Patent application number | Description | Published |
20130271941 | CONVERTER POWER UNIT AND ITS BUS BARS - A converter power unit comprises: a heat sink; n power switch modules on the heat sink; a first group of laminated bus bars comprising a first and a second bus bar; a capacitor group comprising m capacitor; a second group of laminated bus bars comprising a third and a fourth bus bar, the first bus bar is connected with the third bus bar, the second bus bar is connected with the fourth bus bar; providing that vertical projection areas projected by an area occupied by the n power switch modules and projected by the capacitor group on a first plane perpendicular to an axial direction of the capacitor group are defined as a first and a second projection areas respectively, the first and the second projection area have an overlapped area. The present application can reduce the stray inductances in the commutating loop of the converter. | 10-17-2013 |
20140063738 | HEAT-DISSIPATING TYPE OF POWER CONVERTER - A heat-dissipating type of power converter comprises a support unit, at least one power module, at least one pair of rails and at least one main air duct module corresponding to the at least one power module. The pair of rails are fixed to the support unit and parallel to each other. The power module comprises a mounting plate module, a power unit and a radiator. wherein the power unit is fixed to the radiator, and the mounting plate module and the radiator are fixedly connected to each other. the main air duct module is fixed to the support unit and provided between the pair of rails, a second opening is defined in a side of the main air duct module toward the power module. The power module is assembled with or disassembled from the main air duct module by sliding along the pair of rails. Wherein after the power module is assembled with the main air duct module, the radiator is plugged into the main air duct module through the second opening, the power unit is positioned outside the main air duct module, and the main air duct with a sealed sidewall is defined by the mounting plate module, the radiator and the main air duct module. | 03-06-2014 |
Patent application number | Description | Published |
20090109591 | INRUSH CURRENT PROTECTION CIRCUIT - Disclosed is an inrush current protection circuit for preventing inrush energy from entering a circuit to be protected through a power input terminal of the circuit to be protected. The inrush current protection circuit includes a varistor connected to the power input terminal of the circuit to be protected for absorbing inrush energy, and a thermal fuse having one end connected with the varistor and the power input terminal of the circuit to be protected and having the other end connected to a power line, in which when the thermal fuse is blown out, the circuit to be protected is disconnected from the power line. | 04-30-2009 |
20100096928 | AUTOMATIC START-UP CIRCUIT AND UNINTERRUPTIBLE POWER SUPPLY APPARATUS HAVING SUCH AUTOMATIC START-UP CIRCUIT - An automatic start-up circuit for use in an uninterruptible power supply apparatus is provided. The uninterruptible power supply apparatus includes an energy storage unit and a switching circuit. The automatic start-up circuit includes an operating status detecting circuit and a secondary switch driving circuit. The operating status detecting circuit is connected to an energy storage unit connecting node for detecting an operating status of the energy storage unit through the energy storage unit connecting node, and generating an start-up control signal according to the operating status of the energy storage unit. The secondary switch driving circuit is connected to the operating status detecting circuit, a control terminal of the switching circuit and a common terminal for determining whether the switching circuit is automatically driven to be conducted to start up the uninterruptible power supply apparatus according to the start-up control signal. | 04-22-2010 |
20100148584 | UNINTERRUPTIBLE POWER SUPPLY WITH LOW POWER LOSS - An uninterruptible power supply includes an energy storage unit, an AC-to-DC converting circuit, a charging circuit, a selection circuit, a primary detecting circuit, a primary control circuit and a secondary control circuit. The primary detecting circuit is connected to an output loop of the uninterruptible power supply for detecting an operating status of the uninterruptible power supply and issuing a corresponding operating message. The primary control circuit is connected to the primary detecting circuit and the selection circuit for controlling operations of the uninterruptible power supply. The secondary control circuit is connected to the primary detecting circuit, the selection circuit and the primary control circuit for controlling operations of the uninterruptible power supply. The primary control circuit and the secondary control circuit are enabled or disabled according to the operating message. | 06-17-2010 |
