Innovative M.2 Test Socket Prevents Scratches on PCB Gold Fingers

Innovative M.2 Test Socket Prevents Scratches on PCB Gold Fingers

The M.2 interface is one of the mainstream SSD storage device interfaces and a direction for future development. The advantages of the M.2 interface include its small size, easy installation, high speed, stability, and cost-effectiveness. However, during testing, it is often found that the gold fingers of the M.2 PCB board are scratched, leading to inaccurate testing results. The main problem with traditional testing sockets is that they can easily damage the gold fingers when fixing the M.2 PCB board, resulting in unreliable testing.

To solve this problem, Sireda Technology has introduced a new generation of M.2 testing socket. The socket uses a new clamping method to clamp the M.2 PCB board onto the socket, thereby avoiding scratches on the gold fingers. The socket also has high-precision clamping force to ensure the stability and reliability of the testing signal. In addition, the socket supports automated testing, which can improve testing efficiency and accuracy.

The product features of the testing socket include:

1.      ZIF structure design to protect the SSD gold fingers from scratches.

2.      Open-top window structure for easy insertion and removal.

3.      Compact structure that takes up less space for mass production.

4.     Spring pin contact structure with low resistance for high-speed transmission.

The testing socket uses a new clamping structure that supports different sizes of M.2 PCB boards, such as 2242, 2260, and 2280. The clamping structure can smoothly clamp the gold fingers without causing any damage. In terms of clamping force control, the socket uses a special mechanical design and high-precision control algorithm to ensure the stability and controllability of the clamping force. Additionally, the socket has high-precision measurement circuits to measure the electrical performance of the M.2 PCB board, including signal integrity, power, and ground.

The testing socket also supports various testing modes, including functional testing, signal testing, driver testing, and performance testing. During testing, the socket can automatically switch between different testing modes according to user needs. Moreover, the socket has advantages such as high-speed transmission, high sensitivity, and high stability, which can ensure the accuracy and reliability of testing results.

The testing socket has undergone rigorous testing and certification and meets international standards, making it suitable for different testing environments and application scenarios. Additionally, the socket has a flexible design and high reliability, making it adaptable to the needs of different customers.

The R&D team of Sireda Technology has been committed to solving testing problems and improving testing efficiency and accuracy. The successful launch of this testing socket is the result of their continuous innovation and improvement. They also stated that they will continue to launch more excellent testing products to meet the needs of different customers.

Overall, the launch of this testing socket will bring a new solution to M.2 testing, providing higher efficiency and accuracy in the testing process. The testing socket has multiple advantages, including high-precision clamping force, multiple testing modes, high-speed transmission, high sensitivity, and high stability. Additionally, the socket has a flexible design and high reliability, making it adaptable to different testing needs.