Supply assembly for a led lighting module

US 7,071,762 B2
Filed: 12/19/2002
Issued: 07/04/2006
Est. Priority Date: 01/31/2001
Status: Expired due to Term

First Claim

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1. A supply assembly for a LED lighting module comprising:

a direct current (DC) voltage source having a first and a second supply terminal;

a series arrangement of a diode and a controllable switch connected across the first and second supply terminals of the DC voltage source;

an inductor connecting the first supply terminal of the DC voltage source to a first output terminal, a node between the diode and the controllable switch forming a second output terminal, said LED lighting module being connectable between the first and second output terminals; and

a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current.

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Abstract

A supply assembly for an LED lighting module includes a control switch for supplying a constant current to the LED lighting module. A dual switching signal composed of low frequency bursts of high frequency pulses is applied to the control switch. By varying the low frequency component of the dual switching signal, the average current through the LED lighting module may be varied in order to vary the light intensity outputted by the LED lighting module.

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23 Claims

1. A supply assembly for a LED lighting module comprising:
- a direct current (DC) voltage source having a first and a second supply terminal;
  
  a series arrangement of a diode and a controllable switch connected across the first and second supply terminals of the DC voltage source;
  
  an inductor connecting the first supply terminal of the DC voltage source to a first output terminal, a node between the diode and the controllable switch forming a second output terminal, said LED lighting module being connectable between the first and second output terminals; and
  
  a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The supply assembly as claimed in claim 1, wherein the controller further comprises an input for receiving a sensed current indicative of the LED current, and means for modifying said low frequency pulse-width modulated switching signal component in dependence on said sensed current.
  - 3. The supply assembly as claimed in claim 2, wherein the controller comprises:
    - a current source for supplying a reference current;
      
      a source for supplying a high frequency sawtooth signal;
      
      a current mode pulse width modulator coupled to receive said sensed current, said reference current and said high frequency sawtooth signal, said current mode pulse width modulator supplying said high frequency PWM switching signal component;
      
      a source for said low frequency PWM switching signal component; and
      
      an AND-gate having a first input for receiving said high frequency PWM switching signal component, and a second input for receiving said low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 4. The supply assembly as claimed in claim 2, wherein the controller comprises:
    - an adder for receiving a voltage reference signal and a high frequency sawtooth signal;
      
      a comparator having an inverting input coupled to an output of said adder, and a non-inverting input coupled to receive said sensed current;
      
      an RS flip-flop having a reset input coupled to an output of said comparator and a set input coupled to receive a high frequency clock signal; and
      
      an AND-gate having a first input coupled to an output of said RS flip-flop, and a second input coupled to receive the low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 5. The supply assembly as claimed in claim 2, wherein the controller comprises:
    - an integrator coupled to receive said sensed current, said integrator forming an average of said sensed current;
      
      a low frequency sawtooth generator having a variable user control input for varying a generated low frequency sawtooth signal;
      
      a first reference current source;
      
      a low frequency pulse width modulator coupled to receive said average sensed current, said low frequency sawtooth signal and said first reference current, said low frequency pulse width modulator varying a pulse width of the generated low frequency PWM switching signal component in dependence on the average sensed current and the low frequency sawtooth signal;
      
      a sample-and-hold circuit also coupled to receive said sensed current, said sample-and-hold circuit having a control input for receiving the low frequency PWM switching signal component as a gate signal, said sample-and-hold circuit supplying a peak current signal of said sensed current;
      
      a second reference current source;
      
      a high frequency sawtooth generator for generating a high frequency sawtooth signal;
      
      a high frequency pulse width modulator coupled to receive said peak current signal, said second reference current and said high frequency sawtooth signal, said high frequency pulse width modulator varying a pulse width of the generated high frequency PWM switching signal component in dependence on the peak current signal and the high frequency sawtooth signal; and
      
      an AND-gate having a first input for receiving the low frequency PWM switching signal component, and a second input for receiving the high frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 6. The supply assembly as claimed in claim 1, wherein the controller comprises:
    - a current source for supplying a reference current;
      
      a source for supplying a high frequency sawtooth signal;
      
      a current mode pulse width modulator coupled to receive said sensed current, said reference current and said high frequency sawtooth signal, said current mode pulse width modulator supplying said high frequency PWM switching signal component;
      
