Patent application number | Description | Published |
20090122148 | DISJOINT LIGHT SENSING ARRANGEMENTS AND METHODS THEREFOR - Imaging is carried out using multiple views (e.g., from a single monolithic device) to generate an image. According to an example embodiment, a scene is imaged using disjoint sensors beyond a designated focal plane to obtain multiple views of common points in the focal plane. For the common points, the multiple views are processed to compute a depth of field, and the computed depth of field to generate an image. | 05-14-2009 |
20130214795 | Chemical Sensor Array with Leakage Compensation Circuit - To reduce the pixel size to the smallest dimensions and simplest form of operation, a pixel may be formed by using only one ion sensitive field-effect transistor (ISFET). This one-transistor, or 1T, pixel can provide gain by converting the drain current to voltage in the column. Configurable pixels can be created to allow both common source read out as well as source follower read out. A plurality of the 1T pixels may form an array, having a number of rows and a number of columns and a column readout circuit in each column. | 08-22-2013 |
20130228829 | TWO-TRANSISTOR PIXEL ARRAY - A two-transistor (2T) pixel comprises a chemically-sensitive transistor (ChemFET) and a selection device which is a non-chemically sensitive transistor. A plurality of the 2T pixels may form an array, having a number of rows and a number of columns. The ChemFET can be configured in a source follower or common source readout mode. Both the ChemFET and the non-chemically sensitive transistor can be NMOS or PMOS device. | 09-05-2013 |
20140193938 | CHEMICALLY SENSITIVE SENSOR WITH LIGHTLY DOPED DRAINS - A chemically sensitive sensor with a lightly doped region that affects an overlap capacitance between a gate and an electrode of the chemical sensitive sensor. The lightly doped region extends beneath and adjacent to a gate region of the chemical sensitive sensor. Modifying the gain of the chemically sensitive sensor is achieved by manipulating the lightly doped region under the electrodes. | 07-10-2014 |
20140219062 | CMOS ULTRASONIC TRANSDUCERS AND RELATED APPARATUS AND METHODS - CMOS Ultrasonic Transducers and processes for making such devices are described. The processes may include forming cavities on a first wafer and bonding the first wafer to a second wafer. The second wafer may be processed to form a membrane for the cavities. Electrical access to the cavities may be provided. | 08-07-2014 |
20140264322 | CHEMICAL SENSOR WITH PROTRUDED SENSOR SURFACE - In one implementation, a chemical sensor is described. The chemical sensor includes a chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A conductive element protrudes from the upper surface of the floating gate conductor into an opening. A dielectric material defines a reaction region. The reaction region overlies and extends below an upper surface of the conductive element. | 09-18-2014 |
20140264464 | CHEMICAL SENSOR WITH SIDEWALL SPACER SENSOR SURFACE - In one implementation, a chemical sensor is described. The chemical sensor includes chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A dielectric material defines an opening extending to the upper surface of the floating gate conductor. A conductive sidewall spacer is on a sidewall of the opening and contacts the upper surface of the floating gate conductor. | 09-18-2014 |
20140264466 | CHEMICAL SENSOR WITH PROTRUDED SENSOR SURFACE - In one implementation, a chemical sensor is described. The chemical sensor includes a chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A dielectric material defines an opening extending to the upper surface of the floating gate conductor. A conductive element on a sidewall of the opening and extending over an upper surface of the dielectric material. | 09-18-2014 |
20140264469 | CHEMICAL SENSOR WITH SIDEWALL SENSOR SURFACE - In one embodiment, a chemical sensor is described. The chemical sensor includes a chemically-sensitive field effect transistor including a floating gate conductor. A material defines an opening overlying the floating gate conductor. The material comprises a conductive element having an inner surface defining a lower portion of a sidewall of the opening. A dielectric is on the conductive element and has an inner surface defining an upper portion of the sidewall. | 09-18-2014 |
20140264470 | CHEMICAL SENSORS WITH CONSISTENT SENSOR SURFACE AREAS - In one embodiment, a chemical sensor is described. The chemical sensor includes a chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A material defines an opening extending to the upper surface of the floating gate conductor. The material comprises a first dielectric underlying a second dielectric. A conductive element contacts the upper surface of the floating gate conductor and extends a distance along a sidewall of the opening, the distance defined by a thickness of the first dielectric. | 09-18-2014 |
