Papers

 

(2005)

1.         M. Mase, S. Kawahito, M. Sasaki, Y. Wakamori, M. Furuta, gA Wide Dynamic Range CMOS Image Sensor With Multiple Exposure-Time Signal Outputs and 12-bit Column-Parallel Cyclic A/D Convertersh, IEEE J. Solid-State Circuits, vol.40 no.12 pp.2787-2795, Dec. 2005.

2.         S. Kawahito, gSpotlighth, EE Times Japan, p.12, Nov.2005. (Interview, in Japanese).

3.         T. Takahashi, Y. Nagano, S. Kawahito, gDevelopment of a High Precision Angle Sensorh, NTN Technical Review, no.73, pp.98-103, Oct.2005. (in Japanese).

4.         J. H. Park, S. Kawahito, Y. Wakamori, gA new active pixel structure with a pinned photodiode for wide dynamic range image sensorsh, IEICE Electronics Express, vol.2, no.18, pp.482-487, Sep. 2005.

5.         M. Furuta, S. Kawahito, H. Okada, gA programmable gain amplifier with color balancing for CCD image sensorsh, IEE Proc. Circuits and Systems, vol. 152, no. 3, pp.229-235, Jun. 2005.

6.         M. Sakakibara, S. Kawahito, D. Handoko, N. Nakamura, H. Satoh, M. Higashi, K. Mabuchi, H. Sumi, gA high-sensitivity CMOS image sensor with gain-adaptive column amplifiersh, IEEE J. Solid-State Circuits, vol. 40, no. 5, pp. 1147-1156, 2005.

7.         K. Nakano, T. Takahashi, S. Kawahito, gA CMOS Rotary Encoder Using Magnetic Sensor Arraysh, IEEE Sensors Journal, vol.5, no.5 pp.889-894, May 2005.

8.         K. Nakano, T. Takahashi, S. Kawahito, gAngle detection method for CMOS smart rotary encoderh, J. Robotics and Mechatronics, vol.17 no.4@pp.469-474, Apr. 2005.

9.         S. Kawahito, K. Honda, N. Kawai, F. Furuta, D. Miyazaki, gLow-power design of high-speed A/D converters, IEICE Trans. Electronicsh, vol. E88-C, no. 4, pp. 468-478, Apr. 2005. (Invited)

10.     S. Kawahito, gRecent Developments of Application Specific Image Sensorsh, vol.59, no.3, pp359-361, Mar.2005. (in Japanese).

11.     N. Kawai, S. Kawahito, gEffectiveness of a correlated multiple sampling differential averager for 1/f noise, IEICE Express Lett.h, vol. 2, no. 13, pp.379-383, 2005.

12.     S. Kawahito, gCMOS Time-of-Flight Range Image Sensorsh, Proc. Int. Display Workshop f05, pp. 2049-2052, Takamatsu, Dec.2005. (Invited)

13.     J. H. Park, M. Mase, S. Kawahito, M. Sasaki, Y. Wakamori, Y. Ohta, gA 142dB Dynamic Range CMOS Image Sensor with Multiple Exposure Time Signalsh, Proc. 2005 Asian Solid-State Circuits Conf., pp.85-88, Hsinchu, Nov.2005.

14.     A. H. Izhal, T. Ushinaga, T. Sawada, M. Homma, Y. Maeda, S. Kawahito, gA CMOS Time-of-Flight Range Image Sensor with Gates on Field Oxide Structureh, Proc. IEEE Sensors 2005, pp.141-144, Irvine, Oct.2005.

15.     K. Nakano, T. Takahashi, S. Kawahito, gA Highly Temperature-Stable MAGFET Array for CMOS Smart Rotary Encodersh, Proc. IEEE Int. Conf. Sensors 2005, pp.1053-1056, Irvine, Oct.2005.

16.     S. Kawahito, gDynamic Range Expansion to Both Low and High Illumination Levels Based on CMOS Technologyh Proc. The 2nd Int. Symp. on Nanovision Science, pp.79-82, Shizuoka Oct.2005.(Invited)

17.     J. H. Park, M. Mase, S. Kawahito, M. Sasaki, Y. Wakamori, Y. Ohta, gA 142dB Dynamic range CMOS image sensorh, Proc. The 2nd Int. Symp. on Nanovision Science, pp.127-128, Shizuoka,Oct.2005.

