| FSP TECHNOLOGY INC. Patent applications |
| Patent application number | Title | Published |
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| 20120039103 | SINGLE-STAGE AC/DC CONVERTER - A single-stage AC/DC converter is provided, and which includes a power-frequency follow-current circuit, an isolated transmission circuit (ITC), a high-frequency chopper modulation circuit (HFCMC), a power-frequency and high-frequency AC rectifying-circuit and a filter-circuit. The input of the ITC is connected to the output of an external power-frequency power source, the current-modulating side of the ITC is connected to the input of the HFCMC, the output of the ITC is connected to the input of the power-frequency and high-frequency AC rectifying-circuit, the output of the HFCMC is connected to the input of the external power-frequency power source through the power-frequency follow-current connected in series with the HFCMC , and the output of the power-frequency and high-frequency AC rectifying circuit is connected to a load through the filter circuit connected in series with the power-frequency and high-frequency AC rectifying-circuit. The invention simplifies the rectifier part with higher transformation efficiency. | 02-16-2012 |
| 20120039092 | CURRENT-INPUT-TYPE PARALLEL RESONANT DC/DC CONVERTER AND METHOD THEREOF - A current-input-type parallel resonant DC/DC converter and a method thereof are provided. The converter includes an inverter-circuit for inverting/converting an input DC current into a positive-and-negative alternating square-wave-current, a resonant-network for converting the square-wave-current into a sine-voltage, a transformer for realizing the isolation of the power transmission, a full-wave rectifier-circuit for rectifying the sine-voltage, and an output-filter-circuit for producing a DC output-voltage. The inverter-circuit is connected to both terminals of a primary-winding of the transformer through the resonant-network connected in series with the inverter-circuit, a common-polarity terminal of a first-winding at a secondary side of the transformer and an opposite-polarity terminal of a second-winding at the secondary side of the transformer are respectively connected to an input of the full-wave rectifier-circuit, and an output of the full-wave rectifier-circuit and a center-trap terminal at the secondary side of the transformer are respectively connected to an input of the output-filter-circuit. | 02-16-2012 |
| 20120032623 | METHOD OF CONTROLLING FAN SPEED - A method of controlling fan speed is provided. The method includes: setting a target speed of the fan; providing an actual control speed signal and using the actual control speed signal to drive the fan so as to obtain an actual speed of the fan; determining whether the actual speed of the fan is equal to the set target speed; and when the actual speed of the fan is equal to the set target speed, continuously using the provided actual control speed signal to drive the fan, otherwise, gradually compensating the intensity of the provided actual control speed signal until the actual speed of the fan is equal to the set target speed after the fan is driven by the gradually compensated actual control speed signal. | 02-09-2012 |
| 20120013261 | LIGHT EMITTING DIODE BACKLIGHT DRIVING CIRCUIT - An LED backlight driving circuit including a boost circuit and a transformer current balance circuit is provided. The boost circuit provides a total current for n LED strings, and the transformer current balance circuit is coupled to the LED strings and includes n−1 transformers. A first LED current-balance-circuit (CBC) includes a switching-transistor connected to a secondary-winding of a first-transformer, and an n | 01-19-2012 |
| 20120007513 | PASSIVE CURRENT BALANCE DRIVING APPARATUS - A passive current balance driving apparatus has a circuit topology composed by several simple passive components and is capable of driving a plurality of LED strings simultaneously. The present passive current balance driving apparatus is mainly configured such that each LED string has the identical load characteristics during the positive and negative half cycles of the AC power. As such, the currents flowing through the respective LED strings are basically/substantially equal, thereby achieving the current balance. | 01-12-2012 |
| 20110242774 | POWER SUPPLY DEVICE AND POWER SUPPLY MODULE - A power supply device including a casing and a power supply module is provided. The casing has an opening. The power supply module includes a frame, a pin base, a plurality of pins and a printed circuit board. The frame is detachably disposed in the casing. The pin base is fixed at the frame and is exposed by the opening. The pins are fixed at the pin base, and first ends of the pins are exposed in the opening. The printed circuit board is disposed in the casing and is electrically connected to second ends of the pins. | 10-06-2011 |
