Breaking News
Comments
Newest First | Oldest First | Threaded View
docdivakar
User Rank
Author
re: MEMS foundry licenses TSV tech to prototyper
docdivakar   11/14/2011 7:16:15 PM
NO RATINGS
Some of the TSV-related patents date back to 1980's so there would have to be some differences in the technology and the claims thereof in Silex patents on TSV. I am not familiar with Silex's claims, but I have a hunch it is very process-specific. MP Divakar

gnull06
User Rank
Author
re: MEMS foundry licenses TSV tech to prototyper
gnull06   11/11/2011 5:08:28 PM
NO RATINGS
I see that AMFitzgerald also uses Sil-Via for MEMS prototyping

bettinabriz
User Rank
Author
re: MEMS foundry licenses TSV tech to prototyper
bettinabriz   11/11/2011 4:55:52 PM
NO RATINGS
SilVia seems to have been around for several years. Silex seems to be gaining ground.

Philippe R.
User Rank
Author
re: MEMS foundry licenses TSV tech to prototyper
Philippe R.   11/9/2011 12:26:49 PM
NO RATINGS
I'm wondering about the solidity of SILEX patents on this technology when I see the initial Thales patent on this TSV technology (« Method for producing via-connections in a substrate and substrate equipped with same » - WO 01/09944)...

peterh123
User Rank
Author
re: MEMS foundry licenses TSV tech to prototyper
peterh123   11/8/2011 8:23:28 PM
NO RATINGS
Sil-Via is a via-first platform for MEMS development which has been in production for over five years. The license to Nanoshift allows them to offer this technology as a basis for prototyping work for their customers, instead of having to engage directly with Silex. Due to the R&D nature of much of MEMS, this type of move allows Silex to reach a much broader audience, and gives Nanoshift the ability to offer advanced packaging options to its customers with a much more seamless handoff back to Silex for production down the road.

goafrit
User Rank
Author
re: MEMS foundry licenses TSV tech to prototyper
goafrit   11/8/2011 2:21:26 PM
NO RATINGS
Any amount for this transaction and what is the unique feature of this technology for this license? Anyone to explain more?



Datasheets.com Parts Search

185 million searchable parts
(please enter a part number or hit search to begin)
Radio
NEXT UPCOMING BROADCAST

What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.
Like Us on Facebook
Special Video Section
LED lighting is an important feature in today’s and future ...
05:27
The LT8602 has two high voltage buck regulators with an ...
05:18
The quality and reliability of Mill-Max's two-piece ...
01:34
Why the multicopter? It has every thing in it. 58 of ...
Security is important in all parts of the IoT chain, ...
Infineon explains their philosophy and why the multicopter ...
The LTC4282 Hot SwapTM controller allows a board to be ...
This video highlights the Zynq® UltraScale+™ MPSoC, and sho...
Homeowners may soon be able to store the energy generated ...
The LTC®6363 is a low power, low noise, fully differential ...
See the Virtex® UltraScale+™ FPGA with 32.75G backplane ...
Vincent Ching, applications engineer at Avago Technologies, ...
The LT®6375 is a unity-gain difference amplifier which ...
The LTC®4015 is a complete synchronous buck controller/ ...
10:35
The LTC®2983 measures a wide variety of temperature sensors ...
The LTC®3886 is a dual PolyPhase DC/DC synchronous ...
The LTC®2348-18 is an 18-bit, low noise 8-channel ...
The LT®3042 is a high performance low dropout linear ...