The K4S280432D-TL75 is an SDRAM (Synchronous Dynamic Random-Access Memory) component manufactured by Samsung. SDRAM synchronizes its operation with the system clock for faster data access compared to asynchronous DRAM. 'K4S' denotes a specific Samsung SDRAM family.

Applications

• Legacy Desktop Computers: Used as system memory in older computer systems.
• Legacy Laptop Computers: Provides memory for older portable computer systems.
• Networking Equipment: Found in older routers, switches, and other networking devices.
• Embedded Systems: Utilized in embedded applications requiring synchronous memory operation.
• Older Graphics Cards: Can serve as video memory in some older graphics cards.

Features

• Synchronous Operation: Operates in sync with the system clock, providing precise timing and data integrity.
• High Memory Density: Provides a substantial amount of memory in a single chip.
• Fast Clock Speeds: Designed for relatively fast clock frequencies for rapid data access.
• Low Power Consumption: Designed for efficient power usage.

Benefits

• Improved System Performance: Improves overall system performance due to faster memory access.
• Enhanced Graphics Capabilities: Enables smoother and more responsive graphics in compatible applications.
• Improved Data Transfer Rates: Allows for rapid data transfer between memory and other system components.
• Larger Memory Capacity: Enables the storage and processing of a significant amount of data.

Additional Details

The 'TL75' portion likely refers to the speed grade, timing parameters, and potentially the packaging of the SDRAM chip. Consulting the official Samsung datasheet for K4S280432D-TL75 is essential for obtaining precise specifications, including operating voltage, CAS latency, and operating temperature range. SDRAM typically operates at 3.3V.

This type of memory is still used in legacy systems and specific niche applications where its performance characteristics are suitable. The synchronous operation allows for reliable data handling and efficient operation within the systems it supports.