Anti-blooming shield for two-dimensional charge-injection devices
First Claim
1. In an improved two-dimensional infra-red detector array including a plurality of aligned detector elements arranged in rows and columns in which each detector element includes a pair of spaced x- and y-electrodes defining respective potential wells within the detector elements, the array having means for simultaneously transferring any signal charge stored in the potential wells at all of the x-electrodes in any row of the array to the respective potential wells at the associated y-electrodes, and for thereafter simultaneously reading out any signal charge stored in the potential wells at all of the y-electrodes in any column of the array, the improvement comprising:
- an infra-red opaque layer covering the y-electrode of each detector element of said detector array to prevent accumulation of signal charge in the potential wells at the y-electrodes when the array is irradiated by infra-red light, while permitting accumulation of signal charge in the potential wells at the x-electrodes, so that signal charge accumulated in the potential well at a given x-electrode can be transferred to the potential well at the associated y-electrode and thereafter read out from the potential well at the associated y-electrode without an accompanying spurious output from the potential wells of other y-electrodes in the same column.
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Abstract
A shield or opaque covering for reducing blooming at low input levels in -dimensional charge-injection devices. Two-dimensional charge-injection devices include X-Y aligned detector elements in which each detector element includes a y-electrode portion and a x-electrode portion, each in the same alignment. Each of the y-electrode portions in the same vertical column is connected to a common conductor to form separate y-electrode column conductors, one for each column of elements. Each of the x-electrode portions in the same horizontal row is connected to a common conductor thereby forming separate rows of x-electrode conductors, one for each row of elements. During fabrication each of the rows of y-electrode portions is permanently covered with a covering which is opaque to the radiation to be detected whereas each of the x-electrode areas is exposed to the radiations to be detected. Such an arrangement permits read-out of individual detector elements without blooming by nearby detector elements at low inputs.
7 Citations
5 Claims
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1. In an improved two-dimensional infra-red detector array including a plurality of aligned detector elements arranged in rows and columns in which each detector element includes a pair of spaced x- and y-electrodes defining respective potential wells within the detector elements, the array having means for simultaneously transferring any signal charge stored in the potential wells at all of the x-electrodes in any row of the array to the respective potential wells at the associated y-electrodes, and for thereafter simultaneously reading out any signal charge stored in the potential wells at all of the y-electrodes in any column of the array, the improvement comprising:
an infra-red opaque layer covering the y-electrode of each detector element of said detector array to prevent accumulation of signal charge in the potential wells at the y-electrodes when the array is irradiated by infra-red light, while permitting accumulation of signal charge in the potential wells at the x-electrodes, so that signal charge accumulated in the potential well at a given x-electrode can be transferred to the potential well at the associated y-electrode and thereafter read out from the potential well at the associated y-electrode without an accompanying spurious output from the potential wells of other y-electrodes in the same column. - View Dependent Claims (2, 3, 4, 5)
Specification