Patent application number | Description | Published |
20110087824 | FLASH MEMORY ACCESSING APPARATUS AND METHOD THEREOF - A flash memory accessing apparatus is disclosed. The flash memory accessing apparatus includes a controller, a first channel memory set and a second channel memory set. The first channel memory set includes a first flash memory and at least one first memory expanding socket. The second channel memory set includes a second flash memory and at least one second memory expanding socket. The controller determines the accessing method to be implemented on the first memory and second flash memory according to whether there is any flash memory inserted into the first memory expanding socket and the second memory expanding socket. | 04-14-2011 |
20110087826 | FLASH MEMORY ACCESSING APPARATUS AND ACCESSING METHOD THEREOF - A flash memory accessing apparatus is disclosed. The flash memory accessing apparatus includes a memory controller, a first open NAND flash interface (ONFI) and an expanding flash memory module. The first ONFI is used for connecting a main flash memory module. The memory controller obtains a detecting result by, detecting whether the main flash memory module and the expanding flash memory module are single side or double side. The memory controller further configures an accessing method of the main flash memory module and the expanding flash memory module according to the detecting result. | 04-14-2011 |
20110113265 | CIRCUIT SYSTEM AND CONTROL METHOD THEREOF - A circuit system is provided, including a processing unit, a control unit electrically connected to the processing unit, and a plurality of PWM units electrically connected to the control unit. The processing unit transmits a control signal to the control unit according to a load current value of the circuit system, and the control unit enables at least one of the PWM units according to the control signal. | 05-12-2011 |
20110263302 | MOTHER BOARD - A mother board including a controller, a rapid charging initiation unit, a connection port, and a switching unit is provided. The rapid charging initiation unit provides a first voltage ranging from 3.2 V to 11 V and a second voltage ranging from 2.7 V to 0.6 V. A voltage difference between the first voltage and the second voltage ranges from 0.5 V to 0.8 V. The connection port is coupled to a smartphone. The switching unit is coupled to the controller, the rapid charging initiation unit, and the connection port for determining whether the connection port is coupled to the controller or the rapid charging initiation unit according to a switching signal. When the connection port is coupled to the rapid charging initiation unit, the first voltage and the second voltage are sent to the smartphone through the connection port for activating the rapid charging function of the smartphone. | 10-27-2011 |
20110269513 | RAPID CHARGING APPARATUS - A rapid charging apparatus including a first connection unit, a second connection unit, and a rapid charging power transformation unit is provided. The first connection unit is coupled to a connector with a power. The rapid charging power transformation unit is coupled to the first connection unit to receive a voltage of the connector and to provide a first voltage and a second voltage. The first voltage ranges from 3.2 V to 1.1 V, the second voltage ranges from 2.7 V to 0.6 V, and a voltage difference between the first voltage and the second voltage ranges from 0.5 V to 0.8 V. The second connection unit is coupled to an electronic device and the rapid charging power transformation unit so as to transmit the first voltage and the second voltage to the electronic device. | 11-03-2011 |
20110279093 | MOTHER BOARD ADAPTED TO RAPIDLY CHARGE HANDHELD MULTIMEDIA DEVICE - A mother board adapted to rapidly charge a handheld multimedia device including a controller, a rapid charging initiation unit, a connection port coupled to the handheld multimedia device, and a switching unit. The rapid charging initiation unit provides a first voltage ranging from 3.2 V to 11 V and a second voltage ranging from 2.7 V to 0.6 V. A voltage difference between the first voltage and the second voltage ranges from 0.5 V to 0.8 V. The switching unit is coupled to the controller, the rapid charging initiation unit, and the connection port for determining whether the connection port is coupled to the controller or the rapid charging initiation unit. When the connection port is coupled to the rapid charging initiation unit, the first and the second voltage are sent to the handheld multimedia device through the connection port for activating a rapid charging function. | 11-17-2011 |
20120042175 | MOTHERBOARD WITH AN ENERGY SAVING FUNCTION - A motherboard with an energy saving function is coupled to an external power supply. The external power supply provides an operational power. The motherboard includes a battery and a processing device. The battery provides a standby power. The processing device receives the operational power in a turned-on mode. The processing device does not receive the operational power and receives the standby power in a turned-off mode. | 02-16-2012 |
