Abstract: A method performed with an image sensor having a pixel array. At least one frame of a scene may be obtained using the pixel array. At least one region of interest (ROI) is identified within the frame. Subsequent frames of the scene are obtained, which involves controlling the pixel array to perform high resolution imaging with respect to the at least one ROI and low resolution imaging using analog binning with respect to remaining regions of the frames.

Abstract: An image sensor may include control circuitry, a plurality of pixels, and an image processor. Each pixel includes a photodetector, at least first and second storage nodes, and transfer circuitry. The transfer circuitry is responsive to control signals generated by the control circuitry to transfer first charges generated by the photodetector during a first exposure time within a frame period to the first storage node. Second charges may be generated by the photodetector during a second, longer exposure time during the frame period, and transferred to the second storage node. The image processor may generate image frame data based on output voltage samples derived from the first and second charges of each of the plurality of pixels.

Abstract: An image sensor may include control circuitry, a plurality of pixels, and an image processor. Each pixel includes a photodetector, at least first and second storage nodes, and transfer circuitry. The transfer circuitry is responsive to control signals generated by the control circuitry to transfer first charges generated by the photodetector during a first exposure time within a frame period to the first storage node. Second charges may be generated by the photodetector during a second, longer exposure time during the frame period, and transferred to the second storage node. The image processor may generate image frame data based on output voltage samples derived from the first and second charges of each of the plurality of pixels.

Abstract: A method performed with an image sensor having a pixel array. At least one frame of a scene may be obtained using the pixel array. At least one region of interest (ROI) is identified within the frame. Subsequent frames of the scene are obtained, which involves controlling the pixel array to perform high resolution imaging with respect to the at least one ROI and low resolution imaging using analog binning with respect to remaining regions of the frames.

Abstract: An apparatus includes an oscillator circuit, a counter circuit, and a control circuit. The oscillator circuit may receive an input clock signal and an inverse input clock signal, and, for a first time period, may generate an oscillator output signal with a frequency based on a duty cycle of the input clock signal. For a second time period, the oscillator circuit may generate the oscillator output signal with a frequency based on a duty cycle of the inverse input clock signal. The counter circuit may count oscillations of the oscillator output signal over the first time period and over the second time period. The control circuit may determine, based on the oscillations counted by the counter circuit during the first time period and the second time period, a duty cycle value indicative of the duty cycle of the input clock signal.

Abstract: An apparatus includes an oscillator circuit, a counter circuit, and a control circuit. The oscillator circuit may receive an input clock signal and an inverse input clock signal, and, for a first time period, may generate an oscillator output signal with a frequency based on a duty cycle of the input clock signal. For a second time period, the oscillator circuit may generate the oscillator output signal with a frequency based on a duty cycle of the inverse input clock signal. The counter circuit may count oscillations of the oscillator output signal over the first time period and over the second time period. The control circuit may determine, based on the oscillations counted by the counter circuit during the first time period and the second time period, a duty cycle value indicative of the duty cycle of the input clock signal.

Abstract: A counter circuit for an analog to digital converter includes: a plurality of counter stages configured to obtain an integer multiple of a digital gain for the analog to digital converter by bypassing at least one of the plurality of counter stages. An analog-to-digital converter includes at least one counter circuit, and an image sensor includes the analog-to-digital converter, which includes the counter circuit.

Abstract: A complementary metal-oxide semiconductor (CMOS) image sensor and a pixel data readout method of the same are provided. The CMOS image sensor includes: a first readout line which outputs pixel data from a shared pixel group in an odd row of a column of a pixel array in a Bayer pattern during a horizontal period; and a second readout line which outputs pixel data from a shared pixel group in an even row of the column of the pixel array during the horizontal period, wherein pixel data output to the first and second readout lines during the horizontal period correspond to a basic Bayer pattern and pixels from which pixel data are read out in each column sequentially shifts in a column direction at each horizontal period.

Abstract: A counter circuit for an analog to digital converter includes: a plurality of counter stages configured to obtain an integer multiple of a digital gain for the analog to digital converter by bypassing at least one of the plurality of counter stages. An analog-to-digital converter includes at least one counter circuit, and an image sensor includes the analog-to-digital converter, which includes the counter circuit.

Abstract: A counter circuit for an analog to digital converter includes: a latch stage configured to generate a latch stage output clock based on a state of an input clock such that the latch stage output clock and the input clock have a same state at start of a reset counting phase, but a same or different state at start of a signal, counting phase depending on the state of the output clock at the end of the reset counting phase.