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    • 3. 发明授权
    • Voltage controlled oscillator
    • 压控振荡器
    • US08283989B2
    • 2012-10-09
    • US12924468
    • 2010-09-28
    • Tatsunori OnzukaJunichiro YamakawaToshimasa TsudaKenji KawahataHiroshi Hoshigami
    • Tatsunori OnzukaJunichiro YamakawaToshimasa TsudaKenji KawahataHiroshi Hoshigami
    • H03B5/12
    • H03B5/1243H03B5/1203H03B2200/0008
    • There is provided a voltage controlled oscillator using a Colpitts circuit capable of suppressing deterioration (decrease) in variable range (adjustable range) of an output frequency due to the influence of an inductance component on a conductive line, which connects a connection point between two capacitors of a feedback part and an emitter of a transistor. In a VCO using a Colpitts circuit, with respect to capacitors 22, 23 of a feedback part 2, a first feedback capacitance element (capacitor) 22 is disposed so as to directly couple a terminal for base (connection part 7) and a terminal for emitter on a base substrate 5, to which a terminal part 8 (T1) extending from a base of a transistor 21 and a terminal part 8 (T2) extending from an emitter of the transistor 21 are fitted, respectively, and a second feedback capacitance element (capacitor) 23 is disposed so as to directly couple the terminal for emitter and the terminal for grounding (ground electrode 51).
    • 提供了一种压控振荡器,其使用Colpitts电路,其能够抑制由于导电线上的电感分量的影响而导致的输出频率的可变范围(可调节范围)的变化(减小),连接两个电容器之间的连接点 的晶体管的反馈部分和发射极。 在使用Colpitts电路的VCO中,相对于反馈部2的电容器22,23,设置第一反馈电容元件(电容器)22,以直接将基座(连接部7)的端子和用于 分别从晶体管21的基极延伸的端子部8(T1)和从晶体管21的发射极延伸的端子部8(T2)分别嵌合在基极基板5上的发射极和第二反馈电容 元件(电容器)23被配置为直接耦合发射极端子和接地端子(接地电极51)。
    • 4. 发明授权
    • Fundamental wave/overtone crystal oscillator
    • 基波/泛音晶振
    • US08344816B2
    • 2013-01-01
    • US12929892
    • 2011-02-23
    • Kazuo AkaikeHiroshi HoshigamiMohd Hafidz Bin Ahmad Adlan
    • Kazuo AkaikeHiroshi HoshigamiMohd Hafidz Bin Ahmad Adlan
    • H03B5/32
    • H03B5/362H03B5/366
    • Provided is a fundamental wave/overtone crystal oscillator to obtain fundamental wave oscillation and overtone oscillation with one crystal unit and to optimize the excitation current depending on the fundamental wave oscillation and the overtone oscillation. The fundamental wave/overtone crystal oscillator includes a crystal unit that oscillates with fundamental waves or with overtones, and an oscillator circuit that amplifies an excitation current from the crystal unit and outputs an oscillatory frequency. A capacitor Cf and a capacitor Co are connected in parallel with the base of a transistor in the oscillator circuit as well as the emitter. A switch is provided so as to connect or disconnect the capacitor Cf with respect to the circuit in response to a switching signal. The switch turns ON when the crystal oscillator oscillates with fundamental waves, and turns OFF when the crystal oscillator oscillates with overtones.
    • 提供了一个基波/泛音晶体振荡器,用一个晶体单元获得基波振荡和泛音振荡,并根据基波振荡和泛音振荡优化励磁电流。 基波/泛音晶体振荡器包括用基波或泛音振荡的晶体单元,以及振荡电路,其放大来自晶体单元的激励电流并输出振荡频率。 电容器Cf和电容器Co与振荡器电路中的晶体管的基极以及发射极并联连接。 提供开关以响应于开关信号而相对于电路连接或断开电容器Cf。 当晶体振荡器以基波振荡时,开关导通,当晶体振荡器以泛音振荡时,开关转为OFF。
    • 5. 发明申请
    • Fundamental wave/overtone crystal oscillator
    • 基波/泛音晶振
    • US20110204983A1
    • 2011-08-25
    • US12929892
    • 2011-02-23
    • Kazuo AkaikeHiroshi HoshigamiMohd Hafidz Bin Ahmad Adlan
    • Kazuo AkaikeHiroshi HoshigamiMohd Hafidz Bin Ahmad Adlan
    • H03B5/36
    • H03B5/362H03B5/366
    • Provided is a fundamental wave/overtone crystal oscillator to obtain fundamental wave oscillation and overtone oscillation with one crystal unit and to optimize the excitation current depending on the fundamental wave oscillation and the overtone oscillation. The fundamental wave/overtone crystal oscillator includes a crystal unit that oscillates with fundamental waves or with overtones, and an oscillator circuit that amplifies an excitation current from the crystal unit and outputs an oscillatory frequency. A capacitor Cf and a capacitor Co are connected in parallel with the base of a transistor in the oscillator circuit as well as the emitter. A switch is provided so as to connect or disconnect the capacitor Cf with respect to the circuit in response to a switching signal. The switch turns ON when the crystal oscillator oscillates with fundamental waves, and turns OFF when the crystal oscillator oscillates with overtones.
