JP3288227B2 - Antenna shared circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shared antenna circuit, and more particularly to a wireless communication device using a weak radio wave by selectively connecting a transmitting circuit and a receiving circuit to a shared transmitting / receiving antenna in a time-division manner. The present invention relates to an antenna sharing circuit suitable for the invention.

[0002]

2. Description of the Related Art Conventionally, as a shared antenna circuit which uses a shared transmitting / receiving antenna and selectively connects a transmitting circuit and a receiving circuit to the antenna in a time-division manner, for example,
The means disclosed in Japanese Utility Model Laid-Open No. 57-34743 is known.

Here, FIG.
No. 743 shows a configuration of an antenna shared circuit disclosed in Japanese Patent Application Laid-Open No. 743/73.

[0004] In the antenna sharing circuit shown in FIG.
After being amplified by the transmission power amplifier 22, the F transmission signal is supplied to the rectifier circuit 31 via the fourth coupling capacitor 30 and rectified by the rectifier circuit 31. The DC voltage output from the rectifier circuit 31 is applied to the inductor 32, the first
The current flows through the diode 24, the quarter wavelength equivalent line 27, and the second diode 33 to the ground point, thereby turning on the first diode 24 and the second diode 33.
Therefore, the RF amplified by the transmission power amplifier 22
The transmission signal includes a first coupling capacitor 23, a first diode 24, a second coupling capacitor 25, a low-pass filter 26
Are transmitted to the common antenna 20 via the common transmission / reception antenna 20 and transmitted from the common antenna 20. At this time, since the second diode 33 is conducting, even if a part of the RF transmission signal is transmitted through the 波長 wavelength equivalent line 27,
All of them flow to the ground point through the second diode 33 and are not supplied to the reception output terminal 29.

On the other hand, when receiving, the transmission input terminal 21
, The RF transmission signal is not supplied to the rectifier circuit 31, and the DC voltage output from the rectifier circuit 31 also disappears, so that both the first diode 24 and the second diode 33 are turned off. Become. Therefore, the RF reception signal received by the transmission / reception antenna 20 is transmitted to the low-pass filter 26 and the second coupling capacitor 2.
5, 1/4 wavelength equivalent line 27, third coupling capacitor 28
Is supplied to the reception output terminal 29 via the.

As described above, the first diode 24 and the second
By switching the diode 33 to a conductive state at the time of transmission and a non-conductive state at the time of reception,
Is switched to enable use of the antenna shared circuit.

[0007]

In the conventional antenna shared circuit, the first diode 24 and the second diode 33 are turned on during transmission, and the first diode 24 and the second diode 33 are turned off during reception. The first diode 24 and the second diode 33
Is not in the ideal conduction state when in the conduction state.
It has a small residual impedance value, and does not become an ideal non-conductive state even in a non-conductive state, and usually has a finite impedance value. Then, at the time of transmission, the first diode 24 is connected in series to the transmission path, but since the transmission signal has a large level,
Some signal loss due to the residual impedance value of the first diode 24 is negligible. However, at the time of reception, when the second diode 33 is shunt-connected to the reception path, the level of the reception signal applied to the second diode 33 is small,
The slight signal loss due to the finite impedance value of the second diode 33 cannot be ignored.

As described above, the conventional antenna shared circuit gives a signal loss that is not negligible to a received signal at the time of reception. Therefore, a wireless communication device using a weak radio wave, for example, a wireless electronic device capable of performing mutual communication at a short distance. There is a problem that it cannot be applied to a notebook or the like.

An object of the present invention is to solve such a problem, and an object of the present invention is to reduce a signal loss given to a received signal at the time of reception and to use the antenna common to a radio communication device using weak radio waves. It is to provide a circuit.

[0010] In the case of Japan, a weak radio wave means that the electric field strength at a point 3 m away from the transmitting antenna is 500.
It is specified to be not more than μV / m.

[0011]

In order to achieve the above object, an antenna shared circuit according to the present invention comprises a bandpass filter connecting an antenna end having a first resonance coil and a reception circuit end, and a first resonance coil. A second resonance coil that is inductively coupled, a resonance capacitor that forms a resonance circuit together with the second parallel coil, and switching means that makes the second resonance coil and the resonance capacitor non-conductive at the time of reception.

According to the above-mentioned means, at the time of reception, the received signal received by the antenna is blocked by the switching means and is not supplied to other than the receiving circuit, and is supplied to the receiving circuit without passing through the switching element. .

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In an embodiment of the present invention, an antenna shared circuit includes an antenna end to which a transmission and reception antenna is connected, a reception circuit end to which a reception circuit is connected, and a first resonance coil. a band pass filter that connects the end and the receiving circuit end, and a second resonance coil which is inductively coupled to the first resonance coil, both the resonance capacitor constituting a resonant circuit and the second resonance coil, and a second resonance coil resonance A first switching element for connecting to a capacitor;
Of the bandpass filter connected between the road end and the reference potential point
Has an impedance value approximately equal to the output impedance
Series of impedance element and second switching element
Circuit, the output terminal is a resonant capacitor and the first switching
Connects to the connection point of the element and outputs the transmission signal to the connection point.
And a width element for transmitting the first and second switching elements.
Each is conductive when transmitting, and each non-conductive when receiving.
State .

