Power control system with power drop out immunity and uncompromised startup time

US 9,515,485 B1
Filed: 06/25/2013
Issued: 12/06/2016
Est. Priority Date: 12/31/2009
Status: Expired due to Fees

First Claim

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1. A lighting system comprising:

one or more light emitting diodes;

a switching power converter coupled to the one or more light emitting diodes;

a controller, coupled to the switching power converter, configured to generate one or more control signals to control the switching power converter and light output from the one or more light emitting diodes;

a startup capacitor coupled to the controller;

a dropout immunity capacitor coupled between a first voltage source and the controller, wherein a capacitance of the dropout immunity capacitor is greater than a capacitance of the startup capacitor;

wherein the startup capacitor is configured to provide sufficient energy to the controller to allow the controller to begin normal operation prior to the dropout immunity capacitor having sufficient energy to provide to the controller to allow the controller to operate normally;

wherein the dropout immunity capacitor is configured to provide sufficient energy to the controller for a period of time when the first voltage source provides insufficient power to allow the controller to continue normal operation.

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Abstract

A power control system provides immunity from power supply dropout for a controller without compromising a startup time of the controller. In at least one embodiment, the power control system includes separate startup and dropout immunity capacitors. In at least one embodiment, selection of the capacitance of the startup capacitor is independent of selection of the capacitance of the dropout immunity capacitance. In at least one embodiment, the startup capacitance can be minimized to provide sufficient energy for the controller to normally operate during one missed cycle of an input voltage and, thus, provide a minimum startup time for the controller. The capacitance of the dropout immunity capacitor can be maximized to provide sufficient energy for the controller to operate normally during a time period longer than one cycle of the input voltage.

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19 Claims

1. A lighting system comprising:
- one or more light emitting diodes;
  
  a switching power converter coupled to the one or more light emitting diodes;
  
  a controller, coupled to the switching power converter, configured to generate one or more control signals to control the switching power converter and light output from the one or more light emitting diodes;
  
  a startup capacitor coupled to the controller;
  
  a dropout immunity capacitor coupled between a first voltage source and the controller, wherein a capacitance of the dropout immunity capacitor is greater than a capacitance of the startup capacitor;
  
  wherein the startup capacitor is configured to provide sufficient energy to the controller to allow the controller to begin normal operation prior to the dropout immunity capacitor having sufficient energy to provide to the controller to allow the controller to operate normally;
  
  wherein the dropout immunity capacitor is configured to provide sufficient energy to the controller for a period of time when the first voltage source provides insufficient power to allow the controller to continue normal operation.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The lighting system of claim 1, wherein the controller comprises a switch coupled to the dropout immunity capacitor, and the controller is configured to actively control charging of the dropout immunity capacitor.
  - 3. The lighting system of claim 2 further comprising:
    - a switch coupled to the dropout immunity capacitor and the controller, wherein the controller is configured to control the switch to control charging of the dropout immunity capacitor.
  - 4. The lighting system of claim 3 wherein the switch is external to the controller.
  - 5. The lighting system of claim 3 wherein the switch is internal to the controller.
  - 6. The lighting system of claim 1 wherein the controller is configured to prevent the dropout immunity capacitor from charging until the startup capacitor is able to provide sufficient energy to the controller to allow the controller to begin normal operation.
  - 7. The lighting system of claim 2 wherein the switch is coupled in series with the dropout immunity capacitor and connected to a reference voltage node.
  - 8. The lighting system of claim 1 wherein the capacitance of the dropout immunity capacitor is approximately 10 times greater than the capacitance of the startup capacitor.
  - 9. The lighting system of claim 1 wherein the startup capacitor is further configured to couple to a second voltage source and the second voltage source generates an alternating current (AC) voltage and the startup capacitor has a capacitance to allow the startup capacitor to provide sufficient energy to the controller to allow the controller to operate for up to a first time period equivalent to one period of the AC voltage.
  - 10. The lighting system of claim 1 wherein the dropout immunity capacitor has a capacitance to allow the dropout capacitor to provide sufficient energy to the controller to allow the controller to operate for up to a second time period equivalent to N periods of the AC voltage, and N is a real number greater than one.
  - 11. The lighting system of claim 10 wherein a value of N is sufficient to allow the controller to normally operate during a dropout of the first voltage source to accommodate a dimming on random switching (“
    - DORS”
      
      ) dimming operation.

