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    • 82. 发明授权
    • Optical unit and image pickup apparatus utilizing electrostrictive drive elements
    • 使用电致伸缩驱动元件的光学单元和图像拾取装置
    • US08154649B2
    • 2012-04-10
    • US12205003
    • 2008-09-05
    • Natsuko ShiotaYoshihiro HaraAkira KosakaYasutaka Tanimura
    • Natsuko ShiotaYoshihiro HaraAkira KosakaYasutaka Tanimura
    • H04N5/225
    • G02B7/08
    • An optical unit is provided which is characterized by compact configuration, high performance and minimized noise, and which has a drive element to drive a lens cone holding an image pickup optical system, and has the same outside diameter as the lens cone, wherein the optical unit drives the image pickup optical system by expanding and contracting the drive element in a direction of an optical axis of the image pickup optical system. An image pickup apparatus is provided which is characterized by compact configuration, high performance and minimized noise, and which has an optical unit coupled to an image pickup unit through a drive element, and has the same outside diameter as the optical unit, wherein the apparatus drives the optical unit by expanding and contracting the drive unit in a direction of an optical axis of the optical unit.
    • 提供了一种光学单元,其特征在于紧凑的结构,高性能和最小化的噪声,并且具有用于驱动保持摄像光学系统的透镜锥体的驱动元件,并且具有与透镜锥体相同的外径,其中光学 单元通过沿着摄像光学系统的光轴的方向扩展和收缩驱动元件来驱动摄像光学系统。 提供了一种图像拾取装置,其特征在于紧凑的结构,高性能和最小化的噪声,并且具有通过驱动元件耦合到图像拾取单元的光学单元,并且具有与光学单元相同的外径,其中该装置 通过沿着光学单元的光轴的方向扩展和收缩驱动单元来驱动光学单元。
    • 83. 发明授权
    • Transmission circuit and communication device
    • 传输电路和通信设备
    • US07940859B2
    • 2011-05-10
    • US11882251
    • 2007-07-31
    • Yoshihiro HaraKatsuhiko MoriokaKaoru Ishida
    • Yoshihiro HaraKatsuhiko MoriokaKaoru Ishida
    • H03C1/52H04L27/04
    • H04L27/368H03C5/00H04L27/361
    • A transmission circuit is capable of precisely compensating for an offset characteristic of an amplitude modulation section, and operating with low distortion and high efficiency over a wide output electric power range. A signal generation section outputs an amplitude signal and an angle modulation signal. An amplitude amplifying section inputs, to the amplitude modulation section, a signal corresponding to a magnitude of the amplitude signal having been inputted. The amplitude modulation section amplitude-modulates the angle modulation signal with the signal inputted from the amplitude amplifying section, and outputs a resultant signal as a modulation signal. The power measuring section measures an output power of the amplitude modulation section. An offset compensation section reads an offset compensation value from a memory in accordance with the output power of the amplitude modulation section, and adds the read offset compensation value to the amplitude signal.
    • 传输电路能够精确地补偿幅度调制部分的偏移特性,并且在宽输出功率范围内以低失真和高效率工作。 信号生成部输出振幅信号和角度调制信号。 幅度放大部分向幅度调制部分输入与已经输入的幅度信号的大小对应的信号。 振幅调制部利用从幅度放大部输入的信号对角度调制信号进行振幅调制,并输出合成信号作为调制信号。 功率测量部分测量幅度调制部分的输出功率。 偏移补偿部根据振幅调制部的输出功率从存储器读出偏移补偿值,并将读取的偏移补偿值与振幅信号相加。
    • 85. 发明授权
    • Driving device and driving system
    • 驱动装置和驱动系统
    • US07608979B2
    • 2009-10-27
    • US11493227
    • 2006-07-26
    • Junji SatoJunichi TaniiYoshihiro HaraAkira Kosaka
    • Junji SatoJunichi TaniiYoshihiro HaraAkira Kosaka
    • H01L41/08
    • H02N2/067H02N2/025
    • Drive technology is provided which makes suitable low velocity driving and smooth changing of driving velocity possible and achieves reduced power consumption. In the driving device, the drive unit is driven which engages with drive shaft which moves back and forth in tandem with extension and contraction of the piezoelectric element. In this driving device, when the output cycle for cycle Te is repeated such that the voltages applied to the piezoelectric element 11 are the maximum value (+Vp), the minimum value (−Vp), and the middle value (0V), the movement velocity of the drive unit 13 can be changed by thinning the output cycle at cycle Tf. As a result, suitable low velocity driving can be carried out and power consumption can be reduced in the drive unit.