20140264471 | CHEMICAL DEVICE WITH THIN CONDUCTIVE ELEMENT - In one implementation, a chemical device is described. The sensor includes a chemically-sensitive field effect transistor including a floating gate structure having a plurality of floating gate conductors electrically coupled to one another. A conductive element overlies and is in communication with an uppermost floating gate conductor in the plurality of floating gate conductors. The conductive element is wider and thinner than the uppermost floating gate conductor. A dielectric material defines an opening extending to an upper surface of the conductive element. | 09-18-2014 |
20140264472 | CHEMICAL SENSOR WITH CONSISTENT SENSOR SURFACE AREAS - In one embodiment, a chemical sensor is described. The chemical sensor includes a chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A material defines an opening extending to the upper surface of the floating gate conductor, the material comprising a first dielectric underlying a second dielectric. A conductive element contacts the upper surface of the floating gate conductor and extending a distance along a sidewall of the opening. | 09-18-2014 |
20140264660 | COMPLEMENTARY METAL OXIDE SEMICONDUCTOR (CMOS) ULTRASONIC TRANSDUCERS AND METHODS FOR FORMING THE SAME - Complementary metal oxide semiconductor (CMOS) ultrasonic transducers (CUTs) and methods for forming CUTs are described. The CUTs may include monolithically integrated ultrasonic transducers and integrated circuits for operating in connection with the transducers. The CUTs may be used in ultrasound devices such as ultrasound imaging devices and/or high intensity focused ultrasound (HIFU) devices. | 09-18-2014 |
20140273324 | METHODS FOR MANUFACTURING CHEMICAL SENSORS WITH EXTENDED SENSOR SURFACES - In one implementation, a method for manufacturing a chemical sensor is described. The method includes forming a chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A dielectric material is formed defining an opening extending to the upper surface of the floating gate conductor. A conductive material is formed within the opening and on an upper surface of the dielectric material. A fill material is formed on the conductive material. The fill material is used as a protect mask to remove the conductive material on the upper surface of the dielectric material. The fill material is then removed to expose remaining conductive material on a sidewall of the opening. | 09-18-2014 |
20140288428 | MONOLITHIC ULTRASONIC IMAGING DEVICES, SYSTEMS AND METHODS - To implement a single-chip ultrasonic imaging solution, on-chip signal processing may be employed in the receive signal path to reduce data bandwidth and a high-speed serial data module may be used to move data for all received channels off-chip as digital data stream. The digitization of received signals on-chip allows advanced digital signal processing to be performed on-chip, and thus permits the full integration of an entire ultrasonic imaging system on a single semiconductor substrate. Various novel waveform generation techniques, transducer configuration and biasing methodologies, etc., are likewise disclosed. HIFU methods may additionally or alternatively be employed as a component of the “ultrasound-on-a-chip” solution disclosed herein. | 09-25-2014 |
20140364320 | Chemical Sensor Array Having Multiple Sensors Per Well - In one embodiment, a device is described. The device includes a material defining a reaction region. The device also includes a plurality of chemically-sensitive field effect transistors have a common floating gate in communication with the reaction region. The device also includes a circuit to obtain respective output signals from the chemically-sensitive field effect transistors indicating an analyte within the reaction region. | 12-11-2014 |