[0014] In this case, as one embodiment of the present invention, first and second switching elements is a diode, is in a conductive state is applied bias voltage in the forward direction at the time of transmission, amplifying element A transistor having a collector as an output terminal and an emitter connected to a reference potential point ,
Both the bias voltage to the collector through the first switching element is applied as the driving voltage at the time of transmission, the transmission signal to the base is added.

[0015]

According to the embodiment of the present invention, at the time of reception, the first and second switching elements are turned off, so that the reception signal received by the antenna is the first signal .
And a second not supplied to the other receiving circuit is blocked by the switching element, also because it is supplied without passing through the other switching elements to the receiving circuit, so that the loss is supplied to the receiver circuit in a very small state .

On the other hand, at the time of transmission, the first switching element is turned off, so that a resonance circuit is formed by the second resonance coil and the resonance capacitor, and the transmission signal output to the output terminal of the amplification element is: The signal is supplied to the resonance circuit and then to the antenna end via the first resonance coil.

Also, at the time of transmission, the second switching element
There therefore is a non-conducting state, the impedance element of a predetermined value is connected to the receiving circuit end as the load of the band-pass filter, the load impedance of the transmission circuit is maintained at a predetermined value.

[0019]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a circuit diagram showing an embodiment of an antenna sharing circuit according to the present invention.

As shown in FIG. 1, the antenna shared circuit includes a band-pass filter 3 including a first resonance coil 3L and capacitors 3C, 9 and 10, a second resonance coil 4L, a switching diode 5, and a resonance capacitor 4C. A resonance circuit 4 including a ground capacitor 14, a transistor 6, a matching resistor 7, a switching diode 8, an output coupling capacitor 11, an input coupling capacitor 12,
Q dump resistor 15 with small resistance value and voltage supply resistor 1
6, 17, a bias resistor 18 having a large resistance value, a terminating resistor 19, an antenna terminal T _A , a reception circuit terminal T _R , a transmission circuit terminal T _T , and control terminals V _T and V _R. . Incidentally, 1 is a receiving circuit for receiving a received signal from the connected to the receiving circuit end T _R antenna sharing circuit, 2 is located in the transmission circuit supplies a transmission signal to be connected to the transmitting circuit terminal T _T antenna sharing circuit 20 is a duplexer antenna connected to the antenna terminal T _a.

[0022] Then, the band-pass filter 3, one end of which is connected to the antenna terminal T _A, the other end is connected to the receiving circuit end T _R by the output coupling capacitor 11. The resonance circuit 4 is configured such that the second resonance coil 4 </ b> L
And inductively coupled to the first parallel coil 3L of one end is connected to a control terminal V _T is grounded by grounding capacitor 14, the other end is connected to the anode of the switching diode 5. The cathode of the switching diode 5 is connected to a control terminal V _R by the voltage supply resistor 16 is connected to one end of the resonant capacitor 4C. The other end of the resonance capacitor 4C is grounded. Transistor 6 has a collector connected to the cathode of the switching diode 5 by the Q damping resistor 15, a base connected to a control terminal V _T by a bias resistor 18 is connected to the transmitting circuit terminal T _T through the input coupling capacitor 12, the emitter Is grounded. The matching resistor 7 has a resistance value equal to the impedance of the bandpass filter 3. One end is connected to the other end of the bandpass filter 3, and the other end is connected to the anode of the switching diode 8. The switching diode 8 is
The anode is connected to the control terminal V _T by a voltage supply resistor 17, the cathode is grounded. Terminating resistor 19 is terminated transmission circuit end T _T.

The antenna sharing circuit having the above configuration operates as follows.

[0024] First, during transmission, a positive control voltage V _C is applied substantially equal to the supply voltage to the control terminal V _T. At this time,
Control end V _R is open. The control voltage V _C is appropriately reduced by the bias resistor 18 so that the transistor 6
And the collector of the transistor 6 through the second resonance coil 4L, the switching diode 5 and the Q dump resistor 15, to make the switching diode 5 conductive and the transistor 6 active. At this time, from the transmission circuit 2 to the transmission circuit end T _T
Is input to the base of the transistor 6 through the input coupling capacitor 12, amplified by the transistor 6, and output from the collector. The transmission signal output from the collector passes through the Q dump resistor 15 and the switching diode 5 to the second resonance coil 4L.
And the first inductively coupled to the second resonance coil 4L.
After being transferred to a band-pass filter 3 through the resonance coil 3L, supplied to the antenna terminal T _A.

