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Chun-Ting
Chun-Ting Huang, Yunlin Hsien TW
| Patent application number | Description | Published |
|---|---|---|
| 20110232022 | STRUCTURE AND METHOD OF MANUFACTURING A UNITARY DOUBLE-BLADE WIND SHIELD WIPER - The present invention relates a structure and method of manufacturing a unitary double-blade wind shield wiper. The method comprises a thermal forming step, a cutting step, a folding step and preferably a bonding step. In the thermal forming step, a rubber plate is imprinted into a rubber product which contains a plurality of continually connected wind shield wipers with a plurality of folding guide grooves. In the cutting step, the rubber product is divided into a plurality of independent wind shield wipers, wherein each of the independent wind shield wipers has a pair of blades extending in opposite directions to each other. In the folding step, each of the independent wind shield wipers is folded along the folding guide groove thereby to make the pair of blades parallel to each other. Preferable, further to impose the bonding step to fix the independent wind shield wipers into a permanent configuration, so as to be a more durable unitary double-blade wind shield wiper. | 09-29-2011 |
Chun-Ting Kuo, Pingtung County TW
| Patent application number | Description | Published |
|---|---|---|
| 20110121748 | DECODING CIRCUIT AND DECODING METHOD THEREOF - A decoding circuit is adapted for decoding an input signal. The input signal includes at least a break and the time length of the break is a preset time. The decoding circuit includes a decoding unit and a detecting unit. The detecting unit detects whether the voltage level of the input signal is kept at a specific logic level for more than the preset time. If the input signal is kept at the specific logic level for more than the preset time, the detecting circuit, according to the voltage level of the specific logic level, outputs the input signal or the inverted input signal to the decoding unit so as to perform a decoding process. | 05-26-2011 |
| 20110156604 | DRIVING CIRCUIT OF LIGHT EMITTING DIODE - A driving circuit of a light emitting diode (LED) is provided, including a driving unit, a current pre-charging unit and a feedback selecting unit. The driving unit outputs a driving power to drive the LEDs and outputs at least a first feedback signal according to the current conducted by the LEDs. The current pre-charging unit is coupled to an output of the driving unit to provide a current path to the driving unit and generates a second feedback signal according to a current conducted by the current pre-charging unit. The feedback selecting unit selects and outputs one of first feedback signals or the second feedback signal according to an enable signal, and the driving unit adjusts the driving power according to an output of the feedback selecting unit so as to maintain a current driving capability of the driving circuit to provide a sufficient current to drive the LEDs. | 06-30-2011 |
| 20110234579 | APPARATUS AND METHOD FOR DRIVING LIGHT EMITTING DIODE - A driving apparatus for driving at least one first light emitting diode unit and a second light emitting diode unit includes a data transmitting unit and a driving unit. The data transmitting unit is used for receiving and storing driving data. The driving data includes first data corresponding to a first driving signal and second data corresponding to a second driving signal. The driving unit divides the first driving signal into a plurality of first sub-driving signals and the second driving signal into a plurality of second sub-driving signals, and then alternately outputs the first sub-driving signals and the second sub-driving signals to alternately drive the first light emitting diode unit and the second light emitting diode unit. | 09-29-2011 |
| 20120026019 | DRIVING CIRCUIT OF LIGHT EMITTING DIODE, DECODING CIRCUIT AND DECODING METHOD THEREOF - A driving circuit, a decoding circuit and a decoding method thereof are provided. The decoding circuit includes an oscillator and a decoder including a frequency determining unit and a decoding unit. The frequency determining unit receives a clock signal and a data signal which is corresponding to DMX512 protocol, and samples one slot of the data signal according to the clock signal to generate a sample number corresponding to a slot period of the slot. Then, the frequency determining unit outputs a reference signal corresponding to the frequency of the clock signal according to the sample number. The decoding unit samples the data signal according to the clock signal and the reference signal to decode data carried on the data signal. The decoding circuit is able to sample the data signal correctly without disposing any external frequency adjusting element. | 02-02-2012 |
Chun-Ting Lee, Taipei City TW
| Patent application number | Description | Published |
|---|---|---|
| 20100162814 | CENTRIFUGAL FORCE SENSING DEVICE AND REACTION SYSTEM ON CENTRIFUGAL FORCE - A centrifugal force sensing device is disclosed, which includes a first rotating shaft, two first movable and two first fixing sleeves, a first and a second weight, two first and two second linkages, a restoration element, a first sensing unit for sensing centrifugal force, and two fixers. The two first movable sleeves are disposed through the first rotating shaft. The two first linkages are connected to the first weight and the two first movable sleeves. The restoration element having a fixing block and two first damping elements is disposed at the first rotating shaft. The two second linkages are connected to the second weight and the two first movable sleeves. The two first fixing sleeves are fixed at the first rotating shaft and respectively located between each of the two first movable sleeves and one of the two fixers. | 07-01-2010 |
