CAMPUS CREATE Co., Ltd. Patent applications |
Patent application number | Title | Published |
20140138023 | METHOD AND DEVICE FOR WELDING THERMOPLASTIC RESIN ARTICLES - A plurality of thermoplastic articles are superimposed against a support, an infrared transparent solid is superimposed to form a superimposed body and infrared is irradiated to the superimposed body from the side of the infrared transparent solid. For the irradiation source, an Er: YAG laser or fiber laser is used. The interface temperature of the thermoplastic article becomes relatively lower and a high temperature region can be developed within the superimposed body due to the infiltration of laser energy. As a result, degradation of the surface configuration due to thermal damages in the infrared irradiation side surface layer of the thermoplastic articles can be suppressed. | 05-22-2014 |
20110288800 | METHOD FOR MEASURING SYSTEM PARAMETER OF LINEAR MULTIPORT AND MEASURING METHOD USING VECTOR NETWORK ANALYZER - The present invention provides a novel measurement method for system parameters of a 5-port junction used in a VNA (Vector Network Analyzer). A VNA is a device for measuring amplitude ratios and phase differences (S-parameters: scattering matrix elements) between incident waves and reflected waves of a DUT (Device Under Test), or between input waves and transmitted waves. What has been newly discovered is that for 5 ports, S-parameters can be expressed by a linear coupling using H and power difference ratios ({P(S)/P(0)}−1). It is possible to easily calculate parameter H using a minimum of three already known standards, and amount of calculation can be reduced compared to conventionally. | 11-24-2011 |
20110050350 | AMPLIFIER CIRCUIT - An amplifier circuit operating at a fundamental angular frequency • | 03-03-2011 |
20100099534 | TRANSMISSION MECHANISM - The present invention provides a transmission unit that can realize a high speed-shifting ratio, can realize reduced size, low cost and low noise, and is also capable of limiting slip loss. Outer peripheral surfaces of a small diameter rolling element and a supplementary rolling element are brought into contact with an outer peripheral surface of a large diameter rolling element. The supplementary rolling element is arranged at an almost opposite side to the small diameter rolling element, thus enclosing the large diameter rolling element between the small diameter rolling element and the supplementary rolling element. An inner peripheral surface of the pressure adjustment ring is brought into contact with the outer peripheral surface of the small diameter rolling element and the outer peripheral surface of the supplementary rolling element, and is supported by them. If the small diameter rolling element rotates, the pressure adjustment ring rotates by means of the large diameter rolling element and the supplementary rolling element. If load is applied to rotation of the large diameter rolling element, the pressure adjustment ring is made eccentric. In this way, the small diameter rolling element receives pressing force toward an inner side in the radial direction of the large diameter rolling element, from the pressure adjustment ring. | 04-22-2010 |