JPH027627A - Antenna switching circuit - Google Patents

Abstract

PURPOSE:To reduce the insertion loss of an antenna switching circuit by providing a 1st rectifier element biased forward at the transmission to a reception line and providing a 2nd rectifier element connecting a point of a pi type filter at the transmitter side to ground in terms of AC at the reception in series with a transmission line. CONSTITUTION:The pi type filters LPF1, LPF2 composed of coils L3, L5 and capacitors C3-C5 are interposed in series with a transmission line TL to eliminate an undesired harmonic wave, and the 1st rectifier element D1 biased forward at the transmission is provided on the reception line RL connecting to the output of the coil L3 of the pi type filter. The reception line RL is connected to ground via the rectifier element D1 to make the input impedance in the case of viewing the output coil of the pi type filter toward the reception infinite. On the other hand, the 2nd rectifier element D2 connecting the pi type filter at the transmitter side to ground in terms of AC at the reception is provided on the transmission line TL and the input impedance in the case of viewing the transmission line from the output side of the coil of the pi type filter is made infinite. Thus, the insertion loss of the antenna switching circuit is reduced.

Description

[Detailed Description of the Invention] Industrial Application Field The present invention is used in radio equipment, etc., in which a transmitting circuit or a receiving circuit is selectively connected to an antenna, and the transmission output from the transmitting circuit and the received signal received by the antenna are The present invention relates to an antenna switching circuit that switches between input and input.

BACKGROUND OF THE INVENTION As the above-mentioned antenna switching circuit, for example, a mechanical switch type using a relay or the like and an electronic switch type using a diode or the like are known. The above-mentioned mechanical switch type has the advantage of low insertion loss when interposed between the transmitting/receiving circuit and the antenna, but on the other hand, since relays and the like are used as mentioned above, the component parts are large and expensive. It is. For this reason, the -r&I electronic switch type is often used, but although this electronic switch type has small components and is low cost, it has the problem of high insertion loss.

-m, the electronic switch type antenna switching circuit is connected to a low-pass filter (hereinafter abbreviated as LPF) 10 as shown in FIG. 2 for blocking unnecessary harmonics from the transmitting circuit. It is used as This LP
F10 is terminal A on either the input or output side
A coil L is provided between the terminal A and the terminal B on the other side, the terminal A of the coil L is grounded via the capacitor Ca, and the terminal B side of the coil L is grounded via the capacitor Cb. This is a π-type LPF with a wavelength of λ7·'4, and when the terminals A on one side are short-circuited, that is, grounded, the input impedance seen from the terminal B on the other side becomes infinite. Therefore, taking advantage of this, a typical prior art antenna switching circuit 11 is constructed as shown in FIG.

In this antenna switching circuit 11, at the time of transmission, the transmission 13 switch sw1 is turned on, and the reception switch sw
2 is cut off, and the current from the power supply v1 flows through the resistor r1 - coil 11 - diode dO - coil 12 - diode d1
- Coil 14 - Transmission switch s w 1 flows in this order.

This forward biases the diode dO, d1. Therefore, the transmission output from the transmission output terminal tx is applied to the LPF 4 via the coupling capacitor C1 and the diode dO, and from the LPF 4 to the antenna terminal 21X via the coupling capacitor C6. LPF
4 is a capacitor c4. c5 and the coil 13) to form the above-mentioned π shape.

On the other hand, during reception, the reception switch sw2 is turned on, and the transmission switch s w l is 31! disconnected, power supply v2
The voltage is applied to a circuit including the receiving switch 5w2, the coil 14, the diode d1, the coil 12, the diode dO, the coil 11, and the resistor r1. This causes the diodes di, do to be biased in the opposite direction. Therefore, the reception input from the antenna εtX is applied to the LPF4 from the coupling capacitor C6, and is led out from the LPF5 to the reception input terminal rx via the coupling capacitor c8.

LPF5 connects the capacitor (-1 and capacitor c3
and a coil 12, and is configured in a π-shape.

Further, the connection point p1 between the coil 11 and the resistor r1 is grounded via a bypass capacitor c2, and a diode (1
The connection point p2 between 1 and the coil 14 is a bypass capacitor c
7 to ground. Therefore, during transmission, the connection point p3 between the capacitor c4 and the coil 12 is grounded in terms of alternating current from the coil 12 through the diode d1 and through the bypass capacitor C7.
When looking at the coil 12 side from 3, its input impedance becomes infinite, and thus the transmitting operation can be performed without the transmitting output being influenced by the receiving side. Further, during reception, the diode do is cut off, and thus the reception operation can be performed without the reception input being influenced by the transmission side.

