JPH0323725Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Field of Application] This invention relates to a transmitter/receiver, particularly a transmitter/receiver in which a microphone with a speaker (generally referred to as a speaker microphone) is detachably attached.

[Prior art and its problems]

Transmitter/receiver speakers are usually built into the main unit.
It is separate from the microphone that is held in the hand.
However, in places where the noise level is high or where the reception level is low, it is necessary to place the speaker as close to your ear as possible, so we built a speaker into the microphone above so that you can listen to the playback sound close to your ear when receiving signals. is the speaker microphone.

By the way, when this speaker microphone is connected to the transmitter/receiver main body via a connector, this speaker is connected in parallel to the speaker built into the transmitter/receiver main body. Therefore, in this case, wasteful reproduced sound is constantly generated from the built-in speaker, and the load impedance of the low frequency amplifier of the transmitter/receiver decreases, which has the disadvantage that the load on the amplifier increases accordingly.

If you raise the impedance of both speakers to reduce the load on the amplifier, the volume will be insufficient.If you try to increase the output of the amplifier to compensate for this lack of volume, the amplifier output will increase when the speaker microphone is not connected. Too large and inefficient, and
If a speaker with an allowable input corresponding to the amplifier output is not used, the reliability of the built-in speaker will be significantly deteriorated, causing problems such as damage.

In addition, by providing a switch on the main body,
When using a speaker microphone, turn off the circuit from the amplifier to the built-in speaker of the transmitter/receiver.
There are also transmitters and receivers that can be selected to operate the built-in speaker of the transmitter and receiver when the speaker microphone is not in use. However, in this case, there is a drawback that the reproduced sound may not be output from the built-in speaker due to an erroneous operation of the switch, and an emergency situation may occur.

Furthermore, Japanese Patent Application Laid-Open No. 56-47110 discloses a configuration in which a switch structure of the jack is used to switch the signal to, for example, an earphone connected to a speaker and a plug inserted into the jack. However, the speaker microphone has one for the speaker, one for the microphone, and also a PTT switch.
Since a two-talk (transmit/receive switch) is connected, it is impossible to use a jack with fewer terminals. Therefore, a multi-pin connector of about 8 pins (see Figure 2) is usually used, but in this case there is no switch structure inside the connector, so the configuration disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 56-47110 is used. It is impossible to apply it as is. Further, when a multi-pin connector is used to connect a speaker microphone in this manner, there are cases where unused pins are generated and are wasted.

[Means for solving problems]

This idea was proposed in view of the above-mentioned conventional circumstances, and it is a transceiver that can automatically turn off the circuit from the low frequency amplifier to the built-in speaker when a speaker microphone is connected using a multi-pin connector. The purpose is to obtain.

In order to achieve the above object, this invention employs the following means.

That is, a first switch means inserted between a speaker built into the transmitter/receiver body and a low frequency amplifier, a second switch means for driving the first switch means, and the low frequency amplifier. A connector for connecting and disconnecting an external microphone with a speaker, which connects two terminals on the side of the microphone with a speaker, and connects the terminal on the main body side corresponding to one of the two terminals to the terminal for controlling the second switch means. Connect the signal line from the DC power supply built into the transmitter/receiver body, and connect the terminal on the body side corresponding to the other of the two terminals to the resistor for obtaining the control voltage of the second switch. This is a transmitter/receiver configured with a connector connected so that a control voltage is enabled or disabled when the connector is connected.

[Embodiment] FIG. 1 shows an embodiment of this invention. The output of the low frequency amplifier 1 is input to a speaker 3 built into the transmitter/receiver main body via a contact point of a relay 2 serving as a first switching means. Above relay 2
An NPN type transistor 4 serving as a second switching means is connected in series with the NPN type transistor 4, and the base of the NPN type transistor 4 is grounded via a bias resistor 41 and at the same time connected to the Vcc voltage source via a resistor 42. has been done. Therefore, the transistor 4
At the base of is a control voltage appearing across the resistor 41 (the value obtained by dividing the Vcc voltage by the resistors 41 and 42).
is applied and the speaker microphone described later is not attached, transistor 4 is in the ON state,
Apply current to the coil of relay 2. Therefore relay 2
Contact a is turned on, and the output from the low frequency amplifier 1 is input to the built-in speaker 3.

