Yuan-Lin
Yuan-Lin Chen, Taishan TW
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20080255755 | INTELLIGENT FUEL OIL MONITORING SYSTEM AND METHOD - An intelligent fuel oil monitoring system includes a fuel level detector coupled to a fuel tank of a motor vehicle to detect the amount of the fuel oil in the fuel tank, a microcontroller coupled to the fuel level detector to receive traveling data of the motor vehicle and to establish an average speed-fuel consumption relationship curve and fuel consumption and travel distance relationship curves at different speeds and to calculate the distance the motor vehicle can travel based on the amount of the fuel oil detected by the fuel level detector subject to the fuel consumption and travel distance relationship curve, and a display unit coupled to the microcontroller and controlled by the microcontroller to display data. | 10-16-2008 |
20080319698 | INTELLIGENT VEHICLE LOAD MEASURING SYSTEM AND METHOD - An intelligent vehicle load measuring system includes a sensor installed in the shock-absorber of every wheel of a vehicle to detect the extension length data of the associating shock-absorber when the vehicle carries a load, a calculation unit coupled to the sensors to receive the extension length data of every shock-absorber of the vehicle and to calculate the weight of the load received by each shock-absorber and the total weight and loadage of the vehicle, and a display unit electrically coupled to the calculation unit to display the load data of the vehicle. The invention involves also an intelligent vehicle load measuring method. | 12-25-2008 |
Yuan-Lin Chiang, Taipei City TW
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20140072188 | FINGERPRINT IDENTIFICATION AND VERIFICATION SYSTEM AND METHOD THEREOF - In a fingerprint identification and verification system and its method, the system includes a Bluetooth fingerprint device, an application device, a fingerprint identification server, and an application control device. The Bluetooth fingerprint device captures a fingerprint image, extracts the minutiae data from the fingerprint image, and sends the minutiae data to the application device. The application device transmits the minutiae data and a verification request to the application control device and the application control device transmits the minutiae data to the fingerprint identification server to perform the fingerprint identification process. The fingerprint identification server sends a verification result on which the application control device depends to accept or refuse the verification request from the application device. As a result, the speed of the user's identification process can be increased by using the Bluetooth fingerprint device to derive the minutiae data. | 03-13-2014 |
Yuan-Lin Lee, Hemei Jen TW
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20100271701 | Hybrid Lens And Method Of Manufacturing The Same - A hybrid lens includes a lens substrate made of glass material, and a plastic layer formed and coating round the lens substrate. An appropriate portion of the outer surfaces of the plastic layer is defined as a datum face. A method of manufacturing the foregoing hybrid lens is described hereinafter. Firstly, the lens substrate is fastened in a shaping cavity of a corresponding shaping mold with an appropriate portion of the inside of the shaping cavity defined as a shaping datum. Secondly, a predetermined amount of transparent plastic is poured into the shaping cavity. Next, the transparent plastic is hardened to form the plastic layer round the lens substrate, and accordingly, the datum face is formed on the plastic layer by means of the shaping datum. Lastly, the shaping mold is opened to obtain the hybrid lens. | 10-28-2010 |
Yuan-Lin Lee, Changhua TW
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20120163756 | OPTICAL FIBER CONNECTOR AND METHOD OF MANUFACTURING THE SAME - An optical fiber connector includes an insulating housing, an optical fiber and a transparent hetero substrate. The optical fiber is exposed outside the insulating housing with one end portion molded in the insulating housing. The transparent hetero substrate is molded inside the insulating housing. The transparent hetero substrate is substantially perpendicular to the end portion of the optical fiber and spaced from an end edge of the end portion of the optical fiber. A middle of the transparent hetero substrate is substantially in alignment with the end portion of the optical fiber. The method of manufacturing the above-mentioned optical fiber connector is described hereinafter. Firstly, set an end portion of the optical fiber and a transparent hetero substrate in a mold. Secondly, inject molten materials into the mold. Thirdly, separate the mold and then take out the optical fiber connector from the mold when the mold is cooled. | 06-28-2012 |
Yuan-Lin Lee, Changhua Hsien TW
