Patent application number | Description | Published |
20080203990 | SWITCHING REGULATOR - A switching regulator that includes an inductor, a first step-down switch to store charge in the inductor, a second step-down switch to discharge the charge, a first step-up switch to store charge in the inductor, a second step-up switch to discharge the charge, a reverse current detector to detect a reverse current from an output terminal to the inductor through the second step-up switch, or an indication of the reverse current, based on a detection voltage, and a controller to control the first and second step-down switches, and the first and second step-up switches to output a predetermined constant voltage, and to shut off the second step-up switch to make shutdown condition when the detector detects the reverse current or an indication of the reverse current. The reverse current detector may have a threshold value in the step-down operation that is different from a threshold value in the step-up operation. | 08-28-2008 |
20080211454 | BATTERY PACK HAVING A SECONDARY BATTERY AND A CHARGING SYSTEM USING THE BATTERY PACK - A battery pack including at least one secondary battery and supplying power to predetermined equipment is disclosed. In the battery pack, charging current to the secondary battery supplied from an external charging device is cut oft to suspend charging the secondary battery until receiving a predetermined instruction from the external charging device. | 09-04-2008 |
20080315850 | SWITCHING REGULATOR - A switching regulator includes an inductor, first and second switches, a first rectifier to allow current flowing from a negative voltage output terminal to a connection node between the inductor and the first switch, a second rectifier to allow current flowing from a positive voltage output terminal to a connection node between the inductor and the second switch, a third switch, a first capacitor connected between the negative voltage output terminal and ground, a second capacitor connected between the positive voltage output terminal and ground, and a controller to control switching operations of the first, second and third switches to make each voltages at the negative and positive voltage output terminals to be corresponding predetermined voltages. The control circuit switches the first and second switches on/off simultaneously to make a sum of absolute values of voltages at the negative and positive voltage output terminals a predetermined voltage value. | 12-25-2008 |
20090066309 | SWITCHING REGULATOR - A switching regulator is disclosed that uses a non-linear amplifier and is capable of PWM control operation at high frequencies with a simple circuit configuration and without increasing current consumption. The switching regulator includes a switching unit, an inductor, a rectification unit, and a control circuit that controls the switching of the switching unit so that the output voltage of the switching regulator becomes a constant voltage. The control circuit uses a pulse signal to perform PWM control on the switching unit. The pulse signal is generated by amplifying an error voltage between the output voltage and a reference voltage at a gain variable in response to a voltage of a saw-tooth waveform signal. | 03-12-2009 |
20090085540 | Voltage Rising/Falling Type Switching Regulator and Reverse Current Prevention Method - A voltage rising/falling type switching regulator includes an inductor, a voltage-falling switching element, a voltage-falling rectifier element, a voltage-rising switching element, a voltage-rising synchronous rectification switching element, a control circuit part, and a reverse current detecting part. The control circuit part is arranged so that the voltage-falling switching element is switched ON and set in a conduction state at the time of voltage-rising operation, and the voltage-rising synchronous rectification switching element is switched ON and set in a conduction state at the time of voltage-falling operation. If the reverse current detecting part detects a reverse current, the voltage-falling switching element is switched OFF and set in a cut-off state. | 04-02-2009 |
20090174384 | SWITCHING REGULATOR AND METHOD OF CONTROLLING THE SAME - A disclosed switching regulator converts an input voltage to an output voltage of a predetermined level and outputs the output voltage. The disclosed switching regulator includes a switching transistor configured to be turned on and off according to a control signal; an inductor configured to be charged by the input voltage when the switching transistor is turned on; a mode switching circuit configured to generate a switching signal for switching a control mode of the switching transistor between a PWM control mode and a VFM control mode; and a control circuit configured to control the switching transistor in the PWM control mode or the VFM control mode depending on the switching signal from the mode switching circuit so that the output voltage is maintained at the predetermined level. | 07-09-2009 |
