Power converter and method for controlling power converter that adjust duty cycle of switching circuit based on input voltage

US 9,667,161 B2
Filed: 03/27/2014
Issued: 05/30/2017
Est. Priority Date: 03/29/2013
Status: Active Grant

First Claim

Patent Images

1. A power converter, comprising:

a switching circuit;

a power conversion circuit configured to receive an input voltage via the switching circuit and convert the input voltage into an output voltage;

an input voltage sense circuit configured to detect the input voltage and generate an input voltage sense signal;

an output sense circuit configured to;

detect the output voltage and generate an output voltage sense signal; and

detect an output current and generate an output current sense signal;

a reference voltage module configured to generate a reference voltage based on the input voltage sense signal provided by the input voltage sense circuit such that the reference voltage is proportional to the input voltage; and

a first operational amplifier configured to generate a first comparison signal based on a difference between the output voltage sense signal and the reference voltage;

a second operational amplifier configured to generate a second comparison signal based on a difference between the output current sense signal and the first comparison signal, the second comparison signal being provided as a feedback signal; and

a PWM controller configured and programmed;

if the input voltage sense signal indicates a change in the input voltage, to adjust a duty cycle of the switching circuit within a preset range independent of the output voltage, wherein the PWM controller is configured and programmed to increase the duty cycle of the switching circuit if the input voltage sense signal indicates a decrease in the input voltage and to decrease the duty cycle of the switching circuit if the input voltage sense signal indicates an increase in the input voltage, such that the output voltage varies with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage; and

to adjust the duty cycle of the switching circuit within a preset range according to the feedback signal such that the output voltage is maintained on a level proportional to the reference voltage.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A power converter includes a switching circuit, a power conversion circuit that receives an input voltage via the switching circuit and converts the input voltage into an output voltage, an input voltage sense circuit that detects the input voltage and generates an input voltage sense signal, and a PWM controller that adjusts a duty cycle of the switching circuit based at least in part on the input voltage sense signal. The power converter also includes an output sense circuit that detects the output voltage and generates an output voltage sense signal, wherein the PWM controller adjusts the duty cycle of the switching circuit based at least in part on the input voltage sense signal and the output voltage sense signal.

55 Citations

View as Search Results

18 Claims

1. A power converter, comprising:
- a switching circuit;
  
  a power conversion circuit configured to receive an input voltage via the switching circuit and convert the input voltage into an output voltage;
  
  an input voltage sense circuit configured to detect the input voltage and generate an input voltage sense signal;
  
  an output sense circuit configured to;
  
  detect the output voltage and generate an output voltage sense signal; and
  
  detect an output current and generate an output current sense signal;
  
  a reference voltage module configured to generate a reference voltage based on the input voltage sense signal provided by the input voltage sense circuit such that the reference voltage is proportional to the input voltage; and
  
  a first operational amplifier configured to generate a first comparison signal based on a difference between the output voltage sense signal and the reference voltage;
  
  a second operational amplifier configured to generate a second comparison signal based on a difference between the output current sense signal and the first comparison signal, the second comparison signal being provided as a feedback signal; and
  
  a PWM controller configured and programmed;
  
  if the input voltage sense signal indicates a change in the input voltage, to adjust a duty cycle of the switching circuit within a preset range independent of the output voltage, wherein the PWM controller is configured and programmed to increase the duty cycle of the switching circuit if the input voltage sense signal indicates a decrease in the input voltage and to decrease the duty cycle of the switching circuit if the input voltage sense signal indicates an increase in the input voltage, such that the output voltage varies with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage; and
  
  to adjust the duty cycle of the switching circuit within a preset range according to the feedback signal such that the output voltage is maintained on a level proportional to the reference voltage.
- View Dependent Claims (2, 3)
- - 2. The power converter of claim 1, whereinif the input voltage does not change, the PWM controller adjusts the duty cycle of the switching circuit within a preset range such that the output voltage remains unchanged.
  - 3. The power converter of claim 1, wherein the power converter is an isolated power converter, and includes an isolator to transfer signals in an isolated manner between a primary side and a secondary side of the power converter.

