Rail-Stabilized Driving Scheme With Image Memory For An Electrophoretic Display
First Claim
1. A method for updating at least a portion of a bi-stable display in a transition from a current image state to a subsequent image state, comprising:
- accessing data defining a previous image state that precedes the current image state;
accessing data defining at least one voltage waveform (600, 620, 640, 660;
700, 720, 740, 760) according to the previous image state, the current image state, and the subsequent image state; and
driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state according to the at least one voltage waveform such that the at least a portion of the bi-stable display is driven from the current image state to an optical rail state via at least one reset pulse (RE1, RE2) of the at least one voltage waveform, and subsequently from the optical rail state to the subsequent image state via a driving pulse (DR) of the at least one voltage waveform, and an energy of at least a portion of the at least one voltage waveform is set based on the previous image state.
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Abstract
An image is updated on a bi-stable display (310) such as an electrophoretic display in a transition from a current image state to a subsequent image state. A voltage waveform (600, 620, 640, 660; 700, 720, 740, 760) is selected based on the current and subsequent image states, and a previous image state. The bi-stable display (310) is driven from the current image state to the subsequent image state using the selected voltage waveform. For a given transition from the current to the next image state, different waveforms are stored for different previous states, e.g., black, dark grey, light grey and white. The different waveforms may have different drive pulse (DR) or reset pulse (RE1, RE2) energies. In a trial and error optimization process, different waveforms with different reset and/or drive pulse energies are tested for different previous image states to see which waveform yields the smallest greyscale error.
71 Citations
20 Claims
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1. A method for updating at least a portion of a bi-stable display in a transition from a current image state to a subsequent image state, comprising:
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accessing data defining a previous image state that precedes the current image state;
accessing data defining at least one voltage waveform (600, 620, 640, 660;
700, 720, 740, 760) according to the previous image state, the current image state, and the subsequent image state; and
driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state according to the at least one voltage waveform such that the at least a portion of the bi-stable display is driven from the current image state to an optical rail state via at least one reset pulse (RE1, RE2) of the at least one voltage waveform, and subsequently from the optical rail state to the subsequent image state via a driving pulse (DR) of the at least one voltage waveform, and an energy of at least a portion of the at least one voltage waveform is set based on the previous image state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A program storage device tangibly embodying a program of instructions executable by a machine to perform a method for updating at least a portion of a bi-stable display in a transition from a current image state to a subsequent image state, the method comprising:
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accessing data defining a previous image state that precedes the current image state;
accessing data defining at least one voltage waveform (600, 620, 640, 660;
700, 720, 740, 760) according to the previous image state, the current image state, and the subsequent image state; and
driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state according to the at least one voltage waveform such that the at least a portion of the bi-stable display is driven from the current image state to an optical rail state via at least one reset pulse (RE1, RE2) of the at least one voltage waveform, and subsequently from the optical rail state to the subsequent image state via a driving pulse (DR) of the at least one voltage waveform, and an energy of at least a portion of the at least one voltage waveform is set based on the previous image state.
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14. An electronic reading device, comprising:
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a bi-stable display (310); and
a control (100) for updating at least a portion of the bi-stable display in a transition from a current image state to a subsequent image state by;
(a) accessing data defining a previous image state that precedes the current image state, (b) accessing data defining at least one voltage waveform (600, 620, 640, 660;
700, 720, 740, 760) according to the previous image state, the current image state, and the subsequent image state, and (c) driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state according to the at least one voltage waveform such that the at least a portion of the bi-stable display is driven from the current image state to an optical rail state via at least one reset pulse (RE1, RE2) of the at least one voltage waveform, and subsequently from the optical rail state to the subsequent image state via a driving pulse (DR) of the at least one voltage waveform, and an energy of at least a portion of the at least one voltage waveform is set based on the previous image state.
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15. A method for providing at least one voltage waveform for updating at least a portion of a bi-stable display in a transition from a current image state to a subsequent image state, comprising:
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providing respective different voltage waveforms for achieving the transition from the current image state, which is preceded by a previous image state, to the subsequent image state;
determining respective image errors when driving the at least a portion of the bi-stable display (310) from the previous image state to the current image state, and, using the respective different voltage waveforms, from the current image state to the subsequent image state; and
selecting one of the respective different voltage waveforms (600, 620, 640, 660;
700, 720, 740, 760) that is associated with the smallest of the respective image errors for subsequent use in driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state after the at least a portion of the bi-stable display (310) is driven from the previous image state to the current image state. - View Dependent Claims (16, 17, 18)
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19. A program storage device tangibly embodying a program of instructions executable by a machine to perform a method for providing at least one voltage waveform for updating at least a portion of a bi-stable display in a transition from a current image state to a subsequent image state, the method comprising:
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providing respective different voltage waveforms for achieving the transition from the current image state, which is preceded by a previous image state, to the subsequent image state;
determining respective image errors when driving the at least a portion of the bi-stable display (310) from the previous image state to the current image state, and, using the respective different voltage waveforms, from the current image state to the subsequent image state; and
selecting one of the respective different voltage waveforms (600, 620, 640, 660;
700, 720, 740, 760) that is associated with the smallest of the respective image errors for subsequent use in driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state after the at least a portion of the bi-stable display (310) is driven from the previous image state to the current image state.
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20. An electronic reading device, comprising:
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a bi-stable display (310); and
a control (100) for providing at least one voltage waveform for updating at least a portion of a bi-stable display in a transition from a current image state, which is preceded by a previous image state, to a subsequent image state by;
(a) providing respective different voltage waveforms for achieving the transition from the current image state to the subsequent image state, (b) determining respective image errors when driving the at least a portion of the bi-stable display (310) from the previous image state to the current image state, and, using the respective different voltage waveforms, from the current image state to the subsequent image state, and (c) selecting one of the respective different voltage waveforms (600, 620, 640, 660;
700, 720, 740, 760) that is associated with the smallest of the respective image errors for subsequent use in driving the at least a portion of the bi-stable display (310) from the current image state to the subsequent image state after the at least a portion of the bi-stable display (310) is driven from the previous image state to the current image state.
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Specification