Abstract
A high energy-efficiency capacitor switching scheme for successive approximation register (SAR) analog-to-digital converters is proposed in the paper. During the design procedure, the charge characteristic of the floating capacitor and the technique of splitting capacitor ensure zero energy consumption of switching operation. With the reset energy of capacitor arrays taken into account, the proposed switching scheme can achieve 100% less switching energy over the conventional switching scheme. Furthermore, this work also achieves about 50% area reduction with only two reference voltages. The behavioral simulation of the proposed SAR was performed, the maximum differential nonlinearity and maximum integral nonlinearity are 0.451 and 0.452 LSB respectively.
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