Gstöttner A, Steinecke T, Huemer M (2006)
Publication Type: Conference contribution
Publication year: 2006
Publisher: IEEE
Pages Range: 598-601
Conference Proceedings Title: International Zurich Symposium on Electromagnetic Compatibility
Event location: Singapore
Journal Issue: 9095129
ISBN: 978-3-9522990-3-6
DOI: 10.1109/EMCZUR.2006.215005
Electromagnetic compatibility (EMC) becomes an increasingly important subject within the IC design process, because more and more market segments demand for low electromagnetic emission (EME) of integrated circuits. Therefore automatic emission model generation tools need to become part of the design flow. In this paper we present an automatic generation procedure of equivalent current sources (ECS) from chip netlists, based on an analytic approach. The ECSs describe the dynamic switching currents of digital function blocks of complex ICs. Worst case or typical current profiles are not generated by pattern simulation, but by pre-characterized logic cells and a set of configuration parameters like switching activity
APA:
Gstöttner, A., Steinecke, T., & Huemer, M. (2006). Activity Based High Level Modeling of Dynamic Switching Currents in Digital IC Modules. In International Zurich Symposium on Electromagnetic Compatibility (pp. 598-601). Singapore: IEEE.
MLA:
Gstöttner, Andreas, Thomas Steinecke, and Mario Huemer. "Activity Based High Level Modeling of Dynamic Switching Currents in Digital IC Modules." Proceedings of the International Zurich Symposium on Electromagnetic Compatibility, Singapore IEEE, 2006. 598-601.
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