JPH0783290B2 - Antenna switch circuit - Google Patents

Description

The present invention relates to an antenna switch circuit used in a wireless transceiver or the like.

[Conventional technology]

Generally, in a wireless transceiver that shares an antenna,
It is equipped with an antenna switch circuit that switches between a transmitting function and a receiving function for one antenna.

A conventional antenna switch circuit is shown at 30 in FIG.

The circuit 30 includes an impedance circuit 31, and when a switching signal for transmission whose switching signal input terminal 32a is (+) and 32b is (-) is applied, a current flows along the arrow Ib. As a result,
Coil L10 is grounded, capacitor C10 and coil L1
Since the resonance circuit 33 is formed by 0, the impedance circuit 31 becomes a high impedance circuit when viewed from the cathode side of the diode D11, and the transmission signal is supplied from the transmission terminal 35 to the antenna 36 along the arrow Ht.

On the other hand, if a switching signal for reception in which the switching signal input terminal 32a is (-) and 32b is (+) is applied, the diode D10 is reverse-biased, so that the coils L10 and L11 and the capacitors L10 and C11 in the impedance circuit 31 are reversed. , C12 functions as a two-stage low-pass filter 31a, and the reception signal is supplied to the reception terminal 37 from the antenna 36 through the low-pass filter 31a along the arrow Hr.

D12 and D13 are clipper diodes for clipping the excessive reception input, and 38 is a low-pass filter connected to the antenna 36.

[Problems to be Solved by the Invention]

By the way, the conventional antenna switch circuit 30 described above,
The impedance circuit 31 at the time of reception functions as a low-pass filter 31a, and as a result, the total filter characteristic of the antenna switch circuit 30 is as shown in FIG.
Low-pass filter connected to antenna 36 and characteristic P1
The characteristic P2 from 38 results in the symbol P3. Therefore, the characteristics as a low-pass filter are improved, but the selectivity is not sufficient. Especially, when the reception local is in a frequency band lower than the reception frequency, the first image frequency is the first IF frequency. The frequency becomes lower than the reception frequency by twice the frequency, and it is extremely disadvantageous when a large power station exists in a frequency band lower than the reception frequency. In addition, there is a problem in that the number of diodes used is large and the circuit is disadvantageous.

An antenna switch circuit in which the impedance circuit 31 functions as a high-pass filter at the time of reception to improve the overall selectivity characteristic is also known from Japanese Patent Laid-Open No. 52-117509. However, since the antenna switch circuit of the publication is made to function as a T-type high-pass filter in a single stage at the time of reception, sufficient and accurate filter characteristics cannot be obtained, and at the same time a sufficiently high impedance characteristic at the time of transmission, that is, the transmission signal is transmitted. There was a problem that sufficient blocking performance could not be obtained.

An object of the present invention is to provide an antenna switch circuit that solves the problems existing in such conventional techniques.

[Means for Solving the Problems]

The antenna switch circuit 1 according to the present invention includes an impedance circuit, and by applying the reception switching signal Sr, the impedance circuit functions as a filter, and the antenna 3
When the switch circuit for switching from the antenna 3 to the receiver circuit is configured to function as the high impedance circuit by applying the switching signal St for transmission, and the switch circuit for switching from the antenna 3 to the transmitter circuit is configured, the impedance circuit 2 is connected to the capacitor C1 and the coil. Between the first-stage impedance circuit section using L1 and the second-stage impedance circuit section using capacitors C2 and coils L2 and L3, and between the signal line and ground between the first-stage impedance circuit section and the second-stage impedance circuit section , A pair of clipper diodes D2 connected in parallel in opposite directions.
And D3 are connected, and the impedance switching circuit 2 is provided with a two-stage high-pass filter by applying the reception switching signal Sr.
It is characterized in that it functions as 2a and biases one clipper diode D3 in the forward direction by applying the transmission switching signal St so that the impedance circuit 2 functions as a two-stage high impedance circuit.

[Action]

According to the antenna switch circuit 1 of the present invention, the impedance circuit 2 includes a first-stage impedance circuit section using the capacitor C1 and the coil L1, a capacitor C2, and a coil.
A pair consisting of a second-stage impedance circuit section using L2 and L3, and a parallel connection in opposite directions between the signal line and ground between the first-stage impedance circuit section and the second-stage impedance circuit section. Since the clipping diode D2 and D3 of the impedance circuit 2 are connected, the impedance switching circuit 2 is provided by applying the reception switching signal Sr.
Functions as a two-stage high-pass filter 2a. That is, the impedance circuit 2 includes capacitors C1 and C2 and coils L1 and L1.
It is a two-stage connection of a π-type high-pass filter composed of 2 and L3. As a result, sufficient and accurate filter characteristics are secured, and a frequency band lower than the reception frequency is cut off. Further, the high-pass filter 2a functions as a band-pass filter together with the low-pass filter 4 connected to the antenna 3, and improves the overall selectivity characteristic of the antenna switch circuit 1. The excessive reception input is clipped by the pair of clipper diodes D2 and D3.

On the other hand, by applying the transmission switching signal St, one clipper diode D3 is forward biased, and the impedance circuit 2 functions as a two-stage high impedance circuit. That is, the impedance circuit 2 is the capacitor C1.
In addition to the first-stage resonance circuit consisting of the coil L1 and the coil L1, the second-stage resonance circuit consisting of the capacitor C2 and the coil L3 is configured.
As a result, sufficient blocking performance for the transmitted signal can be obtained.

