Integrated matrix display circuitry

US 4,963,860 A
Filed: 02/01/1988
Issued: 10/16/1990
Est. Priority Date: 02/01/1988
Status: Expired due to Term

First Claim

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1. Commutating circuitry integrated on a display device for commutating input signal to a plurality of busses of said display device including a plurality of transistors coupled to an input terminal for applying said input signal and responsive to control signals applied to control terminals for selectively coupling said input signal to respective ones of a plurality of latch circuits, including means for biasing said latch circuits during said selective coupling of said input signal respectively thereto, to exhibit a loss in signal power between said input terminal and an output terminal of said respective latch circuit and to enhance the speed with which said input signal coupled via said transistors to said latch circuits, establishes the states of said latch circuits, and means coupled to said plurality of latch circuits for applying potentials to ones of said plurality of busses.

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Abstract

A matrix display apparatus fabricated in low mobility material includes integrated commutating circuitry for applying data signals to the display elements. The commutating circuitry includes demultiplexing circuitry coupled to a first set of latch elements. These latch elements are coupled to a second set of latch elements via transmission gates, and the output terminals of the second set of latch elements are coupled to column buffers. The demultiplexing circuitry includes pass transistors to coupled display signals to respective ones of the first set of latches. The first set of latches are preconditioned by appropriate timing signals so that the demultiplexor pass transistors operate in a common source mode to shorten the overall switching time of the commutating circuitry.

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14 Claims

1. Commutating circuitry integrated on a display device for commutating input signal to a plurality of busses of said display device including a plurality of transistors coupled to an input terminal for applying said input signal and responsive to control signals applied to control terminals for selectively coupling said input signal to respective ones of a plurality of latch circuits, including means for biasing said latch circuits during said selective coupling of said input signal respectively thereto, to exhibit a loss in signal power between said input terminal and an output terminal of said respective latch circuit and to enhance the speed with which said input signal coupled via said transistors to said latch circuits, establishes the states of said latch circuits, and means coupled to said plurality of latch circuits for applying potentials to ones of said plurality of busses.
- View Dependent Claims (2)
- - 2. The circuitry set forth in claim 1 wherein said latch circuits each comprise a cross coupled transistor pair and said means for biasing effectively inactivates said cross coupled transistor pair during an interval when said input signal is selectively coupled to said plurality of latch circuits.

3. In a matrix display device including a plurality of column data busses and a plurality of row select busses, commutating circuitry for applying potentials to said column data busses and fabricated integrally with said matrix comprising:
- a plurality of video signal input terminals less in number than said column data busses;
  
  a plurality of demultiplexing circuits each having a plurality of output terminals, a control signal input terminal and having respective input terminals coupled respectively to different ones of said plurality of video signal input terminals, each of said demultiplexing circuits for coupling video signals from its input terminals time sequentially to ones of its plurality of output terminals, said demultiplexing circuits including pass transistors having control electrodes coupled to said control signal input terminal and principal conduction paths coupled between said input and output terminals and susceptible of conducting in common source and source follower modes;
  
  a plurality of latch circuits each including;
  
  a cross coupled pair of transistors having first electrodes coupled to a common potential bus, second electrodes coupled to respective load circuits and control electrodes cross coupled to the second electrodes of the cross coupled transistor;
  
  a connection between an output terminal of one of said plurality of demultiplexer circuits and the second electrode of one of said cross coupled pair of transistors;
  
  means coupled to said plurality of latch circuits for applying potentials to ones of said column data busses; and
  
  means coupled to said cross coupled pairs to condition the respective cross coupled transistors to a state such that said demultiplexer transistors operate predominately in the common source mode to couple the video-signal to said latch circuits.
- View Dependent Claims (4, 5)
- - 4. The commutating circuitry set forth in claim 3 wherein said plurality of latch circuits further includes:
    - a plurality of gating means having respective input terminals coupled to the second electrode of at least one of the transistors of each cross coupled pair of transistors and having respective output terminals, for selectively coupling the video signal between corresponding input and output terminals;
      
      a further cross coupled pair of transistors coupled to respective load circuits and to the output terminals of respective ones of said gating means for storing the video signal; and
      
      a plurality of buffer amplifier circuits having respective input terminals coupled mutually exclusive to ones of said further cross coupled pairs of transistors and having respective output terminals coupled to mutually exclusive ones of said column data busses.
  - 5. The display device set forth in claim 4 wherein said plurality of latch circuits and said plurality of demultiplexing circuits are fabricated in amorphous silicon.

