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Tabor | Proteus RF-AWG Models

Model P9482M

Rs. 5711444.00

The Tabor P9482M is a PXIe RF arbitrary waveform generator featuring 2 AWG channels at 9 GS/s with 16-bit resolution and 8 GS memory per channel. It offers up to 8 GHz RF bandwidth, includes 8 marker outputs, and supports an optional 5.4 GS/s, 12-bit digitizer. This system—with integrated NCO and programmable FPGA—is ideal for real-time, closed-loop RF testing, phased-array radar, and quantum control applications..

  • Detail
  • Special Features
  • Specification

Built on the Proteus PXIe platform, the P9482M combines ultra-fast waveform generation and optional signal acquisition with a highly programmable FPGA core. It enables fully coherent, multichannel RF signal synthesis with integrated up-conversion. The advanced task-based sequencer allows precise, stepwise waveform control, while real-time PC-to-FPGA streaming allows unlimited-length playback beyond physical memory. Ideal for beamforming, multi-channel radar emulation, and quantum experiments requiring tight timing and high speed.

 

  • Dual AWG channels (9 GS/s, 16-bit DACs)

  • 8 GS waveform memory per channel (expandable to 16 GS total)

  • Up to 8 GHz RF bandwidth

  • Eight marker outputs for synchronization and triggering

  • Optional digitizer (5.4 GS/s, 12-bit, 2 channels)

  • Integrated NCO for direct RF/microwave signal generation

  • Task-based sequencer with conditional logic execution

  • Real-time waveform streaming to FPGA

  • User-programmable FPGA for embedded DSP and control

  • Compact PXIe form factor, scalable via PCIe Gen3 ×8 (~64 Gb/s)

Parameter Value
Model P9482M
Platform PXIe (3-slot, PCIe Gen3 ×8 interface)
AWG Channels 2 (9 GS/s, 16-bit DACs)
AWG Memory 8 GS per channel (up to 16 GS total)
RF Bandwidth Up to 8 GHz
Marker Outputs 8
Optional Digitizer 2 channels, 5.4 GS/s, 12-bit
NCO Integrated
FPGA User-programmable
Sequencer Task-based, conditional execution
Real-Time Streaming Supported (PC→FPGA for infinite waveform output)
Typical Use Cases RF signal generation, phased-array radar, quantum system control