18.     N. Kawai, S. Kawahito, gLow-Noise Signal Readout Techniques for CMOS Image Sensorsh, Proc. The 2nd Int. Symp. on Nanovision Science, pp.129-130, Shizuoka,Oct.2005.

19.     K. Nakano, S. Kawahito, T. Takahashi, Y. Nagano, gA CMOS Rotary Encoder System Based on Magnetic Imagingh, Proc. The 2nd Int. Symp. on Nanovision Science, pp.129-130, Shizuoka, Oct.2005.

20.     H. J. Yoon, S. Kawahito, gOptimization of Pinned Photodiodes for Wide Dynamic Image Sensorsh, Proc. The 2nd Int. Symp. on Nanovision Science, pp.131-132, Shizuoka, Oct.2005.

21.     K. Honda, S. Kawahito, gAnalysis of Memory Effectg in Settling Behavior of Pipeline A/D Convertersh, Proc. The 2nd Int. Symp. on Nanovision Science, pp.133-134, Shizuoka, Oct.2005.

22.     M. Sakakibara, R. Oishi, S. Kawahito, gColumn Parallel Low Noise Digital Readout Circuits Using Adaptive Integration for CMOS Image Sensorsh, Proc. The 2nd Int. Symp. on Nanovision Science, pp.135-136, Shizuoka, Oct.2005.

23.     S. Aoyama, S. Kawahito, T. Yasui, M. Yamaguchi, gA High-Sensitivity Active Magnetic Probe using CMOS Integrated Circuits Technologyh, Proc. Electrical Performance of Electronic Packaging 2005, Poster, pp.115-121, Austin, Oct.2005.

24.     S. Ito, S. Kawahito, S. Terakawa, gA CMOS one-chip wireless camera with digital image transmission function for capsule endoscope applicationsh, Proc. The 22nd Sensor Symo. Sensors, Micromachines, and Applied Systems, pp.89-94, Tokyo, Oct. 2005.

25.     K. Nakano, T. Takahashi, S. Kawahito, gImproving Temperture-Stability of CMOS Rotary Encoder Using Parallel-Connected MAGFET Arrayh, Proc. The 22nd Sensor Symo. Sensors, Micromachines, and Applied Systems, pp.166-170, Tokyo, Oct.  2005.

26.     J. H. Park, M. Mase, S. Kawahito, M. Sasaki, Y. Wakamori, Y. Ohta, gA Wide Dynamic Range Image Sensor with a Linear Response in Entire@Illumination Rangeh, Dig. Tech. Papers, the 22nd Sensor Symp. 2005, pp.398-401, Tokyo, Oct.2005.

27.     T. Ushinaga, I. A. Halin, T. Sawada, S. Kawahito, M. Homma, Y. Maeda, gA QVGA-size CMOS Time-of-Flight Range Finding Sensor with Background Light Charge Draining Structureh, Proc. The 22nd Sensor Symp. 2005, pp.41-44, Tokyo, Oct. 2005.

28.     T. Takahashi, K. Nakano, S. Kawahito, gA CMOS Rotary Encoder System Using Magnetic Sensor Arraysh, LDIA 2005, Poster, pp.215-218, Kobe, Sep.2005.

29.     S. Kawahito, gAn ultimate dynamic range imaging device – from star light to sun lighth, Key note lecture, Proc. The 4th Int. conf. on Global Research and Education, vol.1, pp105-113, Wuppertal, Sep. 2005. (Invited Paper)

30.     S. Aoyama, S. Kawahito, M. Yamaguchi, gAn Integrated Active Magnetic Probe for High-Frequency Electromagnetic Emisshionsh, Proc. The 4th Int. conf. on Global Research and Education, vol.1, pp115-121, Wuppertal, Sep. 2005.

31.     J. H. Park, M. Mase, S. Kawahito, Y. Wakamori, Y. Ohta, M. Sasaki, gA wide dynamic range image sensor with multiple exposure time signal synthesish, Proc. The 4th Int. conf. on Global Research and Education, vol.2, pp573-579, Wuppertal, Sep. 2005.

