PwrBlade® I/O Cable Assemblies

Amphenol ICC
Part Number Information
Part #: Price/Availability:
10080594 Buy Now

The ICC PwrBlade® cable connectors are designed to mate to right-angle or vertical board-mounted PwrBlade® headers. By expanding beyond board-to-board applications, designers can now connect power supplies and power distribution subassemblies in a wider range of applications. The combination of cable connection capability with ICC’s proven PwrBlade® board-to-board system provides a universal power distribution connector system.

ICC's PwrBlade® I/O connectors are available in squeeze-to-release form factors for applications that require active latching and in panel-mount configurations for modular installation of large power distribution systems.

The PwrBlade® power distribution connector system provides both power and signal contacts to enable power distribution and power control in a single connector. Initially developed to enable the implementation of Server System Infrastructure (SSI) Standards for Distributed Power Supplies (DPS), Mid-range Power Supplies (MPS) and High-end Power Supplies (HPS), PwrBlade connectors are also available in wide variety of other configurations. The connectors can also be customized to address unique application requirements.


  • Provides contacts for power distribution and power control
  • Robust 0.100" (2.54mm) pitch for signal contacts and 0.200", 0.250" or 0.300" spacing for power contacts
  • Rugged Blind-Mate connector system
  • Pluggable power supply interface
  • Flexible Power crimp-to-wire terminations accommodate 8AWG, 10AWG, 12AWG and 14AWG gauge wire
  • Flexible crimp-to-wire terminations accommodate 22AWG, 24AWG and 26AWG gauge wire
  • Up to three levels of sequential contact: two for power and two for signals
  • Modular product design and manufacturing process
  • Stamped and selectively plated power contacts provide a cost effective solution
  • RoHS compliant


  • Power Supplies
  • Servers
  • Storage Enclosures
  • Communications Equipment
  • Hot-Swap Redundant N+1 Power Distribution Systems