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20100033077 | LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE LIGHT EMITTING DEVICE - A method of manufacturing a light emitting device includes steps of setting a threshold of luminous intensity, measuring luminous intensity of a measured light emitting device, calculating an offset value between the threshold of luminous intensity and the measured luminous intensity, performing a destruct structure capable of decreasing energy of light beam on an optical element of the measured light emitting device, wherein the energy decreasing efficiency of the destruct structure is direct proportion to the offset value. While the light beam is radiated from a light emitting chip of the measured light emitting device and to the destruct structure, few light energy is absorbed or scattered by the destruct structure to decrease the luminous intensity. Therefore, the light emitting device with the destruct structure has a consistent luminous intensity due to the energy decreasing efficiency of the destruct structure is direct proportion to the offset luminous intensity. | 02-11-2010 |
20100033091 | LIGHT EMITTING UNIT AND METHOD OF MANUFACTURING THE LIGHT EMITTING UNIT - A method of manufacturing a light emitting unit includes steps of previously setting a threshold of luminous intensity, measuring luminous intensity of a measured light emitting unit, calculating an offset value between the threshold of luminous intensity and the measured luminous intensity, performing absorption of light by a light absorbing portion direct proportion to the offset value, and positioning the designed light absorbing portion onto an optical element of the measured light emitting unit. While light beam is radiated from the measured light emitting unit and passed through the light absorbing portion, few light energy is absorbed by the light absorbing portion to decrease the luminous intensity. Therefore, the light emitting unit with the light absorbing portion has a consistent luminous intensity due to the light absorbing ratio of the light absorbing portion is direct proportion to the offset luminous intensity. | 02-11-2010 |
20100226022 | FRESNEL LENS, THE APPARATUS AND THE METHOD OF MANUFACTURING THEREOF - A Fresnel lens includes a plate made of a glass material and Fresnel portions made of plastic material and integrally formed onto the plate. A method of manufacturing the Fresnel lens includes the steps of adding the plastic material in a forming apparatus, curing the plastic material, and then separating the forming apparatus and the plate from each other to form the Fresnel lens. An apparatus for manufacturing the Fresnel lens includes a forming apparatus coupling with the plate of the Fresnel lens, and a forming concave with inversion corresponding to the shape of the forming Fresnel portions. The forming concave shapes the plastic material into the Fresnel portion. Therefore, the Fresnel lens takes lower manufacture cost than the glass Fresnel lens and has better reliability than the plastic Fresnel lens while exposing in high temperature and high light density. | 09-09-2010 |
Yuan-Lin Lee, Taichung City TW
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20150035180 | METHOD FOR FABRICATING AN ARRAYED OPTICAL ELEMENT - A method for fabricating an arrayed optical element includes: forming a light blocking frame using a first material that has a heat deflection temperature; placing the light blocking frame into a cavity of a mold; and injecting a second material into the mold to form a lens unit that is integrally connected to the light blocking frame, the second material being an optical plastic material and having a forming temperature lower than the heat deflection temperature of the first material. | 02-05-2015 |
20150036219 | LENS ARRAY MODULE - A lens array module includes an arrayed optical element including a light blocking frame and a lens unit, and a light sensor array unit. The light blocking frame includes a bottom plate with multiple through holes, a surrounding wall, and a partition wall integrally connected to and cooperating with the bottom plate and surrounding walls to define multiple optical channels. The lens unit includes a substrate abutting against the bottom plate and including multiple lens elements that are aligned respectively with the through holes, and a plurality of upper positioning walls integrally connected to the substrate. The light sensor array unit includes multiple light sensing components respectively aligned with the lens elements. | 02-05-2015 |
Yuan-Lin Yang, Hsinchu City TW
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20130056070 | APPARATUS AND METHOD FOR ENHANCING INVERTED ORGANIC SOLAR CELLS BY UTILIZING LIGHT ILLUMINATION - Disclosed is an apparatus and method for generating inverted organic solar cells and which required no electron selective layer, were fabricated and their power conversion efficiency was found to improve irreversibly with post-processing light soaking for a period. X-Ray photoelectron spectroscopy characterization further revealed segregation in surface composition at the interface and was found to explain the current density-voltage measurements. In addition, the light soaked devices were found to exhibit an extended lifetime as compared to conventional devices. Since no electron selective layer was required, light soaking may be considered as a cost-effective method to achieve efficient inverted organic solar cells. | 03-07-2013 |