20110156482 | UNINTERRUPTIBLE POWER SUPPLY HAVING INTEGRATED CHARGE/DISCHARGE CIRCUIT - An uninterruptible power supply includes an AC-to-DC converting circuit, an energy storage unit, a first path-switching circuit, a second path-switching circuit, an integrated charge/discharge circuit and an operating control unit. If the input voltage is abnormal, the input terminal and the output terminal of the integrated charge/discharge circuit are respectively connected to the energy storage unit and the power supply output terminal, so that electric energy stored in the energy storage unit is transmitted to the power supply output terminal through the integrated charge/discharge circuit. Whereas, if the input voltage is normal, the input terminal and the output terminal of the integrated charge/discharge circuit are respectively connected to the power supply output terminal and the energy storage unit, so that the energy storage unit is charged by the integrated charge/discharge circuit. | 06-30-2011 |
Patent application number | Description | Published |
20130235595 | HOUSING AND LIGHT EMITTING DEVICE HAVING THE SAME - A housing of light emitting device including a first part for accommodating a light emitting diode module and providing a space for heat dissipation is disclosed. The first part includes an outline casing forming an enclosed room and at least one heat conductive structure disposed inside the enclosed room. The heat conductive structure couples to a heat dissipating side and a light emitting side of the outline casing. | 09-12-2013 |
20130250584 | LIGHT EMITTING DEVICE - A light emitting device comprises a housing and a LED module. The housing comprises a first part and a second part connecting the first part, wherein the first part comprises a first side, a second side and a middle portion connecting the first side and the second side, and a thickness of the first side and a thickness of the second side are thinner than that of the middle portion. The LED module is disposed on the housing for emitting light. | 09-26-2013 |
20140254149 | ASSEMBLY STRUCTURE OF LIGHT-GUIDING COVER AND LIGHTING DEVICE USING THE SAME - An assembly structure of light-guiding cover is used in a lighting device. The lighting device comprises a light-emitting element. The assembly structure comprises a casing and a light-guiding cover. The casing has a receiving recess and a first engaging groove and a second engaging groove opposite to the first engaging groove, the light-emitting element is disposed within the receiving recess, and the first engaging groove and the second engaging groove are located at opposite two sides of the receiving recess. The light-guiding cover covers the receiving recess and has at least one aperture corresponding to the light-emitting element, wherein the light-guiding cover comprises a first engaging sheet and a second engaging sheet. The first engaging sheet is engaged with the first engaging groove. The second engaging sheet is disposed opposite to the first engaging sheet and engaged with the second engaging groove. | 09-11-2014 |
20150062932 | LIGHTING DEVICE INSTALLATION METHOD AND LIGHTING SYSTEM - A lighting device installation method includes the following steps. Firstly, a holder including a first stopping structure and a first engaging structure is fixed on an installation surface. Then, a lighting device including a second stopping structure and a third stopping structure is provided. The second stopping structure and the third stopping structure are collaboratively defined as a second engaging structure. Then, the second engaging structure of the lighting device is stopped by the first stopping structure of the holder, so that the lighting device is supported by the lower portion of the holder. Then, electrical connection between the lighting device and a power source is established. Afterwards, the second engaging structure of the lighting device is engaged with the first engaging structure of the holder, so that the lighting device is supported by the upper portion of the holder. | 03-05-2015 |
Patent application number | Description | Published |
20100264893 | POWER SUPPLY APPARATUS AND POWER SUPPLY SYSTEM WITH MULTIPLE POWER SUPPLY APPARATUSES - A power supply apparatus includes a first output power circuit, a first output protection circuit, a first output capacitor, a first pre-charging circuit and a first power supply control circuit. The first output power circuit is used for generating a first internal output voltage. The first output protection circuit is connected to a power output terminal of the first output power circuit for limiting the current direction. The first pre-charging circuit is interconnected between a power input terminal and a power output terminal of the first output protection circuit for providing a first pre-charging path. When the first power-on signal is switched from a disabled status to an enabled status, a first pulse width modulation signal having a higher or the maximum duty cycle is transmitted from the first power supply control circuit to the control terminal of the first switching circuit, thereby enabling the first output power circuit. | 10-21-2010 |
20120139515 | POWER SUPPLY APPARATUS AND POWER SUPPLY SYSTEM WITH PLURAL POWER SUPPLY APPARATUSES - A power supply apparatus includes a front-stage power circuit, a bus capacitor, a standby power circuit, a standby power circuit, an auxiliary switching circuit and a controlling unit. The auxiliary switching circuit is electrically connected between the bus capacitor and the standby power circuit. The controlling unit is electrically connected with the auxiliary switching circuit and the front-stage power circuit for controlling operations of the front-stage power circuit and the auxiliary switching circuit. When the input voltage is normal but the front-stage power circuit is disabled, the auxiliary switching circuit is turned off under control of the controlling unit, so that electric energy of the input voltage is transmitted to an input terminal of the standby power circuit through the protecting circuit. | 06-07-2012 |