      a source for said low frequency PWM switching signal component; and
      
      an AND-gate having a first input for receiving said high frequency PWM switching signal component, and a second input for receiving said low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 7. The supply assembly as claimed in claim 6, wherein a change in duty cycle of said controllable switch is substantially instantaneous when said dual pulse-width modulated switching signal is applied to said controllable switch.
  - 8. The supply assembly as claimed in claim 1, wherein the controller comprises:
    - an adder for receiving a voltage reference signal and a high frequency sawtooth signal;
      
      a comparator having an inverting input coupled to an output of said adder, and a non-inverting input coupled to receive said sensed current;
      
      an RS flip-flop having a reset input coupled to an output of said comparator and a set input coupled to receive a high frequency clock signal; and
      
      an AND-gate having a first input coupled to an output of said RS flip-flop, and a second input coupled to receive the low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 9. The supply assembly as claimed in claim 8, wherein a change in duty cycle of said controllable switch is substantially instantaneous when said dual pulse-width modulated switching signal is applied to said controllable switch.
  - 10. The supply assembly as claimed in claim 1, wherein the controller comprises:
    - an integrator coupled to receive said sensed current, said integrator forming an average of said sensed current;
      
      a low frequency sawtooth generator having a variable user control input for varying a generated low frequency sawtooth signal;
      
      a first reference current source;
      
      a low frequency pulse width modulator coupled to receive said average sensed current, said low frequency sawtooth signal and said first reference currant, said low frequency pulse width modulator varying a pulse width of the generated low frequency PWM switching signal component in dependence on the average sensed current and the low frequency sawtooth signal;
      
      a sample-and-hold circuit also coupled to receive said sensed current, said sample-and-hold circuit having a control input for receiving the low frequency PWM switching signal component as a gate signal, said sample-and-hold circuit supplying a peak current signal of said sensed current;
      
      a second reference current source;
      
      a high frequency sawtooth generator for generating a high frequency sawtooth signal;
      
      a high frequency pulse width modulator coupled to receive said peak current signal, said second reference current and said high frequency sawtooth signal, said high frequency pulse width modulator varying a pulse width of the generated high frequency PWM switching signal component in dependence on the peak current signal and the high frequency sawtooth signal; and
      
      an AND-gate having a first input for receiving the low frequency PWM switching signal component, and a second input for receiving the high frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 11. The supply assembly as claimed in claim 10, wherein a change in duty cycle of said controllable switch is substantially instantaneous when said dual pulse-width modulated switching signal is applied to said controllable switch.

12. A supply assembly for a LED lighting module comprising:
- a direct current (DC) voltage source having a first and a second supply terminal;
  
  a switched-mode converter connected to said first and second supply terminals for supplying power to an LED lighting module connectable to said converter, said converter comprising a controllable switch coupled to at least one of said first and second supply terminals for switchably connecting said DC voltage source; and
  
  a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current;
  
  wherein the controller comprises;
  
  a current source for supplying a reference current;
  
  a source for supplying a high frequency sawtooth signal;
  
  a current mode pulse width modulator coupled to receive said sensed current, said reference current and said high frequency sawtooth signal, said current mode pulse width modulator supplying said high frequency PWM switching signal component;
  
  a source for said low frequency PWM switching signal component; and
  
  an AND-gate having a first input for receiving said high frequency PWM switching signal component, and a second input for receiving said low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.

13. A supply assembly for a LED lighting module comprising:
- a direct current (DC) voltage source having a first and a second supply terminal;
  
  a switched-mode converter connected to said first and second supply terminals for supplying power to an LED lighting module connectable to said converter, said converter comprising a controllable switch coupled to at least one off said first and second supply terminals for switchably connecting said DC voltage source; and
  
  a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current;
  
  wherein the controller comprises;
  
  an adder for receiving a voltage reference signal and a high frequency sawtooth signal;
  
  a comparator having an inverting input coupled to an output of said adder, and a non-inverting input coupled to receive said sensed current;
  
  an RS flip-flop having a reset input coupled to an output of said comparator and a set input coupled to receive a high frequency clock signal; and
  
  an AND-gate having a first input coupled to an output of said RS flip-flop, and a second input coupled to receive the low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.

