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    • 1. 发明专利
    • 2-frequency band selection circuit
    • 2频段选择电路
    • JP2008092305A
    • 2008-04-17
    • JP2006271233
    • 2006-10-02
    • Alps Electric Co Ltdアルプス電気株式会社
    • AOKI KAZUHARU
    • H03H9/72
    • PROBLEM TO BE SOLVED: To decrease the number of switches to select a passband and reduce loss when signals in a required frequency band are acquired.
      SOLUTION: In a 2-frequency band filter, a first SAW filter 3 that has a passband of 1.4 GHz band and a second SAW filter 4 that has a passband of 1.6 GHz band are arranged parallel, and a phase circuit 5 is provided between the first SAW filter 3 and output terminals 6a and 6b. In the 1.6 GHz band that is a passband of the second SAW filter 4, the first SAW filter 3 functions as a capacitor to allow the phase circuit 5 to parallel resonate and make it as an open impedance. On the other hand, in the 1.4 GHz band that is a passband of the first SAW filter 3, the second SAW filter 4 functions as a capacitor to make a structure that a low-pass filter is connected to the phase circuit 5.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:当获取所需频带中的信号时,减少选择通带的开关数量并减少损耗。 解决方案:在2频带滤波器中,平行布置具有1.4GHz频带的通带的第一SAW滤波器3和具有1.6GHz频带的通带的第二SAW滤波器4,并且相位电路5 设置在第一SAW滤波器3和输出端子6a和6b之间。 在作为第二SAW滤波器4的通带的1.6GHz频带中,第一SAW滤波器3用作电容器,以允许相位电路5并联谐振并将其作为开路阻抗。 另一方面,在作为第一SAW滤波器3的通带的1.4GHz频带中,第二SAW滤波器4用作电容器,以形成低通滤波器连接到相位电路5的结构。

      版权所有(C)2008,JPO&INPIT

    • 2. 发明专利
    • Nonreciprocal circuit element
    • 非电路电路元件
    • JP2007006364A
    • 2007-01-11
    • JP2005186797
    • 2005-06-27
    • Alps Electric Co Ltdアルプス電気株式会社
    • SUDO YOSHITOAOKI KAZUHARU
    • H01P1/383H01P1/36
    • PROBLEM TO BE SOLVED: To provide a nonreciprocal circuit element which has excellent magnetic flux efficiency and which is small.
      SOLUTION: The nonreciprocal circuit element is provided with first and second yokes 1 and 4 constituting a magnetic closed circuit, a magnet 3 and a ferrite member 5 arranged in the first and second yokes 1 and 4, and an insulating substrate 7 provided with center conductors 8, 9 and 10 and arranged between the ferrite member 5 and the magnet 3. While the lower surface of the magnet 3 proximate to the center conductor 10, a cap K1 is provided between the upper surface of the magnet 3 and the upper plate 1a of the first yoke 1, so that a magnetic fluxes G at the outer side part of the magnet 3 flow concentrated to the side of the ferrite member 5. Thus, leaked magnetic fluxes to the side of the side plates 1b and 4b of the first and second yokes 1 and 4 are eliminated, and the excellent magnetic flux efficiency of the magnet 3 is obtained.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供具有优异的磁通效率并且小的不可逆电路元件。 解决方案:不可逆电路元件设置有构成磁闭合回路的第一和第二轭铁1和4,设置在第一和第二轭铁1和4中的磁体3和铁氧体部件5,以及设置有绝缘基板7 具有中心导体8,9和10并且布置在铁氧体构件5和磁体3之间。尽管磁体3的靠近中心导体10的下表面,盖K1设置在磁体3的上表面和 第一磁轭1的上板1a,使得磁铁3的外侧部分的磁通量G集中在铁氧体5侧。因此,泄漏的磁通量向侧板1b和4b侧 的第一和第二轭铁1和4被消除,并且获得了优良的磁体3的磁通效率。 版权所有(C)2007,JPO&INPIT
    • 3. 发明专利
    • SIGNAL LEVEL ADJUSTING CIRCUIT
    • JP2000323938A
    • 2000-11-24
    • JP12912899
    • 1999-05-10
    • ALPS ELECTRIC CO LTD
    • AOKI KAZUHARU
    • H03F1/56H04B1/40H04L27/22
    • PROBLEM TO BE SOLVED: To provide a signal level adjusting circuit obtaining a connection means where the fluctuation of the respective operation points of a first amplifying means and a second amplifying means does not occur when the connection means is connected between the first amplifying means and the second amplifying means. SOLUTION: A first amplifying means 4 where the output poles of output stage transistors 41 and 42 are grounded/connected through current sources 43 and 44, are connected to output terminals 121 and 122 and the DC voltage of the output terminals 121 and 122 have first voltage V1, a second amplifying means 5 where the control electrodes of input stage transistors 51 and 52 are connected to input terminals 131 and 132 and the DC voltage of the input terminals 131 and 132 have second voltage V2 and a connection means 3 which has one and above series resistors 31 and 32 and is connected between the output, terminals 121 and 122 and the input terminals 131 and 132 are installed. The first amplifying means 4 is incorporated in bipolar IC1 and the second amplifying stage 5 is incorporated in CMOS IC2.
