Title :
Thermally optimized demagnetization of inductive loads [power IC load switching]
Author :
Horn, Wolfgang ; Singer, Peter
Author_Institution :
Infineon Technol. Austria AG, Villach, Austria
Abstract :
Switching inductive loads, without free-wheeling diodes, to achieve fast switch-off times, is an important application for integrated smart power circuits. It requires an integrated overvoltage protection and the ability of the integrated circuit to dissipate the energy stored in the inductive load within short periods of time. In this paper, an optimized demagnetization strategy is introduced which allows for switching off large inductive loads quickly without exceeding the critical junction temperature. It is shown that for a given power transistor, the energy capability can be increased by approximately 50% compared to the state-of-the-art switch-off procedure. A circuit implementation is presented which has been implemented on a testchip. Measurement results are shown which demonstrate the advantages of the new approach.
Keywords :
circuit feedback; demagnetisation; driver circuits; power integrated circuits; power semiconductor switches; critical junction temperature; inductive load switching; integrated overvoltage protection; integrated smart power circuits; load stored energy dissipation; power transistor energy capability; quick load switch off; thermal feedback; thermally optimized load demagnetization; Circuit testing; Demagnetization; Diodes; Power integrated circuits; Power transistors; Protection; Switching circuits; Temperature; Thermal loading; Voltage control;
Conference_Titel :
Solid-State Circuits Conference, 2004. ESSCIRC 2004. Proceeding of the 30th European
Print_ISBN :
0-7803-8480-6
DOI :
10.1109/ESSCIR.2004.1356663