20140367750 | ION-SENSING CHARGE-ACCUMULATION CIRCUITS AND METHODS - An ion-sensitive circuit can include a charge accumulation device, to accumulate a plurality of charge packets as a function of an ion concentration of a fluid, and at least one control and readout transistor, to generate an output signal as a function of the accumulated plurality of charge packets, the output signal representing the ion concentration of the solution. The charge accumulation device can include a first charge control electrode above a first electrode semiconductor region, an electrically floating gate structure above a gate semiconductor region and below an ion-sensitive passivation surface, a second charge control electrode above a second electrode semiconductor region, and a drain diffusion region. The first control electrode can control entry of charge into a gate semiconductor region in response to a first control signal. The ion-sensitive passivation surface can be configured to receive the fluid. The second charge control electrode can control transmission of the plurality of charge packets out of the gate semiconductor region and into the drain diffusion region in response to a second control signal. The drain diffusion region can receive the plurality of charge packets from the gate semiconductor region via the second electrode semiconductor region. | 12-18-2014 |
20140368250 | METHOD AND SYSTEM FOR DELTA DOUBLE SAMPLING - An array of sensors arranged in matched pairs of transistors with an output formed on a first transistor and a sensor formed on the second transistor of the matched pair. The matched pairs are arranged such that the second transistor in the matched pair is read through the output of the first transistor in the matched pair. The first transistor in the matched pair is forced into the saturation (active) region to prevent interference from the second transistor on the output of the first transistor. A sample is taken of the output. The first transistor is then placed into the linear region allowing the sensor formed on the second transistor to be read through the output of the first transistor. A sample is taken from the output of the sensor reading of the second transistor. A difference is formed of the two samples. | 12-18-2014 |
20150032002 | INTERCONNECTABLE ULTRASOUND TRANSDUCER PROBES AND RELATED METHODS AND APPARATUS - Ultrasound devices and methods are described, including a repeatable ultrasound transducer probe having ultrasonic transducers and corresponding circuitry. The repeatable ultrasound transducer probe may be used individually or coupled with other instances of the repeatable ultrasound transducer probe to create a desired ultrasound device. The ultrasound devices may optionally be connected to various types of external devices to provide additional processing and image rendering functionality. | 01-29-2015 |
20150064829 | CHEMICAL SENSOR WITH SIDEWALL SPACER SENSOR SURFACE - In one implementation, a chemical sensor is described. The chemical sensor includes chemically-sensitive field effect transistor including a floating gate conductor having an upper surface. A dielectric material defines an opening extending to the upper surface of the floating gate conductor. A conductive sidewall spacer is on a sidewall of the opening and contacts the upper surface of the floating gate conductor. | 03-05-2015 |
20150080724 | INTERCONNECTABLE ULTRASOUND TRANSDUCER PROBES AND RELATED METHODS AND APPARATUS - Ultrasound devices and methods are described, including a repeatable ultrasound transducer probe having ultrasonic transducers and corresponding circuitry. The repeatable ultrasound transducer probe may be used individually or coupled with other instances of the repeatable ultrasound transducer probe to create a desired ultrasound device. The ultrasound devices may optionally be connected to various types of external devices to provide additional processing and image rendering functionality. | 03-19-2015 |
20150084053 | COMPLEMENTARY METAL OXIDE SEMICONDUCTOR (CMOS) ULTRASONIC TRANSDUCERS AND METHODS FOR FORMING THE SAME - Complementary metal oxide semiconductor (CMOS) ultrasonic transducers (CUTs) and methods for forming CUTs are described. The CUTs may include monolithically integrated ultrasonic transducers and integrated circuits for operating in connection with the transducers. The CUTs may be used in ultrasound devices such as ultrasound imaging devices and/or high intensity focused ultrasound (HIFU) devices. | 03-26-2015 |
20150087977 | MONOLITHIC ULTRASONIC IMAGING DEVICES, SYSTEMS AND METHODS - To implement a single-chip ultrasonic imaging solution, on-chip signal processing may be employed in the receive signal path to reduce data bandwidth and a high-speed serial data module may be used to move data for all received channels off-chip as digital data stream. The digitization of received signals on-chip allows advanced digital signal processing to be performed on-chip, and thus permits the full integration of an entire ultrasonic imaging system on a single semiconductor substrate. Various novel waveform generation techniques, transducer configuration and biasing methodologies, etc., are likewise disclosed. HIFU methods may additionally or alternatively be employed as a component of the “ultrasound-on-a-chip” solution disclosed herein. | 03-26-2015 |