Method and apparatus for efficiently driving a low-voltage device from a wide-range input supply

US 6,667,583 B2
Filed: 05/07/2002
Issued: 12/23/2003
Est. Priority Date: 05/07/2002
Status: Active Grant

First Claim

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1. A circuit for supplying a drive current through an external device, comprising:

a series connected circuit loop comprising said external device, an inductor for storing energy whereby substantially constant predetermined levels of average current are maintained through said external device and a diode circuit for providing unidirectional flow of current through the inductor when said external current is not applied to said inductor;

a switching circuit for intermittently applying an intermittent current through said inductor for maintaining said substantially constant predetermined levels of average current through said inductor; and

a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained, and wherein said external device is a relay and wherein said inductor is a coil of said relay, wherein said diode further serves as a back-emf diode for said relay, wherein said series connected circuit loop comprises a parallel connection of said diode circuit and said relay coil, and wherein a first terminal of said parallel connection is coupled to a power supply input and a second terminal of said parallel connection is coupled to said switching circuit.

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Abstract

A method an apparatus for efficiently driving a low-voltage device from a wide-range input supply uses and inductor and a diode coupled in parallel to provide a high-efficiency energy storage circuit. The parallel diode/inductor circuit is coupled to a switch for intermittently supplying a current to maintain a level of energy storage in the circuit. The switch is coupled to a control circuit for controlling the switch. The external device be a relay and the inductor may be a coil of the relay. The external device may be one or more LEDs connected in series and the diode may be the series LED circuit. The control circuit may include a fault-tolerant synchronization input for connection to multiple driver circuits, whereby audible noise produced by beat frequencies between the relays is eliminated.

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33 Claims

1. A circuit for supplying a drive current through an external device, comprising:
- a series connected circuit loop comprising said external device, an inductor for storing energy whereby substantially constant predetermined levels of average current are maintained through said external device and a diode circuit for providing unidirectional flow of current through the inductor when said external current is not applied to said inductor;
  
  a switching circuit for intermittently applying an intermittent current through said inductor for maintaining said substantially constant predetermined levels of average current through said inductor; and
  
  a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained, and wherein said external device is a relay and wherein said inductor is a coil of said relay, wherein said diode further serves as a back-emf diode for said relay, wherein said series connected circuit loop comprises a parallel connection of said diode circuit and said relay coil, and wherein a first terminal of said parallel connection is coupled to a power supply input and a second terminal of said parallel connection is coupled to said switching circuit.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The circuit of claim 1, wherein said diode circuit has a first terminal coupled to a first terminal of said inductor and a second terminal coupled to a first terminal of said external device, said external device has a second terminal coupled to a second terminal of said inductor, and wherein said switching circuit is coupled to said second terminal of said diode circuit, whereby current is maintained through said series connected circuit loop whether or not said switching circuit is applying said external current.
  - 3. The circuit of claim 1, wherein said control circuit has first state for not applying energy to said relay coil, a second state for applying a pull-in level of energy to said relay coil and a third state for applying a hold-in level of energy to said relay coil.
  - 4. The circuit of claim 1, wherein said diode circuit has a first terminal coupled to a first terminal of said inductor and a second terminal coupled to a first terminal of said external device, said external device has a second terminal coupled to a second terminal of said inductor, and wherein said switching circuit is coupled to said second terminal of said inductor, whereby said diode circuit prevents conduction through said external device while said switching circuit is applying said external current.
  - 5. The circuit of claim 1, wherein said control circuit comprises a synchronization input whereby said pulse-width modulator is synchronized with another external control circuit.
  - 6. The circuit of claim 5, wherein said synchronization input is a bi-directional input/output terminal whereby said control circuit provides a synchronization output for synchronizing external driver circuits.
  - 7. The circuit of claim 6, wherein said control circuit further comprises:
8. The circuit of claim 7, wherein said control circuit further comprises a transistor having a drain coupled to said synchronization output and a gate coupled to an output of said oscillator for imposing a state of said oscillator on said synchronization output.
9. The circuit of claim 1, wherein said control circuit is a pulse-width modulator for providing control of energy supplied to said inductor by controlling a pulse width of said switching circuit.
10. The circuit of claim 9, further comprising a sense circuit coupled to said switching circuit, whereby a current through said switching circuit is measured and further coupled to said pulse-width modulator whereby said pulse-width is set in conformity with said measured current.
11. The circuit of claim 10, wherein said pulse width is set in conformity with a deviation of said measured current from a predetermined current level.

