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    • 2. 发明授权
    • Wire protective member
    • 电线保护构件
    • US08759681B2
    • 2014-06-24
    • US12616961
    • 2009-11-12
    • Masayuki DoiToshitsugu MoriiArisa Imatoku
    • Masayuki DoiToshitsugu MoriiArisa Imatoku
    • H01B7/00H01B7/08
    • H02G3/0481B60R16/0215C09J7/29C09J2201/20C09J2203/302C09J2400/263
    • A wire protective member (10) is provided for covering a wire (11) from an outer side. The wire protective member (10) has a first base (13) includes a first adhesive layer (12) to be bonded to the wire (11) on one surface thereof, a second base (16) to be placed on a surface of the first base (13) opposite to the one including the first adhesive layer (12), and spacers (14) formed between the first and second bases (13, 16). No clearance is formed between the wire (11) and the protective member (10) to achieve a space saving. Further, since it is sufficient to wrap the wire (11) with one member composed of the first adhesive layer (12), the first base (13), the layer partly formed with the spacers (14) and the second base (16), time and effort for a mounting operation and the number of parts can be reduced.
    • 电线保护构件(10)设置成用于从外侧覆盖电线(11)。 线保护构件(10)具有第一基座(13),其包括在其一个表面上与导线(11)接合的第一粘合剂层(12),第二基座(16) 第一基底(13)与包括第一粘合剂层(12)的第一基底(13)以及形成在第一和第二基底(13,16)之间的间隔物(14)相对。 在线(11)和保护构件(10)之间不形成间隙,以节省空间。 此外,由于将导线(11)与由第一粘合层(12)构成的构件(12),第一基座(13),由间隔件(14)和第二基座(16)部分地形成的层 可以减少安装操作的时间和精力,并减少零件数量。
    • 3. 发明申请
    • Clamp for use in wire harness
    • 用于线束的夹具
    • US20080093521A1
    • 2008-04-24
    • US11975943
    • 2007-10-23
    • Masayuki DoiToshitsugu MoriiShigeru Oyamada
    • Masayuki DoiToshitsugu MoriiShigeru Oyamada
    • A47F5/08
    • F16L3/137H02G3/30
    • A clamp (10) has a plate (12) with a harness-mounting part (11) to be fastened to a wire harness. Two spaced-apart stems (14) project from the plate (12). A spanning part (14) connects confronting portions of the stems (15) to form a cavity (18). A vane support (17) projects out from the end of each stem (15) and a vane (16) projects down and out from a tip of each vane support (17). A vehicle body-locking part (16a) formed at a tip of each vane (16). The spanning part (14) twists towards the cavity (18) when the wire harness is pulled in a withdrawal direction from the vehicle body to unlock the vehicle body-locking parts (16a) of the vanes (16) from the locking hole.
    • 夹具(10)具有带有线束安装部件(11)的板(12),以将其紧固到线束上。 两个间隔开的杆(14)从板(12)突出。 跨越部分(14)连接杆(15)的相对部分以形成空腔(18)。 叶片支撑件(17)从每个杆(15)的端部突出,并且叶片(16)从每个叶片支撑件(17)的尖端向下伸出。 形成在每个叶片(16)的尖端处的车身锁定部分(16a)。 当线束从车体沿抽出方向被拉动时,跨越部分(14)朝向空腔(18)转动,以将叶片(16)的车身锁定部分(16a)从锁定孔解锁。
    • 4. 发明授权
    • Wireless communication terminal capable of correctly specifying position of burst and having small frequency error of recovered carrier
    • 无线通信终端能够正确地指定突发的位置并具有小的恢复载波的频率误差
    • US06603821B1
    • 2003-08-05
    • US09477416
    • 2000-01-04
    • Masayuki Doi
    • Masayuki Doi
    • H04L2714
    • H04L27/2332H04L27/16H04L2027/0046H04L2027/0065
    • A power calculator calculates the power of an input signal in accordance with a component of an input received signal. A comparator asserts an unmodulated signal detection signal when the power calculated by the power calculator exceeds a prescribed threshold. A maximum value detector detects the maximum power of the input received signal in accordance with the assertion of the unmodulated signal detection signal and generates non-modulated signal position instruction information with a maximum value detection signal, and a frequency error calculator calculates an error of a carrier frequency on the basis of the received signal corresponding to the maximum power. The frequency error is calculated only with a non-modulated signal, whereby the frequency error can be correctly calculated and the non-modulated signal position can also be correctly detected.
