| Patent application number | Description | Published |
|---|
| 20080203982 | POWER SUPPLY SYSTEM FOR MOTHERBOARD - A power supply system for a motherboard includes a voltage regulator circuit includes a system power source, and a voltage output terminal, a sampling circuit having an input, and an output receiving a high level sleep signal from a south bridge of the motherboard, a switching circuit having an input, and an output, a power connector having a control terminal connected to the output of the switching circuit, and a power source being connected to the power connector. When the voltage regulator circuit outputs a voltage greater than a predetermined stable voltage to the sampling circuit, the sampling circuit outputs a low level signal to the switching circuit which in return outputs a high level signal to the control terminal of the power connector to cut off power supply from the power source to the system power source. | 08-28-2008 |
| 20080224691 | METHOD FOR TESTING ROTATION SPEED OF FAN - An exemplary method for testing rotating speed of a fan, includes the following steps: coupling a fan and a resistor in series to a power supply; coupling an oscilloscope in parallel with the resistor; plotting voltage across the resistor on a screen of the oscilloscope, and obtaining the period of the voltage according to the image; and obtaining the rotating speed of the fan. | 09-18-2008 |
| 20080258927 | MONITORING DEVICE FOR MOTHERBOARD VOLTAGE - An embodiment of a device for monitoring voltages of a motherboard includes: a comparator having an input terminal connected to a reference voltage and the other input terminal connected to a voltage of the motherboard; an electrical switch having a first terminal connected to an output terminal of the comparator, a second terminal connected to a power source, and a third terminal being grounded; and a light emitting diode (LED) including a cathode connected to the second terminal of the electrical switch and an anode connected to the power source. The electrical switch is turned on when the first terminal of the electrical switch receives a controlling signal from the comparator. Then the LED emits light to show an abnormal state of the voltage of the motherboard. | 10-23-2008 |
| 20080266996 | MEMORY POWER SUPPLY CIRCUIT - A memory power supply circuit configured for supplying power to two types of memories slots of a motherboard includes a slot detecting terminal configured to connect with a detecting pin of the motherboard which is used to detect the memory slots, an electrical switch element, a first resistor, a second resistor, a third resistor, and a voltage output terminal connected to power input pins of the two types of memories slots. The second resistor and third resistor are connected in series between a first power supply and ground. The slot detecting terminal is connected to a first terminal of the electrical switch element. A second terminal of the electrical switch element is grounded. A third terminal of the electrical switch element is connected to the voltage output terminal via the first resistor and connected to a node between the second and third resistors. | 10-30-2008 |
| 20080284377 | BATTERY CHARGING APPARATUS - An exemplary battery charging apparatus for charging a storage battery includes a power input configured for receiving power from a voltage source, a zener diode, a voltage divider, a driving circuit, a switching circuit, and a power output. The cathode of the zener diode is connected to the power input, the anode of the zener diode is connected to ground via the voltage divider. The driving circuit has an input connected to an output of the voltage divider, an output connected to a first terminal of the switching circuit, a second terminal of the switching circuit is connected to the power input, a third terminal of the switching circuit is connected to the power output which is connected to the storage battery. The battery charging apparatus can protect the storage battery from being charged by over voltage. | 11-20-2008 |
| 20080303506 | VOLTAGE TOLERANCE MEASURING APPARATUS FOR MOTHERBOARD - A voltage tolerance measuring apparatus configured to measure voltage tolerance of a motherboard includes a first connector configured to connect with a power connector of a computer power supply, a second connector configured to connect with a power connector of the motherboard, and a measuring circuit having an adjustable direct current (DC) power supply and a switch circuit. The adjustable DC power supply is connected to power pins of the second connector via the switch circuit. The switch circuit is connected to a power-on pin of the second connector. When the switch circuit receives a power-on signal of the motherboard via the power-on pin of the second connector, the switch circuit controls the adjustable DC power supply to supply power to the power pins of the second connector. | 12-11-2008 |
| 20090037751 | POWER REGULATOR CIRCUIT OF A MOTHERBOARD - An exemplary power regulator circuit of motherboard includes a power connector comprising a power supply on pin, a power good pin and a first power pin for being coupled to an ATX power supply, the power good pin providing a first power good signal; an electric switch having a first terminal connected to the power supply on pin of the power connector, a second terminal connected to the power good pin of the power connector, and a grounded third terminal; a diode with the cathode connected to the power good pin of the power connector, and the anode connected to the first power pin of the power connector via a first resistor and grounded via a first capacitor; and an output terminal connected to the anode of the diode to provide a second power good signal. | 02-05-2009 |