Problems to be Solved by the Invention In the antenna switching circuit 11 configured as described above, at the time of transmission, the transmission output from the transmission output terminal tx is led out to the antenna terminal aX via the diode dO. A loss of about .5 dB will occur.

In addition, this antenna switching circuit 11 has one stage of L at the time of transmission.
The transmission output is derived through the PF4, and on the other hand, during reception, the two-stage LPF4. Reception input is derived via LPF5. Therefore, the capacitance of capacitor C4, which constitutes both LPF4 and LPF5, is selected to be an intermediate value between the optimum value at the time of transmission and the optimum value at the time of reception. On the one hand, there will be a loss.

An object of the present invention is to provide an electronically switched antenna switching circuit with reduced insertion loss.

Means for Solving the Problems The present invention provides a transmission line consisting of a coil and a capacitor.
a receiving line is provided on the output side of the coil of the π-type filter, a first rectifying element that is forward biased during transmission is provided on the receiving line, and a first rectifying element that is forward biased during reception is provided on the transmission line. The antenna switching circuit is characterized in that a second rectifying element is provided for grounding the transmitter side of the above-mentioned filter in an alternating current manner.

Function According to the present invention, a π-type filter consisting of a coil and a capacitor is interposed in series in the transmission line in order to remove unnecessary harmonics. A receiving line is connected to the output side of the coil of this π-type filter, and this receiving line is provided with a first rectifying element that is biased in the forward direction during transmission. Therefore, the transmission signal is sent to the antenna via the transmission line, with unnecessary harmonics removed by the π-type filter. At this time, the first rectifying element provided on the receiving line is forward biased, so by grounding the receiving line via this first rectifying element,
The input impedance when looking at the receiving line from the output side of the coil of the π-type filter becomes infinite, and as a result, the transmitter does not move without being affected by the receiving side. It can be performed.

On the other hand, the transmission line is provided with a second rectifying element that AC-grounds the transmitter side of the π-type filter during reception. Therefore, during reception, the input impedance when looking at this transmission line from the output side of the above-mentioned square filter coil becomes infinite, so that the received signal received by the antenna is not affected by the transmission side. is provided to the receiver through the line without loss.

Embodiment FIG. 1 is an electrical circuit diagram of an antenna switching circuit 21 according to an embodiment of the present invention. In this antenna switching circuit 21, a transmission signal from the transmitter is applied from the transmission output terminal TX to the transmission line TL via the coupling capacitor C1, and then to the antenna via the coupling capacitor C6 and the antenna terminal AX. .

The transmission line TL includes an LPF 3 and an LPFI. LPF3 consists of capacitors C3 and C4 and coil L.
3) and is configured in a π-shape. LPFl is configured in a π-shape by capacitors C4 and C5 and coil L5.

A receiving line RL is connected to a connection point P3 on the output side of the coil L3 of the LFI F3. The received signal from the antenna is connected from the antenna terminal AX to the capacitor C6.
The signal is applied to the reception line RL via the h-coupling capacitor C8, and is led out to the reception input terminal RX, and is applied to the receiver. An LPF2 is interposed in the reception line RL,
This LPF2 is configured in a π-shape by capacitors C4 and C9 and a coil L4. The cathode of a diode D1, which is a first rectifying element, is connected to the output side of the LPF2 of the reception line RL, and the anode of this diode D1 is grounded via a bypass capacitor C7.
It is connected to the positive pole of the power source (1) and the negative pole of the power source (2) via the coil L6.

The negative electrode of the power source 1 is connected to a connection point P4 between the anode of the diode D2, which is the second rectifying element, and the anode of the diode D3, via the transmission switch SW1 and the coil L2.
connected to. The positive terminal of the power supply ■2 is connected to the receiving switch S.
W2 is connected to the connection point P4 via the coil L2. The cathode of the diode D2 is connected to the transmission line TL.
is connected to the input side of LPF3. Diode D
The cathode of No. 3 is grounded via a bypass capacitor C2. Moreover, the input side of LPF3 of this transmission line TL is
It is grounded via coil L1 and resistor R1. A connection point P1 between the coil L1 and the resistor R1 and a connection point P5 between the cathode of the diode D3 and the bypass capacitor C2 are connected to each other via a line 22.

