JPH0434595Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an improvement of a transmitting/receiving switching circuit in a radio device.

In particular, it improves the isolation accuracy of portable radio equipment, uses transistors to avoid the current loss of conventional diodes, and can also be used as a base-grounded amplifier.
This invention relates to a transistor amplification RF switching circuit that has the function of amplifying the output of a VCO buffer.

[Conventional technology]

In the conventional circuit, the voltage from the VCO buffer is
In order to switch the RF signal to either the TX Younger side or the RF mixer side, two diodes D ₁ and D ₂ are placed in opposite directions between the TX Younger and the RF mixer, as shown in Figure 2. Isolation was obtained by

In other words, when conducting the VCO buffer output to the RF mixer side, when voltage is applied to RXB, the current flows in the order of L ₂ → D ₂ → R ₁ , and diode D ₂
Turned on.

Depending on the ON state of D ₂ , the RF signal flows from the VCO buffer in the order of C ₃ → D ₂ → C ₂ , and the VCO buffer -
There is continuity between the RF mixers.

At this time, since no voltage is applied to TXB, diode _D1 is in the OFF state, and the RF mixer and TX
Isolation between youngers is maintained.

Conversely, the VCO buffer output is TX
When conducting on the Younger side, when voltage is applied to TXB, current flows in the order of L ₁ → D ₁ → R ₁ and diode D ₁ is turned on.

Depending on the ON state of D ₁ , the RF signal flows from the VCO buffer in the order of C ₃ → D ₁ → C ₁ , and the VCO buffer -
There is continuity between TX Younger.

At this time, since no voltage is applied to RXB, diode _D2 is in the OFF state, and the RF mixer and TX
Isolation between youngers is maintained.

[Problem that the invention attempts to solve]

Conventional circuits using diodes have the problems of wasting current to turn on the diodes and reducing isolation accuracy.

[Means for solving problems]

In order to solve the above problems, the present invention uses a transistor instead of a diode as a switching element to transmit the VCO buffer output.
We developed a strategy that can be used independently and effectively during reception.

In other words, as shown in Figure 1, the VCO buffer and
Transistor Tr ₁ was placed between the TX Younger, Tr ₂ was placed between the VCO buffer and the RF mixer, and the negative poles of both transistors were grounded to the base.

By replacing diodes with transistors, isolation accuracy is improved, current loss is compensated for by the transistor's amplification effect, and RF signals can be used even at low output.

[Function and Examples]

As shown in FIG. 1, a capacitor C ₁ , a transistor Tr 1 _and a capacitor C ₃ are connected in series between the transmitter TX Younger and the voltage controlled oscillator VCO buffer, and the transistor Tr ₁ and the capacitor
A transistor Tr ₂ connected to the midpoint of C ₃ and a capacitor C ₂ are connected in series and arranged in a receiving RF mixer, and the transistors Tr ₁ and Tr ₂ are used as common base amplifiers to amplify the output of the VCO buffer,
The power supply end of the transmitter power supply TXB is arranged at the midpoint between the capacitor C ₁ and the transistor Tr ₁ via the coil L ₁ , and similarly, the power supply end of the transmitter power supply TXB is arranged at the midpoint between the capacitor C ₂ and the transistor Tr ₂ via the coil L ₂ . Connect the receiving section power supply RXB to form a transistor amplification RF switching circuit.

In the above circuit, the VCO buffer output is RF
When conducting on the mixer side, when voltage is applied to RXB, current flows in the order of L ₂ → Tr ₂ → R ₃ , and transistor Tr ₂ is turned on.

Due to the ON state of Tr ₂ , the RF signal flows from the VCO buffer to C ₃ →Tr ₂ →C ₂ , and conduction occurs between the VCO buffer and the RF mixer.

At this time, since no voltage is applied to TXB, transistor Tr ₁ is in the OFF state, and the RF mixer and TX
Isolation between youngers is maintained.

Conversely, the VCO buffer output is TX
When conducting to the Younger side, when a voltage is applied to TXB, the current flows in the order of L ₁ → Tr ₁ → R ₃ , turning on transistor Tr ₁ .

Due to the ON state of Tr ₁ , the RF signal flows from the VCO buffer to C ₃ →Tr ₁ →C ₁ , and conduction occurs between the VCO buffer and TX Younger.

At this time, since no voltage is applied to RXB, transistor Tr ₂ is in the OFF state, and the RF mixer and TX
Isolation between youngers is maintained.

In both cases, Tr ₁ and Tr ₂ are base-grounded amplifiers, so the VCO buffer output is amplified and sent to the RF mixer and TX Younger.

On the other hand, the reverse resistance of the transistor is high and the impedance is higher than that of a diode, resulting in sharp isolation.

[Effect of idea]

With the transistor amplification RF switching circuit of this invention, which replaces diodes with transistors,
Isolation during transmission and reception of the radio is maintained with higher precision, and the amplification effect of the transistor compensates for current loss, allowing the radio to function satisfactorily even when using low-power RF signals. Now I can do it.

[Brief explanation of the drawing]

FIG. 1 shows an embodiment of the transistor amplification RF switching circuit of the present invention, and FIG. 2 shows a circuit diagram of a conventional example. Tr...Transistor, D...Diode, L
...Coil, C...Capacitor, TXB, RXB
...power supply, TX...transmitter, RX...receiver.

Claims (1)

[Scope of utility model registration request] A capacitor C ₁ and a transistor are installed between the transmitter TX Younger and the voltage controlled oscillator VCO buffer.
Tr ₁ and _a capacitor C ₃ are connected in series, and a transistor Tr _{2 and} a capacitor C ₂ are connected in series and placed in the receiver RF mixer. ₁ , Tr ₂ is used as a common base amplifier to amplify the output of the VCO buffer, and the capacitor C ₁
Arrange the power supply end of the transmitter power supply TXB via the coil _L1 at the midpoint between the transistor _Tr1 and the transistor Tr1, and similarly,
A transistor amplification RF switching circuit characterized in that a receiver power supply RXB is connected to an intermediate point between the capacitor _C2 and the transistor _Tr2 via a coil _L2 .