Title :
A new technique of thermal RMS measurement
Abstract :
A thermal technique of rms measurement is described which uses the base-emitter junction of a bipolar transistor to sense the temperature change of a monolithic chip due to the power dissipation of a companion diffused resistor. An analysis is presented which provides: 1) design equations for performing error compensation to minimize the nonlinearity of the rms-to-dc conversion, and 2) ac feedback network design to optimize the low frequency cutoff and settling time product. Resulting rms converters had midband accuracies of /spl plusmn/0.05 percent of full scale over a dynamic range of 30 dB, high frequency limits of 100 MHz for 2 percent accuracy, and settling times less than 1 s.
Keywords :
Convertors; Monolithic integrated circuits; Transducers; Voltage measurement; convertors; monolithic integrated circuits; transducers; voltage measurement; Bipolar transistors; Frequency conversion; Nonlinear equations; Performance analysis; Power dissipation; Power measurement; Resistors; Semiconductor device measurement; Temperature sensors; Thermal resistance;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1974.1050530
