Abstract: In one aspect, a software application for facilitating design of a register specification is provided. The application comprises an interface adapted to receive input from a user indicating information about at least one register in the register specification, the interface generating register information based on the received input, a translator coupled to the interface to receive the register information and adapted to convert the register information to an internal representation, and at least one filter adapted to transform the internal representation into at least one respective output format.
Abstract: Apparatus and methods are disclosed, such as those involving a low noise amplifier. One such apparatus includes a low noise amplifier circuit configured to receive a signal at an input node and to output an amplified signal at an output node. The low noise amplifier circuit includes a first transistor of a first polarity; and a second transistor of a second polarity complementary to the first polarity. The first and second transistors are connected in series between first and second supply voltage nodes via the output node. The circuit further includes a third transistor cascoded with one of the first transistor or the second transistor, but does not include a transistor cascoded with the other transistor. This configuration allows the low noise amplifier circuit to provide an increased high-frequency gain and linearity while having improved high-frequency system noise figure in, for example, deep submicron CMOS technology.
Type:
Grant
Filed:
May 18, 2010
Date of Patent:
February 21, 2012
Assignee:
Analog Devices, Inc.
Inventors:
Antonio Montalvo, David McLaurin, Carl Grace
Abstract: An integrated circuit allows for the correction of distortion at an input of a sampling network. The integrated circuit contains a first bootstrap circuit to drive a sampling network transistor and a second bootstrap circuit to separate the back-gate terminal of the transistor from a voltage input by a resistance inserted in series. The presence of the inserted resistance counteracts the effect of the nonlinear back-gate capacitance on the distortion at the input.
Abstract: A microphone has a movable diaphragm having a rest position, a stationary portion, and a set of springs movably coupling the diaphragm and the stationary portion. The diaphragm and stationary portion are spaced a first distance when the diaphragm is in the rest position. When not in the rest position, however, the diaphragm and stationary portion are capable of being spaced a second distance, which is greater than the first distance. Despite the change in distance, the diaphragm still is capable of returning the space from the second distance to the first distance when the diaphragm returns to the rest position.
Type:
Grant
Filed:
January 17, 2008
Date of Patent:
February 7, 2012
Assignee:
Analog Devices, Inc.
Inventors:
Xin Zhang, Michael W. Judy, Kieran P. Harney, Jason W. Weigold
Abstract: A compound video cable has a drive interface, a receive interface with a differential-to-single ended converter, and a differential mode data wired transmission medium connected to the drive interface and the receive interface. The differential-to-single ended converter is configured to convert differential mode signals into single ended signals.
Abstract: A bipolar transistor, comprising a collector, a base and an emitter, in which the collector comprises a relatively heavily doped region, and a relatively lightly doped region adjacent the base, and in which the relatively heavily doped region is substantially omitted from an intrinsic region of the transistor.
Type:
Application
Filed:
October 6, 2011
Publication date:
February 2, 2012
Applicant:
Analog Devices, Inc.
Inventors:
Bernard Patrick Stenson, Andrew David Bain, Derek Frederick Bowers, Paul Malachy Daly, Anne Maria Deignan, Michael Thomas Dunbar, Patrick Martin McGuiness, William Allan Lane
Abstract: Apparatus and methods are disclosed related to low-voltage radio transmitters with high spectral purity. One such apparatus includes a baseband path with a predistortion stage, a programmable filter, and an upconverter core. In an embodiment, the programmable filter is placed between the predistortion stage and the upconverter core. In an embodiment, the programmable filter is configured by a controller to reject out-of-band noise introduced at the predistortion stage or earlier.
Abstract: A storage device includes a storage array having a group of storage elements. Each storage element can written to a discrete set of physical states. A read circuit selects one or more storage elements and generates, for each selected storage element, an analog signal representative of the physical state of the selected storage element. A signal processing circuit processes the analog signal to generate a plurality of outputs, with each output representing a degree of an association of the selected storage element with a different subset of one or more of the discrete set of physical states.
Type:
Grant
Filed:
August 6, 2009
Date of Patent:
January 31, 2012
Assignee:
Analog Devices, Inc.
Inventors:
Benjamin Vigoda, Eric Nestler, Jeffrey Bernstein, David Reynolds, Alexander Alexeyev, Jeffrey Venuti, William Bradley, Vladimir Zlatkovic
Abstract: The present disclosure describes a variable gain transconductor having gain and/or linearity performance that are selectively controllable in operation. In one embodiment the gain and/or linearity performance are selectively controllable in response to the strength of an input signal, such as an incoming radio frequency (RF) signal to a radio receiver. In one embodiment, gain and/or linearity performance of the variable gain transconductor are selectively controllable by selecting or deselecting a number of operating bias cells. In one embodiment, gain and/or linearity performance of the variable gain transconductor are selectively controllable by selecting or deselecting a number of operating transconductance (gm) cells. In one embodiment, gain and/or linearity performance of the variable gain transconductor are selectively controllable by selecting or deselecting a combination of operating bias cells and gm cells.