| 20110242768 | POWER SUPPLY AND HANDLE STRUCTURE THEREOF - A handle structure includes a holding portion, a first inner-thread structure and a second inner-thread structure. The holding portion has a first fixing pillar, a second fixing pillar and a force-applying rod connected between the first fixing pillar and the second fixing pillar parallel to the first fixing pillar. The first inner-thread structure is inlaid in the first end of the first fixing pillar. The first fixing pillar has a first height perpendicular to the faceplate, and the height of the first inner-thread structure perpendicular to the faceplate is greater than the half of the first height. The second inner-thread structure is inlaid in the second end of the second fixing pillar. The second fixing pillar has a second height perpendicular to the faceplate, and the height of the second inner-thread structure perpendicular to the faceplate is greater than the half of the second height. | 10-06-2011 |
| 20110242766 | POWER SUPPLY AND HEAT DISSIPATION MODULE THEREOF - A power supply includes a casing, a printed circuit board (PCB) and a heat dissipation module. The PCB is disposed in the casing and has a heat-generating element. The casing has a top cover. The heat dissipation module includes a heatsink and a heat dissipation plate. The heatsink is disposed at the PCB and contacts the heat-generating elements. The heatsink has a surface facing the top cover. The heat dissipation plate is disposed between the heatsink and the top cover and contacts the surface of the heatsink. | 10-06-2011 |
| 20110242759 | POWER SUPPLY - A power supply including a housing, a sliding member, a plurality of terminals and a fan module is provided. The housing has an opening and an inner sidewall. The sliding member is disposed on the inner sidewall of the housing. The sliding member has at least one fixing slot parallel to the inner sidewall. The terminals are disposed on the sliding member and can slidably move parallel to the inner sidewall. The fan module is mounted in the housing from the opening. A terminal connector is disposed on an outer sidewall of the fan module and located on a moving direction of the terminals, so that the terminal connector can be electrically connected to the terminals. | 10-06-2011 |
| 20110228503 | POWER STRUCTURE - A power structure including a circuit board, a power transforming circuit board, and a fixing element is provided. The circuit board includes a substrate, a set of power supply connector, and a first power output structure. The set of power supply connector and the first power output structure are electrically connected. The first power output structure has a first fixing hole and at least one cable connecting hole. The power transforming circuit board has a power input structure and at least one power transforming circuit. The power input structure having a second fixing hole is electrically connected to the power transforming circuits. The fixing element penetrates through the first fixing hole of the first power output structure and the second fixing hole of the power input structure, so as to electrically connect the first power output structure to the power input structure. | 09-22-2011 |
| 20110227548 | POWER SUPPLY APPARATUS - A power supply apparatus is provided. The power supply apparatus includes two power suppliers coupled in parallel so as to simultaneously supply the electric power required by an electronic product in operation. The power supply apparatus provided by the invention may stably/accurately output the desired DC output voltage to the electronic product, and may further in advance increase a main power generated inside the other power supplier when one of the power suppliers is over voltage, thereby avoiding an oversized voltage drop from occurring in the DC output voltage. | 09-22-2011 |
| 20110227521 | METHOD OF STARTING A FAN - A fan starting method including following steps is provided. A fan module including a control unit and a fan is provided, wherein the control unit and the fan are electrically connected with each other. An electric power is supplied to the fan module, wherein the electric power drives the fan to rotate at a full speed. Whether the fan rotates is determined by the control unit within a predetermined time. If the fan rotates, the fan is controlled to rotate at a predetermined load speed after the predetermined time. If the fan does not rotate, an alarm signal or an off signal is issued by the control unit. | 09-22-2011 |
| 20110227413 | POWER SUPPLY APPARATUS - A power supply apparatus is provided. The power supply apparatus includes two power suppliers coupled in parallel so as to simultaneously supply the electric power required by an electronic product in operation. The power supply apparatus provided by the invention may stably/accurately output the desired DC output voltage to the electronic product, and may further in advance increase a main power generated inside the other power supplier when one of the power suppliers is over voltage, thereby avoiding an oversized voltage drop from occurring in the DC output voltage. | 09-22-2011 |
| 20110226517 | POWER TRANSFORMING CIRCUIT BOARD - A power transforming circuit board includes a substrate and at least one power output structure. The substrate has at least one power transforming circuit and at least one pair of power input holes. The power output structure is disposed on the substrate. Each power output structure is electrically connected with one corresponding power transforming circuit. Each power output structure has at least one cable connecting hole. The normal direction of each power output structure is oriented at an angle with respect to the normal direction of the substrate. | 09-22-2011 |
