The KTA-MB1600/8G is an 8GB DDR3 1600MHz memory module manufactured by Kingston Technology. It is designed for use in laptops and other small form-factor computing devices. This memory module provides a significant performance boost compared to older DDR2 or DDR memory, enabling faster application loading, smoother multitasking, and improved overall system responsiveness.

Applications

• Laptop computers
• Notebook computers
• Small form-factor desktops
• All-in-one PCs
• Embedded systems

Features

• 8GB capacity
• DDR3 technology
• 1600MHz clock speed
• SODIMM form factor (204-pin)
• Low voltage operation (1.35V or 1.5V, depending on the specific revision)
• Unbuffered
• Non-ECC

Benefits

• Increased System Performance: The 8GB capacity allows for running multiple applications simultaneously and handling large datasets with ease.
• Faster Data Transfer Rates: The 1600MHz clock speed provides faster data transfer rates compared to slower DDR3 modules.
• Improved Multitasking: The ample memory capacity enables smoother multitasking and reduces the likelihood of system slowdowns.
• Reduced Power Consumption: Low voltage operation (depending on revision) helps to extend battery life in laptops and reduce overall system power consumption.
• Easy Installation: The SODIMM form factor allows for easy installation in compatible laptops and small form-factor devices.

Technical Specifications

The KTA-MB1600/8G is a PC3-12800 (DDR3-1600) SODIMM module. It operates at a clock speed of 1600MHz and has a CAS latency (CL) typically of 11. It requires a voltage of 1.35V (DDR3L) or 1.5V (standard DDR3), depending on the specific revision. The module is non-ECC and unbuffered. It conforms to the JEDEC standards for DDR3 SODIMM modules. The dimensions are approximately 67.6mm x 30mm.

The KTA-MB1600/8G provides a cost-effective way to upgrade the memory capacity and improve the performance of compatible laptops and small form-factor computing devices. Its DDR3 technology and 1600MHz clock speed deliver faster data transfer rates and improved system responsiveness for a variety of applications.