Abstract: Methods are disclosed related to attaching a die to a leadframe. One such method includes initially bonding a carrier pad which is pre-coated with a thermosetting first adhesive to the leadframe. The first adhesive can be raised to its thermosetting cure temperature by heating the leadframe to a temperature just above the thermosetting cure temperature of the first adhesive. A thermosetting second adhesive which is liquid at room temperature can be applied to a second major surface of the carrier pad, and the die can be placed on the second adhesive and aligned with the leadframe. The second adhesive can be raised to its thermosetting cure temperature to bond the die to the carrier pad, and in turn form a bonded assembly.
Abstract: In embodiments of the present invention, the problems of poor low-frequency response, slow speed, high cost and high power consumption in conventional voltage translators are addressed by processing high frequency and low frequency components of an input signal separately in two parallel stages without the use of large passive components or slow devices. At the output, the processed high frequency and low frequency components are seamlessly merged at a combining stage that maintains the integrity of the frequency response over the complete translator bandwidth.
Abstract: A processor includes a compute array comprising a first plurality of compute engines serially connected along a data flow path such that data flows between successive compute engines at successive times. The first plurality of compute engines includes an initial compute engine and a final compute engine. The data flow path includes a recirculation path connecting the final compute engine to the initial compute engine with no compute engine therebetween.
Abstract: An apparatus and a method for providing serialized HDMI data from an HDMI source to an HDMI sink. An HDMI transmitter may include inputs including control inputs, a deserializer, and a parser. The inputs may receive serialized HDMI data from an HDMI data source. A deserializer may deserialize the serialized HDMI data received on each of the respective inputs and outputting parallel data for each of the inputs. A parser may parse the parallel data output from the deserializer from each of the respective inputs into serial video data at a first clock rate and audio data at a second clock rate. Control inputs of the transmitter may be set to a first mode in which from the deserializer is caused to bypass the parser, and the parallel data is output from the HDMI transmitter.
Abstract: An apparatus and method of testing one-time-programmable memory limits current through a one-time-programmable memory to less than a threshold amplitude, where the memory has a fuse configured to blow upon receipt of a signal having the threshold amplitude. The method also uses blow signal assertion circuitry to attempt to assert a blow signal to the fuse. When not defective, blow signal assertion circuitry is configured to permit the low amplitude signal to flow through the fuse when the fuse is not blown and the blow signal is asserted. The method then produces an output signal having a success value if the limited current flows through the fuse, and a failure value if the current does not flow through the fuse.
Abstract: An embodiment of an amplifier circuit includes a plurality of amplifiers connected between input and output terminals to form at least partially parallel amplification paths between the terminals. A first plurality of the amplification paths include series-connected pluralities of the amplifiers and share a common first series-connected amplifier, and a second plurality of the amplification paths have different first amplifiers. Optionally, a third plurality of the amplification paths include series-connected pluralities of the amplifiers and share a common last series-connected amplifier, and a fourth plurality of the amplification paths have different last amplifiers. Alternatively, a first plurality of the amplification paths include series-connected pluralities of the amplifiers and share a common last series-connected amplifier, and a second plurality of the amplification paths have different last amplifiers.
Abstract: Disclosed are a method, device, and system for a microelectromechanical (MEM) device control system that can control the operation of a MEM device. The system can include a microelectromechanical device and a control circuit. The micromechanical device can include a moveable member coupled to an electrical terminal, a sensor, responsive to a movement of the moveable member, can output a sensor signal based on the movement of the moveable member, and an actuating electrode for receiving a control signal. The control circuit can be responsive to the signals output by the sensor and outputs the control signal to the actuating electrode.
Type:
Grant
Filed:
July 22, 2009
Date of Patent:
January 24, 2012
Assignee:
Analog Devices, Inc.
Inventors:
William Hunt, Denis Ellis, Padraig Fitzgerald, Colin Lyden
Abstract: A reference circuit configured to provide a reference value. The circuit includes a first circuit unit which is configured to provide a first electrical representation that varies linearly with temperature and has a crossover point where its polarity relative to zero changes from a negative value to a positive value. A second circuit unit is configured to provide a second electrical representation that varies linearly with temperature. The first and second circuit units are operable for facilitating combining the first and second electrical representations such that the combination has a value corresponding to the value of the second electrical representation at a reference temperature.
Abstract: The invention is directed to a protection circuit for protecting IC chips against ESD. An ESD protection circuit for an integrated circuit chip may comprise an isolated NMOS transistor, which may comprise an isolation region isolating a backgate from a substrate, and a first and second doped regions and a gate formed on the backgate. The ESD protection circuit may further comprise a first terminal to connect the isolation region to a first electrical node, and a second terminal to connect the second doped region to a second electrical node. The first electrical node may have a higher voltage level than the second electrical node, and the gate and backgate may be coupled to the second terminal.
Abstract: A MEMS microphone has an SOI wafer, a backplate formed in a portion of the SOI wafer, and a diaphragm adjacent to and movable relative to the backplate. The backplate has at least one trench that substantially circumscribes a central portion of the backplate.
Type:
Grant
Filed:
March 26, 2009
Date of Patent:
January 24, 2012
Assignee:
Analog Devices, Inc.
Inventors:
Xin Zhang, Thomas Chen, Sushil Bharatan, Aleksey S. Khenkin
Abstract: A MEMS sensor includes a substrate having a MEMS structure movably attached to the substrate, a cap attached to the substrate and encapsulating the MEMS structure, and an electrode formed on the cap that senses movement of the MEMS structure.