This paper presents a new Infrared thermography system for thermal characterization of semiconductor electronic devices in transient and steady-state applications. The developed set-up is based on an IR camera having a 100Hz frame-rate at full-frame and a focal plane array of 640×512 InSb sensors. In order to extend the dynamic capabilities of the system a synchronization network generates timing signals to drive the experiment and trigger the IR-camera in an equivalent-time acquisition mode, up to 1MHz equivalent bandwidth. Moreover the proposed synchronized solution is able to detect thermal maps in a non-repetitive, single event, experiment. To prove the effectiveness of the proposed IR system, thermal measurements are presented on commercial Power-MOSFET, during short-circuit (SC) tests, and Power Schottky diode in unclamped inductive switching (UIS) test.
An ultrafast IR thermography system for transient temperature detection on electronic devices2014 Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM) / Romano, Gianpaolo; Riccio, Michele; DE FALCO, Giuseppe; Maresca, Luca; Irace, Andrea; Breglio, Giovanni. - (2014), pp. 80-84. (Intervento presentato al convegno Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM), 2014 30th Annual) [10.1109/SEMI-THERM.2014.6892219].
An ultrafast IR thermography system for transient temperature detection on electronic devices2014 Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM)
ROMANO, GIANPAOLO;RICCIO, MICHELE;DE FALCO, GIUSEPPE;MARESCA, LUCA;IRACE, ANDREA;BREGLIO, GIOVANNI
2014
Abstract
This paper presents a new Infrared thermography system for thermal characterization of semiconductor electronic devices in transient and steady-state applications. The developed set-up is based on an IR camera having a 100Hz frame-rate at full-frame and a focal plane array of 640×512 InSb sensors. In order to extend the dynamic capabilities of the system a synchronization network generates timing signals to drive the experiment and trigger the IR-camera in an equivalent-time acquisition mode, up to 1MHz equivalent bandwidth. Moreover the proposed synchronized solution is able to detect thermal maps in a non-repetitive, single event, experiment. To prove the effectiveness of the proposed IR system, thermal measurements are presented on commercial Power-MOSFET, during short-circuit (SC) tests, and Power Schottky diode in unclamped inductive switching (UIS) test.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
