DocumentCode
3555762
Title
A new monolithic n-channel HgCdTe IRCCD array
Author
Koch, T.L. ; Gerardis, E.M. ; Thom, R.D. ; Miller, W.E.
Author_Institution
Santa Barbara Research Center, Goleta, California
Volume
28
fYear
1982
fDate
1982
Firstpage
145
Lastpage
148
Abstract
Monolithic n-channel infrared charge-coupled devices (IRCCDs) have been fabricated in Hg1-x Cdx Te ( 
). The first reported infrared detection and charge readout with such structures have been demonstrated. The CCD registers are four-phase, surface channel, overlapping gate structures incorporating MOS photodetectors which transfer laterally into the CCD shift register. The charge transfer efficiency (CTE) from a 2- element 3-1/2-bit IRCCD has been measured by electrical injection of signal using a fat zero input with 
being realized. The 2-element array and 20-element arrays with 20 bits have been operated in an optical detector multiplexing mode. Charge integration, transfer from the MOS detectors into the CCD register and serial readout have been demonstrated.
). The first reported infrared detection and charge readout with such structures have been demonstrated. The CCD registers are four-phase, surface channel, overlapping gate structures incorporating MOS photodetectors which transfer laterally into the CCD shift register. The charge transfer efficiency (CTE) from a 2- element 3-1/2-bit IRCCD has been measured by electrical injection of signal using a fat zero input with being realized. The 2-element array and 20-element arrays with 20 bits have been operated in an optical detector multiplexing mode. Charge integration, transfer from the MOS detectors into the CCD register and serial readout have been demonstrated.Keywords
Charge coupled devices; Charge transfer; Current measurement; Infrared detectors; Mercury (metals); Optical arrays; Photodetectors; Sensor arrays; Shift registers; Tellurium;
fLanguage
English
Publisher
ieee
Conference_Titel
Electron Devices Meeting, 1982 International
Type
conf
DOI
10.1109/IEDM.1982.190236
Filename
1482770
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