4. A method for controlling a power converter, comprising:
- receiving an input voltage via a switching circuit and converting the input voltage into an output voltage;
  
  detecting the input voltage and generating an input voltage sense signal;
  
  if the input voltage sense signal indicates a change in the input voltage, adjusting a duty cycle of the switching circuit within a preset range independent of the output voltage, wherein the duty cycle of the switching circuit is increased if the input voltage sense signal indicates a decrease in the input voltage and the duty cycle of the switching circuit is decreased if the input voltage sense signal indicates an increase in the input voltage, such that the output voltage varies along with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage;
  
  detecting the output voltage and generating an output voltage sense signal;
  
  detecting an output current and generating an output current sense signal;
  
  generating a reference voltage based on the input voltage sense signal such that the reference voltage is proportional to the input voltage;
  
  generating a first comparison signal based on a difference between the output voltage sense signal and the reference voltage;
  
  generating a second comparison signal based on a difference between the output current sense signal and the first comparison signal as a feedback signal; and
  
  adjusting the duty cycle of the switching circuit within a preset range according to the feedback signal such that the output voltage is maintained on a level proportional to the reference voltage.
- View Dependent Claims (5, 6)
- - 5. The method of claim 4, wherein:
    - if the input voltage does not change, the duty cycle of the switching circuit is adjusted within a preset range such that the output voltage remains unchanged.
  - 6. The method of claim 4, whereinthe power converter is an isolated power converter;
    - andthe method further comprises;
      
      transferring signals in an isolated manner between a primary side and a secondary side of the power converter.

7. A power converter, comprising:
- means for receiving an input voltage via a switching circuit and converting the input voltage into an output voltage;
  
  means for detecting the input voltage and generating an input voltage sense signal;
  
  means for detecting the output voltage and generating an output voltage sense signal;
  
  means for detecting an output current and generating an output current sense signal;
  
  means for generating a reference voltage based on the input voltage sense signal such that the reference voltage is proportional to the input voltage;
  
  means for generating a first comparison signal based on a difference between the output voltage sense signal and the reference voltage;
  
  means for generating a second comparison signal based on a difference between the output current sense signal and the first comparison signal as a feedback signal;
  
  means for adjusting a duty cycle of the switching circuit within a preset range independent of the output voltage, if the input voltage sense signal indicates a change in the input voltage, wherein the duty cycle of the switching circuit is increased if the input voltage sense signal indicates a decrease in the input voltage and the duty cycle of the switching circuit is decreased if the input voltage sense signal indicates an increase in the input voltage, such that the output voltage varies along with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage; and
  
  means for adjusting the duty cycle of the switching circuit within a preset range according to the feedback signal such that the output voltage is maintained on a level proportional to the reference voltage.
- View Dependent Claims (8, 9)
- - 8. The power converter of claim 7, wherein:
    - if the input voltage does not change, the duty cycle of the switching circuit is adjusted within a preset range such that the output voltage remains unchanged.
  - 9. The power converter of claim 7, whereinthe power converter is an isolated power converter;
    - andthe power converter further comprises;
      
      means for transferring signals in an isolated manner between a primary side and a secondary side of the power converter.

10. A power converter comprising:
- a switching circuit;
  
  a power conversion circuit configured to receive an input voltage via the switching circuit and convert the input voltage into an output voltage;
  
  an input voltage sense circuit configured to detect the input voltage and generate an input voltage sense signal;
  
  a PWM controller configured and programmed, if the input voltage sense signal indicates a change in the input voltage, to adjust a duty cycle of the switching circuit within a preset range independent of the output voltage, such that the output voltage varies with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage;
  
  an output sense circuit configured to detect the output voltage and generate an output voltage sense signal, wherein the output sense circuit further detects an output current and generates an output current sense signal;
  
  a reference voltage module configured to generate a reference voltage based on the input voltage sense signal provided by the input voltage sense circuit such that the reference voltage is proportional to the input voltage;
  
  a first operational amplifier configured to generate a first comparison signal based on a difference between the output voltage sense signal and the reference voltage; and
  
  a second operational amplifier configured to generate a second comparison signal based on a difference between the output current sense signal and the first comparison signal;
  
  wherein the PWM controller is further configured and programmed to adjust the duty cycle of the switching circuit according to the second comparison signal such that the output voltage is maintained on a level proportional to the reference voltage.
- View Dependent Claims (11, 12)
- - 11. The power converter of claim 10, wherein:
    - if the input voltage does not change, the PWM controller adjusts the duty cycle of the switching circuit within a preset range such that the output voltage remains unchanged.
  - 12. The power converter of claim 10, wherein the power converter is an isolated power converter and includes an isolator to transfer signals in an isolated manner between a primary side and a secondary side of the power converter.

