Patent application number | Description | Published |
20110006801 | Circuit Arrangement for Overtemperature Detection - A method and system is provided for retrieving information about operational data from a plurality of building systems and service and maintenance information for a plurality of building sites. A customer web portal is provided with a database for storing the operational data and the service information allowing users to more readily generate reports and obtain service related information for a plurality of sites without having to maintain separate database systems at remote locations. | 01-13-2011 |
20120008238 | Transistor Half-Bridge Control - A circuit for driving a transistor half bridge is disclosed that comprises a series circuit of a first and a second transistor both having intrinsic or external free-wheeling diodes coupled in parallel. The circuit for driving a transistor half bridge comprises: an over-current detection circuit that is configured to signal an over-current condition when a load current flowing through the first transistor exceeds a first threshold; a protection circuit that is coupled to the over-current detection circuit and that is configured to disable an activation of the first transistor in response to a detected over-current and to re-enable the activation of the first transistor after a first time interval has elapsed; an evaluation circuit that is coupled to the over-current detection circuit and that is configured to check whether a further over-current condition is detected within a second time interval that follows the first time interval. An active free-wheeling by activating the second transistor is disabled when a further over-current condition is detected within the second time interval, and an active free-wheeling by activating the second transistor is enabled during the first time interval when no further over-current condition is detected within the second time interval. | 01-12-2012 |
20120169377 | Circuit Arrangement including a Common Source Sense-FET - A current sensing circuit arrangement is disclosed. The circuit arrangement includes a load transistor for controlling a load current to a load being coupled to a drain electrode of the load transistor. A sense transistor is coupled to the load transistor. The sense transistor has a drain electrode that provides a measurement current representative of the load current. The load transistor and the sense transistor are field effect transistors having a common source electrode. A measurement circuit is configured to receive the measurement current from the sense transistor and to generate an output signal therefrom, the output signal being representative of the load current. | 07-05-2012 |
20120319740 | Method and Circuit for Driving an Electronic Switch - Disclosed is an electronic circuit. The electronic circuit includes a transistor having a control terminal to receive a drive signal, and a load path between a first and a second load terminal. A voltage protection circuit is coupled to the transistor, has a control input, is configured to assume one of an activated state and a deactivated state as an operation state dependent on a control signal received at the control input, and is configured to limit a voltage between the load terminals or between one of the load terminals and the control terminal. A control circuit is coupled to the control input of the voltage protection circuit and is configured to deactivate the voltage protection circuit dependent on at least one operation parameter of the transistor and when a voltage across the load path or a load current through the load path is other than zero. | 12-20-2012 |
20130032855 | Semiconductor Arrangement - A semiconductor arrangement includes a first and second controllable vertical n-channel semiconductor chip. Each of the controllable vertical n-channel semiconductor chips has a front side, a rear side opposite the front side, a front side main contact arranged on the front side, a rear side main contact arranged on the rear side, and a gate contact arranged on the front side for controlling an electric current between the front side main contact and the rear side main contact. The rear side contacts of the first and second semiconductor chips are electrically connected to one another. | 02-07-2013 |
20140015046 | Current Sense Transistor with Embedding of Sense Transistor Cells - A semiconductor device a field of transistor cells integrated in a semiconductor body. A number of the transistor cells forming a power transistor and at least one of the transistor cells forming a sense transistor. A first source electrode is arranged on the semiconductor body electrically connected to the transistor cell(s) of the sense transistor but electrically isolated from the transistor cells of the power transistor. A second source electrode is arranged on the semiconductor body and covers the transistor cells of both the power transistor and the sense transistor, and at least partially covering the first source electrode in such a manner that the second source electrode is electrically connected only to the transistor cells of the power transistor but electrically isolated from the transistor cells of the sense transistor. | 01-16-2014 |
20140015586 | Integrated Semiconductor Device and a Bridge Circuit with the Integrated Semiconductor Device - A bridge circuit is provided. The bridge circuit includes a first integrated semiconductor device having a high-side switch, a second integrated semiconductor device having a low-side switch electrically connected with the high-side switch, a first level-shifter electrically connected with the high-side switch and integrated in one of the first integrated semiconductor device and the second integrated semiconductor device, and a second level-shifter electrically connected with the low-side switch and integrated in one of the first integrated semiconductor device and the second integrated semiconductor device. Further, an integrated semiconductor device is provided. | 01-16-2014 |
20140209905 | Integrated Circuit, Semiconductor Device and Method of Manufacturing a Semiconductor Device - An integrated circuit including a semiconductor device has a power component including a plurality of trenches in a cell array, the plurality of trenches running in a first direction, and a sensor component integrated into the cell array of the power component and including a sensor cell having an area which is smaller than an area of the cell array of the power component. The integrated circuit further includes isolation trenches disposed between the sensor component and the power component, an insulating material being disposed in the isolation trenches. The isolation trenches run in a second direction that is different from the first direction. | 07-31-2014 |
20140334522 | Power Transistor With Integrated Temperature Sensor Element, Power Transistor Circuit, Method for Operating a Power Transistor, and Method for Operating a Power Transistor Circuit - A power transistor has a semiconductor body with a bottom side and top side spaced distant from the bottom side in a vertical direction. The semiconductor body includes a plurality of transistor cells, a source zone of a first conduction type, a body zone of a second conduction type, a drift zone of the first conduction type, a drain zone, and a temperature sensor diode having a pn-junction between an n-doped cathode zone and a p-doped anode zone. The power transistor also has a drain contact terminal on the top side, a source contact terminal on the bottom side, a gate contact terminal, and a temperature sense contact terminal on the top side. Depending on the first and second conduction types the anode or cathode zone is electrically connected to the source contact terminal and the other diode zone is electrically connected to the temperature sense contact terminal. | 11-13-2014 |