Class / Patent application number | Description | Number of patent applications / Date published |
323275000 | With plural condition sensing | 54 |
20080224675 | VOLTAGE REGULATOR AND VOLTAGE REGULATION METHOD - A voltage regulator converts a voltage from a direct current power supply into a predetermined voltage, and outputs the predetermined voltage from an output terminal thereof to supply electric power to a load. The voltage regulator includes a first power supply circuit and a second power supply circuit. The first power supply circuit supplies the electric power to the load in accordance with a switching signal, when a load current is relatively high. The second power supply circuit supplies the electric power to the load in accordance with the switching signal, when the load current is relatively low. A bias current for operating the second power supply circuit is set to be proportional to the load current during the supply of the electric power to the load by the second power supply circuit. | 09-18-2008 |
20090058381 | POWER SUPPLY STABILIZING CIRCUIT, AN ELECTRONIC DEVICE AND A TEST APPARATUS - There is provided a power supply stabilizing circuit provided in a chip of an electronic device. The power supply stabilizing circuit stabilizes a power supply voltage supplied to an operational circuit of the electronic device, and includes a current bypass section that supplies a bypass current from an auxiliary power supply interconnection to a main power supply interconnection, where the main power supply interconnection supplies the power supply voltage to the operational circuit, and the auxiliary power supply interconnection is different from the main power supply interconnection, and a current control section that varies an amount of the bypass current supplied by the current bypass section to the main power supply interconnection in accordance with a predetermined current variation pattern, under an external control, during an operation of the operational circuit. | 03-05-2009 |
20090072802 | VOLTAGE GENERATING APPARATUS, CURRENT GENERATING APPARATUS, AND TEST APPARATUS - There is provided a voltage generating apparatus that outputs a power source voltage from a voltage outputting terminal. The apparatus includes a voltage outputting section that outputs the power source voltage according to a current or voltage to be input, a first differential amplification section that compares the power source voltage and a preset first reference voltage to output a first control current or voltage reducing the power source voltage output from the voltage outputting section when the power source voltage is larger than the first reference voltage and output the first control current or voltage raising the power source voltage output from the voltage outputting section when the power source voltage is smaller than the first reference voltage, a current detector that detects a detecting voltage according to a power source current output from the voltage outputting terminal, a second differential amplification section that compares the detecting voltage detected from the current detector and a second reference voltage to output a second control current or voltage reducing the power source voltage when a value obtained by subtracting the second reference voltage from the detecting voltage is larger, an addition section that inputs a current or voltage obtained by adding the first control current or voltage and the second control current or voltage into the voltage outputting section, and a third differential amplification section that supplies a voltage obtained by amplifying a difference voltage obtained by subtracting the detecting voltage from a preset third reference voltage to the second differential amplification section as the second reference voltage. | 03-19-2009 |
20090121694 | NON-INVASIVE LOAD CURRENT SENSING IN LOW DROPOUT (LDO) REGULATORS - A low dropout (LDO) voltage regulator includes an output terminal for providing a regulated voltage output to a load, and a plurality of PFETs connected in parallel. Each PFET drains a level of current and the sum of the levels of current are provided as a current output at the output terminal. The LDO voltage regulator also includes a feedback network coupled to the output terminal for providing a voltage feedback signal, and an error amplifier coupled between the plurality of PFETs and the feedback network for sensing a differential voltage. The error amplifier includes an output voltage which is provided to the plurality of PFETs for adjusting the drain of current from each PFET. A summation of the drains of current from each PFET is provided as the current output to regulate the voltage output at the output terminal. Each PFET drains a current level of I | 05-14-2009 |
20090128105 | Power converter having airplane power source frequency detector - A power converter having an aircraft power source detector configured to limit the amount of power that can be drawn by the power converter when utilized in an aircraft. The power converter may detect an artifact of the aircraft power source, such as the 400 Hz ripple noise on an aircraft power line, or existing in the aircraft cabin, such EMI or aircraft lighting. | 05-21-2009 |
