Patent application number | Description | Published |
20120169423 | RADIO FREQUENCY AMPLIFIER CIRCUIT - A radio frequency amplifier circuit according to the present invention is for providing a radio frequency amplifier circuit with high output and high efficiency, and includes (i) a first harmonic processing circuit ( | 07-05-2012 |
20130106519 | RADIO FREQUENCY AMPLIFIER CIRCUIT | 05-02-2013 |
20130176079 | RADIO FREQUENCY POWER AMPLIFIER - A radio frequency power amplifier includes: an amplifying element which amplifies an input signal and outputs the signal from an output terminal; and an output load circuit which includes a first resonant circuit and a second resonant circuit that are connected to the output terminal. The first resonant circuit has a resonance frequency higher than the frequency of the second harmonic of the input signal, and the second resonant circuit has a resonance frequency lower than the frequency of the third harmonic of the input signal. The output load circuit has such an impedance looking from the output terminal that a phase of a reflection coefficient at the second harmonic of the input signal is greater than 180 degrees and less than 360 degrees, and a phase of a reflection coefficient at the third harmonic of the input signal is greater than 0 degrees and less than 180 degrees. | 07-11-2013 |
20140077345 | SEMICONDUCTOR PACKAGE, METHOD AND MOLD FOR PRODUCING SAME, INPUT AND OUTPUT TERMINALS OF SEMICONDUCTOR PACKAGE - A semiconductor package according to the present invention includes: a semiconductor element where a high frequency signal is input or output; a planar lead terminal having an end electrically connected to an input terminal or an output terminal of the semiconductor element; an encapsulation resin for encapsulating the lead terminal and the semiconductor element, the lead terminal having another end exposed from the resin; and a ground enhancing metal body encapsulated in the encapsulation resin, having a first main surface facing the lead terminal and a second main surface exposed from the encapsulation resin, wherein the ground enhancing metal body has a shape with a cross section parallel to the second main surface and having a smaller area than an area of the first main surface. | 03-20-2014 |
20140191809 | RADIO FREQUENCY AMPLIFIER CIRCUIT - A radio frequency amplifier circuit includes a transistor and an output-side matching circuit. The output-side matching circuit includes a first distributed constant line to which a radio frequency signal from the transistor is transmitted, a flat plate lead terminal transmitting the radio frequency signal from the first distributed constant line to an outside of the package, and a capacitive element having one electrode that is connected to the lead terminal and the other electrode that is grounded. A back surface of the lead terminal is joined to a resin substrate, and the capacitive element and the first distributed constant line are disposed adjacent to each other, with an alignment direction of the capacitive element and the first distributed constant line intersecting an alignment direction of the first distributed constant line and the lead terminal. | 07-10-2014 |
Patent application number | Description | Published |
20090190879 | MANUFACTURING METHOD OF OPTO-ELECTRIC HYBRID BOARD AND OPTO-ELECTRIC HYBRID BOARD OBTAINED THEREBY - A method of manufacturing an opto-electric hybrid board which is capable of reducing the number of steps for the manufacture of the opto-electric hybrid board and which achieves the reduction in thickness of the opto-electric hybrid board to be manufactured, and an opto-electric hybrid board obtained thereby. A resist layer is formed on a core-forming resin layer, and is then formed into a predetermined pattern. Resultant portions of the core-forming resin layer serve as cores (optical interconnect lines) | 07-30-2009 |
20090190880 | MANUFACTURING METHOD OF OPTO-ELECTRIC HYBRID BOARD AND OPTO-ELECTRIC HYBRID BOARD OBTAINED THEREBY - A method of manufacturing an opto-electric hybrid board which is capable of reducing the number of steps for the manufacture of the opto-electric hybrid board and which achieves the reduction in thickness of the opto-electric hybrid board to be manufactured, and an opto-electric hybrid board obtained thereby. A plurality of protruding cores (optical interconnect lines) | 07-30-2009 |
20090195999 | PRINTED CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - A first insulating layer is formed on a suspension body, and a write wiring trace is formed on the first insulating layer. A second insulating layer is formed on the first insulating layer so as to cover the wiring trace. A ground layer is formed on the second insulating layer so as to be positioned above the wiring trace. Moreover, a third insulating layer is formed on the second insulating layer so as to cover the ground layer. A read wiring trace is formed on the third insulating layer. A fourth insulating layer is formed on the third insulating layer so as to cover the wiring trace. | 08-06-2009 |
20100116537 | PRINTED CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - An end of a first line and an end of a second line of a first write wiring pattern are arranged on both sides of a third line of a second write wiring pattern. Circular connection portions are provided at the ends of the first line and the second line. Through holes are formed in portions of a cover insulating layer above the connection portions, respectively. First connecting layers made of copper, for example, are formed to fill the through holes of the cover insulating layer. A substantially rectangular second connecting layer made of copper, for example, is formed to integrally cover upper ends of the connecting layers. This causes the first and second lines to be electrically connected to each other through the first and second connecting layers. | 05-13-2010 |
20100116540 | PRINTED CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - An end of a first line and an end of a second line of a first write wiring pattern are arranged on both sides of a third line of a second write wiring pattern. Circular connection portions are provided at the ends of the first line and the second line. In addition, through holes are formed in respective portions of a base insulating layer below the connection portions. Each connection portion comes in contact with a connecting region of a suspension body within the through hole. | 05-13-2010 |