Title :
Magnetogalvanic approach to isolation of analog circuits
Author :
Nihtianov, Stoyan
Author_Institution :
Dept. of Electron., Tech. Univ. of Sofia, Bulgaria
fDate :
8/1/1994 12:00:00 AM
Abstract :
An isolation amplifier circuit is described that utilizes a magnetic field in combination with a magnetosensitive lateral bicollector transistor (magnetotransistor-MTr) to isolate input and output signals. The input signal is applied to a conducting coil via an input amplifier and voltage-to-current converter. The output signal is proportional to the collector current difference (ΔIc) of the MTr which is a linear function of the applied magnetic field. Temperature stability was achieved by microthermostating the magnetotransistor. A particular design of the isolation block is proposed, and experimental results are depicted. A dynamic range of more than 54 dB has been achieved at a bandwidth of 10 kHz. The nonlinearity was only 0.05%
Keywords :
amplifiers; analogue circuits; bipolar transistor circuits; bipolar transistors; magnetic circuits; collector current difference; conducting coil; dynamic range; input amplifier; isolation amplifier circuit; isolation of analog circuits; linear function; magnetosensitive lateral bicollector transistor; magnetotransistor; microthermostating; temperature stability; voltage-to-current converter; Analog circuits; Conductors; Copper; Electrical resistance measurement; Isolators; Length measurement; Magnetic circuits; Optical amplifiers; Optical coupling; Wires;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