20120140121 | DETECTION SWITCH SYSTEM FOR VIDEO OPERATION MODULES - A detection switch system for video operation modules included a first video operation module, a second video operation module, a switch, an image data source and a detection module for operation loading. When an operation loading needed is less than a first critical operation loading of the first video operation module, the detection module for operation loading switches the switch to electrically connect with the first video operation module, and the image data source sends an image data to be operated to the first video operation module. When an operation loading needed is greater than the first critical operation loading of the first video operation module, the detection module for operation loading switches the switch to electrically connect with the second video operation module, and the image data source sends the image data to be operated to the second video operation module. | 06-07-2012 |
Patent application number | Description | Published |
20100246383 | Motherboard with backup network circuit - A motherboard includes at least one backup network circuit except for a network circuit used in a normal setup. The motherboard includes a first network circuit, a second network circuit, a network port, a switch circuit and a driver. The switch circuit is configured for coupling the first network circuit or the second network circuit to the network port. The driver is configured for switching the switch circuit according to states of the network port and the first network circuit. | 09-30-2010 |
20100250822 | Motherboard with Backup Chipset - A motherboard includes a first chipset, a second chipset, a central processing unit (CPU), a low-speed bus, a first switch circuit and a second switch circuit. In a normal setup, the first switch circuit is coupled to the first chipset and the CPU, and the second switch circuit is coupled to the first chipset and the low-speed bus. In a backup setup, the first switch circuit is coupled to the second chipset and the CPU, and the second switch circuit is coupled to the second chipset and the low-speed bus. The motherboard of the present invention further comprises a switch-circuit control unit or a driver configured for switching the first and second switch circuits to be in the backup setup when the first chipset is damaged in the normal setup. | 09-30-2010 |
20110010485 | Flash Memory Control Device - A flash memory control device includes a controller and an expansion device. The expansion device is electrically connected to the controller and one and more flash memory devices for temporarily storing data, integrating data and presenting processing status, wherein the controller orders the expansion device to transform data to the one and more flash memory devices or receive data from the one and more flash memory devices according to processing status. | 01-13-2011 |
20110022831 | Method for Operation System Startup - A method for operation system startup includes steps of switching on hardware startup; determining whether there is a trigger signal; reading an initial parameter from a storage device, and loading the initial parameter into a startup program when there is no trigger signal, executing the startup program; and entering operational system. | 01-27-2011 |
Patent application number | Description | Published |
20090144460 | System for detecting a peripheral device - A system for detecting a peripheral device is used to detect whether the peripheral device is completely inserted into a peripheral interface slot of a mother board before booting. When the peripheral device is inserted into the peripheral interface slot, the system judges whether the peripheral device is completely inserted into the peripheral interface slot according to a potential of fins of the peripheral interface slot. If the system detects that the peripheral device has not been completely inserted into the peripheral interface slot before booting, a booting procedure of the mother board is interrupted and an alarm signal is output. | 06-04-2009 |
20090144535 | Method for automatically restoring system configuration with a single key - A method for automatically restoring a system configuration with a single key in a computer having a power button is provided. The method includes detecting a press mode of the power button; determining a relevant restoring item according to the press mode; performing a process for restoring the system configuration corresponding to the restoring item, which aims at updating/recovering the system configuration, or clearing the system configuration setting stored in a CMOS memory; and performing a normal boot process. | 06-04-2009 |
20090172427 | Method and system for power management of a motherboard - A method for power management of a motherboard is provided to manage a power supply on the motherboard and specially to manage an output power of a power management module on the mother board. The motherboard at least comprises a microprocessor, and the power management module provides a power with a number of output phases to the microprocessor. First, a first load of the microprocessor is detected in a first time. Then a second load of the microprocessor in a second time is detected. When the second load is less than the first load and is lower than a first predetermined value, the number of output phases of the power outputted from the power management module is reduced. | 07-02-2009 |