20090315526 | VOLTAGE REGULATOR DEVICE AND METHOD THEREOF - A voltage regulator includes a first multi-gate transistor, a differential stage, a second stage having a second multi-gate transistor, and a pass transistor to apply an output voltage and output current to a device load. Based on a feedback voltage associated with the output voltage, the differential stage modulates a bias voltage applied to a control electrode of the pass transistor. A first gate of the second multi-gate transistor generates a nominal bias current for the pass transistor, and the second gate adjusts the bias voltage based on an output of the differential stage so that transients in the regulator output voltage resulting from sudden changes in current drawn by the device load are reduced. | 12-24-2009 |
20100026252 | Low Drop-Out Voltage Regulator with Efficient Frequency Compensation - A low drop-out (LDO) voltage regulator with efficient frequency compensation is disclosed. The LDO voltage regulator includes an error amplifier, a transmission element, a voltage divider and a pole control unit. The error amplifier generates a control signal according to a reference voltage and a feedback voltage. The transmission element is coupled to the error amplifier, and adjusts an input voltage to generate an output voltage according to the control signal. The voltage divider is coupled to the transmission element, and performs a voltage division operation on the output voltage to generate the feedback voltage. The pole control unit is coupled to the transmission element, and provides and adjusts an output capacitor of the LDO voltage regulator to fix a frequency of a pole according to variation of an output impedance of the transmission element, so as to maintain loop stability. | 02-04-2010 |
20110050186 | VOLTAGE REDUCING CIRCUIT - A voltage reducing circuit includes an internal power supply section configured to reduce an external power supply voltage supplied from an external power supply to an internal power supply voltage which is lower than the external power supply voltage based on a reference voltage. A first current control section is configured to control a current flowing through the internal power supply section when the internal power supply voltage is lower than a setting voltage. A second current control section is configured to control the current flowing through the internal power supply section when the internal power supply voltage exceeds the setting voltage. | 03-03-2011 |
20120161732 | Voltage Regulator Configuration - A voltage regulator is configurable to operate in a linear regulator mode or a buck regulator mode. To operate in the buck regulator mode, the voltage regulator is coupled to an inductor. To determine whether an inductor is coupled to voltage regulator, and thus whether the voltage regulator can be configured in the buck regulator mode, a detection circuit determines whether a regulator output of the voltage regulator resists a change in current driven to the regulator output. | 06-28-2012 |
20130002217 | LEVEL DETECTOR, INTERNAL VOLTAGE GENERATOR INCLUDING LEVEL DETECTOR, AND SEMICONDUCTOR MEMORY DEVICE INCLUDING INTERNAL VOLTAGE GENERATOR - A level detector, an internal voltage generator including the level detector, and a semiconductor memory device including the internal voltage generator are provided. The internal voltage generator includes a level detector that compares a threshold voltage that varies with temperature with an internal voltage to output a comparative voltage, and an internal voltage driver that adjusts an external supply voltage in response to the comparative voltage and that outputs an internal voltage. | 01-03-2013 |
20130200866 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated device includes transistor between input and output terminals, an amplifying device, and a control circuit that activates or deactivates the amplifying device according to an input voltage. When the input voltage is higher than a specified value, the control circuit activates the amplifying device to regulate a monitoring voltage to a value equal to a reference voltage, and outputs a control voltage to act on the gate of the transistor. When the input voltage is lower than the specified value, the control circuit deactivates the amplifying device so that a predetermined gate voltage is applied to the gate of the transistor. | 08-08-2013 |
20130285630 | VOLTAGE REGULATING APPARATUS WITH ENHANCEMENT FUNCTIONS FOR TRANSIENT RESPONSE - A voltage regulating apparatus is disclosed. The voltage regulating apparatus includes: a power transistor having a control terminal, a first terminal for receiving a power supply, and a second terminal for providing an output voltage; a feedback circuit coupled to the second terminal, configured for providing a feedback voltage according to the output voltage; an amplifier having a source current unit and a sink current unit, configured for driving the power transistor through the control terminal by use of the source and sink current units according to a reference voltage and the feedback voltage; and a transient enhancement unit configured for monitoring the source and sink current units, and regulating a voltage at the control terminal according to the monitored result. | 10-31-2013 |
