AC powered light emitting diode array circuits for use in traffic signal displays

US 5,936,599 A
Filed: 05/13/1998
Issued: 08/10/1999
Est. Priority Date: 01/27/1995
Status: Expired due to Fees

First Claim

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1. An LED array circuit powered by a substantially sinusoidal AC voltage source of known frequency, comprising:

a) a first set of LEDs arranged as a first plurality of LED pairs, each LED pair comprising two oppositely polarized LEDs coupled to each other in parallel, and each LED pair being series connected to another LED pair, said first set of LEDs having first and second terminal nodes, coupled to and across the substantially sinusoidal AC voltage source;

b) an inductor arranged in series with and coupling one of said first and second terminal nodes to the substantially sinusoidal AC voltage source, said inductor having a 0 value and reactance chosen for improved power efficiency; and

c) a first capacitor coupled in parallel to said first set of LEDs at said first and second terminal nodes, wherein said inductor and said first capacitor form an impedance converter circuit which is tuned to the known frequency of the substantially sinusoidal AC voltage source thereby effectively converting the AC voltage source into substantially an AC current source, said substantially AC current source with said first set of LEDs providing said circuit with improved power efficiency.

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Abstract

An LED array circuit includes a number of series connected LED pairs, each pair including two parallel connected oppositely polarized LEDS. The array is coupled to a standard AC voltage source in series with an inductor L having Q>5 and a reactance which is equivalent to the resistance of a current limiting resistor. The use of an inductor in place of a resistor increases the efficiency of the array to approximately 80%. The efficiency of the array is increased even further by coupling a capacitor parallel to the array and by tuning the inductor and capacitor to the frequency of the AC voltage source. According to one embodiment of the invention, a somg;e retro-fittable unit is provided wherein an inductor, a capacitor, and an array of LEDs are contained in a housing having substantially the same size and shape as a standard incandescent bulb or the lens/filter used in a traffic signal display. According to another embodiment of the invention, a single module is provided with a plurality of LED arrays, with each LED array having its own capacitor coupled in parallel thereto, and its own series coupled switch. The module is coupled to and across the AC voltage source, with one node of the module coupled to the AC voltage source by an inductor.

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29 Claims

1. An LED array circuit powered by a substantially sinusoidal AC voltage source of known frequency, comprising:
- a) a first set of LEDs arranged as a first plurality of LED pairs, each LED pair comprising two oppositely polarized LEDs coupled to each other in parallel, and each LED pair being series connected to another LED pair, said first set of LEDs having first and second terminal nodes, coupled to and across the substantially sinusoidal AC voltage source;
  
  b) an inductor arranged in series with and coupling one of said first and second terminal nodes to the substantially sinusoidal AC voltage source, said inductor having a 0 value and reactance chosen for improved power efficiency; and
  
  c) a first capacitor coupled in parallel to said first set of LEDs at said first and second terminal nodes, wherein said inductor and said first capacitor form an impedance converter circuit which is tuned to the known frequency of the substantially sinusoidal AC voltage source thereby effectively converting the AC voltage source into substantially an AC current source, said substantially AC current source with said first set of LEDs providing said circuit with improved power efficiency.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 13)
- - 2. A circuit according to claim 1, wherein:
    - said inductor has a Q greater than five.
  - 3. A circuit according to claim 1, wherein:
    - said first set of LEDs comprises at least forty LEDs.
  - 4. A circuit according to claim 1, wherein:
    - the values of said inductor and said first capacitor are chosen according to the approximate relationship F≈
      
      ##EQU6## where F is the frequency of the substantially sinusoidal AC voltage source, L is the value of said inductor, and C is the value of said first capacitor.
  - 5. A circuit according to claim 1, further comprising:
    - d) a second plurality of LED pairs, each second plurality of LED pairs comprising two oppositely polarized LEDs, said second plurality of LED pairs being coupled to each other in series to form a second set of series connected LEDs having two terminal nodes coupled to and across the substantially sinusoidal AC voltage source, one of said two terminal nodes of the second plurality of series connected LEDs being coupled to the substantially sinusoidal AC voltage source by said inductor.
  - 6. A circuit according to claim 5, further comprising:
    - e) a first switch means for coupling said first set of series connected LEDs to the substantially sinusoidal AC voltage source; and
      
