Digital ballast

US 7,042,170 B2
Filed: 10/07/2003
Issued: 05/09/2006
Est. Priority Date: 05/31/2003
Status: Expired due to Fees

First Claim

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1. A ballast for a gas discharge lamp comprising:

a switching section generating an AC drive current for driving a gas discharge lamp;

a voltage controlled oscillator (VCO) supplying switching signals to the switching section to control the switching frequency of the switching section;

a VCO control logic circuit supplying a VCO control signal to the VCO to control the frequencies of the switching signals supplied by the VCO in response to a lamp current feedback signal and a lamp current control signal;

a signal conditioner generating said lamp current control signal such that the lamp current control signal has a voltage corresponding to a pulse width of a pulse width modulated signal received by the signal conditioner; and

a microcontroller providing said pulse width modulated signal to the VCO control logic circuit, wherein the microcontroller controls the pulse width of the pulse width modulated signal to control the drive current supplied by the switching section and wherein the microcontroller controls dimming of a lamp coupled to the ballast by producing a pulse width modulated signal that increases the frequencies of the VCO switching signals to dim the lamp and produces a pulse width modulated signal that decreases the frequencies of the VCO switching signals to brighten the lamp.

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Abstract

A ballast in which the drive current frequency is controlled by a voltage-controlled oscillator (VCO) that is capable of precise output frequency control. The VCO frequency is controlled by a microcontroller. The microcontroller may control the VCO frequency in response to various input signals including a triac signal, a manual dimmer control signal, a remote control receiver signal, a light monitor signal, a motion detector signal, or a communication interface signal.

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27 Claims

1. A ballast for a gas discharge lamp comprising:
- a switching section generating an AC drive current for driving a gas discharge lamp;
  
  a voltage controlled oscillator (VCO) supplying switching signals to the switching section to control the switching frequency of the switching section;
  
  a VCO control logic circuit supplying a VCO control signal to the VCO to control the frequencies of the switching signals supplied by the VCO in response to a lamp current feedback signal and a lamp current control signal;
  
  a signal conditioner generating said lamp current control signal such that the lamp current control signal has a voltage corresponding to a pulse width of a pulse width modulated signal received by the signal conditioner; and
  
  a microcontroller providing said pulse width modulated signal to the VCO control logic circuit, wherein the microcontroller controls the pulse width of the pulse width modulated signal to control the drive current supplied by the switching section and wherein the microcontroller controls dimming of a lamp coupled to the ballast by producing a pulse width modulated signal that increases the frequencies of the VCO switching signals to dim the lamp and produces a pulse width modulated signal that decreases the frequencies of the VCO switching signals to brighten the lamp.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The ballast claimed in claim 1, wherein the microcontroller controls dimming of the lamp in response to an input signal received by the microcontroller.
  - 3. The ballast claimed in claim 2, wherein the input signal received by the microcontroller is provided by a triac sensor and represents the output of a triac that supplies power to the ballast.
  - 4. The ballast claimed in claim 2, wherein the input signal received by the microcontroller is a signal generated by a manual dimmer control.
  - 5. The ballast claimed in claim 2, wherein the input signal received by the microcontroller is a signal generated by a remote control receiver.
  - 6. The ballast claimed in claim 2, wherein the input signal received by the microcontroller is a signal generated by a light monitor.
  - 7. The ballast claimed in claim 2, wherein the input signal received by the microcontroller is a signal generated by a motion sensor.
  - 8. The ballast claimed in claim 2, wherein the input signal received by the microcontroller is a signal generated by a communication interface.
  - 9. The ballast claimed in claim 1, wherein the VCO control logic comprises a differential amplifier that receives the lamp current control signal and the lamp current feedback signal as inputs.
  - 10. The ballast claimed in claim 1, wherein the switching section comprises a pair of MOSFETs connected between a rail voltage and a common voltage to generate said AC drive current at their common node, and wherein said VCO supplies said switching signals to respective gates of the MOSFETs.