20090322298 | SWITCHING REGULATOR AND SEMICONDUCTOR APPARATUS INCLUDING THE SAME - A switching regulator is disclosed that includes a switching element; an inductor; a rectifier element; an error amplifier circuit portion; a PWM pulse generating circuit portion; a current sensing circuit portion; an output voltage decrease detecting circuit portion; a current pulse generating circuit portion; a phase detecting circuit portion; a VFM pulse generating circuit portion; and a switching control circuit portion configured to generate a control signal based on a PWM signal or a VFM signal and to switch a control status of the switching element from a PWM control to a VFM control in accordance with a third signal output from the phase detecting circuit portion, and to switch the control status from the VFM control to the PWM control in accordance with a second signal output from the output voltage decrease detecting circuit portion. | 12-31-2009 |
20100320973 | CHARGE CONTROL CIRCUIT - When a control circuit detects from a signal CPO | 12-23-2010 |
20100327831 | CONSTANT CURRENT SUPPLY TYPE OF SWITCHING REGULATOR - A disclosed constant current supply type switching regulator includes a switching element configured to activate a switch operation depending on an input control signal, an inductor configured to be charged with the input voltage in response to the switching element activating the switch operation, a rectification element configured to discharge the inductor in response to the switching element shifting to a cutoff state, a current detection circuit unit configured to generate a current proportional to a current flowing into the switching element and generate and supply a current sense voltage depending on the proportional current and a control circuit unit configured to average the current sense voltage supplied from the current detection circuit unit and perform PWM (Pulse Width Modulation) control on the switching element for supplying a constant current in order to force the averaged voltage to be equal to a first reference voltage. The control circuit unit compares the averaged voltage with the first reference voltage and uses a pulse signal indicative of the comparison to perform the PWM control for supplying the constant current. | 12-30-2010 |
20100327832 | CONSTANT CURRENT OUTPUT CONTROL TYPE SWITCHING REGULATOR - A constant current output control type switching regulator that reduces the number of parts, resolves the loss of the current running in the resistor, and eliminates the need to change the time constant of the integrator due to changing the inductor value. The switching regulator creates the adjustment reference voltage by multiplying the proportion of Vout/Vin by the reference voltage, and when the clock signal is high, the current sense voltage is sampled when the current of the initial current value runs in the switching transistor, and when the clock signal is low, the potential difference between the adjustment reference voltage and the sampled current sense voltage is added to the adjustment reference voltage and creates the second reference voltage; and with the signal CPOUT controls the operation of the transistors upon execution of PWM control. | 12-30-2010 |
20110068762 | CURRENT SENSING CIRCUIT AND SWITCHING REGULATOR INCLUDING THE SAME - A current sensing circuit configured to sense current flowing through a switching transistor of a non-insulated switching regulator, the current sensing circuit includes a voltage divider circuit portion; a first transistor; a first impedance element; a second transistor; a third transistor; and a first voltage comparing circuit portion, wherein control terminals of the first transistor, the second transistor, and the third transistor are connected to each other and a connecting portion of the control terminals is connected to a connecting portion between the third transistor and the first constant current source. | 03-24-2011 |
20120112724 | CHARGE PUMP CIRCUIT AND OPERATION CONTROL METHOD THEREOF - A charge pump circuit which steps down an input voltage inputted from an input terminal and outputs it as a step-down output voltage from a step-down output terminal, and steps up the input voltage and outputs it as a step-up output voltage from a step-up output terminal, includes: a voltage conversion circuit having a flying capacitor, a step-down output capacitor, a step-up output capacitor, and a plurality of switches, wherein the flying capacitor, the step-down output capacitor, the step-up output capacitor, and the switches are connected, and the voltage conversion circuit is capable of switching connection states by switching each on/off state of the switches; an output voltage detection circuit unit which makes a comparison of a voltage between the step-down output voltage and a first predetermined voltage, and makes a comparison of a voltage between the step-up output voltage and a second predetermined voltage, and produces and outputs each signal indicating each result of the comparisons; and a control circuit unit which performs a switching control depending on each signal outputted from the output voltage detection circuit unit. | 05-10-2012 |
20120206110 | REVERSE CURRENT PREVENTION CIRCUIT, CHARGING CIRCUIT INCORPORATING REVERSE CURRENT PREVENTION CIRCUIT, AND CONSTANT-VOLTAGE CIRCUIT INCORPORATING REVERSE CURRENT PREVENTION CIRCUIT - A reverse current prevention circuit, connected to an input terminal, an output terminal, and a driver transistor, including a current detection circuit to detect a current flowing through the driver transistor, and convert the detected current into a detection voltage; a proportional voltage generator to generate a proportional voltage proportional to a difference voltage between an input voltage at the input terminal and an output voltage at the output terminal; an inversely-proportional voltage generator to generate an inversely-proportional voltage inversely proportional to the difference voltage between the input voltage and the output voltage; and a comparison circuit to compares the generated voltages. When the detection voltage, the proportional voltage, and the inversely-proportional voltage are equal, the comparison circuit determines that the indication of the reverse current is detected and prevents the reverse current flowing from the output terminal to the input terminal. | 08-16-2012 |
