Matrix array bistable device addressing

US 6,054,973 A
Filed: 06/03/1997
Issued: 04/25/2000
Est. Priority Date: 06/20/1996
Status: Expired due to Term

First Claim

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1. A method of addressing a matrix array bistable device in which a matrix of pixels is addressable by a first set of electrode tracks on one side of the matrix and a second set of electrode tracks on the other side of the matrix, the first and second sets of electrode tracks crossing one another at the locations of the pixels, the method comprising:

applying data pulses to the first set of electrode tracks,applying strobe pulses to the second set of electrode tracks to switch certain pixels selected by the data pulses, during select periods for each of the pixels defined by simultaneous application of a data pulse and a strobe pulse to the pixel, from a first state to a second state under the effect of the electric field produced by the voltage difference between the data pulses and the strobe pulses, andapplying blanking pulses to the second set of electrode tracks to set the pixels to the first state in advance of the application of subsequent strobe pulses during the select periods to switch selected pixels from the first state to the second state, each blanking pulse being applied between successive select periods for each of the pixels and including a blanking portion of one polarity adapted to switch the pixels to a fully switched region of the first state and a trailing portion of the opposite polarity adapted to assist relaxation of the pixels, in advance of a subsequent select period, from the fully switched region of the first state to a relaxed region of the first state from which rapid switching of pixels to the second state is possible during application of the subsequent strobe pulse.

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Abstract

A ferroelectric liquid crystal display comprises a matrix of pixels addressable by first and second sets of electrode tracks crossing one another at the locations of the pixels. The pixels ale addressed by applying data pulses to the first set of electrode tracks and strobe pulses to the second set of electrode tracks to switch certain pixels selected by the data pulses from a first state to a second state under the effect of the voltage difference between the data pulses and the strobe pulses, and blanking pulses are applied to the second set of electrode tracks to set the pixels to the first state in advance of the application of subsequent strobe pulses to switch selected pixels from the first state to the second state. Each blanking pulse includes a blanking portion of one polarity adapted to switch the pixels to a fully switched reunion of the first state and a trailing portion of the opposite polarity adapted to assist relaxation of the pixels from the fully switched region of the first state to a relaxed region of the first state from which rapid switching of pixels to the second state is possible during application of a subsequent strobe pulse.

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20 Claims

1. A method of addressing a matrix array bistable device in which a matrix of pixels is addressable by a first set of electrode tracks on one side of the matrix and a second set of electrode tracks on the other side of the matrix, the first and second sets of electrode tracks crossing one another at the locations of the pixels, the method comprising:
- applying data pulses to the first set of electrode tracks,applying strobe pulses to the second set of electrode tracks to switch certain pixels selected by the data pulses, during select periods for each of the pixels defined by simultaneous application of a data pulse and a strobe pulse to the pixel, from a first state to a second state under the effect of the electric field produced by the voltage difference between the data pulses and the strobe pulses, andapplying blanking pulses to the second set of electrode tracks to set the pixels to the first state in advance of the application of subsequent strobe pulses during the select periods to switch selected pixels from the first state to the second state, each blanking pulse being applied between successive select periods for each of the pixels and including a blanking portion of one polarity adapted to switch the pixels to a fully switched region of the first state and a trailing portion of the opposite polarity adapted to assist relaxation of the pixels, in advance of a subsequent select period, from the fully switched region of the first state to a relaxed region of the first state from which rapid switching of pixels to the second state is possible during application of the subsequent strobe pulse.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A method according to claim 1, wherein the leading edge of the trailing portion of the blanking pulse follows the trailing edge of the blanking portion of the blanking pulse either immediately or after an interval in which the voltage of the blanking pulse is substantially zero.
  - 3. A method according to claim 1, wherein the sum of the voltage/duration products of the blanking portion, the trailing portion and the strobe pulse is substantially equal to zero, in order to provide d.c. balance.
  - 4. A method according to claim 1, wherein the blanking portion of the blanking pulse is of significantly greater duration than the strobe pulse and of significantly lesser voltage than the strobe pulse.
  - 5. A method according to claim 1, wherein the trailing portion of the blanking pulse is of significantly lesser duration and voltage than the blanking portion of the blanking pulse.
  - 6. A method according to claim 1, wherein the duration of the trailing portion of the blanking pulse is approximately half the duration of the blanking portion of the blanking pulse.
  - 7. A method according to claim 1, wherein the voltage of the trailing portion of the blanking pulse is approximately half the voltage of the strobe pulse.
  - 8. A method according to claim 1, wherein each blanking pulse has a leading portion which precedes the blanking portion either immediately or by a small interval in which the voltage of the blanking pulse is substantially zero, such that the sum of the voltage/duration products of the blanking portion, the leading portion, the trailing portion and the strobe pulse is substantially equal to zero, in order to provide d.c. balance.
  - 9. A method according to claim 1, wherein the strobe and blanking pulses are applied to the second set of electrode tracks sequentially over a frame scanning period with the strobe pulses leading the blanking pulses by a predetermined period which is significantly less than the frame scanning period.
  - 10. A method according to claim 1, wherein the trailing portion of the blanking pulse and the subsequent strobe pulse are separated by a delay to enable relaxation of the pixels.