      f) a second switch means for coupling said second set of series connected LEDs to the substantially sinusoidal AC voltage source.
  - 7. A circuit according to claim 1, further comprising:
    - d) a second plurality of LED pairs, each pair of said second plurality of LED pairs comprising two oppositely polarized LEDs, said second plurality of LED pairs being coupled to each other in series to form a second set of series connected LEDs having two terminal nodes coupled to and across said substantially sinusoidal AC voltage source, with one of said terminal nodes being coupled by said inductor to the substantially sinusoidal AC voltage source; and
      
      e) a second capacitor coupled in parallel with said second set of series connected LEDs.
  - 8. A circuit according to claim 7, further comprising:
    - f) a first switch means for coupling said first set of series connected LEDs to the substantially sinusoidal AC voltage source; and
      
      g) a second switch means for coupling said second set of series connected LEDs to the substantially sinusoidal AC voltage source.
  - 9. A circuit according to claim 1, wherein:
    - said first set of series connected LEDs are mounted on one side of a substantially circular circuit board, andsaid substantially circular circuit board is attached to a substantially circular clear plastic disk with spacers such that said first plurality of series connected LEDs face said clear plastic disk.
  - 13. A circuit according to claim 1, wherein:
    - said Q value is at least five.

10. An LED array circuit powered by a substantially sinusoidal AC voltage source of known frequency, comprising:
- a) a plurality of series connected LEDs having first and second terminal nodes, coupled to and across the substantially sinusoidal AC voltage source, said plurality of series connected LEDs comprising a plurality of LED pairs, each LED pair comprising two oppositely polarized LEDs coupled to each other in parallel, and each LED pair being series connected to another LED pair;
  
  b) an inductor arranged in series with and coupling one of said first and second terminal nodes to the substantially sinusoidal AC voltage source; and
  
  c) a first capacitor coupled in parallel to said plurality of series connected LEDs at said first and second terminal nodes, wherein said inductor and said first capacitor form an impedance converter circuit which is tuned to the known frequency of the substantially sinusoidal AC voltage source thereby effectively converting the AC voltage source into substantially an AC current source, whereinsaid plurality of series connected LEDs comprising a number of LEDs sufficient to cause a voltage drop across said first set of LEDs to be greater than a peak voltage of the AC voltage source.
- View Dependent Claims (11, 12)
- - 11. A circuit according to claim 10, wherein:
    - said inductor has a Q greater than five.
  - 12. A circuit according to claim 10, wherein:
    - the values of said inductor and said first capacitor are chosen according to the approximate relationship F≈
      
      ##EQU7## where F is the frequency of the substantially sinusoidal AC voltage source, L is the value of said inductor, and C is the value of said first capacitor.

14. An LED array circuit powered by a substantially sinusoidal AC voltage source of known frequency, comprising:
- a) a first set of LEDs arranged as a first plurality of LED pairs, each LED pair comprising two oppositely polarized LEDs coupled to each other in parallel, and each LED pair being series connected to another LED pair, said first set of LEDs having first and second terminal nodes, coupled to and across the substantially sinusoidal AC voltage source;
  
  b) an inductor arranged in series with and coupling one of said first and second terminal nodes to the substantially sinusoidal AC voltage source; and
  
  c) a first capacitor coupled in parallel to said first set of LEDs at said first and second terminal nodes, wherein said inductor and said first capacitor form an impedance converter circuit which is tuned to the known frequency of the substantially sinusoidal AC voltage source thereby effectively converting the AC voltage source into substantially an AC current source, said inductor having an inductance value chosen to provide a desired current for lighting said first set of LEDs, and said inductor chosen to have a high impedance while providing energy efficiency.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. A circuit according to claim 14, further comprising:
    - d) a second plurality of LED pairs, each second plurality of LED pairs comprising two oppositely polarized LEDs, said second plurality of LED pairs being coupled to each other in series to form a second set of series connected LEDs having two terminal nodes coupled to and across the substantially sinusoidal AC voltage source, one of said two terminal nodes of the second plurality of series connected LEDs being coupled to the substantially sinusoidal AC voltage source by said inductor.
  - 16. A circuit according to claim 15, further comprising:
    - e) a first switch means for coupling said first set of series connected LEDs to the substantially sinusoidal AC voltage source; and
      
      f) a second switch means for coupling said second set of series connected LEDs to the substantially sinusoidal AC voltage source.
  - 17. A circuit according to claim 14, further comprising:
    - d) a second plurality of LED pairs, each pair of said second plurality of LED pairs comprising two oppositely polarized LEDs, said second plurality of LED pairs being coupled to each other in series to form a second set of series connected LEDs having two terminal nodes coupled to and across said substantially sinusoidal AC voltage source, with one of said terminal nodes being coupled by said inductor to the substantially sinusoidal AC voltage source; and
      