32.     S. Aoyama, S. Kawahito, T. Yasui, M. Yamaguchi, gAn SOI-CMOS Active Magnetic Probe for High-Frequency Electromagnetic Emissionsh, 2005 Int. Conf. on Solid State Devices and Materials, D-5-1, pp.304-305, Kobe, Sep. 2005.

33.     M. Furuta, S. Kawahito, T. Inoue, Y. Nishikawa, gA cyclic A/D converter with pixel noise and column-wise offset cancellation for CMOS image sensorsh, Proc. European Solid-State Circuits Conf. pp.411-414, Grenoble, Sep.2005.

34.     M. Sasaki, M. Mase, S.Kawahito, Y. Wakamori, gA Wide Dynamic Range CMOS Image Sensor with Multiple Exposure Time Signals and Column-Parallel Cyclic A/D Convertersh, Proc. IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors, pp.218-221, Karuizawa, June 2005.

35.     N. Kawai, S. Kawahito, M. Sasaki, gA Low-Noise Signal Readout Circuit Using Double-Stage Noise Canceling Architectureh, Proc. IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors, pp.27-30, Karuizawa, June 2005.

36.     M. Sakakibara, S. Kawahito, gA Column Parallel Double Integration Type A/D Converter for CMOS Image Sensorsh, Proc. ITC-CSCC, pp. 189-190, Jeju, 2005.

37.     Y. Nishikawa, S. Kawahito, gA parallel image compression system for high-speed camerash, Proc. IEEE Int. Workshop on Imaging System and Techniques, pp.53-57, Niagara Falls, May. 2005.

38.     J. H. Park, gA New Active Pixel Structure with Pinned Photodiode for Wide Dynamic Range Image Sensorh, Proc. The 1st Int. Symp. on Nanovision Science, pp.99-100, Feb. 2005.

39.     S. Aoyama, gAn Integrated Active Magnetic Probe for High-Frequency Electromagnetic Emissionsh, Proc. The 1st Int. Symp. on Nanovision Science, pp.97-98, Hamamatsu, Feb. 2005.

40.     K. Honda, gA Power optimization Method for High-resolution Pipeline ADCfsh, Proc. The 1st Int. Symp. on Nanovision Science, pp.95-96, Hamamatsu, Feb. 2005.

41.     M. Sakakibara, gA Low-noise High-resolution Column Parallel ADC with Double Integration for CMOS Image Sensorsh, Proc. The 1st Int. Symp. on Nanovision Science, pp.93-94, Hamamatsu, Feb. 2005.

42.     N. Kawai, gA Low-noise Image Signal Readout Technique and Its Noise Analysish, Proc. The 1st Int. Symp. on Nanovision Science, pp91-92, Hamamatsu, Feb. 2005.

43.     S. Kawahito, gPhoton Count Imaging Using a CMOS Technologyh, Proc. The 1st Int. Symp. on Nanovision Science, pp.130-134, Hamamatsu, Feb 2005.

44.     M. Mase, S. Kawahito, M. Sasaki, Y. Wakamori,gA 19.5b Dynamic Range CMOS Image Sensor with 12b column-Parallel Cyclic A/D Convertersh, Dig. Tech. Papers, IEEE Int. Solid-State Circuits Conf. pp. 350-351, San Francisco, Feb. 2005.

45.     S. Kawahito, T. Takahashi, Y. Nagano, K. Nakano, gA CMOS Rotary Encoder System Based on Magnetic Pattern Analysis with a Resolution of 10b per Rotationh, Dig. Tech. Papers, IEEE Int. Solid-State Circuits Conf., pp. 240-241 San Francisco, Feb. 2005.

46.     Y. Nishikawa, S. Kawahito, T. Inoue, gParallel image compression circuits for high-speed camerash, Proc. SPIE Electronic Imaging, vol.5671, no.14, San Jose, Jan.2005.

47.     S. Itoh, S. Kawahito, T. Akahori, S. Terakawa, gDesign and implementation of a one-chip wireless camera device for a capsuleh, Proc. SPIE Electronic Imaging, vol.5671, no.12, San Jose, Jan.2005.