12. An integrated circuit controller for supplying a drive current to an external device, said integrated circuit controller having only three external terminals and comprising:
- a first external terminal for supplying an intermittent current to an external circuit comprising a series connected circuit loop comprising said external device, an inductor and a diode circuit, wherein said external circuit is coupled to an external power supply, and wherein operating power for said integrated circuit controller is derived from said external power supply through said first external terminal;
  
  a second terminal for providing a return path for said intermittent current;
  
  a third terminal for receiving an enable input for activating said external device, wherein said intermittent current is supplied in response to an active level at said enable input;
  
  a switching circuit connected to said first terminal for intermittently applying said intermittent current through said inductor for maintaining a level of energy storage within said inductor; and
  
  a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained.

13. A circuit for supplying a drive current through an external device, comprising:
- a series connected circuit loop comprising said external device, an inductor for storing energy whereby substantially constant predetermined levels of average current are maintained through said external device and a diode circuit for providing unidirectional flow of current through the inductor when said external current is not applied to said inductor;
  
  a switching circuit for intermittently applying an intermittent current through said inductor for maintaining said substantially constant predetermined levels of average current through said inductor; and
  
  a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained, wherein said control circuit is a pulse-width modulator for providing control of energy supplied to said inductor by controlling a pulse width of said switching circuit, and wherein said control circuit has first state for not applying energy to external device, a second state for applying a first level of current to said external device and a third state for applying a second level of current to said external device, and wherein said pulse width is set to predetermined intervals in accordance with said first level and said second level.

14. A circuit for supplying a drive current through an external device, comprising:
- a series connected circuit loop comprising said external device, an inductor for storing energy whereby substantially constant predetermined levels of average current are maintained through said external device and a diode circuit for providing unidirectional flow of current through the inductor when said external current is not applied to said inductor;
  
  a switching circuit for intermittently applying an intermittent current through said inductor for maintaining said substantially constant predetermined levels of average current through said inductor;
  
  a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained, wherein said control circuit is a pulse-width modulator for providing control of energy supplied to said inductor by controlling a pulse width of said switching circuit;
  
  a sense circuit coupled to said switching circuit, whereby a current through said switching circuit is measured and further coupled to said pulse-width modulator whereby said pulse-width is set in conformity with said measured current, and wherein said control circuit has first state for not applying energy to said external device, a second state for applying a first level of energy to said external device and a third state for applying a second level of energy to said external device, and wherein said pulse width is set in conformity with a deviation of said measured current from the applied current level associated with the corresponding state.

15. A circuit for supplying a drive current through an external device, comprising:
- a series connected circuit loop comprising said external device, an inductor for storing energy whereby substantially constant predetermined levels of average current are maintained through said external device and a diode circuit for providing unidirectional flow of current through the inductor when said external current is not applied to said inductor;
  
  a switching circuit for intermittently applying an intermittent current through said inductor for maintaining said substantially constant predetermined levels of average current through said inductor; and
  
  a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained, and wherein said control circuit comprises a synchronization input whereby a pulse-width modulator is synchronized with another external control circuit.
- View Dependent Claims (16, 17, 18)
- - 16. The circuit of claim 15, wherein said synchronization input is a bi-directional input/output terminal whereby said control circuit provides a synchronization output for synchronizing external driver circuits.
  - 17. The circuit of claim 16, wherein said control circuit further comprises:
18. The circuit of claim 17, wherein said control circuit further comprises a transistor having a drain coupled to said synchronization output and a gate coupled to an output of said oscillator for imposing a state of said oscillator on said synchronization output.

