Claims
- 1. An LCD decoder cell for decoding a unique digital state to select at least one of a plurality of reference voltages to be applied to an output of a LCD driver, said decoder circuit comprising:
- a plurality of data lines, said data lines supplying input data containing said unique digital state to said decoder circuit;
- a plurality of input transistors within said cell, said plurality of input transistors comprising a first plurality of transistors having a first conductivity type and being connected in series, each gate of said first plurality of transistors being electrically connected to said plurality of data lines; and
- at least one additional second conductivity type transistor within said cell, connected to at least one of said plurality of input transistors, said second conductivity type transistor having a gate controlled by a signal other than said plurality of data lines.
- 2. An LCD decoder circuit for decoding a unique digital state to select at least one of a plurality of reference voltages to be applied to an output of a LCD driver, said decoder circuit comprising:
- a plurality of data lines, said data lines supplying input data containing said unique digital state to said decoder circuit;
- a plurality of input transistors, said plurality of input transistors comprising a first plurality of transistors having a first conductivity type and being connected in series, each gate of said first plurality of transistors being electrically connected to said plurality of data lines;
- at least one additional second conductivity type transistor connected to at least one of said plurality of input transistors; and
- wherein said plurality of input transistors form a portion of a latch circuit connected to said data lines, said latch circuit programmed to select said unique digital state on said data lines and said latch circuit connected to a reset circuit.
- 3. An LCD decoder circuit for decoding a unique digital state to select at least one of a plurality of reference voltages to be applied to an output of a LCD driver, said decoder circuit comprising:
- a plurality of data lines, said data lines supplying input data containing said unique digital state to said decoder circuit;
- a plurality of input transistors, said plurality of input transistors comprising a first plurality of transistors having a first conductivity type and being connected together, each gate of said first plurality of transistors being electrically connected to said plurality of data lines; and
- at least one additional second conductivity type transistor connected to at least one of said plurality of input transistors;
- said first plurality of transistors comprising:
- a plurality of most significant input transistors connected to a plurality of most significant data lines; and
- at least one least significant input transistors connected to at least one significant data input line;
- each of said plurality of most significant input transistors decoding a portion of a plurality of said unique digital states by connecting in series with a plurality of said least significant input transistors.
- 4. A decoder cell within a LCD driver for selecting one of a plurality of voltages for application to an LCD panel, comprising:
- a plurality of first data input lines forming a plurality of first transistor gates, said plurality of data input lines crossing active regions of said cell to form a plurality of first transistors, said first data input lines providing data input to at least one other decoder cell;
- a plurality of second data input lines connected to a plurality of second transistor gates, said second data input lines providing data input to said at least one other decoder cell; and
- a controllable switch operative to apply one of said plurality of voltages to said LCD panel under control of a said plurality of first and second transistors.
- 5. The decoder cell of claim 4, wherein said plurality of first and second transistors form a portion of a latch circuit, said latch circuit programmed to select a unique data state on said data input lines.
- 6. The decoder cell of claim 4, said first plurality of transistors forming a plurality of least significant input transistors and said second plurality of transistors forming a plurality of most significant input transistors, said at least one other decoder cell sharing said plurality of most significant input transistors.
- 7. The decoder cell of claim 6, said most significant input transistors programmed by selectively connecting gates of said most significant input transistors to said plurality of second data input lines.
- 8. The decoder cell of claim 7, said least significant input transistors programmed by selectively crossing said first data input lines over said active regions.
- 9. A decoder circuit within an LCD signal driver for decoding a unique digital state to select at least one of a plurality of reference voltages to be applied to an output of said LCD signal driver, said reference voltages having a maximum voltage, said decoder circuit comprising:
- a plurality of data input lines, said data input lines operating at a first supply voltage level;
- a plurality of decoder cells connected to said plurality of data input lines for receiving data from said plurality of data input lines at voltages less than or equal to said first supply voltage level;
- a plurality of switches connected to and controlled by said plurality of decoder cells;
- a plurality of reference voltage lines connected to said plurality of switches, said switches operative to switch said at least one reference voltage to said output under control of said decoder cells; and
- at least one node within each of said decoder cells, said node connected to a voltage supply operating at a second supply voltage level, said second supply voltage level being greater than said first supply voltage level such that an output voltage of said decoder cells may be greater than said first supply voltage level.
- 10. A decoder cell within an LCD drive for selecting one of a plurality of voltages for application to an LCD panel, comprising:
- a plurality of data input lines forming a plurality of transistor gates where said plurality of data input lines cross at least one active region of said cell, said lines passing through said cell to provide data input to adjacent cells; and
- a controllable switch operative to apply one of said plurality of voltages to said LCD panel under control of at least one transistor formed in said active region by at least one of said plurality of transistor gates;
- said plurality of transistor gates forming gates of a first plurality of transistors, adjacent transistors of said first plurality of transistors sharing common active regions.
- 11. The decoder cell of claim 10, said plurality of transistor gates forming gates of a second plurality of transistors, adjacent transistors of said second plurality of transistors sharing common active regions.