    • 提供驱动技术,使得适当的低速驱动和驱动速度的平滑变化成为可能,并实现降低的功耗。 在驱动装置中,驱动单元与驱动轴啮合,该驱动轴与压电元件的伸缩一起前后移动。 在该驱动装置中,当重复循环Te的输出周期,使得施加到压电元件11的电压为最大值(+ Vp)时,最小值(-Vp)和中间值(0V), 驱动单元13的移动速度可以通过在周期Tf变薄输出周期来改变。 结果,可以实现合适的低速驱动,并且可以在驱动单元中降低功耗。
    • 86. 发明授权
    • Polar modulation transmission apparatus and wireless communication apparatus
    • 极地调制发送装置和无线通信装置
    • US07565118B2
    • 2009-07-21
    • US11516662
    • 2006-09-07
    • Yoshihiro Hara
    • Yoshihiro Hara
    • H04L25/49
    • H04L27/361H03F1/0205H03F1/32H03F3/24H03F3/45085H03F3/45475H03F2203/45374H03F2203/45512H04L27/368
    • A polar modulation transmission apparatus for realizing a wide control range for transmission power, maintaining the modulation precision and the distortion characteristic at a superb level even at a low output, and providing a high power efficiency is provided. An adder 102 adds a logarithm-represented transmission power control signal S13 to a logarithm-represented amplitude signal S14, and outputs the resultant signal as a transmission power-controlled amplitude signal S5. A phase modulation section 104 outputs a high frequency phase-modulated signal S8 based on a phase signal S3. An amplitude signal amplifier 103 supplies a supply voltage to a high frequency power amplifier 106 based on an amplitude signal S5. The high frequency power amplifier 106 performs amplitude modulation on the high frequency phase-modulated signal S8 based on the supply voltage supplied thereto, and outputs the resultant signal as a high frequency transmission signal S10.
    • 提供了一种极地调制发送装置,用于实现传输功率的宽的控制范围,即使在低输出时也将调制精度和失真特性保持在极高的电平,并提供高功率效率。 加法器102将对数表示的发送功率控制信号S13与对数表示的振幅信号S14相加,并输出作为发送功率控制振幅信号S5的结果信号。 相位调制部104基于相位信号S3输出高频相位调制信号S8。 振幅信号放大器103基于振幅信号S5向高频功率放大器106供给电源电压。 高频功率放大器106根据供给的电源电压对高频相位调制信号S8进行振幅调制,并输出作为高频发送信号S10的合成信号。
    • 87. 发明授权
    • Driving apparatus
    • 驱动装置
    • US07408288B2
    • 2008-08-05
    • US11246737
    • 2005-10-07
    • Yoshihiro Hara
    • Yoshihiro Hara
    • H01L41/09
    • H02N2/062H02N2/025
    • A determination is made whether a moving speed of a slider section with respect to a rod section in a piezoelectric actuator is lower than a predetermined speed. When the moving speed is lower than the predetermined speed, it is considered that a friction-bonded portion between the rod section and the slider section is in a fastened state or a nearly fastened state. A resonance frequency of the piezoelectric actuator or a frequency proximity to the resonance frequency is set as a driving frequency for the piezoelectric actuator. The slider section is moved in a reciprocating manner plural times with respect to the rod section. As a result, an abnormal state is eliminated from the piezoelectric actuator.
    • 确定滑块部分相对于压电致动器中的杆部分的移动速度是否低于预定速度。 当移动速度低于预定速度时,认为杆部和滑块部之间的摩擦接合部处于紧固状态或接近紧固状态。 将压电致动器的谐振频率或与谐振频率接近的频率设定为压电致动器的驱动频率。 滑块部分相对于杆部分以往复运动方式多次移动。 结果,从压电致动器中消除了异常状态。
    • 88. 发明申请
    • Transmission Device, Transmission Power Control Method, and Radio Communication Device
    • 传输设备,传输功率控制方法和无线电通信设备
    • US20080153438A1
    • 2008-06-26
    • US10566524
    • 2004-07-02
    • Mamoru ArayashikiYoshihiro HaraMasaharu Udagawa
    • Mamoru ArayashikiYoshihiro HaraMasaharu Udagawa
    • H04B1/04
    • H03F3/19H03F1/025H04W52/52
    • The object of the present invention is to provide a transmitting apparatus and a transmitting power control method that can provide excellent power efficiency and a wide control range of transmitting output power, and a radio communication apparatus employing the transmitting apparatus.At the time of high output power, a high-frequency power amplifier (5) is operated as a nonlinear amplifier, whereby power efficiency when a transmitting signal is power-amplified can be enhanced. Further, at the time of low output power, the high-frequency power amplifier (5) is operated as a linear amplifier, whereby the control range of the transmitting output power can be extended. Still further, when the high-frequency power amplifier (5) is operated as a nonlinear amplifier, by varying the input level of the high-frequency power amplifier (5) according to the average output power of the transmitting signal by the variable gain amplifier (7), it is possible to reduce leak power and to extend the control range of the transmitting output power.