20130063078 | CHARGING CIRCUIT AND CONTROL METHOD THEREFOR - A charging circuit includes a power path control unit which switches a first switch connected between a system connection terminal and a battery connection terminal on while not charging, and switches the first switch on and a second switch connected between an external power supply input terminal and the system connection terminal on while charging so as to supply power to a system and charge a battery. A voltage difference between the external power supply input terminal and the battery connection terminal is detected, a current flowing between the external power supply input terminal and the system connection terminal is detected, and it is determined that an external power supply is disconnected based on the detection results of the voltage differences and the current. | 03-14-2013 |
20130063105 | DC-DC CONVERTER CONTROL CIRCUIT AND DC-DC CONVERTER INCLUDING SAME - A DC-DC converter control circuit, to control a DC-DC converter having an inductor and two switches, including a first feedback circuit; a second feedback circuit; a synthesis circuit to add a first feedback voltage indicating a DC component of an inductor current based on an output voltage of the DC-DC converter and a second feedback voltage indicating an AC component thereof to generate a third feedback voltage; a comparator to compare the third feedback voltage with a reference voltage to output a comparison result; and an on-time adjusting circuit to adjust on/off time of the switches based on the comparison result for outputting a control signal depending on the adjusting result. The second feedback voltage is generated based on a difference between input and output voltages of the DC-DC converter when the control signal is low and based on the output voltage when the control signal is high. | 03-14-2013 |
20130063106 | DC-DC CONVERTER CONTROL CIRCUIT AND DC-DC CONVERTER INCLUDING SAME - A DC-DC converter control circuit, to control a DC-DC converter having an inductor and two switching elements, including a first feedback circuit to generate a first feedback voltage indicating a DC component of an inductor current of the inductor based on an output voltage of the DC-DC converter; a second feedback circuit to generate a second feedback voltage indicating an AC component of the inductor current; a synthesis circuit to add the first and second feedback voltages to generate a third feedback voltage; a comparator to compare the third feedback voltage with a reference voltage to output a control signal; and a driving circuit to control the switching elements. The second feedback voltage is generated based on a difference between input and output voltages of the DC-DC converter when the control signal from the comparator is low and based on the output voltage when the control signal is high. | 03-14-2013 |
20130063107 | DC-DC CONVERTER CONTROL CIRCUIT AND DC-DC CONVERTER INCLUDING SAME - A DC-DC converter control circuit, to control a DC-DC converter having an inductor and two switches, including a first feedback circuit; a second feedback circuit; a synthesis circuit to add a first feedback voltage indicating a DC component of an inductor current based on an output current of the DC-DC converter and a second feedback voltage indicating an AC component thereof to generate a third feedback voltage; a comparator to compare the third feedback voltage with a reference voltage to output a comparison result; and an on-time adjusting circuit to adjust on/off time of the switches based on the comparison result for outputting a control signal depending on the adjusting result. The second feedback voltage is generated based on a difference between input and output voltages of the DC-DC converter when the control signal is low and based on the output voltage when the control signal is high. | 03-14-2013 |
20130063108 | DC-DC CONVERTER CONTROL CIRCUIT AND DC-DC CONVERTER INCLUDING SAME - A DC-DC converter control circuit, to control a DC-DC converter having an inductor and two switching elements, including a first feedback circuit to generate a first feedback voltage indicating a DC component of an inductor current of the inductor based on an output current of the DC-DC converter; a second feedback circuit to generate a second feedback voltage indicating an AC component of the inductor current; a synthesis circuit to add the first and second feedback voltages to generate a third feedback voltage; a comparator to compare the third feedback voltage with a reference voltage to output a control signal; and a driving circuit to control the switching elements. The second feedback voltage is generated based on a difference between input and output voltages of the DC-DC converter when the control signal from the comparator is low and based on the output voltage when the control signal is high. | 03-14-2013 |