Title :
Noise susceptibility of ΔVBE temperature sensors in highly integrated power converters
Author :
Murray, Derek ; Rinne, Karl
Author_Institution :
R&D, Powervation Ltd., Cork, Ireland
Abstract :
This paper introduces the detrimental effects of voltage regulator noise on ΔVBE-based temperature sense circuits. The work began when a significant temperature reporting inaccuracy was observed on a commercial DC-DC power conversion module. In the paper, the observed problem will be discussed, and a Spice model presented which allows the issue to be simulated. The main part of the work, however, concentrates on a comprehensive experimental investigation of the problem. Taking into account the findings of this investigation, it was possible to significantly improve the accuracy of ΔVBE temperature sense circuits even when exposed to high levels of EMI. The paper concludes by offering important design guidelines for both analog and applications engineers when these high-precision temperature sense circuits are used on power conversion circuits.
Keywords :
DC-DC power convertors; SPICE; circuit noise; electromagnetic interference; network synthesis; temperature measurement; temperature sensors; voltage regulators; ΔVBE-based temperature sense circuit; DC-DC power conversion module; Delta-Vbe temperature sensor; EMI; Spice model; detrimental effect; highly integrated power converter; voltage regulator noise susceptibility; Capacitors; Integrated circuit modeling; Noise; Switches; Temperature measurement; Temperature sensors; Transistors;
Conference_Titel :
Applied Power Electronics Conference and Exposition (APEC), 2014 Twenty-Ninth Annual IEEE
Conference_Location :
Fort Worth, TX
DOI :
10.1109/APEC.2014.6803363
