PXI Arbitrary Waveform Generators
Keysight's PXI arbitrary waveform generator (AWG) deliver unprecedented performance for creation of complex wideband waveforms. High sampling rate and high bit resolution provided in a single instrument enable designers to create ideal waveforms for accurate test of radar, satellite and frequency agile systems. Providing up to 500 MHz of modulation bandwidths and over 65 dBc of spurious free dynamic range, PXI arbitrary waveform generators can be combined with a wideband I/Q upconverter to achieve modulation bandwidth of 1 GHz at microwave frequencies for realistic signal simulations for IF and RF subsystem test.
Topics
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Product
PXIe Arbitrary Waveform Generator, 500 MSa/s, 16 bit, 200 MHz
M3201A
Waveform Generator
The M3201A PXIe arbitrary waveform generator is ideal for general purpose AWG automated test requirements. It offers high channel density with high-quality output with low phase noise. The optional real-time sequencing, intermodulation synchronization, and graphical FPGA programming software tools expand its capability to enable a number of solutions including envelope tracking (ET) and DPD (part of PA/FEM reference solution), MIMO, baseband electronics design, wireless device manufacturing, ATE, beamforming and other multi-channel coherent signal generation and multi-channel signal generation.
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Product
PXIe Arbitrary Waveform Generator, 1 GSa/s, 14 bit, 400 MHz
M3202A
Waveform Generator
The M3202A PXIe arbitrary waveform generator is ideal for general purpose AWG automated test requirements, Quantum Computing and massive MIMO research. It offers high channel density with high-quality output with low phase noise. The optional real-time sequencing, inter-module synchronization, and graphical FPGA programming software tools expand its capability to enable a number of solutions including Quantum Computing research, 5G, wireless device manufacturing, ATE, MIMO, beamforming and other multi-channel coherent signal generation.
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Product
PXIe I/Q Arbitrary Waveform Generator, 16 bit, 540 MHz, 3 Scalar Channels
M9336A
Waveform Generator
The M9336A AWG delivers exceptional performance for creation of complex wideband waveforms. Multiple, 540 MHz bandwidth channels with 16-bit resolution and up to a 1.28 GSa/s sampling rate are provided in a single-slot PXIe instrument. This enables the AWG to generate wide bandwidth signals with low Error Vector Magnitude (EVM), making it ideal for creating baseband waveforms for wireless communications, radar, and satellite. The M9336A can also be combined with a wideband I/Q upconverter, resulting in modulation bandwidths of 1 GHz at RF frequencies for signal simulations employed in functional testing of chip sets designed for modern digital communications radios.
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Product
PXIe AWG and Digitizer Combination 500 MSa/s, 16 bit, and 500 MSa/s, 14 bit
M3302A
Digitizer
The M3302A PXIe AWG/digitizer is ideal for Aerospace Defense applications as well as general purpose automated test requirements. The shared FPGA enables less than 400 ns latency between input to output. The optional real-time sequencing, inter-module synchronization, and graphical FPGA programming software tools expand its coherent transceiver capability to enable a number of solutions including Narrowband Radar Target Simulation, Channel Emulation, EW, BB electronics, design and manufacturing in Wireless Devices BB and IF transceivers, Software Defined Instrumentation and Hardware in the Loop (HIL).
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Product
PXIe AWG and Digitizer Combination, 500 MSa/s, 16 bit and 100 MSa/s, 14 bit
M3300A
Digitizer
The M3300A PXIe AWG/Digitizer is ideal for control, testing and prototyping in experimental Physics, communications, or medical imaging applications. The shared FPGA enables less than 400 ns latency between input to output. The optional real-time sequencing, inter-module synchronization, and graphical FPGA programming software tools expand its capability to enable a number of solutions including Experimental Physics, Quantum Computing and Quantum Optics research, ATE and other applications requiring multi-channel coherent signals.
