US Patent Application 18151115. DC-TO-DC CONVERTER WITH PULSE SKIPPING FUNCTION AND ON-TIME CONTROL FUNCTION, AND ELECTRONIC DEVICES INCLUDING THE SAME simplified abstract
DC-TO-DC CONVERTER WITH PULSE SKIPPING FUNCTION AND ON-TIME CONTROL FUNCTION, AND ELECTRONIC DEVICES INCLUDING THE SAME
Inventors
DC-TO-DC CONVERTER WITH PULSE SKIPPING FUNCTION AND ON-TIME CONTROL FUNCTION, AND ELECTRONIC DEVICES INCLUDING THE SAME - A simplified explanation of the abstract
- This abstract for appeared for patent application number 18151115 Titled 'DC-TO-DC CONVERTER WITH PULSE SKIPPING FUNCTION AND ON-TIME CONTROL FUNCTION, AND ELECTRONIC DEVICES INCLUDING THE SAME'
Simplified Explanation
The abstract describes a DC-to-DC converter that converts a DC voltage from a power line to a desired output voltage. The converter includes two switching circuits that are controlled by pulse control signals. The first switching circuit is connected between the power line and the output terminal, while the second switching circuit is connected between the output terminal and ground.
The converter also includes a pulse control signal generation circuit that receives two voltage levels: a first level associated with the output voltage and a second level of a reference voltage. If the second level is higher than the first level, the pulse control signal generation circuit generates a first pulse control signal to increase the output voltage. On the other hand, if the second level is lower than the first level, the circuit generates a second pulse control signal.
In summary, the DC-to-DC converter adjusts the output voltage based on the comparison between the reference voltage and the output voltage, using pulse control signals to control the switching circuits.
Original Abstract Submitted
Disclosed is a DC-to-DC converter which includes a first switching circuit connected between a power line receiving a DC voltage and an output terminal of the DC-to-DC converter and switched based on a first pulse control signal, a second switching circuit connected between the output terminal and a ground and switched based on a second pulse control signal, a pulse control signal generation circuit that receives a first level of a first voltage associated with an output voltage and a second level of a first reference voltage, wherein, in response to the second level being higher than the first level, the pulse control signal generation circuit is configured to generate the first pulse control signal to increase the output voltage and wherein, in response to the second level being lower than the first level, the pulse control signal generation circuit is configured to generate the second pulse control signal.