    • 4. 发明专利
    • MANUFACTURE OF CENTER CONDUCTOR
    • JPS56169924A
    • 1981-12-26
    • JP7477780
    • 1980-06-03
    • ALPS ELECTRIC CO LTD
    • AOKI KAZUHARUNISHIZAWA EIJI
    • H04B1/08H03J1/00
    • PURPOSE:To reduce the manufacturing cost, by matching each part of a center conductor to the highest tuning frequency band and narrowering the width of the vertical section for lower tuning frequency band, in the center conductor used for a UHF tuner. CONSTITUTION:A center conductor 1 used for a UHF tuner is provided with a folded part 2 at one end of a horizontal part 3, and the other end is provided with a vertical section 4, and the vertical section 4 is provided with a folded part 6 and a leg 5 fitted to the base. To change the characteristic impedance and the line length, it can only be made by changing the width of the vertical section 4, and the length of the horizontal part 3 and the folded part 6 is also changed by changing the width of the vertical part 4. Thus, in a manufacturing process, the size is matched to the highest tuning frequency band in which the width of the vertical part 4 is widest, and the width of the vertical part 4 is cut off in narrow size for lower turning frequency bands, allowing to reduce sharply the number of metal molds.
    • 5. 发明专利
    • LAMBDA*4 TYPE RESONATOR
    • JPS55141802A
    • 1980-11-06
    • JP5004979
    • 1979-04-23
    • ALPS ELECTRIC CO LTD
    • SEKIGUCHI MITSUOIGARASHI SADAOAOKI KAZUHARU
    • H01P7/04H01P1/205
    • PURPOSE:To make change the characteristic impedance of the resonator easily, by covering the lambda/4 type resonator with a dielectric cylinder and changing the position. CONSTITUTION:When the dielectric substance 6 is apart from the tip of the resonator rod 1, the dielectric constant between it and the console 2 is almost 1. When the dielectric substance 6 coveres the resonant rod 1, the dielectric constant is 1 or more and the resonant frequency gradually decreases. The electric field or electric lines of force of the resonator is vertical to the resonant rod independently of the position of the dielectric substance 6, the density of distribution is not greatly changed, and the current flowing on the surface of the resonant rod 1 and the console 2 is not concentrated on a part but is uniform, resulting in no degradation of Q. Since the thickness of the dielectric substance is constant, even if the cylinder is moved due to vibration, no effect by the dielectric substance is caused. Further, the thickness is controlled and the resonant frequency can be adjusted in good manner.
    • 6. 发明专利
    • Electronic circuit unit
    • 电子电路单元
    • JP2007060030A
    • 2007-03-08
    • JP2005240246
    • 2005-08-22
    • Alps Electric Co Ltdアルプス電気株式会社
    • AOKI KAZUHARU
    • H01P3/08H01P11/00
    • H03F3/60H01P5/02H03F2200/423H05K1/0237H05K1/0265H05K3/4644H05K2201/09672H05K2201/0979
    • PROBLEM TO BE SOLVED: To decrease resistance by increasing the conductor thickness of a conductor pattern constituting a transmission line equivalently, and to suppress a transmission loss caused by the concentration of an electric field on a bend in the case of a conductor pattern having a bend. SOLUTION: In the electronic circuit unit for transmitting power through a transmission line 103 constituted of a conductor pattern, a matching circuit 101 is connected with the output end of a power amplifier 102. The matching circuit 101 comprises a first conductor pattern 14 having bends P1-P4 formed on the first dielectric layer 11 of a multilayer substrate 10 including a plurality of dielectric layers 11-13, a second conductor pattern 15 formed oppositely to the first conductor pattern 14 on an adjacent second dielectric layer 12, and connection conductors 16-20 provided at least at the bends P1-P4 of the first and second conductor patterns 14 and 15. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:通过增加构成传输线的导体图案的导体厚度等效地降低电阻,并且抑制在导体图案的情况下由弯曲处的电场浓度引起的传输损耗 有一个弯。 解决方案:在通过由导体图案构成的传输线103发送电力的电子电路单元中,匹配电路101与功率放大器102的输出端连接。匹配电路101包括第一导体图案14 具有形成在包括多个电介质层11-13的多层基板10的第一介电层11上的弯曲P1-P4,在相邻的第二介电层12上与第一导体图案14相对形成的第二导体图案15,以及连接 至少设置在第一和第二导体图案14和15的弯曲部P1-P4处的导体16-20。(C)2007,JPO和INPIT
    • 8. 发明专利