Chun-Ting Liao, Hsin-Chu City TW
| Patent application number | Description | Published |
|---|---|---|
| 20100213542 | ALTERNATING-DOPING PROFILE FOR SOURCE/DRAIN OF A FET - A semiconductor device is provided. In an embodiment, the device includes a substrate and a transistor formed on the substrate. The transistor may include a gate structure, a source region, and a drain region. The drain region includes an alternating-doping profile region. The alternating-doping profile region may include alternating regions of high and low concentrations of a dopant. In an embodiment, the transistor is a high voltage transistor. | 08-26-2010 |
| 20110237041 | ALTERNATING-DOPING PROFILE FOR SOURCE/DRAIN OF A FET - A semiconductor device is provided. In an embodiment, the device includes a substrate and a transistor formed on the semiconductor substrate. The transistor may include a gate structure, a source region, and a drain region. The drain region includes an alternating-doping profile region. The alternating-doping profile region may include alternating regions of high and low concentrations of a dopant. In an embodiment, the transistor is a high voltage transistor. | 09-29-2011 |
Chun-Ting Liao, Changhua TW
| Patent application number | Description | Published |
|---|---|---|
| 20080294935 | DATA STRUCTURE FOR FLASH MEMORY AND DATA READING/WRITING METHOD THEREOF - A data structure for a flash memory and data reading/writing method thereof are disclosed. A 512 bytes data and a redundant code derived from the data encoded with a 6-bit error correcting code scheme are stored in a first sector and a second sector with sequential address in a block of the flash memory respectively. A logic block address information of this block is divided into two parts that are stored in the first sector and the second sector respectively. | 11-27-2008 |
Chun-Ting Liao, Changhua City TW
| Patent application number | Description | Published |
|---|---|---|
| 20120110419 | Data Structure for Flash Memory and Data Reading/Writing Method Thereof - A data structure for a flash memory and data reading/writing method thereof are disclosed. A 512 bytes data and a redundant code derived from the data encoded with a 6-bit error correcting code scheme are stored in a first sector and a second sector with sequential address in a block of the flash memory respectively. A logic block address information of this block is divided into two parts that are stored in the first sector and the second sector respectively. | 05-03-2012 |
Chun-Ting Lin, Taichung City TW
| Patent application number | Description | Published |
|---|---|---|
| 20100008665 | Optical access system for dual service network - The present invention relates to an optical access system for dual service network, which mainly comprises an optical modulation device which is used to receive on-off keying (OOK) signal from cable network and radio frequency (RF) signal from wireless network, the optical modulation device then modulates the OOK signal and the RF signal to an optical signal and send out an output optical signal. Lastly, the output optical signal is being delivered to an optical receiving device through an optical fiber transmission channel, and the optical receiving device can access the OOK signal and RF signal from the output optical signal. In addition, the present invention does not require remote nodes (receiver side) to use any optical filter to discern on-off keying signal from cable network and RF signal from wireless network. The present invention can also apply to the field of wavelength-division multiplexing system. | 01-14-2010 |
| 20100008680 | Optical modulating device with frequency multiplying technique for electrical signals - The present invention relates to an optical modulating device with frequency multiplying technique for electrical signals, which primary comprises a mixer, which generates a mixed data signal from a first electrical signal and a second electrical signal. The mixed data signal is then received by a first phase shift device to have its phase shifted and becomes a first shifted signal. The first electrical signal is further received by a second phase shift device to have its phase shifted and becomes a second shifted signal. The present invention further comprises an integrated electro-optic modulator (Mach-Zehnder modulator), which is used to receive an input optical signal, the mixed data signal, the first shifted signal, the second shifted signal and the first electrical signal mentioned above, the integrated electro-optic modulator will then modulates the input optical signal into a frequency multiplying output optical signal that carries the first electrical signal and the second electrical signal. The present invention can carry and transmit amplitude shift keying signals and vector modulation signals, thereby provides a more advanced optical communication transmission service. | 01-14-2010 |