19. An integrated circuit controller for supplying a drive current to an external device, comprising:
- a first terminal for supplying an intermittent current to an external circuit comprising a series connected circuit loop comprising said external device, an inductor and a diode circuit;
  
  a second terminal for receiving an enable input for activating said external device, wherein said intermittent current is supplied in response to an active level at said enable input;
  
  a switching circuit coupled to said first terminal for intermittently applying said intermittent current for maintaining substantially constant predetermined levels of current within said inductor; and
  
  a control circuit for controlling said switching circuit, whereby said substantially constant predetermined levels of current are maintained.
- View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
- - 20. The integrated circuit controller of claim 19, wherein said first terminal is a gate control terminal, whereby said first terminal supplies an intermittent current to said inductor by controlling the gate of an external transistor coupled in functional series with said inductor.
  - 21. The integrated circuit controller of claim 19, further comprising a third terminal for connection to an external sensing circuit coupled to said switching circuit, whereby a signal proportional to said intermittent current is supplied to said control circuit for controlling said intermittent current.
  - 22. The integrated circuit controller of claim 19, wherein said control circuit comprises a pulse-width modulator having an output coupled to said switching circuit for controlling said intermittent current.
  - 23. The integrated circuit controller of claim 22, further comprising a sense circuit coupled to said switching circuit, whereby a current through said switching circuit is measured and further coupled to said pulse-width modulator whereby said pulse-width is set in conformity with said measured current.
  - 24. The integrated circuit controller of claim 23, wherein said pulse width is set in conformity with a deviation of said measured current from a predetermined current level.
  - 25. The integrated circuit controller of claim 24, wherein said control circuit has first state for not applying energy to said external device, a second state for applying a first level of energy to said external device and a third state for applying a second level of energy to said external device, and wherein said pulse width is set in conformity with a deviation of said measured current from the applied current level associated with the corresponding state.
  - 26. The integrated circuit controller of claim 19, wherein said control circuit comprises a synchronization input whereby said pulse-width modulator is synchronized with another external control circuit.
  - 27. The integrated circuit controller of claim 26, wherein said synchronization input is a bi-directional input/output terminal whereby said control circuit provides a synchronization output for synchronizing external driver circuits.
  - 28. The integrated circuit controller of claim 27, wherein said control circuit further comprises:
29. The integrated circuit controller of claim 28, wherein said control circuit further comprises a transistor having a drain coupled to said synchronization output and a gate coupled to an output of said oscillator for imposing a state of said oscillator on said synchronization output.
30. The integrated circuit controller of claim 19, wherein said switching circuit comprises a switching transistor having a gate coupled to an output of said control circuit and having a drain coupled to said first terminal.
31. The integrated circuit controller of claim 19, wherein power for operating internal circuits of said integrated circuit controller and for generating said intermittent current is derived from said first terminal when said switching circuit is not supplying said intermittent current.
32. The integrated circuit controller of claim 19, wherein said control circuit has first state for not applying energy to external device, a second state for applying a first level of current to said external device and a third state for applying a second level of current to said external device, and wherein said pulse width is set to predetermined intervals in accordance with said first level and said second level.

33. An integrated circuit controller for supplying a drive current to an external device, said integrated circuit controller having only two external terminals and comprising:
- a first external terminal for supplying an intermittent current to an external circuit comprising a series connected circuit loop comprising said external device, an inductor and a diode circuit, wherein said external circuit is coupled to an external power supply, and wherein operating power for said integrated circuit controller is derived from said external power supply through said first external terminal;
  
  a second terminal for providing a return path for said intermittent current;
  
  a switching circuit connected to said first terminal for intermittently applying said intermittent current through said inductor for maintaining a level of energy storage within said inductor; and
  
  a control circuit for controlling said switching circuit, whereby said level of energy storage is maintained.

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Current Assignee
Microchip Technology Incorporated
Original Assignee
Supertex Incorporated (Microchip Technology Incorporated)
Inventors
Kerenyi, Ladislas G.
Primary Examiner(s)
Philogene, Haissa

Application Number

US10/141,051
Publication Number

US 20030209994A1
Time in Patent Office

595 Days
Field of Search

315/291, 315/219, 315/307, 315/224, 315/225, 315/243, 315/272, 323/222, 323/267, 323/282, 323/285, 323/902
US Class Current

315/219
CPC Class Codes

H02M 3/155 using semiconductor devices...

H02M 3/1555 for the generation of a reg...

Method and apparatus for efficiently driving a low-voltage device from a wide-range input supply

First Claim

17 Assignments

0 Petitions

Accused Products

Abstract

39 Citations

33 Claims

Specification

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Method and apparatus for efficiently driving a low-voltage device from a wide-range input supply

First Claim

17 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

39 Citations

33 Claims

Specification

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Solutions

Use Cases

Quick Links