JP2003235090A - Receiver for microphone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a receiver for a microphone capable of selecting a mixed output as required without the need of particularly provision of a mixed signal output terminal and obtaining a mixture output with a level equal to that of individual outputs. <P>SOLUTION: Switching circuits 131, 132 and adder circuits 141, 142 are respectively provided to one reception-output system including a first signal reception section 111 and a first signal output terminal 121 and the other reception-output system including a second signal reception section 112 and a second signal output terminal 122, and when a signal cable is connected to only either of the signal output terminals, the adder circuit in the concerned reception-output system sums (mixes) microphone signals. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microphone receiver including a plurality of signal receiving portions and a plurality of signal output terminals, and more specifically, it relates to a connection state of a device in the next stage to the signal output terminal. The present invention relates to a microphone receiver having a signal switcher capable of mixing the output signals of the respective signal receivers.

[0002]

2. Description of the Related Art A voice signal from a microphone is demodulated by a receiving device (receiver), and the demodulated signal is amplified by an amplifier device to drive a speaker for reproduction. For example, in a karaoke studio or the like, a plurality of microphones are often used at the same time. The receiving device used for such an application includes a signal receiving unit and a signal output terminal for each microphone. FIG. 7 shows an example thereof.

Assuming that two microphones A and B (wireless microphones in this example) are used, the receiver 10 has a signal output terminal Ach for the microphone A and a signal output terminal Bch for the microphone B. In many cases, in addition to this, a signal output terminal MIX for mixing (mixing) the audio signals of the microphones A and B and outputting the mixed signals is provided. Although not shown, the receiving device 1
0 is equipped with two signal receiving units that receive and demodulate the audio signals from the microphones A and B.

The receiving device 10 is connected to an amplifier device 20 which is a next-stage electric device. In this example, the amplifier device 20 is provided with three input terminals MIC1 to MIC3, and when the audio signals of the microphones A and B are individually reproduced by a speaker (not shown), for example, the input terminal MIC1 is a signal. Connect to output terminal Ach and input terminal MI
C2 is connected to the signal output terminal Bch.

When reproducing a mixed audio signal of the microphones A and B, as shown in FIG. 8, for example, the input terminal MIC1 is connected to the signal output terminal MIX. In any case, a microphone other than the microphones A and B is connected to the empty input terminal of the amplifier device 20 as needed.

[0006]

However, in the above conventional receiving device, the number of signal output terminals is larger than the number of microphones used. That is, the signal output terminal Ac for individually outputting the audio signals of the microphones A and B
Since the mixed signal output terminal MIX is provided in addition to h and Bch, the device becomes large and the cost increases accordingly.

Therefore, an object of the present invention is to make it possible to select a mixed output as needed without providing a mixed signal output terminal.

[0008]

In order to solve the above-mentioned problems, the present invention comprises first and second signal receiving sections for respectively receiving audio signals transmitted from two microphones,
First and second signal output terminals provided corresponding to the first and second signal receiving portions, respectively, and a predetermined electric device of the next stage is connected to each of the signal output terminals via a signal cable. In a microphone receiver, a first adder circuit provided between the first signal receiving section and the first signal output terminal and a second adding circuit provided between the second signal receiving section and the second signal output terminal. A second addition circuit, a first switching circuit for switching the first signal receiving unit to either the first addition circuit or the second addition circuit, and the second signal receiving unit for the first addition circuit or A second switching circuit for switching to one of the second adding circuits and a connection state detecting means for detecting a connection state of the signal cable to the first and second signal output terminals are provided, and the connection state detecting means is provided. When the signal cable is connected only to the first signal output terminal, both the first switching circuit and the second switching circuit are switched to the first addition circuit side, and the signal cable is When connected only to the two signal output terminals, both the first switching circuit and the second switching circuit are switched to the second addition circuit side, and the signal cable is connected to the first signal output terminal and the first signal output terminal. When each is connected to the second signal output terminal, the first switching circuit is switched to the first adding circuit and the second switching circuit is switched to the second adding circuit side.

According to this structure, when the signal cable of the predetermined electric device (for example, amplifier device) in the next stage is connected to only one of the two signal output terminals,
Mixed output is obtained, and when signal cables are connected to both signal output terminals, individual outputs are obtained. Therefore, the mixed signal output terminal is not particularly required.

