High-performance 4-channel FMC+ digitizer delivering 3.2 GS/s sampling at 12-bit resolution with an analog bandwidth up to 750 MHz.
Designed for high-speed data acquisition in RADAR, LIDAR, and laser diagnostics with flexible gain and offset control.
- Channels: 4 analog channels (2-channel option available)
- Sampling Rate: 3.2 GS/s per channel (2.7 GS/s option available)
- Vertical Resolution: 12 bits
- Analog Bandwidth: DC to > 750 MHz
- Full Scale Range: ± 100 mV to ± 2500 mV (variable)
- Input Impedance: 50 Ω (DC coupled)
- Memory: > 1 Mega samples per channel (with GFT6204 carrier)
- Form Factor: FMC+ (VITA 57-4 2018 standard)
- Data Output: 16 JESD204B/C links at up to 12.6 Gbit/s
- Clocking: Low phase noise internal clock or external (100 kHz to 3.2 GHz)
- Triggering: External, channel, and command trigger modes
The GFT6304 FMC module is a high-performance, four-channel digitizer designed for characterizing high-speed signals with exceptional precision. Built on the latest Texas Instruments ADC technology, it delivers a high sampling rate of up to 3.2 GS/s per channel with 12-bit vertical resolution, making it an ideal solution for RADAR, LIDAR, and high-energy physics diagnostics.
This versatile module features a DC to 750 MHz analog bandwidth and a flexible analog front end with variable gain and bias control. With DC-coupled inputs and over-voltage protection, the GFT6304 ensures robust signal integrity across a wide full-scale range from ±100 mV to ±2500 mV. The compact FMC+ form factor follows the VITA 57-4 standard, allowing for seamless integration into existing FPGA-based systems.
For engineers seeking a complete stand-alone solution, the GFT6304 can be paired with the GFT6204 carrier board to provide external trigger modes, 1 Mega sample per channel data memory, and a comprehensive lab software suite for rapid deployment.
Click the “Get Quote” button above to quickly get a quote or to customize this product to your project’s requirements with our engineering team.
Whether you’re developing complex laser systems, high-speed data acquisition setups, or any timing-sensitive applications, we provide the performance and engineering support you need to succeed.
