JP2002217683A - Transceiver - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a cost by a method wherein the mutual transformation between a balanced state and an unbalanced state is realized with a simple structure and the structure is shared for a receiving mode and a transmission mode. SOLUTION: A balanced double-tuning circuit 3 is provided between a switching circuit 2 and a receiving circuit 4/a transmission circuit 5, the double- tuning circuit 3 is approximately tuned with frequencies of a receiving signal and a transmission signal, and the receiving circuit 4 and the transmission circuit 5 are connected in parallel with the secondary tuning circuit 3s of the double-tuning circuit 3. In a receiving mode, one end 3p1 of a primary tuning circuit 3p of the double-tuning circuit 3 is connected to the a signal I/0 terminal 1 and the other end 3p2 is grounded by the switching circuit 2 and, in a transmission mode, the one end 3p1 is grounded and the other end 3p2 is connected to the signal I/0 terminal 1 by the switching circuit 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of converting a balanced receiving circuit and a transmitting circuit into unbalanced ones by using a balanced double-tuned circuit and connecting them to input / output terminals. Transmitter and receiver.

[0002]

2. Description of the Related Art In a transceiver, a balancing circuit is used to reduce distortion generated when processing a received signal or a transmitted signal. However, since signal reception and transmission are performed by an unbalanced circuit, a balanced-to-unbalanced converter is required. FIG. 3 shows such a conventional transceiver. The signal input / output terminal 21 is connected to an antenna (not shown), and is connected to one end of a microstrip line 22. The microstrip line 22 has a length of 1/4 wavelength with respect to the frequency of the transmission signal, the other end is connected to the anode of the first diode 23, and the cathode is grounded. The connection point between the microstrip line 22 and the first diode 23 is connected via a band-pass filter 24 to an unbalanced winding 25 a of a balanced-unbalanced conversion transformer 25. Balance side winding 25b of the balance-unbalance conversion transformer 25
Is connected to a balanced input terminal of a balanced low-noise amplifier 26a of a receiving circuit 26 configured as a balanced type.

On the other hand, a signal input / output terminal 21 is connected to a connection point between one end of a microstrip line 22 and a cathode of a second diode 27, and an anode is connected to an output terminal of a power amplifier 29 via a band-pass filter 28. Is done. The input terminal of the power amplifier 29 is connected to the unbalanced side winding 30a of the balance-unbalance conversion transformer 30. The balanced-side winding 30b of the balanced-unbalanced conversion transformer 30 is connected to a balanced output terminal of a balanced preamplifier 31a of a transmission circuit 31 configured as a balanced type.

The anode of the second diode 27 is connected to a switching terminal 34 via a choke inductor 32 and a resistor 33 in series. The switching terminal 34 is supplied with a switching voltage that becomes low level during reception and becomes high level during transmission.

In the above configuration, the first and second diodes 23 and 27 are turned off during reception, so that the signal input to the signal input / output terminal 21 is balanced via the microstrip line 22 and the band pass filter 23. It is input to the unbalanced winding 25a of the unbalanced conversion transformer 25. Then, the signal is converted into a balance by the balance-unbalance conversion transformer 25, and the balance is input to the low noise amplifier 26 a of the receiving circuit 26. The signal input to the receiving circuit 26 is subjected to predetermined processing.

On the other hand, at the time of transmission, the transmission signal generated by the transmission circuit 31 is balanced output from the preamplifier 31a and input to the balanced-side winding 30b of the balanced-unbalanced conversion transformer 30, and becomes unbalanced by the balanced-unbalanced conversion transformer 30. The signal is converted and amplified by the power amplifier 29. At this time, since the first and second diodes 22 and 27 are on, the transmission signal output from the bandpass filter 28 is output to the signal input / output terminal 21 via the second diode 27. At this time, since the first diode 23 is on, the impedance on the microstrip line 22 side increases, and the transmission signal is
No leakage to the two sides.

[0007]

However, in the conventional transceiver, a balanced / unbalanced conversion transformer for interconnecting a balanced circuit and an unbalanced circuit is used on the receiving side and the transmitting side, respectively. Has a wide-band characteristic, so that a band-pass filter for removing unnecessary signals is required, which increases the cost and makes it difficult to reduce the size.

