Abstract
The design of a 22 KHz 358 nW CMOS relaxation oscillator with a process and temperature compensation scheme is presented. Instead of the commonly used RC time constant, the oscillation period of the proposed circuit is determined by the resistance ratio of several resistors, which is insensitive to process and temperature variations. The on-chip relaxation oscillator is simulated in a 0.18 [Formula: see text]m CMOS process. Without any calibration or off-chip components, the frequency variation of the proposed oscillator is ±[Formula: see text]3.24% across [Formula: see text] to 100[Formula: see text]C temperature range and 5 different process corners. Compared to the conventional relaxation oscillator, the frequency variation of this circuit is reduced by 89%. The simulated temperature coefficient is 111 ppm/[Formula: see text]C, and the frequency variation over the supply voltage from 1.2 V to 1.7 V is 2.1%/V. The typical power consumption of the proposed circuit is 358 nW.
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