At the time of transmission, the control voltage V _C is applied to the anode of the switching diode 8 through the voltage supply resistor 17 to make the switching diode 8 conductive, and the other end of the matching resistor 7 is grounded through the switching diode 8. At this time, is in the connected reception circuit 1 inactive state is stopped supplying driving power to the receiving circuit end T _R, since the input impedance is very high, the bandpass filter 3 is terminated with a matching resistor 7. Therefore, the matching resistor 7 appropriately keeps the total impedance value of the resonance circuit 4 and the bandpass filter 3 which load the transistor 6 during transmission.

Next, upon receiving a positive control voltage V _C is applied substantially equal to the voltage voltage to the control terminal V _R. At this time,
The control terminal _VT is opened. The control voltage V _C is applied to the cathode of the switching diode 5 through the voltage supply resistor 16 to make the switching diode 5 non-conductive. The switching circuit 5 disconnects the resonance circuit 4 from the second resonance coil 4L and the resonance capacitor 4C. It is. Thus, the inductive coupling between the second resonance coil 4L and the first resonance coil 3L of the bandpass filter 3 is broken. At this time, the reception signal input to the antenna end T _A from the transmission / reception shared antenna 20 is supplied to the bandpass filter 3. Received signal supplied to the band-pass filter 3 is not supplied to the resonant circuit 4 inductive coupling between the bandpass filter 3 is cut off, it is supplied to the receiving circuit end T _R through the output coupling capacitor 11, the receiving circuit 1 is received.

At the time of reception, the control terminal _VT is opened, so that the switching diode 8 is turned off, and the other end of the matching resistor 7 is disconnected from the ground point .

[0028] Thus, according to this embodiment, at the time of transmission, and coupling the band-pass filter 3 and the resonant circuit 4, supplied to the antenna terminal T _A transmission signal via the resonant circuit 4 and a band-pass filter 3 and, upon reception, the band-pass filter 3 and cut off the coupling between the resonant circuit 4, the received signal as it is to be supplied to the receiving circuit end T _R from the bandpass filter 3, the received signal at the receiving resonant circuit 4 It is not transmitted to the side or flows to the switching diode 5, so that the loss of the received signal can be reduced, and the present invention can be applied to a wireless electronic organizer or the like having a weak received signal level.

According to the present embodiment, the matching resistor 7 is
So as to connect between the receiving circuit end T _R and the reference potential point at the time of transmission, since the standing connections at reception, the impedance of the transistor 6 and the bandpass filter 3 is aligned at the time of transmission, signal by matched resistors 7 on reception Losses can be reduced to almost zero.

[0030]

As described above, according to the present invention, the bandpass filter and the resonance circuit are coupled at the time of transmission, and the transmission signal is transmitted through the resonance circuit and the bandpass filter. Since the coupling between the pass filter and the resonance circuit is cut off and the reception signal is supplied from the band pass filter to the end of the reception circuit, the reception signal is transmitted to the resonance circuit side or flows to the switching diode during reception. Without reducing the loss of the received signal, even when the received signal is weak
The receiving circuit can perform a required process on the received signal, and can be applied to a wireless communication device having a weak received signal, such as a wireless electronic organizer.

Further, according to the present invention, the impedance element is connected in parallel to the receiving circuit at the time of transmission, and the connection is cut off at the time of reception. Therefore, at the time of transmission, impedance matching between the amplifying element and the band-pass filter can be achieved. Sometimes
There is an effect that the signal loss due to the impedance element can be made zero.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of an antenna sharing circuit according to the present invention.

FIG. 2 is a block diagram illustrating an example of a configuration of a conventional antenna shared circuit.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 reception circuit 2 transmission circuit 3 band-pass filter 3 L first resonance coil 4 resonance circuit 4 C resonance capacitor 4 L second resonance coil 5 switching diode (switching element) 6 transistor (amplifying element) 7 matching resistor (impedance element) 8 switching diode ( second switching elements) T _a antenna end T _R receiver circuit end T _T transmission circuit end

Claims (2)

(57) [Claims] 1. An antenna end to which a shared antenna for transmission and reception is connected, a reception circuit end to which a reception circuit is connected, and a band-pass filter having a first resonance coil and connecting the antenna end to the reception circuit end. a second resonance coil inductively coupled to the first resonance coil, and the second resonance coil together
It is connected to the resonance capacitor constituting a resonant circuit, a first switch <br/> quenching element which connects the resonant capacitor and the second resonance coil, between the receiving circuit end and the reference potential point
Output impedance of the bandpass filter
An impedance element with the same impedance value
A second switching element, a series circuit of the second switching element, and an amplification element having an output terminal connected to a connection point between the resonance capacitor and the first switching element and outputting a transmission signal to the connection point . When transmitting the switching element of
Each conductive state, an antenna sharing circuit, characterized by being configured to respectively non-conductive state when received. 2. The first and second switching elements are diodes which are turned on by applying a forward bias voltage at the time of transmission, and wherein the amplifying element has a collector as an output terminal and an emitter as a reference. a transistor connected to the potential point, both when the bias voltage to the collector through the first switching element at the time of transmission is applied as the driving voltage, to claim 1, characterized in that the transmission signal is applied to the base An antenna shared circuit as described.