The Hynix H5TC4G43MFR-H9C is a 4Gb (Gigabit) DDR3 SDRAM (Synchronous Dynamic Random-Access Memory) component designed for applications demanding high memory capacity and performance. It finds use in diverse systems, from consumer electronics to enterprise-level servers.

Applications:

• Desktop PCs: Primary memory module enabling smooth multitasking and application performance.
• Laptops: Used in portable computers to provide sufficient memory for demanding software.
• Servers: Provides RAM for server applications, crucial for data processing and virtualized environments.
• Workstations: Supports memory-intensive tasks in professional workstations.

Features:

• Capacity: 4Gb (Gigabit) DDR3 SDRAM.
• Organization: Configured as 256M x 16.
• Interface: Industry-standard DDR3 interface, ensuring broad compatibility.
• Operating Voltage: Designed to operate at 1.5V, providing energy efficiency.
• Data Transfer Rate: Supports high data transfer rates for improved system performance.
• Clock Frequency: Compatible with various clock speeds, allowing flexible configuration options.
• Package: Utilizes a FBGA (Fine-Pitch Ball Grid Array) package for optimal thermal management and board mounting.
• RoHS Compliance: Meets RoHS standards, ensuring it is lead-free and environmentally friendly.

Benefits:

• Enhanced System Performance: Higher memory capacity allows for smoother multitasking and improved application responsiveness.
• Increased Efficiency: Low operating voltage reduces power consumption and heat generation.
• Reliable Operation: Hynix is a reputable manufacturer known for producing reliable memory components.
• Broad Compatibility: DDR3 interface ensures it can be used in a wide range of systems and chipsets.
• Improved Multitasking: Larger memory capacity allows for running more applications simultaneously without performance degradation.

Additional Details:

The H5TC4G43MFR-H9C adheres to JEDEC standards for DDR3 SDRAM, ensuring seamless integration and interoperability. It incorporates features like prefetch buffering and on-die termination (ODT) to optimize data transfer and signal integrity. Its reliable performance and efficient design make it an excellent choice for a variety of computing applications, contributing to improved overall system efficiency and responsiveness. This component is a key element in ensuring smooth operation of demanding applications in desktops, laptops, servers, and workstations.