Patents by Inventor Toru Masuda
Toru Masuda has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 7902934Abstract: There are provided a variable inductor with little degradation in quality factor, and an oscillator and a communication system using the variable inductor. An inductance controller comprising a reactance device with a variable device value, such as, for example, a variable capacitor, is connected to a secondary inductor, magnetically coupled to a primary inductor through mutual inductance. The inductance controller is provided with an inductance control terminal for receiving a control signal for controlling capacitance of the variable capacitor. Inductance of the primary inductor is varied by varying the capacitance by the control signal.Type: GrantFiled: November 8, 2005Date of Patent: March 8, 2011Assignee: Renesas Electronics CorporationInventors: Takahiro Nakamura, Toru Masuda
-
Patent number: 7843287Abstract: The present invention is directed to provide a low-power-consumption wide-range RF signal processing unit having a small chip occupation area. A semiconductor integrated circuit has, on a semiconductor chip, a resonant circuit including a first capacitor having a capacitance which can be controlled by a first control signal of a first control terminal, and a gyrator for equivalently emulating an inductor by including a second capacitor having a capacitance which can be controlled by a second control signal of a second control terminal. The capacitance and the inductor form a parallel resonant circuit. At the time of changing parallel resonant frequency, the capacitances of the first and second capacitors are coordinately changed. The parallel resonant circuit is suitable for an active load which is connected to an output node of an amplifier.Type: GrantFiled: May 27, 2008Date of Patent: November 30, 2010Assignee: Renesas Electronics CorporationInventors: Toru Masuda, Hiroshi Mori
-
Patent number: 7839229Abstract: The present invention provides a voltage-controlled oscillator operating from microwave frequencies to millimeter wave frequencies, which is capable of outputting a large power with an output impedance thereof being set up to a predetermined level at low power consumption, and a communication device using the same.Type: GrantFiled: December 5, 2007Date of Patent: November 23, 2010Assignee: Hitachi, Ltd.Inventors: Takahiro Nakamura, Toru Masuda
-
Patent number: 7826814Abstract: A frequency synthesizer comprises: a single-tone signal generator which outputs signals of a single frequency; a frequency multiplier which generates one or more intermediate signals having different frequencies based on frequencies of input signals and outputs the same as output signals; a frequency selector; a mixer; and a frequency synthesizer control circuit which includes a frequency synthesizer control terminal, wherein an output of the single-tone signal generator is set as an input of the frequency multiplier, one or more outputs of the frequency multiplier are set as one or more inputs of the frequency selector, an output of the frequency selector and one output of the outputs of the frequency multiplier are set as first and second inputs of the mixer, and an output of the mixer is set as an output of the frequency synthesizer.Type: GrantFiled: June 7, 2007Date of Patent: November 2, 2010Assignee: Renesas Electronics CorporationInventor: Toru Masuda
-
Publication number: 20100271122Abstract: There is disclosed a variable-gain amplifier circuit that operates on a low voltage, exhibits low distortion, provides a wide range of variation, and is suitable for use in a low-power-consumption wireless communication system. The variable-gain amplifier circuit is configured so that a variable-load circuit, which includes three reactance function elements and provides a wide range of impedance variation, is connected to a conductor circuit whose output terminal generates a positive-phase output current proportional to conductance with respect to an input voltage.Type: ApplicationFiled: April 22, 2010Publication date: October 28, 2010Inventors: Toru MASUDA, Nobuhiro Shiramizu, Takahiro Nakamura, Katsuyoshi Washio
-