11. A matrix array bistable device comprising:
- an addressable matrix of pixels,a first set of electrode tracks on one side of the matrix,a second set of electrode tracks on the other side of the matrix, the first and second sets of electrode tracks crossing one another at the locations of the pixels,data pulse means for applying data pulses to the first set of electrode tracks,strobe pulse means for applying strobe pulses to the second set of electrode tracks to switch certain pixels selected by the data pulses, during select periods for each of the pixels defined by simultaneous application of a data pulse and a strobe pulse, from a first state to a second state under the effect of the electric field produced by the voltage difference between the data pulses and the strobe pulses, andblanking pulse means for applying blanking pulses to the second set of electrode tracks to set the pixels to the first state in advance of the application of subsequent strobe pulses during the select periods to switch selected pixels from the first state to the second state,wherein each blanking pulse is applied between successive select periods for each of the pixels and includes a blanking portion of one polarity adapted to switch the pixels to a fully switched region of the first state and a trailing portion of opposite polarity adapted to assist relaxation of the pixels, in advance of a subsequent select period, from the fully switched region of the first state to a relaxed region of the first state from which rapid switching of pixels to the second state is possible during application of the subsequent strobe pulse.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. A device according to claim 11, wherein the leading edge of the trailing portion of the blanking pulse follows the trailing edge of the blanking portion of the blanking pulse either immediately or after an interval in which the voltage of the blanking pulse is substantially zero.
  - 13. A device according to claim 11, wherein the sum of the voltage/duration products of the blanking portion, the trailing portion and the strobe pulse is substantially equal to zero, in order to provide d.c. balance.
  - 14. A device according to claim 11, wherein the blanking portion of the blanking pulse is of significantly greater duration than the strobe pulse and of significantly lesser voltage than the strobe pulse.
  - 15. A device according to claim 11, wherein the trailing portion of the blanking pulse is of significantly lesser duration and voltage than the blanking portion of the blanking pulse.
  - 16. A device according to claim 11, wherein the duration of the trailing portion of the blanking pulse is approximately half the duration of the blanking portion of the blanking pulse.
  - 17. A device according to claim 11, wherein the voltage of the trailing portion of the blanking pulse is approximately half the voltage of the strobe pulse.
  - 18. A device according to claim 11, wherein each blanking pulse has a leading portion which precedes the blanking portion either immediately or by a small interval in which the voltage of the blanking pulse is substantially zero, such that the sum of the voltage/duration products of the blanking portion, the leading portion, the trailing portion and the strobe pulse is substantially equal to zero, in order to provide d.c. balance.
  - 19. A device according to claim 11, wherein the strobe and blanking pulses are applied to the second set of electrode tracks sequentially over a frame scanning period with the strobe pulses leading the blanking pulses by a predetermined period which is significantly less than the frame scanning period.
  - 20. A device according to claim 11, wherein the trailing portion of the blanking pulse and the subsequent strobe pulse are separated by a delay to enable relaxation of the pixels.

Specification

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Litigation Campaign Assessment

Current Assignee
Sharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.), The secretary of state for defence in her Britannic Majesty's Government of the United Kingdom of Great Britain And Northern Ireland
Original Assignee
Sharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.), The secretary of state for defence in her Britannic Majesty's Government of the United Kingdom of Great Britain And Northern Ireland
Inventors
Hughes, Jonathan Rennie, Anderson, Marie Harper, Jones, John Clifford
Primary Examiner(s)
Chow, Dennis-Doon
Assistant Examiner(s)
AWAD, AMR A

Application Number

US08/868,096
Time in Patent Office

1,057 Days
Field of Search

345/94, 345/95, 345/96, 345/97, 345/98, 345/99, 349/100
US Class Current

345/97
CPC Class Codes

G09G 2310/06   Details of flat display dri...

G09G 2310/061   for resetting or blanking

G09G 3/3629   using liquid crystals havin...

Matrix array bistable device addressing

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Matrix array bistable device addressing

First Claim

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Abstract

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20 Claims

Specification

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