT+NST mode

* Each of these modes can be purchased later as an upgrade method



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Note: All trademarks that appear on this website are the property of their respective owners.


MT8820C


Anritsu MT8820C Cellular / Radio Communication Analyzer Anritsu MT8820C Cellular / Radio Communication Analyzer
Anritsu MT8820C Cellular / Radio Communication Analyzer
Anritsu MT8820C Cellular / Radio Communication Analyzer

All-in-One Test Platform Supporting LTE and Compatible with Existing 3G/2G

The MT8820C Radio Communication Analyzer supports manufacturing of LTE mobiles, including RF calibration, RF parametric testing, and functional tests. It is also supporting LTE/3G/2G UE RF development as well as manufacturing of multi-systems.

Supports Multi-communication Systems and Upgradeable from MT8820B/15B

mt8820c_2g3glte.jpg

The MT8820C Radio Communication Analyzer platform covers a frequency range of 30 MHz to 2.7 GHz (3.4 GHz to 3.8 GHz with option MT8820C-018)

When the dedicated optional measurement softwares and hardwares are installed, the major Tx and Rx characteristics of LTE (FDD/TDD), LTE-Advanced (FDD), W-CDMA/HSPA/HSPA Evolution/DC-HSDPA, GSM/GPRS/EGPRS, CDMA2000™ 1X, CDMA2000™ 1xEV-DO Rev. A, PHS/Advanced PHS, and TD-SCDMA/HSPA terminals can be measured using a single MT8820C unit.

The MT8820B/15B hardware and software can be upgraded to the MT8820C, helping maximize investment efficiency.


Summary of Supported Communication Systems

Communication System Software Option No.
LTE LTE FDD Measurement Software MX882012C
LTE-Advanced FDD DL CA Measurement Software MX882012C-021    *1
LTE TDD Measurement Software MX882013C
LTE FDD Measurement Software Lite MX882042C    *2
LTE TDD Measurement Software Lite MX882043C    *2
W-CDMA W-CDMA Measurement Software MX882000C
W-CDMA Call Processing Software MX882050C    *3
MX882051C    *3
W-CDMA Ciphering Software MX882070C    *3
MX882071C    *3
HSDPA Measurement Software MX882000C-011    *3
HSUPA Measurement Software MX882000C-021    *3
HSPA Evolution Measurement Software MX882000C-031    *3
DC-HSDPA Measurement Software MX882000C-032    *3,    *4
TD-SCDMA TD-SCDMA Measurement Software MX882007C
TD-SCDMA HSDPA Measurement Software MX882007C-011    *5
TD-SCDMA HSUPA Measurement Software MX882007C-021    *5
GSM/GPRS GSM Measurement Software MX882001C
EGPRS EGPRS Measurement Software MX882001C-011
CDMA2000™ 1X CDMA2000™ 1X Measurement Software MX882002C
CDMA2000™ 1xEV-DO (Rev.0) CDMA2000™ 1xEV-DO Measurement Software MX882006C    *6
CDMA2000™ 1xEV-DO (Rev.A) CDMA2000™ 1xEV-DO Rev.A Measurement Software MX882006C-011    *6
LTE Parallelphone™ Measurement Software MX882010C
W-CDMA
TD-SCDMA
GSM/GPRS/EGPRS
CDMA2000™ 1X/1xEV-DO
PHS PHS Measurement Software MX882005C
ADVANCED PHS ADVANCED PHS Measurement Software MX882005C-011

*1 : For LTE-Advanced FDD CA terminal connection, contact your Anritsu sales representative.
*2 : The MX882042C and MX882043C are non-Call Processing products.
*3 : For supported W-CDMA terminal connections, contact your sales representative.
*4 : DC-HSPA measurements require the MT8820C-012, MT8820C-001 (2 sets), MX882000C, MX882000C-011, MX882000C-021, MX882000C-031, MX882000C-032, MX882010C and MX882050C (as well as one MT8820C). DC-HSDPA is only supported by the MT8820C.
*5 : For supported TD-SCDMA HSDPA/HSUPA terminal connections, contact your sales representative.
*6 : The MX882006C supports RF measurements for CDMA2000™ 1xEV-DO (Rev.0) mobile terminals. The MX882006C-011 supports RF measurements for CDMA2000™ 1xEV-DO Rev. A mobile terminals.

