The U62H256ASK55LLG1 is a 256K x 1 high-speed CMOS SRAM (Static Random-Access Memory) manufactured by Alliance Memory, Inc. It's designed for applications demanding fast access times and moderate memory density. The '55' in the part number usually indicates an access time of 55ns, making it suitable for various embedded systems and memory caching applications.

Applications

• Embedded systems
• Cache memory for microcontrollers and processors
• Networking equipment
• Industrial control systems
• Medical instrumentation

Features

• Organization: 256K x 1 bit
• Access Time: 55 ns (nanoseconds)
• Power Supply Voltage: Typically 3.3V or 5V (Consult datasheet for specific voltage)
• Operating Current: (Consult the datasheet for specific values)
• Standby Current: Low standby current for power saving
• Package Type: SOJ (Small Outline J-lead) or similar surface mount package (Consult datasheet for exact package)
• Operating Temperature Range: Industrial temperature range available (Consult datasheet for precise range)

Benefits

• Fast Access Time: Enables quick data retrieval, improving overall system performance.
• Low Power Consumption: CMOS technology minimizes power usage, extending battery life in portable devices.
• Easy Integration: Standard surface mount package simplifies board design and assembly.
• Reliable Performance: Alliance Memory's manufacturing ensures consistent and reliable operation.

Additional Details

The U62H256ASK55LLG1 leverages advanced CMOS technology to achieve a balance between speed and power efficiency. The datasheet for this specific part number will provide detailed information regarding power consumption, timing characteristics, and recommended operating conditions. It is essential to consult the datasheet before integrating this component into a design to ensure proper functionality and prevent potential damage. The LLG1 suffix may denote a specific characteristic or revision of the part, which will be detailed within the official datasheet. This SRAM is well-suited for applications where speed, density, and low power are important design considerations.