6. In a matrix display device including a first plurality of column data busses and a second plurality of row select busses, commutating circuitry for applying video signals to said data busses and fabricated integrally with said matrix comprising:
- a plurality of video signal input terminals for applying video signals, each of said video signals corresponding to signals to be applied to a predetermined number of said data busses;
  
  a plurality of demultiplexing circuits having respective input terminals coupled to different ones of said video signal input terminals, each demultiplexing circuit having a plurality of output terminals and having respective control signal input terminals, said demultiplexing circuits for sequentially coupling the video signal applied thereto to its plurality of output terminals;
  
  means for applying control signals to the control input terminals of said plurality of demultiplexing circuits;
  
  a plurality of input latch circuits, one input latch circuit being coupled to each output terminal of the demultiplexing circuits for storing data provided by said demultiplexing circuits, said input latch circuits having respective output terminals;
  
  gating means having respective input terminals coupled to the output terminals of said input latches and having respective output terminals for selectively coupling the video signal between the input and output terminals of said gating means;
  
  a plurality of output latch circuits respectively coupled to the output terminals of said gating means, and having respective output terminals; and
  
  means coupled between said output latch circuits and said plurality of data busses, said means applying potentials to said data busses in accordance with the signal states of respective ones of said output latch circuits.

7. In a matrix display device including a first plurality of column data busses and a second plurality of row select busses, commutating circuitry for applying signals to ones of said busses and fabricated integrally with said matrix comprising:
- a plurality of signal input terminals for applying input signals, each of said input signals corresponding to signals to be applied to a predetermined number of said busses;
  
  a plurality of demultiplexing circuits having respective input terminals coupled to different ones of said signal input terminals, each demultiplexing circuit having a plurality of output terminals and having respective control signal input terminals, said demultiplexing circuits for sequentially coupling the input signal applied thereto to its plurality of output terminals;
  
  means for applying control signals to the control input terminals of said plurality of demultiplexing circuits;
  
  a plurality of input latch circuits, one input latch circuit being coupled to each output terminal of the demultiplexing circuits for storing data provided by said demultiplexing circuits, said input latch circuits having respective output terminals, and at least one supply terminal for applying supply potential;
  
  means coupled to said supply terminal for selectively applying a potential during intervals that input signals are commutated to said input latch circuits to render the input latch circuits inactive during said commutation interval and thereby reducing input signal current required to change the state of said latch circuits; and
  
  means coupled between said input latch circuits and said plurality of busses, said means applying potentials to said busses in accordance with the signal states of respective ones of said output latch circuits.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
- - 8. The display device set forth in claim 7 wherein said input latch circuits comprise cross coupled transistors and said supply potential applied during commutation intervals is selected to effectively inactivate said cross coupled transistors during said commutation intervals.
  - 9. The display device set forth in claim 7 wherein said means coupled between said input latch circuits and said plurality of busses comprises:
    - signal translating means having respective input terminals coupled to said input latch circuits, having respective output and control terminals; and
      
      output latch circuits coupled to output terminals of respective ones of said signal translating means, and having respective output terminals coupled to respective ones of said plurality of busses.
  - 10. The display device set forth in claim 9 wherein said signal translating means comprise a plurality of transmission gates.
  - 11. The display device set forth in claim 9 wherein said signal translating means includes a plurality of circuits each comprising a pair of serially coupled transistors coupled between an output terminal of an output latch circuit and a source of supply potential, one of said pairs of transistors having a control electrode coupled to an output terminal of an input latch circuit, the other of said pair of transistors having a control electrode coupled to a control bus.
  - 12. The display device set forth in claim 9 including means for presetting said input latch circuits to a predetermined state and means for presetting said output latch circuits to an indeterminant state.
  - 13. The display device set forth in claim 12 wherein said means for presetting said input latch circuit includes a transistor coupled between a first potential supply bus and one of complementary output terminals of said input latch circuit, said transistor having a control electrode coupled to a reset control bus.
  - 14. The display device set forth in claim 13 wherein said means for presetting said input latch circuit further includes a further transistor coupled between a second potential supply bus and the other of said complementary output terminals of said input latch circuit, said further transistor having a control electrode coupled to said reset control bus.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Stewart, Roger G.
Primary Examiner(s)
Moore, David K.
Assistant Examiner(s)
Brier, Jeffery A.

Application Number

US07/150,812
Time in Patent Office

988 Days
Field of Search

340/718, 340/719, 340/783, 340/784, 340/785, 340/786, 340/787, 340/788, 340/811, 340/812, 340/813, 350/332, 350/333
US Class Current

345/206
CPC Class Codes

G09G 2310/0205   Simultaneous scanning of se...

G09G 2310/0224   Details of interlacing

G09G 2310/0297   Special arrangements with m...

G09G 3/3648   using an active matrix G09G...

G09G 3/3677   suitable for active matrice...

G09G 3/3688   suitable for active matrice...

Integrated matrix display circuitry

First Claim

2 Assignments

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Abstract

Citations

14 Claims

Specification

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Integrated matrix display circuitry

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

14 Claims

Specification

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Solutions

Use Cases

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