| DELTA ELECTRONICS (THAILAND) PUBLIC CO., LTD. Patent applications |
| Patent application number | Title | Published |
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| 20120117365 | FIRMWARE UPDATE METHOD AND SYSTEM FOR MICRO-CONTROLLER UNIT IN POWER SUPPLY UNIT - Disclosed is a firmware update system for a micro-controller unit in a power supply unit. The micro-controller unit includes a central processing unit and a flash memory connected to the central processing unit. The flash memory includes a boot program sector, a main program sector, and a temporary data sector, where the boot program sector contains a boot program and the main program sector contains a main program to be executed by the central processing unit under a normal operating mode, and the temporary data sector is set to contain a downloaded firmware code to be copied to the main program sector to replace the main program, thereby updating the flash memory. The downloaded firmware code contains a sector checksum value and a firmware signature for allowing the boot program to validate if the downloaded firmware code is valid and authentic, and the boot program sector and the main program sector are accessed by a virtual address. | 05-10-2012 |
| 20120114477 | CASE STRUCTURE AND FAN FRAME FIXING MODULE - A case structure includes a first housing and a fan frame fixing module. The fan frame fixing module includes a fan frame, a positioning part and an auxiliary part. The positioning part is disposed on the first housing. The auxiliary part is disposed on the first housing. The fan frame urges against the first housing and the positioning part, and the auxiliary part urges against the fan frame so that the fan frame is fixed on the first housing. | 05-10-2012 |
| 20120112722 | POWER SUPPLY CIRCUIT - A power supply circuit includes a first-stage circuit and a second-stage circuit. The first-stage circuit is used for converting an input voltage into a DC voltage. The second-stage circuit includes a main power conversion circuit for converting the DC voltage into a first output voltage, a first standby power conversion circuit for converting the DC voltage into a second output voltage, a feedback circuit for generating a feedback signal, a second standby power conversion circuit and a power distribution circuit. The magnitude of the second output voltage is adjusted by the first standby power conversion circuit according to the feedback signal. The second standby power conversion circuit is used for converting the first output voltage or the second output voltage into a standby voltage. The power distribution circuit is used for selectively delivering the first output voltage or the second output voltage to the second standby power conversion circuit. | 05-10-2012 |
| 20080266817 | SWAPPABLE ELECTRONIC DEVICE HAVING LOCKING ELEMENT - An electronic device swappable to be embedded into a system cabinet includes a casing and a locking element. The casing includes a first sidewall and a second sidewall, which have a first opening and a second opening, respectively. The locking element includes a first end part, a protrusion part, a bent part and a second end part. The first end part is fixed on an inner surface of the second sidewall of the casing. The protrusion part is partially exposed from the second opening to be engaged with a receiving structure of the system cabinet. The bent part is arranged between the first end part and the protrusion part. The second end part is exposed from the first opening so as to be protruded from the first sidewall of the casing. | 10-30-2008 |
| 20080266792 | POWER SUPPLY APPARATUS - A power supply apparatus for use with a redundant power supply system includes a casing, a main circuit board and an airflow driving device. The casing includes a first airflow opening and a second airflow opening. The main circuit board is disposed within the casing and includes plural electronic components thereon. The airflow driving device is disposed in the middle region of the main circuit board. A cooling air is pumped by the airflow driving device to be introduced into the inner portion of the casing through one of the first airflow opening and the second airflow opening, then the heat generated from the electronic components is removed by the cooling air, and finally a heated air is exhausted through the other one of the first airflow opening and the second airflow opening. | 10-30-2008 |
| 20080266791 | REDUNDANT POWER SUPPLY SYSTEM - A redundant power supply system includes a system cabinet, a first power supply apparatus, a second power supply apparatus and a power converting circuit board. The system cabinet at least includes a first receptacle and a second receptacle. The first power supply apparatus has a first connection interface. The second power supply apparatus has a second connection interface. The power converting circuit board is disposed inside the system cabinet and includes a first insertion slot, a second insertion slot and a power converting circuit. A voltage outputted from the first power supply apparatus and/or the second power supply apparatus is converted by the power converting circuit into a regulated voltage when the first connection interface of the first power supply apparatus and the second connection interface of the second power supply apparatus are inserted into the first insertion slot and the second insertion slot, respectively. | 10-30-2008 |
| 20080264674 | ELECTRONIC DEVICE HAVING POWER CONNECTION INTERFACE - An electronic device includes a circuit board and a power connection interface. The power connection interface is formed on an edge region of the circuit board. The power connection interface includes a first trace portion for transmitting a DC voltage and second and third trace portions for transmitting an AC voltage. Plural trace wires of the first trace portion are arranged on first and second surfaces of the edge region. The second and third trace portions are arranged on opposite surfaces of the edge region. | 10-30-2008 |
| 20080239607 | OVERLOAD PROTECTION DELAY CIRCUIT FOR SWITCHING POWER SUPPLY - Disclosed is an overload protection delay circuit for use in a switching power supply for enabling the switching power supply to detect overload problems with high accuracy. The overload protection delay circuit is connected between a photo coupler and a pulse-width modulator of the switching power supply, and is consisted of an energy storage device such as a capacitor and a charging controller such as a zener diode. The charging controller is configured to set a limit value for allowing the energy storage device to be charged by an internal current source of the pulse-width modulator when the feedback signal of the switching power supply reaches the limit value. By charging the energy storage device, a time delay is added to the feedback signal so that the pulse-width modulator can accurately activate the internal overload protection mechanism without the interference of load transients. | 10-02-2008 |
