The Fine Pitch Socket is a specialized component designed for precise testing of small electronic devices. Its advanced design allows for accurate connection and testing of devices with tightly spaced pins or leads, ensuring reliable performance in quality assurance and testing processes. This socket facilitates efficient and thorough evaluation of miniature electronic components, contributing to enhanced product quality and reliability. Features of Fine Pitch Fine pitch test sockets are specialized sockets used for testing integrated circuits (ICs) with very small lead pitches. Here are some common features of fine pitch test sockets: Precision Engineering: Fine pitch test sockets are engineered with high precision to accommodate the tight tolerances required for modern ICs with small lead pitches. Customizable Design: They often feature a customizable design to accommodate different IC packages and pin configurations. Spring-Loaded Contacts: These sockets typically use spring-loaded contacts to ensure reliable electrical connections with the IC leads. The springs apply appropriate pressure to establish good contact without damaging the IC. Application of Fine Pitch Fine pitch test sockets are crucial in testing semiconductor devices such as integrated circuits (ICs), microprocessors, and other electronic components. They provide a temporary connection between the device under test (DUT) and the testing equipment, allowing for functional testing, parametric testing, and reliability testing. Fine Pitch Advancements and Innovations Multi-DUT Testing: To improve testing throughput and efficiency, some advancements focus on multi-device under test (DUT) configurations within a single test socket. This allows for simultaneous testing of multiple devices, reducing test time and increasing productivity in semiconductor testing and production environments. Contact Technology: Innovations in contact technology aim to enhance the reliability and lifespan of fine pitch test sockets. This includes the development of advanced contact materials, such as beryllium copper or gold-plated contacts, which offer superior electrical performance and durability over time, even under high insertion and withdrawal cycles. For more information about interposer in semiconductor, please feel free to contact us!