| IMAGERLABS INC. Patent applications |
| Patent application number | Title | Published |
|---|
| 20110163224 | ADJUSTABLE CMOS SENSOR ARRAY - A column buffer for use with a pixel cell array includes an amplifier coupled to three read-out circuits in parallel providing a signal corresponding to accumulated photon-generated charge in a pixel cell plus noise, a reset level plus noise, and a pedestal level, respectively. These three signals are used to generate an ultra-low noise signal D | 07-07-2011 |
| 20110155892 | ADJUSTABLE CMOS SENSOR ARRAY - In one aspect, the present invention provides an active pixel sensor array with optimized matching between pixels and strength and frequency of incoming signals such as photons absorbed. The array comprises multiple pixels of individual geometry corresponds to spatial location. Each pixel full-well is adjustable via modifiable pixel conversion gain while maintaining pixel linearity. Furthermore each pixel internally stores multiple of extremely high frequency samples. Variable pixel geometry per row is very advantageous for Echelle spectrograph, where pixel heights are aligned with the spectrograph “order separator” where the resolution changes. In combination with variable geometry, externally adjustable full-well provides for superior spectral line separation in spectroscopy applications. In one embodiment multiple time windows with intermittent resets are stored within each pixel. This feature allows for the detection of extreme high frequency consecutive events without saturation such as may be the case with LIBS (Laser Induced Breakdown Spectroscopy). | 06-30-2011 |
| 20100258847 | Charge Coupled Device With High Quantum Efficiency - A six-phase charge coupled device (CCD) pixel includes a pixel pair, with each pixel having two adjacent control gates overlying corresponding variable potential wells, where voltages applied to the control gates enable charge to be accumulated into and transferred out of the wells. A clear window region overlies a fixed potential gradient region, decreasing in potential away from the control gates. This region enables a wide band of photons to be sensed by the photosensitive silicon of the CCD. The decreasing potential levels facilitate high charge transfer efficiency (i.e., high CTE) from pixel to pixel via the control or transfer gates. By applying particular voltages to the control gates, charge can be quickly and efficiently transferred between pixels. In addition, the window provides a self aligned mask for the implantation steps and thus prevents the formation of pockets (or wells) due to misalignments that decrease the charge transfer efficiency and causes non-uniformity problems as associated with prior art. Furthermore the window provides a flat region that can be covered with an anti-reflective (AR) coating layer, thus further increasing the quantum efficiency. | 10-14-2010 |
| 20080218620 | ULTRA LOW NOISE CMOS IMAGER - A column buffer for use with a pixel cell array includes an amplifier coupled to three read-out circuits in parallel providing a signal corresponding to accumulated photon-generated charge in a pixel cell plus noise, a reset level plus noise, and a pedestal level, respectively. These three signals are used to generate an ultra-low noise signal D | 09-11-2008 |