〔Example〕

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

First, the configuration of the antenna switch circuit 1 according to the present invention will be described with reference to FIG.

An antenna 3 is connected to the common connection point X via the low pass filter 4 and the coupling capacitor C3. Further, 11a and 11b are input terminals for the switching signal, and one input terminal 11a is connected to the connection point X via the resistor R1, the choke coil L2, and the diode D1, and the other input terminal 11a.
b is connected to the connection point X via the coil L1. Then, the transmission terminal 12 is connected to the coil L2 via the coupling capacitor C4.
And diode D1. Further, the reception terminal 13 is connected to the common connection point X via the capacitors C1 and C2. The connection between the capacitors C1 and C2 is connected to the input terminal 11a via the coil L2 and the resistor R2, and a pair of diodes D2 and D3 having opposite polarities are connected in parallel between the connection and the ground, and The connection between the capacitor C2 and the receiving terminal 13 is grounded via the coil L3. Note that C5, C6, and C7 represent bypass capacitors that are appropriately connected. The circuit surrounded by the chain double-dashed line constitutes the impedance circuit 2.

Next, the function of the antenna switch circuit 1 according to the present invention will be described.

First, at the time of transmission, the transmission switching signal St in which the input terminal 11a is (+) and 11b is (-) is given, and a current flows in two paths of arrows Ie and If. As a result, the coil L1 and the capacitor C1 in the impedance circuit 2 form a resonance circuit, and the receiving terminal 13 side when viewed from the common connection point X is a high impedance circuit. Therefore, the transmission signal input to the transmission terminal 12 is supplied to the antenna 3 through the path of the arrow Et.

On the other hand, at the time of reception, the reception switching signal Sr in which the input terminal 11a is (-) and 11b is (+) is given. Since the diode D1 is reversely biased during reception, the reception signal received by the antenna 3 is supplied to the reception terminal 13 through the path indicated by the arrow Er. At this time, the capacitor C1 that constitutes the impedance circuit 2,
The coils L1, L2, L3 of C2 function as a two-stage high-pass filter 2a.

By the way, since the low-pass filter 4 is connected to the antenna 3, the filter characteristic of the low-pass filter 4 becomes the characteristic P2 in FIG.
Since the filter characteristic by 2a becomes the characteristic P4 in the figure, it eventually functions as a bandpass filter having the characteristic curve P0 indicated by the solid line. That is, according to the antenna switch circuit 1 of the present invention, the received signal passes through the bandpass filter during reception, and the overall selectivity characteristic is greatly improved.

Since the diode D3 for the antenna switch also has the function of the clipper diode, one diode is not needed as compared with the conventional circuit (see FIG. 3).

Although the embodiments have been described in detail above, the present invention is not limited to such embodiments, and the detailed configurations and the like can be arbitrarily changed without departing from the gist of the present invention.

〔The invention's effect〕

As described above, in the antenna switch circuit according to the present invention, the impedance circuit is configured by the first-stage impedance circuit section using the capacitor and the coil and the second-stage impedance circuit section using the capacitor and the coil, and Section and the second-stage impedance circuit section, between the signal line and ground, connect a pair of diodes for the clipper that are connected in parallel so that they are in opposite directions, and add a switching signal for reception to make the impedance circuit two-stage. Of the clipper diode is forward biased by applying a switching signal for transmission, and the impedance circuit functions as a two-stage high impedance circuit. Play.

It is possible to obtain a sufficient and accurate filter characteristic at the time of reception, and a sufficiently high impedance characteristic at the time of transmission, that is, a sufficient cutoff performance for a transmission signal.

Since the clipper diode also serves as the antenna switch diode, the number of parts can be reduced.

[Brief description of drawings]

1 is an electric circuit diagram of an antenna switch circuit according to the present invention, FIG. 2 is a filter characteristic diagram of the antenna switch circuit, and FIG. 3 is an electric circuit diagram of an antenna switch circuit according to a conventional technique. In the drawing, 1: Antenna switch circuit 2: Impedance circuit 2a: High-pass filter 3: Antenna, 4: Low-pass filter Sr: Switching signal for reception, St: Switching signal for transmission

Claims (1)

[Claims] 1. An impedance circuit (2) is provided, and by applying a reception switching signal (Sr), the impedance circuit (2) is made to function as a filter so that reception can be switched from an antenna (3) and transmission switching is performed. In the antenna switch circuit (1) that switches the transmission mode from the antenna (3) by causing the impedance circuit (2) to function as a high impedance circuit by applying a signal (St),
The impedance circuit (2) is composed of a first-stage impedance circuit section using a capacitor (C1) and a coil (L1) and a second-stage impedance circuit section using a capacitor (C2) and coils (L2) and (L3). , And a pair of clipper diodes (D2) and (D2) connected in parallel in opposite directions between the signal line and the ground between the first-stage impedance circuit section and the second-stage impedance circuit section.
3) is connected, and the reception switching signal (Sr) is applied to make the impedance circuit (2) function as a two-stage high-pass filter (2a) and the transmission switching signal (Sr).
t), so that one clipper diode (D3)
Is biased in the forward direction to cause the impedance circuit (2) to function as a two-stage high impedance circuit.