Patent application number | Description | Published |
20080224547 | Reverse voltage protected integrated circuit arrangement - An integrated circuit arrangement is disclosed which comprises a semiconductor body having a substrate and at least one substrate terminal, at least one semiconductor component integrated in the semiconductor body and being connected between a first supply terminal providing a first supply potential and a second supply terminal providing a second supply potential, and switching means adapted for connecting at least one of said substrate terminals to either the first or to the second supply terminal dependent on which supply terminal provides the lower supply potential. | 09-18-2008 |
20100090728 | Driver and Method for Driving a Device - Embodiments of the invention relate to drivers and methods for driving devices, comprising at least one functional unit at least one of which is adapted to deduce a device parameter of an electronic device from a terminal parameter of the electronic device. | 04-15-2010 |
20100118459 | System and Method for Protection Against Loss of Battery in Reverse Battery Protected Devices - A system and method for protecting a reverse battery protected device during loss of battery are disclosed. An embodiment method includes biasing a substrate of a substrate switch of the reverse battery protected device to a lowest potential selected between a battery voltage and ground when the battery voltage is less than a magnitude of a first substrate clamping voltage during reverse battery, clamping the substrate to the first substrate clamping voltage when the battery voltage is greater than the magnitude of the first substrate clamping voltage during reverse battery, and clamping the substrate to a second substrate clamping voltage during loss of battery, where a magnitude of the second substrate clamping voltage is less than the magnitude of the first substrate clamping voltage. | 05-13-2010 |
20100231132 | Sigma Delta Current Source and LED Driver - A circuit arrangement includes a first light emitting diode and a second light emitting diode emitting light of different colors arranged adjacent to each other for additive color mixing. A first and second controllable current sources are connected to the first and second light emitting diode, respectively, such that the load currents of the light emitting diodes depend on respective control signals received by the current sources. First and second sigma-delta modulators are connected to the first and second light emitting diodes, respectively, and provide bit-streams as control signals to the current sources. The mean value of each bit-stream corresponds to the value of an input signal of the respective sigma-delta modulator. | 09-16-2010 |
20110068689 | System and Method for Non-Linear Dimming of a Light Source - In one embodiment, a light dimming module is disclosed. The light dimming module has a dimming engine coupled to a digital input interface and an output interface. The dimming engine is configured to provide a N-segment piecewise linear exponential digital control signal, and the output interface is configured to control the intensity of a light source. | 03-24-2011 |
20120074947 | Failure Detection for Series of Electrical Loads - A device can be used for detecting failures in an illumination device having a plurality of light emitting diodes connected in series. A first circuit node, a second circuit node, and a third circuit node interface the illumination device such that a voltage supplying the plurality of light emitting diodes is applied between the first and the second circuit node and a first fraction of the supply voltage drop is provided between the third and the second circuit node. An evaluation unit is coupled to the first circuit node, the second circuit node, and the third circuit node and configured to assess whether a voltage present at the third circuit node is within a pre-defined range of tolerance about a nominal value that is defined as a second fraction of the supply voltage present between the first and the second circuit node. | 03-29-2012 |
20120194164 | Cuk Based Current Source - Disclosed is a Ćuk based current source, a control circuit for a Ćuk based current source, and a method for providing a current. | 08-02-2012 |
20120293078 | LED Driver Including Color Monitoring - A circuit provided for driving a multi-color LED assembly includes at least two LEDs operable to emit light of different color. The circuit includes a control and processing unit that is configured to select a source LED and a sensor LED from the LEDs of the multi-color LED assembly. A sensor unit is associated with the sensor LED and is configured to obtain a current measurement value representing the photo current provided by the sensor LED when receiving incident light emitted by the source LED. A LED driver unit is associated with the source LED and is configured to provide load current to the source LED in accordance with a corresponding input value. | 11-22-2012 |
20130049584 | System and Method for Non-Linear Dimming of a Light Source - In one embodiment, a light dimming module is disclosed. The light dimming module has a dimming engine coupled to a digital input interface and an output interface. The dimming engine is configured to provide a N-segment piecewise linear exponential digital control signal, and the output interface is configured to control the intensity of a light source. | 02-28-2013 |
20130049599 | Driver Circuit for Efficiently Driving a Large Number of LEDs - A circuit can be used for controlling a plurality of LEDs coupled in series. A switching converter operates as a current source coupled to the plurality of LEDs to provide a constant load current thereto. The switching converter includes an inductor coupled in series with the plurality of LEDs such that the same load current flows through the inductor and the plurality of LEDs. No substantial capacitance is coupled between the inductor and the plurality of LEDs. A floating driver circuit is coupled in parallel with each individual LED of the plurality of LEDs. The floating driver circuit is configured to fully or partially take over the load current thereby bypassing the respective LED in accordance with a respective modulated input signal to control the intensity of the light emitted by the LED. | 02-28-2013 |
20130076250 | LED Driver With Compensation of Thermally Induced Color Drift - A circuit arrangement includes a number of light emitting diodes emitting light of different colors arranged adjacent to each other for additive color mixing to provide a desired color. A temperature sensing circuit is configured to provide a temperature signal representing temperature(s) of the light emitting diodes. Current sources are configured to provide the light emitting diodes with respective load currents in accordance with corresponding control signals received by the current sources. First and second modulator units are configured to generate the control signals which are modulated such that a time average value of each control signal corresponds to the value of a corresponding input signal of the respective sigma-delta modulator. A calibration circuit is configured to provide the input signals dependent on a color signal defining the desired color and dependent on the temperature signal. | 03-28-2013 |
20140217901 | SPATIAL INTENSITY DISTRIBUTION CONTROLLED FLASH - This disclosure describes techniques for outputting light with a controlled spatial intensity distribution. According to some examples, this disclosure describes a device that includes at least one LED matrix that includes a plurality of LED elements. According to these examples, the device controls the LED elements of the LED matrix to output the light by causing at least a first LED element of the LED matrix to output light of a first intensity, and causing a second LED element of the LED matrix to output light of a second, different intensity. In some examples, the device controls the first at least one LED element to output light of the first intensity to illuminate a first object, and controls the second LED element to output light of the second intensity to illuminate a second object. The second object may have a different location than the first object. | 08-07-2014 |
20140292201 | Driver Circuit for Efficiently Driving a Large Number of LEDs - A circuit can be used for controlling a plurality of LEDs coupled in series. A switching converter operates as a current source coupled to the plurality of LEDs to provide a constant load current thereto. The switching converter includes an inductor coupled in series with the plurality of LEDs such that the same load current flows through the inductor and the plurality of LEDs. No substantial capacitance is coupled between the inductor and the plurality of LEDs. A floating driver circuit is coupled in parallel with each individual LED of the plurality of LEDs. The floating driver circuit is configured to fully or partially take over the load current thereby bypassing the respective LED in accordance with a respective modulated input signal to control the intensity of the light emitted by the LED. | 10-02-2014 |