CAPACITOR STEP-DOWN LED DRIVER AND DRIVING METHOD USING THE SAME

US 20150061523A1
Filed: 09/03/2014
Published: 03/05/2015
Est. Priority Date: 03/11/2013
Status: Active Grant

First Claim

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1. A capacitor step-down LED driver for receiving an AC power supply at an input side and generating an output voltage and an output current at an output side to drive a LED load, comprising an input capacitor, a rectifier circuit, an output capacitor, a control circuit and a switching circuit,wherein a first terminal of said input capacitor is coupled to a first terminal of said AC power supply, a second terminal of said input capacitor is coupled to a first input terminal of said rectifier circuit, and a second input terminal of said rectifier circuit is coupled to a second terminal of said AC power supply;

said output capacitor is coupled in parallel to said LED load;

said switching circuit is coupled between an output terminal of said rectifier circuit and said output capacitor;

said control circuit turns on or off said switching circuit in response to said output current, and thus controls an amount of energy supplied from said input side to said output side;

said switching circuit is controlled not to supply energy from said input side to said output side in a first operation state that said output current is larger than a desired driving current; and

said switching circuit is controlled to supply energy from said input side to said output side in a second operation state that said output current is less than said desired driving current to maintain said output current to be a value of said desired driving current.

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Abstract

The present disclosure relates to a capacitor step-down LED driver and a driving method using the same. A capacitor step-down LED driver comprises a control circuit and a switching circuit. The control circuit turns on or off the switching circuit in response to an output current and an output voltage of the capacitor step-down LED driver, and thus controls an amount of energy supplied from an input side to an output side. In a first operation state, the switching circuit is controlled not to supply energy from the input side to the output side. In a second operation state, the switching circuit is controlled to supply energy from the input side to the output side. Thus, the output current is maintained to be a value of a desired driving current.

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19 Claims

1. A capacitor step-down LED driver for receiving an AC power supply at an input side and generating an output voltage and an output current at an output side to drive a LED load, comprising an input capacitor, a rectifier circuit, an output capacitor, a control circuit and a switching circuit,wherein a first terminal of said input capacitor is coupled to a first terminal of said AC power supply, a second terminal of said input capacitor is coupled to a first input terminal of said rectifier circuit, and a second input terminal of said rectifier circuit is coupled to a second terminal of said AC power supply;
- said output capacitor is coupled in parallel to said LED load;
  
  said switching circuit is coupled between an output terminal of said rectifier circuit and said output capacitor;
  
  said control circuit turns on or off said switching circuit in response to said output current, and thus controls an amount of energy supplied from said input side to said output side;
  
  said switching circuit is controlled not to supply energy from said input side to said output side in a first operation state that said output current is larger than a desired driving current; and
  
  said switching circuit is controlled to supply energy from said input side to said output side in a second operation state that said output current is less than said desired driving current to maintain said output current to be a value of said desired driving current.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The capacitor step-down LED driver according to claim 1, wherein said switching circuit comprises a first switch coupled between two output terminals of said rectifier circuit, and said first switch is turned on in said first operation state and is turned off in said second operation state.
  - 3. The capacitor step-down LED driver according to claim 2, wherein said switching circuit further comprises a second switch coupled in series between said first switch and said output capacitor, and said second switch is turned on when a rectified output voltage of said rectifier circuit is larger than said output voltage in said second operation state.
  - 4. The capacitor step-down LED driver according to claim 3, wherein said second switch comprises a diode or a controllable switch.
  - 5. The capacitor step-down LED driver according to claim 1, further comprising a surge current limiting circuit for limiting a surge current when said switching circuit is turned on.
  - 6. The capacitor step-down LED driver according to claim 5, wherein said surge current limiting circuit comprises a magnetic component.
  - 7. The capacitor step-down LED driver according to claim 5, wherein said surge current limiting circuit is coupled between said AC power supply and said input capacitor.
  - 8. The capacitor step-down LED driver according to claim 5, wherein said surge current limiting circuit is coupled between said output terminal of said rectifier circuit and said switching current.
  - 9. The capacitor step-down LED driver according to claim 1, wherein said control circuit comprises a zero-crossing signal generating circuit and an OFF signal generating circuit;
    - said zero-crossing signal generating circuit generates a zero-crossing signal in response to an input voltage of said rectifier circuit of said capacitor step-down LED driver, and said switching circuit prevents energy from being supplied from said input side to said output side in response to said zero-crossing signal when said input voltage crosses zero; and
      