12. A method comprising:
- providing sufficient energy to a controller from a startup capacitor to allow the controller to begin normal operation prior to a dropout immunity capacitor having sufficient energy to provide to the controller to allow the controller to operate normally;
  
  providing sufficient energy to the controller from the dropout immunity capacitor for a period of time when a first voltage source provides insufficient power to allow the controller to continue normal operation, wherein a capacitance of the dropout immunity capacitor is greater than a capacitance of the startup capacitor;
  
  generating a control signal with the controller;
  
  providing the control signal to a switching power converter to control power output of the switching power converter; and
  
  providing power from the switching power converter to one or more light emitting diodes coupled to the switching power converter.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. The method of claim 12 further comprising:
    - preventing the dropout immunity capacitor from charging until the startup capacitor is able to provide sufficient energy to the controller to allow the controller to begin normal operation.
  - 14. The method of claim 12 further comprising:
    - generating a control signal to control a switch coupled to the dropout immunity capacitor to control charging of the dropout immunity capacitor.
  - 15. The method of claim 12 wherein the capacitance of the dropout immunity capacitor is approximately 10 times greater than the capacitance of the startup capacitor.
  - 16. The method of claim 12 wherein the startup capacitor is configured to couple to a second voltage source and the second voltage source generates an alternating current (AC) voltage, the method further comprising:
    - providing sufficient energy to the controller from the startup capacitor to allow the controller to operate for up to a first time period equivalent to one period of the AC voltage.
  - 17. The method of claim 12 wherein providing sufficient energy to the controller from a dropout immunity capacitor for a period of time further comprises:
    - providing sufficient energy to the controller from the dropout immunity capacitor to allow the controller to operate for up to a second time period equivalent to N periods of the AC voltage, and N is a real number greater than one.
  - 18. The method of claim 17 wherein a value of N is sufficient to allow the controller to normally operate during a dropout of the first voltage source to accommodate a dimming on random switching (“
    - DORS”
      
      ) dimming operation.

19. A lighting system comprising:
- means for providing sufficient energy to a controller from a startup capacitor to allow the controller to begin normal operation prior to a dropout immunity capacitor having sufficient energy to provide to the controller to allow the controller to operate normally;
  
  means for providing sufficient energy to the controller from the dropout immunity capacitor for a period of time when a first voltage source provides insufficient power to allow the controller to continue normal operation, wherein a capacitance of the dropout immunity capacitor is greater than a capacitance of the startup capacitor;
  
  means for generating a control signal with the controller;
  
  means for providing the control signal to a switching power converter, coupled to the controller, to control power output of the switching power converter;
  
  means for providing power from the switching power converter to means for generating light coupled to the switching power converter; and
  
  the means for generating light coupled to the switching power converter.

Specification

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Current Assignee
Philips Lighting Holding BV (Signify N.V.)
Original Assignee
Philips Lighting Holding BV (Signify N.V.)
Inventors
Draper, William A., Melanson, John L., He, Zhaohui
Primary Examiner(s)
Fureman, Jared
Assistant Examiner(s)
Barnett, Joel

Application Number

US13/926,298
Time in Patent Office

1,260 Days
Field of Search
US Class Current

1/1
CPC Class Codes

H02J 1/10   Parallel operation of dc so...

H02J 1/122   Provisions for temporary co...

H02J 7/345   using capacitors as storage...

H02J 9/00   Circuit arrangements for em...

H02J 9/04   in which the distribution s...

Power control system with power drop out immunity and uncompromised startup time

First Claim

2 Assignments

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Abstract

Citations

19 Claims

Specification

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Power control system with power drop out immunity and uncompromised startup time

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

19 Claims

Specification

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Solutions

Use Cases

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