ZA8

0.80 mm Ultra Low Profile Micro Array

This 0.80 mm pitch ultra low 1 mm profile interposer features a choice of dual compression contacts or single compression with solder balls. Compared to standard interposers, they feature greater density, X-Y-Z axes flexibility, customizable shapes and patterns, increased cycle life, low normal force with high deflection range and higher speed performance.

Features
  • Low profile - 1 mm standard height
  • Ideal for board stacking, module-to-board and LGA interfaces
  • Allows easy field upgrade, exchange
  • Minimizes thermal expansion issues
  • Up to 400 I/Os
  • 0.80 mm (.0315") pitch
  • Samtec 28+ Gbps Solution
Mates

Click here to see a full list of mates related to ZA8.


The North American Broadcast Show, or NAB, is April 22-27 at the Las Vegas Convention Center.  NAB is about everything digital in the fields of media, entertainment, and technology. Samtec is exhibiting its line of 12G SDI RF interconnects, including a product demonstration showi...
Shielded Connectors For EMI, EMC Protection Samtec is expanding its line of rugged, high-speed 0.80 mm pitch Edge Rate® interconnects. First is a mating set with both socket (ERF8 Series) and terminal (ERM8 Series) strips that are fully shielded. The shield encircles the entire m...
Consumers just want more HD video everywhere they go. The migration from 4G to 5G enables live streaming video consumption everywhere the wireless network reaches. Faster bandwidths via cable or fiber to the home provide the pipe to support the 4K/UHDTV products that are common o...
Kevin Burt, of the Samtec Optical Group, explains another one of the several demos that Samtec presented at OFC 2017.  In this demo, four GT 28 Gbps transceiver signals are generated by an FPGA and launched mid-board from a FireFly™ 28 G x4 optical connector system. These 28 Gbps...
Our friend Eric Bogatin wrote a paper for DesignCon 2017 entitled “New Characterization Technique for Glass-Weave Skew.”  He wrote a summary article of the paper in Signal Integrity Journal. Since many of our readers strive to optimize their signal transmission path, I thought it...
View Full Site