5992-1086EN [KEYSIGHT]
M9420A VXT PXIe Vector Transceiver;
| 型号: | 5992-1086EN |
| 厂家: | 
Keysight Technologies |
| 描述: | M9420A VXT PXIe Vector Transceiver |
| 文件: | 总28页 (文件大小:2311K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Keysight Technologies
M9420A VXT PXIe Vector Transceiver
60 MHz to 3.8, or 6 GHz
Data Sheet
02 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Table of Contents
Overview................................................................................................................................... 3
Technical specifications........................................................................................................... 4
Vector signal analyzer performance....................................................................................... 5
Vector signal generator performance....................................................................................11
General specifications ........................................................................................................... 15
Front panel ............................................................................................................................. 15
System requirements............................................................................................................. 16
Application specifications ..................................................................................................... 16
N9071A GSM/EDGE/Evo measurement application key specifications............................ 16
GSM/EDGE/Evo source key specifications.......................................................................... 17
N9073A W-CDMA/HSPA+ measurement application key specifications.......................... 17
W-CDMA/HSPA+ source key specifications........................................................................ 18
N9072A cdma2000® measurement application and N9076A 1xEV-DO
measurement application key specifications....................................................................... 21
cdma2000 and 1xEV-DO source key specifications............................................................ 21
N9080B LTE/LTE-Advanced FDD & N9082B LTE/LTE-Advanced TDD
measurement application key specifications....................................................................... 21
LTE source key specifications ............................................................................................... 22
N9081A Bluetooth® measurement application key specifications ..................................... 22
Bluetooth source key specifications..................................................................................... 22
N9079A TD-SCDMA measurement application key specifications.................................... 23
TD-SCDMA source key specifications.................................................................................. 23
N9077A WLAN measurement application key specifications............................................. 23
WLAN source key specifications........................................................................................... 25
Software................................................................................................................................. 26
Related literature ................................................................................................................... 27
Web......................................................................................................................................... 27
03 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Overview
Compress time, compress test
The best solution for a specific problem is a focused tool you simply fine-tune. Keysight’s
M9420A PXIe vector transceiver (VXT) is purpose-built for rapid solution creation and
faster throughput in manufacturing test of wireless components and Internet-of-Things
(IoT) devices. With FPGA-accelerated measurements and deep software, the ready-to-
run VXT lets you start closer to your finish line.
Product description
The M9420A VXT is a four-slot PXIe vector signal generator and analyzer, ranging from
60 MHz to 3.8 or 6 GHz with modulation and analysis bandwidth up to 160 MHz. Up to
four VXT’s can be configured in a single 18-slot PXI chassis, with only a single M9300A
frequency reference required. Alternatively, a versatile single-chassis custom solution
can be created from Keysight’s modular portfolio, dramatically reducing test footprint.
Applications
– Power amplifier and front-end-module design validation
and manufacturing
– Radio transceiver design validation and production test
– Development, design validation, and manufacturing test for radios and other IoT
connected devices
Reference solutions
Application-specific reference solutions, a combination of recommended hardware, soft-
ware, and measurement expertise, provide the essential components of a test system.
The following reference solutions include the M9420A PXIe VXT vector transceiver as a
hardware component:
– RF power amplifier/front end module characterization and test, Reference Solution
for the industry’s fastest power amplifier test solution including rapid waveform
download, tight synchronization, automated calibration, and FPGA-accelerated
power servo and fast power measurements. For more information, see
www.keysight.com/find/solution-padvt
M9420A VXT PXIe vector transceiver placed inside the M9018A PXIe chassis
04 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Technical Specifications
Definitions and conditions
Specifications describe the warranted performance of cali¬brated instruments. Data
represented in this document are specifications under the following conditions unless
otherwise noted.
– Specifications are valid from 40 to 65 °C for individual module temperature, as
reported by the module, and 20 to 35 °C for environment temperature unless
otherwise noted
– Calibrated instrument has been stored for a minimum of 2 hours within the allowed
operating range
– If instrument has previously been stored at a temperature range inside the allowed
storage range, but outside the allowed operating range, instrument must have been
stored for a minimum of 2 hours within the allowed operating range before turn-on
– 45-minute warm-up time
– Calibration cycle maintained
– The RF, IF, and Source Alignments have been run within the previous 7 days
– An ALL Alignment has been run:
– Within the previous 8 hours
– If the temperature has changed more than 5 °C from the previous “ALL”
alignment
Typical describes additional product performance information. It is performance beyond
specifications that 95 percent of the units exhibit with a 95 percent confidence level. This
data, shown in italics, does not include measurement uncertainty, and is valid only at
room temperature (approximately 25 °C) after alignment within the stated alignment time
and temperature limits.
Nominal values indicate expected performance, or describe product performance that is
useful in the application of the product.
Recommended best practices in use
– Use slot blockers and EMC filler panels in empty module slots to ensure proper
operating temperatures. Keysight chassis and slot blockers optimize module
temperature performance and reliability of test.
– Set chassis fan to high at environmental temperatures above 45 °C.
