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.
USB Type C connectors are expected to be widely used as a next-generation interface. They support a variety of protocols such as USB2.0/3.0/3.1 and meet Superspeed communication 10Gb/s, 5A, and 20V power supply. The usability of the USB 3.1 Type C connector is enhanced also by its low profile and reversible product design. It is ideal for emerging product designs.
Amphenol LTW offers a comprehensive range of rugged USB Type-C connectors delivering a high data transmission rate of up to 10 Gbps and superior power charging up to 5A current. Designed in various form factors with multiple termination options make it ideal to fulfill industrial harsh application.
VerIO™ Connector is a versatile, robust, and compact I/O system featuring multiple standard connector interfaces such as RJ45, PoE (Power over Ethernet), Signal, Power, and Hybrid. It is easy to install and operate with a swift push-pull type movement. VerIO connector is ideal for industrial applications as well as harsh indoor or outdoor environments.
VHDM-HSD™ is a shielded, high-density, high-speed press-fit connector system optimized for differential pair architectures. The flexible, modular design of the product allows for the differential performance of our VHDM-HSD™ connector to be combined on the same rear organizer as the VHDM® connector which is a single-ended solution.
Amphenol's VHDM® connector's modular format and breadth of components provide unmatched design flexibility. VHDM® can be combined with VHDM-HSD™ to incorporate both single-ended and differential signaling within the same connector. VHDM® derivatives provide an upgrade path to 25 Gb/s with backward mate compatibility to allow for scale as needed.
PCB manufactures sensors used by design engineers and testing professionals to measure vibration, shock, pressure, force/strain, and acoustics in research and development, as well as monitoring applications for aerospace and defense, automotive, transportation, civil engineering, and general R&D industries.
DESIGNED TO ACHIEVE 56G DATA RATE REQUIREMENTS
X2's upgraded platform maintains backward mating interface compatibility with existing XCede® products while offering new backplane configurations. Mid-plane-based orthogonal solutions are available for 6-Pair along with the others, supporting both 85Ω and 100Ω to meet a wide variety of application needs, including Ethernet and PCI.
XCede® HD backplane connector achieves high performance (up to 20 Gb/s) in a Hard Metric form factor. Offering a linear density of up to 84 differential pairs per inch (33 differential pairs per centimeter), the XCede® HD connector meets the requirements of high-density architectures with a 35% increase in density as compared to standard XCede®.
The XCede® HD Plus backplane connector achieves high performance (up to 28+ Gb/s) in a Hard Metric form factor. Offering a linear density of up to 84 differential pairs per inch (33 differential pairs per centimeter), the XCede® HD Plus connector meets the high-density needs of today's challenging architectures.
XCede® connector platform is designed to provide headroom for high-speed, serial data rates demanded by data centers and service provider networks. The use of polymers in a resonance-damping shield enables low crosstalk across a wide frequency range. The XCede® backplane header system provides the ruggedness and long-term reliability required by today's systems.