Claims
- 1. A thermal control and management system for a microdisplay comprising
a temperature sensor system for measuring and generating a temperature measurement signal; and a data processing means having a color-specific-thermal-effect voltage database for receiving and processing said temperature measurement signal by employing said color-specific thermal-effect voltage database to generate a color specific temperature-dependent reference voltages for operating said microdisplay system by accounting for a thermal-effect of color balance whereby said color specific temperature dependent reference voltages are most suitable for said temperature measurement signal.
- 2. The thermal control and management system of claim 1 wherein:
said data processing means generating a color-specific temperature-dependent black state voltage and a white state voltage as said temperature-dependent reference voltages for each color most suitable for said temperature measurement signal accounted for said thermal-effect of color balance.
- 3. The thermal control and management system of claim 1 wherein:
said data processing means further includes a register for loading and reading said temperature measurement signal.
- 4. The thermal control and management system of claim 1 wherein:
said data processing means further includes color-specific digital-to-analog converter (DAC) output circuits for outputting said color-specific temperature dependent reference voltages.
- 5. The thermal control and management system of claim 1 wherein:
said data processing means further includes an interpolation means for interpolating between two data in said color-specific-thermal-effect voltage database for generating said color-specific temperature dependent reference voltages.
- 6. The thermal control and management system of claim 1 wherein:
said temperature sensor system further includes a temperature senor embedded in said microdisplay.
- 7. The thermal control and management system of claim 1 wherein:
said temperature sensor system further comprising a PTAT temperature senor system.
- 8. The thermal control and management system of claim 1 wherein:
said data processing means further includes an additional cooling activating system to activate additional cooling for said microdisplay according to said temperature measurement signal.
- 9. The thermal control and management system of claim 1 wherein:
said data processing means further includes a means for determining if said temperature measurement signal is within a reasonable range.
- 10. The thermal control and management system of claim 1 wherein:
said data processing means further includes a means for receiving and processing said temperature measurement signal to function as a part of a Peltier thermal control loop.
- 11. The thermal control and management system of claim 1 wherein:
a data processing means generating a color-specific temperature-dependent reference voltages most suitable for said temperature measurement signal for operating said microdisplay system as a liquid crystal display of a normally white mode accounted for said thermal-effect of color balance.
- 12. The thermal control and management system of claim 1 wherein:
a data processing means generating a color-specific temperature-dependent reference voltages most suitable for said temperature measurement signal for operating said microdisplay system as a liquid crystal display of a normally black mode accounted for said thermal-effect of color balance.
- 13. The thermal control and management system of claim 4 wherein:
said DAC are resistor digital to analogy converter (RDAC).
- 14. A microdisplay system comprising:
a thermal control and management system having a color-specific-thermal-effect voltage database for receiving and processing a microdisplay temperature measurement signal for said microdisplay system by employing said color-specific-thermal-effect voltage database to generate a color specific temperature-dependent reference voltages for operating said microdisplay system most suitable for said temperature measurement signal whereby a thermal-effect of color balance is accounted for by said thermal control and management system.
- 15. The microdisplay system of claim 14 wherein:
said thermal control and management system further includes a data processing means for generating a color-specific temperature-dependent black state voltage and a white state voltage as said color-specific temperature-dependent reference voltages for operating said microdisplay system most suitable for said temperature measurement signal accounted for said thermal effect of color balance.
- 16. The microdisplay system of claim 15 wherein:
said data processing means further includes control register for loading and reading said temperature measurement signal.
- 17. The microdisplay system of claim 15 wherein:
said data processing means further includes DAC output circuits for outputting said color specific temperature dependent reference voltages.
- 18. The microdisplay system of claim 15 wherein:
said data processing means further includes an interpolation means for interpolating between two data in said color-specific-thermal-effect database for generating said color specific temperature dependent reference voltages.
- 19. The microdisplay system of claim 14 further comprising:
a temperature sensor system having a temperature senor embedded in said microdisplay.
- 20. A method for temperature control and compensation for a microdisplay system comprising:
receiving and processing a microdisplay temperature measurement signal from said microdisplay system by employing a color-specific-thermal-effect voltage database to generate a color specific temperature-dependent reference voltages for operating said microdisplay system most suitable for said temperature measurement signal whereby a thermal-effect of color balance is accounted for by said thermal control and management system.
- 21. The method of claim 20 further comprising:
said step of generating said color specific temperature-dependent reference voltages further comprising a step of generating a color specific temperature-dependent black state voltage and a white state voltage for operating said microdisplay system most suitable for said temperature measurement signal accounted for said thermal effect of color balance.
- 22. The method of claim 20 wherein:
said step of receiving and processing said temperature measurement signal from said microdisplay further includes a step of receiving said temperature measurement signal into a data processing means having a control register for loading and reading said temperature measurement signal.
- 23. The method of claim 20 wherein:
said step of generating said temperature-dependent reference voltages for operating said microdisplay system further comprising a step of outputting said color specific temperature-dependent reference voltages through DAC output circuits.
- 24. The method of claim 20 wherein:
said step employing said color-specific-thermal-effect voltage database for generating said color specific temperature-dependent reference voltages further comprising a step of interpolating between two data in said database for generating said color-specific temperature dependent reference voltages.
- 25. The method of claim 20 further comprising:
employing a temperature sensor system having a temperature senor embedded in said microdisplay.
- 26. The method of claim 20 wherein:
said step employing said color-specific-thermal-effect voltage database for generating said color specific temperature-dependent reference voltages further comprising a step of applying a curve-fitting algorithm using data in said database for generating said color specific temperature dependent reference voltages.
- 27. A method for controlling and compensating temperature effects of a microdisplay system comprising:
measuring a microdisplay temperature, one for each color channel; and preloading lookup tables having measured/predicted data for a display, to modify a liquid crystal voltage operating range of said microdisplay for each color as required to achieve and maintain a proper white point operating point for said microdisplay.
Parent Case Info
[0001] This Application is a Continuation-in-Part (CIP) Application and claim a Priority Date of Oct. 11, 2002 benefited from a Provisional Patent Application 60/417,786 file by one common inventor of this patent application.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60417786 |
Oct 2002 |
US |