Patent application number | Description | Published |
20080246454 | DC/DC CONVERTER - A DC/DC converter is supplied such that the desired output setting voltage can be obtained as the load-side output, even when the difference between the power supply voltage and the output setting voltage of the load-side output is large. This DC/DC converter comprises a switching device, a voltage divider, an error amplifier, an oscillator which outputs a oscillation clock, a slope circuit which receives the oscillation clock and outputs a sawtooth waveform voltage having a slope which begins at the leading edge of the oscillation clock, a comparator which compares the sawtooth waveform voltage and the output voltage of the error amplifier, and a logic circuit which is set by the trailing edge of the oscillation clock, and is reset by the output of the comparator. | 10-09-2008 |
20090009104 | Step-Up/Down Regulator Circuit and Liquid Crystal Display Device Incorporating It - A step-up/step-down regulator circuit wherein a switch (N | 01-08-2009 |
20090027820 | Semiconductor Integrated Circuit Device - An overheat protection circuit | 01-29-2009 |
20110133711 | SEMICONDUCTOR DEVICE AND SWITCHING REGULATOR USING THE DEVICE - The semiconductor device according to the present invention has an n-channel output transistor wherein an input voltage is impressed on a drain, and a pulsed switching voltage that corresponds to a switching drive of the transistor is brought out from a source; a bootstrap circuit for generating a boost voltage enhanced by a predetermined electric potential above the switching voltage; an internal circuit for receiving a supply of the boost voltage to generate a switching drive signal, and supplying the signal to a gate of the output transistor; an overvoltage protection circuit for monitoring an electric potential difference between the switching voltage and the boost voltage, and generating an overvoltage detection signal; and a switching element for establishing/blocking electrical conduction between the internal circuit and the end impressed with the boost voltage, in accordance with the overvoltage detection signal. | 06-09-2011 |
20140036556 | SEMICONDUCTOR DEVICE AND SWITCHING REGULATOR USING THE DEVICE - The semiconductor device according to the present invention has an n-channel output transistor wherein an input voltage is impressed on a drain, and a pulsed switching voltage that corresponds to a switching drive of the transistor is brought out from a source; a bootstrap circuit for generating a boost voltage enhanced by a predetermined electric potential above the switching voltage; an internal circuit for receiving a supply of the boost voltage to generate a switching drive signal, and supplying the signal to a gate of the output transistor; an overvoltage protection circuit for monitoring an electric potential difference between the switching voltage and the boost voltage, and generating an overvoltage detection signal; and a switching element for establishing/blocking electrical conduction between the internal circuit and the end impressed with the boost voltage, in accordance with the overvoltage detection signal. | 02-06-2014 |
Patent application number | Description | Published |
20140350419 | BLOOD PRESSURE MEASUREMENT DEVICE - A blood pressure measurement device includes a cuff and a control unit. The cuff includes a first securing portion, provided on one surface of the cuff, for securing the cuff to the measurement area in a wrapped state, and a second securing portion, provided on another surface of the cuff, for securing the cuff to the measurement area in a wrapped state. At least one of the first securing portion and the second securing portion includes an electromagnet portion. The control unit secures the cuff to the measurement area by controlling a magnetic force emitted from the electromagnet portion and causing the second securing portion to be attracted to the first securing portion. | 11-27-2014 |
20150025400 | BLOOD PRESSURE METER - With the blood pressure meter of the present invention, a pump unit is connected via a first fluid path to a fluid bladder. The first fluid path extends straight in the Z direction between the pump unit and the fluid bladder, sends air supplied from the pump unit to the fluid bladder or sends air inside of the fluid bladder to a valve. | 01-22-2015 |
20150105676 | BLOOD PRESSURE METER CUFF - A blood pressure meter cuff of the present invention includes an air bladder that receives a supply of air in order to compress a radial artery and an ulnar artery, and a cuff band for fixing the air bladder to a wrist including the radial artery and the ulnar artery. The air bladder has a wide portion that is arranged on the radial artery and the ulnar artery, and first and second narrow portions that are continuous with the wide portion and are narrower than the wide portion. The edges of the first and second narrow portions that are continuous with the edges of the wide portion are shaped as straight lines that are inclined with respect to the width direction. | 04-16-2015 |
Patent application number | Description | Published |
20100003245 | Remedy for Renal Disease - When an anti-human BMP antibody was added to cells of an immortalized human mesangial cell line cultured in the presence of human BMP, the anti-human BMP antibody significantly suppressed the production of type IV collagen in mesangial cells. A number of signaling pathways are involved in abnormal proliferation of type IV collagen. It was therefore completely unpredictable whether merely blocking the BMP signal would indeed suppress the abnormal proliferation of type IV collagen. However, for the first time, the present inventors demonstrated that anti-BMP antibodies are very effective in suppressing the abnormal proliferation of type IV collagen. Thus, anti-BMP antibodies can be used as novel therapeutic agents for kidney diseases associated with abnormal proliferation of the mesangial matrix. | 01-07-2010 |