    • TRANSMISSION CIRCUIT
    • JPH0690179A
    • 1994-03-29
    • JP4387491
    • 1991-03-08
    • ALPS ELECTRIC CO LTD
    • AOKI KAZUHARUKUKITA KEIMEI
    • H04B1/04H04B1/38
    • PURPOSE:To provide the transmision circuit enabling low-output operations by means of an integrated circuit and to improve cross modulation distoration at the time of low-output operations. CONSTITUTION:At the time of low-output operations, a poitive voltage is impressed to a power save switch terminal SW1, OV is impressed to a power-off switch terminal SW2, only an NPN transistor Q7 is turned in a conducted state, and the voltage of a junction A is lower than the voltage of a normal transmitting state. In such a state, a radio of the resistance values of resistors R1 to R2 and the resistance value of a resistor R1 are selected so that the current of the respective emitters of NPN transistors Q3 and Q4 can be almost 1mA. Thus, a high frequency signal is sequentially amplified by a front stage amplifier 1 and a rear stage amplifier 2 while an infinitesimal bias current flows through a final stage amplifier 2, and radiated from an antenna through a balanced tuning circuit 3.
    • 9. 发明专利
    • TRANSMISSION CIRCUIT
    • JPH0548472A
    • 1993-02-26
    • JP3325491
    • 1991-02-27
    • ALPS ELECTRIC CO LTD
    • AOKI KAZUHARUKUKITA KEIMEI
    • H04B1/04
    • PURPOSE:To attain stable operation even when an operating point of a power amplifier is revised by connecting a connecting point of 1st and 2nd amplifiers in cascade connection to a post-stage of a carrier oscillator to the power amplifier via a capacitor with a small capacitance. CONSTITUTION:A phase locked loop circuit 4 generates a control voltage corresponding to a difference between a frequency of an output signal of an amplifier 3 and a frequency of a selected channel and feeds back it to a carrier oscillator 1. Thus, the carrier frequency is controlled to be a frequency corresponding to the selected channel. In this case, the connecting point between the amplifiers 2, 3 is connected to an input terminal of a power amplifier 6 via a capacitor 5 with a small capacitance. Thus, even when the operating current of the power amplifier 6 is changed, the effect is not exerted on the amplifiers 2, 3 and the carrier oscillator 1. Furthermore, since the power amplifier 6 has a higher input impedance than the impedance interposed to the connecting point of the amplifiers 2, 3, an output signal of the amplifier 2 is delivered at a sufficient level even when the capacitance of the capacitor 5 is small.
    • 10. 发明专利
    • MULTI-STAGE CONNECTION AMPLIFIER
    • JPH04302512A
    • 1992-10-26
    • JP9156891
    • 1991-03-29
    • ALPS ELECTRIC CO LTD
    • IGARASHI SADAOAOKI KAZUHARUKUKITA KEIMEI
    • H03F3/191H03F3/45
    • PURPOSE:To minimize an unbalanced component and to amplify a signal with a high gain by joining the output currents of respective output terminals temporarily by a precedent-stage differential amplifier and shunting the joined current to the input terminals of a following-stage differential amplifier. CONSTITUTION:A composite tuning circuit 3 which forms DC short circuits between the output terminals of the precedent-stage differential amplifier 1 and the input terminals of the following-stage differential amplifier and also limits the bands of unbalanced AC signals generated at the output terminals of the precedent-stage differential amplifier 1 and sends the currents to the input terminals of the following-stage differential amplifier 2 is interposed. In this case, the output signals obtained from the output terminals of the precedent-stage differential amplifier 1 are inputted to the composite tuning circuit 3 and band-limited, and only the balanced components of the output signals are extracted and inputted to the input terminals of the following- stage differential amplifier 2. Then the following-stage differential amplifier 2 performs the differential amplification of the balanced signals from the composite tuning circuit 3 and the obtained output signal is band-limited by the tuning circuit consisting of a coil 41 and a capacitor 42 and outputted through a capacitor 44.