05 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Vector Signal Analyzer Performance
Performance
Capture depth
Standard
256 MSa of IQ data
512 MSa of IQ data
Option M9420A-M05
Frequency and time specifications
Frequency range
Option M9420A-504
Option M9420A-506
Frequency reference
Accuracy, aging rate, stability
CW measurement frequency accuracy
Accuracy
60 MHz to 3.8 GHz
60 MHz to 6 GHz
refer to M9300A specifications
(Transmitter frequency x frequency reference accuracy) ± 50 Hz typically
1 Hz typical
Resolution
Analysis bandwidth
Maximum bandwidth
Standard
60 to 70 MHz
20 MHz
40 MHz
40 MHz
40 MHz
70 to 230 MHz
230 to 400 MHz
400 MHz to 6 GHz
Option M9420A-B80
Option M9420A-B1X
Triggering
60 to 70 MHz
20 MHz
40 MHz
80 MHz
80 MHz
70 to 230 MHz
230 to 400 MHz
400 MHz to 6 GHz
60 to 70 MHz
20 MHz
40 MHz
80 MHz
160 MHz
70 to 230 MHz
230 to 400 MHz
400 MHz to 6 GHz
Trigger
IQ analyzer
Free run, external 1, external 2, RF burst, video, line, periodic
Trigger delay range
–15 to 500 ms
Resolution
0.1 μs
Amplitude accuracy and range specifications
Maximum average power input
RF input port
+27 dBm
+30 dBm
+36 dBm
Option M9420A-HDX, Half duplex port
Option M9420A-FDX, Full duplex port
06 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
CW absolute amplitude accuracy
RF input port (in specified frequencies)
Frequency Range
Input level ≤ –8 dBm to –70 dBm
Input level > –8 dBm to +24 dBm
< ± 0.65 dB, < ± 0.30 dB typical
60 MHz to 230 MHz
< ± 0.55 dB, < ± 0.20 dB typical
230 MHz to 380 MHz
40 MHz BW
< ± 0.55 dB, < ± 0.20 dB typical
< ± 0.65 dB, < ± 0.35 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
80 MHz BW
380 MHz to 510 MHz
40 MHz BW
< ± 0.50 dB, < ± 0.15 dB typical
< ± 0.65 dB, < ± 0.35 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
510 MHz to 820 MHz
40 MHz BW
< ± 0.45 dB, < ± 0.20 dB typical
< ± 0.55 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.55 dB, < ± 0.30 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
80 MHz BW
160 MHz BW
820 MHz to 1000 MHz
40 MHz BW
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.45 dB, < ± 0.15 dB typical
< ± 0.50 dB, < ± 0.15 dB typical
< ± 0.50 dB, < ± 0.30 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
80 MHz BW
160 MHz BW
1000 MHz to 2110 MHz
40 MHz BW
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
< ± 0.65 dB, < ± 0.35 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
80 MHz BW
160 MHz BW
2110 MHz to 3200 MHz
40 MHz BW
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
80 MHz BW
160 MHz BW
3200 MHz to 3310 MHz
40 MHz BW
< ± 0.65 dB, < ± 0.25 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.40 dB typical
< ± 0.70 dB, < ± 0.25 dB typical
< ± 0.85 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
3310 MHz to 3620 MHz
40 MHz BW
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.65 dB, < ± 0.35 dB typical
< ± 0.65 dB, < ± 0.25 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
3620 MHz to 3900 MHz
40 MHz BW
< ± 0.65 dB, < ± 0.35 dB typical
< ± 0.65 dB, < ± 0.45 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.40 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 0.85 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
3900 MHz to 4500 MHz
40 MHz BW
< ± 0.80 dB, < ± 0.40 dB typical
< ± 0.80 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 1.00 dB, < ± 0.55 dB typical
< ± 0.80 dB, < ± 0.30 dB typical
< ± 0.80 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
4500 MHz to 6000 MHz
40 MHz BW
< ± 0.90 dB, < ± 0.40 dB typical
< ± 0.80 dB, < ± 0.35 dB typical
< ± 0.80 dB, < ± 0.35 dB typical
< ± 1.00 dB, < ± 0.55 dB typical
< ± 0.80 dB, < ± 0.35 dB typical
< ± 0.80 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
07 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Half duplex port, Option M9420A-HDX (in specified frequencies)
Frequency range
Input level ≤ –8 dBm to –70 dBm
Input level > –8 dBm to +24 dBm
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.60 dB, < ± 0.30 dB typical
60 MHz to 230 MHz
230 MHz to 380 MHz
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
380 MHz to 510 MHz
40 MHz BW
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.15 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
80 MHz BW
160 MHz BW
510 MHz to 820 MHz
820 MHz to 1000 MHz
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
1000 MHz to 2110MHz
40 MHz BW
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
80 MHz BW
160 MHz BW
2110 MHz to 3200 MHz
40 MHz BW
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.65 dB, < ± 0.25 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.40 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
3200 MHz to 3310 MHz
40 MHz BW
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
< ± 0.65 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
3310 MHz to 3620 MHz
40 MHz BW
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.25 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
3620 MHz to 3900 MHz
40 MHz BW
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 0.85 dB, < ± 0.40 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
< ± 0.75 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
3900 MHz to 4500 MHz
4500 MHz to 6000 MHz
< ± 0.85 dB, < ± 0.35 dB typical
< ± 0.95 dB, < ± 0.5 dB typical
< ± 0.90 dB, < ± 0.50 dB typical
< ± 1.00 dB, < ± 0.55 dB typical
08 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Full duplex port, option M9420A-FDX (in specified frequencies)
Frequency range
Input level ≤ –8 dBm to –65 dBm
Input level > –8 dBm to +33 dBm
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.20 dB typical
60 MHz to 230 MHz
230 MHz to 380 MHz
380 MHz to 510 MHz
510 MHz to 820 MHz
820 MHz to 1000 MHz
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.15 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.30 dB typical
1000 MHz to 2110MHz
