Abstract
The existing offset cancellation methods are based on digital-to-converters (DAC) and the calibration paths. During thermal drift the parameters of transistors in calibration pa¬t¬h change, which increase the offset of the system. The proposed offset cancellation meth¬od includes current DAC which is directly connected to the output of the system. The absence of the calibration path makes the circuit more stable during temperature drifts without voltage-current-voltage conversion. The offset variation of the circuit during thermal drift is reduced 19 times (1.42 mV). The circuit occupies 43.2 % less area as in the current DAC, only transistors have been used instead of the resistor-transistor structure of voltage DAC. Power consumption increases 7 % as the branch of the current DAC is always on.
Publisher
National Polytechnic University of Armenia
Subject
Materials Chemistry,Polymers and Plastics,Surfaces, Coatings and Films,General Chemistry,Animal Science and Zoology,Statistics, Probability and Uncertainty,General Mathematics,Statistics and Probability,Psychiatry and Mental health,Applied Psychology,General Earth and Planetary Sciences,General Engineering,Education,Developmental and Educational Psychology,Education,Plant Science,Drug Discovery