The Hynix H5TQ1G63EFR-PBCR is a DDR3 SDRAM (Synchronous Dynamic Random-Access Memory) chip, commonly used in various applications requiring high-speed memory. It is designed for performance and efficiency, suitable for both consumer and industrial applications.

Applications:

• Desktop and laptop computers
• Graphics cards
• Gaming consoles
• Networking equipment
• Embedded systems

Features:

• 1Gb (128M x 8) memory organization
• Double Data Rate 3 (DDR3) technology
• Operating speed of 1600MHz (PC3-12800)
• 1.5V power supply
• 8-bit prefetch architecture
• On-Die Termination (ODT)
• Lead-free and RoHS compliant

Benefits:

• Increased memory bandwidth for faster data transfer
• Reduced power consumption for efficient operation
• Improved system responsiveness and performance
• Enhanced signal integrity and reliability
• Environmentally friendly due to lead-free construction

Additional Details:

The H5TQ1G63EFR-PBCR utilizes DDR3 technology, allowing it to transfer data on both the rising and falling edges of the clock signal, effectively doubling the data transfer rate. The 1Gb density offers sufficient memory capacity for a variety of applications. Operating at 1600MHz, it ensures fast data access and retrieval. The 1.5V power supply minimizes power consumption, making it suitable for energy-conscious designs. The on-die termination feature improves signal quality, preventing signal reflections that could degrade performance. It is organized as 128M x 8 bits and is a key component in computer memory modules.

The chip is packaged in a 78-ball FBGA (Fine-Pitch Ball Grid Array) package, designed for surface mounting on PCBs. Compliant with JEDEC standards, this chip ensures compatibility and interoperability with other DDR3 components. The '-PBCR' suffix indicates specific timing and performance characteristics. The H5TQ1G63EFR-PBCR enables smoother multitasking and overall performance enhancements in the systems in which it is employed. It contributes to increasing efficiency in data processing and application execution.