KUANG YING COMPUTER EQUIPMENT CO., LTD. Patent applications |
Patent application number | Title | Published |
20150099382 | MULTIPLE-IN-ONE INTERFACE CONNECTOR - A multiple-in-one interface connector includes a shielding casing, an insulation body received in the shielding casing, a micro card receiving zone formed on a surface of the insulation body and a micro USB connection zone, a card ejection bar movably arranged at one side of the insulation body, and a card ejector rotatably mounted to the insulation body and operatively coupled to the card ejection bar. The insulation body includes a micro card receiving port and a micro USB connection port respectively in the micro card receiving zone and the micro USB connection zone. A micro card and a micro USB male connector can be respectively inserted to the micro card receiving zone and the micro USB connection port. To eject the micro card, the card ejection bar is pushed to move the card ejector so as to eject the micro card out of the micro card receiving zone. | 04-09-2015 |
20150091380 | POWER CONVERSION DEVICE WITH MULTIPLE INTERFACES - A power conversion device with multiple interfaces generally includes at least one multiple-in-one connector, at least one circuit board, and a power supply module. The multiple-in-one connector and the power supply module are electrically connected to the circuit board. The power supply module satisfies the standard of an electric main socket or an automobile socket. Further, the multiple-in-one connector can be of a multiple-in-one connector that has a single plugging port and includes a USB interface combined with a card type interface or a signal connector interface or alternatively simultaneously combined with a battery module, a storage module, and a wireless transmission module to achieve an advantage of having multiple interfaces. | 04-02-2015 |
20150087185 | ACCESSORY CONNECTOR - An accessory connector generally includes a plurality of metal conductive terminals, which is arranged not to contact each other so as to form individual pins; a first insertion port, which is formed at one end of the accessory connector; and a second insertion port, which is formed at an opposite end of the accessory connector and is in electrical connection with the first insertion port. The first and second insertion ports can be respectively in a plug form or a socket form. When it is desired to make a conversion into a different type of insertion port, the conversion can be achieved through electrical connection of the first insertion port to the second insertion port via the metal conductive terminals so as to achieve the purpose of conversion of connector. | 03-26-2015 |
20140127942 | APPLICATION STRUCTURE FOR ELECTRIC WAVE EFFECT OF TRANSMISSION CONDUCTOR - An application structure for an electric wave effect of transmission conductor solves a high frequency crosswalk problem through the following structures. The applicature structure includes at least one transmission conductor, and the application structure includes a first differential signal transmission conductor set, first signal transmission conductor set, second differential signal transmission conductor set, first ground transmission conductor, third differential signal transmission conductor set, second signal transmission conductor set, fourth differential signal transmission conductor set, first power source transmission conductor, second power transmission conductor and second ground transmission conductor. Whereby, the suppression of common mode signals, and the guiding-to-scatter suppression of radio wave interference (RFI), electromagnetic wave interference (EMI), crosstalk and electrostatic discharge (ESD) can be achieved between each two differential signal conductors through the first and second ground transmission conductors depending on the structure components mentioned above. | 05-08-2014 |
20140080332 | USB PLUG CONNECTOR STRUCTURE - A USB plug connector structure can use the same set of terminals to apply on different USB connector patterns, such as plate edge connector or wire edge connector, through the design of various soldering portions and base portions being positioned on the same plane. Furthermore, the common mode signals generated from first and second differential signal transmission conductor sets can be restrained by means of first and second grounding base portions of a grounding transmission conductor surrounding first and second differential signal transmission conduct sets. In addition, crosstalk interference generated from the first and second differential signal transmission conductor sets to a signal transmission conductor set can be similarly isolated through the first and second grounding base portions. Furthermore, a bended angle of each bended portion ranges from 120 to 150 degrees, thereby guide scattered radio frequency interference. | 03-20-2014 |
20130217272 | USB 3.0 TWO-WAY SOCKET JACK CONNECTOR STRUCTURE - A USB 3.0 socket jack connector structure allows a USB plug connector to conduct working when it is plugged in the jack connector of the present invention positively or oppositely through a two-war sharing grounding transmission conductor, and a first signal transmission conductor, second signal transmission conductor, first differential signal transmission conductor, second differential signal transmission conductor, third grounding transmission conductor, third differential signal transmission conductor, fourth differential signal transmission conductor, first power supply transmission conductor, third signal transmission conductor, fourth signal transmission conductor, second power supply transmission conductor, fourth grounding transmission conductor, fifth differential signal transmission conductor, sixth differential signal transmission conductor, seventh differential signal transmission conductor and eighth differential signal transmission conductor. | 08-22-2013 |
20130130521 | USB FEMALE CONNECTOR - The USB female connector contains an insulating base and a shielding casing enclosing the insulating base. On the insulating base, there is mainly a ground terminal having a flat ground contact section at an end on the insulating base. From the ground contact section, the ground terminal is extended away from the insulating base and forked into a first ground extension section, a second ground extension section, and a third ground extension section. Through the forked first, second, and third ground extension sections, the high-frequency crosstalk problem is effectively resolved. | 05-23-2013 |
20130109233 | USB FEMALE CONNECTOR | 05-02-2013 |