40 MHz BW
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.65 dB, < ± 0.20 dB typical
< ± 0.60 dB, < ± 0.35 dB typical
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
2110 MHz to 3200 MHz
40 MHz BW
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.40 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.85 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
3200 MHz to 3310 MHz
40 MHz BW
< ± 0.60 dB, < ± 0.30 dB typical
< ± 0.60 dB, < ± 0.25 dB typical
< ± 0.70 dB, < ± 0.25 dB typical
< ± 0.70 dB, < ± 0.40 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
3310 MHz to 3620 MHz
40 MHz BW
< ± 0.75 dB, < ± 0.35 dB typical
< ± 0.75 dB, < ± 0.35 dB typical
< ± 0.75 dB, < ± 0.35 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
< ± 0.75 dB, < ± 0.35 dB typical
< ± 0.85 dB, < ± 0.50 dB typical
80 MHz BW
160 MHz BW
3620 MHz to 3900 MHz
40 MHz BW
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 0.75 dB, < ± 0.30 dB typical
< ± 0.70 dB, < ± 0.40 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
80 MHz BW
160 MHz BW
3900 MHz to 4500 MHz
40 MHz BW
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.70 dB, < ± 0.35 dB typical
< ± 0.90 dB, < ± 0.35 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
< ± 0.75 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
4500 MHz to 6000 MHz
40 MHz BW
< ± 1.00 dB, < ± 0.55 dB typical
< ± 0.75 dB, < ± 0.35 dB typical
< ± 0.90 dB, < ± 0.50 dB typical
< ± 0.80 dB, < ± 0.40 dB typical
< ± 0.80 dB, < ± 0.40 dB typical
< ± 0.80 dB, < ± 0.40 dB typical
80 MHz BW
160 MHz BW
09 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Input voltage standing wave ratio (VSWR)
RF input port (in specified frequencies)
60 to 600 MHz
< 2.0:1 nominal
< 1.5:1 nominal
< 1.7:1 nominal
< 1.9:1 nominal
600 MHz to 3 GHz
3 to 4.2 GHz
4.2 to 6 GHz
Option M9420A-HDX, half duplex port (configured to input mode in specified frequencies)
60 MHz to 3 GHz
3 to 6 GHz
< 1.4:1 nominal
< 1.6:1 nominal
Option M9420A-FDX, full duplex port (configured to input mode in specified frequencies)
60 MHz to 3 GHz
3 to 6 GHz
< 1.4:1 nominal
< 1.5:1 nominal
Spurious responses (in specified frequencies)
Residual responses in specified frequency ranges
RF input port with analyzer range = 0 dBm
60 MHz to 230 MHz
230 MHz to 3.3 GHz
3.3 to 3.9 GHz
< –77 dBm typical
< –90 dBm typical
< –80 dBm typical
< –87 dBm typical
3.9 to 6 GHz
Half duplex port with analyzer ranged to < –30 dBm
60 MHz to 6 GHz
< –90 dBm typical
Full duplex port with analyzer ranged to < –30 dBm
60 MHz to 3.9 GHz
< –100 dBm typical
< –90 dBm typical
3.9 GHz to 6 GHz
Other spurious, for offsets from 10 MHz up to half the maximum
analysis bandwidth from the signal in specified frequency bands
< –62 dBc typical with analyzer ranged to signal peak power level
Phase noise sidebands, (CF = 900 MHz)
10 kHz offset
< –107 dBc/Hz, < –111 dBc/Hz typical
< –129 dBc/Hz, < –132 dBc/Hz typical
1 MHz offset
Figure 1. Nominal phase noise from 1 kHz to 10 MHz offset at 1, 2.4, and 5.8 GHz.
10 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Displayed average noise floor (DANL)1
RF input port (in specified frequencies, with analyzer ranged to -70 dBm)
60 to 380 MHz
380 to 820 MHz
820 MHz to 1 GHz
1 to 2.11 GHz
2.11 to 3.2 GHz
3.2 to 3.31 GHz
3.31 to 3.9 GHz
3.9 to 4.5 GHz
4.5 to 6 GHz
–161 dBm, –165 dBm typical
–160 dBm, –164 dBm typical
–159 dBm, –164 dBm typical
–155 dBm, –160 dBm typical
–152 dBm, –157 dBm typical
–158 dBm, –162 dBm typical
–156 dBm, –160 dBm typical
–155 dBm, –159 dBm typical
–152 dBm, –157 dBm typical
Half duplex port, option M9420A-HDX (in specified frequencies, with analyzer ranged to –70 dBm)
60 to 230 MHz
230 to 820 MHz
820 MHz to 1 GHz
1 to 2.11 GHz
2.11 to 3.2 GHz
3.2 to 3.31 GHz
3.31 to 3.62 GHz
3.62 to 3.9 GHz
3.9 to 4.5 GHz
4.5 to 6 GHz
–157 dBm, –162 dBm typical
–156 dBm, –161 dBm typical
–155 dBm, –160 dBm typical
–152 dBm, –157 dBm typical
–150 dBm, –154 dBm typical
–154 dBm, –159 dBm typical
–152 dBm, –157 dBm typical
–153 dBm, –157 dBm typical
–150 dBm, –156 dBm typical
–148 dBm, –153 dBm typical
Full duplex port, option M9420A-FDX (in specified frequencies, with analyzer ranged to –65 dBm)
60 to 380 MHz
380 to 510 MHz
510 MHz to 820 MHz
820 MHz to 1 GHz
1 to 2.11 GHz
2.11 to 3.2 GHz
3.2 to 3.31 GHz
3.31 to 3.62 GHz
3.62 to 3.9 GHz
3.9 to 4.5 GHz
–150 dBm, –155 dBm typical
–149 dBm, –154 dBm typical
–150 dBm, –154 dBm typical
–148 dBm, –153 dBm typical
–144 dBm, –150 dBm typical
–141 dBm, –147 dBm typical
–147 dBm, –151 dBm typical
–144 dBm, –148 dBm typical
–145 dBm, –150 dBm typical
–143 dBm, –148 dBm typical
–139 dBm, –144 dBm typical
4.5 to 6 GHz
Third-order intermodulation distortion (TOI)
60 MHz to 6 GHz
+25 dBm nominal with analyzer ranged to 0 dBm
+33 dBm nominal with analyzer ranged to +10 dBm
IF flatness
Center frequency (GHz)
≤ 6.0
Span (MHz)
Max. error (nominal)
± 0.30 dB
≤ 160
1. Input terminated, log power average, and normalized to 1 Hz bandwidth
11 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Vector Signal Generator Performance
Performance
Arb baseband bandwidth
Standard M9420A-B40
60 to 230 MHz
230 to 340 MHz
340 to 400 MHz
400 to 6 GHz
20 MHz
40 MHz
40 MHz
40 MHz
Option M9420A-B80
60 to 230 MHz
230 to 340 MHz
340 to 400 MHz
400 to 6 GHz
20 MHz
40 MHz
80 MHz
80 MHz
Option M9420A-B1X
60 to 230 MHz
230 to 340 MHz
340 to 400 MHz
400 to 6 GHz
20 MHz
40 MHz
80 MHz
160 MHz
Arb sample memory (storage capacity)
Standard
Option M9420A-M05
256 MSa of IQ data
512 MSa of IQ data
Frequency specifications
Frequency range
Option M9420A-504
Option M9420A-506
60 MHz to 3.8 GHz
60 MHz to 6 GHz
Frequency reference
Accuracy, aging rate, stability
Frequency switching speed1
Baseband frequency offset change2
Arbitrary frequency change3
Refer to M9300A specifications
≤ 400 µs, nominal
≤ 2 ms, nominal
1.
