Antenna circuit for a multi-band antenna
First Claim
1. A branching filter which connects a signal line of a first communication means, for transmitting and receiving at least in a first frequency band f1, to a common multi-band antenna and which connects a signal line of a second communication means, for receiving at least in a second frequency band f2, to the common multiband antenna, wherein the first communication means is a mobile telephone configured for transmission in a transmission frequency band f1b and reception in a reception frequency band f1a, and the second communication means is a radio set for receiving the frequency band f2 which is lower than the frequency band f1 of the first communication means, said branching filter comprising:
- a band inhibiting means possessing an electrostatic capacity having an increased impedance in the first frequency band f1 relative to an impedance thereof in the second frequency band f2 and connected in series between the signal line of the second communication means and the common multi-band antenna, said band inhibiting means configured to inhibit a transmission and reception signal in the frequency band f1 of the first communication means;
said band inhibiting means including series connected first and second resonance circuits, respectively coupled to the common multiband antenna and the second communication means, for respectively resonating in the reception frequency band f1a and the transmission frequency band f1b of the first communication means, each of said first and second resonance circuits comprising parallel connected capacitive and inductive elements.
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Abstract
A branching filter, which is operatively connected between an antenna and a communication device which utilizes different frequency bands, suppresses a mutual interference between signals transmitted to and from the communication device. An antenna circuit, which is operatively connected between the antenna, or a branching filter, and the communication device, converts an impedance with respect to a signal in a frequency band having a lower frequency, and reduces loss resulting from a capacitive antenna impedance.
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Citations
4 Claims
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1. A branching filter which connects a signal line of a first communication means, for transmitting and receiving at least in a first frequency band f1, to a common multi-band antenna and which connects a signal line of a second communication means, for receiving at least in a second frequency band f2, to the common multiband antenna, wherein the first communication means is a mobile telephone configured for transmission in a transmission frequency band f1b and reception in a reception frequency band f1a, and the second communication means is a radio set for receiving the frequency band f2 which is lower than the frequency band f1 of the first communication means, said branching filter comprising:
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a band inhibiting means possessing an electrostatic capacity having an increased impedance in the first frequency band f1 relative to an impedance thereof in the second frequency band f2 and connected in series between the signal line of the second communication means and the common multi-band antenna, said band inhibiting means configured to inhibit a transmission and reception signal in the frequency band f1 of the first communication means; said band inhibiting means including series connected first and second resonance circuits, respectively coupled to the common multiband antenna and the second communication means, for respectively resonating in the reception frequency band f1a and the transmission frequency band f1b of the first communication means, each of said first and second resonance circuits comprising parallel connected capacitive and inductive elements. - View Dependent Claims (2)
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3. An antenna circuit provided between an antenna and an antenna input circuit of a radio set for receiving a first radio signal in a first frequency band f2a and a second radio signal in a second frequency band f2b which is a higher frequency band than the first frequency band f2a, said antenna circuit comprising:
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a signal cable; a first impedance conversion circuit connected between the signal cable and the antenna for converting an impedance thereof in the first frequency band f2a from a high impedance to a low impedance; a first filter circuit connected in parallel to the first impedance conversion circuit between the signal cable and the antenna for passing a signal in the second frequency band f2b; a second impedance conversion circuit connected between the signal cable and the antenna input circuit for converting the impedance thereof in the first frequency band f2a from a low impedance to a high impedance; and a second filter circuit connected in parallel to the second impedance conversion circuit between the signal cable and the antenna input circuit for passing a signal in the second frequency band f2b; wherein at least one of the first and second impedance conversion circuits is comprised of a coil and a transformer having a primary and a secondary winding, said coil connected in series between a corresponding one of the first and second filter circuits and one of the primary and the secondary winding of the transformer, said coil for reducing loss caused by a stray capacity of the transformer. - View Dependent Claims (4)
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Specification