Powell Electronics stocks cost-effective AT Series connectors
High-reliability connector specialist, Powell Electronics, now stocks the AT Series of connectors from Amphenol Sine Systems which it describes as high-performance and cost-effective.
The connectors are IP68 / 69K rated when mated and offer environmental seals and seal retention for a variety of applications such as heavy duty, transportation, marine, diagnostic, military, alternative energy and agricultural.
AT Series connectors are available in two, three, four, six, eight, 12, 13 (mixed), 15 (mixed) and 18 positions. They incorporate an integral latching system ensuring a definitive electrical and mechanical connection and wedgelocks to guarantee proper contact alignment and retention. The connector housings are manufactured from a thermoplastic material that is durable and offers “excellent” UV resistance, dielectric / mechanical properties and is RoHS-compliant, said Powell.
There is also a wide range of end caps and strain relief options for the connectors which are compatible with other existing standard products, confirmed Powell Electronics. The operating temperature range is -55 up to +125 degrees C.
Powell Electronics is a specialist at high reliability, harsh environment connector design, manufacturing and supply chain. In the USA, Powell has 70,000 square feet of connector manufacturing capabilities at its Swedesboro, New Jersey facility, which is certified to ISO9001 and AS9100.
Powell offers automated engineering solutions and connector ODM services. The company is an authorised, QPL distributor for over 50 military specifications and is ISO9120 certified.
This year, Powell Electronics relocated its European operations to new premises in Dublin, Ireland, offering design-in activities and signing new franchises agreements with Glenair, Harwin, Amphenol Aerospace, Quell, AB Connectors, Lemo, Conesys and Positronic.
The Powell portfolio addresses connector applications with products that range from miniature PCB-mount devices to high voltage, high current hi-rel solutions.