Title :
Automatic Offset Correction for Measurements in the Nanovolt Range
Author :
Scandurra, Graziella ; Cannata, G. ; Ciofi, Carmine
Author_Institution :
Dipt. di Ing. Elettron., Chim. e Ing. Ind., Univ. of Messina, Messina, Italy
Abstract :
In this paper, the design of a new offset correction system employing a time-varying resistance as a probe for the detection of the sign and magnitude of the equivalent input offset of an operational amplifier in a series-shunt feedback configuration is presented. In order to considerably reduce the charge injection effects resulting from the switching of the MOS transistor that is used for the implementation of the time-varying resistance, we resort to a proper discrete time-sampling strategy for offset error detection. With respect to a previous topology, the new approach allows us to extend the useful amplifier bandwidth from a few hertz up to about 100 Hz with a gain boost from 201 to 1001. With the new approach, a residual offset on the order of a few tens of nanovolts is obtained, which allows us to classify the system as a nanovolt amplifier.
Keywords :
MOSFET; amplifiers; error correction; measurement errors; voltage measurement; MOS transistor switching; automatic offset correction; charge injection effect; discrete time-sampling strategy; equivalent input offset; nanovolt amplifier; nanovolt range measurements; offset correction system; offset error detection; operational amplifier; series shunt feedback configuration; time-varying resistance; useful amplifier bandwidth; Bandwidth; Clocks; Gain; Instruments; Resistance; Switches; Voltage measurement; Amplifier noise; analog circuits; dc amplifiers; error compensation; voltage measurements;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2013.2245033
