Patent application number | Description | Published |
20090094570 | Configurable Asic-based Sensing Circuit - A sensing circuit based on an application-specific integrated circuit (ASIC) sensor which includes a sensor portion and a processor portion which are integrated on an ASIC. The sensor portion outputs raw output in response to a stimulus. The output of the sensor portion is processed by the processor portion. The sensor portion and the processor portion together form at least two blocks which are configurable together by interconnections in two or more ways to produce differentiated sensing products. | 04-09-2009 |
20090101798 | Circuit Providing Low-Noise Readout - Systems, methods, and apparatuses that may be employed to reduce noise in an electronic circuit are described. Systems are provided that include a circuit, wherein the circuit is configured to provide an active reset technique and an active column sensor readout technique. Methods for reducing circuit noise are also provided. The methods include providing a circuit configured to perform an active reset technique and an active column sensor readout technique. The methods further provide that the active reset technique and the active column sensor readout technique are both performed by the circuit. An imaging apparatus is provided that includes an array of photo-sensitive pixels, wherein each of the pixels can include a circuit configured to provide an active reset technique and an active column sensor readout technique. The active reset technique and the active column sensor readout technique are executable on the circuit. | 04-23-2009 |
20090141931 | Digital Watermarking CMOS Sensor - The subject matter of this specification can be implemented in, among other things, an imaging system including an active pixel sensor imaging array configured to capture an image, said imaging array being in electronic communication with a watermark embedder. | 06-04-2009 |
20100026838 | OPTICAL PIXEL AND IMAGE SENSOR - A photosensitive pixel includes a photosensor and an externally loadable flag. The photosensor outputs a signal indicative of an intensity of incident light. The externally loadable flag indicates the pixel reset state, and is preferably stored in an in-pixel memory. Pixel reset logic resets the photosensor in accordance with the reset state and an externally applied reset signal. | 02-04-2010 |
20100145316 | DEVICE FOR DELIVERY OF A SUBSTANCE - A device for delivering a substance in situ in a body comprising at least one permeable expandable container having a first dimension and a second dimension and having contained therein the substance to be delivered; and at least one expandable particle comprising a swellable material contained within the container and capable of expanding when contacted with a fluid; whereby when the device is positioned in situ, bodily fluid permeates the container causing the at least one expandable particle contained therein to swell and the container to expand from the first dimension to the second dimension so that the device remains in situ for a period of time sufficient to achieve the desired delivery of the substance is provided. | 06-10-2010 |
20100215732 | INGESTIBLE IMPLEMENT FOR WEIGHT CONTROL - An orally administrable implement for expanding in a stomach of an animal, including a mammal, to fill a space in the stomach, is provided for weight control. The implement includes: a fluid-permeable expandable container having a first dimension and a second dimension; and a plurality of clusters comprising a swellable material contained within the container and capable of swelling when contacted with a fluid; whereby when the implement is ingested, the fluid in the stomach enters the container causing the clusters therein to swell and the container to expand from the first dimension to the second dimension. | 08-26-2010 |
20110082419 | BEZOAR-FORMING UNITS FOR WEIGHT CONTROL - Bezoar-forming units for forming at least one temporary bezoar in a gastrointestinal organ of an animal, including a mammal, to fill a space in the said organ, are provided for weight control. The units include biodegradable fiber-based configurations of various length and shape having a first dimension and a second dimension; whereby when the bezoar-forming units are located in the given gastrointestinal organ, at least one temporary, permeable bezoar is formed. | 04-07-2011 |
20140148840 | INGESTIBLE IMPLEMENT FOR WEIGHT CONTROL - An orally administrable implement for expanding in a stomach of an animal, including a mammal, to fill a space in the stomach, is provided for weight control. The implement includes: a fluid-permeable expandable container having a first dimension and a second dimension; and a plurality of clusters comprising a swellable material contained within the container and capable of swelling when contacted with a fluid; whereby when the implement is ingested, the fluid in the stomach enters the container causing the clusters therein to swell and the container to expand from the first dimension to the second dimension. | 05-29-2014 |
20140378764 | Self-stabilized encapsulated imaging system - Wireless capsule endoscope technology has been used to image portions of the gastrointestinal (GI) tract, particularly the small bowel. However in other GI organs, especially those having larger-lumens, the capsule may become destabilized and tumble, precluding meaningful interpretation of the acquired images. The present invention describes a method and apparatus for permitting capsule imaging of organs having larger-lumens without tumbling, and includes an outer shell surrounding the capsule that targets the colon, as an example. Once the colon has been reached, the shell breaks or dissolves, and allows expansion of expandable materials attached to each end of the capsule, thereby stabilizing the capsule in the targeted organ, while permitting it to be moved by peristalsis and/or other means for locating the capsule. Imagers and light emitting diodes (LEDs) are activated during the expansion process, and enable overlapping of images. The capsule is moved through the colon, taking images at chosen frame rates with data being wirelessly transmitted by means of an RF transmitter, and is eventually expelled from the body. | 12-25-2014 |