Abstract: A phase-locked loop circuit includes a phase frequency detector (PFD) circuit, a digital code generator circuit, a frequency divider and an oscillator circuit. The PFD circuit is configured to detect a difference in phase and frequency between a reference clock and a feedback clock to generate a first control signal and a second control signal. The digital code generator circuit is configured to process the second control signal to generate a digital code. The frequency divider is configured to receive an output clock to generate the feedback clock. The oscillator circuit is configured to generate the output clock according to the first control signal and the digital code. A frequency of the output clock is determined according to a first control parameter and a second control parameter of different types. The first and second control parameters are adjusted in response to the first control signal and the digital code respectively.

Abstract: A voltage regulator circuit includes a first amplifier, a second amplifier and a transistor. Respective first input terminals of the first and second amplifiers are coupled to a first reference voltage and a second reference voltage, respectively. A connection terminal of the transistor is coupled to a supply voltage. A control terminal of the transistor is selectively coupled to one of respective output terminals of the first and second amplifiers. When the control terminal of the transistor is coupled to the output terminal of the first amplifier, another connection terminal of the transistor is coupled to a second input terminal of the first amplifier to output a regulated voltage. When the control terminal of the transistor is coupled to the output terminal of the second amplifier, the another connection terminal of the transistor is coupled to a second input terminal of the second amplifier to output the regulated voltage.

Abstract: A voltage regulator circuit includes a first amplifier, a second amplifier and a transistor. Respective first input terminals of the first and second amplifiers are coupled to a first reference voltage and a second reference voltage, respectively. A connection terminal of the transistor is coupled to a supply voltage. A control terminal of the transistor is selectively coupled to one of respective output terminals of the first and second amplifiers. When the control terminal of the transistor is coupled to the output terminal of the first amplifier, another connection terminal of the transistor is coupled to a second input terminal of the first amplifier to output a regulated voltage. When the control terminal of the transistor is coupled to the output terminal of the second amplifier, the another connection terminal of the transistor is coupled to a second input terminal of the second amplifier to output the regulated voltage.

Abstract: A phase-locked loop circuit includes a phase frequency detector (PHD) circuit, a digital code generator circuit, a frequency divider and an oscillator circuit. The PFD circuit is configured to detect a difference in phase and frequency between a reference clock and a feedback clock to generate a first control signal and a second control signal. The digital code generator circuit is configured to process the second control signal to generate a digital code. The frequency divider is configured to receive an output clock to generate the feedback clock. The oscillator circuit is configured to generate the output clock according to the first control signal and the digital code. A frequency of the output clock is determined according to a first control parameter and a second control parameter of different types. The first and second control parameters are adjusted in response to the first control signal and the digital code respectively.

Abstract: A voltage regulator circuit includes a first amplifier, a second amplifier and a transistor. Respective first input terminals of the first and second amplifiers are coupled to a first reference voltage and a second reference voltage, respectively. A connection terminal of the transistor is coupled to a supply voltage. A control terminal of the transistor is selectively coupled to one of respective output terminals of the first and second amplifiers. When the control terminal of the transistor is coupled to the output terminal of the first amplifier, another connection terminal of the transistor is coupled to a second input terminal of the first amplifier to output a regulated voltage. When the control terminal of the transistor is coupled to the output terminal of the second amplifier, the another connection terminal of the transistor is coupled to a second input terminal of the second amplifier to output the regulated voltage.