    • 提供了一个基波/泛音晶体振荡器,用一个晶体单元获得基波振荡和泛音振荡,并根据基波振荡和泛音振荡优化励磁电流。 基波/泛音晶体振荡器包括用基波或泛音振荡的晶体单元,以及振荡电路,其放大来自晶体单元的激励电流并输出振荡频率。 电容器Cf和电容器Co与振荡器电路中的晶体管的基极以及发射极并联连接。 提供开关以响应于开关信号而相对于电路连接或断开电容器Cf。 当晶体振荡器以基波振荡时,开关导通,当晶体振荡器以泛音振荡时,开关转为OFF。
    • 7. 发明申请
    • Communication system
    • 通讯系统
    • US20070030336A1
    • 2007-02-08
    • US10560811
    • 2004-05-31
    • Hiroshi HoshigamiOsamu NakataTsuyoshi Shiobara
    • Hiroshi HoshigamiOsamu NakataTsuyoshi Shiobara
    • H04N7/14
    • H04B17/309
    • In a communication system for communicating a plurality of frequency signals between a first apparatus 1 and a second apparatus 2 via a common cable 3, a level loss component of each of the frequency signals in the cable is effectively corrected. Both transmission-sided reference frequency signal level detecting means 41 and 43 of the first apparatus, and reception-sided reference frequency signal level detecting means 71 and 73 of the second apparatus detect a level of a frequency signal which constitutes a reference among frequency signals which are transmitted from the first apparatus to the second apparatus via the cable. In the first apparatus, out-of-reference frequency signal level control means 44 to 51, and 32 to 35 control levels of the frequency signals other than the frequency signal which constitutes the reference and is communicated between the first apparatus and the second apparatus via the cable based upon a compared result between results detected in the first apparatus and results detected in the second apparatus.
    • 在用于经由公共电缆3在第一装置1和第二装置2之间传送多个频率信号的通信系统中,电缆中每个频率信号的电平损耗分量被有效地校正。 第一装置的发送侧参考频率信号电平检测装置41和43以及第二装置的接收侧基准频率信号电平检测装置71和73检测构成频率信号中的基准的频率信号的电平, 经由电缆从第一装置发送到第二装置。 在第一装置中,参考频率信号电平控制装置44至51和32至35控制构成基准的频率信号以外的频率信号的电平,并且在第一装置和第二装置之间通过 基于在第一装置中检测到的结果与在第二装置中检测到的结果之间的比较结果的电缆。
    • 9. 发明申请
    • Voltage controlled oscillator
    • 压控振荡器
    • US20110080222A1
    • 2011-04-07
    • US12924468
    • 2010-09-28
    • Tatsunori OnzukaJunichiro YamakawaToshimasa TsudaKenji KawahataHiroshi Hoshigami
    • Tatsunori OnzukaJunichiro YamakawaToshimasa TsudaKenji KawahataHiroshi Hoshigami
    • H03B5/12
    • H03B5/1243H03B5/1203H03B2200/0008
    • There is provided a voltage controlled oscillator using a Colpitts circuit capable of suppressing deterioration (decrease) in variable range (adjustable range) of an output frequency due to the influence of an inductance component on a conductive line, which connects a connection point between two capacitors of a feedback part and an emitter of a transistor. In a VCO using a Colpitts circuit, with respect to capacitors 22, 23 of a feedback part 2, a first feedback capacitance element (capacitor) 22 is disposed so as to directly couple a terminal for base (connection part 7) and a terminal for emitter on a base substrate 5, to which a terminal part 8 (T1) extending from a base of a transistor 21 and a terminal part 8 (T2) extending from an emitter of the transistor 21 are fitted, respectively, and a second feedback capacitance element (capacitor) 23 is disposed so as to directly couple the terminal for emitter and the terminal for grounding (ground electrode 51).
    • 提供了一种压控振荡器,其使用Colpitts电路,其能够抑制由于导电线上的电感分量的影响而导致的输出频率的可变范围(可调节范围)的变化(减小),连接两个电容器之间的连接点 的晶体管的反馈部分和发射极。 在使用Colpitts电路的VCO中,相对于反馈部2的电容器22,23,设置第一反馈电容元件(电容器)22,以直接将基座(连接部7)的端子和用于 分别从晶体管21的基极延伸的端子部8(T1)和从晶体管21的发射极延伸的端子部8(T2)分别嵌合在基极基板5上的发射极和第二反馈电容 元件(电容器)23被配置为直接耦合发射极端子和接地端子(接地电极51)。