A digital driving method using pulse‐density modulation with a random dither matrix for higher motion image quality

Usui, Tomohiro; Nakajima, Yoshiki; Shiga, Tomokazu

doi:10.1002/jsid.1087

Cited by 2 publications

(3 citation statements)

References 22 publications

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“…Also addressing may limits the pulse frequency. But dithering technique will solve these problems 9) . Another solution is reduction of duty ratio.…”

Section: Discussionmentioning

confidence: 99%

[Paper] Mechanism of Degradation of Moving Image Quality with Pulse Width Modulation Grayscale Expression Methods

Tanabe

Shiga

2022

MTA

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In the display device employing the pulse width modulation (PWM) method for expressing grayscale, visual artifacts such as distortion, ghost, and color breakup appear when an image moves and observer's eye tracks the image. This paper clarifies a mechanism of moving image degradation with various PWM methods. With the PWM, the distribution of light emission within a display field time vary according to the gray levels. The variation of temporal center of light emission is transformed into spatial shift of image. When there are two non-overlapping period in the temporal light emission pattern of adjacent objects, ghost appears. The difference in the temporal distribution of light emission of color sub-pixels causes color breakup. Shape distortion and color breakup severely degrade the moving image quality when the standard left-aligned PWM is employed. The center-aligned PWM generates unacceptable ghosting. Pulse frequency modulation produces the same image quality as the pulse amplitude modulation.

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“…Also addressing may limits the pulse frequency. But dithering technique will solve these problems 9) . Another solution is reduction of duty ratio.…”

Section: Discussionmentioning

confidence: 99%

[Paper] Mechanism of Degradation of Moving Image Quality with Pulse Width Modulation Grayscale Expression Methods

Tanabe

Shiga

2022

MTA

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“…These solutions directly add extra burden to the whole driving system. Based on the PWM, the technique of pulse density modulation (PDM) was developed to run dimming the discontinuity of luminance intensity between frames for improving false contour without a speedy refresh rate [14]- [16], but this optical artifact is not perfectly eliminated on such digitally driven schemes of impulse illuminating. The technique of analog PWM (A-PWM), a PWM-behaved scheme that outputs its I pixel by hold type illuminating and functions by inputting analog data voltages (V data 's) into the pixel circuit to modulate illuminating time [17]- [19], could rule out false contours completely since the variations of the illuminating time between adjacent gray levels are continuously consistent, performed the same effectiveness to the other hold illuminating schemes of pulse amplitude modulation (PAM) that runs with V data 's to obtain different I pixel 's in a fixed illuminating time [20]- [22].…”

Section: Introductionmentioning

confidence: 99%

“…2 shows the four phases of the proposed circuit running with its corresponding timing depicting in Fig. 3, the first two are for generating initial current of I pixel (I P-I ) at the 1st Possible FET Configuration to build the 10-bit Pixel Circuit [7] 2 HV-and 1 LV-FETs [8] 1 HV-and 1 LV-FETs [9] 1 HV-and 1 LV-FETs [14] 1 HV-and 1 LV-FETs [15] 1 HV-and 1 LV-FETs [16] 1 HV-and 1 LV-FETs [17] sub-frame and the last two happened at the 2nd or beyond sub-frame would switch the output current to an updated I pixel (I P-U ), where the number of sub-frames is 8 (3-bit). In phase-1, V data1 and V data2 are respectively delivered to the nodes of na and nc, the logic 1 of V sel biases node ne, node nd receives logic 0 via INV1; then these logics would be maintained with the latch made of INV1 and INV2, making T4 turned on and delivering V ref to node nb.…”

mentioning

confidence: 99%

A High 5292-PPI Pixel Circuit for Micro Displays With 10-Bit Gray Levels Realized via the Technique of Analog Sub-Frame Integral

Cheng,

Chao

2023

IEEE J. Electron Devices Soc.

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A pixel circuit driven in small range of data voltage (Vdata) is proposed for high pixel-per-inch (PPI) micro displays, using the new driving technique of analog sub-frame integral (A-SFI) to realize the required current integrals of gray levels. This circuit runs with two analog Vdata's configurated by 7-bit digital-to-analog converters (DACs), outputting 10-bit integral currents by receiving a digital voltage of Vsel at each sub-frame that is one of eight (3-bit) equally divided from an illuminating period. With the 1-LSB of 5mV assumed, the estimated Vdata range of 0.64V, which is apparently lower than at least 5V of a conventional circuit made by high voltage FETs (HVFETs), assists the proposed circuit in mainly constructing by the low voltage FETs (LVFETs) that are driven by about 1V; therefore, its pixel layout could be shrank for high PPI. Implementing this circuit in a 1.03-inch, high 5292PPI micro OLED panel made via that 55nm CMOS process for the validations, the simulated results over the displaying range show the iDNL's of within +1.15iLSB and −1.01iLSB, the iINL's of within +1.53iLSB and −1.05iLSB, and the iAD's of within +1.94% and −1.18%, observed the favorable linearities or deviations to the generated integral currents along 10-bit grayscales. The experimental results show the lDNL's of within +3.12lLSB and −1.75lLSB, and the lINL's of within +3.35lLSB and −2.29lLSB, validated the viability of this technique for high PPI displays.

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A digital driving method using pulse‐density modulation with a random dither matrix for higher motion image quality

Cited by 2 publications

References 22 publications

[Paper] Mechanism of Degradation of Moving Image Quality with Pulse Width Modulation Grayscale Expression Methods

[Paper] Mechanism of Degradation of Moving Image Quality with Pulse Width Modulation Grayscale Expression Methods

A High 5292-PPI Pixel Circuit for Micro Displays With 10-Bit Gray Levels Realized via the Technique of Analog Sub-Frame Integral

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