The UTRON UT51C164JC-35 is a high-performance, low-power static random-access memory (SRAM) chip. It's designed for applications requiring fast access times and efficient power consumption. As an SRAM, it retains data as long as power is supplied, eliminating the need for refresh cycles common in DRAM.

Applications

• Embedded systems requiring fast memory access
• Cache memory in microprocessors
• Digital signal processing (DSP) systems
• Networking equipment
• Industrial control systems

Features

• High-speed access time: 35ns access time enables rapid data retrieval.
• Low power consumption: Conserves energy in battery-powered and energy-sensitive applications.
• Single 5V power supply: Simplifies power supply design.
• TTL compatible inputs and outputs: Enables easy interfacing with standard logic devices.
• Three-state outputs: Allows for memory expansion.
• Fully static operation: No clock or refresh required.
• Data retention voltage: Guarantees data integrity even at low voltages.

Benefits

• Improved system performance: Fast access times reduce latency and increase overall system throughput.
• Reduced power consumption: Extends battery life in portable devices and minimizes energy costs in other applications.
• Simplified system design: Easy interfacing with other components reduces design complexity and development time.
• Increased system reliability: Static operation eliminates the need for refresh cycles, reducing the risk of data loss.
• Lower system cost: Single power supply and TTL compatibility can reduce overall system cost.

Technical Specifications

The UT51C164JC-35 is organized as 65,536 words by 4 bits. It operates from a single 5V power supply and features TTL-compatible inputs and outputs. The device is available in a variety of packages, including a ceramic DIP (dual in-line package). It operates over a wide temperature range, making it suitable for use in a variety of environments.

This SRAM is commonly used in applications where high speed and low power consumption are critical factors. Its fast access time makes it ideal for cache memory applications, while its low power consumption makes it well-suited for battery-powered devices.