Patent application number | Description | Published |
20100079119 | SYSTEM AND METHOD FOR LIMITING CURRENT OSCILLATION - A system and method for limiting current oscillation in power supplies. A method for operating a power supply comprises entering a current limitation mode, setting a current limit for a current flowing through a power switch of the power supply, and in response to determining a current limit has changed from a high value to a low value or detecting an occurrence of a fault condition, setting the current limit to the low value, and locking the current limit so that the current limit does not change. The method further comprises providing a current to a load coupled to the power supply. | 04-01-2010 |
20100079193 | SEMICONDUCTOR SWITCH AND METHOD FOR OPERATING A SEMICONDUCTOR SWITCH - A semiconductor switch, is provided that comprises a semiconductor element having a control terminal and two load terminals forming switching contacts of the semiconductor switch, a temperature measuring device for measuring the temperatures of the semiconductor element at two measurement locations spaced apart from one another, and also a control circuit connected between the temperature measuring device and the control terminal of the semiconductor element and having a control input forming the control contact of the semiconductor element, wherein provision is made for: measuring the temperatures of the semiconductor element at two measurement locations spaced apart from one another; providing a signal representing the difference between the two temperatures; driving a driving current of specific intensity into the control terminal of the semiconductor element if a corresponding signal is present at the control input in order to control the semiconductor element in the conducting state between its load terminals; increasing the intensity of the driving current if the semiconductor element is controlled in the conducting state and the temperature difference exceeds a first limit value. | 04-01-2010 |
20100079197 | Method for Operating a Power Semiconductor Circuit and Power Semiconductor Circuit - In a method for operating a power semiconductor circuit a power semiconductor chip is provided which includes a power semiconductor switch with a first load terminal and with a second load terminal. Further, a first temperature sensor which is thermally coupled to the power semiconductor switch and a second temperature sensor are provided. The power semiconductor switch is switched OFF or kept switched OFF if the temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on the voltage drop across the power semiconductor switch between the first load terminal and the second load terminal. | 04-01-2010 |
20100194462 | Current Control Circuits - Circuit, system and method of current control circuits are disclosed. In one embodiment, a control circuit includes a first MOS transistor and a second MOS transistor. The first source/drains of the first and the second MOS transistors are coupled to an output of a power source. A second source/drain of the first MOS transistor is coupled to a first output node of the current control circuit. A second source/drain of the second MOS transistor is coupled to a second output node of the current control circuit. The control circuit further includes a means to block flow of current from the first output node of the current control circuit to the second output node of the current control circuit. | 08-05-2010 |
20110316606 | Power Switch Temperature Control Device and Method - An embodiment method for power switch temperature control comprises monitoring a power transistor for a delta-temperature fault, and monitoring the power transistor for an over-temperature fault. If a delta-temperature fault is detected, then the power transistor is commanded to turn off. If an over-temperature fault is detected, then the power transistor is commanded to turn off, and delta-temperature hysteresis cycling is disabled. | 12-29-2011 |
20120229193 | System and Method for Temperature Based Control of a Power Semiconductor Circuit - In a method for operating a power semiconductor circuit a power semiconductor chip is provided which includes a power semiconductor switch with a first load terminal and with a second load terminal. Further, a first temperature sensor which is thermally coupled to the power semiconductor switch and a second temperature sensor are provided. The power semiconductor switch is switched OFF or kept switched OFF if the temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on the voltage drop across the power semiconductor switch between the first load terminal and the second load terminal. | 09-13-2012 |
20130257515 | Method for Controlling a Semiconductor Component - A transistor monolithically integrated in a semiconductor body includes a first sub-transistor and a second sub-transistor that both include a first and second load contacts and a control contact for controlling an electric current through a load path. The first load contact of the first sub-transistor is electrically connected to the first load contact of the second sub-transistor and the second load contact of the first sub-transistor is electrically connected to the second load contact of the second sub-transistor. A control circuit is configured to cause the first sub-transistor to switch from a first state to a second state at a first point of time and to cause the second sub-transistor to switch from the first state to the second state at a second point of time subsequent to the first point of time. | 10-03-2013 |
20140091384 | Reverse Polarity Protection for n-Substrate High-Side Switches - A semiconductor device is disclosed. In accordance with a first aspect of the present invention the device includes a semiconductor chip having a substrate, a first supply terminal electrically coupled to the substrate to provide a first supply potential (V | 04-03-2014 |