11. A dimmable fluorescent lamp comprising:
- a ballast comprising;
  
  a switching section generating an AC drive current for driving a gas discharge lamp;
  
  a voltage controlled oscillator (VCO) supplying switching signals to the switching section to control the switching frequency of the switching section;
  
  VCO control logic supplying a VCO control signal to the VCO to control the frequencies of the switching signals supplied by the VCO in response to a lamp current feedback signal and a lamp current control signal;
  
  a signal conditioner generating said lamp current control signal such that the lamp current control signal has a voltage corresponding to a pulse width of a pulse width modulated signal received by the signal conditioner; and
  
  a microcontroller providing said pulse width modulated signal to the VCO control logic circuit, wherein the microcontroller controls the pulse width of the pulse width modulated signal to control the drive current supplied by the switching section, and a lamp section coupled to the switching section to be driven by the AC drive current and wherein the microcontroller controls dimming of the lamp coupled to the ballast by producing a pulse width modulated signal that increases the frequencies of the VCO switching signals to dim the lamp and produces a pulse width modulated signal that decreases the frequencies of the VCO switching signals to brighten the lamp.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. The lamp claimed in claim 11, wherein the microcontroller controls dimming of the lamp in response to an input signal received by the microcontroller.
  - 13. The lamp claimed in claim 12, wherein the input signal received by the microcontroller is provided by a triac sensor and represents the output of a triac that supplies power to the ballast.
  - 14. The lamp claimed in claim 12, wherein the input signal received by the microcontroller is a signal generated by a manual dimmer control.
  - 15. The lamp claimed in claim 12, wherein the input signal received by the microcontroller is a signal generated by a remote control receiver.
  - 16. The lamp claimed in claim 12, wherein the input signal received by the microcontroller is a signal generated by a light monitor.
  - 17. The lamp claimed in claim 12, wherein the input signal received by the microcontroller is a signal generated by a motion sensor.
  - 18. The lamp claimed in claim 12, wherein the input signal received by the microcontroller is a signal generated by a communication interface.
  - 19. The lamp claimed in claim 11, wherein the VCO control logic comprises a differential amplifier that receives the lamp current control signal and the lamp current feedback signal as inputs.
  - 20. The lamp claimed in claim 11, wherein the switching section comprises a pair of MOSFETs connected between a rail voltage and a common voltage to generate said AC drive current at their common node, and wherein said VCO supplies said switching signals to respective gates of the MOSFETs.

21. A method of driving a gas discharge lamp, comprising:
- generating a pulse width modulated signal at a microcontroller;
  
  generating a lamp current control signal having a voltage corresponding to the pulse width of the pulse width control signal;
  
  supplying the lamp current control signal and a lamp current feedback signal to a voltage controlled oscillator (VCO) control logic to generated a VCO control signal;
  
  supplying the VCO control signal to a VCO to generate switching control signals; and
  
  supplying the switching control signals to a switching section control the frequency of an AC drive current supplied by the switching section to the lamp wherein the pulse width of the pulse width modulated signal is determined by the microprocessor in accordance with an input signal received by the microcontroller.
- View Dependent Claims (22, 23, 24, 25, 26)
- - 22. The method claimed in claim 21, wherein the input signal received by the microcontroller is a signal generated by a manual dimmer control.
  - 23. The method claimed in claim 21, wherein the input signal received by the microcontroller is a signal generated by a remote control receiver.
  - 24. The method claimed in claim 21, wherein the input signal received by the microcontroller is a signal generated by a light monitor.
  - 25. The method claimed in claim 21, wherein the input signal received by the microcontroller is a signal generated by a motion sensor.
  - 26. The method claimed in claim 21, wherein the input signal received by the microcontroller is a signal generated by a communication interface.

27. A method of driving a gas discharge lamp, comprising:
- generating a pulse width modulated signal at a microcontroller;
  
  generating a lamp current control signal having a voltage corresponding to the pulse width of the pulse width control signal;
  
  supplying the lamp current control signal and a lamp current feedback signal to a voltage controlled oscillator (VCO) control logic to generated a VCO control signal;
  
  supplying the VCO control signal to a VCO to generate switching control signals; and
  
  supplying the switching control signals to a switching section control the frequency of an AC drive current supplied by the switching section to the lamp wherein the pulse width of the pulse width modulated signal is determined by the microprocessor in accordance with an input signal representing the output power of a triac supplying power to the lamp.

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Current Assignee
Lights of America
Original Assignee
Lights of America
Inventors
Tarar, Chingez, Vakil, Usman
Primary Examiner(s)
Lee, Wilson

Application Number

US10/680,792
Publication Number

US 20040239263A1
Time in Patent Office

945 Days
Field of Search

315/224, 315/225, 315/291, 315/308, 315/307, 315/244, 315/209.R, 315/219, 315/247
US Class Current

315/291
CPC Class Codes

H05B 41/2828   using control circuits for ...

H05B 41/3925   by frequency variation H05B...

Y02B 20/00   Energy efficient lighting t...

Digital ballast

First Claim

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Abstract

44 Citations

27 Claims

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Digital ballast

First Claim

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0 Petitions

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Accused Products

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Abstract

44 Citations

27 Claims

Specification

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Solutions

Use Cases

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