Title :
Determination of the transition frequency of a bipolar transistor using optoelectronic current sources
Author :
Dziadowiec, Alexandre ; Lescure, Marc ; Boucher, Jacques
Author_Institution :
Lab. de Semicond. et d´´Optoelectron., ENSEEIHT, Toulouse, France
fDate :
2/1/1989 12:00:00 AM
Abstract :
The principle is described of a measurement by a method of comparison which allows the transition frequency fT of a bipolar transistor to be measured. The AC test signal is obtained by optoelectronic injection. The same sine-modulated monochromatic light is shone successively on two photodiodes. The transistor does not need an actual excitation current at the input or short-circuit at the output since a method of comparison is used. The frequency response of the two photoelectric signals approximates a first-order low-pass function. Optoelectronic injection allows the presence of any parasite synchronous induced signals to be detected, leading to more accurate measurements. For a signal-to-induction ratio of 40 dB and a signal-to-noise ratio of 50 dB, the accuracy over the determinations of fT is about ±5% for both amplitude and phase shift measurement
Keywords :
bipolar transistors; frequency measurement; photodetectors; semiconductor device testing; AC test signal; amplitude measurement; bipolar transistor; comparison; first-order low-pass function; frequency response; optoelectronic current sources; optoelectronic injection; parasite synchronous induced signals; phase shift measurement; photoelectric signals; signal-to-induction ratio; sine-modulated monochromatic light; transition frequency; Admittance; Bipolar transistors; Current measurement; Electromagnetic measurements; Equivalent circuits; Frequency measurement; Phase measurement; Photodiodes; Testing; Voltage;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
