Title :
Thermal measurement of RF and microwave devices using a novel thermal probe
Author :
Hopper, R.H. ; Glover, J.J. ; Evans, G.A. ; Oxley, C.H.
Author_Institution :
Dept. of Electron. Eng., De Montfort Univ., Leicester, UK
Abstract :
Conventional infrared (IR) thermal microscopy is a widely used technique for measuring the thermal performance of electronic devices. The technique can be used to rapidly generate wide area, 2D thermal maps, for example, on microwave monolithic integrated circuit (MMIC) structures. The captured IR images will provide a good approximate temperature distribution, however, they may suffer from temperature errors, which occur when low emissivity metals and optically transparent semiconductor materials are studied. Although a high emissivity coating can be applied to improve the measurement accuracy, the coating can cause heat spreading, which distorts the measured temperature profile. Additionally, the coating may also damage delicate devices and visually obscure areas for inspection.
Keywords :
image sensors; infrared detectors; microwave detectors; microwave measurement; thermal variables measurement; 2D thermal maps; IR thermal microscopy; MMIC structures; RF thermal measurement; approximate temperature distribution; captured IR images; electronic devices; emissivity coating; infrared thermal microscopy; inspection; measured temperature profile; measurement accuracy; microwave devices; microwave monolithic integrated circuit structures; optically transparent semiconductor materials; temperature errors;
Conference_Titel :
Passive RF and Microwave Components Seminar, 2nd Annual
Conference_Location :
Glasgow
Electronic_ISBN :
978-1-84919-322-1
DOI :
10.1049/ic.2011.0207
