Patent application number | Description | Published |
20100039544 | IMAGING APPARATUS AND METHOD - In recent years, the performance of CMOS and CCD image sensors has dramatically improved, and to utilize the improved performance of these sensors, processing circuitry is provided here. This processing circuitry employs a adjustable gain that varies depending on the intensity of the signal from the image sensor so as to reduce noise, reduce area used, and reduce power consumption. | 02-18-2010 |
20100053392 | SOLID-STATE IMAGING DEVICE - The objective of this invention is to provide a solid-state imaging device and drive method with which sampling before the output values from pixels have reached a constant value can be avoided. The solid-state imaging device comprises photosensitive pixels arranged in the form of an array on a photosensitive surface and that have a photodiode that generates and stores a photocharge, a transfer transistor that transfers the photocharge, a floating diffusion to which the photocharge is transferred, and an amplifying transistor that converts the photocharge into a voltage signal and that amplifies the signal; photosensitive-surface output line connected to the source/drain of one of the amplifying transistors; power source connected thereto; sampling circuit connected to the photosensitive-surface output line; and current source regulating circuit, which regulates the current source current, connected to the current source so that, for sampling of the output values, the sampling circuit samples the output values after the output values have essentially become constant by comparing the output values immediately after they are output to the photosensitive-surface output lines. | 03-04-2010 |
20100259661 | AMPLIFYING CIRCUIT AND IMAGING DEVICE IMAGING DEVICE - This invention is an amplification circuit which limits increased power consumption and circuit surface area use and an imaging device including this amplification circuit. After initially discharging a capacitor, a signal charge corresponding to the difference between pixel signals is transferred repeatedly to the capacitor during an integration phase storing a signal charge proportional to the number of repetitions. The output of amplification is the signal charge accumulated in the capacitor. The gain is independent of the capacitor capacitance ratio. Thus the capacitor size can be smaller than conventional amplification circuits. | 10-14-2010 |
20100265373 | Solid State Image Pickup Device and Driving Method Therefor - The objective of this invention is to provide a solid-state image pickup device and its driving method that has a minimum circuit area and a wide dynamic range. The invention includes: a sensor array SA; a memory M; and a signal determination circuit DC. The sensor array has plural pixels in an array integrated on a semiconductor substrate. Each pixel sequentially outputs a first signal and a second signal. The memory M is connected to each column of pixels array and stores the first signal or the second signal. The signal determination circuit DC outputs signal (SS) such that it works as follows: when the first signal is input to memory M from the pixel, the signal determination circuit DC determines whether the first signal can be used. If so, the first signal is selected and the second signal is discarded and is not output to memory M. When the second signal is selected, the second signal is uploaded to memory M. | 10-21-2010 |
20100277623 | IMAGE PICKUP DEVICE - This invention is an image pickup device that realizes a wide dynamic range while minimizing circuit area using a pixel array that can pick up a low-sensitivity image and a high-sensitivity image. This invention obtains information (S | 11-04-2010 |
20120087199 | WAKE-UP CONTROL CIRCUIT FOR POWER-GATED IC - Embodiments of the present invention may provide a power-gating switch circuit. The power-gating switch circuit may comprise a first switch to connect a power supply to a virtual power supply and a second switch to connect the power supply to the virtual power supply in parallel to the first switch. The first switch may have a lower impedance than the second switch. When a wake up signal is received, the second switch may be turned on first and the first switch may be turned on after the virtual power supply reaches a predetermined voltage level. | 04-12-2012 |
20120313696 | ULTR-LOW-POWER POWER SUPPLY SYSTEM FOR AN IC CHIP - Embodiments of the present invention may provide a power supply system that uses a capacitive voltage divider to selectively monitor various power supplies on an IC chip. The power supply system may sample a monitored power supply to a capacitor and select certain capacitors from a set of switched capacitors to divide down the sampled voltage. The resulting voltage may be compared to a voltage reference. Using different selections of switched capacitors, the monitored power supply may be compared for different voltage levels. The ratio of the sampling capacitor to the selected capacitors may determine a voltage level the comparator will trigger. Further, based on the monitored power supply level, the power supply system may turn on a switch between an external power supply and a regulated digital power supply to charge the regulated digital power supply while a main LDO is turned off. | 12-13-2012 |