      e) a second capacitor coupled in parallel with said second set of series connected LEDs.
  - 18. A circuit according to claim 17, further comprising:
    - f) a first switch means for coupling said first set of series connected LEDs to the substantially sinusoidal AC voltage source; and
      
      g) a second switch means for coupling said second set of series connected LEDs to the substantially sinusoidal AC voltage source.
  - 19. A circuit according to claim 14, wherein:
    - said first set of series connected LEDs are mounted on one side of a substantially circular circuit board, andsaid substantially circular circuit board is attached to a substantially circular clear plastic disk with spacers such that said first plurality of series connected LEDs face said clear plastic disk.

20. An LED array circuit powered by a substantially sinusoidal AC voltage source, comprising:
- a) a first plurality of series connected LEDs having first and second terminal nodes, coupled to and across the substantially sinusoidal AC voltage source; and
  
  b) a current limiting inductor arranged in series with and coupling one of said first and second terminal nodes to the substantially sinusoidal AC voltage source, said inductor having an inductance value chosen to provide a desired current through said LEDs, and having a Q value and reactance for improved power efficiency.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29)
- - 21. A circuit according to claim 20, further comprising:
    - c) a second plurality of series connected LEDs having two terminal nodes, one of said terminal nodes of said second plurality of LEDs being coupled to said first terminal node of said first plurality of LEDs, and the other of said terminal nodes of said second plurality of LEDs being coupled to said second of said terminal nodes of said first plurality of LEDs, such that said first plurality of LEDs are polarized in a first direction and said second plurality of LEDs are polarized in second direction opposite to said first direction.
  - 22. A circuit according to claim 20, wherein:
    - said first plurality of series connected LEDs comprises a first plurality of LED pairs, each LED pair comprising two oppositely polarized LEDs coupled to each other in parallel, and each LED pair being series connected to another LED pair.
  - 23. A circuit according to claim 22, wherein:
    - said inductor has a Q greater than five.
  - 24. A circuit according to claim 20, wherein:
    - said inductor has a Q greater than five.
  - 25. A circuit according to claim 22, further comprising:
    - c) a second plurality of LED pairs, each LED pair comprising two oppositely polarized LEDs, said second plurality of LED pairs being coupled to each other in series to form a second plurality of series connected LEDs having two terminal nodes coupled to and across the substantially sinusoidal AC voltage source, one of said two terminal nodes of the second plurality of series connected LEDs being coupled to the substantially sinusoidal AC voltage source by said inductor.
  - 26. A circuit according to claim 25, further comprising:
    - d) a first switch means for coupling said first plurality of series connected LEDs to the substantially sinusoidal AC voltage source; and
      
      e) a second switch means for coupling said second plurality of series connected LEDs to the substantially sinusoidal AC voltage source.
  - 27. A circuit according to claim 26, further comprising:
    - f) a first capacitor coupled in parallel to said first plurality of series connected LEDs at said first and second terminal nodes.
  - 28. A circuit according to claim 20, further comprising:
    - c) a first capacitor coupled in parallel to said first plurality of series connected LEDs at said first and second terminal nodes.
  - 29. A circuit according to claim 20, wherein:
    - said first plurality of series connected LEDs are mounted on one side of a substantially circular circuit board, andsaid substantially circular circuit board is attached to a substantially circular clear plastic disk with spacers such that said first plurality of series connected LEDs face said clear plastic disk.

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Current Assignee
Welles Reymond
Original Assignee
Welles Reymond
Inventors
Reymond, Welles
Primary Examiner(s)
Hjerpe, Richard A.
Assistant Examiner(s)
Osorio, Ricardo

Application Number

US09/078,072
Time in Patent Office

454 Days
Field of Search

345/82, 345/83, 345/46, 345/39
US Class Current

345/82
CPC Class Codes

G09G 2330/02   Details of power systems an...

G09G 3/32   semiconductive, e.g. using ...

H05B 45/345   Current stabilisation; Main...

AC powered light emitting diode array circuits for use in traffic signal displays

First Claim

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Abstract

430 Citations

29 Claims

Specification

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AC powered light emitting diode array circuits for use in traffic signal displays

First Claim

0 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

430 Citations

29 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others