20100135988 | Methods for identifying agents for preventing or treating proliferative diseases, and for inhibiting extracellular matrix or alpha1 type IV collagen - A method of detecting proliferative diseases causing sclerosis, comprising measuring the expression of at least one substance selected from the group consisting of STAT3, phosphorylated STAT3, Smad1, phosphorylated Smad1, activin receptor-like kinase 1, activin receptor-like kinase 3 and bone morphogenetic proteins in a biological sample. A kit therefor. A prophylactic and/or therapeutic agent for proliferative diseases causing sclerosis, comprising as an active ingredient a substance having an inhibitory effect on the expression of at least one substance selected from the group consisting of STAT3, phosphorylated STAT3, Smad1 and phosphorylated Smad1. A method of identifying substances effective in preventing and/or treating proliferative diseases causing sclerosis, comprising judging whether or not a test substance inhibits the expression of at least one substance selected from the group consisting of STAT3, phosphorylated STAT3, Smad1 and phosphorylated Smad1. A kit therefor. | 06-03-2010 |
Patent application number | Description | Published |
20080303567 | DELAY LOCKED LOOP CIRCUIT - A delay element generates a delayed clock signal which transitions with a delay from a rising (or falling) of a reference clock signal by a delay amount determined based on an output of a loop filter. A signal generation circuit generates two signals which complementarily change according to rising and falling of the reference clock signal and a transition of the delayed clock signal. A charge pump circuit performs on the loop filter, according to these two signals, a push (or pull) operation during an interval extending from a rising (or falling) of the reference clock signal to the transition of the delayed clock signal and a pull (or push) operation during an interval extending from the transition of the delayed clock signal to a falling (or rising) of the reference clock signal. | 12-11-2008 |
20090184856 | DIGITAL-TO-ANALOG CONVERTER - A converter of 6-bit input includes a reference voltage generating circuit generating 17 reference voltages, a first switch circuit having 19 switch pairs each including MOS transistors for selecting two adjacent reference voltages in accordance with the four most significant bits, a second switch circuit including a series circuit of MOS transistors for dividing the selected two reference voltages into four to obtain three intermediate voltages, and a third switch circuit for selectively outputting the lower of the selected two reference voltages or one of the three intermediate voltages. In a second mode in which a gray level having a smaller ON-resistance of a MOS transistor than that in the first mode is selected, the number of MOS transistors used in the first and second switch circuits for voltage division is increased. | 07-23-2009 |
20100039426 | DATA SIGNAL LOADING CIRCUIT, DISPLAY PANEL DRIVING CIRCUIT, AND IMAGE DISPLAY APPARATUS - A data signal loading circuit (i) which includes: a comparator CMP | 02-18-2010 |
20100225518 | DIGITAL/ANALOG CONVERTER CIRCUIT - A selection section ( | 09-09-2010 |
20110199400 | SEMICONDUCTOR INTEGRATED CIRCUIT FOR DRIVING DISPLAY PANEL, DISPLAY PANEL DRIVING MODULE, AND DISPLAY DEVICE - Gradation wiring lines of positive polarity included in a (m)th group of wiring lines of positive polarity and gradation wiring lines of positive polarity included in a (m+1)th group of wiring lines of positive polarity are alternately provided. Gradation wiring lines of negative polarity included in a (m′)th group of wiring lines of negative polarity and gradation wiring lines of negative polarity included in a (m′+1)th group of wiring lines of negative polarity are alternately provided. First −(n) th resistance dividing circuits of positive polarity include (m)th resistance dividing circuits of positive polarity provided between the gradation wiring lines of positive polarity or on one end side of a direction where the gradation wiring lines of positive polarity extend and connected to the (m)th group of wiring lines of positive polarity, and (m+1)th resistance dividing circuits of positive polarity provided between the gradation wiring lines of positive polarity or on the other end side of the direction where the gradation wiring lines of positive polarity extend and connected to the (m+1)th group of wiring lines of positive polarity. First −(n′)th resistance dividing circuits of negative polarity include (m′)th resistance dividing circuits of negative polarity provided between the gradation wiring lines of negative polarity or on one end side of a direction where the gradation wiring lines of negative polarity extend and connected to the (m′)th group of wiring lines of negative polarity, and (m′+1)th resistance dividing circuits of negative polarity provided between the gradation wiring lines of negative polarity or on the other end side of the direction where the gradation wiring lines of negative polarity extend and connected to the (m′+1)th group of wiring lines of negative polarity. | 08-18-2011 |