Switching speed depends highly upon the hardware and controller that is used. Measurements were made with the M9420A in an M9018A chassis with the
M9037A embedded controller.
2. Mean time from IVI command until baseband frequency changed from 0 to 1 kHz
3. Mean time from IVI command until RF frequency changed from 1.8 to 1.0 GHz
12 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Amplitude specifications
Settable range
Standard
RF output port
–150 to +10 dBm
Option M9420A-HDX
Option M9420A-FDX
–150 to +10 dBm
–150 to 0 dBm
Option M9420A-1EA
RF output port
–150 to +18 dBm
–150 to +15 dBm
–150 to 0 dBm
Option M9420A-HDX
Option M9420A-FDX
Output level range
Standard
RF output port
60 MHz to 6 GHz
–130 to +10 dBm
Option M9420A-HDX (configured to output mode)
60 MHz to 6 GHz
–130 to +5 dBm (–130 to +10 dBm CW typical)
Option M9420A-FDX full duplex port
60 MHz to 3.9 GHz
–130 to –15 dBm (–130 to –5 dBm CW typical)
–120 to –20 dBm (–130 to –10 dBm CW typical)
3.9 to 6 GHz
Option M9420A-1EA
RF output port
60 MHz to 3.9 GHz
3.9 GHz to 6 GHz
–130 to +18 dBm
–130 to +18 dBm
Option M9420A-HDX (configured to output mode)
60 MHz to 6 GHz
–130 to +5 dBm (–130 to +15 dBm CW typical)
Option M9420A-FDX full duplex port
60 MHz to 3.9 GHz
–130 to –15 dBm (–130 to –5 dBm CW typical)
–120 to –15 dBm (–130 to –10 dBm CW typical)
3.9 to 6 GHz
Amplitude switching speed1
Baseband power level change2
Arbitrary power level change3
≤ 400 μs, nominal
≤ 2 ms, nominal
1.
Switching speed depends highly upon the hardware and controller that is used. Measurements were made with the M9420A in an M9018A chassis with the
M9037A embedded controller.
2. Mean time from IVI command until baseband amplitude changed by 5 dB
3. Mean time from IVI command until RF amplitude changed from 0 to -10 dBm
13 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Absolute level accuracy (specified frequencies, CW)
RF output port
60 MHz to 380 MHz
Level ≤ +20 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.50 dB, < ± 0.15 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.85 dB, < ± 0.50 dB typical
380 MHz to 1325 MHz
Level ≤ +20 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.85 dB, < ± 0.50 dB typical
1325 MHz to 2700 MHz
Level ≤ +20 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.50 dB, < ± 0.15 dB typical
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.90 dB, < ± 0.45 dB typical
2700 MHz to 3900 MHz
Level ≤ +20 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –110 dBm
< ± 0.70 dB, < ± 0.25 dB typical
< ± 0.70 dB, < ± 0.30 dB typical
< ± 1.10 dB, < ± 0.55 dB typical
3900 MHz to 6000 MHz
Level ≤ +20 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –100 dBm
< ± 0.65 dB, < ± 0.20 dB typical
< ± 1.0 dB, < ± 0.50 dB typical
< ± 1.10 dB, < ± 0.60 dB typical
Option M9420A-HDX, half duplex port
60 MHz to 380 MHz
Level ≤ +5 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.55 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.25 dB typical
< ± 0.80 dB, < ± 0.40 dB typical
380 MHz to 1325 MHz
Level ≤ +5 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.55 dB, < ± 0.20 dB typical
< ± 0.50 dB, < ± 0.20 dB typical
< ± 0.85 dB, < ± 0.45 dB typical
1325 MHz to 2700 MHz
Level ≤ +5 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.55 dB, < ± 0.15 dB typical
< ± 0.75 dB, < ± 0.35 dB typical
< ± 0.95 dB, < ± 0.45 dB typical
2700 MHz to 3900 MHz
Level ≤ +5 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –110 dBm
< ± 0.65 dB, < ± 0.15 dB typical
< ± 0.65 dB, < ± 0.30 dB typical
< ± 1.10 dB, < ± 0.55 dB typical
3900 MHz to 6000 MHz
Level ≤ +5 dBm to –15 dBm
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –100 dBm
< ± 0.70 dB, < ± 0.20 dB typical