Accordingly, an object of the present invention is to realize a mutual conversion between balanced and unbalanced with a simple configuration, and to reduce the cost by sharing the receiving mode and the transmitting mode.

[0009]

Means for Solving the Problems To solve the above problems,
A signal input / output terminal, a reception circuit and a transmission circuit configured in a balanced type, and a switching circuit that couples the signal input / output terminal to the reception circuit or the transmission circuit; and the switching circuit, the reception circuit, and the A balanced double-tuning circuit is provided between the transmitting circuit and the transmission circuit, and the double-tuning circuit is substantially tuned to the frequency of the reception signal and the transmission signal, and the reception circuit and the transmission circuit are connected in parallel to the secondary tuning circuit. The switching circuit couples one end of the primary tuning circuit of the double tuning circuit to the signal input / output terminal and grounds the other end during reception, and grounds the one end and transmits the other end to the signal input during transmission. Connected to the output end.

The primary tuning circuit comprises a first microstrip line and a first capacitive element connected in parallel to the first microstrip line, and the secondary tuning circuit comprises the first tuning circuit. It is composed of a second microstrip line electromagnetically coupled to the microstrip line and a second capacitive element connected in parallel to the second microstrip line.

Further, the switching circuit includes a third microstrip line having a length of に 対 し て wavelength with respect to a frequency of a transmission signal and one end of the third microstrip line and the first tuning circuit. A first diode interposed in series with the other end, a second diode connected between the other end of the third microstrip line and ground, and the other of the primary tuning circuit. A third diode connected between the terminal and the ground, and coupling the signal input / output terminal to a connection point between the third microstrip line and the first diode; A connection point between the microstrip line and the second diode is connected to the one end of the primary tuning circuit,
At the time of reception, the first and second diodes are turned off and the third diode is turned on. At the time of transmission, the first and second diodes are turned on and the third diode is turned off.

A cathode of the first diode is connected to the one end of the third microstrip line, an anode of the second diode is connected to the other end of the third microstrip line, The third cathode was grounded, a low level was applied during reception, and a switching voltage that was high during transmission was applied to the anode of the first diode, and applied to the anode of the third diode via an inverter. .

[0013] A power amplifier for amplifying the transmission signal is interposed between the first diode and the other end of the primary tuning circuit.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The basic structure of a transceiver according to the present invention will be described with reference to FIG. Together with the signal input and output terminals 1 the received signal input or transmission signal is output is connected to an antenna (not shown), connected to one end 3p ₁ or other end 3p ₂ in the primary tuning circuit 3p of double tuning circuit 3 by the switching circuit 2 Is done. At this time, the other end 3p ₂ or one end 3p
p ₁ is grounded. The primary tuning circuit 3 has a first microstrip line 3a serving as a primary side inductor and a first capacitive element 3b connected in parallel to the first tuning circuit. A secondary tuning circuit 3s is opposed to the first microstrip line 3a. And a second microstrip line 3c serving as a secondary-side inductor, and a second capacitive element d connected in parallel to the second microstrip line 3c. The primary and secondary tuning circuits 3p and 3s are almost tuned to the frequency of the transmission / reception signal.

Both ends 3p ₁ and 3p ₂ of the secondary tuning circuit 3s are connected to, for example, an input terminal of a low-noise amplifier 4a of a balanced receiving circuit 4, and are also configured as a balanced transmitting circuit 5. , For example, is connected to the output terminal of the power amplifier 5a. Either the receiving circuit 4 or the transmitting circuit 5 operates.

[0016] In the above configuration, at the time of reception, by the switching circuit 2 with one end 3p ₁ of the primary tuning circuit 3p is connected to the signal input and output terminals 1 and the other end 3p ₂ is grounded.
Then, the receiving circuit 4 enters an operating state. As a result, the double tuning circuit 3 functions as a balanced-unbalanced conversion circuit. The unbalanced received signal input to the signal input / output terminal 1 is converted to balanced by the double tuning circuit 3 and input to the receiving circuit 4.

On the other hand, at the time of transmission, one end 3p ₁ of the primary tuning circuit 3p is grounded by the switching circuit 2, and the other end 3p ₂ is connected to the signal input / output terminal 1. Then, the transmission circuit 5 enters an operation state. As a result, the double tuning circuit 3 functions as a balanced-unbalanced conversion circuit. The transmission signal output from the transmission circuit 5 in a balanced state is converted into an unbalanced state by the double tuning circuit 3 and output to the signal input / output terminal 1.

