Amphenol is a technology leader in the design, manufacture and supply of high-performance interconnect systems, sensors and antennas for a broad range of industrial applications. Our core competencies include application-specific industrial interconnect solutions utilizing integrated assemblies. Our primary end applications for industrial include agriculture equipment, alternative and traditional energy generation, batteries and hybrid drive systems, entertainment, factory automation, heavy equipment, instrumentation, internet of things (IoT), LED lighting, marine, medical equipment, oil and gas, power distribution, public safety, rail mass transit, smart manufacturing (IIoT), and transportation.
Micro Power Super series is a 3.00mm pitch power connector designed for flexible wire-to-board applications, based on different wire gauges and circuits. It provides a maximum current rating of 17A/pin and accommodates a wire gauge of 16AWG and 15AWG. It is foolproof against mismating among different circuits. This series is available for 2 to 24 circuits for dual rows.
Amphenol is the first in the industry to offer card sockets for both microSD Express and Micro SD cards (UHS-I). The 17 pin microSD Express connector is capable of achieving high speeds up to 985MB/s and meeting PCIe® 3.0 requirements. The connector enables microSD Express platform to reach its full potential; making microSD Express card possible to serve as a removable Solid State Drive (SSD).
MicroSpace™ Crimp-to-Wire connector platform's unique design enables LV214 Severity-2 and performs at 1.27mm, 1.5mm and 1.8mm pitch. MicroSpace™ will be available in single and double row versions, with top and side latch configuration.
FCI Basics Micro USB 2.0 connectors deliver a data transfer rate up to 480Mb/s and are characterized by their high-speed signal stability. This smaller version of the Mini USB 2.0 connector while complying with the physical, electrical, and environmental standards of the micro form factor, supports 1.8A and 3A currents for fast charging.
FCI Basics offers a wide range of accessories compatible with 2mm Hard Metric (HM) series Millipacs® connectors. Millipacs® series accessories increase the usability and flexibility of the connector systems. They include shrouds, guiding systems, coding keys, power contacts.
Millipacs® 2mm Hard Metric connectors fulfills the interconnection requirement of the PICMG 2.0 Revision 3.0, the Compact PCI core specification. Millipacs® for Compact PCI is featured with the 2-beam twisted tulip contact, which provides an equalized signal path, two-contact points for reliability and superior performance in an environment subject to shock and vibration.
FCI Basics Millipacs® Vertical header and receptacle mating combination offer a range of stack heights between 15mm and 25mm for low speed and 10Gb/s mezzanine applications. Millipacs® connector interfaces provide high reliability and robustness making them suitable for the most demanding applications in aerospace, industrial, and also traditional telecom segments.
Millipacs® Plus 2mm Hardmetric connector offers a choice of data rates ranging from 3 to 25Gb/s with configurable and scalable high speed, low speed signal, guiding, and power modules. Available in vertical header on the backplane mating with right angle receptacle on a daughter card, scalable design is easy to populate on boards and offers flexibility to designers.
FCI Basics Millipacs® is a 2.00mm modular board to board or cable to board Interconnection system in Hardmetric configuration designed in accordance with IEC 917 and IEC 61076-4- 101. FCI Basics offers Millipacs® Hard Metric Hybrid connectors in standard signal modules of type L, M, N, D, E with signal pins, integrated guide pins, and power/coax contacts.
Millipacs® is a 2.00mm modular board to board or cable to board Interconnection system in Hardmetric configuration designed in accordance with IEC 917 and IEC 61076-4-101 and Telcordia GR-1217-CORE standards. Millipacs® Right angle headers features hot plugging application with different mating sequences and are suitable for both Coplanar and Backplane mating.