- 12. The decoder cell of claim 11, wherein said first plurality of transistors are all the same conductivity type, and wherein said second plurality of transistors are all the same conductivity type.
- 13. The decoder cell of claim 10, wherein said first plurality of transistors are N-channel transistors.
- 14. The decoder cell of claim 12, said first plurality of transistors and said second plurality of transistors together forming a NAND gate.
- 15. The decoder cell of claim 11, further comprising:
- a first plurality of programming conductors connected to program said first plurality of transistors by electrically shorting a source and drain of selected transistors of said first plurality of transistors.
- 16. The decoder cell of claim 15, selected transistors of said first plurality of transistors being connected in series by said first plurality of programming conductors.
- 17. The decoder cell of claim 11, further comprising:
- a second plurality of programming conductors connected to program said second plurality of transistors by electrically shorting a source and drain of selected transistors of said second plurality of transistors, and electrically connecting in parallel selected transistors of said second plurality of transistors.
- 18. The decoder cell of claim 17, said second plurality of programming lines being routed across said plurality of data input lines.
- 19. A programmable decoder cell within an LCD signal driver circuit for selecting a voltage to be applied to an output of said signal driver circuit, comprising:
- a plurality of substantially parallel data bus lines, said data bus lines carrying a digital number representing a desired output voltage of said signal driver circuit;
- at least one transistor active area, each of said plurality of bus lines crossing over said transistor active area; and
- a plurality of programming conductors, said conductors crossing over at least one of said plurality of data bus lines, and being selectively connected to said transistor active area to program said decoder cell to select a voltage.
- 20. The cell of claim 19, wherein said at least one transistor active area comprises:
- a first transistor active area, said plurality of bus lines crossing over said first transistor active area; and
- a second transistor active area; said plurality of bus lines crossing over said second transistor active area,
- wherein said plurality of programming conductors comprises,
- a first programming conductor,
- a second programming conductor, said first and second programming conductors crossing a plurality of said plurality of bus lines and being selectively connected to said second transistor active area to program said decode cell; and
- a plurality of third programming conductors, said third conductors crossing at least one of said plurality of bus lines and being selectively connected to said first transistor active area to program said decode cell.
- 21. The cell of claim 19, wherein said plurality of bus lines forming a plurality of transistor gates where said bus lines cross said active area, a series of transistors formed by said plurality of transistor gates, a plurality of said transistors sharing a source or drain with each adjacent transistor.
- 22. The cell of claim 21 said plurality of bus lines comprising polysilicon lines, said polysilicon lines extending through said decoder cell to an adjacent decoder cell.
- 23. The cell of claim 19, said at least one transistor active area comprising a first and second transistor active areas, said plurality of buses forming a first string of abutting transistors where said bus lines cross said first transistor active area and forming a second string of abutting transistors where said bus lines cross said second transistor active area.
- 24. The cell of claim 23, at least one of said plurality of programming conductors selectively connected to the source and drain of at least one transistor in said first string to form series connected transistors in said first transistor active area.
- 25. The cell of claim 24, at least two of said plurality of programming conductors selectively connected to source and drains of at least two transistors in said second string to form parallel connected transistors in said second transistor active area.
- 26. An LCD decoder cell for decoding a unique digital state to at least one of a plurality of reference voltages to be applied to an output of a LCD driver, said decoder cell comprising:
- plurality of data lines, said data lines supplying input data containing said unique digital state to said decoder circuit;
- a plurality of input transistors, said plurality of input transistors comprising:
- a first plurality of transistors having a first conductivity type and being connected in series, each gate of said first plurality of transistors being electrically connected to said plurality of data lines, and
- a second plurality of transistors having said first conductivity type and being connected in parallel, each gate of said second plurality of transistors electrically being connected to said plurality of data lines; and
- at least one additional second conductivity type transistor connected to at least one of said plurality of input transistors, and connected to a switch to select one of said reference voltages.
- 27. An LCD decoder cell for decoding a unique digital state to select at least one of a plurality of reference voltages to be applied to an output of a LCD driver, said decoder circuit comprising:
- a plurality of data lines, said data lines supplying input data containing said unique digital state to said decoder circuit;
- a plurality of input transistors within said cell, said plurality of input transistors comprising a first plurality of transistors having a first conductivity type and being connected together, each gate of said first plurality of transistors being electrically connected to said plurality of data lines; and
- at least one additional second conductivity type transistor within said cell, connected to at least one of said plurality of input transistors, said second conductivity type transistor having a gate controlled by a signal other than said plurality of data lines.
Parent Case Info
This is a divisional of copending application Ser. No. 08/240,026 filed May 9, 1994, which in turn is a continuation-in-part application of patent application Ser. No. 08/138,366 filed Oct. 18, 1993, now Pat. No. 5,574,475.
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Divisions (1)
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Number |
Date |
Country |
Parent |
240026 |
May 1994 |
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Continuation in Parts (1)
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Number |
Date |
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Parent |
138366 |
Oct 1993 |
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