The MT47H32M16CC-1IT:F is a DDR2 SDRAM component produced by Micron Technology Inc. It's designed for systems needing high-speed memory access and efficient data transfer. This particular model is suited for a range of applications, balancing performance and power consumption.

Applications

• Desktop PCs
• Laptops
• Embedded Systems
• Industrial Computing
• Networking equipment

Features

• Capacity: 32 Meg x 16 bits
• Data Rate: DDR2, offering improved bandwidth over DDR.
• Clock Speed: The -1IT designation specifies the speed grade, indicating the maximum clock frequency.
• Voltage: Operates at 1.8V, a standard voltage for DDR2 SDRAM, optimizing power efficiency.
• Interface: Uses a DDR2 interface, ensuring compatibility with various chipsets and systems.
• Package: Typically available in a FBGA package for efficient board mounting and thermal management.

Benefits

• Increased Bandwidth: DDR2 technology delivers significantly higher bandwidth than its predecessor, DDR, leading to improved system performance.
• Reduced Power Consumption: Operates at a lower voltage compared to earlier SDRAM technologies, reducing power consumption and heat.
• Enhanced System Performance: Contributes to faster application loading, smoother multitasking, and improved overall system responsiveness.
• Reliable Operation: Manufactured by Micron, ensuring high-quality and reliable memory performance.
• Compatibility: Designed to be compatible with DDR2-supporting motherboards and systems.

Additional Details

The MT47H32M16CC-1IT:F complies with JEDEC standards for DDR2 SDRAM, ensuring interoperability and adherence to industry specifications. It supports features like prefetch buffers and internal pipelining, which enhance memory access efficiency. It also includes power-saving modes to reduce power consumption during idle periods. The 'CC' in the part number may refer to specific packaging or temperature range characteristics. The -1IT represents the speed grade, which must be considered when matching memory to system requirements for optimal performance.