13. A method for controlling a power converter comprising:
- receiving an input voltage via a switching circuit and converting the input voltage into an output voltage;
  
  detecting the input voltage and generating an input voltage sense signal;
  
  if the input voltage sense signal indicates a change in the input voltage, adjusting a duty cycle of the switching circuit within a preset range independent of the output voltage, such that the output voltage varies along with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage;
  
  detecting the output voltage and generating an output voltage sense signal;
  
  detecting an output current and generating an output current sense signal;
  
  generating a reference voltage based on the input voltage sense signal such that the reference voltage is proportional to the input voltage;
  
  generating a first comparison signal based on a difference between the output voltage sense signal and the reference voltage;
  
  generating a second comparison signal based on a difference between the output current sense signal and the first comparison signal; and
  
  adjusting the duty cycle of the switching circuit according to the second comparison signal such that the output voltage is maintained on a level proportional to the reference voltage.
- View Dependent Claims (14, 15)
- - 14. The method of claim 13, wherein:
    - if the input voltage does not change, the duty cycle of the switching circuit is adjusted within a preset range such that the output voltage remains unchanged.
  - 15. The method of claim 13, wherein:
    - the power converter is an isolated power converter; and
      
      the method further includes transferring signals in an isolated manner between a primary side and a secondary side of the power converter.

16. A power converter comprising:
- means for receiving an input voltage via a switching circuit and converting the input voltage into an output voltage;
  
  means for detecting the input voltage and generating an input voltage sense signal;
  
  means for, if the input voltage sense signal indicates a change in the input voltage, adjusting a duty cycle of the switching circuit within a preset range independent of the output voltage, such that the output voltage varies along with the input voltage and such that a change rate of the output voltage is lower than a change rate of the input voltage;
  
  means for detecting the output voltage and generating an output voltage sense signal;
  
  means for detecting an output current and generating an output current sense signal;
  
  means for generating a reference voltage based on the input voltage sense signal such that the reference voltage is proportional to the input voltage;
  
  means for generating a first comparison signal based on a difference between the output voltage sense signal and the reference voltage;
  
  means for generating a second comparison signal based on a difference between the output current sense signal and the first comparison signal; and
  
  means for adjusting the duty cycle of the switching circuit according to the second comparison signal such that the output voltage is maintained on a level proportional to the reference voltage.
- View Dependent Claims (17, 18)
- - 17. The power converter of claim 16, wherein:
    - if the input voltage does not change, the duty cycle of the switching circuit is adjusted within a preset range such that the output voltage remains unchanged.
  - 18. The power converter of claim 16, whereinthe power converter is an isolated power converter;
    - andthe power converter further includes means for transferring signals in an isolated manner between a primary side and a secondary side of the power converter.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Murata Manufacturing Co Limited
Original Assignee
Murata Manufacturing Co Limited
Inventors
Cao, Yu, Wang, Kezhi
Primary Examiner(s)
Nguyen, Matthew
Assistant Examiner(s)
AHMED, YUSEF A

Application Number

US14/226,974
Publication Number

US 20140293658A1
Time in Patent Office

1,160 Days
Field of Search
US Class Current
CPC Class Codes

H02M 1/0022 the disturbance parameters ...

H02M 3/33576 having at least one active ...

Power converter and method for controlling power converter that adjust duty cycle of switching circuit based on input voltage

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

55 Citations

18 Claims

Specification

Solutions

Use Cases

Quick Links

Power converter and method for controlling power converter that adjust duty cycle of switching circuit based on input voltage

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

55 Citations

18 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links