Patent application number | Description | Published |
20100308872 | Monolithic Low Impedance Dual Gate Current Sense MOSFET - A power switch includes a first power transistor having a first source electrode, a first gate electrode, and a first drain electrode, and a second power transistor having a second source electrode, a second gate electrode, and a second drain electrode. The power switch further includes a first pilot transistor has a third source electrode, a third gate electrode, and a third drain electrode. The first, second and third drain electrodes are electrically connected together. The first and second source electrodes are electrically connected together. The first and third gate electrodes are electrically connected together and can be biased independently from the second gate electrode. The first power transistor is the same size as or smaller than the second power transistor and the first power transistor is larger than the first pilot transistor. The first power transistor, the second power transistor, and the first pilot transistor are monolithically integrated in an integrated circuit. | 12-09-2010 |
20120223745 | MONOLITHIC LOW IMPEDANCE DUAL GATE CURRENT SENSE MOSFET - A power switch includes a first power transistor having a first source electrode, a first gate electrode, and a first drain electrode, and a second power transistor having a second source electrode, a second gate electrode, and a second drain electrode. The power switch further includes a first pilot transistor which has a third source electrode, a third gate electrode, and a third drain electrode. The first, second and third drain electrodes are electrically connected together. The first and second source electrodes are electrically connected together. The first and third gate electrodes are electrically connected together and can be biased independently from the second gate electrode. The first power transistor is the same size as or smaller than the second power transistor and the first power transistor is larger than the first pilot transistor. | 09-06-2012 |
20140117751 | Power Switching System with Control Signal Driven Supply Voltage - Generally, this disclosure provides systems and methods for a power switching system with a switching control circuit powered by a supply voltage derived from an input control signal. The system may include a power switch configured to electrically couple a device between a battery voltage and a ground, the device to be powered by the battery when the power switch is closed; a control circuit coupled to a gate port of the power switch, the control circuit configured to open and close the power switch by adjusting a gate driving signal provided to the gate port in response to a switching control signal provided to the control circuit; and a voltage conditioning circuit configured to generate a supply voltage based on the switching control signal, such that the supply voltage powers the control circuit. | 05-01-2014 |
20140232454 | POWER SUPPLY PROTECTION SYSTEM - Devices and methods provide a protection device for maintaining a steady output on a gate driver terminal despite fluctuations in a power supply, the protection device including low voltage detection circuitry configured to monitor the power supply and detect fluctuations in the power supply; and gate isolation circuitry configured to isolate the gate driver terminal from the power supply if the low voltage detection circuitry detects a fluctuation in the power supply, wherein a voltage of the gate driver terminal is maintained within a preselected range when the gate is isolated. | 08-21-2014 |
20150041849 | IGNITION CONTROL SHORT CIRCUIT PROTECTION - In a general aspect, an apparatus can include an insulated-gate bipolar transistor device (IGBT), a gate driver circuit (driver) coupled with a gate terminal of the IGBT and a low-resistance switch device coupled between an emitter terminal of the IGBT and an electrical ground terminal, the low-resistance switch device being coupled with the electrical ground terminal via a resistor. The apparatus can also include a current sensing circuit coupled with the driver and a current sense signal line coupled with the current sensing circuit and a current sense node, the current sense node being disposed between the low-resistance switch device and the resistor. The apparatus can further include a control circuit configured, when the driver is off, to detect, based on a voltage on the current sense node, when a current through the resistor is above a threshold value and disable the IGBT in response to the detection. | 02-12-2015 |
Patent application number | Description | Published |
20140323882 | SYSTEMS, METHODS, AND INTERFACES FOR IDENTIFYING OPTIMAL ELECTRICAL VECTORS - Systems, methods, and graphical user interfaces are described herein for identification of optimal electrical vectors for use in assisting a user in implantation of implantable electrodes to be used in cardiac therapy. Cardiac improvement information may be generated for each pacing configuration, and one or more pacing configuration may be selected based on the cardiac improvement information. Optimal electrical vectors using the selected pacing configurations may be identified using longevity information generated for each electrical vector. Electrodes may then be implanted for use in cardiac therapy to form the optimal electrical vector. | 10-30-2014 |
20140323892 | SYSTEMS, METHODS, AND INTERFACES FOR IDENTIFYING EFFECTIVE ELECTRODES - Systems, methods, and interfaces are described herein for identification of effective electrodes to be used in sensing and/or therapy. Two or more portions of a signal monitored using an electrode may be compared to determine whether the electrode is effective. The two or more portions may correspond to the same portion or window of a cardiac cycle. Further, signals from a first electrode and from a second electrode located proximate the first electrode may be compared to determine whether one or both of the electrodes are effective. | 10-30-2014 |
20140323893 | SYSTEMS, METHODS, AND INTERFACES FOR IDENTIFYING EFFECTIVE ELECTRODES - Systems, methods, and interfaces are described herein for identification of effective electrodes to be used in sensing and/or therapy. Two or more portions of a signal monitored using an electrode may be compared to determine whether the electrode is effective. The two or more portions may correspond to the same portion or window of a cardiac cycle. Further, signals from a first electrode and from a second electrode located proximate the first electrode may be compared to determine whether one or both of the electrodes are effective. | 10-30-2014 |
Patent application number | Description | Published |
20130225511 | IBAT INHIBITORS FOR THE TREATMENT OF LIVER DISEASES - The present invention regards specific IBAT inhibitors useful in the prophylaxis and/or treatment of a liver disease. It also relates to compositions comprising these IBAT inhibitors, a method for treatment of the disorders and a kit comprising the substances or the compositions. | 08-29-2013 |
20130236541 | PHARMACEUTICAL COMBINATION COMPRISING AN IBAT INHIBITOR AND A BILE ACID BINDER - The present invention relates to a combination comprising a substance with inhibiting effect on the ileal bile acid transport system (I BAT) and at least one other active substance selected from an IBAT inhibitor; an enteroendocrine peptide or enhancer thereof; a dipeptidyl peptidase-IV inhibitor; a biguanidine; an incretin mimetic; a thiazolidinone; a PPAR agonist; a HMG Co-A reductase inhibitor; a bile acid binder; and a TGR5 receptor modulator; wherein the IBAT inhibitor compound and the at least one other active substance are administered simultaneously, sequentially or separately. | 09-12-2013 |
20150031636 | IBAT INHIBITORS FOR THE TREATMENT OF LIVER DISEASES - The present invention regards specific IBAT inhibitors useful in the prophylaxis and/or treatment of a liver disease. It also relates to compositions comprising these IBAT inhibitors, a method for treatment of the disorders and a kit comprising the substances or the compositions. | 01-29-2015 |
20150031637 | PHARMACEUTICAL COMBINATION COMPRISING AN IBAT INHIBITOR AND A BILE ACID BINDER - The present invention relates to a combination comprising a substance with inhibiting effect on the ileal bile acid transport system (IBAT) and at least one other active substance selected from an IBAT inhibitor; an enteroendocrine peptide or enhancer thereof; a dipeptidyl peptidase-IV inhibitor; a biguanidine; an incretin mimetic; a thiazolidinone; a PPAR agonist; a HMG Co-A reductase inhibitor; a bile acid binder; and a TGR5 receptor modulator; wherein the IBAT inhibitor compound and the at least one other active substance are administered simultaneously, sequentially or separately. | 01-29-2015 |