KYOCERA AVX, a leading global manufacturer of advanced electronic components, has announced the expansion of its 9155-800 Series vertical-mate, 2.0mm-pitch battery connectors. The expansion includes the addition of new seven- and eight-position models, aimed at satisfying customer demand for higher signal and current capabilities.
These connectors, part of KYOCERA AVX’s extensive portfolio engineered to accelerate technological innovation, feature a unique contact geometry allowing full vertical engagement without risking contact damage. Unlike traditional battery connectors requiring specific engagement procedures, the 9155-800 Series can be mated from any angle, offering users greater flexibility and convenience. Barrel Jack Connector
Designed for a wide range of applications including industrial, medical, and consumer electronics markets, the 9155-800 Series connectors boast an array of features including a forgiving sweeping beam contact design, anti-snag feature, and robust gold-plated beryllium copper contacts capable of enduring over 5,000 mating cycles.
Furthermore, these connectors are compatible with signal and power circuits, providing users with versatility in their applications. They are constructed with flame-retardant materials and are RoHS compliant, ensuring safety and regulatory compliance.
Perrin Hardee, Product Marketing Manager at KYOCERA AVX, emphasized the importance of these connectors in simplifying the mating process and ensuring reliable connectivity across various industries.
KYOCERA AVX has a long-standing reputation for producing battery connectors, with its 9155 family offering a wide selection of standard battery connectors for diverse applications. The family’s features include gold-plated BeCu contacts known for their reliability in harsh environments and customizable options to suit specific application needs.
Barrel Jack Connector With the expansion of the 9155-800 Series, KYOCERA AVX continues to address evolving market demands for efficient and reliable connectivity solutions in electronic devices.