AMP+ HVP 1100 High Voltage Connector System

AMP+ HVP 1100 High Voltage Connector System

E-Mobility empowered. TE's AMP+ HVP 1100 high voltage connector system is designed for flexibility with a wide range of options for hybrid and electric vehicle device applications.

Highly variable connectors enable electromobility in your design. TE's AMP+ HVP 1100 high voltage connector system is designed for flexibility with a wide range of options for hybrid and electric vehicle device applications. The finger-proof, touch-safe, 1-position high current connectors and headers provide an integrated internal HVIL allowing for package size optimization and routing flexibility. The connectors and headers have a current carrying capability up to 320A at 85°C with 70mm² shielded cable and a cable range of 35 to 95mm². The connectors also provide a no-lever lock design that optimizes package sizes and offers two-stage unlatching for effective HVIL functionality. The AMP+ HVP 1100 high voltage connector has a common header footprint for 90-degree and 180-degree mating plugs.

Applications

  • Battery pack
  • Inverter
  • High voltage power distribution unit

Features

  • Finger proof, touch safe
  • Two stage unlatching for effective HVIL functionality
  • Finger actuated
  • No tool required to unmate
  • Wide cable range (35 to 95mm²)
  • USCAR-2, USCAR-37 compliant
  • Tested to 50 mating cycles
  • Sealed
  • Multiple coding options (up to 6)

Mechanical

  • Terminal: 11mm pin and receptacle
  • Wire range: 50 to 70mm² individual shielded wire
  • Latching style: Two stage, finger actuated
  • HVIL: Integrated, internal
  • CPA available

Electrical

  • Voltage rating: Up to 750 VDC
  • Current rating: Up to 300A at 85°C with 70mm² shielded cable
  • Temperature range: -40°C to 125°C
  • Shielding: 360 degree from wire to device
  • IP rating: Mated: IP67, IP6k9k
  • Unmated: IP2XB

Standards and Specifications

  • USCAR-2 Rev. 5 
  • USCAR 37
  • Validation: 501-101362 Rev. A
  • Product specification: 108-101203
  • Application specification: 114-101010