Compact 32 V pulse generator module featuring <2 ns rise time, <2 ps RMS jitter, and factory-adjustable amplitude and width options.
High-power output in a small form factor, ideal for amplifying delay generator signals in R&D and high-speed triggering applications.
- Output Amplitude: 32 V unit into 50 Ω (Factory adjustable from 15 V to 70 V)
- Rise/Fall Time: <2 ns rise time and <15 ns fall time
- Pulse Width: 1 μs FWHM (Factory adjustable from 50 ns to 1 μs)
- Jitter: <2 ps RMS from input to output
- Trigger Input: External positive trigger >2 V via BNC; max 10 kHz repetition rate
- Insertion Delay: <5 ns from input to output
- Form Factor: Compact module (106 x 38.5 x 31.6 mm) with BNC connectors
he GFT632 is a high-performance external triggered pulse generator designed to deliver robust 15 to 70 V signals with precision and speed. Engineered for reliability in demanding environments, this compact module produces a clean rectangular pulse into 50 Ω loads with a rapid rise time of less than 2 ns. Its small footprint and rugged design make it an ideal solution for amplifying signals from primary pulse and delay generators over long distances of up to 20 meters.
While the standard configuration offers a 32 V amplitude and 1 μs pulse width, the GFT632 is designed with flexibility in mind. The output amplitude is factory-adjustable from 15 V up to 70 V, and pulse widths can be customized between 50 ns and 1 μs to meet specific application requirements. With an ultra-low RMS jitter of less than 2 ps, it ensures consistent timing for high-speed diagnostics and triggering applications.
The module operates from a standard +12 V AC/DC adapter and features 50 Ω internal termination and a 10 kHz maximum repetitive rate. Its streamlined design allows it to be placed directly at the device under test, minimizing cable-related signal degradation and maintaining pulse integrity across your entire experimental setup.
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.