| 20110199064 | DC-TO-DC CONVERTER - A DC-to-DC converter adapted for generating a power voltage required by a load and including a buck circuit and a boost circuit is provided. The buck circuit is used for receiving a DC input voltage, and outputting the power voltage by performing a buck process to the DC input voltage, or directly outputting the DC input voltage according to a first control signal. The boost circuit is used for receiving the power voltage or the DC input voltage both output from the buck circuit, and outputting the power voltage to the load by performing a boost process to the DC input voltage output from the buck circuit, or directly outputting the power voltage output from the buck circuit to the load according to a second control signal. | 08-18-2011 |
| 20110037414 | DRIVING APPARATUS FOR LIGHT EMITTING DIODES - A driving apparatus is provided and configured to suit driving at least a string of light emitting diodes (LEDs). The driving apparatus includes a flyback power factor correction (PFC) converter, a harmonics-filtering unit and a control unit. The flyback PFC converter works in an operation mode according to a pulse-width modulation (PWM) signal and receives an AC power so as to convert the AC power into a pulsating current. The harmonics-filtering unit is coupled to the flyback PFC converter and the string of LEDs, for receiving the pulsating current and filtering out the high-frequency harmonic components in the pulsating current so as to drive the string of LEDs. The control unit is coupled to the flyback PFC converter and the harmonics-filtering unit, for producing the PWM signal according to the AC power and the pulsating current, and reducing the peak-to-average ratio (PAR) of the pulsating current. | 02-17-2011 |
| 20110018463 | PASSIVE CURRENT BALANCE DRIVING APPARATUS - A passive current balance driving apparatus including first and second drivers is provided. The first driver includes a first balance-capacitor having a first terminal coupled to a first terminal of an AC signal source and a second terminal providing a first balance AC-voltage; and a first rectification unit rectifying the first balance AC-voltage to output a first DC-voltage to drive a first LED string with multi-LEDs connected in series. The second driver includes a second balance-capacitor having a first terminal coupled to a first terminal of the AC signal source and a second terminal providing a second balance AC-voltage; and a second rectification unit rectifying the second balance AC-voltage to output a second DC-voltage to drive a second LED string with multi-LEDs connected in series. The capacitive reactances of these two balance-capacitors are the same and respectively greater than the total internal resistances of the first and second LED strings. | 01-27-2011 |
| 20100265745 | PARAMETER CONFIGURATION METHOD FOR ELEMENTS OF POWER FACTOR CORRECTION FUNCTION CONVERTER - The present invention discloses a parameter configuration method for elements of a PFC function converter. The converter has a PFC circuit modulating an input power into a DC modulated power and a transformer transforming the DC modulated power into an output power. The method of the present invention comprises a storage capacitor configuration procedure, a storage inductor configuration procedure and a verification procedure. The storage capacitor configuration procedure predetermines a test voltage and a rated bus voltage lower than the test voltage, determines a parameter of the storage capacitor according to the test voltage and uses the storage capacitor to supply the rated bus voltage. The storage inductor configuration procedure determines an inductance of a storage inductor to match the storage inductor and the primary coil of the transformer work in a discontinuous current mode. The verification procedure verifies whether the power factor of the converter exceeds 0.9. | 10-21-2010 |
| 20090046422 | Protection structure for heat dispersing device of power supplier - The present invention includes a metal housing, a power input end, a power output end, and an accommodating space thereinside between the power input end and the power output end, the accommodating space has a power processing unit mounted inside and the output terminal of the power processing unit is located at the power output end of the power supplier. The metal housing of the power supplier has an assembling opening mounted thereon and located above the accommodating space for assembling at least a heat dispersing device. The protection structure includes a fixing frame, mounted in the accommodating space and fixedly connected with two sides of the heat dispersing device and the metal housing, and a metal protection case, covered on the assembling opening and tightly engaged with the metal housing, wherein the metal protection case and the fixing frame respectively have positioning portions corresponding to each other. | 02-19-2009 |