20120235486 | PHOTOVOLTAIC INVERTER AND METHOD FOR CONTROLLING PHOTOVOLTAIC INVERTER - A photovoltaic inverter is provided, having a controller, an auxiliary power and a buffering element. The auxiliary power provides power to the controller. The buffering element is coupled between a photovoltaic panel and the auxiliary power such that the buffering element stores energy output from the photovoltaic panel first during a startup period, and then stops storing energy output from the photovoltaic panel and provides the stored energy to the auxiliary power, thereby performing a maximum power point tracking procedure on the photovoltaic panel during a first period following the startup period, and feeds energy output from the photovoltaic panel to the auxiliary power during a second period following the first period thereby continuously performing the maximum power point tracking procedure on the photovoltaic panel by the controller. | 09-20-2012 |
20130082530 | RENEWABLE ENERGY GENERATION SYSTEM - A renewable energy generation system is provided, including at least one renewable energy generator, at least one micro-inverter and an uninterruptible power supply. The renewable energy generator generates a DC power source. The micro-inverter is coupled to the renewable energy generator to convert the DC power source to an AC power source according to a utility power. The uninterruptible power supply is coupled to the micro-inverter, in which the uninterruptible power supply provides a reference voltage to the micro-inverter when the utility power is cut off, such that the micro-inverter continually provides the AC power source to at least one loading according to the reference voltage generated by the uninterruptible power supply. | 04-04-2013 |
20130202018 | POWER LINE COMMUNCATION METHOD AND POWER LINE COMMUNICATION SYSTEM - A power line communication (PLC) method includes the steps of: programming a registration code into a micro inverter; enabling a data collector to execute a register step, which includes an operation of registering and saving the registration code to a server, through internet; enabling the data collector to send a message to the server through the internet; enabling the server to deliver an authentication code, which is relative to the registration code, to the data collector through the internet according to the message; and enabling the data collector and the micro inverter to identify each other via a power line based on the authentication code. | 08-08-2013 |
20140118983 | ASSEMBLING STRUCTURE OF INVERTER AND GROUND WIRE - An assembling structure includes a ground wire, an inverter, a first fixing element, and a clamping device. The inverter includes a casing. The clamping device is disposed on the casing. The clamping device includes a first end, a second end, and a pressing part between the first end and the second end. The second end of the clamping device is previously fixed on the casing. After the ground wire is transferred through an entrance between the first end of the clamping device and the casing, the ground wire is clamped between the pressing part and the casing. Afterwards, by using the fixing element, the first end of the clamping device is fixed on the casing, the ground wire is fixed on the casing by the pressing part of the clamping device, and the inverter is fixed on the rack simultaneously. | 05-01-2014 |
Patent application number | Description | Published |
20130086931 | AIR CONDITIONING APPARATUS AND CONTROL METHOD THEREOF - An air conditioning apparatus and a control method thereof are provided. The air conditioning apparatus includes a first switch valve, a compressor, a decompression element, a second switch valve, a condenser, and an evaporator. The control method of an air conditioning apparatus includes steps of setting a preset temperature, measuring an indoor temperature, and comparing the preset temperature with the indoor temperature. When the indoor temperature is lower than the preset temperature, the first switch valve and the second switch valve are turned on and the compressor is turned off; and when the indoor temperature is higher than the preset temperature, the first switch valve and the second switch valve are turned off and the compressor is turned on. | 04-11-2013 |
20150114600 | HEAT-EXCHANGE APPARATUS - A heat-exchange apparatus is provided, including a first heat exchanger, a second heat exchanger, a third heat exchanger and a fourth heat exchanger. The first heat exchanger is thermally separated from the second heat exchanger. The third heat exchanger is thermally connected to the first heat exchanger. The fourth heat exchanger is thermally connected to the second heat exchanger, wherein a first air flow passes through the first heat exchanger and the second heat exchanger to be divided into a first divergent flow and a second divergent flow, the first divergent flow flows on a surface of the first heat exchanger, the second divergent flow flows on a surface of the second heat exchanger, the first divergent flow does not flow on the surface of the second heat exchanger, and the second divergent flow does not flow on the surface of the first heat exchanger. | 04-30-2015 |