Circuit and a method for controlling a backlight of a liquid crystal display in a portable computer

US 5,854,617 A
Filed: 05/09/1996
Issued: 12/29/1998
Est. Priority Date: 05/12/1995
Status: Expired due to Term

First Claim

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1. A circuit for controlling a backlight of a liquid crystal display of a portable computer, comprising:

a controller for determining whether alternating current is available for the backlight of the liquid crystal display, measuring a voltage level of a battey when the alterating current is not available for the backlight of the liquid crystal display, determining a lumninescence level from the measured voltage level, and generating a luminescence control signal corresponding to the luminescence level determined for controlling the backlight of the liquid crystal display; and

a backlight driver for driving the backlight of the liquid crystal display according to the luminescence control signal, said backlight driver comprising;

an adapter sensor for sensing whether an alternating current adaptor is connected to the portable computer to convert an alternating current received from an electrical receptacle into a direct current;

a first converter for producing a switching signal upon reception of the direct current when the alternating current adaptor is connected to the portable computer;

a second converter for transforming the switching signal from the first converter into an alternating current signal and boosting the alternating current signal to supply to the backlight of the liquid crystal display;

a luminescence state sensor for sensing the brightness of the backlight of the liquid crystal display;

an automatic transceiver for transmitting said luminescence control signal corresponding to the luminescence level when the battery is in use; and

a luminescence state controller for determining the backlight luminescence of the liquid crystal display according to signals from said adaptor sensor, said automatic transceiver and said luminescence state sensor; and

a luminescence controller for controlling the backlight luminescence of the liquid crystal display according to said luminescence control signal.

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Abstract

A backlight luminescence control device for use in a portable computer to control a backlight of a liquid crystal display. When an AC adaptor is not connected to the portable computer, the device senses the voltage level of a DC battery and generates an electrical signal that indicates the status of the battery. From the voltage level of the DC battery, the device ascertains the appropriate luminescence level of a cold-cathode fluorescent backlight lamp (CCFL), automatically controls the brightness of the CCFL through several levels of luminosity, and optimizes the luminescence of the CCFL according to the voltage level available in the DC battery.

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23 Claims

1. A circuit for controlling a backlight of a liquid crystal display of a portable computer, comprising:
- a controller for determining whether alternating current is available for the backlight of the liquid crystal display, measuring a voltage level of a battey when the alterating current is not available for the backlight of the liquid crystal display, determining a lumninescence level from the measured voltage level, and generating a luminescence control signal corresponding to the luminescence level determined for controlling the backlight of the liquid crystal display; and
  
  a backlight driver for driving the backlight of the liquid crystal display according to the luminescence control signal, said backlight driver comprising;
  
  an adapter sensor for sensing whether an alternating current adaptor is connected to the portable computer to convert an alternating current received from an electrical receptacle into a direct current;
  
  a first converter for producing a switching signal upon reception of the direct current when the alternating current adaptor is connected to the portable computer;
  
  a second converter for transforming the switching signal from the first converter into an alternating current signal and boosting the alternating current signal to supply to the backlight of the liquid crystal display;
  
  a luminescence state sensor for sensing the brightness of the backlight of the liquid crystal display;
  
  an automatic transceiver for transmitting said luminescence control signal corresponding to the luminescence level when the battery is in use; and
  
  a luminescence state controller for determining the backlight luminescence of the liquid crystal display according to signals from said adaptor sensor, said automatic transceiver and said luminescence state sensor; and
  
  a luminescence controller for controlling the backlight luminescence of the liquid crystal display according to said luminescence control signal.
- View Dependent Claims (2, 3, 4, 5, 19)
- - 2. The circuit of claim 1, further comprised of said luminescence state controller controlling the backlight luminescence of the liquid crystal display using three current channels controlled by said controller.
  - 3. The circuit of claim 1, further comprised of said controller establishing the luminescence level and initializing a timer upon reception of said luminescence signal, measuring the voltage level of the battery, comparing the measured voltage level to the voltage level corresponding to the established luminescence level, resetting the luminescence level lower than the established luminescence level, and generating the luminescence control signal corresponding to the reset luminescence level.
  - 4. The circuit of claim 3, further comprised of said controller determining whether the timer interrupt has been set off when the voltage level of the battery is higher than the voltage level required for the established luminescence level, lowering the luminescence level by one level when a maximum time for maintaining a luminescence level has elapsed and the timer interrupt has been set off, producing the luminescence control signal corresponding to the lowered luminescence level, and checking whether the alternating current adaptor is connected to the portable computer when the timer interrupt has not been set off.
  - 5. The circuit of claim 1, further comprising an operating system for determining whether the portable computer is in an automatic luminescence control mode, and when the portable computer is in said automatic luminescence control mode, outputting luminescence control commands to said controller to control the backlight luminescence of the liquid crystal display.
  - 19. The circuit of claim 1, further comprising a cold cathode fluorescent lamp providing backlight of said liquid crystal display.