      said OFF signal generating circuit generates an OFF signal after a time period in accordance with an error between said current output current and said desired driving current, to allow energy to be supplied from said input side to said output side.
  - 10. The capacitor step-down LED driver according to claim 2, further comprising a LED short circuit protection circuit, wherein said control circuit turns on said first switch to prevent energy from being supplied from said input side to said output side when said LED load is short circuited.
  - 11. The capacitor step-down LED driver according to claim 10, said LED short circuit protection circuit receives said output voltage and a first threshold voltage, wherein said LED short circuit protection circuit generates a short circuit protection signal to turn on said first switch when said output voltage is less than said first threshold voltage in a case that said LED load is short circuited.
  - 12. The capacitor step-down LED driver according to claim 2, further comprising a LED open circuit protection circuit, wherein said control circuit turns on said first switch to prevent energy from being supplied from said input side to said output side when said LED load is open circuited.
  - 13. The capacitor step-down LED driver according to claim 12, said LED open circuit protection circuit receives said output voltage and a second threshold voltage, wherein said LED open circuit protection circuit generates an open circuit protection signal to turn on said first switch when said output voltage is larger than said second threshold voltage in a case that said LED load is open circuited.

14. A driving method using a capacitor step-down LED driver to generate an output voltage and an output current for driving a LED load, comprisingcomparing an output current and a desired driving current;
- preventing energy from being supplied from an input side to an output side of said capacitor step-down LED driver when said output current is larger than said desired driving current; and
  
  supplying energy from said input side to said output side to maintain said output current to be a value of said desired driving current when said output current is less than said desired driving current.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. The driving method according to claim 14, further comprising limiting a surge current at said input side by using a magnetic component.
  - 16. The driving method according to claim 14, wherein said step of supplying energy from said input side to said output side further comprises:
    - comparing a rectified output voltage of said capacitor step-down LED driver and said rectified output voltage;
      
      preventing energy from being supplied from said input side to said output side when said rectified output voltage is less than said output voltage;
      
      supplying energy from said input side to said output side to maintain said output current to be a value of said desired driving current when said rectified output voltage is larger than said output voltage.
  - 17. The driving method according to claim 14, wherein said step of preventing energy from being supplied from said input side to said output side further comprises:
    - detecting an input voltage of said rectifier circuit of said capacitor step-down LED driver;
      
      preventing energy from being supplied from said input side to said output side from the moment said input voltage crosses zero; and
      
      supplying energy from said input side to said output side after a time period indicative of an error between said current output current and said desired driving current has elapsed.
  - 18. The driving method according to claim 14, further comprising preventing energy from being supplied from said input side to said output side when said LED load is short circuited.
  - 19. The driving method according to claim 14, further comprising preventing energy from being supplied from said input side to said output side when said LED load is open circuited.

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Current Assignee
Silergy Semiconductor Technology (Hangzhou) Ltd. (Silergy Corporation)
Original Assignee
Silergy Semiconductor Technology (Hangzhou) Ltd. (Silergy Corporation)
Inventors
Chen, Wei

Granted Patent

US 10,356,856 B2
Time in Patent Office

Days
Field of Search
US Class Current

315/200.R
CPC Class Codes

H05B 45/375 using buck topology

CAPACITOR STEP-DOWN LED DRIVER AND DRIVING METHOD USING THE SAME

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

9 Citations

19 Claims

Specification

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CAPACITOR STEP-DOWN LED DRIVER AND DRIVING METHOD USING THE SAME

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

9 Citations

19 Claims

Specification

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Solutions

Use Cases

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