Supports All Manufacturing Processes

The MT8820C solution supports all tests ranging from RF parametric to UE function and performance tests.

Supported RF Parametric Tests:


  • UE Transmitter Test
  • UE Receiver Test
  • Signalling / Non-Signalling Mode
  • UE Calibration

Supported Function and Performance Tests:


  • Voice Call, Video Call
  • External Packet Data
  • Current Consumption

Advanced Digital Signal Processing and Batch Measurement

Manufacturing and inspection test times have been dramatically cut by incorporating advanced DSP and parallel measurement technologies. Furthermore, several measurement items can be selected freely for batch measurement, and the number of measurements for each measurement item can be configured separately. The one-touch operation supports easy and quick measurement of Tx and Rx characteristics, including transmit frequency, modulation accuracy, transmit power, spectrum emission mask, adjacent channel leakage power ratio, occupied bandwidth, and BER.

Parallelphone™ Measurement

mt8820c_parallelphone.jpg

When the Parallelphone™ Measurement option is installed in the MT8820C main frame, two different mobile terminals can be connected and tested simultaneously with a single MT8820C using its second RF, AF, GPIB, and Ethernet port.

This functionality significantly improves manufacturing efficiency by reducing production costs (return on investment and energy saving) and space.

MT8820A/B Compatibility

All functions, performance, remote commands are backwards compatible with the MT8820A/B, so customers can easily retask control software and knowledge from the MT8820A/B.