6. A method for driving a backlight of a liquid crystal display used in a portable computer system, comprising the steps of:
- initializing a timer to set off in response to passage of time and establishing a luminescence level of the backlight of the liquid crystal display provided by a lamp when the portable computer system has received an automatic luminescence control command;
  
  determining whether an alternating current adaptor transforming alternating current received from an electrical receptacle into direct current is connected to the portable computer system to provide electrical energy to illuminate the backlight of the liquid crystal display in consideration of a feedback of the luminescence level established for the backlight of the liquid crystal display;
  
  sensing a voltage level of a battery providing said electrical energy, when the alternating current adaptor is not connected to the portable computer system;
  
  comparing the sensed voltage level of the battery with a voltage required to maintain the established luminescence level;
  
  adjusting the established luminescence level of the backlight of the liquid crystal display by a unit level, when the voltage level of the battery is different from said voltage required to maintain the established luminescence level; and
  
  adjusting the backlight of the liquid crystal display by producing a luminescence control signal corresponding to the adjusted luminescence level of the backlight of the liquid crystal display in consideration of whether the alternating current adaptor is determined to be connected said voltage level, and said established luminescence level.
- View Dependent Claims (7, 8)
- - 7. The method of claim 6, further comprising the steps of:
    - determining whether the timer interrupt has been set off, when the voltage level of the battery is higher than the voltage required to maintain the established luminescence level;
      
      lowering the established luminescence level by a unit level, when the timer interrupt has been set off;
      
      producing said luminescence control signal corresponding to the lowered luminescence level to the backlight of the liquid crystal display; and
      
      checking whether the alternating current adaptor is connected to the portable computer system when the timer interrupt has not been set off.
  - 8. The method of claim 6, wherein, when the portable computer system has received a luminescence control command, a basis input/output system routine is executed to determine whether an automatic luminescence control mode has been established in said portable computer system, and when said automatic luminescence control mode has been established in said portable computer system, the luminescence control command is generated to control the backlight luminescence of the liquid crystal display.

9. A backlight luminescence control circuit for controlling a backlight of a liquid crystal display of a portable system, said backlight lnescence control circuit comprising:
- an adapter sensor for sensing whether an alternating current adapter is connected to said portable system to convert alternating current into direct current;
  
  a set of battery terminals providing the direct current to said portable system, when said alternating current adapter is not connected to said portable system;
  
  a direct current/direct current converter receiving said direct current and generating a switched signal;
  
  a direct current/alterating current converter driving a backlight source by generating an increased electric potential after converting said switched signal output from said direct current/direct current converter, said backlight source providing backlight for said liquid crystal display;
  
  an on/off controller driving of said direct current/direct current converter to interrupt operation of said backlight source;
  
  a luminescence controller controlling a degree of brightness of the backlight of said liquid crystal display provided by said backlight source;
  
  a feedback unit feeding an output signal from said luminescence controller back to said direct current/direct current converter;
  
  a luminescence state sensor determining said degree of brightness of the backlight of said liquid crystal display based on said output signal from said luminescence controller;
  
  a battery signal sensor generating signals indicating a residual amount of battery power when said battery is being used to provide said direct current; and
  
  a lumninescence state controller determining and controlling said degree of brightness of the backlight of said liquid crystal display from signals output from said adapter sensor, said battery signal sensor and said luminescence state sensor.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The backlight luminescence control circuit of claim 9, wherein said adapter sensor comprises a Zener diode enabling generation of a constant reference voltage and a comparator for comparing said constant reference voltage with an input voltage.
  - 11. The backlight luminescence control circuit of claim 9, wherein said luminescence state sensor operates on a basis of a voltage level of said output signal from said luminescence controller.
  - 12. The backlight luminescence control circuit of claim 9, wherein said luminescence controller comprises a variable resistor controlling said degree of brightness of the backlight of said liquid crystal display based on a resistance value exhibited by said variable resistor.
  - 13. The backlight luminescence control circuit of claim 9, wherein said degree of brightness of the backlight of said liquid crystal display provided by said backlight source is controlled to comply with a personal preference of an operator of the portable system.

