Direct Connect Cable System

High-speed, low cost cable assembly with press-fit termination directly to the PCB board.

FEATURES

  • Press fit termination to the PCB board
  • Ultra low 3 mm profile
  • Supports and surpasses PCIe® Gen 3 speed at 2 meters
  • 100 ohm differential pair signal routing
  • 30 AWG twinax ribbon cable

SERIES

DCH

2.00 mm High-Speed Press-Fit Twinax Cable Assembly

Features
  • 2.00 mm (.0787") pitch
  • 100 ohm differential pair signal routing
  • 30 AWG twinax cable
  • High-Retention, press-fit termination to PCB
  • Ultra low 3 mm profile
2.00 mm High-Speed Press-Fit Twinax Cable Assembly

As consumers, no one ever complains that their wireless connectivity is “too fast”. Global wireless carriers and network providers continue to push the limits of 4G LTE, but a next-generation wireless standard – 5G New Radio (5G NR) – is on the horizon. 5G technology will be 100x...
Everyone loves a good book. From Shakespearean classics to more modern-day masterpieces, a solid story can leave a lasting impression. While the VITA family of standards isn’t necessarily a book, it does have a rich history with a large impact.  As we learned in a previous blog, ...
With our last web update, we brought you several new additions to our on-site search, a new Microelectronics web experience, and our new 2017 product overview guide. In September, the updates to search came to a close (for now), we’ve added a few new content pages, and we began w...
I’ll start this blog with two questions. First, what are the major costs to build a connector? Second, which of these are the bigger costs?  In other words, what is the most expensive part of a connector? (Quick aside: I can’t speak for all connector companies when it comes to co...
Emerging applications in 5G communications, mil/aero systems, high-speed data acquisition, phased-array radar and communication research will support faster data rates than current generation solutions. Developing and testing these high-performance applications requires advanced ...
View Full Site