Basic Performance

Parameters / Characteristics Specifications
Frequency Frequency Range 30 MHz to 2700 MHz (3400 MHz to 3800 MHz extension with option MT8820C-018)
RF Input Max. Input Level +35 dBm (Main)
RF Signal Generator Frequency Frequency Range 30 MHz to 2700 MHz (setting range: 400 kHz to 2700 MHz)
3400 MHz to 3800 MHz (valid only if MT8820C-018 is installed)
Resolution 1 Hz
Output Level Level Range -140 to -10 dBm (Main 1), -130 to 0 dBm (AUX)
Resolution 0.1 dB
Accuracy Main:
  ±0.7 dB (typ.), ±1.0 dB (Output frequency ≥50 MHz)
  ±1.5 dB (Output frequency <50 MHz)
  -120 to -10 dBm, after calibration, 10° to 40°C
Aux:
  ±0.7 dB (typ.), ±1.0 dB (Output frequency ≥50 MHz),
  ±1.5 dB (Output frequency <50 MHz)
  -110 to 0 dBm, after calibration, 10° to 40°C
LTE FDD Measurement
 (Hardware: Option 008 &   Software: MX882012C) or
LTE TDD Measurement
 (Hardware: Option 008 &   Software: MX882013C)
Frequency Frequency Range 400 MHz to 2700 MHz
3400 MHz to 3800 MHz (valid only if MT8820C-018 is installed)
Amplitude Measurements Input Level -60 to +35 dBm (Main)
Accuracy ±0.3 dB (typ.), ±0.5 dB (-20 to +35 dBm)
±0.7 dB (-50 to -20 dBm)
±0.9 dB (-60 to -50 dBm)
400 MHz to 2700 MHz, after calibration, 10° to 40°C
±0.3 dB (typ.), ±0.5 dB (-20 to +35 dBm) (18° to 28°C)
±0.7 dB (-50 to +35 dBm)
±0.9 dB (-60 to -50 dBm)
3400 MHz to 3800 MHz, after calibration, 10° to 40°C
Linearity ±0.2 dB (-40 to 0 dB, ≥-50 dBm)
±0.4 dB (-40 to 0 dBm, ≥-60 dBm)
400 MHz to 2700 MHz, after calibration, 10° to 40°C
±0.2 dB (-40 to 0 dB, ≥-50 dBm, 18° to 28°C)
±0.3 dB (-40 to 0 dB, ≥-50 dBm)
±0.4 dB (-40 to 0 dBm, ≥-60 dBm)
3400 MHz to 3800 MHz, after calibration, 10° to 40°C
Frequency / Modulation Measurements Input Level -40 to +35 dBm (Main)
Carrier Frequency Accuracy ±(Setting frequency x Reference oscillator accuracy +15 Hz)
Measurement Object PUSCH, PRACH, PUCCH
Call Processing Call Controlling Registration, Call processing for Reference Measurement Channel
  (executes each processing conforming to 3GPP standards and performs pass/fail evaluation)
Mobile Terminal Controlling Output Level
  (executes each mobile terminal control conforming to 3GPP standards)
LTE FDD Measurement
 (Hardware: Option 008 &   Software: MX882042C) or
LTE TDD Measurement
 (Hardware: Option 008 &   Software: MX882043C)
Frequency Frequency Range 400 MHz to 2700 MHz
3400 MHz to 3800 MHz (valid only if MT8820C-018 is installed)
Amplitude Measurements Input Level -60 to +35 dBm (Main)
Accuracy ±0.3 dB (typ.), ±0.5 dB (-20 to +35 dBm)
±0.7 dB (-50 to -20 dBm)
±0.9 dB (-60 to -50 dBm)
400 MHz to 2700 MHz, after calibration, 10° to 40°C
±0.3 dB (typ.), ±0.5 dB (-20 to +35 dBm) (18° to 28°C)
±0.7 dB (-50 to +35 dBm)
±0.9 dB (-60 to -50 dBm)
3400 MHz to 3800 MHz, after calibration, 10° to 40°C
Linearity ±0.2 dB (-40 to 0 dB, ≥-55 dBm)
±0.4 dB (-40 to 0 dBm, ≥-60 dBm)
400 MHz to 2700 MHz, after calibration, 10° to 40°C
±0.2 dB (-40 to 0 dB, ≥-50 dBm, 18° to 28°C)
±0.3 dB (-40 to 0 dB, ≥-50 dBm)
±0.4 dB (-40 to 0 dBm, ≥-60 dBm)
3400 MHz to 3800 MHz, after calibration, 10° to 40°C
Frequency / Modulation Measurements Input Level -40 to +35 dBm (Main)
Carrier Frequency Accuracy ±(Setting frequency x Reference oscillator accuracy +15 Hz)
Measurement Object PUSCH
W-CDMA Measurement
 (Hardware: Option 001 &   Software: MX882000C, MX88205xC)
Frequency Frequency Range 300 MHz to 2700 MHz
Modulation Analysis Input Level -30 to +35 dBm (Main)
Modulation Accuracy ≤2.5% (at input of single DPCCH and single DPDCH)
RF Power Input Level -65 to +35 dBm (Main)
Measurement Accuracy ±0.3 dB (typ.), ±0.5 dB (-25 to +35 dBm)
±0.7 dB (-55 to -25 dBm)
±0.9 dB (-65 to -55 dBm)
after calibration, 10° to 40°C
Measurement Object DPCH, PRACH
Occupied Bandwidth Input Level -10 to +35 dBm (Main)
Adjustment Channel Leakage Power Ratio (ACLR) Input Level -10 to +35 dBm (Main)
Modulation Point ±5 MHz, ±10 MHz
Error Rate Measurement Functions Insert PN9 or PN15 pattern in DTCH
Measurement Items BER, BLER
Call Processing Call Controlling Registration, Origination, Termination, Handover, Network disconnect, Terminal disconnect
  (executes each processing conforming to 3GPP standards and performs Pass/Fail evaluation)
Mobile Terminal Controlling Output Level, Loopback
  (executes each mobile terminal control conforming to 3GPP standards)
GSM / GPRS Measurement
 (Hardware: Option 002 &   Software: MX882001C)