Patent number: 7821335Abstract: The variable gain amplifier includes a bias circuit (BC) 1, a matching circuit (MC) 2, a variable gain resistive feedback amplifier (FA) 3 and an output follower (EA) 4. The resistance values of the load resistance Rc and feedback resistance Rf are changed in cooperation. In a case of making the load resistance Rc a high resistance to set the low noise amplifier to a high gain, the feedback resistance Rf is also made a high resistance, the feedback time constant ?fb(c1)?2?·RfCbe/(1+gmRc) of the closed loop of the resistive negative feedback amplifier 3 becomes substantially constant, and then the amplifier has a gain small in frequency dependency over a wide bandwidth. In a case of making the load resistance Rc a low resistance to set the low noise amplifier to a low gain, the feedback resistance Rf is also made a low resistance. The feedback resistance Rf with the low resistance increases the negative feedback quantity, and thus the amplifier is set to a low gain.Type: GrantFiled: October 16, 2008Date of Patent: October 26, 2010Assignee: Renesas Electronics CorporationInventors: Nobuhiro Shiramizu, Toru Masuda
-
Publication number: 20100179324Abstract: An anti-tumor agent containing, as an active ingredient, at least one of a sulphostin-related compound represented by the following General Formula (I), a pharmacologically acceptable salt thereof and a hydrate thereof; and a pharmaceutical composition containing the anti-tumor agent: where n is an integer of 1 to 3.Type: ApplicationFiled: January 11, 2010Publication date: July 15, 2010Applicants: Microbial Chemistry Research Foundation, NIPPON KAYAKU KABUSHIKI KAISHAInventors: Tetsuo AKIYAMA, Toru Masuda, Masatoshi Abe
-
Patent number: 7642618Abstract: Semiconductor devices are provided with high performance high-frequency circuits in which interference caused by inductors is reduced. In a semiconductor device including a modulator circuit to modulate a carrier wave by a base band signal to output an RF signal and a demodulator circuit to demodulate the RF signal by use of the carrier wave to gain the base band signal and a local oscillator to generate the carrier wave, inductors respectively having a closed loop wire are adopted. Interference caused by mutual inductance is reduced by the closed loop wire. For example, where inductors are adopted in the modulator circuit, a closed loop wire is disposed around the outer periphery of the inductors.Type: GrantFiled: July 19, 2005Date of Patent: January 5, 2010Assignee: Renesas Technology Corp.Inventors: Nobuhiro Shiramizu, Takahiro Nakamura, Toru Masuda, Nobuhiro Kasa, Hiroshi Mori
-
Patent number: 7592877Abstract: In a variable frequency oscillator in a semiconductor device, as the variation of an oscillation frequency caused by the variation of temperature and supply voltage and process variation is large, it is difficult to reduce the conversion ratio of control voltage dependent upon phase noise and the oscillation frequency and therefore, phase noise is large. The variation of the oscillation frequency is suppressed and phase noise is reduced by connecting a voltage-to-current conversion circuit that converts input control voltage to control current of a ring oscillator to the ring oscillator where delay circuits a delay time of which increases and decreases according to the amplitude of input control current are cascade-connected by a plurality of stages in a ring and increasing/decreasing current dependent upon any of temperature, supply voltage and the threshold voltage of a transistor inside the voltage-to-current conversion circuit.Type: GrantFiled: June 29, 2007Date of Patent: September 22, 2009Assignee: Hitachi, Ltd.Inventors: Nobuhiro Shiramizu, Toru Masuda
-
Patent number: 7589596Abstract: The capacitance of the capacitor with the constant capacitance is equivalently reduced in the capacitance of a resonant capacitor in a voltage control oscillator to increase the variable amount of the capacitance of the resonant capacitor, and to expand an oscillation frequency range. There are provided a differential negative conductance generator circuit having two resonation nodes for differential output, a differential resonant circuit having a variable capacitance that is controlled by voltage control and an inductance connected in parallel to each other, and a differential negative impedance circuit. A resonant circuit and a negative impedance circuit are connected between the resonation nodes. The capacitor with the constant capacitance that occurs between the resonation nodes is reduced by the negative impedance of the negative impedance circuit.Type: GrantFiled: May 18, 2006Date of Patent: September 15, 2009Assignee: Renesas Technology Corp.Inventors: Toru Masuda, Hiroshi Mori
-
