Compact 4-8 channel delay generator with 100 ps resolution, 50 ps rms jitter, and adjustable outputs up to 50V for high-precision timing.
Versatile trigger options and Ethernet control make it ideal for laser-system synchronization, R&D, and automated testing.
- Channels: 4 independent delay channels (8 in option)
- Delay Resolution: 100 ps (narrow pulse mode option down to 100 ps)
- Jitter: < 50 ps RMS channel-to-channel
- Pulse Amplitude: 1.5 V to 5 V into 50 Ω (3 to 10 V, 15 to 50 V, or LVDS level options)
- Rise/Fall Time: 1 ns into 50 Ω (3 ns / 15 ns for 50 V option)
- Pulse Width: 10 ns to 10 s (3 ns minimum with Narrow Pulse option)
- Triggering: 7 sources including 3 internal timers (up to 50 MHz) and 2 external inputs
- Burst Mode: 1 to 1,000,000,000 pulses with adjustable period
- External Clock: 10 MHz to 240 MHz user-programmable input
- Interface: Ethernet control (USB to UART option)
- Form Factor: 19\" 1U rackmount chassis (OEM board level option available)
The GFT1064 Mini Pulse & Delay Generator provides high-precision timing in a rack-mountable 1U form factor, ideal for synchronized laser systems and automated test environments. Featuring four or eight independent delay channels with 100 ps resolution and less than 50 ps channel-to-channel jitter, it ensures that even the most sensitive experiments remain stable and repeatable.
Each output channel offers comprehensive control, allowing engineers to independently adjust pulse amplitude from 1.5 V to 5 V, width, polarity, and burst count. For specialized requirements, the system can be customized with high-voltage options up to 50 V or LVDS levels, ensuring compatibility with a wide range of hardware interfaces and diagnostic tools.
Versatility is central to the GFT1064, which supports seven trigger sources—including three internal synchronized timers and two external inputs—with repetitive rates up to 50 MHz. A dedicated Gate input provides rapid inhibit functionality or can be reconfigured as a second external trigger, offering the flexibility needed for complex sequencing tasks.
The generator is designed for seamless laboratory integration with standard Ethernet control and an internal 100 MHz TCXO clock reference. Whether utilizing the internal time base or an external programmable clock up to 240 MHz, the GFT1064 delivers the reliable, low-latency performance required for advanced physics and engineering applications.
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.
