Maxim Integrated DS1100Z-35+T Delay Line IC

The Maxim Integrated DS1100Z-35+T is a high-quality, 5-tap silicon delay line that provides precise and programmable timing delays. This versatile integrated circuit (IC) is designed to offer a reliable solution for applications requiring timing adjustments, clock delay, signal synchronization, and pulse-width modulation.

Key Features

• Programmable Delay: The DS1100Z-35+T features a range of delays from 1ns to 500ns per tap, allowing for precise timing adjustments to suit various application needs.
• Low Voltage Operation: Operating at a voltage range of 3.3V ±10%, this delay line IC is ideal for low-power applications and is compatible with standard TTL and CMOS logic levels.
• High Accuracy: Each delay tap is accurate to within ±5% or ±2ns, whichever is greater, providing consistent and reliable performance.
• Temperature Stability: The device maintains its delay accuracy over a temperature range of -40°C to +85°C, ensuring dependable operation under varying environmental conditions.
• Space-Saving: Offered in a compact 8-pin SO package, the DS1100Z-35+T is designed to save valuable board space while delivering high functionality.

Applications

The DS1100Z-35+T is suitable for a wide range of applications across different industries. It is commonly used in:

• Signal Processing
• Network Synchronization
• Communication Systems
• Embedded Systems
• Digital Electronics
• Industrial Control Systems

Quality and Reliability

Maxim Integrated is known for its commitment to quality, and the DS1100Z-35+T is no exception. This delay line IC is built to meet high industry standards, ensuring a long operational lifespan and consistent performance. It is a reliable component for designers and engineers looking to incorporate precise timing and synchronization into their electronic systems.

With its programmable delay options, high accuracy, temperature stability, and space-saving design, the Maxim Integrated DS1100Z-35+T delay line IC is a versatile and essential component for any timing-critical application.