20160070280 | SELF-HEATING TRIM TECHNIQUES FOR IMPROVED LDO ACCURACY OVER LOAD AND TEMPERATURE - In one example, a method for compensating for a temperature effect during operation of a voltage regulator circuit includes applying a load current at an output of the voltage regulator circuit, measuring a first output voltage at the output, measuring a reference current or voltage, increasing the load current, measuring a change in the reference current or voltage corresponding to the increased load current, measuring a second output voltage when the measured change in the reference current exceeds a threshold, and determining a temperature coefficient (TC) value based on the measured second output voltage. | 03-10-2016 |
323276000 | For protective system | 39 |
20080278127 | Constant-Voltage Power Supply Circuit with Fold-Back-Type Overcurrent Protection Circuit - A constant-voltage power supply circuit for converting an input voltage applied to an input terminal into a predetermined constant voltage for output from an output terminal includes an output transistor to supply from the input terminal to the output terminal an output current responsive to an applied control signal, an error amplifying circuit unit to receive a predetermined bias current to control an operation of the output transistor, and a bias current adjusting circuit unit to supply the error amplifying circuit unit with the bias current responsive to the output current output from the output transistor, wherein the bias current adjusting circuit unit is configured to suspend the supply of the bias current to the error amplifying circuit unit in response to lowering of the output voltage to a predetermined voltage. | 11-13-2008 |
20080284391 | FAULT PROTECTION CIRCUIT, METHOD OF OPERATING A FAULT PROTECTION CIRCUIT AND A VOLTAGE REGULATOR EMPLOYING THE SAME - Embodiments of the present disclosure provide a fault protection circuit, a method of operating a fault protection circuit and a voltage regulator. In one embodiment, the fault protection circuit is for use with the voltage regulator and includes an output power section having first and second MOS transistors configured to provide a regulated voltage on an output node of the voltage regulator. The fault protection circuit also includes a gate pull-down section connected to the first and second MOS transistors and configured to provide a gate pull-down MOS transistor to limit a current through the first and second MOS transistors during a current overload fault condition on the output node. | 11-20-2008 |
20090001951 | CURRENT DIRECTION DETECTION CIRCUIT AND SWITCHING REGULATOR HAVING THE SAME - A current direction detection circuit includes a monitoring transistor having a control terminal and an output terminal respectively connected with a control terminal and an output terminal of a ground side output transistor; an impedance element having one terminal connected with an input terminal of the monitoring transistor and the other terminal grounded; first and second constant-current sources; a diode-connected reference transistor interposed between the first constant-current source and ground potential; and a sensing transistor interposed between the second constant-current source and the impedance element and having a control terminal connected with the control terminal of the reference transistor. The current direction detection circuit is small yet capable of minimizing power loss of a switching regulator. | 01-01-2009 |
20090167266 | FAULT PROTECTION CIRCUIT, METHOD OF OPERATING A FAULT PROTECTION CIRCUIT AND A VOLTAGE REGULATOR EMPLOYING THE SAME - Embodiments of the present disclosure provide a fault protection circuit, a method of operating a fault protection circuit and a voltage regulator. In one embodiment, the fault protection circuit is for use with the voltage regulator and includes an output power section having first and second MOS transistors configured to provide a regulated voltage on an output node of the voltage regulator. The fault protection circuit also includes a gate pull-down section connected to the first and second MOS transistors and configured to provide a gate pull-down MOS transistor to limit a current through the first and second MOS transistors during a current overload fault condition on the output node. | 07-02-2009 |
20090243570 | 5 VOLT TOLERANT VOLTAGE REGULATOR - A voltage regulator circuit comprises an error amplifier for generating an error signal responsive to a reference voltage in a feedback signal. A feedback circuit provides the feedback voltage signal to the error amplifier and a driver circuit provides regulated output voltage responsive to the input voltage in the error signal. Short circuit protection circuitry selectively protects transistors within the error amplifier, the feedback amplifier and the driver circuit responsive to a short circuit protection enablement signal. | 10-01-2009 |
20100026253 | Buck converter with surge protection - A buck converter with surge protection comprises a transistor, a voltage clamp circuit, a control circuit, a rectifier diode, an inductor, an output capacitor and a resistor. The transistor is coupled to a input voltage. The voltage clamp circuit has a Zener diode. The Zener diode is coupled to the transistor for limiting gate-to-source voltage of the transistor. The control circuit is used for maintaining a constant output voltage independently of variance of the input voltage. The rectifier diode is used for commutating current maintained by the electromotive force generating at both terminals of the inductor. The inductor is used for storing energy according to the current flowing from the input voltage via the transistor. The output capacitor is used for smoothing a voltage of the inductor. The resistor is applied the smoothed voltage. Hence, the present invention may protect the high-performance power supply from the automotive over-voltage events. | 02-04-2010 |
