公开(公告)号：US20250104639A1

公开(公告)日：2025-03-27

申请号：US18473265

申请日：2023-09-24

Applicant: Novatek Microelectronics Corp.

Inventor： Yi-Shen Cheng ,  Che Wei Hsu

IPC: G09G3/3258

Abstract: The disclosure provides a driving device for a self-luminous display panel and an operation method thereof. The driving device includes multiple GAMMA voltage circuits, a group of driving channels, and a routing circuit. Each driving channel is coupled to the corresponding GAMMA voltage circuit to receive a corresponding group of GAMMA voltages. Each driving channel converts corresponding sub-pixel data into a corresponding gray scale voltage based on the corresponding group of GAMMA voltages. The routing circuit is coupled to the output terminals of the driving channels. The routing circuit dynamically changes the coupling relationship between the driving channels and multiple data lines of the self-luminous display panel during different scanning periods.

公开(公告)号：US12260825B1

公开(公告)日：2025-03-25

申请号：US18473265

申请日：2023-09-24

Applicant: Novatek Microelectronics Corp.

Inventor： Yi-Shen Cheng ,  Che Wei Hsu

IPC: G09G3/3258

Abstract: The disclosure provides a driving device for a self-luminous display panel and an operation method thereof. The driving device includes multiple GAMMA voltage circuits, a group of driving channels, and a routing circuit. Each driving channel is coupled to the corresponding GAMMA voltage circuit to receive a corresponding group of GAMMA voltages. Each driving channel converts corresponding sub-pixel data into a corresponding gray scale voltage based on the corresponding group of GAMMA voltages. The routing circuit is coupled to the output terminals of the driving channels. The routing circuit dynamically changes the coupling relationship between the driving channels and multiple data lines of the self-luminous display panel during different scanning periods.

公开(公告)号：US10826521B1

公开(公告)日：2020-11-03

申请号：US16547547

申请日：2019-08-21

Applicant: Novatek Microelectronics Corp.

Inventor： Chun-Po Huang ,  Liang-Ting Kuo ,  Yi-Shen Cheng ,  Chia-Chuan Lee ,  Soon-Jyh Chang

IPC: H03M1/46 ,  H03M1/10 ,  H03M1/12

Abstract: A successive approximation register (SAR) analog to digital converter (ADC) and a method of detecting an offset of a comparator are introduced. The SAR ADC includes a switch circuit, a comparator and a calibration circuit. The switch circuit is configured to perform a swapping operation on a first intermediate analog signal and a second intermediate analog signal to generate a first swapped analog signal and a second swapped analog signal. The comparator is coupled to the switching circuit and is configured to compare the first intermediate analog signal and the second intermediate analog signal before the swapping operation to generate a least-significant-bit value. The comparator is further configured to compare the first swapped analog signal and the second swapped analog signal after the swapping operation to generate a calibration bit value. The calibration circuit is configured to determine whether the comparator has an offset according to the least-significant-bit value and the calibration bit value.

公开(公告)号：US20200328753A1

公开(公告)日：2020-10-15

申请号：US16547547

申请日：2019-08-21

Applicant: Novatek Microelectronics Corp.

Inventor： Chun-Po Huang ,  Liang-Ting Kuo ,  Yi-Shen Cheng ,  Chia-Chuan Lee ,  Soon-Jyh Chang

IPC: H03M1/46 ,  H03M1/12 ,  H03M1/10

Abstract: A successive approximation register (SAR) analog to digital converter (ADC) and a method of detecting an offset of a comparator are introduced. The SAR ADC includes a switch circuit, a comparator and a calibration circuit. The switch circuit is configured to perform a swapping operation on a first intermediate analog signal and a second intermediate analog signal to generate a first swapped analog signal and a second swapped analog signal. The comparator is coupled to the switching circuit and is configured to compare the first intermediate analog signal and the second intermediate analog signal before the swapping operation to generate a least-significant-bit value. The comparator is further configured to compare the first swapped analog signal and the second swapped analog signal after the swapping operation to generate a calibration bit value. The calibration circuit is configured to determine whether the comparator has an offset according to the least-significant-bit value and the calibration bit value.