Stanford Research DG535 Digital Delay and Pulse Generator
The Stanford Research DG535 is a state-of-the-art Digital Delay and Pulse Generator that excels in precision and versatility for various applications. It is engineered to provide four precisely-timed logic transitions or two independent pulse outputs, making it an essential tool for advanced timing applications in laboratories and automated systems.
Experience unparalleled timing accuracy with a delay resolution of just 5 ps across all channels. The DG535 significantly minimizes channel-to-channel jitter, typically around 50 ps, ensuring consistent performance for critical operations. With front-panel BNC outputs, the generator is capable of delivering TTL, ECL, NIM, or variable level pulses ranging from -3 to +4 V, all of which can accommodate loads of 50 Ω or high impedance.
Key Features:
- Four Independent Delay Channels: Tailor timing sequences with four separate channels, enhancing flexibility in application setups.
- Two Fully-Defined Pulse Channels: Generate reliable and distinct pulse outputs to suit various experimental needs.
- 5 ps Delay Resolution: Achieve precise control in timing with an unparalleled resolution that supports high-speed applications.
- Adjustable Amplitude and Offset: Customize output levels to optimize performance for different signal requirements.
- Delays Up to 1000 Seconds: Accommodate a wide range of experimental designs with long delay capabilities.
- Standard GPIB Interface: Seamless integration with other instrumentation facilitates automated testing and data acquisition.
- Optional ±32 V Output: Expand functionality with configurable output options for more demanding applications.
The DG535 is perfectly suited for usage in laser timing systems, automated testing environments, and various precision pulse applications, making it a valuable addition to any research or testing setup that demands high performance and reliability.