20110101935 | POWER SUPPLY CONTROL APPARATUS - A power supply control apparatus includes: an output transistor coupled between a first power supply line and an output terminal, the output terminal being configured to be coupled with a load; a protection transistor coupled between a gate of the output transistor and a second power supply line; a negative voltage control unit coupled between the first power supply line and the gate of the output transistor; a compensation transistor bringing the second power supply line and the output terminal into a conduction state when a counter electromotive voltage from the load is applied to the output terminal; and a back gate control circuit that controls the second power supply line and a back gate of each of the compensation transistor and the protection transistor to be brought into a conduction state in a standby state when the polarity of the power supply is normal. | 05-05-2011 |
20110121801 | Automatic current limit adjustment for linear and switching regulators - Circuits and methods for dynamic adjustment of the current limit of a power management unit to avoid unwanted automatic interruption of the power flow have been disclosed. The power management unit is automatically adjusted to the output resistance of a power source (including interconnect resistance). The invention maximizes the time and hence the power transferred from a power management unit to the system (including the battery, in case of battery operated systems). The input current is reduced thus increasing the input voltage in case of a high voltage drop across the internal resistance including interconnections between power source and power management unit. | 05-26-2011 |
20120019221 | 5 Volt Tolerant Voltage Regulator - A voltage regulator circuit comprises an error amplifier for generating, an error signal responsive to a reference voltage in a feedback signal. A feedback circuit provides the feedback voltage signal to the error amplifier and a driver circuit provides regulated output voltage responsive to the input voltage in the error signal. Short circuit protection circuitry selectively protects transistors within the error amplifier, the feedback amplifier and the driver circuit responsive to a short circuit protection enablement signal. | 01-26-2012 |
20130076324 | POWER SUPPLY CONTROL CIRCUIT AND POWER SUPPLY CONTROL DEVICE - Provided are: a power supply control circuit having a configuration in which an N-channel FET and a P-channel FET can appropriately and selectively be used so as to control power feeding with high efficiency and at low cost; and a power supply control device including the power supply control circuit. An N-channel FET (NchFET in the drawings) and a P-channel FET (PchFET in the drawings) are connected in parallel with each other between the positive voltage side (+B) of a battery (direct current power supply) and a plurality of ECUs (loads) | 03-28-2013 |
20160111236 | OVER-TEMPERATURE PROTECTION METHOD, OVER-TEMPERATURE PROTECTION CIRCUIT AND LINEAR DRIVING CIRCUIT THEREOF - A method of over-temperature protection for a power switch, can include: (i) generating a sensing signal by sensing a temperature of the power switch; (ii) determining a temperature threshold signal based on a conduction voltage between first and second terminals of the power switch, where a value of the temperature threshold signal is reduced as the conduction voltage increases; and (iii) turning off the power switch when the sensing signal is greater than or equal to the temperature threshold signal. | 04-21-2016 |
323277000 | With current sensor | 28 |
20080218138 | METHOD AND APPARATUS FOR REDUCING AUDIO NOISE IN A SWITCHING REGULATOR - A switching regulator utilizing on/off control that reduces audio noise at light loads by adjusting the current limit of the switching regulator. In one embodiment, a switching regulator includes a state machine that adjusts the current limit of the switching regulator based on a pattern of feedback signal values from the output of the power supply for a preceding N cycles of the drive signal. The state machine adjusts the current limit lower at light loads such that cycles are not skipped to reduce the operating frequency of the switching regulator into the audio frequency range until the flux density through the transformer is sufficiently low to reduce the generation of audio noise. | 09-11-2008 |
20080265852 | VOLTAGE REGULATOR - Provided is a voltage regulator having an overcurrent protective circuit, which is excellent in detection precision and small in current consumption. The voltage regulator having the overcurrent protective circuit which detects that overcurrent flows in an output transistor, and limits the current of the output transistor, includes a regulated cascode circuit that makes a voltage at a source of the output transistor equal to a voltage at a source of the output current detection transistor, in which the operating current of the regulated cascode circuit is supplied by a transistor that is controlled by the output voltage of an error amplifier circuit. | 10-30-2008 |
20080272753 | REGULATOR CIRCUIT - A stabilized regulator circuit is provided A first Pch transistor (PTr) (P | 11-06-2008 |