As another configuration of the present invention, the first signal receiving section and the first adding circuit are always connected, and the second signal output terminal and the second adding circuit are always connected, The first switching circuit enables the first signal receiving unit to be selectively connected to the second adding circuit, and the second switching circuit allows the second signal receiving unit to be selectively connected to the first adding circuit. The connection state detecting means detects the connection state of the signal cable to the first and second signal output terminals, and the signal cable is connected to the first signal output terminal and the second signal output terminal, respectively. Only when both the first switching circuit and the second switching circuit are turned off, and in other cases, the first switching circuit and the second switching circuit are both turned on to turn on the first signal. Receiver up The second signal receiving section may be connected to the second adding circuit and the second signal receiving section may be connected to the first adding circuit. According to this configuration, when an electronic switch is used for the switching circuit, the number of the electronic switches is two. Can be done with.

In detecting the connection state of the signal cable, a single-headed plug is provided on the signal cable side, and the first and second signal output terminals are jack terminals having a switch for opening and closing by inserting and removing the single-headed plug. It is preferable to use a switch opening / closing signal because it is the simplest configuration.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a circuit configuration diagram of a receiving device 100 according to the embodiment, FIG. 2 and FIG.
4 is an explanatory diagram showing a connection state between the receiving device 100 and the amplifier device 20, and FIG. 4 is an output terminal 12 provided in the receiving device 100.
It is a schematic diagram which shows the structure of 1,122. The amplifier device 20 may be the same as that described in FIGS. 5 and 6 above.

The receiving device (receiver) 100 includes first and second signal receiving sections 111 and 112 for receiving audio signals transmitted from the two microphones A and B.
Similarly, the microphone signal is output to the amplifier device 20.
And the second two signal output terminals 121 and 122. First signal receiving unit 111 and first signal output terminal 1
21 is one reception-output system, and is the second signal reception unit 112.
And the second signal output terminal 122 are the other receiving-output system.

For example, when the microphones A and B are wireless microphones and are of infrared type, each signal receiving section 11 is used.
1, 112 are provided with light receivers, and in the case of a radio wave type, each signal receiving section 111, 112 is provided with an antenna (both not shown). The microphones A and B may be cord type. In any case, each signal receiving unit 111,
Reference numeral 112 includes a demodulation circuit (not shown) that demodulates the audio signal from the microphone.

A first switching circuit 131, a first adding circuit 141 and a first amplifier 15 are provided between the first signal receiving section 111, which is one of the receiving-output systems, and the first signal output terminal 121.
1 are connected in series. In addition, the second signal receiving unit 112 and the second signal output terminal 12 which are the other receiving-output system.
Between the second switching circuit 132 and the second addition circuit 14
2 and the second amplifier 152 are connected in series.
The amplifier may be connected between the signal receiving unit and the switching circuit, for example.

The first switching circuit 131 has two contacts a and b, and one contact a is connected to the first adding circuit 141,
The other contact b is connected to the second adding circuit 142.
The second switching circuit 132 also has two contacts c and d, one contact c is connected to the first adding circuit 141, and the other contact d.
Is connected to the second adder circuit 142.

The signal output terminals 121 and 122 are connected to the amplifier device 20 via a signal cable (not shown). The receiving device 100 has a connection state detecting means 160 for detecting the connection state. The connection state detecting means 160 controls the first switching circuit 131 and the second switching circuit 132 according to the connection state of the signal cable to the signal output terminals 121 and 122.

For example, a signal cable is connected to each of the signal output terminals 121 and 122, and as shown in FIG. 2, the first signal output terminal 121 is connected to the input terminal MIC1 of the amplifier device 20 by these signal cables. The second signal output terminal 122 is connected and is connected to the amplifier device 20.
If it is connected to the input terminal MIC2 of, the connection state detection means 160 switches the first switching circuit 131 to the contact a side and the second switching circuit 132 to the contact d side. As a result, signals are individually output from the signal output terminals 121 and 122.

On the other hand, for example, the first signal output terminal 1
The signal cable is connected only to the 21 side, and as shown by the solid line in FIG. 3, the first signal output terminal 121 is connected to the input terminal MIC1 (MIC2 of the amplifier device 20 by the signal cable.
Alternatively, it may be MIC3. ), The connection state detecting means 160 determines that the first switching circuit 131
Is switched to the contact a side, and the second switching circuit 132 is switched to the contact c side. As a result, the audio signals of the microphones A and B are added (mixed) by the first addition circuit 141, and the mixed signal is output from the first signal output terminal 121.

Also, for example, a signal cable is connected only to the second signal output terminal 122 side, and as shown by the chain line in FIG. 3, the second signal output terminal 121 is connected by the signal cable.
Is connected to the input terminal MIC1 of the amplifier device 20, the connection state detecting means 160 causes the first switching circuit 131 to operate.
To the contact b side and the second switching circuit 132 to the contact d side. As a result, the audio signals of the microphones A and B are added by the second adding circuit 142, and the mixed signal is output from the second signal output terminal 122.

