Maxim Integrated DS1023S-200 Programmable Delay Line

The DS1023S-200 is a versatile, programmable delay line developed by Maxim Integrated, designed to offer precise timing adjustments in digital circuits. It is a key component for system designers who require exact timing modifications to synchronize digital signals within a broad range of electronic applications.

This high-quality device is engineered to provide a series of delays from 5ns to 255ns, with a 5ns increment per step, which allows for fine-tuning of signal timing to achieve optimal performance in digital systems. The DS1023S-200 operates with a 5V supply voltage and features a standard 200ns delay setting, making it suitable for a variety of applications, including but not limited to signal processing, clock distribution, and waveform generation.

Encased in a robust 14-pin SOIC package, the DS1023S-200 is designed for surface-mount technology, ensuring ease of integration into modern PCB designs. Its compact form factor is ideal for space-constrained applications where precision timing is crucial.

The device's programming interface is user-friendly, accepting parallel inputs to set the desired delay. This simplicity allows for quick and straightforward adjustments, facilitating rapid prototyping and design iterations. The DS1023S-200 also features an active-low enable input, which provides additional control by allowing the delay line to be enabled or disabled as per the circuit requirements.

Maxim Integrated's DS1023S-200 is built with reliability in mind, ensuring stable operation over its specified temperature range. Its low power consumption and high noise immunity make it an excellent choice for both industrial and commercial applications where efficiency and performance are paramount.

In summary, the DS1023S-200 programmable delay line from Maxim Integrated is a high-precision, easy-to-use component that offers designers the flexibility to fine-tune the timing of digital signals, enhancing the performance and reliability of a wide array of electronic systems.