Patent application number | Description | Published |
20140347110 | CAPACITIVE LOAD PLL WITH CALIBRATION LOOP - A circuit includes a capacitive-load voltage controlled oscillator having an input configured to receive a first input signal and an output configured to output an oscillating output signal. A calibration circuit is coupled to the voltage controlled oscillator and is configured to output one or more control signals to the capacitive-load voltage controlled oscillator for adjusting a frequency of the oscillating output signal. The calibration circuit is configured to output the one or more control signals in response to a comparison of an input voltage to at least one reference voltage. | 11-27-2014 |
20150244258 | CHARGE PUMP INITIALIZATION DEVICE, INTEGRATED CIRCUIT HAVING CHARGE PUMP INITIALIZATION DEVICE, AND METHOD OF OPERATION - In an initialization phase of a charge pump, an input signal is supplied to an input electrode of a capacitor of the charge pump and to an initialization device of the charge pump. An initialization signal is supplied to the initialization device of the charge pump. The initialization device supplies an output signal to an output electrode of the capacitor. The output signal has a high level and a low level corresponding to a high level and a low level of the input signal, the input signal and the output signal causing a charge to be accumulated in the capacitor. In a pumping operation phase following the initialization phase, the initialization signal is removed from the initialization device to place the output electrode of the capacitor in a floating state, and a pumping action is performed with the charge accumulated in the capacitor. | 08-27-2015 |
20150244357 | DELAY LINE CIRCUIT WITH VARIABLE DELAY LINE UNIT - A delay line circuit comprises a plurality of delay units configured to receive an input signal and modify the input signal to produce a first output signal. The delay line circuit also comprises a variable delay line unit that comprises an input end configured to receive the first output signal; an output end configured to output a second output signal; a first line between the input end and the output end, the first line comprising, in series, a first inverter, a second inverter, a first speed control unit, and a third inverter; a second line between the input end and the output end, the second line comprising, in series, a fourth inverter, a second speed control unit, a fifth inverter, and a sixth inverter. The delay line circuit is also configured to selectively transmit the received first output signal through one of the first line or the second line. | 08-27-2015 |
20150244360 | INPUT/OUTPUT CIRCUIT - A circuit includes a first power node configured to carry a voltage K·V | 08-27-2015 |
20150263618 | VOLTAGE SUPPLY UNIT AND METHOD FOR OPERATING THE SAME - A voltage supply unit including a regulator unit, a voltage divider and a first current mirror. The regulator unit is configured to receive a first voltage signal and a second voltage signal, and is configured to generate a third voltage signal. The voltage divider is connected between the first current mirror and the regulator unit, and controls the second voltage signal. The first current mirror is connected to the regulator unit, an input voltage supply and the voltage divider. The first current mirror is configured to generate a first current signal and a second current signal, the second current signal is mirrored from the first current signal, the first current signal is controlled by the third voltage signal and the second current signal controls an output voltage supply signal. | 09-17-2015 |
20160065194 | DELAY LINE CIRCUIT WITH VARIABLE DELAY LINE UNIT - A delay line circuit includes a plurality of delay circuits and a variable delay line circuit. The plurality of delay circuits receives an input signal and to generate a first output signal. The first output signal corresponds to a delayed input signal or an inverted input signal. The variable delay line circuit receives the first output signal. The variable delay line circuit includes an input end, an output end, a first and a second path. The input end is configured to receive the first output signal. The output end is configured to output a second output signal. The first path includes a first plurality of inverters and a first circuit. The second path includes a second plurality of inverters and a second circuit. The received first output signal is selectively transmitted through the first or second path based on a control signal received from a delay line controller. | 03-03-2016 |
20160072502 | INPUT/OUTPUT CIRCUIT - A circuit includes a first power node, a second power node, an output node, a plurality of first transistors and a plurality of second transistors. The plurality of first transistors is serially coupled between the first power node and the output node. The plurality of second transistors is serially coupled between the second power node and the output node. | 03-10-2016 |
20160079849 | CHARGE PUMP INITIALIZATION DEVICE, INTEGRATED CIRCUIT HAVING CHARGE PUMP INITIALIZATION DEVICE, AND METHOD OF OPERATION - An initialization device for a charge pump includes a driving circuit and a bias voltage circuit. The driving circuit is between two power supply nodes. The driving circuit includes a first node configured to be coupled to an output electrode of a capacitor in the charge pump. The bias voltage circuit is coupled to the two power supply nodes. The bias voltage circuit includes a second node coupled to a control terminal of the driving circuit. In response to an applied initialization signal, the bias voltage circuit is configured to output a bias voltage to the second node. The bias voltage has at least two levels that correspond to levels of the applied initialization signal. In response to the bias voltage, the driving circuit is configured to output an output signal having at least two levels that correspond to the at least two levels of the bias voltage. | 03-17-2016 |