Switching mode power supply

摘要

A switching mode power supply, including a drive circuit, a low-pass filter, a feedback circuit, an operational amplifier, a reference voltage signal generation circuit, a comparator, a pulse width modulation (PWM) signal generation circuit, and a duty cycle detection circuit, where the duty cycle detection circuit is configured to convert a PWM signal that is output by the PWM signal generation circuit or a pulse output voltage signal that is output by the drive circuit into a triangular wave signal, and input the triangular wave signal to a negative input end of the comparator. The present invention is used to avoid using a complex collection circuit to collect a signal from an inductor, thereby reducing complexity of the switching mode power supply, decreasing a current collection time, and improving an operating frequency.

主权项

1. A switching mode power supply comprising:
a drive circuit; a low-pass filter; a feedback circuit; an operational amplifier; a reference voltage signal generation circuit; a comparator; a pulse width modulation (PWM) signal generation circuit; and a duty cycle detection circuit, wherein the drive circuit is configured to convert a direct current (DC) input voltage signal from an input end of the switching mode power supply into a pulse output voltage signal according to a PWM signal that is input by a switch end, wherein the low-pass filter is configured to perform filtering on the pulse output voltage signal that is output by the drive circuit to obtain a direct current (DC) output voltage signal, wherein the DC output voltage signal is output at an output end of the switching mode power supply, wherein the feedback circuit is configured to perform sampling on the DC output voltage signal to obtain a sampled voltage signal, and input the sampled voltage signal to a negative input end of the operational amplifier, wherein the reference voltage signal generation circuit is configured to generate a reference voltage signal, and input the reference voltage signal to a positive input end of the operational amplifier, wherein an output end of the operational amplifier is connected to a positive input end of the comparator, wherein the operational amplifier is configured to amplify an error between the reference voltage signal and the sampled voltage signal and output an amplification result, wherein the duty cycle detection circuit is configured to convert the PWM signal or the pulse output voltage signal into a triangular wave signal, and input the triangular wave signal to a negative input end of the comparator, wherein the comparator is configured to compare the amplification result with the triangular wave signal to obtain a level signal, wherein the PWM signal generation circuit is configured to generate the PWM signal according to the level signal that is output by the comparator, and input the PWM signal to the switch end of the drive circuit wherein the duty cycle detection circuit is an integrator circuit, wherein the duty cycle detection circuit comprises a third resistor and a second capacitor, wherein one end of the third resistor is connected to an output end of the PWM signal generation circuit or the output end of the drive circuit, wherein the other end of the third resistor is connected to the negative input end of the comparator, wherein one end of the second capacitor is connected to the negative input end of the comparator, and wherein the other end of the second capacitor is grounded.