< ± 0.90 dB, < ± 0.45 dB typical
< ± 1.10 dB, < ± 0.50 dB typical
Option M9420A-FDX, full duplex port
60 MHz to 380 MHz
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.55 dB, < ± 0.25 dB typical
< ± 0.80 dB, < ± 0.40 dB typical
380 MHz to 1325 MHz
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.65 dB, < ± 0.20 dB typical
< ± 0.80 dB, < ± 0.45 dB typical
1325 MHz to 2700 MHz
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –120 dBm
< ± 0.65 dB, < ± 0.20 dB typical
< ± 0.85 dB, < ± 0.50 dB typical
2700 MHz to 3900 MHz
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –110 dBm
< ± 0.70 dB, < ± 0.30 dB typical
< ± 1.0 dB, < ± 0.45 dB typical
3900 MHz to 6000 MHz
Level ≤ –15 dBm to –80 dBm
Level ≤ –80 dBm to –100 dBm
< ± 0.80 dB, < ± 0.30 dB typical
< ± 1.0 dB, < ± 0.35 dB typical
14 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Setting resolution
0.01 dB
Output voltage standing wave ratio (VSWR)
RF output port (in specified frequencies)
60 to 600 MHz
600 MHz to 2.8 GHz
2.8 to 5 GHz
< 1.6:1 nominal
< 1.5:1 nominal
< 1.6:1 nominal
< 1.9:1 nominal
5 to 6 GHz
Option M9420A-HDX, half duplex port (configured to output mode in specified frequencies)
60 MHz to 2.9 GHz
2.9 to 6 GHz
< 1.5:1 nominal
< 2.0:1 nominal
Option M9420A-FDX, full duplex port (configured to output mode in specified frequencies)
60 MHz to 2.9 GHz
2.9 to 6 GHz
< 1.5:1 nominal
< 1.6:1 nominal
Harmonics and spurious
RF output port; harmonics and sub-harmonics
+10 dBm output power
< –40 dBc nominal
Option M9420A-HDX, half duplex port; harmonics and sub-harmonics
+0 dBm output power < –40 dBc nominal
Option M9420A-FDX, full duplex port; harmonics and sub-harmonics
–15 dBm output power < –40 dBc nominal
All ports; non-harmonic spurious (CW mode, specified frequency ranges)
60 MHz to 3.8 GHz
3.8 to 6 GHz
< –62 dBc nominal
< –58 dBc nominal
Phase noise
Option M9420A-FDX, full duplex port, –5 dBm; Option M9420A-HDX, half duplex port, +5 dBm; RF output port, +15 dBm, CF = 900 MHz
10 kHz offset
100 kHz offset
1 MHz offset
10 MHz offset
≤ –106 dBc, –112 dBc typical
≤ –109 dBc, –113 dBc typical
≤ –128 dBc, –134 dBc typical
≤ –131 dBc, –135 dBc typical
Broadband noise floor
RF output port
Output level = +18 dBm
Output level = –30 dBm
60 MHz to 3.5 GHz
3.5 to 5.5 GHz
5.5 to 6 GHz
–125 dBm, typical
–120 dBm, typical
–114 dBm, typical
–159 dBm, typical
–161 dBm, typical
–156 dBm, typical
Option M9420A-HDX, half duplex port
Output level = +5 dBm
Output level = –30 dBm
60 to 380 MHz
380 MHz to 5.5 GHz
5.5 to 6 GHz
–128 dBm, typical
–130 dBm, typical
–124 dBm, typical
–159 dBm, typical
–160 dBm, typical
–158 dBm, typical
Option M9420A-FDX, full duplex port
Output level = –15 dBm
Output level = –30 dBm
60 to 380 MHz
380 MHz to 3.5 GHz
3.5 to 5.5 GHz
5.5 to 6 GHz
–147 dBm, typical
–151 dBm, typical
–152 dBm, typical
–146 dBm, typical
–160 dBm, typical
–159 dBm, typical
–161 dBm, typical
–158 dBm, typical
15 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
General Specifications
Environmental characteristics
Operating temperature
Storage temperature
EMC
+5 to +45 °C
–40 to +70 °C
Complies with European EMC Directive 2004/108/EC
– IEC/EN 61326-1
– CISPR Pub 11 Group 1, class A
– AS/NZS CISPR 11
– ICES/NMB-001
This ISM device complies with Canadian ICES-001
Environmental stress
Samples of this product have been type tested in accordance with the Keysight Environmental Test
Manual and verified to be robust against the environmental stresses of storage, transportation, and
end-use; those stresses include, but are not limited to, temperature, humidity, shock, vibration,
altitude, and power line conditions; test methods are aligned with IEC 60068-2 and levels are similar
to MILPRF-28800F Class 3.
