FOCAL PLANE EXPOSURE CONTROL SYSTEM FOR CMOS AREA IMAGE SENSORS
First Claim
1. A control system for controlling the exposure to incident optical radiation of an active pixel image sensing device having a plurality of image signal generating pixels arranged in horizontal rows and vertical columns to form of a two-dimensional matrix, each row and column, respectively, having a respective row and column address, wherein the pixels in each horizontal row are connected to a first common horizontal reset line and a second common horizontal select line and the pixels in each vertical column are connected to a common vertical signal line, the control system comprising:
- vertical addressing means connected to each of said horizontal reset lines for resetting image signals of the pixels of a row connected to a predetermined one of said horizontal reset lines;
said vertical addressing means also connected to each of said horizontal select lines for also selecting a predetermined one of said horizontal select lines for enabling image signals from pixels in the row connected to said selected select line to be read out;
horizontal addressing means connected to each of said vertical signal lines for selecting a predetermined one of said vertical signal lines and for reading out the signal of the pixel simultaneously selected through said horizontal select lines and said vertical signal lines;
control means connected to said horizontal and vertical addressing means for controlling said horizontal and vertical addressing means so that said vertical addressing means selects a first one of said horizontal reset lines to reset the image signals of the pixels of that row connected to said first one of said horizontal reset lines, and thereafter selects a second one of said horizontal select lines to enable the image signals of the pixels of that row connected to said second one of said horizontal select lines to be read out, wherein said second one of said horizontal select lines is spaced apart from said first one of said horizontal reset lines by a predetermined number of horizontal select lines, and said horizontal addressing means simultaneously selects in ordered sequence predetermined ones of said vertical signal lines to read out in said ordered sequence the image signals from the pixels of that row connected to said second one of said horizontal select lines, said control means thereafter operating to control said vertical addressing means to alternately select succeeding predetermined ones of said horizontal reset and select lines and to control said horizontal addressing means to simultaneously select predetermined ones of said vertical signal lines in said ordered sequence to read out the image signals from the pixels of the succeeding rows connected to the selected horizontal select lines.
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Abstract
An electronic exposure control system for an active pixel CMOS image sensor includes a row decoder and a column decoder for respective row-wise and column-wise addressing of the image signal generating pixels. The decoders receive row and column addresses and control signals from a controller. The row addresses received by the row decoder are alternately switched between a predetermined row address for resetting the image signals of pixels in said row and another predetermined spaced apart row address for enabling the image signals of pixels in said selected row to be read out by the column decoder. By providing a predetermined sequence of row addresses, a “rolling shutter” can be created and/or the exposure time of the pixels can be selected to be different from the time to expose an entire frame. The image sensor can also be operated in an interlaced mode and/or specific areas on the image sensor can be selected to be reset and read out.
210 Citations
12 Claims
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1. A control system for controlling the exposure to incident optical radiation of an active pixel image sensing device having a plurality of image signal generating pixels arranged in horizontal rows and vertical columns to form of a two-dimensional matrix, each row and column, respectively, having a respective row and column address, wherein the pixels in each horizontal row are connected to a first common horizontal reset line and a second common horizontal select line and the pixels in each vertical column are connected to a common vertical signal line, the control system comprising:
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vertical addressing means connected to each of said horizontal reset lines for resetting image signals of the pixels of a row connected to a predetermined one of said horizontal reset lines;
said vertical addressing means also connected to each of said horizontal select lines for also selecting a predetermined one of said horizontal select lines for enabling image signals from pixels in the row connected to said selected select line to be read out;
horizontal addressing means connected to each of said vertical signal lines for selecting a predetermined one of said vertical signal lines and for reading out the signal of the pixel simultaneously selected through said horizontal select lines and said vertical signal lines;
control means connected to said horizontal and vertical addressing means for controlling said horizontal and vertical addressing means so that said vertical addressing means selects a first one of said horizontal reset lines to reset the image signals of the pixels of that row connected to said first one of said horizontal reset lines, and thereafter selects a second one of said horizontal select lines to enable the image signals of the pixels of that row connected to said second one of said horizontal select lines to be read out, wherein said second one of said horizontal select lines is spaced apart from said first one of said horizontal reset lines by a predetermined number of horizontal select lines, and said horizontal addressing means simultaneously selects in ordered sequence predetermined ones of said vertical signal lines to read out in said ordered sequence the image signals from the pixels of that row connected to said second one of said horizontal select lines, said control means thereafter operating to control said vertical addressing means to alternately select succeeding predetermined ones of said horizontal reset and select lines and to control said horizontal addressing means to simultaneously select predetermined ones of said vertical signal lines in said ordered sequence to read out the image signals from the pixels of the succeeding rows connected to the selected horizontal select lines. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A control system for controlling the exposure to incident optical radiation of an active pixel image sensing device having a plurality of image signal generating pixels arranged in horizontal rows and vertical columns to form of a two-dimensional matrix, each row and column, respectively, having a respective row and column address, wherein the pixels in each horizontal row are connected to a first common horizontal reset line and a second common horizontal select line and the pixels in each vertical column are connected to a common vertical signal line, the control system comprising:
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a row decoder connected to each of said horizontal reset lines for resetting image signals of the pixels of a row connected to a predetermined first one of said horizontal reset lines;
said row decoder also connected to each of said horizontal select lines for also selecting a predetermined one of said horizontal select lines for enabling image signals from pixels in the row connected to said second selected select line to be read out;
horizontal addressing means connected to each of said vertical signal lines for selecting a predetermined one of said vertical signal lines and for reading out the signal of the pixel simultaneously selected through said horizontal select lines and said vertical signal lines;
a control circuit for generating row and column addresses and control signals for controlling said row decoder and said horizontal addressing means;
two sets of tri-state buffer amplifiers, the input of each of the sets of tri-state buffer amplifiers connected to the output of the control circuit for receiving said row addresses and control signals from the control circuit, and the output of each of the sets of tri-state buffer amplifiers connected to the input of the row decoder for conveying said row addresses and control signals to the row decoder, each of said tri-state buffer amplifiers capable of switching between a low impedance output state and a high impedance output state in response to at least one of the control signals from the control circuit;
wherein said control device generates a first row address and a second row address and column addresses and respective control signals and conveys said first row address and at least one of said respective control signals to a first one of said set of tri-state amplifiers and conveys said second row address at least one other of said respective control signals to a second one of said set of tri-state amplifiers, said row decoder receiving from the output of said first one of the sets of tri-state buffer amplifiers the first row address and the at least one respective control signal for selecting the horizontal reset line of that row having said first row address to reset the image signals of the pixels in that row having said first row address and thereafter receiving from the output of said second one of the sets of tri-state buffer amplifiers the second row address and said at least one other respective control signal for selecting the horizontal select line of that row having said second row address to enable the image signals of the pixels of that row having said second row address to be read out, wherein said second row address is spaced apart from said first row address by a predetermined number of rows, and said horizontal addressing means simultaneously selects in ordered sequence predetermined ones of said vertical signal lines to read out in said ordered sequence the image signals from the pixels of that row having said second row address, said control device thereafter operating to generate succeeding predetermined new first and second row addresses and respective control signals to be alternately transmitted by said first and second set of tri-state amplifiers to the row decoder, and to control said horizontal addressing means to simultaneously select in ordered sequence predetermined ones of said vertical signal lines to read out in said ordered sequence the image signals from the pixels of the rows having said succeeding predetermined new second row addresses. - View Dependent Claims (10)
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11. A method for controlling the exposure to incident optical radiation of an active pixel image sensing device having a plurality of image signal generating pixels arranged in horizontal rows and vertical columns to form of a two-dimensional matrix, each row and column, respectively, having a respective row and column address, the rows between the row start and stop address defining a vertical frame, wherein the pixels in each horizontal row are connected to a first common horizontal reset line and a second common horizontal select line and the pixels in each vertical column are connected to a common vertical signal line, the method comprising the steps of:
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a) resetting the image signals of the pixels of a predetermined first row located within the vertical frame via the respective horizontal reset line of said predetermined first row;
b) thereafter selecting, via the respective horizontal select line, a predetermined second row spaced apart from said first row and located within said vertical frame for enabling image signals from pixels in the predetermined second row to be read out;
c) sequentially selecting columns in a predetermined order and reading out in said predetermined order the image signal of the pixel simultaneously selected in said predetermined second row and in said selected column;
d) selecting new predetermined first and second row addresses for said predetermined first row and said predetermined second row and repeating steps a) through d) at least until the image signals of the pixels of all rows in the frame are read out. - View Dependent Claims (12)
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Specification