Frequency Frequency Range 300 MHz to 2700 MHz
Frequency / Modulation Measurements Input Level -30 to +40 dBm (Average power of burst signal, Main)
Measurement Items Normal burst, RACH
Amplitude Measurements Input Level -30 to +40 dBm (Average power of burst signal, Main)
Measurement Items Normal burst, RACH
Accuracy ±0.3 dB (typ.), ±0.5 dB (-20 to +40 dBm)
±0.7 dB (-30 to -20 dBm)
after calibration, 10° to 40°C
Linearity ±0.2 dB (-40 to 0 dB, ≥-30 dBm)
Error Rate Measurements Functions Frame, Bit and CRC error measurement
Measurement Object GSM
  Loopback data imposed on uplink TCH
  Serial data input from rear panel call processing I/O port
GPRS
  Number of blocks received from terminal imposed on uplink TCH for GPRS
Call Processing Call Controlling GSM
  (Location registration, Origination, Termination, Network disconnect, Terminal disconnect)
GPRS
  (Connection, Disconnection, Data transfer)
Mobile Terminal Controlling GSM
  (Output Level, Time slot, Timing Advance, Loopback On/Off)
GPRS
   (Test Mode A, Test Mode B, BLER)
CDMA2000™ 1X Measurement
 (Hardware: Option 003 &   Software: MX882002C)
Frequency Frequency Range 300 MHz to 2700 MHz
Amplitude Measurements Input Level -65 to +35 dBm (Main)
Accuracy ±0.3 dB (typ.), ±0.5 dB (-25 to +35 dBm)
±0.7 dB (-55 to -25 dBm)
±0.9 dB (-65 to -55 dBm)
after calibration, 10° to 40°C
Linearity ±0.2 dB (-40 to 0 dB, ≥-55 dBm)
±0.4 dB (-40 to 0 dBm, ≥-65 dBm)
Frequency / Modulation Measurements Input Level -30 to +35 dBm (Main)
Carrier Frequency Accuracy ±(Setting frequency x Reference oscillator accuracy +10 Hz)
Residual Waveform Quality > 0.999
Error Rate Measurements Functions Frame Error Rate (FER) measurement with service option 2, 9, 55 and 32 (TDSO)
Display Items Confidence Level, FER, Error Frame Count, Sample Frame Count
Call Processing Band Class BC 0 to 12, 14, 15, 18, 19
Call Controlling Location Registration, Origination, Termination, Network Disconnect, Terminal Disconnect
Paging Channel Data Rate Full
Radio Configuration F-RC1 + R-RC1, F-RC2 + R-RC2, F-RC3 + R-RC3, F-RC4 + R-RC3, F-RC5 + R-RC4
Supported Protocols IS-95B, J-STD-008C, ARIB T-53, Korean PCS, IS-2000 (SR1)
CDMA2000™ 1xEV-DO Measurement
 (Hardware: Option 005 &   Software: MX882006C)
Frequency Frequency Range 300 MHz to 2700 MHz
Frequency / Modulation Measurements Input Level -30 to +35 dBm (Main)
Carrier Frequency Accuracy ±(Setting frequency x Reference oscillator accuracy +10 Hz)
Residual Waveform Quality > 0.999
Residual EVM < 2% rms
Code Domain Power Input Level -30 to +35 dBm (Main)
Measurement Accuracy ±0.2 dB (code power ≥-15 dBc)
±0.4 dB (code power ≥-23 dBc)
RF Signal Generator Channel Level Pilot channel, MAC channel, Control channel, Traffic channel, All 0 dB (reference Ior)
PN Offset 0 to 511
Waveform Quality > 0.99 (pilot only, AWGN Off)
AWGN Level -20 to +12 dB (relative level to CDMA signal) or Off
Max. CDMA Signal Output Level AWGN On -28 dBm (Main output), -18 dBm (AUX output)
Call Processing Band Class BC 0 to 12, 14, 15, 18, 19
Call Control Open Session, Close Session, AT Origination, NW Origination, AT Release, NW Release, Hard Handoff, Softer Handoff
Rev.Closed Loop Power Control Mode Closed Loop, Alternate, All 0 (All Up), All 1 (All Down)
Test Application Protocol RTAP, FTAP, FTAP + RTAP
TD-SCDMA Measurement
 (Hardware: Option 001, 007 &   Software: MX882007C)
Frequency Frequency Range 300 MHz to 2700 MHz
Amplitude Measurements Input Level -70 to +35 dBm (Main)
Measurement Accuracy ±0.3 dB (typ.), ±0.5 dB (-25 to +35 dBm)
±0.7 dB (-55 to -25 dBm)
±0.9 dB (-70 to -55 dBm)
after calibration, 10° to 40°C
Linearity ±0.2 dB (-40 to 0 dB, ≥-55 dBm)
±0.4 dB (-40 to 0 dBm, ≥-65 dBm)
Frequency / Modulation Measurements Input Level -30 to +35 dBm (Main)
Carrier Frequency Accuracy ±(Setting frequency x Reference oscillator accuracy +10 Hz)
Measurement Object DPCH, UPPCH
Error Rate Measurements Functions Insert PN9 or PN15 Pattern in DTCH
Measurement Items BER, BLER
Call Processing Call Controlling Registration, Origination, Termination, Network Disconnect, Terminal Disconnect
  (executes each processing conforming to 3GPP standards and performs pass/fail evaluation)
Output Level, Loopback Output Level
  (executes each mobile terminal control conforming to 3GPP standards)
General Dimensions and Mass 426 (W) x 221.5 (H) x 498 (D) mm (Exclude surface projection)
≤30 kg (with all options)