20080284392 | Constant voltage power supply circuit and method of testing the same - A constant voltage power supply circuit is provided with a constant voltage circuit part to convert an input voltage into a predetermined constant voltage, a first excessive current protection circuit part to control the constant voltage circuit part so as to reduce the output voltage while maintaining an output current that is output to a predetermined maximum value if the output current is greater than or equal to the predetermined maximum value when the output voltage is a rated voltage, and a second excessive current protection circuit part to control the constant voltage circuit part so as to reduce the output voltage and the output current and to output a short-circuit current if the output voltage decreases to a ground voltage when the output voltage is decreased to a predetermined value by the first excessive current protection circuit part. The second excessive current protection circuit part is disabled in response to a first test signal that is active. | 11-20-2008 |
20090039846 | SEMICONDUCTOR INTEGRATED CIRCUIT - In order to set with a high precision the value of rush current flowing in the power switch circuit at the time of turning “on” the power, the internal circuit Int_Cir of the LSI is supplied with the internal source voltage Vint from the output transistor MP | 02-12-2009 |
20090058382 | Direct current stabilization power supply - A direct current stabilization power supply apparatus, comprising: an output control device which generates a voltage corresponding to a drive current given and outputs it as an output voltage; a direct current stabilization portion which gives the drive current to the output control device to equalize a comparison voltage corresponding to the output voltage with a predetermined reference voltage and makes the output control device generate a desired output voltage; and a drive current limitation portion which monitors the comparison voltage and lowers the drive current according to a drop in the comparison voltage, wherein, when the comparison voltage is equal to or lower than a predetermined threshold voltage, the drive current limitation portion carries out an operation to hold the drive current at a predetermined lower-limit current value, or an operation to clamp a lower-limit value of the comparison voltage at a predetermined voltage value. Accordingly, even if the output voltage becomes a negative voltage, it is possible to secure a suitable drive current. | 03-05-2009 |
20090072803 | INRUSH CURRENT CONTROL - One embodiment of the present invention includes a power supply system. The power supply system comprises a variable voltage source configured to provide and incrementally increase a control voltage associated with a pass-transistor. The power supply system also comprises an inrush current monitor configured to monitor a current-flow through the pass-transistor. The power supply system further comprises a voltage control circuit configured to halt the incremental increase of the control voltage in response to the current-flow exceeding a predetermined current limit. | 03-19-2009 |
20090128106 | Power supply controller and semiconductor device - A voltage-dividing circuit | 05-21-2009 |
20090195229 | METHOD AND APPARATUS FOR REDUCING AUDIO NOISE IN A SWITCHING REGULATOR - A switching regulator utilizing on/off control that reduces audio noise at light loads by adjusting the current limit of the switching regulator. In one embodiment, a switching regulator includes a state machine that adjusts the current limit of the switching regulator based on a pattern of feedback signal values from the output of the power supply for a preceding N cycles of the drive signal. The state machine adjusts the current limit lower at light loads such that cycles are not skipped to reduce the operating frequency of the switching regulator into the audio frequency range until the flux density through the transformer is sufficiently low to reduce the generation of audio noise. | 08-06-2009 |
20090206807 | Voltage regulator - Provided is a voltage regulator including an overcurrent protection circuit, which is capable of enhancing accuracy of a limit current value and a short-circuit current value, and suppressing electric power loss when an overcurrent flows through an output transistor. The overcurrent protection circuit includes: an output current detection transistor controlled by an output voltage of an error amplifier circuit, for feeding a detection current; a detection resistor for generating a detection voltage based on the detection current; a second error amplifier circuit for amplifying a difference between a voltage set by a second reference voltage and a divided voltage, and the voltage of the detection resistor, and outputting the amplified difference; and an output current limiting circuit in which a gate thereof is controlled by an output of the second error amplifier circuit, for controlling a gate voltage of the output transistor. Further, the second reference voltage is supplied from a temperature detection circuit. | 08-20-2009 |
20090212753 | VOLTAGE REGULATOR HAVING FAST RESPONSE TO ABRUPT LOAD TRANSIENTS - A voltage regulator includes an undervoltage detector having a charge transistor smaller than an output transistor of the voltage regulator, providing a detection path for fast response, compensating undervoltage without large control current when loading changes from light to heavy. | 08-27-2009 |