Publication number: 20090221259Abstract: The present invention provides a semiconductor integrated circuit including an active mixer circuit that is operated at low voltage, low noise, and low power consumption. It includes a transconductance amplifier, a transformer, and a multiplier, connects a transformer between the transconductance amplifier and the multiplier, and separates between the transconductance amplifier and the multiplier with respect to direct current inside the transformer. Further, each of the tranconductance amplifier and the multiplier is configured of transistors that are single-stacked between the supply voltage terminal and ground terminal.Type: ApplicationFiled: February 12, 2009Publication date: September 3, 2009Inventors: Nobuhiro SHIRAMIZU, Toru Masuda, Takahiro Nakamura, Katsuyoshi Washio, Masamichi Tanabe
-
Publication number: 20090102552Abstract: The variable gain amplifier includes a bias circuit (BC) 1, a matching circuit (MC) 2, a variable gain resistive feedback amplifier (FA) 3 and an output follower (EA) 4. The resistance values of the load resistance Rc and feedback resistance Rf are changed in cooperation. In a case of making the load resistance Rc a high resistance to set the low noise amplifier to a high gain, the feedback resistance Rf is also made a high resistance, the feedback time constant ?fb(c1)?2?·RfCbe/(1+gmRc) of the closed loop of the resistive negative feedback amplifier 3 becomes substantially constant, and then the amplifier has a gain small in frequency dependency over a wide bandwidth. In a case of making the load resistance Rc a low resistance to set the low noise amplifier to a low gain, the feedback resistance Rf is also made a low resistance. The feedback resistance Rf with the low resistance increases the negative feedback quantity, and thus the amplifier is set to a low gain.Type: ApplicationFiled: October 16, 2008Publication date: April 23, 2009Inventors: Nobuhiro SHIRAMIZU, Toru Masuda
-
Patent number: 7518458Abstract: An LC resonant circuit of an oscillator includes a parallel circuit of an inductor, a first fine adjustable capacitor and a first capacitor bank, and a series circuit of a second fine adjustable capacitor and a second capacitor bank. A frequency conversion gain of the oscillator is the sum of a frequency conversion gain of the oscillator based upon the first fine adjustable capacitor which decreases according to increase of a capacitance value of the capacitor bank and a frequency conversion gain based upon the second fine adjustable capacitor which increases according to increase of a capacitance value of the second capacitor bank. Accordingly, an LC resonant circuit for an oscillator with reduced fluctuation of a frequency conversion gain, and an oscillator and a data processing equipment using the same are provided.Type: GrantFiled: November 8, 2006Date of Patent: April 14, 2009Assignee: Renesas Technology Corp.Inventors: Takahiro Nakamura, Toru Masuda, Tomomitsu Kitamura, Norio Hayashi, Hiroshi Mori
-
Publication number: 20090033440Abstract: The present invention is directed to provide a low-power-consumption wide-range RF signal processing unit having a small chip occupation area. A semiconductor integrated circuit has, on a semiconductor chip, a resonant circuit including a first capacitor having a capacitance which can be controlled by a first control signal of a first control terminal, and a gyrator for equivalently emulating an inductor by including a second capacitor having a capacitance which can be controlled by a second control signal of a second control terminal. The capacitance and the inductor form a parallel resonant circuit. At the time of changing parallel resonant frequency, the capacitances of the first and second capacitors are coordinately changed. The parallel resonant circuit is suitable for an active load which is connected to an output node of an amplifier.Type: ApplicationFiled: May 27, 2008Publication date: February 5, 2009Inventors: Toru MASUDA, Hiroshi Mori
-
Publication number: 20080174375Abstract: The present invention provides a voltage-controlled oscillator operating from microwave frequencies to millimeter wave frequencies, which is capable of outputting a large power with an output impedance thereof being set up to a predetermined level at low power consumption, and a communication device using the same.Type: ApplicationFiled: December 5, 2007Publication date: July 24, 2008Inventors: Takahiro NAKAMURA, Toru Masuda
-
Publication number: 20080122546Abstract: In a variable frequency oscillator in a semiconductor device, as the variation of an oscillation frequency caused by the variation of temperature and supply voltage and process variation is large, it is difficult to reduce the conversion ratio of control voltage dependent upon phase noise and the oscillation frequency and therefore, phase noise is large. The variation of the oscillation frequency is suppressed and phase noise is reduced by connecting a voltage-to-current conversion circuit that converts input control voltage to control current of a ring oscillator to the ring oscillator where delay circuits a delay time of which increases and decreases according to the amplitude of input control current are cascade-connected by a plurality of stages in a ring and increasing/decreasing current dependent upon any of temperature, supply voltage and the threshold voltage of a transistor inside the voltage-to-current conversion circuit.Type: ApplicationFiled: June 29, 2007Publication date: May 29, 2008Inventors: Nobuhiro SHIRAMIZU, Toru Masuda