14. A supply assembly for a LED lighting module comprising:
- a direct current (DC) voltage source having a first and a second supply terminal;
  
  a switched-mode converter connected to said first and second supply terminals for supplying power to an LED lighting module connectable to said converter, said converter comprising a controllable switch coupled to at least one of said first and second supply terminals for switchably connecting said DC voltage source;
  
  a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current;
  
  wherein the controller comprises;
  
  an integrator coupled to receive said sensed current, said integrator forming an average of said sensed current;
  
  a low frequency sawtooth generator having a variable user control input for varying a generated low frequency sawtooth signal;
  
  a first reference current source;
  
  a low frequency pulse width modulator coupled to receive said average sensed current, said low frequency sawtooth signal and said first reference current, said low frequency pulse width modulator varying a pulse width of the generated low frequency PWM switching signal component in dependence on the average sensed current and the low frequency sawtooth signal;
  
  a sample-and-hold circuit also coupled to receive said sensed current, said sample-and-hold circuit having a control input for receiving the low frequency PWM switching signal component as a gate signal, said sample-and-hold circuit supplying a peak current signal of said sensed current;
  
  a second reference current source;
  
  a high frequency sawtooth generator for generating a high frequency sawtooth signal;
  
  a high frequency pulse width modulator coupled to receive said peak current signal, said second reference current and said high frequency sawtooth signal, said high frequency pulse width modulator varying a pulse width of the generated high frequency PWM switching signal component in dependence on the peak current signal and the high frequency sawtooth signal; and
  
  an AND-gate having a first input for receiving the low frequency PWM switching signal component, and a second input for receiving the high frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.

15. A method for providing a supply assembly for a LED lighting module, said method comprising the steps of:
- providing a direct current (DC) voltage source having a first and a second supply terminal;
  
  connecting a series arrangement of a diode and a controllable switch across the first and second supply terminals of the DC voltage source;
  
  connecting an inductor between the first supply terminal of the DC voltage source and a first output terminal;
  
  providing a node between the diode and the controllable switch forming a second output terminal;
  
  connecting said LED lighting module being between the first and second output terminals; and
  
  providing a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current.
- View Dependent Claims (16, 17, 18, 19)
- - 16. The method as claimed in claim 15 further comprising the steps of:
    - providing an input to the controller for receiving a sensed current indicative of the LED current; and
      
      modifying said low frequency pulse-width modulated switching signal component in dependence on said sensed current.
  - 17. The method as claimed in claim 16 Wherein the controller comprises:
    - a current source for Supplying a reference current;
      
      a source for supplying a high frequency sawtooth signal;
      
      a current mode pulse width modulator coupled to receive said sensed current, said reference current and said high frequency sawtooth signal, said current mode pulse width modulator supplying said high frequency PWM switching signal component;
      
      a source for said low frequency PWM switching signal component; and
      
      an AND-gate having a first input for receiving said high frequency PWM switching signal component, and a second input for receiving said low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 18. The method as claimed in claim 16 wherein the controller comprises:
    - an adder for receiving a voltage reference signal and a high frequency sawtooth signal;
      
      a comparator having an inverting input coupled to an output of said adder, and a non-inverting input coupled to receive said sensed current;
      
      an RS flip-flop having a reset input coupled to an output of said comparator and a set input coupled to receive a high frequency clock signal; and
      
      an AND-gate having a first input coupled to an output of said RS flip-flop, and a second input coupled to receive the low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 19. The method as claimed in claim 16 wherein the controller comprises;
    - an integrator coupled to receive said sensed current, said integrator forming an average of said sensed current;
      
      a low frequency sawtooth generator having a variable user control input for varying a generated low frequency sawtooth signal;
      
      a first reference current source;
      
      a low frequency pulse width modulator coupled to receive said average sensed current, said low frequency sawtooth signal and said first reference current, said low frequency pulse width modulator varying a pulse width of the generated low frequency PWM switching signal component in dependence on the average sensed current and the low frequency sawtooth signal;
      
      a sample-and-hold circuit also coupled to receive said sensed current, said sample-and-hold circuit having a control input for receiving the low frequency PWM switching signal component as a gate signal, said sample-and-hold circuit supplying a peak current signal of said sensed current;
      
      a second reference current source;
      
      a high frequency sawtooth generator for generating a high frequency sawtooth signal;
      
      a high frequency pulse width modulator coupled to receive said peak current signal, said second reference current and said high frequency sawtooth signal, said high frequency pulse width modulator varying a pulse width of the generated high frequency PWM switching signal component in dependence on the peak current signal and the high frequency sawtooth signal; and
      
      an AND-gate having a first input signal for receiving the low frequency PWM switching signal component, and a second input for receiving the high frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.