The diodes D1 to D3 have a small capacitance when reverse biased, that is, at least in the frequency band for transmission and reception, by being reverse biased, the distance between the terminals is ensured by 31! For example, a PIN diode or the like which is in a disconnected state is used. Also, these diodes D1 to D
3 is selected to have a sufficient dielectric strength voltage during reverse bias.

In the antenna switching circuit 21 configured as described above, the transmitting switch SWI is made conductive, and the receiving switch S W 2 is made conductive. By disconnecting the current from the power supply V1, the current flows from the coil L6 to the diode D1 to the coil L4 to the top of the coil 3.
The current flows in the order of coil L1 and resistor R1. This causes diode DI to be biased toward 1, and diode D2. D3 is biased in the opposite direction. Therefore, the transmission output from the transmitter is connected from the transmission output terminal TX to the LPF 3 through the capacitor C1. It is applied to LPFI, led out to antenna terminal AX via coupling capacitor C6, and applied to the antenna. At this time, the diode D1 is conductive, and therefore the connection point P3 on the output side of the coil 3 of the LPF 3 is connected to the coil 4-diode D.
1-grounded via bypass capacitor C7. Therefore, the input impedance seen from this connection point P3 to the reception line KgRI is! ! As a result, the transmission output is not affected by the receiving side, and the transmission operation can be performed.

Furthermore, during reception, by conducting the reception switch SW2 and cutting off the transmission switch SWI, the voltage of the electric current fAV2 is passed through a path in the opposite direction to the path at the time of transmission, that is, reception switch 5W2 - coil L2 - diode D2 - coil. The voltage is applied to a circuit consisting of L3, coil L4, diode D1, and coil L6, thereby forward biasing diode D2 and reverse biasing diode D1. Therefore, the diode D1 is cut off, and the reception input from the antenna is connected to the reception input terminal RX via the capacitor C6 to LPF1.

The signal is applied to LPF2, led out through coupling capacitor C8 to reception input terminal RX, and applied to the receiver.

At this time, diode D3 is conducting, and in terms of alternating current,
The transmitter side of the coils L and 3 is grounded via the diode D2, diode D3, and bus capacitor C2, so the input impedance seen from the connection point P3 to the transmitter side is infinite. Therefore, the receiving operation can be performed without the receiving input from the antenna terminal AX being influenced by the transmitting side.

In this way, in the antenna switching circuit 21 of the present invention, switching elements such as diodes are not interposed in series in the transmission/reception lines TL and RL, thereby reducing the insertion loss of the antenna switching circuit 21. Also, L F' F 3 when transmitting.

Transmission is performed via LPFI, and LPF is used during reception.
Reception is performed through I and LPF2, and a two-stage π-type LPF is used during transmission as well as during reception, so the capacitance of capacitor C4, which together constitute these LPFI to LPF3, is Capacitor C3
.

In the above-described embodiment, when the polarities of the power supplies Vl and V2 are switched, the same operation can be achieved by switching the polarities of the diodes D1 to D3.

Effects of the Invention As described above, according to the present invention, the transmitter side and the receiver side are electrically switched and connected to the antenna without intervening a switching element such as a diode in series in the transmission/reception line. Therefore, by using the present antenna switching circuit, the insertion loss of the antenna switching circuit can be reduced.

[Brief explanation of the drawing]

FIG. 1 is an electric circuit diagram of an antenna switching circuit 21 according to an embodiment of the present invention, FIG. 2 is an electric circuit diagram of a typical LPFIO,
FIG. 3 is an electrical diagram of a typical prior art antenna switching circuit 11. 1 to 3...LPF, 21...Antenna switching circuit, A
X...Antenna terminal, C1, C6, C8... Connection capacitor, C2, C7... Bypass capacitor, C3
゜C4, C5, C9...Capacitor, D1-D3...
・Diode, TL...transmission line, TX...transmission output terminal, RL...reception line, RX...reception input terminal, swl...transmission switch, SW2...reception switch, VI V2・・・Power supply agent Patent attorney Keiichi Kazuzu

Claims (1)

[Claims] A π-type filter consisting of a coil and a capacitor is provided in series on a transmission line, a reception line is provided on the output side of the coil of the π-type filter, and the reception line is forward biased during transmission. An antenna switching circuit characterized in that a first rectifying element is provided, and the transmission line is provided with a second rectifying element that AC-grounds the transmitter side of the π-type filter during reception.