    • 本发明的目的是提供一种发送装置和发送功率控制方法,其能够提供优异的功率效率和广泛的发送输出功率的控制范围,以及采用发送装置的无线通信装置。 在高输出功率时,高频功率放大器(5)作为非线性放大器工作,从而可以提高发射信号被功率放大的功率效率。 此外,在低输出功率时,高频功率放大器(5)作为线性放大器工作,从而能够延长发送输出功率的控制范围。 此外,当高频功率放大器(5)作为非线性放大器工作时,通过可变增益放大器根据发送信号的平均输出功率改变高频功率放大器(5)的输入电平 (7)中,能够降低泄漏功率并扩大发送输出功率的控制范围。
    • 89. 发明申请
    • Drive apparatus, image pickup unit and image pickup apparatus
    • 驱动装置,图像拾取单元和图像拾取装置
    • US20070279497A1
    • 2007-12-06
    • US11788262
    • 2007-04-19
    • Shigeru WadaYoshihiro HaraMasamichi Oohara
    • Shigeru WadaYoshihiro HaraMasamichi Oohara
    • H04N5/228G03B5/00
    • G03B5/00H04N5/2253H04N5/2257H04N5/23248H04N5/23258H04N5/23287
    • A small-sized and highly efficient drive apparatus, an image pickup unit and an image pickup apparatus are provided, by using a polymer actuator that is small in size and has high speed of response and has high degree of freedom for arrangement, and by realizing an actuator having excellent assembly simplicity. By being provided with a polymer actuator and by moving objects to be driven such as an image pickup device, a lens, an image pickup optical system and a lens barrel unit by the use of the actuator, an actuator that is small in size and has the high speed of response, a high degree of freedom for arrangement and excellent assembly simplicity can be provided, which makes it possible to provide a small-sized and highly efficient drive apparatus, an image pickup unit and an image pickup apparatus.
    • 通过使用尺寸小,响应速度快,配置自由度高的聚合物致动器,提供了小型化,高效率的驱动装置,图像拾取单元和图像拾取装置,并且通过实现 具有优异的组装简单性的致动器。 通过设置有聚合物致动器并且通过使用致动器来移动诸如图像拾取装置,透镜,图像拾取光学系统和镜筒单元的被驱动物体,尺寸小且具有 可以提供高的响应速度,高度的布置自由度和优异的组装简单性,这使得可以提供小型和高效的驱动装置,图像拾取单元和图像拾取装置。
    • 90. 发明申请
    • Transmission Device And Wireless Communication Apparatus
    • 传输设备和无线通信设备
    • US20070211820A1
    • 2007-09-13
    • US11547354
    • 2006-02-02
    • Yoshihiro HaraToru Matsuura
    • Yoshihiro HaraToru Matsuura
    • H04L25/49
    • H03F3/24H03F1/02H03F1/0205H03F1/0227H03F3/72H03F2200/324H03F2200/451
    • In a first mode in which the power level of a transmission output signal (S6) is to be high, an output from the multiplier (2) is input to an amplitude modulation signal amplifier (4), and a radio frequency power amplifier (5) performs amplitude modulation on a radio frequency phase modulated signal (S4) using a nonlinear area with a supply voltage from the amplitude modulation signal amplifier (4). In a second mode in which the power level of a transmission output signal (S6) is to be low, the output from the multiplier (2) is input to a variable gain amplifier (7), and the variable gain amplifier (7) performs amplitude modulation on the radio frequency phase modulated signal (S4). The amplitude modulated signal is output without passing through the radio frequency power amplifier (5).
    • 在发送输出信号(S 6)的功率电平为高的第一模式中,来自乘法器(2)的输出被输入到幅度调制信号放大器(4),射频功率放大器 5)使用具有来自幅度调制信号放大器(4)的电源电压的非线性区域对射频相位调制信号(S 4)进行幅度调制。 在发送输出信号(S 6)的功率电平为低的第二模式中,来自乘法器(2)的输出被输入到可变增益放大器(7),并且可变增益放大器(7) 对射频相位调制信号进行幅度调制(S 4)。 输出幅度调制信号而不通过射频功率放大器(5)。