The IS61LV256-15TI is a high-speed, low-power 256K-bit (32K x 8) Static Random Access Memory (SRAM) manufactured by ISSI (Integrated Silicon Solution Inc.). The '15' in the part number typically refers to an access time of 15ns, indicating very fast data access. This SRAM is designed for applications requiring high-speed performance and low power consumption.

Applications

• Cache memory for high-performance processors
• Networking equipment (routers, switches)
• Graphics cards
• Digital signal processing (DSP) systems
• High-speed data acquisition systems

Features

• Organization: 32K x 8 bits
• Access Time: 15 ns (nanoseconds)
• Power Supply Voltage: 3.3V
• Operating Current: Low active current
• Standby Current: Very low standby current for power saving
• Package Type: SOJ (Small Outline J-lead) or TSOP (Thin Small Outline Package) (consult the datasheet for the exact package)
• Operating Temperature Range: Industrial temperature range available (consult the datasheet for the precise range)

Benefits

• Extremely Fast Access Time: Enables very quick data retrieval, maximizing system performance.
• Low Power Consumption: Minimizes power usage, extending battery life in portable devices and reducing overall system power requirements.
• High Reliability: ISSI's manufacturing processes ensure dependable and consistent operation.
• Easy Integration: Standard memory interface simplifies integration with microprocessors and microcontrollers.

Additional Details

The IS61LV256-15TI uses advanced CMOS technology to achieve its high speed and low-power characteristics. The datasheet for this specific part number provides detailed information on power consumption, timing specifications, and operating conditions. It is essential to consult the datasheet before integrating this component into a design to ensure proper functionality and to avoid potential damage. The 'TI' suffix typically indicates a specific temperature range or package type, which will be detailed in the datasheet. This SRAM is ideally suited for applications where speed is paramount and power consumption needs to be minimized.