Options

Options Descriptions / Documentations
Hardware MT8820C Radio Communication Analyzer (Main Frame)
MT8820C-001 W-CDMA Measurement Hardware
MT8820C-002 TDMA Measurement Hardware
MT8820C-003 CDMA2000™ Measurement Hardware
MT8820C-007 TD-SCDMA Measurement Hardware
MT8820C-008 LTE Measurement Hardware
MT8820C-011 Audio Board
MT8820C-012 Parallel Phone Measurement Hardware
MT8820C-018 Extended RF 3.4 GHz to 3.8 GHz (requires MT8820C-017, MT8820C-119, or MT8820C-120)
MT8820C-043 CDMA2000™ Time Offset CAL for GPS SG (requires MT8820C-003 and MX882002C)
Software MX882000C W-CDMA Measurement Software (requires MT8820C-001 and MX88205xC)
MX882000C-001 W-CDMA Voice Codec (requires MT8820C-011 and MX882000C)
MX882000C-011 HSDPA Measurement Software (requires MT8820C-001, MX882000C, and MX882050C)
MX882000C-013 HSDPA High Data Rate (requires MT8820C-001, MX882000C, MX882000C-011, and MX882050C)
MX882000C-021 HSUPA Measurement Software (requires MT8820C-001, MX882000C, MX882000C-011, and MX882050C)
MX882000C-031 HSPA Evolution Measurement Software *3 (requires MT8820C-001, MX882000C, MX882000C-011, MX882000C-021, and MX882050C)
MX882000C-032 DC-HSDPA Measurement Software *3, *4(requires MT8820C-001 (2 sets), MT8820C-012, MX882000C, MX882000C-011, MX882000C-021, MX882000C-031, MX882010C, and MX882050C)
MX882000C-033 DC-HSUPA Measurement Software *3, *12(requires MT8820C-001 (2 sets), MT8820C-012, MX882000C, MX882000C-011, MX882000C-021, MX882000C-031, MX882010C, and MX882050C)
MX882000C-034 4C-HSDPA Measurement Software *3, *12(requires MT8820C-001 (2 sets), MT8820C-012, MX882000C, MX882000C-011, MX882000C-021, MX882000C-031, MX882010C, and MX882050C)
MX882001C GSM Measurement Software (requires MT8820C-002)
MX882001C-001 GSM Voice Codec (requires MT8820C-011 and MX882001C)
MX882001C-002 GSM External Packet Data (requires MX882001C)
MX882001C-011 EGPRS Measurement Software (requires MX882001C)
MX882001C-041 GSM High-speed Adjustment (requires MX882001C)
MX882002C CDMA2000™ Measurement Software (requires MT8820C-003)
MX882002C-001 CDMA2000™ Voice Codec (requires MT8820C-011 and MX882002C)
MX882002C-002 CDMA2000™ External Packet Data (requires MX882002C)
MX882005C PHS Measurement Software (requires MT8820C-002)
MX882005C-011 Advanced PHS Measurement Software (requires MX882005C)
MX882007C TD-SCDMA Measurement Software (requires MT8820C-001 and MT8820C-007)
MX882007C-001 TD-SCDMA Voice Codec (requires MT8820C-011 and MX882007C)
MX882007C-003 TD-SCDMA Video Phone Test (requires MX882007C)
MX882007C-011 TD-SCDMA HSDPA Measurement Software *3 (requires MT8820C-001, MT8820C-007, and MX882007C)
MX882007C-012 TD-SCDMA HSDPA Evolution Measurement Software *3 (requires MT8820C-001, MT8820C-007, MX882007C, MX882007C-011)
MX882007C-021 TD-SCDMA HSUPA Measurement Software *3 (requires MT8820C-001, MT8820C-007, MX882007C, MX882007C-011)
MX882010C Parallel Phone Measurement Software *5 (requires MT8820C-012, the two same measurement hardware [2 board/set] and one measurement software)