Therefore, one detuning circuit 3 is shared for both reception and transmission, which makes it possible to convert between imbalance and imbalance.

FIG. 2 shows a specific configuration of a main part of the transceiver of the present invention. The signal input / output terminal 1 is coupled to a connection point between one end of a third microstrip line 2a provided in the switching circuit 2 and the cathode of the first diode 2b. The third microstrip line 2a has a length of 1/4 wavelength with respect to the frequency of the transmission signal. The switching circuit 2 includes, in addition to the third microstrip line 2a and the first diode 2b, a second diode 2c having an anode connected to the other end of the third microstrip line 2a and a cathode grounded. an anode connected to the other end 3p ₂ in the primary tuning circuit 3p of double tuning circuit 3 via a low impedance DC cut capacitor, the cathode has a third diode 2d that is grounded.

The connection point between the third microstrip line 2a and the second diode 2c is connected to the primary tuning circuit 3p by a low-impedance DC cut capacitor.
It is connected to one end 3p _1. The power amplifier for amplifying 6 is interposed a transmission signal between the other end 3p ₂ of the primary tuning circuit 3p and the anode of the first diode 2b. The anode of the first diode 2b is connected to the switching terminal 9 via the choke inductor 7 and the resistor 8. The switching terminal 9 is connected to the third diode 2 via the inverter 10.
d is connected to the anode. The switching terminal 9 is applied with a switching voltage which becomes low level during reception and becomes high level during transmission.

The balanced receiving circuit 4 and transmitting circuit 5 are connected to the secondary tuning circuit 3s, but the power amplifier 6 is connected to the first diode 26 and the primary tuning circuit 3p.
The preamplifier 5 b is provided at the last stage of the transmission circuit 5 because the signal is interposed between the other end 3 p ₂ of the transmission circuit 5. The balanced output terminal of the preamplifier 5b is connected to the secondary tuning circuit 3s.

In the above configuration, at the time of reception, the first and second diodes 2b and 2c are turned off and the third diode 3d is turned on, so that the received signal input to the signal input / output terminal 1 becomes the third signal. is an unbalanced input to one end 3p ₁ of the primary tuning circuit 3p via the microstrip line 2a. Then, the signal is converted into a balanced state by the double tuning circuit 3, and is balanced and input to the low noise amplifier 4 a of the receiving circuit 4. A predetermined process is performed on the received signal input to the receiving circuit 4.

On the other hand, during transmission, the transmission signal generated by the transmission circuit 5 is balanced output from the preamplifier 5a and input to the secondary tuning circuit 3s. At this time, the first and second diode 2b, 2c are turned on, the third diode 3d is so turned off, one end 3p ₁ of the primary tuning circuit 3p is grounded at high frequencies. Therefore, the transmission signal is transmitted to the double tuning circuit 3
Is converted to unbalanced by the other end 3 of the primary tuning circuit 3p.
is output to the p _2. Then, the signal is amplified by the power amplifier 6 and output to the signal input / output terminal 1. In this case, since the second diode 2c is on,
The impedance on the third microstrip line 2a side increases, and the transmission signal does not leak to the third microstrip line 2a side.

[0024]

As described above, according to the present invention, a balanced double tuning circuit is provided between the switching circuit and the receiving circuit and the transmitting circuit, and the double tuning circuit is almost tuned to the frequency of the receiving signal and the transmitting signal. At the same time, a receiving circuit and a transmitting circuit are connected in parallel to the secondary tuning circuit, and one end of the primary tuning circuit of the double tuning circuit is coupled to the signal input / output terminal and the other end is grounded at the time of reception by the switching circuit. Sometimes one end is grounded and the other end is connected to the signal input / output end, so one double-tuned circuit can be shared for reception and transmission, and signals other than the reception signal and transmission signal can be removed. Becomes easier.

The primary tuning circuit comprises a first microstrip line and a first capacitive element connected in parallel to the first microstrip line, and the secondary tuning circuit is connected to the first microstrip line. Since it is composed of the second microstrip line electromagnetically coupled and the second capacitive element connected in parallel to the second microstrip line, a double-tuned circuit with a simple configuration can be obtained.

