Curtiss Wright Controls Defense Solutions’ Hybricon brand engineered packaging 3U backplane and midplane solutions support all of the major embedded computing bus architectures including OpenVPX, VPX-REDI, VPX, CompactPCI, VME, hybrid backplanes with two or more bus architectures, high speed
switch fabrics to >10 Gbaud, and custom buses. Our custom backplane solutions are designed to your program requirements, and can include rear transition conectors for mid-plane applications using RTMs. We also offer chassis level solutions with standard or custom backplanes, as well as integrated enclosures including payload.
These custom 3U solutions are engineered to meet the most stringent design requirements and provide innovative solutions to customer requirements combined with improved production methods; this has resulted in a range of very rugged backplanes which are competitively positioned, but still employ the quality and performance advantages associated with the latest backplane technology from a technology leader.
Highlights
- High performance, extremely low noise
- Custom backplane designs to incorporate high speed serial and switched fabric architectures available
- Custom backplanes can be designed and manufactured to IPC and J-STD Class III & Mil Specs
- Custom 3U backplanes can support OpenVPX, VPX-REDI, VPX, VME, CompactPCI, PXI, PXI express, or hybrid mixtures of backplane technologies
- Custom 3U backplanes can optionally support I/O via rear VPX cable connectors, discrete cable connectors, direct mate to I/O circuit card, flex circuit to I/O circuit card, or rigid-flex
- Optional Conformal coating
These backplanes are part of the Hybricon® series of electronics packaging products. Contact your sales representative for a solution designed to your needs.
3U OpenVPX/VPX Backplanes
Curtiss Wright Controls Defense Solutions is a leading supplier of backplanes, enclosures, boards, power supplies and systems designed to be compliant with OpenVPX™ (VITA 65). We are proud of our role as a leading participant in the open standards process that resulted in the ANSI ratification of VITA 65.
