A delay circuit includes the following: an input module, configured to receive a target input signal and output the target input signal to a first node, the target input signal being a rising edge signal or a falling edge signal of a pulse signal; an output module, configured to output a target output signal, the target output signal being a delayed signal of the target input signal; and a delay control module, connected to the input module through the first node, and connected to the output module through a second node. The delay control module includes at least one delay capacitor unit, and the delay control module is configured to control a connection between the at least one delay capacitor unit and the first node according to a rising edge delay duration or a falling edge delay duration.

Aspects of the invention include a circuit including a power circuit having an amplifier, a resistor, a current source, and a first node, one end of the resistor being configured to couple to a power supply, the first node being coupled to an opposite end of the resistor, a first input terminal of the amplifier, and the current source. A voltage sensitive circuit includes a logic gate coupled to both a second input terminal of the amplifier and an output terminal of the amplifier at a second node.

A PVT-independent fixed delay circuit includes a circuit structure that has a current generator and a multi-level inverter-based time delay unit. The inverter-based time delay unit has at least two NMOS transistors M5, M6, and at least two PMOS transistors M7, M8. The current generator has a circuit structure including at least two NMOS transistors M1, M2, at least two PMOS transistors M3, M4 and a resistor R.sub.S.

A comparator circuit with low power consumption and low kickback noise includes a first dynamic comparator and a second dynamic comparator. The first dynamic comparator is a pre-amplifier for the second dynamic comparator. An enable switch which is connected to the first dynamic comparator has a control terminal connected to a resistance device. The resistance device and the enable switch form a RC delay circuit to reduce the kickback noise of the comparator circuit. Since the comparator circuit is composed of dynamic comparators, the power consumption of the comparator circuit is lower.

A PVT-independent fixed delay circuit includes a circuit structure that has a current generator and a multi-level inverter-based time delay unit. The inverter-based time delay unit has at least two NMOS transistors M5, M6, and at least two PMOS transistors M7, M8. The current generator has a circuit structure including at least two NMOS transistors M1, M2, at least two PMOS transistors M3, M4 and a resistor R.sub.S.

An integrated circuit may include path delay calibration circuitry. The calibration circuitry may be configured to calibrate respective delay paths so that data and control signals travelling through the respective delay paths experience proper propagation delays during normal user operation. The calibration circuitry may include a high frequency error calibration circuit, a monitoring circuit, and a calibration processing circuit. The high frequency error calibration circuit may be used to compute first calibration settings that take into account jitter and process variations. The monitoring circuit may be used to measure a proxy parameter of interest. The processing circuit may be used to compute an offset based at least partly on the measured value of the proxy parameter. The offset may be applied to the first calibration settings to obtain second calibration settings, which can be used to configure the respective delay paths.