Add to ORKGA 512 x 320 element charge coupled imager has been fabricated and tested under cooled slow scan conditions to evaluate the device's performance under a variety of long integration and slow scan readout conditions. Operation in a low blooming mode of operation enables the sensor to be exposed with portions of the image heavily overexposed, without those areas spreading into adjacent picture areas. Device design, layout, and operating mode are described, and presents experimental results, including displayed images taken under cooled slow scan operation, are reported
Journal ArticleWe have developed scientific charge-coupled devices (CCDs) that are fabricated on hi...
CCD (charged coupled device) and CMOS imaging technologies can be applied to thin tissue autoradiogr...
The primary objective of this work was to demonstrate the feasibility of an image sensor that is cap...
Linear CCD arrays used singly or in optically butted assemblies permit practical implementation of l...
A 190 x 244 element charge coupled area image sensor has been designed, fabricated and tested. This ...
Backside illuminated CCD imagers with 100 x 160 resolution elements have been fabricated using doubl...
An evaluation of a charge-coupled device (CCD) image sensors for use in spacecraft-borne imaging sys...
Low light level imaging devices have the advantage that they can produce quantitative two dimensiona...
A five cask level process was used to fabricate single level, poly gated charge coupled devices inte...
The performance of liquid nitrogen (LN2) cooled digital scientific instrumentation camera incorporat...
The effects of ionizing radiation on three different charge coupled imagers have been investigated. ...
Charge-coupled devices (CCD's) were recognized for their potential as an imaging technology almost i...
A process was developed for fabrication of 360x360-element Very High Frame Rate (VHFR) burst-image s...
CCD (charged coupled device) and CMOS imaging technologies can be applied to thin tissue autoradiogr...
A process was developed for fabrication of 360x360-element Very High Frame Rate (VHFR) burst-image s...
Journal ArticleWe have developed scientific charge-coupled devices (CCDs) that are fabricated on hi...
CCD (charged coupled device) and CMOS imaging technologies can be applied to thin tissue autoradiogr...
The primary objective of this work was to demonstrate the feasibility of an image sensor that is cap...
Linear CCD arrays used singly or in optically butted assemblies permit practical implementation of l...
A 190 x 244 element charge coupled area image sensor has been designed, fabricated and tested. This ...
Backside illuminated CCD imagers with 100 x 160 resolution elements have been fabricated using doubl...
An evaluation of a charge-coupled device (CCD) image sensors for use in spacecraft-borne imaging sys...
Low light level imaging devices have the advantage that they can produce quantitative two dimensiona...
A five cask level process was used to fabricate single level, poly gated charge coupled devices inte...
The performance of liquid nitrogen (LN2) cooled digital scientific instrumentation camera incorporat...
The effects of ionizing radiation on three different charge coupled imagers have been investigated. ...
Charge-coupled devices (CCD's) were recognized for their potential as an imaging technology almost i...
A process was developed for fabrication of 360x360-element Very High Frame Rate (VHFR) burst-image s...
CCD (charged coupled device) and CMOS imaging technologies can be applied to thin tissue autoradiogr...
A process was developed for fabrication of 360x360-element Very High Frame Rate (VHFR) burst-image s...
Journal ArticleWe have developed scientific charge-coupled devices (CCDs) that are fabricated on hi...
CCD (charged coupled device) and CMOS imaging technologies can be applied to thin tissue autoradiogr...
The primary objective of this work was to demonstrate the feasibility of an image sensor that is cap...