Discover our solutions for Reliability, Burn-in and Testing of semiconductor devices, power modules and electronic modules.
EDA Industries is a leader in Burn-in and Reliability Equipment for semiconductor devices, power modules and electronic modules.
Our innovative solution, the ETNA system, summarizes more than 30 years of experience, being the ideal platform to carry out R&D, Q&R, and production tests for the main families of devices, included SiC & GaN, Power Modules, SoC, MEMS, and Memories.
The growth of SiC and GaN in the semiconductor market has brought EDA Industries to use its experience in the WBG Back-End environment, extending the same approach also to Front-End.
As a result, EDA developed SocrATE, a complete Wafer Level Burn-in Equipment designed specifically to meet the needs of cost-sensitive volume manufacturing of current and next generation SiC, GaN, and High Voltage devices.
The technological evolution of devices dictated by the market and the demand of increasing the test capacity have pushed EDA Industries to design powerful and innovative test platforms.
The MOSBTS-M is specifically developed for SiC & GaN devices and Power Modules, while the VBTS-M is destinated to many types of electronics, such as Microprocessors, Analog, Digital and Mixed Signal, High Power, MEMS, and Memories.
EDA Industries designs and produces Burn-in Boards of various standards, but it is also able to make other BIB typologies, starting from technical specifications or Gerber files and BOM.
We have spent years developing innovative products capable to meet the highest stress needs in every phase of devices’ testing process.
In addition to Burn-in and Reliability Equipment, Test Platforms, and Burn-in Boards, EDA Industries produces Test Stations to manage the other operations of the electronic devices’ qualification and production cycles.
These solutions are the Pre Burn-in Test Station (PBTS) and the Engineering Test Station (ETS).
Our Software Platforms and the EDA Thule Data Analysis Program are designed to analyze and interpret large amounts of EDA equipment data.
The insight provided can be employed in a wide variety of areas, such as product quality assessment, R&D, reliability, monitoring, and improving equipment performances.