Safety
– Complies with European Low Voltage Directive 2006/95/EC
– IEC/EN 61010-1
– Canada: CSA C22.2 No. 61010-1-04
– USA: UL Std. 61010-1
Power requirement
Power drawn from chassis
Weight
≤ 120 W
Net
Shipping
1.6 kg (3.6 lbs)
3.8 kg (8.4 lbs)
Dimensions
Height
Width
Length
130 mm (5.1 in)
82 mm (3.2 in)
209.5 mm (8.25 in)
Calibration cycle
The recommended calibration cycle is two year; calibration services are available through Keysight service centers
Front Panel
Ref In
Connector
SMB male, 50 Ω nominal
RF connections
RF Input
SMA female, 50 Ω nominal
SMA female, 50 Ω nominal
SMA female, 50 Ω nominal
SMA female, 50 Ω nominal
RF Output
RFHD
RFFD
Trigger connections
Trigger In 1, Trigger In 2
Connector: SMB male
Impedance: 10 kΩ nominal
Trigger level range: -3.5 to +3.5 V
Trigger Out 1, Trigger Out 2
Connector: SMB male
Impedance: 50 Ω nominal
Trigger level range: 3.3 V LVTTL
16 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
System Requirements
Operating system
Processor speed
Windows 7 (32 & 64 bit)
1.86 GHz minimum,
2.4 GHz recommended
Available memory
4 GB minimum
8 GB recommended
Available disk space
Video
4 GB
Support for DirectX 9 graphics with 128 MB graphics recommended (SuperVGA supported)
Microsoft Internet Explorer 7.0 or greater
Browser
Application Specifications
N9071A GSM/EDGE/Evo measurement application key specifications1
Power versus time (PvT)
Absolute power accuracy
± 0.36 dB nominal at 0 dBm input power
Phase error (GMSK modulation)
Phase error
Average floor
Peak floor
0.30º typical at 0 dBm input power
0.85º typical at 0 dBm input power
EDGE error vector magnitude (EVM)
EVM
RMS floor
Peak floor
0.65% typical at 0 dBm input power
2.0% typical at 0 dBm input power
Output RF spectrum (ORFS for GMSK and 8PSk modulation)
Residual relative power, spectrum due to modulation
Offset frequency
600 kHz
1.2 MHz
1.8 MHz
–70 dBc typical at 0 dBm input power
–75 dBc typical at 0 dBm input power
–73 dBc typical at 0 dBm input power
Residual relative power, spectrum due to switching
Offset frequency
600 kHz
–67 dBc typical at 0 dBm input power
–74 dBc typical at 0 dBm input power
–76 dBc typical at 0 dBm input power
1.2 MHz
1.8 MHz
1. For frequencies from 450 to 490 MHz, 820 to 820 MHz, and 1710 to 1910 MHz
17 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
GSM/EDGE/Evo source key specifications1
Signal quality (RF output port: +15 dBm, Half duplex port: 0 dBm, Full duplex port: –15 dBm)
Phase error (GMSK)
RMS
< 0.3° nominal
< 2.0° nominal
Peak
EVM (EDGE)
RMS
< 1% nominal
Output RF spectrum (ORFS)
Residual relative power, spectrum due to modulation
Offset
GSM, nominal
Half duplext/RF
output (0 dBm)
Full duplex
(–10 dBm)
Full duplex
(–15 dBm)
EDGE, nominal
Half duplext/RF
output (0 dBm)
Full duplex
(–10 dBm)
Full duplex
(–15 dBm)
200 kHz
400 kHz
600 kHz
1200 kHz
1800 kHz
–35 dBc
–68 dBc
–76 dBc
–81 dBc
–77 dBc
–35 dBc
–68 dBc
–76 dBc
–81 dBc
–77 dBc
–35 dBc
–68 dBc
–76 dBc
–77 dBc
–73 dBc
–36 dBc
–68 dBc
–76 dBc
–81 dBc
–76 dBc
–36 dBc
–68 dBc
–76 dBc
–81 dBc
–76 dBc
–36 dBc
–68 dBc
–75 dBc
–77 dBc
–72 dBc
1. For frequencies from 380 to 490 MHz, 695 to 960 MHz, and 1425 to 2180 MHz
N9073A W-CDMA/HSPA+ measurement application key specifications1
Channel power
Absolute power accuracy
QPSK EVM
± 0.36 dB nominal at 0 dBm input power
Residual EVM
0.85% typical at –10 dBm input power
Adjacent channel leakage ratio (ACLR) and adjacent channel power ratio (ACPR)
Residual relative power in 3.84 MHz BW
5 MHz offsets
–65 dBc typical at 0 dBm input power
Spectrum Emission Mask (SEM)
Residual relative power
2.515 MHz to 3.485 MHz offsets
4 MHz to 7.5 MHz offsets
7.5 MHz to 8.5 MHz offsets
8.5 MHz to 12 MHz offsets
–80 dBc in a 30 kHz BW typically at 0 dBm input power
–65 dBc in a 1 MHz BW typically at 0 dBm input power
–70 dBc in a 1 MHz BW typically at 0 dBm input power
–70 dBc in a 1 MHz BW typically at 0 dBm input power
1. For frequencies from 695 MHz to 920 MHz and specified ranges from 1425 MHz to 2700 MHz
18 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
W-CDMA/HSPA+ source key specifications1
Signal quality (RF output port: +15 dBm, Half duplex port: 0 dBm, Full duplex port: –15 dBm)
Composite EVM
RMS
< 1% nominal
Adjacent channel leakage ratio (ACLR)
Offset
Port power level
configuration
Frequency (MHz)
RF output/Half duplex
0 dBm nominal (dB)
Full duplex –15 dBm
nominal (dB)
Adjacent 5 MHz
Adjacent 10 MHz
Adjacent 5 MHz
Adjacent 10 MHz
Adjacent 5 MHz
Adjacent 10 MHz
Adjacent 5 MHz
Adjacent 10 MHz
1 DPCH 1 carrier
900
–70
–71
–70
–71
–70
–71
–69
–71
–72
–72
–72
–72
–70
–72
–71
–72
1800 to 2200
900
64 DPCH 1 carrier
1800 to 2200
1. For frequencies from 695 MHz to 960 MHz, and 1425 MHz to 2180 MHz
Figure 2. Single carrier W-CDMA adjacent channel ACLR versus power level at 2 GHz, RF output port
19 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Figure 3. Single carrier W-CDMA adjacent channel ACLR versus power level at 2 GHz, half duplex port
Figure 4. Single carrier W-CDMA adjacent channel ACLR versus power level at 2 GHz, full duplex port