20. A supply assembly for a LED lighting module comprising:
- a direct current (DC) voltage source having a first and a second supply terminal;
  
  a switched-mode converter connected to said first and second supply terminals for supplying power to an LED lighting module connectable to said converter, said converter comprising a controllable switch coupled to at least one of said first and second supply terminals for switchably connecting said DC voltage source to said LED lighting module when said controllable switch is in a conductive state; and
  
  a controller for controlling the switching of the controllable switch, said controller having means for supplying a dual pulse-width modulated switching signal to said controllable switch at two frequencies including a high frequency pulse-width modulated switching signal component for controlling a magnitude of an LED current in said LED lighting module, and a low frequency pulse-width modulated switching signal component for controlling a duration of the LED current; and
  
  wherein the controller further comprises an input for receiveing a sensed current indicative of the LED current, and means for modifying said low frequency pulse-width modulated switching signal component in dependence on said sensed current.
- View Dependent Claims (21, 23)
- - 21. The supply assembly as claimed in claim 20, wherein the controller comprises:
    - a current source for supplying a reference current;
      
      a source for supplying a high frequency sawtooth signal;
      
      a current mode pulse width modulator coupled to receive said sensed current, said reference current and said high frequency sawtooth signal, said current mode pulse width modulator supplying said high frequency PWM switching signal component;
      
      a source for said low frequency PWM switching signal component; and
      
      an AND-gate having a first input for receiving said high frequency PWM switching signal component, and a second input for receiving said low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.
  - 23. The supply assembly as claimed in claim 20, wherein the controller comprises:
    - an integrator coupled to receive said sensed current, said integrator forming an average of said sensed current;
      
      a low frequency sawtooth generator having a variable user control input for varying a generated low frequency sawtooth signal;
      
      a first reference current source;
      
      a low frequency pulse width modulator coupled to receive said average sensed current, said low frequency sawtooth signal and said first reference current, said low frequency pulse width modulator varying a pulse width of the generated low frequency PWM switching signal component in dependence on the average sensed current and the low frequency sawtooth signal;
      
      a sample-and-hold circuit also coupled to receive said sensed current, said sample-and-hold circuit having a control input for receiving the low frequency PWM switching signal component as a gate signal, said sample-and-hold circuit supplying a peak current signal of said sensed current;
      
      a second reference current source;
      
      a high frequency sawtooth generator for generating a high frequency sawtooth signal;
      
      a high frequency pulse width modulator coupled to receive said peak current signal, said second reference current and said high frequency sawtooth signal, said high frequency pulse width modulator varying a pulse width of the generated high frequency PWM switching signal component in dependence on the peak current signal and the high frequency sawtooth signal; and
      
      an AND-gate having a firtst input for receiving the low frequency PWM switching signal component, and a second input for receiving the high frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.

22. The supply assembly as claimed in claim, wherein the controller comprises:
- an adder for receiving a voltage reference signal and a high frequency sawtooth signal;
  
  a comparator having an inverting input coupled to an output of said adder, and a non-inverting input coupled to receive said sensed current;
  
  an RS flip-flop having a reset input coupled to an output of said comparator and a set input coupled to receive a high frequency clock signal; and
  
  an AND-gate having a first input coupled to an output of said RS flip-flop, and a second input coupled to receive the low frequency PWM switching signal component, said AND-gate supplying said dual PWM switching signal.

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Current Assignee
Signify Holding B.V. (Signify N.V.)
Original Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Inventors
Xu, Peng, Kuppen, Jean-Pierre, Hontele, Bertrand Johan Edward
Primary Examiner(s)
TRA, ANH QUAN

Application Number

US10/323,445
Publication Number

US 20030085749A1
Time in Patent Office

1,293 Days
Field of Search

327/423, 327/514, 327/515, 363/21, 363/21.1, 315/224, 315/291
US Class Current

327/423
CPC Class Codes

H05B 45/10   Controlling the intensity o...

H05B 45/327   Burst dimming

H05B 45/3725   Switched mode power supply ...

H05B 45/375   using buck topology

Supply assembly for a led lighting module

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Supply assembly for a led lighting module

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