has released a new family of test adaptor products for the test
& measurement industry that allow users to test and validate their designs
for compliancy based on individual high speed serial protocol standards and to
assist in finding out deficiencies in their products. Designed to deliver
the highest electrical performance, Wilder's products are used by design
engineers, test and measurement engineers, validation engineers and compliance
test engineers to detect defects through the use of the test fixtures and
establish the failure criteria accurately.
Priced in the $2-3K range, Wilder's products have
demonstrated effectiveness via outstanding S-Parameters, TDR measurements, 3D
EM models to empirical measurements for true design accuracy. The test adaptors
work with test and measurement companies in mechanical, electrical and signal
This is sometimes an overlooked area in some shops. Being able to test one's products to a given set of Standards and use automated test fixtures is an excellent way to validate the designs and implementation as well as build confidence in new products and product lines.
In many instances until the creation of good well thought out standards arrived an industry might be fragmented and the growth of products within that industry might be lower than expected. Consider the fax machine. Until the arrival and acceptance of the Standards in 1983 from the CCITT fax machines were not widely used nor very easy to use.
Once the Standard was approved it was easy for the industry to take off and rapid innovation followed.
The ability to test a products compliance with required standards promotes interoperability, buyers confidence, fosters innovation and drives down costs.
United Launch Alliance will fly 3D-printed flight hardeware parts on its rockets starting next year with the Atlas V. The company's Vulcan next-gen launch vehicle will have more than 100 production parts made with 3D printing. The main driver? Parts consolidation and 57% lower production costs.
The new small-form-factor EZ-BLE PRoC (Programmable Radio on Chip) module is a derivative of the existing PRoC BLE Programmable Radio-on-Chip solution. The EZ-BLE PRoC module integrates the programmability and ARM Cortex-M0 core of the PRoC BLE, two crystals, an onboard chip antenna, a metal shield, and passive components.
The engineers and inventors of the post WWII period turned their attention to advancements in electronics, communication, and entertainment. Breakthrough inventions range from LEGOs and computer gaming to the integrated circuit and Ethernet -- a range of advancements that have little in common except they changed our lives.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.