    • 功率计算器根据输入接收信号的分量来计算输入信号的功率。 当由功率计算器计算的功率超过规定的阈值时,比较器确定未调制的信号检测信号。 最大值检测器根据未调制信号检测信号的断言来检测输入接收信号的最大功率,并且产生具有最大值检测信号的未调制信号位置指令信息,频率误差计算器计算误差 基于对应于最大功率的接收信号的载波频率。 仅通过非调制信号计算频率误差,从而可以正确计算频率误差,也可以正确检测未调制的信号位置。
    • 5. 发明授权
    • Digital radio communications receiver
    • 数字无线电通信接收机
    • US5898743A
    • 1999-04-27
    • US738796
    • 1996-10-28
    • Takanori ShojiYasuyuki NagashimaMasayuki Doi
    • Takanori ShojiYasuyuki NagashimaMasayuki Doi
    • H04J3/06H04L7/04H04L7/08H04J3/14
    • H04J3/0608H04L7/042
    • A digital radio communications receiver for predicting correctly a frame structure and assuring correct synchronization. The digital radio communications receiver for use in a digital communications system having two or more frame structures on a single channel, comprises a unique word detector module for detecting a unique word from a received bit string, a receive timing controller for timing controlling a received frame based on the unique word detection information from the unique word detector module, a frame structure determining module for determining the frame structure based on the unique word detection information from the unique word detector module and the frame structure determining guard level, and a frame structure determining guard level setting module for setting the frame structure determining guard level that is the number of consecutive detections of the frame structure in frame structure determination conditions and outputting the resulting guard level to the frame structure determining module, whereby the probability of erroneous detection of the frame structure is lowered by recognizing a change in the frame structure and by outputting the information about the new frame structure.
    • 一种用于正确预测帧结构并确保正确同步的数字无线电通信接收机。 用于在单个信道上具有两个或更多个帧结构的数字通信系统中的数字无线电通信接收机包括用于从接收到的位串中检测唯一字的唯一字检测器模块,用于定时控制接收帧的接收定时控制器 基于来自唯一字检测器模块的唯一字检测信息,帧结构确定模块,用于基于来自唯一字检测器模块的唯一字检测信息和帧结构确定保护级别来确定帧结构,以及帧结构确定 保护级别设定模块,用于在帧结构确定条件中设置作为帧结构的连续检测次数的帧结构确定保护级别,并将所得到的保护级别输出到帧结构确定模块,由此,帧的错误检测的概率 结构被识别降低 确定框架结构的变化并输出有关新框架结构的信息。
    • 6. 发明授权
    • QPSK demodulator for obtaining phase by arithmetic operation
    • QPSK解调器,用于通过算术运算获得相位
    • US5898739A
    • 1999-04-27
    • US679146
    • 1996-07-12
    • Masayuki Doi
    • Masayuki Doi
    • H04L27/22H04L27/233H03D1/00H03D3/00H04L27/14
    • H04L27/2332
    • A QPSK demodulator that is smaller in size and lower in cost by restricting a storage capacity needed for a TAN.sup.-1 ROM to a minimum. Values of I and Q channel base band signals obtained by converting and quantizing a received signal are approximated to a nearest one of values on (2.sup.N-3 +1) segment lines represented by Q=(n/2.sup.N-3)I, where n=0, 1, . . . , 2.sup.N-3, with a phase accuracy of positive N bits. Data corresponding to the approximated segment line is previously stored in a TAN.sup.-1 ROM as phase arithmetic data. An address decoder converts each base band signal into an address. An arithmetic circuit obtains phase data, for obtaining a QPSK demodulated signal, by performing a predetermined arithmetic operation, which is commensurate with the size of I and Q channel base band signals, on phase arithmetic data stored in the TAN.sup.-1 ROM in association with the converted address.
    • 通过将TAN-1 ROM所需的存储容量限制到最小,QPSK解调器的尺寸更小,成本更低。 通过转换和量化接收信号获得的I和Q通道基带信号的值被近似为由Q =(n / 2N-3)I表示的(2N-3 + 1)段行上的最接近的一个值,其中n = 0,1,... 。 。 2N-3,相位精度为正N位。 对应于近似段线的数据预先存储在TAN-1 ROM中作为相位运算数据。 地址解码器将每个基带信号转换成地址。 算术电路通过执行与I和Q通道基带信号的大小相称的预定算术运算获得相位数据,用于获得QPSK解调信号,与TAN-1 ROM中存储的相位运算数据相关联 转换地址。
    • 8. 发明授权
    • Volume adjusting circuit and volume adjusting method
    • 音量调节电路和音量调节方式
    • US08736472B2
    • 2014-05-27
    • US13659103
    • 2012-10-24
    • Masayuki Doi
    • Masayuki Doi
    • H03M1/00H03M1/66H03M1/70
    • H03M1/66H03G3/02H03G3/3005H03G3/3089
    • A volume adjusting circuit which converts a digital audio signal to an analog signal by a D/A converter and outputs the analog signal includes: a first gain variable circuit unit which controls a gain of the digital audio signal; a second gain variable circuit unit which controls a gain of the analog signal output from the D/A converter; a storage unit which stores gain setting value; and a control unit which controls the gain of the first gain variable circuit unit and the gain of the second gain variable circuit unit based on the gain setting value stored in the storage unit, wherein the storage unit and the control unit are shared in controlling the first gain variable circuit unit and in controlling the second gain variable circuit unit.
