ALTET, Josep; ALDRETE-VIDRIO, Eduardo; MATEO, Diego; PERPIÑÀ, Xavier; JORDÀ, Xavier; VELLVEHI, Miquel; MILLÁN, José; SALHI, Amine; GRAUBY, Stéphane; CLAEYS, Wilfrid; DILHAIRE, Stefan

doi:10.1088/0957-0233/18/11/115704

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ALTET, Josep
Electronic Engineering Department

ALDRETE-VIDRIO, Eduardo
Electronic Engineering Department

MATEO, Diego
Electronic Engineering Department

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Measurement Science and Technology. 2008-09-22, vol. 19, n° 11, p. 115704 (1-8)

IOP Publishing

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The observation of spectral components of the power dissipated by devices and circuits in integrated circuits (IC) by temperature measurements is limited by the bandwidth of either the temperature transducer or the intrinsic cut-off frequency provided by the thermal coupling inside the chip. In this paper, we use a heterodyne method to observe the high-frequency behavior of circuits and devices by means of low-frequency lock-in temperature measurements. As experimental results, two applications of the technique are presented: detection of hot spots in ICs activated by high-frequency electrical signals and the observation of the frequency response of an integrated resistor through temperature measurements. The heterodyne method has been used in this paper with four different measurement techniques: embedded differential BiCMOS temperature sensor, laser reflectometer, laser interferometer and internal IR laser deflection meter.Read less <

English Keywords

temperature measurements

integrated circuits

high-frequency measurements

thermal testing

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A Heterodyne method for the thermal observation of the electrical behavior of high-frequency integrated circuits

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