20 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Figure 5. Four carrier W-CDMA adjacent channel ACLR versus power level at 2 GHz, RF output port
and half duplex port
Figure 6. Four carrier W-CDMA adjacent channel ACLR versus power level at 2 GHz, full duplex port
21 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
N9072A cdma2000 Measurement Application and N9076A 1xEV-DO
Measurement Application Key Specifications1
Channel power
Absolute power accuracy
Error vector magnitude (EVM)
Residual EVM
± 0.36 dB nominal at 0 dBm input power
0.85% typical at –10 dBm input power
Adjacent channel power (ACP)
Residual relative power in 30 kHz BW
885 kHz offsets
–71 dBc typical at 0 dBm input power
–83 dBc typical at 0 dBm input power
–82 dBc typical at 0 dBm input power
1.98 MHz offsets
4.0 MHz offsets
1. For frequencies from 410 MHz to 484 MHz, 776 MHz to 920 MHz, and 1710 to 1980 MHz
cdma2000 and 1xEV-DO Source Key Specifications1
Signal quality (RF output port: +15 dBm, half duplex port: 0 dBm, full duplex port: –15 dBm)
Composite EVM
RMS
< 1.1% nominal
1. For frequencies from 380 MHz to 490 MHz, 695 MHz to 960 MHz, and 1425 MHz to 2180 MHz
N9080B LTE/LTE-Advanced FDD & N9082B LTE/LTE-Advanced TDD
Measurement Application Key Specifications1
Transmit power
Absolute power accuracy
Error vector magnitude (EVM)
Residual EVM
± 0.36 dB nominal at 0 dBm input power
0.8% typical at –10 dBm input power
5 MHz, 10 MHz, 15 MHz, 20 MHz BW
Adjacent channel power
Minimum carrier power at RF input
RF input port
–20 dBm
–20 dBm
–5 dBm
Half duplex port
Full duplex port
Dynamic range
E-UTRA
–58 dBc nominal
–60 dBc nominal
UTRA
1. For specified frequency ranges between 695 and 3800 MHz
22 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
LTE Source Key Specifications1
Signal quality (RF output port: +15 dBm, half duplex port: 0 dBm, full duplex port: –15 dBm)
Composite EVM
RMS
< 1.1% nominal
Adjacent channel power (ACP)
Adjacent, nominal
Alternate, nominal
RF output/half duplex
(0 dBm)
full duplex
(-15 dBm)
RF output/half duplex
(0 dBm)
full duplex
(-15 dBm)
900 MHz
2 GHz
–64
–65
–65
–66
–64
–65
–65
–66
1. For specified frequency ranges between 695 and 3800 MHz
N9081A Bluetooth Measurement Application Key Specifications1
Transmit power
Absolute power accuracy
Modulation characteristics
Deviation range
± 0.26 dB nominal at 0 dBm input power
± 250 kHz nominal
EDR modulation accuracy
Range (rms DEVM)
Floor
0 to 12% nominal
0.6% typical at –20 dBm input power
1. Specifications apply for frequencies between 2400 and 2486 MHz.
Bluetooth Source Key Specifications1
Bluetooth signal using Signal Studio waveform
Basic Data Rate (ACL)
FSK error at –10 dBm at half duplex port or RF output port
0.65% nominal, DH1 packet, GFSK, standard packet, 2402 MHz
Enhanced Data Rate
ACP for –10 dBm signal at half duplex port or RF output port
3-DH1 packet, GFSK +D8PSK, standard packet, 2402 MHz
–69 dBm nominal, k=2;
–72 dBm nominal, k= 3, 4, 5, …78
EDR rms DEVM error
< 1% nominal
1. For specified frequency ranges between 1620 and 2700 MHz
23 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
N9079A TD-SCDMA Measurement Application Key Specifications1
Channel power
Absolute power accuracy
± 0.36 dB nominal at 0 dBm input power
Error vector magnitude (EVM)
Residual EVM, 1.6 MHz channel BW
0.75% typical at 0 dBm input power
Adjacent channel leakage ratio (ACLR) and adjacent channel power ratio (ACPR)
Residual relative power in 1.28 MHz BW
1.6 MHz offsets
3.2 MHz offsets
–55 dBc typical at 0 dBm input power
–70 dBc typical at 0 dBm input power
Spectrum emission mask (SEM)
Residual relative power
2.515 MHz to 3.485 MHz offsets
4 MHz to 7.5 MHz offsets
7.5 MHz to 8.5 MHz offsets
–54 dBc in a 30 kHz BW typical at 0 dBm input power
–68 dBc in a 1 MHz BW typical at 0 dBm input power
–71 dBc in a 1 MHz BW typical at 0 dBm input power
1. For specified frequency ranges between 1620 and 2700 MHz
TD-SCDMA Source Key Specifications1
Signal quality (RF output port: +15 dBm, half duplex port: 0 dBm, full duplex port: –20 dBm)
Composite EVM
RMS
< 0.5% nominal
1. For specified frequency ranges between 1620 and 2700 MHz
N9077A WLAN Measurement Application Key Specifications1
Modulated Power
Absolute power accuracy
2400 MHz to 2483.5 MHz
5150 MHz to 5185 MHz
± 0.27 dB nominal at 0 dBm input power
± 0.49 dB nominal at 0 dBm input power
Error Vector Magnitude (EVM)
EVM floor conditions Phase Tracking on, pre-amble only, Half duplex port
802.11b 2.4GHz
802.11g 2.4 GHz
802.11a 5.8 GHz
<–40.9 dB typical at –20 dBm input power
<–47 dB typical at –20 dBm input power
<–48 dB typical at –20 dBm input power
802.11n 5.8 GHz 20MHz
802.11n 5.8 GHz 40MHz
<–48 dB typical at –20 dBm input power
<–44 dB typical at –20 dBm input power
802.11ac 5.8 GHz 80 MHz
802.11ac 5.8 GHz 160 MHz
<–45 dB typical at –20 dBm input power
<–43 dB typical at –20 dBm input power
SEM
802.11a/g at 2. 4GHz with 20 MHz BW
802.11a/g at 5.8 GHz with 20 MHz BW
802.11n at 5.8 GHz with 40 MHz BW
802.11ac at 5.8 GHz with 80 MHz BW
See Figure 1
See Figure 2
See Figure 3