    • 一种通过D / A转换器将数字音频信号转换为模拟信号并输出​​模拟信号的音量调节电路包括:第一增益可变电路单元,其控制数字音频信号的增益; 第二增益可变电路单元,其控制从D / A转换器输出的模拟信号的增益; 存储单元,其存储增益设定值; 以及控制单元,其基于存储在存储单元中的增益设置值来控制第一增益可变电路单元的增益和第二增益可变电路单元的增益,其中,存储单元和控制单元在控制 第一增益可变电路单元和控制第二增益可变电路单元。
    • 9. 发明授权
    • Joint unit
    • 联合单位
    • US08534951B2
    • 2013-09-17
    • US13061224
    • 2009-09-04
    • Masayuki DoiManabu Komine
    • Tsuyoshi KomineMasayuki Doi
    • F16M11/14
    • F16C11/106F16M11/10F16M11/2078F16M2200/022G01B5/0002Y10T403/32032Y10T403/32254Y10T403/32311
    • A joint unit comprises a lock mechanism in which a ball-like joint section provided at the base end of an arm is housed in a holder formed at an end of a cylindrical case. As the joint section is brought into pressed contact against an inner surface of the holder, the lock mechanism locks a pivotal angle. In the lock mechanism, in response to a manual operation of a knob, a bolt is caused to project into the case and this pressing force is transmitted to a roller-like first pressing body and then to a second pressing body placed in contact therewith. Further, the pressing force from the first pressing body is transmitted to a pressure block and then the pressing force from this pressure block brings the joint section into pressed contact against the holder inner surface.
    • 接头单元包括锁定机构,其中设置在臂的基端的球形接合部分容纳在形成在圆筒形壳体的端部处的保持器中。 当接合部被压靠在保持件的内表面上时,锁定机构锁定枢转角度。 在锁定机构中,响应于旋钮的手动操作,使螺栓突出到壳体中,并且该按压力被传递到辊状的第一按压体,然后传递到与其接触放置的第二按压体。 此外,来自第一按压体的按压力被传递到压力块,然后来自该压力块的按压力使接合部分压靠在保持器内表面上。
    • 10. 发明授权
    • Pop sound reduction circuit and audio circuit having such pop reduction circuit for use in audio amplifier
    • 具有用于音频放大器的这种流行音效降低电路的流行声音降低电路和音频电路
    • US08525589B2
    • 2013-09-03
    • US13321221
    • 2010-06-03
    • Masayuki Doi
    • Masayuki Doi
    • H03F1/14
    • H03G3/348H03F1/0261H03F1/305H03F3/187H03F2200/27
    • A disclosed pop sound reduction circuit reducing generation of pop sound at activation or deactivation of an audio amplifier includes a reference voltage circuit generating a reference voltage, a differential amplifier circuit having first and second inputs to amplify the audio signal based on a comparison between the first and second inputs, a triangular voltage generator circuit generating a triangular voltage, a voltage current convertor circuit generating a current proportional to the triangular voltage, a capacitor charged with the generated current to generate a voltage corresponding to the generated current, a constant voltage circuit generating a constant voltage, and a control circuit switching the triangular voltage into the constant voltage to be applied to the voltage current convertor circuit so as to increase the generated voltage if the voltage generated by the capacitor is below the reference voltage when the triangular voltage is equal to or below a predetermined voltage.
    • 在音频放大器的激活或去激活时,公开的流行声音降低电路减少了声音的产生,包括产生参考电压的参考电压电路,具有第一和第二输入的差分放大器电路,用于根据第一 产生三角形电压的三角形电压发生电路,产生与三角形电压成比例的电流的电压电流转换器电路,充满发电电流的电容器,产生对应于发电电流的电压,产生恒压电路 恒定电压,以及将三角形电压切换为施加到电压电流转换器电路的恒定电压的控制电路,以便在三角形电压相等时如果电容器产生的电压低于参考电压,则增加产生的电压 达到或低于预定电压 ge。