摘要:
A multiband mobile unit communication apparatus is disclosed which comprises: an antenna for receiving L FRQ bands of M radio wave SIGs modulated by N modulating methods, M>L, M>N, N≧L; a frequency synthesizer for generating a LO SIG; an IF SIG generation CKT for generating M IF SIGs using the LO SIG, the FRQ synthesizer generating the LO SIG such that the M IF SIGs have the same intermediate FRQ; a SW CKT for selectively outputting N IF SIGs modulated by the N modulating methods respectively out of the M IF SIGs; N filters for filtering outputs of N IF SIGs from the SW CKT and outputting N filtered IF SIGs respectively; a SW responsive to a SW CONT signal for selectively outputting one of the N filtered IF SIGs; and a quadrature demodulator for quadrature-demodulating one of N filtered IF SIGs and outputting baseband SIG. Different frequency bands of received signals are converted into IF SIGs having the same intermediate frequency. Moreover, different frequency bands of received signals which are modulated by the same method are filtered by the same IF filter.
摘要翻译:公开了一种多频带移动单元通信装置,包括:用于接收由N个调制方法调制的M个无线电波SIG的L个FRQ频带的天线,M> L,M> N,N> = L; 用于产生LO SIG的频率合成器; 用于使用LO SIG产生M IF SIG的IF SIG生成CKT,FRQ合成器生成LO SIG,使得M IF SIG具有相同的中间FRQ; SW CKT,用于选择性地输出由N个调制方法调制的N个IF SIG在M IF SIG中; N个滤波器,用于滤除来自SW CKT的N IF SIG的输出,并分别输出N个滤波的IF SIG; 响应于SW CONT信号的SW,用于选择性地输出N个滤波的IF SIG中的一个; 以及用于正交解调N个滤波的IF SIG之一并输出基带SIG的正交解调器。 接收信号的不同频带被转换成具有相同中频的IF SIG。 此外,通过相同的方法调制的接收信号的不同频带被相同的IF滤波器滤波。
摘要:
A receiving mixer device for a mobile radio transceiver which operates with multiple modulation modes and within multiple frequency bands. The receiving mixer includes a plurality of mixers each for converting a received radio frequency signal to an intermediate frequency, a common connection part to which output terminals of the mixers are connected in common, a plurality of impedance conversion circuits connected to the common connection part, and output terminals for the impedance conversion circuits. The number of mixers is equal to the number of frequency bands of the received radio frequency signal. The number of the intermediate frequencies is equal to the number of modulation modes of the received radio frequency signal. The number of the impedance conversion circuits is equal to the number of intermediate frequencies, and each of the impedance conversion circuits passes only a single predetermined frequency of the intermediate frequencies used by the device.
摘要:
Disclosed herein is an information processing apparatus including: a first drawing processing block configured to generate a video signal by executing predetermined signal processing on entered image data; a second drawing processing block having a higher drawing processing power than the first drawing processing block and being configured to generate a video signal by executing predetermined signal processing on entered image data; a workload measuring block configured to measure at least one of a workload in the first drawing processing block and a workload in the second drawing processing block; a storage block configured to store an application; and a control block configured to select the first drawing processing block or the second drawing processing block to execute the application read from the storage block, on the basis of at least one of the measured workload in the first drawing processing block and the second drawing processing block.
摘要:
The present invention provides a method that is useful for measuring the absolute amount of a target protein contained in a protein mixture, such as a biological sample. The method of the present invention includes the steps of: (A) fragmenting the sample containing the target protein and labeling with a stable isotope X; (B) adding, to the sample obtained in step (A), a known amount of an internal standard that is prepared by fragmenting a standard protein that is identical to the target protein, and labeling with a stable isotope Y; (C) placing the sample obtained in step (B) in an LC-MS/MS device and performing multiple reaction monitoring (MRM) analysis using MRM transitions selected for the internal standard; and (D) identifying, in the MRM chromatogram detected in step (C), a peptide derived from the target protein (a target peptide) that shows the same retention time as a peptide derived from the internal standard (an internal standard peptide), and quantifying the target protein in the test sample by comparing the peak area of the internal standard peptide with the peak area of the target peptide.
摘要:
Disclosed herein is an information processing apparatus including: a first drawing processing block configured to generate a video signal by executing predetermined signal processing on entered image data; a second drawing processing block having a higher drawing processing power than the first drawing processing block and being configured to generate a video signal by executing predetermined signal processing on entered image data; a workload measuring block configured to measure at least one of a workload in the first drawing processing block and a workload in the second drawing processing block; a storage block configured to store an application; and a control block configured to select the first drawing processing block or the second drawing processing block to execute the application read from the storage block, on the basis of at least one of the measured workload in the first drawing processing block and the second drawing processing block.
摘要:
An information processing apparatus includes a first graphics chip, a second graphics chip, a detection unit, and a display unit. The first graphics chip has a first drawing processing capacity. The second graphics chip has a second drawing processing capacity different from the first drawing processing capacity. The detection unit detects a request to change over from an execution of the first graphics chip to an execution of the second graphics chip. The display unit displays a first window prompting to close an application in execution, in a case where the detection unit detects the request to change over from the execution of the first graphics chip to the execution of the second graphics chip.
摘要:
An information processing apparatus includes a first graphics chip, a second graphics chip, a detection unit, and a display unit. The first graphics chip has a first drawing processing capacity. The second graphics chip has a second drawing processing capacity different from the first drawing processing capacity. The detection unit detects a request to change over from an execution of the first graphics chip to an execution of the second graphics chip. The display unit displays a first window prompting to close an application in execution, in a case where the detection unit detects the request to change over from the execution of the first graphics chip to the execution of the second graphics chip.
摘要:
The proliferation of cardiomyocytes is induced by expressing cyclin and CDK in the cardiomyocytes, and by suppressing the function or action of a Cip/Kip family protein or inhibiting the production of a Cip/Kip family protein. Among the Cip/Kip family proteins, it is preferable to suppress the function of p27KiP1 or inhibiting the production thereof. As a recombinant vector to be used therefor, there is provided a vector comprising: (1) a cyclin gene; (2) a cyclin-dependent kinase gene; and (3) one or a plurality selected from the group consisting of a gene encoding a factor that inhibits the function or action of a Cip/Kip family protein and a nucleic acid sequence that inhibits the production of Cip/Kip family protein.
摘要:
A method for measuring the absolute amount of a target protein contained in a protein mixture, including the steps of: (A) fragmenting the sample containing the target protein and labeling with a stable isotope X; (B) adding a known amount of an internal standard that is prepared by fragmenting a standard protein that is identical to the target protein, and labeling with a stable isotope Y; (C) placing the sample in an LC-MS/MS device and performing multiple reaction monitoring (MRM) analysis using MRM transitions selected for the internal standard; and (D) identifying a peptide derived from the target protein (a target peptide) that shows the same retention time as a peptide derived from the internal standard (an internal standard peptide), and quantifying the target protein in the test sample by comparing the peak area of the internal standard peptide with the peak area of the target peptide.