| 20100073763 | Adjustable optical signal delay module and method thereof - The present invention relates to an adjustable optical signal delay module, particularly to a module, which adjusts power of an amplified spontaneous emission generated by a semiconductor optical amplifier and reversely feeds the adjusted amplified spontaneous emission back to the semiconductor optical amplifier to vary a group refractive index of the semiconductor optical amplifier and delay the timing of an optical signal, whereby the present invention can replace the pump laser conventionally required by a CPO mechanism. In the present invention, the feedback optical loop comprises a variable optical attenuator, an optical filter, and optical circulators. An user can control the delay timing of optical signals via adjusting optical power in the feedback optical loop. The present invention can decrease the fabrication cost of an optical signal delay module and reduce the volume thereof. | 03-25-2010 |
| 20100104294 | Optical modulation device - The present invention discloses an optical modulation device, which comprises an electric signal generator generating an electric signal carrying a data signal; a first sinusoidal signal generator generating a first sinusoidal signal; an optical signal generator generating an input source optical signal; and an optoelectronic modulator(Mach-Zehnder modulator) receiving the input source optical signal, the electric signal and the first sinusoidal signal, biased to modify a transmission performance of the input source optical signal, modulating the input source optical signal with the electric signal and the first sinusoidal signal, and then sending out an output source optical signal carrying the electric signal and the first sinusoidal signal. The present invention realizes frequency multiplication, enables an optical signal to carry vector signals, and promotes the efficiency of broadband systems. | 04-29-2010 |
Chun-Ting Lin, Hsinchu TW
| Patent application number | Description | Published |
|---|---|---|
| 20090231685 | OPTICAL AMPLIFIER FOR TUNING TRANSMISSION TIME OF OPTICAL SIGNAL - The present invention relates to a technique for tuning the transmission time of optical signal, which adopts an optical amplifier with a bending structure for enhancing the tunable time of optical signal. The effect of tunable time of optical signal can be achieved by adjusting the gain of the optical amplifier. | 09-17-2009 |
| 20110256231 | METHOD FOR PREPARING A MICRO-PARTICLE DRUG IN HEMISPHERE-SHAPED DOSAGE FORM AND APPLICATIONS THEREOF - A method for preparing drug in hemisphere-shaped dosage form. A high molecular weight solution containing the drug is prepared, and the solution is then dropped on a base material. The interface phenomena between the solution and different base materials makes the drop of high molecular weight solution containing the drug form a hemisphere-shape. After solidifying by cross-link or evaporation, the drug in hemisphere-shaped dosage form is obtained. The advantages of the preparation method are a simple and fast process, and simple operation. Applications of the method to prepare a drug in hemisphere-shaped dosage form are also provided. | 10-20-2011 |
Chun-Ting Wu, Taipei TW
| Patent application number | Description | Published |
|---|---|---|
| 20090043964 | Multimedia Storage Device - The present invention discloses a multimedia storage device comprising a cartridge and a loader. The cartridge connects to media devices of different formats, and the loader comprises a loading/ejecting device and connects to an external application device. The cartridge is loaded into and ejected out of the loader by the loading/ejecting device. When the cartridge is loaded into the cartridge, the external application device can play and access the files stored in media device. | 02-12-2009 |
Chun-Ting Wu, Taipei City TW
| Patent application number | Description | Published |
|---|---|---|
| 20090122472 | Multimedia Device - The present invention discloses a multimedia device, which comprises: a body, a sliding member, which is movably disposed on the body, and a screen, which is rotatable for being disposed on the sliding member, wherein while the sliding member is moved correspondingly to the body, the screen is rotated relatively to the sliding member so as to generate an angle between the screen and the sliding member, thus it is convenient to a user for seeing the screen. | 05-14-2009 |
Chun-Ting Yeh, Taipe City TW
| Patent application number | Description | Published |
|---|---|---|
| 20090107954 | METHOD FOR CONTROLLING ADI-AEI CD DIFFERENCE RATIO OF OPENINGS HAVING DIFFERENT SIZES - A method for controlling ADI-AEI CD difference ratios of openings having different sizes is provided. First, a first etching step using a patterned photoresist layer as a mask is performed to form a patterned Si-containing material layer and a polymer layer on sidewalls thereof. Next, a second etching step is performed with the patterned photoresist layer, the patterned Si-containing material layer and the polymer layer as masks to at least remove an exposed portion of a etching resistive layer to form a patterned etching resistive layer. A portion of a target material layer is removed by using the patterned etching resistive layer as an etching mask to form a first and a second openings in the target material layer. The method is characterized by controlling etching parameters of the first and second etching steps to obtain predetermined ADI-AEI CD difference ratios. | 04-30-2009 |