| 20090051555 | POLYPHASE SOURCE DETECTING CIRCUIT - A polyphase source detecting circuit configured for detecting a polyphase source having three sources includes three sampling circuits and an alarm circuit. Each sampling circuit has a control switch. A control terminal of the control switch of each sampling circuit is connected to one of the phase sources of the polyphase source respectively. The alarm circuit has a first transistor, a first LED, and a buzzer. The anode of the first LED is connected to a power supply. The cathode of the first LED is connected to the base of the first transistor and connected to ground via the control switches of the sampling circuits in turn. The collector of the first transistor is connected to the power supply via the buzzer. The emitter of the first transistor grounded. | 02-26-2009 |
| 20090055663 | POWER SUPPLY CONTROL SIGNAL GENERATING CIRCUIT - A power supply control signal generating circuit includes a connector, a switch, a transistor, and an input-output (I/O) controller. The connector includes a first pin and a grounded second pin. The switch has two terminals respectively coupled to the first pin and the second pin of the connector. The transistor has its base coupled to the first pin of the connector and a power supply via a first resistor, its collector coupled to the power supply via a second resistor, and its emitter grounded. The I/O controller has an input terminal coupled to the collector of the transistor, and outputs a power supply control signal at the output terminal. | 02-26-2009 |
| 20090102543 | NEGATIVE VOLTAGE GENERATING CIRCUIT - A negative voltage generating circuit for providing a negative voltage for an electronic circuit, includes a voltage input terminal receiving a positive voltage, a voltage output terminal outputting the negative voltage to the electronic circuit, a pulse generator, a first transistor, a second transistor, a first capacitor, at least one first diode, a second diode, a second capacitor, and a first resistor. When the pulse generator outputs a high level signal, the capacitor is charged, and the full voltage of the capacitor equals the difference between the voltage of the voltage input terminal and the voltage of the at least one first diode. When the pulse generator outputs a low level signal, the capacitor discharges through the first resistor, the voltage output terminal outputs a negative voltage, the value of the negative voltage equals the difference between the voltage of the capacitor and the voltage of the second diode. | 04-23-2009 |
| 20090102673 | POLYPHASE SOURCE DETECTING CIRCUIT - A polyphase source detecting circuit configured for detecting a polyphase source having at least two phase sources includes at least two sampling circuit and an alarm circuit. Each sampling circuit has a control switch. A control terminal of the control switch of each sampling circuit is connected to one of the phase sources of the polyphase source respectively. The alarm circuit has a first transistor, a first LED, and a second LED. The anodes of the first and second LEDs are connected to a power supply. The cathode of the first LED is connected to the gate of the first transistor and connected to ground via the control switches of the sampling circuits in turn. The cathode of the second LED is connected to the drain of the first transistor. The source of the first transistor grounded. | 04-23-2009 |
| 20090106565 | POWER CONTROL APPARATUS FOR MOTHERBOARD - A power control apparatus for automatically turning on or off a motherboard includes a first connector, a second connector, and a control circuit. The control circuit includes a timing chip, a first variable resistor, a second variable resistor, a first capacitor, a first switch element, and a second switch element. When the first capacitor is charged, the output terminal of the timing chip outputs a high level signal, the first switch element and the second switch element are turned on, the control circuit outputs a 5V voltage to the motherboard. When the first capacitor discharges, the output terminal of the timing chip outputs a low level signal, the first switch element and the second switch element are turned off, the control circuit does not output 5V voltage to the motherboard. | 04-23-2009 |
| 20090106574 | POWER GOOD SIGNAL GENERATING CIRCUIT - A power good signal generating circuit includes a first resistor and a capacitor, a system power is grounded via the first transistor and the capacitor in sequence; a first transistor, the base of the first transistor is for receiving a PS_ON signal from the motherboard, the collector of the first transistor is connected to a node between the first transistor and the capacitor; a second transistor, the gate of the second transistor is connected to the collector of the first transistor, the drain of the second transistor is connected to a standby power; and a third transistor, the base of the third transistor is connected to the drain of the second transistor, the collector of the third transistor is connected to the system power, for outputting a PWR_GOOD signal. | 04-23-2009 |
| 20090141411 | VOLTAGE REGULATOR MODULE CONTROL CIRCUIT - An exemplary voltage regulator module (VRM) control circuit includes a VRM providing a plurality of phases, each of the phases connected to a control terminal of a corresponding electric switch; a comparator comprising a non-inverting terminal connected to a first power source and grounded via the electric switches respectively, an inverting terminal connected to a reference voltage, and an output terminal; and a control switch connected between an enable terminal of the VRM and ground, the control switch comprising a control terminal connected to the output terminal of the comparator, wherein, if one of the phases of the VRM is lost, the corresponding electric switch is turned off, and a voltage of the non-inverting terminal of the comparator is higher than the reference voltage, the comparator outputs a control signal to the control switch for turning on the control switch, thus turning off the VRM. | 06-04-2009 |