The switching circuit is connected between a third microstrip line, a first diode inserted in series between one end thereof and the other end of the primary tuning circuit, and a ground between the other end and the ground. A second diode, and a third diode connected between the other end of the primary tuning circuit and the ground, and a signal input / output terminal between the third microstrip line and the first diode. Along with coupling to the connection point, a connection point between the third microstrip line and the second diode is connected to one end of the primary tuning circuit, and during reception, the first and second diodes are turned off and the third diode is connected. Since the first diode is turned on and the first and second diodes are turned on and the third diode is turned off at the time of transmission, the balanced / unbalanced conversion can be performed by the double tuning circuit.

Further, the cathode of the first diode is connected to one end of the third microstrip line, the anode of the second diode is connected to the other end of the third microstrip line, and the third cathode is grounded. Since the switching voltage, which becomes low level during reception and becomes high level during transmission, is applied to the anode of the first diode and applied to the anode of the third diode via the inverter, the primary tuning circuit in the double tuning circuit is used. Are easily connected to the signal input / output terminal and grounded.

Further, since a power amplifier for amplifying a transmission signal is interposed between the first diode and the other end of the primary tuning circuit, a high-level transmission signal does not enter the receiving circuit and the signal input / output terminal does not. Can be output to

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing a basic configuration of a transceiver according to the present invention.

FIG. 2 is a circuit diagram showing a specific configuration of a transceiver according to the present invention.

FIG. 3 is a circuit diagram showing a configuration of a conventional transceiver.

[Explanation of symbols]

Reference Signs List 1 signal input / output terminal 2 switching circuit 2a third inductor 2b first diode 2c second diode 2d third diode 3 retuning circuit 3p primary tuning circuit 3p _one end 3a first microstrip line 3b first Capacitance element 3s Secondary tuning circuit 3p ₂ Other end 3c Second microstrip line 3d Second capacitance element 4 Receiving circuit 4a Low noise amplifier 5 Transmitting circuit 5a Power amplifier 5b Preamplifier 6 Power amplifier 7 Choke inductor 8 Resistance 9 Switching terminal 10 Inverter

Claims (5)

[Claims] 1. A signal input / output terminal, a balanced receiving circuit and a transmitting circuit, and a switching circuit for coupling the signal input / output terminal to the receiving circuit or the transmitting circuit. A balanced double-tuning circuit is provided between the receiving circuit and the transmitting circuit, and the double-tuning circuit is substantially tuned to the frequency of the reception signal and the transmission signal. Circuits are connected in parallel, one end of the primary tuning circuit of the double tuning circuit is coupled to the signal input / output terminal and the other end is grounded during reception by the switching circuit, and the other end is grounded during transmission and the other end is grounded. A transceiver having an end coupled to said signal input / output end. 2. The primary tuning circuit comprises a first microstrip line and a first capacitive element connected in parallel to the first microstrip line, and the secondary tuning circuit comprises the first tuning circuit. 2. The transceiver according to claim 1, further comprising a second microstrip line electromagnetically coupled to the microstrip line, and a second capacitive element connected in parallel to the second microstrip line. 3. The switching circuit includes a third microstrip line having a length of １ ／ wavelength with respect to a frequency of a transmission signal and one end of the third microstrip line and the first tuning circuit. A first diode interposed in series with the other end, a second diode connected between the other end of the third microstrip line and ground, and the other of the primary tuning circuit. A third diode connected between the terminal and the ground, and coupling the signal input / output terminal to a connection point between the third microstrip line and the first diode; A connection point between the microstrip line and the second diode is connected to the one end of the primary tuning circuit, and the first and second diodes are turned off during reception, and the third diode is turned off. The transmitter / receiver according to claim 1, wherein the transceiver is turned on, and at the time of transmission, the first and second diodes are turned on and the third diode is turned off. 4. The cathode of the first diode is connected to the one end of the third microstrip line,
The anode of the second diode is connected to the other end of the third microstrip line, the third cathode is grounded, and the switching voltage, which is low when receiving and high when transmitting, is the first switching voltage. The transmitter / receiver according to claim 3, wherein the voltage is applied to the anode of the third diode, and the voltage is applied to the anode of the third diode via an inverter. 5. The transceiver according to claim 3, wherein a power amplifier for amplifying the transmission signal is interposed between the first diode and the other end of the primary tuning circuit. .