Method and apparatus for controlling a discharge lamp in a backlighted display

US 6,633,138 B2
Filed: 06/19/2001
Issued: 10/14/2003
Est. Priority Date: 12/11/1998
Status: Expired due to Fees

First Claim

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1. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:

(a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;

(b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL, wherein the filtering means includes a step up transformer having a primary winding that receives the AC signal from the network of the plurality of switches and having a secondary winding that is coupled to the CCFL, a ratio of the primary winding and the secondary winding causing the AC signal to be induced across the secondary winding with a voltage that has a value different than another value of another voltage of the AC signal received by the primary winding; and

(c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the filtering means includes a filter for the AC signal.

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Abstract

The described DC to AC inverter efficiently controls the amount of electrical power used to drive a cold cathode fluorescent lamp (CCFL). The output is a fairly pure sine wave which is proportional to an input control voltage. The output waveform purity is ensured by driving a symmetrical rectangular waveform into a second-order, low pass filter at the resonant frequency of the filter for all conditions of line voltage and delivered power. Operating stress on the step-up transformer is minimized by placing the load (lamp) directly across the secondary side of the transformer. When configured to regulate delivered power, the secondary side may be fully floated which practically eliminates a thermometer effect on the operation of the lamp. All of the active elements, including the power switches, may be integrated into a monolithic silicon circuit.

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30 Claims

1. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL, wherein the filtering means includes a step up transformer having a primary winding that receives the AC signal from the network of the plurality of switches and having a secondary winding that is coupled to the CCFL, a ratio of the primary winding and the secondary winding causing the AC signal to be induced across the secondary winding with a voltage that has a value different than another value of another voltage of the AC signal received by the primary winding; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the filtering means includes a filter for the AC signal.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The apparatus of Claim 1, wherein the filter is disposed between the network of the plurality of switches and a primary winding of the step-up transformer.
  - 3. The apparatus of claim 1, wherein the filter is disposed between a secondary winding of the step-up transformer and the CCFL.
  - 4. The apparatus of claim 1, wherein the filter is a second order filter that includes an inductance component and a capacitance component.
  - 5. The apparatus of claim 4, wherein the transformer provides the inductance component.

6. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the filtering meanssuppresses a harmonic signal associated with the AC signal.

7. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the filtering means smoothes a waveform of the AC signal.
- View Dependent Claims (8)
- - 8. The apparatus of claim 7, wherein the zero crossing detector tracks the frequency response of the filtering means when the AC signal is driving the CCFL, the zero crossing detector providing an indication to the controller when the resonant frequency has moved from one value to another value.

9. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the DC signal includes a range of selectable voltages.
- View Dependent Claims (10)
- - 10. The apparatus of claim 9, further comprising a control for dimming the amount of light emitted by the CCFL, the selection of the control causing the AC signal driving the CCFL to be varied in relation to a change in a voltage across a capacitor.

11. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller implements logical instructions, comprising;
  
  (a) determining an undervoltage condition at the CCFL; and
  
  if true (b) causing the AC signal to not drive the CCFL.

12. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller implements logical instructions, comprising;
  
  (a) determining if a thermal overload condition is occurring; and
  
  if so (b) causing the AC signal to not drive the CCFL.

13. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller implements logical instructions, comprising;
  
  (a) determining if a current to the CCFL has exceeded a predetermined maximum current; and
  
  if true (b) causing the AC signal to not drive the CCFL.

14. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the periodic opening and closing of portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, further comprising a power phase for the portion of the network of the plurality switches and another power phase for the other portion of the network of the plurality of switches, so that each power phase generates an opposite waveform of the AC signal used to drive the CCFL.
- View Dependent Claims (15, 16)
- - 15. The apparatus of claim 14, further comprising a rest phase after the power phase and another rest phase after the other power phase, the rest phase and the other rest phase enabling the controller to reduce the amount of electrical power driving the CCFL.
  - 16. The apparatus of claim 14, wherein the opposite waveforms for each power phase have a symmetrical shape so that the formation of a harmonic signal in the AC signal is suppressed.

17. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller periodically opens and closes portions of the network of the plurality of switches based on a trailing edge of a current waveform of the AC signal, so that a reduced amount of power is delivered to the CCFL.

18. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller periodically opens and closes portions of the network of the plurality of switches based on a leading edge of a current waveform of the AC signal, so that a reduced amount of power is delivered to the CCFL.

19. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller periodically opens and closes portions of the network of the plurality of switches based on a duty cycle to phase modulate the AC signal.

20. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the duty cycle is varied so that the AC signal delivers a reduced amount of power to the CCFL.

21. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for driving a cold cathode fluorescent lamp (CCFL), comprising:
- (a) a H-bridge network of a plurality of switches for generating an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network;
  
  (b) filtering means being coupled between the network of the plurality of switches and the CCFL, the filtering means filtering the AC signal delivered to the CCFL; and
  
  (c) a controller for periodically opening and closing portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller periodically opens and closes portions of the network of the plurality of switches based on a double sided phase modulation of the AC signal.