20090309560 | Remote Power Controller with Power Sharing Circuit - A direct current (DC) remote power controller for remotely controlling DC power between a DC power source and a DC load, comprises: a current sensor for sensing the level of current that the power source supplies to the load and generating a current feedback signal representative of the sensed current level; a current limit controller that compares the current feedback signal to a reference current level and generates a current regulation signal representative of the value of sensed current level above the reference current level; a current limiting device that is responsive to the current regulation signal to limit load current to the reference current level up to a first predetermined level of potential difference across the current limiting device; a load resistance; and a switched-mode DC-to-DC converter in parallel with the current limiting device that senses potential difference across the current limiting device and diverts a portion of the load current from the current limiting device through the load resistance above the first predetermined level of potential difference to reduce power dissipation of the current limiting device and maintain the load current at the reference current level. | 12-17-2009 |
20090322292 | LINEAR VOLTAGE REGULATOR WITH ACCURATE OPEN LOAD DETECTION - A linear voltage regulator is provided which has a pair of complementary power transistors connected “back to back” in series between a voltage input and a voltage output. A current sense circuit is connected in parallel across one of the power transistors, such as the one connected to the voltage input. The current sense circuit includes a current sense resistor. A reference current path has a reference resistor connected in series with a current sink between the voltage input and a reference terminal, usually ground. A comparator has a first input connected to a terminal of the current sense resistor and a second input connected to a node between the reference resistor and the current sink. The comparator compares the voltage drop across the current sense resistor with the constant voltage drop across the reference resistor and provides an output signal indicative of an open load condition when the voltage drop across the current sensor falls below that of across the reference resistor. As long as the voltage drop in the current sense circuit remains small, i.e. less than app. 0.7V, the current flowing through the bulk diode of the power transistor remains negligible and the entire output current flows through the current sense circuit. For higher output currents the voltage drop across the current sense circuit is limited by the parallel bulk diode of the power transistor. With this approach, the current sense resistor can be dimensioned to generate a relatively high voltage drop of e.g. 100 mV, and a high accuracy of open load detection is achieved without the requirement for a high precision comparator. | 12-31-2009 |
20100066321 | CIRCUITS AND METHODS FOR CURRENT SENSING - A current sensing circuit includes a first resistor, a second resistor and a sense amplifier. The first resistor converts a current flowing through the first resistor to a voltage drop between positive and negative sides of the first resistor. The second resistor is coupled to the negative side of the first resistor. The sense amplifier is coupled to the positive side of the first resistor via a first pin of the sense amplifier, and coupled to the negative side of the first resistor through the second resistor via a second pin of the sense amplifier. The sense amplifier employs a negative feedback to generate a sensing current proportional to the current flowing through the first resistor. | 03-18-2010 |
20100079121 | CONSTANT-VOLTAGE POWER SUPPLY CIRCUIT - A constant-voltage power supply circuit which limits the consumption current inside at startup or when overloaded and suppresses the occurrence of an overshoot at startup, comprises an error amplifying part; an output part having an outputting PMOS; a load current monitoring part that monitors a load current flowing through the PMOS and increases the bias current of the error amplifying part according to the load current; and a gain adjusting part having a current limiting resistor and that monitors the load current and decreases a gain of the error amplifying part according to this load current. Hence, at startup or when overloaded, the gain adjusting part operates as a limiter circuit. Hence, at startup or when overloaded, the consumption current inside can be limited. Further, at startup, the response is made slower by this limiter operation, thus suppressing the occurrence of an overshoot. | 04-01-2010 |
20100090664 | VOLTAGE REGULATOR HAVING ACTIVE FOLDBACK CURRENT LIMITING CIRCUIT - The present invention mainly relates to a voltage regulator, comprising: a P typed power MOS; a feedback circuit; a differential amplifier; a protecting circuit having a N-typed transistor current mirror; and an active foldback current limiting circuit rather than using a resistor. When the P typed power MOS is under short circuit current situation, the current at the output side of the current mirror is increased in order to limit the current flown through the power MOS. Meanwhile, the same purpose can also be served by increasing the current at the input side of the DC current mirror. | 04-15-2010 |
