| Sonstiges: |
- Nachgewiesen in: USPTO Patent Grants
- Sprachen: English
- Patent Number: 4,819,067
- Publication Date: April 04, 1989
- Appl. No: 07/048,476
- Application Filed: May 06, 1987
- Assignees: Thomson-LSF (Paris, FRX)
- Claim: What is claimed is
- Claim: 1. A line-transfer photosensitive device comprising on a semi-conductor substrate a photosensitive region (1) comprising M lines of N photosensitive points, the photosensitive points (PH) of the different lines being connected in parallel by means of conductive columns to an interface single line memory which carries out at least the transfer of the signal charges integrated on one and the same line of the photosensitive region to a read register consisting of a volume transfer charge-coupled shift register formed on a semiconductor substrate region having an impurity zone of opposite type with respect to the substrate in order to obtain a charge transfer of the volume-transfer type, wherein the line memory is formed on a semiconductor substrate region having an impurity zone of opposite conductivity type with respect to the substrate in order to produce a volume charge transfer, the dopant concentration of the region wherein the line memory is formed being no greater than that of the region wherein the shift register is formed, and wherein the line memory comprises a plurality of storage capacitors, each capacitor being connected to a respective one of said columns through a diode and transfer gate means, said transfer gate means comprising adjacent to the diode a first gate maintained at a d-c voltage relative to the substrate for establishing a steady potential on the column and for establishing beneath said first gate a threshold for a quantity of charges to be transferred, and a second gate between the first gate and the capacitor maintained at a potential relative to the substrate which varies periodically between a prescribed high level and a prescribed low level for initiating and stopping, respectively, the transfer of charges from the column to the capacitor, the potential at the high level being sufficient to inhibit charge storage beneath the second gate, characterized in that the device further includes a second plurality of storage capacitors, each of which is coupled respectively to a storage capacitor of the plurality forming the line memory by way of an intermediate gate wherein the prescribed high level of the potential which varies periodically corresponds to the relation [equation included]
- Claim: with .phi..sub.s (G'.sub.p): the surface potential beneath the first gate
- Claim: .phi..sub.s (G.sub.Ohigh): the high level of the surface potential of the intermediate gate
- Claim: C.sub.1 : the value of the storage capacitors of the line memory
- Claim: Q.sub.Smax : the maximum quantity of signal charge, wherein the prescribed low level of the potential which varies periodically satisfies the further relation [equation included]
- Claim: with .phi..sub.s (C.sub.1low): the low level of the surface potential beneath the storage capacitors of the line memory
- Claim: .phi..sub.s (G.sub.Olow): the low level of the surface potential beneath the intermediate gate.
- Claim: 2. A line-transfer device in accordance with claim 1 wherein beneath the intermediate gate there is formed a zone of the conductivity type of the substrate and opposite that of the line memory.
- Claim: 3. A line-transfer device in accordance with claim 2 in which the regions of the semiconductor substrate which are located beneath the first and second gates, the plurality of storage capacitors comprising the line memory and one half of the intermediate gate have a lower impurity concentration than the regions which are located beneath the other half of the intermediate gate and the second plurality of storage capacitors.
- Claim: 4. The method of operating a line-transfer photosensitive device comprising on a semiconductor substrate a photosensitive region (1) comprising M lines of N photosensitive points, the photosensitive points (PH) of the different lines being connected in a parallel by means of conductive columns to an interface single line memory which carries out at least the transfer of the signal charges integrated on one and the same line of the photosensitive region to a read register consisting of a volume transfer charge-coupled shift register formed on a semiconductor substrate region having an impurity zone of opposite type with respect to the substrate in order to obtain a charge transfer of the volume transfer type, wherein the line memory is formed on a semiconductor substrate region having an impurity zone of opposite conductivity type with respect to the substrate in order to produce a volume charge transfer, the dopant concentration of the region wherein the line memory is formed being no greater than that of the region wherein the shift register is formed, and wherein the line memory comprises a plurality of storage capacitors, each capacitor being connected to a respective one of said columns through a diode and transfer gate means, said transfer gate means comprising a first gate adjacent to the diode and a second gate between the first gate and the capacitor said method comprising maintaining the first gate at a d-c potential relative to the substrate for establishing a steady potential on the column, and establishing on the second gate a potential relative to the substrate which varies periodically between a prescribed high level and a prescribed low level for initiating and stopping, respectively, the transfer of charges from the column to the capacitor, the potential at the high level being sufficient to inhibit charge storage beneath the second gate, characterized in that the device further includes a second plurality of storage capacitors each of which is coupled respectively to a storage capacitor of the plurality forming the line memory by way of an intermediate gate wherein the prescribed high level of the potential which varies periodically corresponds to the relation [equation included]
- Current U.S. Class: 357/24; 377/62
- Current International Class: H01L 2978
- Patent References Cited: 4093872 June 1978 Hartman et al. ; 4229752 October 1980 Hynecek ; 4246591 January 1981 Kosonocky et al. ; 4430672 February 1984 Berger ; 4506299 March 1985 Berger et al. ; 4562363 December 1985 Jones et al. ; 4611234 September 1985 Berger et al.
- Other References: Kosonocky, W. F., and Carnes, J. E., "Basic Concepts of Charge-Coupled Devices", RCA Review, vol. 36, Sep. 1975, pp. 567-583. ; Chamberlain, S. G., "High Speed Scanner Photoelement with Gain", IBM Tech. Disc. Bull. vol. 19, No. 11, Apr. 1977, pp. 4458-4460. ; Ohba, S., Aoki, M. Nakai, M., Shimada, S., Uchiumi, K., Fujita, M. and Kubo, M., "A 1024-Element Linear CCD Photo Sensor with Unique Photodiode Structure", IEEE Trans. on Electron Devices, vol. ED-27, No. 9, Sep. 1980, pp. 1804-1808.
- Primary Examiner: James, Andrew J.
- Assistant Examiner: Crane, Sara W.
- Attorney, Agent or Firm: Plottel, Roland
|
