Brian J. Gally
Qualcomm
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Publication
Featured researches published by Brian J. Gally.
SID Symposium Digest of Technical Papers | 2011
Brian J. Gally; Alan Lewis; Koorosh Aflatooni; William J. Cummings; Surya Prakash Ganti; Mark M. Todorovich; Robert van Lier
A 5.7″ color reflective display module based on bi-stable Interference Modulation Devices (IMODs) with a projective capacitive touchscreen is described. The operation of the module is outlined and the performance reported. The system level developments necessary to achieve the high reflectivity, color and video operation while maintaining low power consumption are discussed.
SID Symposium Digest of Technical Papers | 2008
Gang Xu; Jennifer Gille; Brian J. Gally; Ming-Hau Tung; Clarence Chui
A key issue for the optimization of subpixel color tiles for mobile displays is to maximize the image quality, often defined in terms of brightness or reflectance, and color saturation, while minimizing display power consumption. for the mirasol™ display based on MEMS technology, the RGBY quad is found to be a structure that achieves a balance between reflectance and color saturation. Simulation results based upon demonstration devices are presented with discussions about proper image quality metrics for mobile displays.
SID Symposium Digest of Technical Papers | 2006
Philip D. Floyd; David Heald; Brian W. Arbuckle; Alan Lewis; Manish Kothari; Brian J. Gally; Bill Cummings; Bangalore R. Natarajan; Lauren Palmateer; Jan Bos; Daniel Chang; Jedi Chiang; Denny Chu; Li-Ming Wang; Edmon Pao; Fritz Y F Su; Vincent Huang; Wen-Jian Lin; Wen-Chung Tang; Jia-Jiun Yeh; Chen-Chun Chan; Fang-Ann Shu; Yuh-Diing Ju
QUALCOMM has developed and transferred to manufacturing iMoD Displays, a MEMS-based reflective display technology. The iMoD array architecture allows for development at wafer scale, yet easily scales-up to enable fabrication on flat-panel display (FPD) lines. In this paper, we will describe the device operation, process flow and fabrication, technology transfer issues, and display performance.
SID Symposium Digest of Technical Papers | 2011
Russel Allyn Martin; Alan Lewis; Marc Mignard; Nao S. Chuei; Rob Van Lier; Alok Govil; Mark M. Todorovich; Koorosh Aflatooni; Brian J. Gally; Clarence Chui
A mirasol display uses optical interference based MEMS pixels with inherent hysteresis and is therefore passively addressable with a near zero power hold state. This paper describes methods of addressing such a display including a method providing low power and fast addressing. The correlation between pixel optical state and capacitance allows automated tuning and invisible adjustment of the drive voltages during operation. We further describe display drive circuit architecture showing the IC configuration for a mirasol display.
Archive | 2009
Wen-Jian Lin; Brian W. Arbuckle; Brian J. Gally; Philip D. Floyd; Lauren Palmateer
Archive | 2005
Brian J. Gally; William J. Cummings
Archive | 2005
Clarence Chui; William J. Cummings; Brian J. Gally
Archive | 2005
Brian J. Gally; William J. Cummings
Archive | 2008
Clarence Chui; William J. Cummings; Brian J. Gally; Lior Kogut; Ming-Hau Tung; Yeh-Jiun Tung; Chih-Wei Chiang; Denis Endisch
Archive | 2007
Jeffrey B. Sampsell; Brian J. Gally; Philip D. Floyd
