Patent application number | Description | Published |
20090184754 | Signal amplifier - A signal amplifier including a transformer with a primary winding and a secondary winding, an oscillator circuit driven by an input signal establishing in the primary winding an oscillating signal amplified by the secondary, and a rectifier circuit responsive to the secondary winding configured to convert the amplified oscillating signal to an amplified version of the input signal. | 07-23-2009 |
20090195082 | Solid state relay - A solid state relay includes: an oscillator circuit responsive to a control signal for generating an a.c. signal; an isolation transformer having a primary winding which forms a part of the tank circuit of the oscillator circuit and a secondary winding; a rectifier responsive to the a.c. signal from the oscillator circuit for providing a d.c. drive signal; and a switch circuit responsive to the drive signal to open and close the relay. | 08-06-2009 |
20100052630 | HIGH FREQUENCY POWER CONVERTER BASED ON TRANSFORMERS - A transformer-based power conversion system includes a primary coil is provided in a current path that includes a single energy switch. An oscillator is coupled to a control input of the energy switch. The design conserves switch-based losses as compared to prior designs because a single switch is provided in a current path occupied by the primary coil. The design also provides improved conversion efficiency because parasitic capacitances associated with the energy switch cooperate with charge transfers generated by the oscillator. | 03-04-2010 |
20100134139 | SIGNAL ISOLATORS USING MICRO-TRANSFORMERS - A logic signal isolator comprising a transformer having a primary winding and a secondary winding; a transmitter circuit which drives said primary winding in response to a received logic signal, such that in response to a first type of edge in the logic signal, a signal of a first predetermined type is supplied to the primary winding and in response to a second type of edge in the logic signal, a signal of a second predetermined type is supplied to said primary winding, the primary winding and the transmitter being referenced to a first ground; and the secondary winding being referenced to a second ground which is galvanically isolated from the first ground and said secondary winding supplying to a receiver circuit signals received in correspondence to the signals provided to the primary winding, the receiver reconstructing the received logic signal from the received signals. | 06-03-2010 |
20110175642 | SIGNAL ISOLATORS USING MICRO-TRANSFORMERS - A logic signal isolator comprising a transformer having a primary winding and a secondary winding; a transmitter circuit which drives said primary winding in response to a received logic signal, such that in response to a first type of edge in the logic signal, a signal of a first predetermined type is supplied to the primary winding and in response to a second type of edge in the logic signal, a signal of a second predetermined type is supplied to said primary winding, the primary winding and the transmitter being referenced to a first ground; and the secondary winding being referenced to a second ground which is galvanically isolated from the first ground and said secondary winding supplying to a receiver circuit signals received in correspondence to the signals provided to the primary winding, the receiver reconstructing the received logic signal from the received signals. | 07-21-2011 |
20120099345 | SOFT-START CONTROL SYSTEM AND METHOD FOR AN ISOLATED DC-DC CONVERTER WITH SECONDARY CONTROLLER - A DC-DC converter for supplying a gradually increasing voltage via a soft start circuit from a first powered domain to a second unpowered domain. The powered domain may be connected to a primary winding of a first transformer, and the unpowered domain may be connected to the secondary winding of the first transformer. The unpowered domain may respond to an applied voltage from the soft start circuit by supplying a feedback signal to the powered domain via a feedback circuit. The feedback signal indicating the power supplied from the secondary winding of the first transformer to the unpowered domain is satisfactory. | 04-26-2012 |
20120153964 | SYSTEM AND METHOD FOR DETECTING ISOLATION BARRIER BREAKDOWN - A circuit system includes a first circuit for receiving an input signal, a second circuit for interfacing with a user, a signal path connecting the first circuit to the second circuit, the signal path including a first isolator and a second isolator serially connected to the first isolator, and a capacitance detector that detects a change in a combined capacitance of the first and second isolators as an indicator of a breakdown of one of the first and second isolators. | 06-21-2012 |
20130027170 | ISOLATED POWER CONVERTER WITH MAGNETICS ON CHIP - An integrated circuit fabricated with a number of layer may include a substrate, a transformer having a first winding, a second winding and a magnetic core. The first winding and the second winding may surround the magnetic core. The transformer may be disposed above a first side of the substrate. A flux conductor may be disposed on a second surface of the substrate opposite to the first surface. | 01-31-2013 |
