| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 323270000 | Linearly acting series connected | 10 |
| 20080303492 | METHOD AND CIRCUIT FOR REDUCING REGULATOR OUTPUT NOISE - A regulator circuit for reducing the output noise when regulators are switched includes a linear regulator and a switching regulator. The linear regulator generates a first regulator voltage from an input voltage with a first feedback loop. The switching regulator generates a second regulator voltage from the input voltage with a second feedback loop, which is connected to the first feedback loop. A loop control circuit controls the first feedback loop so as to lower the first regulator voltage when the switching regulator is activated. | 12-11-2008 |
| 20090085534 | WIDEBAND LOW DROPOUT VOLTAGE REGULATOR - Method and apparatus for regulating a supply voltage. Native NMOS source followers may be stacked and coupled to a supply a regulated voltage to a load. The gates of the native NMOS source followers are coupled to the outputs of internal regulators. The internal regulators may also contain stacked NMOS source followers. In an embodiment, the internal regulators may be supplied by a high voltage source, while the native NMOS source followers may be supplied by a low voltage source. In another embodiment, low-pass filters may filter the signal from the internal regulators to the NMOS source followers. In yet another embodiment, the gates of the source followers may be coupled to the sources of the transistors within the internal regulators. | 04-02-2009 |
| 20090096433 | LDO With Large Dynamic Range of Load Current and Low Power Consumption - An electronic device has an LDO regulator for varying loads. The LDO regulator includes a primary supply node coupled to a primary voltage supply. An output node provides a secondary supply voltage and a load current. A bias current source generates a bias current. A gain stage coupled to the bias current source increases the maximum available load current. The gain stage includes a first MOS transistor biased in weak inversion coupled to a current mirror which mirrors the drain current through the first MOS transistor to the output node. The gate-source voltage of the first MOS transistor increases in response to a decreasing secondary supply voltage level at the output node to increase the available load current. | 04-16-2009 |
| 20090278516 | TRANSIENT RECOVERY CIRCUIT FOR SWITCHING DEVICES - A transient recovery circuit for switching devices. The transient recovery circuit includes a detecting circuit for detecting a rapid transient in an output voltage of a switching device by detecting a rate of the output voltage transient; an auxiliary controlling circuit in a feedback loop of the switching device for correcting the output voltage by changing a bandwidth of the feedback loop if the rapid transient is detected; and an initializing circuit for initializing the feedback loop to expected operating points in a continuous conduction mode after correcting the output voltage. | 11-12-2009 |
| 20100327826 | Power Management Unit for Use in Portable Applications - A voltage regulator includes a first stage capable of receiving a reference voltage and capable of having a first current flowing through the first stage. A second stage is capable of having a second current flowing through the second stage. A third stage is capable of outputting an output voltage and capable of having a third current flowing through the second stage. The first, second and third currents are proportional to each other throughout a range of operation of the voltage regulator between substantially zero output current and maximum output current. The first stage drives the second stage as a low input impedance load. | 12-30-2010 |
| 20120223685 | VOLTAGE REGULATING APPARATUS - The invention discloses a voltage regulating apparatus, which includes: a linear regulator generating a first error signal; a switching regulator generating a first and a second PWM signals; a selecting unit coupled to the linear and switching regulators, receiving the first error signal and the second PWM signal, and outputting a regulating signal; a first power transistor coupled to the switching regulator and receiving the first PWM signal; and a second power transistor coupled to the selecting unit and receiving the regulating signal; wherein the voltage regulating apparatus can be put either in a linear mode of operation if the first error signal is selected as the regulating signal, or in a switching mode of operation if the second PWM signal is selected as the regulating signal. | 09-06-2012 |
| 20120223686 | VOLTAGE REGULATING APPARATUS WITH SWITCHING AND LINEAR OPERATIONAL MODES - The invention discloses a voltage regulating apparatus which includes: an output stage providing the apparatus with an output voltage and producing a partial voltage of the output voltage; an error amplifier coupled to the output stage and comparing the partial voltage with a reference to produce a first voltage; a PWM unit coupled to the error amplifier and comparing the first voltage with a voltage signal to produce second and third voltages; a selection unit coupled to the error amplifier and the PWM unit and outputting a fourth voltage equalling either the first or the second voltage; a first transistor coupled to the selection unit and receiving the fourth voltage and a DC voltage; and a second transistor coupled to the PWM unit, the first transistor, and a ground and receiving the third voltage; wherein a connection point of the first and second transistors is connected to the output stage. | 09-06-2012 |
| 20130271095 | Linear Voltage Regulator - A voltage regulator includes an output stage including a control terminal and a load path, with the load path coupled between the input terminal and the output terminal. The voltage regulator also includes a control circuit with an input stage, a first current mirror, and a second current mirror. The input stage includes a first control input configured to receive a first reference voltage, a second control input configured to receive a second reference voltage, a feedback input coupled to the output terminal, a first output terminal, and a second output terminal. The first current mirror includes a reference current path coupled between a first supply terminal and the first output terminal of the input stage, and an output current path coupled between the first supply terminal and the control terminal of the pass device. | 10-17-2013 |
| 20130300382 | REGULATING CASCODE CIRCUIT WITH SELF-CALIBRATION CAPABILITY - A circuit comprises a cascode core circuit and a current adjustor circuit. The cascode core circuit has an output node and a current path (ID). The current adjustor circuit is configured to change a current on the current path in response to a change in a voltage at the output node. The cascode core circuit comprises a first transistor, a second transistor, and a third transistor. A first terminal of the first transistor is coupled to a second terminal of the second transistor and to a third terminal of the third transistor. A first terminal of the second transistor is configured as the output node. A first terminal of the third transistor is coupled to a third terminal of the second transistor. The current path is through the first terminal of the third transistor. | 11-14-2013 |
| 20150097534 | Circuits and Method for Controlling Transient Fault Conditions in a Low Dropout Voltage Regulator - An overshoot reduction circuit within a low dropout voltage regulator eliminates an overshoot at an output terminal resulting from a transient fault condition occurring at an input or output terminal. The overshoot reduction circuit monitors to sense if there is a transient fault condition occurring at the input or output terminal and provides a Miller capacitance at the output terminal of a differential amplifier of the low dropout voltage regulator to prevent the output of the differential amplifier from being discharged to ground during the transient. A control loop circuit balances current within an active load of the differential amplifier to clamp the output of the differential amplifier to its normal operating point. When the transient fault condition ends, the output voltage of the differential amplifier is set such that a pass transistor of the low dropout regulator responds quickly to resume the regulation to reduce or eliminate the overshoot. | 04-09-2015 |