On the other hand, the connection point of the resistor 42 with the base of the transistor 4 is also connected to one terminal 5a on the main body side of the connector 5, and the corresponding terminal 5b on the speaker microphone side is connected to the ground line. Therefore, when the connector 5 is connected, the base of the transistor 4 is grounded, and the transistor 4 is turned off. Therefore, no current flows through the coil of the relay 2, the contact is turned OFF, and the output from the amplifier 1 is no longer input to the built-in speaker 3. On the other hand, since the low frequency amplifier 1 and the speaker 6 of the speaker microphone are connected by coupling the connector 5, the output of the low frequency amplifier 1 is input only to the speaker 6. It is.

The connector 5 is a multi-pin connector, and even if the speaker microphone 6 (speaker 6a, microphone 6b) and PTT switch (transmission/reception switch) 7 are connected as shown in the figure, there will be extra pins. The remaining pins will be used. This situation is the same in the following examples.

[Embodiment] The above embodiment is inconvenient because current always flows through the coil of the relay 2 when the speaker microphone is not attached. Therefore, if the circuit is configured as shown in FIG. 2, the relay 2 will be activated only when the speaker microphone is connected.
That is, the base of the NPN transistor 4 is grounded via the bias resistor 41 as in the embodiment, but here it is also connected to the main body side terminal 5c of the connector 5. On the other hand, the Vcc voltage source is connected to the terminal 5a on the main body side of the connector 5 via the resistor 42,
The corresponding terminal 5b on the speaker microphone side is
It is connected to a terminal 5d corresponding to the main body side terminal 5c. As a result, when the connector 5 is connected,
A control voltage Va is generated across the resistor 41 to turn on the NPN transistor 4, thereby activating the relay 4 and turning off its contact a. Further, similarly to the embodiment, the speaker 6 of the speaker microphone and the output of the low frequency amplifier 1 are connected by coupling the connector 5. As a result, only the speaker 6 on the speaker microphone side is activated. When connector 5 is uncoupled, transistor 4
is turned off, so only the built-in speaker 3 operates.

Although a relay is used as the switching means in the above explanation, it is of course possible to use other elements having a switching function such as a transistor.

[Effect of idea]

As explained above, this idea turns on and off the circuit from the low-frequency amplifier to the built-in speaker in conjunction with the attachment/detachment of the speaker microphone connected to the transmitter/receiver body via a multi-pin connector. Therefore, both speakers do not operate at the same time, making circuit design extremely easy. Furthermore, the extra pins of the multi-pin connector can be effectively utilized.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing one embodiment of this invention, and FIG. 2 is a circuit diagram showing another embodiment of this invention. In the figure, 1...Low frequency amplifier, 2...First switch means (relay), 3...Speaker built into the transceiver body, 4...Second switch means (transistor), 5...Connector, 6... ...Speaker microphone speaker.

Claims (1)

[Claims for Utility Model Registration] A first switch means inserted between a speaker built into the transceiver body and a low frequency amplifier, and a second switch means for driving the first switch means.
A connector for connecting and disconnecting the low-frequency amplifier and an external microphone with a speaker, which connects the two terminals on the speaker-equipped microphone side, and the terminal on the main body side that corresponds to one of the two terminals. A line from a DC power supply built into the transmitter/receiver body, which serves as a control signal line for the second switching means, is connected to the terminal on the body side corresponding to the other of the two terminals, and the second A transmitter/receiver comprising a resistor for obtaining a control voltage of a switching means and a connector connected so that the control voltage is enabled or disabled by connecting the connector.