Method and apparatus for monitoring/shutting down a power line within a display device

US 6,529,190 B2
Filed: 09/30/1998
Issued: 03/04/2003
Est. Priority Date: 09/30/1998
Status: Expired due to Fees

First Claim

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1. A method comprising:

detecting a voltage for each of a plurality of power supply lines in a display device, the power supply lines being direct current lines;

converting each voltage for the plurality of power supply lines into a digital voltage value;

periodically monitoring each digital voltage value;

comparing each digital voltage value with a predetermined high voltage threshold for the respective power supply line and with a predetermined low voltage threshold for the respective power supply line, the high voltage threshold corresponding to an over-voltage condition for the display device and the low voltage threshold corresponding to a line shortage condition for the display device; and

shutting down a power supply supplying power to the plurality of power supply lines if;

the digital voltage value for any of the plurality of power supply lines is above the high voltage threshold for the respective power supply line for a first predetermined period of time;

or the digital voltage value for any of the plurality of power supply lines is below the low voltage threshold for the respective power supply line for a second predetermined period of time.

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Abstract

A method and apparatus for monitoring and/or shutting down a power line in, for example, a display device is described. In one embodiment, a method comprises converting a voltage on a power line to a digital value, comparing the digital value with a predetermined value, and shutting down a power supply if the digital value is below the predetermined value for a predetermined amount of time.

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26 Claims

1. A method comprising:
- detecting a voltage for each of a plurality of power supply lines in a display device, the power supply lines being direct current lines;
  
  converting each voltage for the plurality of power supply lines into a digital voltage value;
  
  periodically monitoring each digital voltage value;
  
  comparing each digital voltage value with a predetermined high voltage threshold for the respective power supply line and with a predetermined low voltage threshold for the respective power supply line, the high voltage threshold corresponding to an over-voltage condition for the display device and the low voltage threshold corresponding to a line shortage condition for the display device; and
  
  shutting down a power supply supplying power to the plurality of power supply lines if;
  
  the digital voltage value for any of the plurality of power supply lines is above the high voltage threshold for the respective power supply line for a first predetermined period of time;
  
  or the digital voltage value for any of the plurality of power supply lines is below the low voltage threshold for the respective power supply line for a second predetermined period of time.
- View Dependent Claims (2, 3, 4)
- - 2. The method of claim 1, wherein the high voltage threshold for a first power supply line is different from the high voltage threshold for a second power supply line.
  - 3. The method of claim 2, wherein the low voltage threshold for the first power supply line is different from the low voltage threshold for the second power supply line.
  - 4. The method of claim 1, further comprising translating a voltage on one of the plurality of power supply lines to a different voltage range.

5. A protection mechanism for a display device comprising:
- a first analog-to-digital converter coupled to a first power supply line to convert a first voltage of the first power supply line to a first digital voltage value, the first power supply line being a direct current power line;
  
  a second analog-to-digital converter coupled to a second power supply line to convert a second voltage of the second power supply line to a second digital voltage value, the second power supply line being a direct current power line; and
  
  a microcontroller to;
  
  periodically monitor the first digital voltage value and the second digital voltage value, compare the first digital voltage value with a first predetermined high voltage threshold and with a first predetermined low voltage threshold and compare the second digital voltage value with a second predetermined high voltage threshold and with a second predetermined low voltage threshold, the first and second high voltage thresholds corresponding to over-voltage conditions for the display device and the first and second low voltage thresholds corresponding to line shortage conditions for the display device, and shut down a power supply supplying power to the first power supply line and the second power supply line if;
  
  the first digital voltage value is above the first high voltage threshold for a first predetermined time period;
  
  the first digital voltage value is below the first low voltage threshold for a second predetermined time period;
  
  the second digital voltage value is above the second high voltage threshold for a third predetermined time period;
  
  or the second digital voltage value is below the second low voltage threshold for a fourth predetermined time period.
- View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 6. The mechanism of claim 5, wherein the first high voltage threshold is different than the second high voltage threshold.
  - 7. The mechanism of claim 5, wherein the first low voltage threshold is different than the second low voltage threshold.
  - 8. The mechanism of claim 5, wherein the microcontroller polls the first digital voltage value and the second digital voltage value at a specified interval of time.
  - 9. The mechanism of claim 5, wherein the microcontroller monitors the first digital voltage value and the second digital voltage value upon receiving an interrupt signal.
  - 10. The mechanism of claim 5, wherein the microcontroller waits a predetermined period of time after reset or power up of the display device before beginning to monitor the first digital voltage value and the second digital voltage value.
  - 11. The mechanism of claim 5, further comprising a memory to store digital voltage values.
  - 12. The mechanism of claim 5, further comprising a read only memory to store the high voltage thresholds and the low voltage thresholds.
  - 13. The mechanism of claim 5, wherein the high voltage thresholds and the low voltage thresholds are loaded into memory registers upon reset or power up of the display device.
  - 14. The mechanism of claim 5, wherein the microcontroller:

15. A display device comprising:
- a power supply to receive an alternating current signal and provide a first voltage on a first power supply line and a second voltage on a second power supply line, the first and second power supply lines being direct current lines;
  
  one or more functional circuits coupled to the first power supply line and one or more functional circuits coupled to the second power supply line;
  
  a first analog-to-digital converter coupled to the first power supply line to convert the voltage thereon to a first digital voltage value;
  
  a second analog-to-digital converter coupled to the second power supply line to convert the voltage thereon to a second digital voltage value; and
  
  a microcontroller to;
  
  read the first digital voltage value and the second digital voltage value, compare the first digital voltage value with a first predetermined high voltage threshold and a first predetermined low voltage threshold and compare the second digital voltage value with a second predetermined high voltage threshold and a second predetermined low voltage threshold, the first and second high voltage thresholds corresponding to over-voltage conditions for the display device and the low voltage threshold corresponding to line shortage conditions for the display device, and shut down the power supply if;
  
  the first digital voltage value is above the first high voltage threshold for a first predetermined time period;
  
  first digital voltage value is below the first low voltage threshold for a second predetermined time period;
  
  the second digital voltage value is above the second high voltage threshold for a third predetermined time period;
  
  or the second digital voltage value is below the second low voltage threshold for a fourth predetermined time period.
- View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 16. The display device of claim 15, wherein the first high voltage threshold is different than the second high voltage threshold.
  - 17. The display device of claim 15, wherein the first low voltage threshold is different than the second low voltage threshold.
  - 18. The display device of claim 15, wherein the microcontroller polls the first digital voltage value and the second digital voltage value at a specified interval of time.
  - 19. The display device of claim 15, wherein the microcontroller monitors the first digital voltage value and the second digital voltage value upon receiving an interrupt signal.
  - 20. The display device of claim 15, wherein the microcontroller waits a predetermined period of time after reset or power up of the display device before beginning to monitor the first digital voltage value and the second digital voltage value.
  - 21. The display device of claim 15, further comprising a memory to store digital voltage values.
  - 22. The display device of claim 15, further comprising a read only memory to store the first and second high voltage thresholds and the first and second low, voltage thresholds.
  - 23. The display device of claim 15, wherein the first and second high voltage thresholds and the first and second low voltage thresholds are loaded into memory registers upon reset or power up of the display device.
  - 24. The display device of claim 15, wherein the microcontroller:

25. A display device comprising:
- a power supply to receive an alternating current signal and provide a voltage on each of a plurality of power supply lines, the plurality of power supply lines being direct current lines;
  
  one or more functional circuits coupled to each of the plurality of power supply lines;
  
  an analog-to-digital converter to convert the voltage of each of the plurality of power supply lines to a digital voltage value; and
  
  a microprocessor to;
  
  periodically monitor each of the digital voltage values, compare each digital voltage value with a predetermined high voltage threshold for the respective power supply line and a first predetermined low voltage threshold for the respective power supply line, each high voltage threshold corresponding to an over-voltage condition for the display device and each low voltage threshold corresponding to a line shortage condition for the display device, count the number of times each digital voltage value is above the predetermined high voltage threshold for the respective power supply line and reset the count for any digital voltage value to zero when the digital voltage value is equal to or below the predetermined high voltage threshold for the respective power supply line;
  
  count the number of times each digital voltage value is below the predetermined low voltage threshold for the respective power supply line and reset the count for any digital voltage value to zero when the digital voltage value is equal to or above the predetermined low voltage threshold for the respective power supply line; and
  
  shut down the power supply if the digital voltage value for any of the plurality of power supply lines is;
  
  above the predetermined high voltage threshold for the respective power supply line for a first predetermined period of time established for the respective power line, or below the predetermined low voltage threshold for the respective power supply line for a second predetermined period of time established for the respective power line.

26. A method comprising:
- detecting a voltage for each of a plurality of power supply lines in a display device, the plurality of power supply lines being direct current lines;
  
  translating the detected voltage on each of the plurality of power supply lines to a predetermined voltage range;
  
  converting each voltage for the plurality of power supply lines into a digital voltage value;
  
  periodically monitoring each digital voltage value;
  
  comparing each digital voltage value with a predetermined high voltage threshold and with a predetermined low voltage threshold, the high voltage threshold corresponding to an over-voltage condition for the display device and the low voltage threshold corresponding to a line shortage condition for the display device;
  
  determining the length of time each digital voltage value is continuously above the high voltage threshold or is continuously below the low voltage threshold; and
  
  shutting down a power supply supplying power to the plurality of power supply lines if;
  
  the digital voltage value for any of the plurality of power supply lines is continuously above the high voltage threshold for a first predetermined period of time;
  
  or the digital voltage value for any of the plurality of power supply lines is continuously below the low voltage threshold for a second predetermined period of time.

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Current Assignee
Sony Corporation (Sony Group Corp.), Sony Electronics Inc. (Sony Group Corp.)
Original Assignee
Sony Corporation (Sony Group Corp.), Sony Electronics Inc. (Sony Group Corp.)
Inventors
Jiang, Libiao, Kawata, Toshiro
Primary Examiner(s)
Hjerpe, Richard
Assistant Examiner(s)
Dinh, Duc Q

Application Number

US09/163,611
Publication Number

US 20010022583A1
Time in Patent Office

1,616 Days
Field of Search

345/211, 345/212, 345/214, 345/52, 323/248
US Class Current

345/211
CPC Class Codes

G09G 1/165   Details of a display termin...

G09G 2330/022   in absence of operation, e....

G09G 2330/04   Display protection

Method and apparatus for monitoring/shutting down a power line within a display device

First Claim

1 Assignment

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Abstract

16 Citations

26 Claims

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Method and apparatus for monitoring/shutting down a power line within a display device

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

16 Citations

26 Claims

Specification

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Solutions

Use Cases

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