20130056847 | SMALL SIZE AND FULLY INTEGRATED POWER CONVERTER WITH MAGNETICS ON CHIP - An integrated circuit has a semiconductor die provided in a first IC layer and an inductor fabricated on a second IC layer. The inductor may have a winding and a magnetic core, which are oriented to conduct magnetic flux in a direction parallel to a surface of a semiconductor die. The semiconductor die may have active circuit components fabricated in a first layer of the die, provided under the inductor layer. The integrated circuit may include a flux conductor provided on a side of the die opposite the first layer. PCB connections to active elements on the semiconductor die may progress through the inductor layer as necessary. | 03-07-2013 |
20140061854 | SMALL SIZE AND FULLY INTEGRATED POWER CONVERTER WITH MAGNETICS ON CHIP - An integrated circuit has a semiconductor die provided in a first IC layer and an inductor fabricated on a second IC layer. The inductor may have a winding and a magnetic core, which are oriented to conduct magnetic flux in a direction parallel to a surface of a semiconductor die. The semiconductor die may have active circuit components fabricated in a first layer of the die, provided under the inductor layer. The integrated circuit may include a flux conductor provided on a side of the die opposite the first layer. PCB connections to active elements on the semiconductor die may progress through the inductor layer as necessary. | 03-06-2014 |
20140190542 | WAFER SCALE THERMOELECTRIC ENERGY HARVESTER - An integrated circuit may include a substrate and a dielectric layer formed over the substrate. A plurality of p-type thermoelectric elements and a plurality of n-type thermoelectric elements may be disposed within the dielectric layer. The p-type thermoelectric elements and the n-type thermoelectric elements may be connected in series while alternating between the p-type and the n-type thermoelectric elements. | 07-10-2014 |
20140190543 | WAFER SCALE THERMOELECTRIC ENERGY HARVESTER - An integrated circuit may include a substrate and a dielectric layer formed over the substrate. A plurality of p-type thermoelectric elements and a plurality of n-type thermoelectric elements may be disposed within the dielectric layer. The p-type thermoelectric elements and the n-type thermoelectric elements may be connected in series while alternating between the p-type and the n-type thermoelectric elements. | 07-10-2014 |
20140218153 | STEP UP OR STEP DOWN MICRO-TRANSFORMER WITH TIGHT MAGNETIC COUPLING - A system and method for manufacturing of a micro-transformer providing direct electrical isolation between a primary winding and a secondary winding while featuring tight magnetic coupling for a large possible step-up or step-down ratio. The micro-transformer may be implemented in an integrated circuit, and may include a magnetic core. A high stepping ratio, e.g. approximately 50 to 100, may be achieved by connecting multiple symmetric primary windings in parallel and multiple symmetric secondary windings in series, or vice-versa. A plurality of windings may be stacked vertically. The micro-transformer may be of particular utility in wireless sensor networks, thermal and vibrational energy harvesters, power converters, and signal isolators. | 08-07-2014 |
20140246066 | WAFER SCALE THERMOELECTRIC ENERGY HARVESTER - An integrated circuit may include a substrate and a dielectric layer formed over the substrate. A plurality of p-type thermoelectric elements and a plurality of n-type thermoelectric elements may be disposed within the dielectric layer. The p-type thermoelectric elements and the n-type thermoelectric elements may be connected in series while alternating between the p-type and the n-type thermoelectric elements. | 09-04-2014 |
20140262464 | LATERALLY COUPLED ISOLATOR DEVICES - A laterally coupled isolator includes a pair of isolator traces provided in a common dielectric layer and separated by a distance that defines the isolation strength of the system. Circuit designers can vary the lateral distance to tailor isolation rating to suit individual design needs. A second embodiment includes a semiconductor substrate, provided below the isolator traces that includes a communication circuit electrically coupled to one of the isolator devices | 09-18-2014 |
20140266373 | INTEGRATED DELAYED CLOCK FOR HIGH SPEED ISOLATED SPI COMMUNICATION - A system may include a plurality of isolators to transfer data signals across an isolation barrier, one of the signals including a clock signal. A delay circuit may be included to receive the clock signal and provide a delayed clock signal that lags the clock signal by an amount representing a delay across the isolation barrier. The delayed clock signal may be delayed by a round trip propagation delay over the isolation barrier. The delayed clock signal may be used as a reference to read data sent over the isolation barrier. | 09-18-2014 |
20140268917 | ISOLATED ERROR AMPLIFIER FOR ISOLATED POWER SUPPLIES - A power converter may include an amplifier that generates an error signal, a modulator that generates a modulated error signal, an isolator that generates an isolated modulated error signal, and a demodulator that generates an isolated error signal, which may be substantially proportional to the difference between the output signal and the reference signal, and a controller that controls a power stage to generate the output signal of the power converter. | 09-18-2014 |