Patent application number | Description | Published |
20100130794 | 6,8,10-UNDECATRIEN-3-OL OR 6,8,10-UNDECATRIEN-4-OL, AND AROMA COMPOSITIONS - This invention offers 6,8,10-undecatrien-3-ol and 6,8,10-undecatrien-4-ol. These compounds possess not only woody green note, but also fruity note rich in naturality and freshness, and aroma compositions blended therewith are useful for imparting fragrance and flavor to food and beverage, perfumed cosmetics, medicaments and the like. | 05-27-2010 |
20100137648 | 6,8,10-UNDECATRIEN-3-ONE OR 6,8,10-UNDECATRIEN-4-ONE, AND AROMA COMPOSITIONS - This invention offers 6,8,10-undecatrien-3-one or 6,8,10-undecatrien-4-one which are represented by the following formula (1) | 06-03-2010 |
Patent application number | Description | Published |
20100073099 | STABILIZATION NETWORK AND A SEMICONDUCTOR DEVICE HAVING THE STABILIZATION NETWORK - A stabilization network and a semiconductor device having the stabilization network wherein the stabilization network includes an active element having a negative resistance accompanying a high frequency negative resistance oscillation; and a tank circuit composed of a resistance connected to a main electrode of the active element, an inductance and capacitance which are connected in parallel with the resistance and synchronize with an oscillating frequency of the high frequency negative resistance oscillation, wherein the stabilization network is performed for suppressing a negative resistance accompanying a Gunn oscillation and obtaining stable and highly efficient power amplification. | 03-25-2010 |
20110018631 | SEMICONDUCTOR DEVICE - According to one embodiment, there is a semiconductor device including a first active element, a second active element connected in parallel with the first active element, and a first stabilization circuit connected between a gate of the first active element and a gate of the second active element and configured with a parallel circuit of a gate bypass resistor, a gate bypass capacitor, and a gate bypass inductor, the first stabilization circuit having a resonant frequency equal to an odd mode resonant frequency. | 01-27-2011 |
20110089921 | POWER AMPLIFICATION DEVICE - According to one embodiment, a power amplification device configured to switching-amplify a high-frequency input signal into an output signal includes a feedback circuit, a subtractor, a comparator, an output tuning circuit, a constant voltage controlled power supply, and an amplifier. The feedback circuit is configured to output a portion of the output signal as a feedback signal. The subtractor is configured to output a difference between the input signal and the feedback signal as a error signal. The comparator is configured to generate an on/off pulse signal by comparing the error signal with a predetermined threshold voltage. The output tuning circuit is configured to resonate to a frequency of the input signal. The amplifier is configured to generate the output signal by switching-amplifying the input signal according to on/off of pulse signal, and output the output signal to the output tuning circuit. | 04-21-2011 |
20110298552 | SEMICONDUCTOR DEVICE - According to one embodiment, there is a semiconductor device including a first active element, a second active element connected in parallel with the first active element, and a first stabilization circuit connected between a gate of the first active element and a gate of the second active element and configured with a parallel circuit of a gate bypass resistor, a gate bypass capacitor, and a gate bypass inductor, the first stabilization circuit having a resonant frequency equal to an odd mode resonant frequency. | 12-08-2011 |
20120218040 | CLASS-AB POWER AMPLIFIER - According to an embodiment, a class-AB power amplifier includes an amplifying element whose power supply voltage is expressed as Vdc and whose maximum current is expressed as Imax, a conduction angle θo of the amplifying element being more than π(rad) and less than 2·πr(rad), and load impedance of a fundamental wave being expressed as Z | 08-30-2012 |
20120218045 | CLASS-C POWER AMPLIFIER - According to one embodiment, a class-C power amplifier includes an amplifying element whose power supply voltage is expressed as Vdc and whose maximum current is expressed as Imax, a conduction angle θo of the amplifying element being less than π(rad), and load impedance of a fundamental wave being expressed as Z | 08-30-2012 |
20120218046 | CLASS-AB POWER AMPLIFIER - A class-AB power amplifier according to the present embodiment includes an amplifying element whose power supply voltage is expressed as Vdc and whose maximum current is expressed as Imax, a conduction angle θo of the amplifying element being more than π(rad) and less than 2·π(rad), and load impedance of a fundamental wave being expressed as Z | 08-30-2012 |
Patent application number | Description | Published |
20110167429 | MESSAGE PROCESSING APPARATUS AND MESSAGE PROCESSING METHOD - A message processing apparatus which communicates with a plurality of software components, and transfers a message received from a software component to another software component holds a message received from a software component, manages the received message, the number of transmissions, and the holding period in correspondence with each other, and transmits the held received message to another software component in response to a delivery request from the other software component. When no new delivery request is received for the managed holding period after transmitting the received message by the managed number of transmissions, the message processing apparatus deletes the received message from the management targets. | 07-07-2011 |
20110236105 | PRINTING CONTROL APPARATUS AND PRINTING CONTROL METHOD - A printing control apparatus may execute printing on a continuous sheet by using a printing unit. The printing control apparatus includes a reversal unit, an input unit, and a printing control unit. In executing printing by the printing unit on both surfaces of the continuous sheet, the reversal unit reverses the continuous sheet to execute printing on a second surface after executing printing on a first surface. If the printing on the first surface currently is being executed by the printing unit to execute two-sided printing of a preceding job based on a preceding job in a case where an instruction for interruption printing is input by the input unit, the printing control unit executes the interruption printing according to the instruction subsequent to the printing on the first surface of the continuous sheet based on the preceding job, and supplies the printed continuous sheet to the reversal unit. | 09-29-2011 |
20120199022 | PRINTING METHOD AND PRINTING APPARATUS - A state of a print head is checked by printing a plurality of images in order on a sheet fed from a sheet feeding unit, and reading the printed images. A region that is inappropriate for performing printing on the fed sheet is detected. When the inappropriate region has been detected, printing the images is stopped and the sheet is cut. Of the cut sheets, the sheet at an upstream is sent back to the sheet feeding unit. Subsequently, the sheet is again fed to perform printing and conduct a test. | 08-09-2012 |
20120199026 | PRINTING METHOD AND PRINTING APPARATUS - A printing apparatus sequentially prints a plurality of images on a first surface of a sheet, and then sequentially prints a plurality of images on a second surface that is a back surface of the first surface. When a state of a printing unit is determined not to be normal when printing on the first surface, the printing apparatus executes processing for maintenance by using a sheet different from the sheet used for printing on the first surface. | 08-09-2012 |
20130336698 | PRINTING CONTROL APPARATUS AND PRINTING CONTROL METHOD - An apparatus includes an input unit and a printing control unit to cause a printing unit to execute printing on a continuous sheet. The input unit inputs an instruction for printing by the printing unit. The printing control unit causes the printing unit to execute printing according to a second job subsequent to printing on a first surface of the continuous sheet based on a first job, wherein the instruction input by the input unit may include a first job that is a two-sided printing and a second job that is a one-sided printing, or a first job that is a one-sided printing and a second job that is a two-sided printing. A supplying unit is controlled to supply the printed continuous sheet to a reversal unit which reverses the continuous sheet to execute printing on a second surface after executing printing on a first surface of the continuous sheet. | 12-19-2013 |