Nien-Tsu
Nien-Tsu Chen, New Taipei TW
Patent application number | Description | Published |
---|---|---|
20160099605 | SYSTEMS AND DEVICES FOR WIRELESS POWER CHARGING - The present invention discloses a system for wireless power charging. The wireless power charging system may include a transmitting device having a power source, a resonant driving unit and a transmitting coil. The power source may provide an electrical current to the resonant driving unit. The resonant driving unit may create an oscillating amount of energy to be fed to the transmitting coil at a resonant frequency. The wireless power charging system may also include a receiving device having a receiving coil magnetically coupled to the transmitting coil to transfer the energy from the transmitting device to the receiving device at the resonant frequency, wherein the receiving device has a battery to be charged by the energy. | 04-07-2016 |
Nien-Tsu Chiang, Miaoli TW
Patent application number | Description | Published |
---|---|---|
20120155811 | CONNECTION MODULE OF OPTICAL SIGNALS - A connection module is provided, including a shell. The shell has formed at least a guiding hole, at least a fiber optical guiding trench on a shell of the module, and a window located inside the shell at the end of fiber optical guiding trench. The guiding hole is located on one side of the shell for fiber optical to enter the shell through the guiding hole. The fiber optical guiding trench is located inside the shell to guide the fiber optical for large angle turns so that the front end of the fiber optical can reach the window. The connection module can be placed on top to cover an optical transceiving area. The optical transceiving area includes at least a point optical source or a receiver so that the optical signals at the optical transceiving area can be transmitted to outside. | 06-21-2012 |
Nien-Tsu Chiang, Miao-Li County TW
Patent application number | Description | Published |
---|---|---|
20140106081 | MANUFACTURING METHOD OF FORMING UNDERTONE LAYER SURROUNDING OPTICAL FIBER WITH SINGLE-LAYER COATING - A manufacturing method of forming undertone layer of optical fiber with single-layer coating is provided. The optical fiber with single-layer coating includes, from the center outwards, glass core, cladding layer (outer diameter 80 um-125 um) and permanent coating (thickness 4 um-8 um). The method of forming undertone layer over permanent coating includes: placing optical fiber in a coloring machine so that coloring machine guiding optical fiber moving forwards, coloring machine having at least a mask device and a UV curing device; coating an undertone layer on permanent coating of optical fiber when optical fiber passing mask device, the thickness of undertone layer being 3-200 um; irradiating UV onto optical fiber passing UV curing device to solidify the undertone layer on permanent layer; and coloring machine collecting processed optical fiber, the coating strip force of undertone layer of optical fiber being less than 1 Newton. | 04-17-2014 |
Nien-Tsu Wang, Los Gatos, CA US
Patent application number | Description | Published |
---|---|---|
20120086866 | HYBRID ARCHITECTURE OF TV RECEIVING DEVICES - A hybrid architecture of a television (TV) receiving system is disclosed. The architecture includes two portions, a hardware portion and a software portion. The hardware portion includes a minimum amount of hardware to achieve operations of receiving a RF signal, producing an IF signal and outputting data representing the IP signal. The software portion, taking advantage of available computing power (e.g., high-speed microprocessor and a lot of memory) in a computing device and executed therein, includes one or more demodulators, all implemented in software. Each of the demodulators is implemented in accordance with one type of TV standard. Thus depending on the received data, a corresponding demodulator is activated to demodulate the received data and subsequently produces audio and video data. One of the advantages, benefits and objects in the present invention is to have a band of software-based demodulators, any of which may be updated or expanded whenever there is a new TV standard or modification to an existing standard. | 04-12-2012 |