20100090665 | ACTIVE CURRENT LIMITING CIRCUIT AND POWER REGULATOR USING THE SAME - The present invention mainly relates to a current limiting circuit, also known as over-current protection circuit, and a power regulator using the same. The purpose for the circuit is to protect the power device and the loading circuit for the power regulator. The conventional current limiting circuit takes advantage of a resistor and a MOS to convert the detected over current into a voltage and then turn on a P-typed MOS to clamp the gate voltage of a power transistor so as to achieve the goal of current limiting. However, the process variation for the resistor and said MOS and their temperature variation lead to a significant error to the limiting current. The present invention, therefore, takes advantage of the current comparison to enhance the accuracy for the current limiting circuit. | 04-15-2010 |
20110074370 | VOLTAGE REGULATOR - Provided is a voltage regulator capable of setting an accurate short-circuit current. Used as a circuit for determining a current value of a short-circuit current of an overcurrent protection circuit is not a resistor for converting current into voltage but a circuit for controlling in the form of current, that is, a circuit of an N-channel depletion type transistor including a gate and a drain that are connected to each other and operating in a non-saturated state. The N-channel depletion type transistor has process fluctuations that are linked with those of a detection transistor, and hence an accurate short-circuit current may be set without trimming. | 03-31-2011 |
20110234184 | START-UP IN-RUSH CURRENT PROTECTION CIRCUIT FOR DCDC CONVERTER - A protection circuit for protecting DCDC converter with a power MOS transistor from start-up in-rush current includes a coupling capacitor and a voltage clamping circuit. By using the coupling capacitor to turn-off the power MOS transistor, there is no current consumed during the normal operation of the circuit. Enable signal or leakage current circuit is used to discharge the capacitor so that the circuitry can work in another turning-on of power supply. | 09-29-2011 |
20110234185 | SEMICONDUCTOR-DEVICE DRIVING CIRCUIT, AND SEMICONDUCTOR APPARATUS INCLUDING DRIVING CIRCUIT - It is an object of the present invention to provide a driving circuit which is adapted, for a semiconductor device which exhibits a diode characteristic of flowing an abrupt current if the gate-source voltage therein exceeds a predetermined voltage, to have the functions of reducing electric-power consumption in high-load state, reducing the loss in the driving circuit in low-load states, preventing excessive voltages, excessive currents and excessive electric-power consumption, and reducing the loss in the semiconductor device. A gate control part in a driving circuit is adapted to control the voltage or the current which is supplied to the gate of a semiconductor device, according to signals indicative of operation states of the semiconductor device, wherein these signals are inputted from an operation-state detection part which detects operation states of the semiconductor device, and the semiconductor device exhibits a diode characteristic of flowing an abrupt current if the gate-source voltage therein exceeds a predetermined voltage. | 09-29-2011 |
20120038332 | LINEAR VOLTAGE REGULATOR AND CURRENT SENSING CIRCUIT THEREOF - A linear regulator and a current sensing circuit are provided. The linear regulator comprises a pass transistor, a compensation capacitor, a variable resistor, an error amplifier and a current sensing circuit comprising a sense transistor controlled by the error amplifier and a voltage follower coupled with the second terminal of the pass transistor and the second terminal of the sense transistor. The sense transistor receives an input voltage, and generates a sense current proportional to a pass current. The voltage follower controls the voltage at the second terminal of the sense transistor to be the same as that at the second terminal of the pass transistor, and adjusts the resistance of the variable resistor according to the voltages at the second terminal of the pass transistor, the voltage at the second terminal of the sense transistor, and the sense current flowing through the sense transistor. | 02-16-2012 |
20120112717 | Two-Stage Power Supply with Feedback Adjusted Power Supply Rejection Ratio - The present invention discloses a power supply comprising: a switching regulator circuit converting an input voltage to an intermediate voltage; a low dropout linear regulator circuit converting the intermediate voltage to an output voltage so as to supply a load current to a load; and a feedback control circuit which increases the noise filtering effect of the low dropout linear regulator circuit when the load current increases. | 05-10-2012 |
20120262137 | Current limitation for LDO - A method and circuits to limit the output load current of a current driven LDO voltage regulator are disclosed. The current through a second pass transistor, being in parallel to a first pass transistor and being a fraction of the current through the first pass transistor is measured and compared with a reference current. In case the current through the second pass transistor is larger than this reference current the current through the gates of both pass devices is reduced and thus the output load current of the voltage regulator is limited. | 10-18-2012 |