See Figure 4
1. SEM Transmitter test signal generated by Agilent N5182B MXG signal generator
24 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Figure 7. 802.11 a/g SEM nominal performance at 2.4 GHz with 20 MHz BW
Figure 9. 802.11 n SEM nominal performance at 5.8 GHz with 40 MHz BW
Figure 8. 802.11 a/g SEM nominal performance at 5.8 GHz with 20 MHz BW
Figure 10. 802.11 ac SEM nominal performance at 5.8 GHz with 80 MHz BW
25 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
WLAN Source Key Specifications
Error Vector Magnitude (EVM)
Wireless LAN error vector magnitude (EVM Performance (using Signal Studio signal noted)) half duplex port, RF output port
802.11b 2.4GHz
802.11a 5.8 GHz
<–28 dB typical (0 dBm to –30 dBm)
<–44 dB typical (–5 dBm to –15 dBm)
802.11n 5.8 GHz 20MHz
802.11n 5.8 GHz 40MHz
<–43 dB typical (–5 dBm to –15 dBm)
<–44 dB typical (–5 dBm to –15 dBm)
802.11ac 5.57 GHz 80 MHz
<–42 dB typical (–5 dBm to –15 dBm)
Figure 11. 802.11 ac EVM nominal performance versus power level at 5.8 GHz for 160 MHz signal
bandwidth with equalization on the preamble
26 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Software
Instrument connection software
Keysight I/O library
The I/O library suite offers a single entry point
Free software download at
for connection to the most common instruments www.keysight.com/find/iosuite
including AXIe, PXI, GPIB, USB, Ethernet/LAN,
RS-232, and VXI test instruments from Keysight
and other vendors. It automatically discovers
interfaces, chassis, and instruments. The graphi-
cal user interface allows you to search for, verify,
and update IVI instrument and soft front panel
drivers for modular and traditional instruments.
The IO suite safely installs in side-by-side mode
with NI I/O software.
Module setup and usage
Keysight soft front panel
The VXT includes a soft front panel (SFP), a
software-based graphical user interface (GUI)
which enables the instrument’s capabilities from
your PC.
Included on CD-ROM shipped with module or
online
Module management
Keysight connection expert
Connection expert is the graphical user interface Free software download at
included in the I/O libraries suite that allows you www.keysight.com/find/iosuite
to search for, verify and update IVI instrument
and soft front panel drivers for modular and
traditional instruments
Programming
Driver
lVI-COM
IVI-C
Development environments
Visual Studio (VB .NET, C#, C/C++), VEE,
LabVIEW, LabWindows/CVI, MATLAB
Included on CD-ROM shipped with module or
online
MATLAB
Programming assistance
Command expert
Assists in finding the right instrument commands Free software download at
and setting correct parameters. A simple
interface includes documentation, examples,
syntax checking, command execution, and debug
tools to build sequences for integration in Excel,
MATLAB, Visual Studio, and VEE.
www.keysight.com/find/commandexpert
Signal analysis software
X-Series measurement applications
Provides measurements for analog demodulation, Licensed software. For more information, visit
noise figure, phase noise and others.
www.keysight.com/find/x-series_apps
27 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
Related Literature
Literature
Pub number
Product Fact Sheet
Configuration Guide
Data Sheet
5992-1086EN
5992-1065EN
5990-6583EN
5991-3661EN
5990-8465EN
Data Sheet
Data Sheet
Web
Product page: www.keysight.com/find/M9420A
X-Series measurement applications: www.keysight.com/find/X-Series_Apps
For more information or literature resources please visit the web:
www.keysight.com/find/vxt
28 | Keysight | M9420A VXT PXIe Vector Transceiver - Data Sheet
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0200 882255
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Opt. 1 (DE)
Keysight Services
www.keysight.com/find/service
Keysight Services can help from acquisition to renewal across your
instrument’s lifecycle. Our comprehensive service offerings—one-
stop calibration, repair, asset management, technology refresh,
consulting, training and more—helps you improve product quality
and lower costs.
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Opt. 2 (FR)
Opt. 3 (IT)
0800 0260637
Keysight Channel Partners
www.keysight.com/find/channelpartners
United Kingdom
Get the best of both worlds: Keysight’s measurement expertise and
product breadth, combined with channel partner convenience.
For other unlisted countries:
www.keysight.com/find/contactus
(BP-9-7-17)
cdma2000 is a US registered certification mark of the Telecommunica-
tions Industry Association.
Bluetooth and the Bluetooth logos are trademarks owned by Bluetooth
SIG, Inc., U.S.A. and licensed to Keysight Technologies, Inc.
DEKRA Certified
ISO9001 Quality Management System
www.keysight.com/find/m9420a
www.keysight.com/go/quality
Keysight Technologies, Inc.
DEKRA Certified ISO 9001:2015
Quality Management System
This information is subject to change without notice.
© Keysight Technologies, 2017
Published in USA, December 1, 2017
5992-1088EN
www.keysight.com
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