MX882012C LTE FDD Measurement Software *3 (requires MT8820C-008)
MX882012C-006 LTE FDD IP Data Transfer *3 (requires MX882012C)
MX882012C-011 LTE FDD 2x2 MIMO DL *3, *6 (requires MT8820C-012 and MX882012C)
MX882012C-016 LTE FDD CS Fallback to W-CDMA/GSM *7 (requires MX882012C)
MX882012C-017 LTE FDD CS Fallback to CDMA2000™ *7 (requires MX882012C)
MX882012C-21 LTE-Advanced FDD DL CA Measurement Software *3, *8 (requires MT8820C-008 (2 sets), MT8820C-012, MX882010C, and MX882012C)
MX882012C-26 LTE-Advanced FDD DL CA IP Data Transfer *13 (requires MT8820C-008 (2 sets), MT8820C-012, MX882010C, MX882012C, MX882012C-006, MX882012C-021)
MX882012C-31 LTE-Advanced FDD DL CA Measurement Software *3, *14 (requires MT8820C-008 (2 sets), MT8820C-012, MX882010C, and MX882012C)
MX882013C LTE TDD Measurement Software *3 (requires MT8820C-008)
MX882013C-006 LTE TDD IP Data Transfer *3 (requires MX882013C)
MX882013C-011 LTE TDD 2x2 MIMO DL *3, *6 (requires MT8820C-012 and MX882013C)
MX882013C-016 LTE TDD CS Fallback to W-CDMA/GSM *9 (requires MX882013C)
MX882013C-017 LTE FDD CS Fallback to CDMA2000™*15 (requires MX882013C)
MX882013C-018 LTE TDD CS Fallback to TD-SCDMA/GSM *9 (requires MX882013C)
MX882013C-021 LTE-Advanced TDD DL CA Measurement Software*3, *16 (requires MT8820C-008 (2 sets), MT8820C-012, MX882010C, and MX882013C)
MX882013C-026 LTE-Advanced TDD DL CA IP Data Transfer*13 (requires MT8820C-008 (2 sets), MT8820C-012, MX882010C, MX882013C, MX882013C-006, MX882013C-021)
MX882013C-031 LTE-Advanced TDD DL CA 3CCs Measurement Software*3, *14 (requires MT8820C 2 sets. One is required MT8820C-008 (2 sets), MT8820C-012, MX882010C, MX882013C, MX882013C-021. The other is required MT8820C-008, MX882013C.)
MX882032C CDMA2000™ Measurement Software LITE *3
MX882036C 1xEV-DO Measurement Software LITE *3
MX882036C-011 1xEV-DO Rev.A Measurement Software LITE *3
MX882042C LTE FDD Measurement Software LITE *3
MX882043C LTE TDD Measurement Software LITE *3
MX882050C W-CDMA Call Processing Software *3, *11 (requires MX882000C)
MX882050C-002 W-CDMA External Packet Data *3 (requires MX882050C)
MX882050C-003 W-CDMA Video Phone Test *3 (requires MX882050C)
MX882050C-007 W-CDMA Band XII, XIII, XIV, XIX, XX, XXI *3, *11 (requires MX882050C)
MX882050C-008 W-CDMA Band XI *3 (requires MX882050C)
MX882050C-009 W-CDMA Band IX *3 (requires MX882050C)
MX882050C-011 HSDPA External Packet Data *3 (requires MX882000C-011)
MX882051C W-CDMA Call Processing Software *3 (requires MX882000C)
MX882051C-002 W-CDMA External Packet Data *3 (requires MX882051C)
MX882051C-003 W-CDMA Video Phone Test *3 (requires MX882051C)
MX882070C W-CDMA Ciphering Software *3 (requires MX882050C)
MX882071C W-CDMA Ciphering Software *3 (requires MX882051C)
Warranty Service MT8820C-ES2102 years Extended Warranty Service
MT8820C-ES3103 years Extended Warranty Service
MT8820C-ES5105 years Extended Warranty Service