| 20090153224 | CIRCUIT FOR TURNING ON MOTHERBOARD - An exemplary circuit for turning on a motherboard comprises a first switch module comprising a first terminal arranged to receive a standby power and connected to a sixth terminal of a computer front panel header, a second terminal arranged to receive the standby power, and a control terminal; a timing circuit charged by a system power; and a second switch module comprising a first terminal connected to the control terminal of the first switch module via the timing circuit, a second terminal arranged to receive the standby power, and a control terminal arranged to receive the system power, wherein, when the system power is lost, the second switch module discharges the timing circuit for turning on the first switch module after a discharge time, and the motherboard is turned on when the first switch module is turned on to ground the sixth terminal of the computer front panel header. | 06-18-2009 |
| 20090154207 | NEGATIVE VOLTAGE GENERATING CIRCUIT - A negative voltage generating circuit includes a pulse generator U | 06-18-2009 |
| 20090164695 | PCI LOAD CARD - A PCI load card includes a PCI interface, an operational amplifier, at least two switches, and a controller. A terminal of each switch is connected to an input terminal of the operational amplifier and connected to a standby power pin of the PCI interface via a first resistor. The other terminals of the at least two switches are respectively connected to ground via at least two resistors. The other input terminal of the operational amplifier is grounded. An output terminal of the operational amplifier is connected to a first terminal of the controller, a second terminal of the controller is connected to a system power pin of the PCI interface, a third terminal of the controller is grounded, the power of the controller is adjusted by controlling the at least two switches. | 06-25-2009 |
| 20090167084 | ADAPTOR CIRCUIT FOR POWER SUPPLY - An exemplary adaptor circuit of a power supply includes a power connector, a first electric switch, a second electric switch, and an output terminal. The power connector includes a power good pin and a power pin. The first electric switch has a first terminal connected to the power good pin of the power connector, a second terminal connected to the power pin of the power connector, and a grounded third terminal. The second electric switch has a first terminal connected to the second terminal of the first electric switch, a second terminal connected to a first voltage terminal via a first transmission line or a second voltage terminal via a second transmission line by selectively mounting a connection component to close an open segment of the corresponding transmission line, and a grounded third terminal. The output terminal outputs a driving voltage signal to chipsets on a motherboard. | 07-02-2009 |
| 20090167316 | MOTHERBOARD TESTING APPARATUS - A motherboard testing apparatus for automatically turning on or off a motherboard includes a pulse signal generating circuit for outputting a pulse signal, a first control circuit for outputting a first control signal to an I/O controller on the motherboard according to the pulse signal, and a second control circuit. The first control circuit outputs a low level first control signal when it receives a low level pulse signal, the I/O controller turns the motherboard on when it receives the low level first control signal. The second control circuit outputs a second control signal to the first control circuit which controls the motherboard to turn on again when the first control circuit receives the low level pulse signal a next time. | 07-02-2009 |
| 20090167318 | VOLTAGE VARIANCE TESTER - An exemplary voltage variance tester includes a first to a third testing circuits each comprising an adjustable power source and an electrical switch; a first to a third signal generators providing a first to a third signals respectively; a connector having a first to a third terminals connected to the first to the third testing circuits respectively for receiving the adjustable power sources, a fourth to a sixth terminals connected to the first to the third signal generators for receiving the first to the third signals, and a seventh terminal; and a control circuit connected to the seventh terminal of the connector for receiving a power on signal to turn on the first to third electrical switch, wherein, voltage variances of the motherboard are tested by adjusting the first to the third adjustable power sources. | 07-02-2009 |
| 20090177897 | POWER CONTROL APPARATUS FOR MOTHERBOARD - A power control apparatus for automatically turning on and off a motherboard, the power control apparatus includes a power supply supplying electric power to the motherboard periodically, a control circuit including a first switch element, a second switch element, a first capacitor, a second capacitor, a first resistor, and a second resistor. When the power supply is powered up, the second capacitor is charged, the second switch element is turned on, a second terminal of the second switch element outputs a low level signal to power up the motherboard. When the motherboard is powered up, the first capacitor is charged, the first switch element is turned on, the second switch element is turned off, the second terminal of the second switch element outputs a high level signal. The motherboard is powered off when the power supply is powered off. | 07-09-2009 |
