A Low-Power High-Efficiency Inductive Link Power Supply for Neural Recording and Stimulation System-on-Chip

摘要

In this paper, a low-power high-efficiency inductive link power supply (ILPS) for neural recording and stimulation system-on-chip (SoC) is proposed that delivers 24 mW with 82% power conversion efficiency (PCE). The proposed CMOS power regulator is composed of a self-startup activevoltage doubler rectifier (AVD) and a self-biased low dropout regulator (LDO). In addition, a modified low-power self-startup bandgap reference (BGR) circuit is utilized with dual-supply voltages to bias both the LDO circuit and the neural recording and stimulation SoC. The PCE of the AVDis improved through an on-chip calibration comparator for timing control. A prototype of the proposed ILPS is implemented using UMC 0.13 μ m CMOS technology where the active implementation area is 0.06 mm~(2). Using 2 V _(IN,peak) at 13.56 MHz, a low-power ILPSis implemented to supply the proposed SoC by 1.2 V and achieve a high-power supply rejection ratio (PSRR) of –20 dB at 20 MHz. Finally, the overall quiescent current of the proposed ILPS from the AVD output and the low dropout regulator (LDO) output equal 7.5 μ A and 8.5 μ A,respectively.