14. A circuit for controlling a backlight of a liquid crystal display of a portable system, said circuit comprising:
- an alternating current adapter receiving alternating current from an electrical receptacle and converting said alternating current into direct current used to produce the backlight of said liquid crystal display;
  
  a battery providing the direct current used to produce the backlight of said liquid crystal display when said alternating current adapter is not connected to the portable system;
  
  an adapter sensor determining whether said alternating current adapter is being used to generate said direct current;
  
  a controller automatically controlling the backlight of said liquid crystal display based on whether said alternating current adapter is connected to the portable system, and a detected level of residual power of said battery, said controller generating luminescence control signals enabling the backlight of said liquid crystal display to be exhibited at a first level when said alternating current adapter is being used to generate said direct current, and alternatively enabling the backlight of said liquid crystal display to be exhibited at one of a plurality of brightness levels having a lower intensity than said first level when said battery is being used to generate said direct current; and
  
  a backlight driver for driving the backlight of the liquid crystal display according to the luminescence control signals, said backlight driver comprising;
  
  power converters connected to said alternating current adapter and said battery providing electrical power to the backlight of the liquid crystal display;
  
  a luminescence state sensor sensing the brightness of the backlight of the liquid crystal display;
  
  a luminescence state controller controlling the brightness of the backlight of the liquid crystal display according to said luminescence control signals and signals from said adaptor sensor and said luminescence state sensor; and
  
  a luminescence controller controlling a backlight source of the liquid crystal display to adjust the brightness of the backlight of the liquid crystal display under control of said luminescence state controller.
- View Dependent Claims (15, 16, 17, 18, 20, 21, 22, 23)
- - 15. The circuit of claim 14, wherein said plurality of brightness levels correspond to seven different of said brightness levels.
  - 16. The circuit of claim 14, wherein said control means enables said backlight of said liquid crystal display to be exhibited at a darkest level when said residual power of said battery is at a low level.
  - 17. The circuit of claim 15, further comprising a cold cathode fluorescent lamp providing the backlight of said liquid crystal display.
  - 18. The circuit of claim 16, further comprising a cold cathode fluorescent lamp providing the backlight of said liquid crystal display.
  - 20. The circuit of claim 14, wherein said adapter sensor comprises a Zener diode for providing a constant reference voltage and a comparator comparing said constant reference voltage with an input voltage.
  - 21. The circuit of claim 14, wherein said luminescence controller comprises a variable resistor controlling said degree of brightness of the backlight of said liquid crystal display based on a resistance value exhibited by said variable resistor.
  - 22. The circuit of claim 14, wherein said degree of brightness of the backlight of said liquid crystal display provided by a backlight source is selectively controlled by an operator of the portable system.
  - 23. The circuit of claim 22, further comprising a cold cathode fluorescent lamp providing backlight of said liquid crystal display.

Specification

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Current Assignee
Samsung Electronics Co. Ltd.
Original Assignee
Samsung Electronics Co. Ltd.
Inventors
Choi, Yun-Ho, Lee, Chang-Hum
Primary Examiner(s)
Hjerpe, Richard A.
Assistant Examiner(s)
CHANG, KENT WU

Application Number

US08/647,064
Time in Patent Office

964 Days
Field of Search

345/63, 345/102, 345/212, 345/211, 345/87, 345/77, 395/750.03, 395/750.06, 395/750.08
US Class Current

345/102
CPC Class Codes

G06F 1/3218   of display devices

G09G 2320/0626   for control of overall brig...

G09G 2320/0633   by amplitude modulation of ...

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

G09G 2330/021   Power management, e.g. powe...

G09G 2360/145   the light originating from ...

G09G 3/3406   Control of illumination sou...

H04W 52/027   by controlling a display op...

H05B 41/3922   and measurement of the inci...

Y02D 30/70   in wireless communication n...

Circuit and a method for controlling a backlight of a liquid crystal display in a portable computer

First Claim

1 Assignment

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Abstract

239 Citations

23 Claims

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Circuit and a method for controlling a backlight of a liquid crystal display in a portable computer

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

239 Citations

23 Claims

Specification

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Use Cases

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