20130193939 | VOLTAGE REGULATOR - Provided is a variable output voltage regulator capable of reducing heat generation during an overcurrent protection operation even when a setting value of an output voltage is high. The variable output voltage regulator can change an output voltage by trimming a resistor of a voltage dividing circuit in response to a trimming signal output from a trimming signal generation circuit. The trimming signal is used to change a limiting voltage of a fold-back type overcurrent protection circuit. | 08-01-2013 |
20140152280 | APPARATUS AND METHOD FOR DISTRIBUTING POWER-UP POWER DISSIPATION - A connection device for connecting a load to a power supply, comprising at least first and second current control devices arranged in parallel between the power supply and the load, and a controller arranged to switch the current control devices on in sequence for temporally overlapping on periods. | 06-05-2014 |
20140184185 | ELECTRIC SYSTEM COMPRISING A LOAD DRIVING APPARATUS BY AUTO-RECOVERY MODE, AND METHOD OF OPERATING THE APPARATUS - A driver for an electric load includes a power device having a control terminal and an output terminal for an output current, and a control module. The control module is configured to drive the power device in an auto-recovery mode by switching between activation and deactivation in the occurrence of an overcurrent condition, wherein the output current reaches a threshold current. The control module is also configured to evaluate a first time interval between a time wherein the overcurrent condition occurs, and a first time, and generate a limit signal when the time interval is equal to a time threshold. The power device is driven in a switching-off condition at least as a function of the limit signal. | 07-03-2014 |
20140327419 | CURRENT LIMITING CIRCUIT - A current limiting circuit includes a current sensing module that is configured to sense an output current of a power transistor and to generate a corresponding sensing current which is proportional to the output current. A first current limiting module coupled to the current sensing module is configured to generate a first limiting current based on the sensing current when a variation of the output current of the power transistor exceeds a first current level. A second current limiting module coupled to the current sensing module is configured to generate a second limiting current based on the sensing current when a variation of the output current of the power transistor exceeds a second current level. A converting module coupled to the first and second current limiting modules and the power transistor controls a gate voltage of the power transistor based at least on the first and second limiting currents. | 11-06-2014 |
323278000 | Having base-emitter of transistor coupled across sensor | 1 |
20100026254 | LOW DROPOUT REGULATOR AND THE OVER CURRENT PROTECTION CIRCUIT THEREOF - An over current protection circuit for low dropout regulator comprises a sense transistor, a sense resistor, an operational amplifier and a first transistor. The sense transistor senses the current flowing through the power transistor. The sense resistor is coupled to the sense transistor and shares the same current flowing through the sense transistor. The operational amplifier outputs a control signal according to the voltage across the sense resistor and a reference voltage. The first transistor controls the power transistor according to the control signal. | 02-04-2010 |
323279000 | Including final control device parameter | 2 |
20090015221 | VOLTAGE GENERATING APPARATUS - A voltage generating apparatus generates an output voltage based on an input voltage. A voltage generator includes a first operational amplifier operative to receive the input voltage and a feedback voltage proportional to the output voltage. The voltage generator regulates the output voltage so that a virtual short circuit is produced in the first operational amplifier. An output capacitor smoothes the output voltage generated by the voltage generating apparatus. A sense signal generator detects a current flowing in the output capacitor and generates a sense signal proportional to the current detected. An adder-subtractor circuit superimposes the sense signal on at least one of the input and the output of the first operational amplifier. | 01-15-2009 |
20120262138 | SYSTEM AND METHOD FOR LOAD CURRENT DEPENDENT OUTPUT BUFFER COMPENSATION - A load current compensating output buffer circuit and method are disclosed. The circuit includes a buffer amplifier coupled to a supply voltage and the inverting input receives an input voltage and the non-inverting input couples to an output capacitive load. A feedback impedance with a variable resistance circuit and a Miller capacitance in series is coupled to an output of the buffer amplifier and the capacitive load. A pass transistor couples to the supply voltage and the output capacitive load, the pass transistor having a gate terminal coupled to the output of the output buffer amplifier and the feedback impedance, a load current passing through the pass transistor. A sense circuit is configured to sense the load current and apply a control voltage to the variable resistance circuit to vary the resistance of the variable resistance circuit based on the load current. | 10-18-2012 |