US 12,380,848 B2
Display device and pixel circuit thereof
Jing Gu, Shenzhen (CN); and Po-Yi Shih, Shenzhen (CN)
Assigned to VIEWTRIX TECHNOLOGY CO., LTD., Shenzhen (CN)
Filed by Viewtrix Technology Co., Ltd., Shenzhen (CN)
Filed on Nov. 8, 2023, as Appl. No. 18/387,925.
Application 18/387,925 is a continuation of application No. 15/286,732, filed on Oct. 6, 2016, granted, now 11,854,477.
Application 15/286,732 is a continuation of application No. PCT/CN2016/070839, filed on Jan. 13, 2016.
Prior Publication US 2024/0071308 A1, Feb. 29, 2024
This patent is subject to a terminal disclaimer.
Int. Cl. G09G 3/3233 (2016.01); G09G 3/20 (2006.01); G09G 3/3266 (2016.01); G09G 3/3291 (2016.01); G09G 3/36 (2006.01); G09G 5/00 (2006.01); G09G 5/395 (2006.01)
CPC G09G 3/3233 (2013.01) [G09G 3/2022 (2013.01); G09G 3/3266 (2013.01); G09G 3/3291 (2013.01); G09G 3/3648 (2013.01); G09G 5/005 (2013.01); G09G 5/395 (2013.01); G09G 2300/0443 (2013.01); G09G 2300/0804 (2013.01); G09G 2300/0814 (2013.01); G09G 2300/0819 (2013.01); G09G 2300/0842 (2013.01); G09G 2300/0861 (2013.01); G09G 2310/0216 (2013.01); G09G 2310/0262 (2013.01); G09G 2310/0286 (2013.01); G09G 2310/0297 (2013.01); G09G 2310/067 (2013.01); G09G 2310/08 (2013.01); G09G 2320/0233 (2013.01); G09G 2320/045 (2013.01); G09G 2330/028 (2013.01); G09G 2360/02 (2013.01); G09G 2360/123 (2013.01); G09G 2370/04 (2013.01)] 20 Claims
OG exemplary drawing
 
1. An active array organic light emitting diode (AMOLED) display, comprising:
an array of OLEDs divided into k groups of OLEDs, where k is an integer larger than 1;
a plurality of pixel circuits connected to the array of OLEDs, wherein each of the plurality of pixel circuits is configured to drive k OLEDs from each of the k groups of OLEDs;
a light emitting driver connected to the plurality of pixel circuits and configured to cause each of the k groups of OLEDs to sequentially emit lights in a respective one of k sub-frame periods within a frame period; and
a gate scanning driver connected to the plurality of pixel circuits and configured to sequentially scan each of the k groups of OLEDs in the respective sub-frame period within the frame period, wherein:
each of the plurality of pixel circuits comprises:
a capacitor,
a light emitting control transistor comprising a gate electrode connected to a light emitting control signal provided by the light emitting driver, a source electrode connected to a supply voltage signal, and a drain electrode connected to a driving transistor,
the driving transistor comprising a gate electrode connected to one electrode of the capacitor, a source electrode connected to the drain electrode of the single light emitting control transistor, and a drain electrode connected to k light emitting transistors of the k OLEDs,
the k light emitting transistors, each of which comprising a gate electrode connected to a respective one of k light emitting signals provided by the light emitting driver, a source electrode connected to the drain electrode of the driving transistor, and a drain electrode connected to a respective one of the k OLEDs, and
the light emitting driver comprises a light emitting circuit and a light emitting control circuit, the light emitting circuit comprises k first shift registers configured to provide k light emitting signals in response to k first enable signals, and the light emitting control circuit comprises a second shift register configured to provide the light emitting control signal in response to a second enable signal that is a logical disjunction of the k first enable signals.