*1 MT8820C-017 has been a standard option that MT8820C are shipped with until July 2012 (Simultaneous order is required MT8820C and MT8820C-017).

*2 The MT8820C-005 hardware supports both IS-856-0 (1xEV-DO Rev. 0) and IS-856-A (1xEV-DO Rev. A) RF measurements.

*3 For terminal connectivity, contact your Elecsoft sales representative.

*4 MX882000C-032 is required a Parallelphone™ measurement configuration of W-CDMA HSPA Evolution. To use 2 units of MT8820C, contact your Elecsoft sales representative.

*5 The following measurement hardware supports the Parallelphone™ measurement option: MT8820C-001, MT8820C-002, MT8820C-003, MT8820C-005, MT8820C-007, MT8820C-008. All the measurement hardware can be installed simultaneously.

*6 MX882012C-011 is required MT8820C-012.

*7 The MX882012C-016 (017) LTE FDD CS Fallback to W-CDMA/GSM (CDMA2000™) requires a separate MT8820C with the W-CDMA/GSM (CDMA2000™) configuration. Contact your Elecsoft sales representative for the CS Fallback function test configuration.

*8 MX882012C-021 is required a Parallelphone™ measurement configuration of LTE FDD. To use 2 units of MT8820C, contact your Elecsoft sales representative.

*9 The MX882013C-016 (018) LTE TDD CS Fallback to W-CDMA/GSM (TD-SCDMA/GSM) requires a separate MT8820C with the W-CDMA/GSM (TD-SCDMA/GSM) configuration. Contact your Elecsoft sales representative for the CS Fallback function test configuration.

*10 These options preinstall the integrity protection function.

*11 MX882050C-007 supports W-CDMA Band 12, 13, 14, 19, 20, 21.

*12 MX882000C-033 (034) is required W-CDMA DC-HSDPA configuration

*13 MX882012C (13C)-026 function test is required external server PCs (2 sets). LTE Advanced FDD (TDD) DL CA IP Data Transfer (2CCs, 2Layer) is required MT8820C LTE 2x2 MIMO DL configuration (2 sets) and external server PCs (2 sets).

*14 One is required LTE FDD (TDD) ParallelPhone™ Configuration. The other is required LTE FDD Single Phone Configuration. For use MT8820C 3 units, contact your Anritsu sales representative. A synchronized cable is required too.

*15 The MX882012C-016 (017) LTE FDD CS Fallback to W-CDMA/GSM (CDMA2000™) requires a separate MT8820C with the W-CDMA/GSM (CDMA2000™) configuration. Contact your Anritsu sales representative for the CS Fallback function test configuration.

*16 :MX882012C (12C)-021 is required a Parallelphone™ measurement configuration of LTE FDD (TDD). For Use MT8820C 2 units, contact your Anritsu sales representative.



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