Patent application number | Description | Published |
20100022064 | HIGH VOLTAGE SENSOR DEVICE AND METHOD THEREFOR - In one embodiment, a high voltage element is formed overlying a doped semiconductor region that can be depleted during the operation of the high voltage element includes a conductor overlying a space in a resistor. | 01-28-2010 |
20100124793 | HIGH VOLTAGE SENSOR DEVICE AND METHOD THEREFOR - In one embodiment, a high voltage element is formed overlying a doped semiconductor region that can be depleted during the operation of the high voltage element includes a conductor overlying a space in a resistor. | 05-20-2010 |
20100194465 | TEMPERATURE COMPENSATED CURRENT SOURCE AND METHOD THEREFOR - In one embodiment, a temperature compensated current source includes a depletion mode transistor coupled in series with an active semiconductor device that adjust the depletion mode transistor to minimize variations in the current due to temperature changes. | 08-05-2010 |
20100304511 | METHOD OF SENSING A HIGH VOLTAGE - In one embodiment, a high voltage element is formed overlying a doped semiconductor region that can be depleted during the operation of the high voltage element includes a conductor overlying a space in a resistor. | 12-02-2010 |
20120126719 | LED DRIVER CIRCUIT AND METHOD - An LED driver circuit and a method for driving the LED driver circuit. In accordance with an embodiment the LED driver circuit includes a voltage follower circuit and a calibration circuit coupled to the voltage follower circuit. First and second currents may be injected into the node and a current is sunk from the node. In accordance with another embodiment, the LED driver circuit asserts a non-zero voltage across the light emitting diode in a first phase of a drive cycle and asserts a fixed non-zero current in the light emitting diode in a second phase of the drive cycle. | 05-24-2012 |
20120126765 | CIRCUIT AND SYSTEM WITH SOFT-START FUNCTIONALITY - A circuit includes a first control output adapted to couple to a control terminal of a first transistor and a second control output adapted to couple to a control terminal of a second transistor. The circuit further includes a feedback input for receiving a signal and a control circuit. The control circuit is configured to independently control first and second on-times of control signals applied to the first and second control outputs, respectively, in response to receiving the signal to limit a current at an output node. | 05-24-2012 |
20120292732 | SEMICONDUCTOR DIODE AND METHOD OF MANUFACTURE | 11-22-2012 |
20130286710 | ONE-TIME PROGRAMMABLE MEMORY, INTEGRATED CIRCUIT INCLUDING SAME, AND METHOD THEREFOR - A one-time programmable memory includes a first one-time programmable memory cell including a fuse core having an input terminal for receiving a trim signal, an output terminal for providing a sense signal, and a fuse. The fuse core conducts current through the fuse in response to the trim signal. The one-time programmable memory cell also includes a sense circuit having an input terminal coupled to the output terminal of the fuse core, and an output terminal for providing a termination signal, and a logic circuit having a first input terminal for receiving a program enable signal, a second input terminal for receiving a data signal, a third input terminal coupled to the output terminal of the sense circuit for receiving the termination signal, and an output terminal coupled to the input terminal of the fuse core for providing the trim signal. | 10-31-2013 |
20130288449 | SEMICONDUCTOR DIODE AND METHOD OF MANUFACTURE | 10-31-2013 |
20140319644 | SEMICONDUCTOR DIODE AND METHOD OF MANUFACTURE | 10-30-2014 |