All Categories : Technical Papers Bookmark and Share

Title : New Methodology on Electro-Thermal Characterization and Modeling of Large Power Drivers Using Lateral PNP BJTs
Company : Gradient Design Automation Inc.
Date : 26-Jul-2011
Downloads : 4

Rate This File
5 Stars
4 Stars
3 Stars
2 Stars
1 Star

This paper presents a new methodology to characterize and simulate the electro-thermal aspects of packaged power drivers using lateral bipolars. Maximum elevation of junction temperature due to the electrical power stress is sensed in the field of the drivers. Those measurements are further complemented by the transient interferometric mapping (TIM) inspection.
User Reviews More Reviews Review This File

ALDEC:

Featured Video
Editorial
Peggy AycinenaWhat Would Joe Do?
by Peggy Aycinena
Synopsys: Is 40 the new 20?
More Editorial  
Jobs
Senior DSP Architect / System Engineer for General Dynamics Mission Systems at Scottsdale, AZ
FAE FIELD APPLICATIONS SAN DIEGO for EDA Careers at San Diego, CA
Technical Marketing Manager Valley for EDA Careers at San Jose, CA
Technical Support Engineer for EDA Careers at Freemont, CA
Development Engineer-WEB SKILLS +++ for EDA Careers at North Valley, CA
Senior Physical Design Engineer for Ambiq Micro at Austin, TX
Upcoming Events
DesignCon 2017 at Santa Clara Convention Center Santa Clara CA - Jan 31 - 2, 2017
Embedded Neural Network Summit at San Jose CA - Feb 1, 2017
International Solid-State Circuits Conference (ISSCC) at San Francisco CA - Feb 5 - 9, 2017
Pan Pacific Microelectronics Symposium at Sheraton Poipu Kauai Resort Kauai HI - Feb 6 - 9, 2017
CST: Webinars Begin on February 9



Internet Business Systems © 2017 Internet Business Systems, Inc.
595 Millich Dr., Suite 216, Campbell, CA 95008
+1 (408)-337-6870 — Contact Us, or visit our other sites:
AECCafe - Architectural Design and Engineering TechJobsCafe - Technical Jobs and Resumes GISCafe - Geographical Information Services  MCADCafe - Mechanical Design and Engineering ShareCG - Share Computer Graphic (CG) Animation, 3D Art and 3D Models
  Privacy Policy