| 1. |
Charge Coupled Devices for Imaging Sensing |
M. F. Tompsett, D. A. Sealer,andC. H. Sequin |
| 2. |
Design and Operation of Buried Channel Charge-Coupled Devices |
Choong-Ki Kim |
| 3. |
Tradeoff Analysis for CCD Area Imagers: Frontside Illuminated Interline Transfer vs Backside Illuminated Frame Transfer |
D. F. Barbe and M. H. White |
| 4. |
A New Charge-Coupled Area Imaging Device |
L. Walsh and R. H. Oyck |
| 5. |
Characterization of Surface Channel CCD Image Arrays at Low Light Levels |
M. H. White, D. R. Lampe, F. C.Blaha, and I. A. Mack |
| 6. |
Design, Fabrication and Performance of a 128 X 160 Element Charge-Coupled Image Sensor |
M.G. Kovac, F. V. Shallcross, W. S. Pike, and P. K. Weimer |
| 7. |
Appraisal of Charge Transfer Technologies for Peripheral Memory Applications |
H. A. R. Wegener |
| 8. |
Conceptual Design of an Eight-Megabyte High Performance Charge-Coupled Storage Device |
B. Agusta and T.V. Harroun |
| 9. |
CCD Digital Memory for Radar Applications |
R. A. Belt |
| 10. |
Recent Improvements in Charge-Coupled Memory Devices |
Y. T. Chan, B. T. French, and R. A. Gudmundsen |
| 11. |
256-Bit Repeater Chained 2-Phase CCD Digital Shift Register |
W. E. Tchon and J. S. T. Huang |
| 12. |
Performance Characteristics of CCD Shift Registers Fabricated Using Aluminum-Anodized Aluminum-Aluminum Double Level Metallization |
D. R. Collins, J. B. Barton, R. W.Brodersen, W. C. Rhines, S. R.Shortes, and A. F. Tasch, Jr. |
| 13. |
Applications of Charge Transfer Devices to Communication |
D. D. Buss and W. H. Bailey |
| 14. |
Real-Time Discrete Fourier Transforms Using Charge Transfer Devices |
R. W. Means, D. D. Buss, and H. J. Whitehouse |
| 15. |
A Surface Charge Correlator for Signal Processing |
J. J. Tiemann, R. D. Baertsch, and W. E. Engeler |
| 16. |
An Electrically Programmable LSI Transversal Filter for Discrete Analog Signal Processing (DASP) |
D. R. Lampe, J. L. Fagan, J. H. Mims, and M. H. White |
| 17. |
Design and Performance of Charge-Coupled Device Time-Division Analog Multiplexers |
T. F. Cheek, Jr., J. B. Barton, S. P. Emmons, J. E. Schroeder, and A. F. Tasch, Jr. |
| 18. |
The Use of CCD Correlators in a Spread Spectrum Communications Example |
T. A. Zimmerman and R. W. Bower |
| 19. |
Using Charge-Coupled Devices for Analog Delay |
M. F. Tompsett |
| 20. |
A Parallel Input, High Speed CCD Analog Delay Line |
R. D. Mellen and J. Roshen |
| 21. |
A Signal Processing Sensor Using CCDs |
H. J. Whitehouse and I. Lagnado |
| 22. |
The Peristaltic Charge-Coupled Device |
L. J. M. Esser |
| 23. |
Buried Channel Charge-Coupled Devices for Infrared Applications |
D. M. Erb and K. Nummedal |
| 24. |
Experimental Characterization of Charge Transfer Efficiency in Surface Channel CCDs |
R. W. Brodersen, D. D. Buss, and A. F. Tasch, Jr. |
| 25. |
Dark-Current and Storage-Time Considerations in Charge-Coupled Devices |
A. F. Tasch, Jr., R. W. Brodersen, D. D. Buss, and R. T. Bate |
| 26. |
The Performance of CCDs in Signal Processing at Low Signal Levels |
S. P. Emmons and D. D. Buss |
| 27. |
CCD Modulation Transfer Function |
R. D. Nelson and W. P.Waters |
| 28. |
Polysilicon-Aluminum Gate CCD |
W. F. Kosonocky and J. E. Carnes |
| 29. |
Effects of Gamma Radiation on Charge-Coupled Devices |
D. F. Barbe, J. M. Killiany, and H. L. Hughes |
| 30. |
Charge-Coupled Devices for Low Light Level Imaging |
S. B. Campana |
| 31. |
Theoretical Analysis of Directly Coupled 8-12 um Hybrid IRCCD Serial Scanning |
A. J. Steck I and T. Koehler |
| 32. |
Feasibility Study of PbTe and Pbo.76Sn0.24Te Infrared Charge-Coupled Imager |
T. F. Tao, J. R. Ellis, L. Kost, and A. Doshier |