22. A controller for directing a H-bridge network of a plurality of switches to generate an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal for driving a cold cathode fluorescent lamp (CCFL), the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network, said H-bridge having a filtering means coupled between the network of the plurality of switches and the CCFL, said filtering means filtering the AC signal delivered to the CCFL, said controller operative to periodically open and close close portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, further comprising a control for dimming the amount of light emitted by the CCFL, the selection of the control causing the AC signal driving the CCFL to be varied in relation to a change in a voltage across a capacitor.

23. A controller for directing a H-bridge network of a plurality of switches to generate an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal for driving a cold cathode fluorescent lamp (CCFL), the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network, said H-bridge having a filtering means coupled between the network of the plurality of switches and the CCFL, said filtering means filtering the AC signal delivered to the CCFL, said controller operative to periodically open and close close portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller implements logical instructions, comprising:
- (a) determining an undervoltage condition at the CCFL; and
  
  if true (b) causing the AC signal to not drive the CCFL.

24. A controller for directing a H-bridge network of a plurality of switches to generate an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal for driving a cold cathode fluorescent lamp (CCFL), the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network, said H-bridge having a filtering means coupled between the network of the plurality of switches and the CCFL, said filtering means filtering the AC signal delivered to the CCFL, said controller operative to periodically open and close close portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller implements logical instructions, comprising:
- (a) determining if a thermal overload condition is occurring; and
  
  if so (b) causing the AC signal to not drive the CCFL.

25. A controller for directing a H-bridge network of a plurality of switches to generate an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal for driving a cold cathode fluorescent lamp (CCFL), the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network, said H-bridge having a filtering means coupled between the network of the plurality of switches and the CCFL, said filtering means filtering the AC signal delivered to the CCFL, said controller operative to periodically open and close close portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the controller implements logical instructions, comprising:
- (a) determining if a current to the CCFL has exceeded a predetermined maximum current; and
  
  if true (b) causing the AC signal to not drive the CCFL.

26. A controller for directing a H-bridge network of a plurality of switches to generate an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal for driving a cold cathode fluorescent lamp (CCFL), the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network, said H-bridge having a filtering means coupled between the network of the plurality of switches and the CCFL, said filtering means filtering the AC signal delivered to the CCFL, said controller operative to periodically open and close close portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein said plurality of switches of said H-bridge are MOSFETs and further comprising a gate driver for each MOSFET in the H-bridge network, each gate driver providing amplification of logic signals that control the operation of the associated MOSFET.
- View Dependent Claims (27)
- - 27. The apparatus of claim 26, wherein the gate driver provides for a lockout mode that prevents the associated MOSFET from cross conducting with another MOSFET.

28. A controller for directing a H-bridge network of a plurality of switches to generate an AC signal from a DC signal coupled to the network of the plurality of switches, the AC signal for driving a cold cathode fluorescent lamp (CCFL), the AC signal being generated by a first portion of the network of the plurality of switches periodically opening and closing opposite to the periodic opening and closing of a second portion of the network of the plurality of switches, said first portion of the network being diagonally opposed to said second portion of the network, said H-bridge having a filtering means coupled between the network of the plurality of switches and the CCFL, said filtering means filtering the AC signal delivered to the CCFL, said controller operative to periodically open and close close portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, so that electrical power is provided for driving the CCFL under a range of voltages provided by the DC signal, wherein the periodic opening and closing of portions of the network of the plurality of switches generally at a resonant frequency of the filtering means, further comprising a power phase for the portion of the network of the plurality switches and another power phase for the other portion of the network of the plurality of switches, so that each power phase generates an opposite waveform of the AC signal used to drive the CCFL.
- View Dependent Claims (29, 30)
- - 29. The apparatus of claim 28, further comprising a rest phase after the power phase and another rest phase after the other power phase, the rest phase and the other rest phase enabling the controller reduce the amount of electrical power driving the CCFL.
  - 30. The apparatus of claim 28, wherein the opposite waveforms for each power phase have a symmetrical shape so that the formation of a harmonic signal in the AC signal is suppressed.

Specification

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Current Assignee
Monolithic Power Systems Incorporated
Original Assignee
Monolithic Power Systems Incorporated
Inventors
Shannon, John Robert, Moyer, James Copland, Hsing, Michael Ren
Primary Examiner(s)
Wong, Don
Assistant Examiner(s)
Lee, Wilson

Application Number

US09/885,244
Publication Number

US 20020047601A1
Time in Patent Office

847 Days
Field of Search

315/224, 315/225, 315/291, 315/307, 315/308, 315/209.R, 315/219, 315/276, 315/244, 315/DIG.7
US Class Current

315/224
CPC Class Codes

H05B 41/2824   using control circuits for ...

H05B 41/2827   using specially adapted com...

H05B 41/2828   using control circuits for ...

H05B 41/3927   by pulse width modulation H...

Method and apparatus for controlling a discharge lamp in a backlighted display

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30 Claims

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Method and apparatus for controlling a discharge lamp in a backlighted display

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Abstract

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30 Claims

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