-
Publication number: 20080090037Abstract: A packaging laminate of the present invention is characterized in that it has at least a sealant layer (2), the sealant layer (2) being a film which comprises a linear ethylene/?-olefin copolymer, has a density of 0.925-0.935 g/cm3, and contains no additives, and that the linear ethylene/?-olefin copolymer is either a copolymer produced with a metallocene catalyst as a polymerization catalyst or a copolymer which has been obtained by subjecting a linear ethylene/?-olefin copolymer produced with a Ziegler catalyst as a polymerization catalyst to an operation for removing ionic impurities and in which contained ionic impurities have been reduced or removed. The packaging laminate has a significantly reduced content of ionic impurities such as metal ions and has a significant seal strength and excellent slip properties.Type: ApplicationFiled: November 9, 2005Publication date: April 17, 2008Applicant: Showa Denko Packaging Co.Inventor: Toru Masuda
-
Publication number: 20070298750Abstract: A frequency synthesizer comprises: a single-tone signal generator which outputs signals of a single frequency; a frequency multiplier which generates one or more intermediate signals having different frequencies based on frequencies of input signals and outputs the same as output signals; a frequency selector; a mixer; and a frequency synthesizer control circuit which includes a frequency synthesizer control terminal, wherein an output of the single-tone signal generator is set as an input of the frequency multiplier, one or more outputs of the frequency multiplier are set as one or more inputs of the frequency selector, an output of the frequency selector and one output of the outputs of the frequency multiplier are set as first and second inputs of the mixer, and an output of the mixer is set as an output of the frequency synthesizer.Type: ApplicationFiled: June 7, 2007Publication date: December 27, 2007Inventor: Toru MASUDA
-
Publication number: 20070103248Abstract: An LC resonant circuit of an oscillator includes a parallel circuit of an inductor, a first fine adjustable capacitor and a first capacitor bank, and a series circuit of a second fine adjustable capacitor and a second capacitor bank. A frequency conversion gain of the oscillator is the sum of a frequency conversion gain of the oscillator based upon the first fine adjustable capacitor which decreases according to increase of a capacitance value of the capacitor bank and a frequency conversion gain based upon the second fine adjustable capacitor which increases according to increase of a capacitance value of the second capacitor bank. Accordingly, an LC resonant circuit for an oscillator with reduced fluctuation of a frequency conversion gain, and an oscillator and a data processing equipment using the same are provided.Type: ApplicationFiled: November 8, 2006Publication date: May 10, 2007Inventors: Takahiro Nakamura, Toru Masuda, Tomomitsu Kitamura, Norio Hayashi, Hiroshi Mori
-
Patent number: 7177612Abstract: A frequency generator which can perform stable frequency oscillation unaffected by temperature variation. A frequency generator having a differential amplifier (1) having an LC resonance circuit (10) as a load and buffer circuits (21, 22) feeding back an output of the differential amplifier to its input, wherein a temperature coefficient converter (5) converting an output voltage of a reference voltage generator (4) and its temperature dependence to a voltage having a predetermined voltage and temperature coefficient and outputting it is provided to control bias currents IEF of emitter follower circuits to be in proportion to temperature variation. There are a characteristic in which delay time of the emitter follower circuits constructing the buffer circuits is in inverse proportion to a transconductance of transistors and a characteristic in which the transconductance is in inverse proportion to temperature and is in proportion to the bias currents IEF.Type: GrantFiled: July 30, 2004Date of Patent: February 13, 2007Assignee: Renesas Technology Corp.Inventors: Takahiro Nakamura, Kenichi Ohhata, Toru Masuda