Keysight M3302A PXIe AWG and Digitizer Combination 500 MSa/s, 16 bit, and 500 MSa/s, 14 bit
Keysight's M3302A PXIe AWG/Digitizer combines the M3201A AWG with the M3102A digitizer in a two-slot PXIe card with a shared on-board FPGA. Input to output latency as low as 400 ns.
2 slot PXIe card providing 2 channel AWG and 2 channel digitizer with shared FPGA
AWG: 500 MSa/s, 16 bit, 200 MHz bandwidth - includes function generation (sinusoidal, triangular, square, DC) and phase, frequency, and amplitude modulation capability
Digitizer: 500 MSa/s, 14 bit, 200 MHz bandwidth - includes advanced data acquisition system with flexible triggering and programmable cycles and data bursts
Up to 2 GB of onboard RAM (~1 GSA)
Less than 400 ns input to output latency
Multi-instrument programming, which is enabled using the KS2201A PathWave Test Sync Executive programming environment, is supported by SD1 3.x software API for core programmers. Flowchart style programming enabled by Hardware Virtual Instrument Design Environment (M3601A) is supported by SD1 2.x Software only. (M3XXXA, Option HV1 required).
PathWave FPGA Design Environment (KF9000A), supported by SD1 3.x software, enables easy programming and designing of logic, control, and combinatorial routines to the M3xxxA instrument along with supporting HVI for interaction with several FPGA functions. The Graphical FPGA Design Environment (M3602A) is supported by SD1 2.x Software only (M3xxxA, Option FP1 required).
E6962A Automotive Ethernet Compliance
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 the input to output. The optional real-time sequencing, inter-module synchronization, and graphical FPGA programming software tools expand its coherent transceiver capability to enable several 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).