In this way, according to the present invention, the two signal output terminals 1 are not required even if the mixed signal output terminals are not provided.
The individual outputs of the microphones A and B and their mixed outputs can be obtained depending on the connection state of the signal cable to the terminals 21 and 122. Also, an adder circuit (mixer; mixer)
Since the individual signals are mixed by 141 and 142, the mixed output having the same level as the individual output is obtained.

In order to detect the connection state of the signal cable to the signal output terminals 121 and 122, this embodiment employs the jack terminal 170 shown in FIG. The jack terminal 170 cooperates with a single-headed plug provided on the signal cable side, and includes three terminals, a hot side terminal 171, a switch terminal 172, and a cold side terminal 173, and one PNP transistor Q1. .

The hot-side terminal 171 is composed of a spring piece which is deformed when a single-head plug is inserted, and is connected to the signal line. The switch terminal 172 has a contact piece that contacts the non-deformed hot side terminal 171, and the base of the transistor Q1 is connected to the switch terminal 172. The emitter of the transistor Q1 is the internal power supply Vc
The collector is connected to the connection state detecting means 160.

The switch terminal 172 is in contact with the hot side terminal 171 when the single-headed plug is not inserted into the jack terminal 170. Therefore, the transistor Q1
Since the base current of the device flows to the ground through the resistors R1 and R2, the transistor Q1 is turned on and the internal power supply V
A predetermined current flows from cc to the connection state detecting means 160.

On the other hand, when a single-headed plug is inserted into the jack terminal 170, the hot side terminal 171 is deformed by being pushed by the plug, so that the switch terminal 172 separates from the hot side terminal 171. As a result, the transistor Q1
Turns off, and the current that was flowing up to that point is cut off. The connection state detecting means 160 detects the connection state of the signal cable with respect to the signal output terminals 121 and 122 depending on the presence or absence of this current.

The jack terminal 170 is advantageous in that it has a simple structure and can be manufactured at a low cost, but a photocoupler, a reed switch, or the like may be used instead. In some cases, the signal output terminal 12
The connection information of the signal cable to 1, 122 may be given to the connection state detecting means 160 by a manual switch or the like, and such an aspect is also included in the present invention.

Next, as another embodiment, as shown in FIG. 5, the first signal receiving section 111 and the first adding circuit 141 are always connected, and similarly, the second signal receiving section 112 and the second adding circuit are connected. The circuit 142 is always connected. First switching circuit 131
Is a switch for selecting the contact b and the off contact, and
The second switching circuit 132 is also a switch that selects the contact c or the off contact.

Then, by the connection state detecting means 160,
Only when a connection cable is connected to each of the first and second output terminals 121 and 122, the first switching circuit 13
Both the first and second switching circuits 132 are set to the OFF contact side to be in the individual output state.

In other cases, that is, the first output terminal 1
21 or the second output terminal 122 is connected to the connection cable, and the connection cable is not connected to any of them, the first switching circuit 1
31 is switched to the contact b side, and the second switching circuit 1
32 is switched to the contact c side.

As a result, the first and second output terminals 12
A mixed output can be obtained from either 1, 122. The first and second output terminals 121 and 122
When using the jack terminal 170 described in FIG. 4,
To accommodate this alternative embodiment, each jack terminal 17
0 may be connected as shown in FIG.

That is, the base of the transistor Q1 is connected to the first output terminal 12 via the diodes D1 and D2, respectively.
The switch terminal 172 on the first side and the switch terminal 172 on the second output terminal 122 side are connected. In this case, the diodes D1 and D2 are in the forward direction when viewed from the base side of the transistor Q1.

According to this, the first and second output terminals 1
Transistor Q1 turns off only when a single-headed plug on the connection cable side is inserted into each of 21 and 122,
At other times, the transistor Q1 is turned on, so that the connection state detecting means 160 causes the first state.
The switching circuit 131 and the first switching circuit 132 can be on / off controlled at the same time.

[0033]

As described above, according to the present invention,
One reception including the first signal receiving unit and the first signal output terminal-
A switching circuit and an adding circuit are respectively provided in the output system and the other receiving-output system including the second signal receiving unit and the second signal output terminal, and the signal cable is connected to only one of the signal output terminals. In this case, by adding (mixing) the microphone signals in the adder circuit in the receiving-output system, you can select the mixed output as needed without providing a mixed signal output terminal. Moreover, a mixed output having the same level as the individual output can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram of a receiving device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a connection example of the receiving device and an amplifier device.

FIG. 3 is an explanatory diagram showing another connection example of the receiving device and the amplifier device.

FIG. 4 is a schematic diagram showing a jack terminal used as a signal output terminal included in the receiving device.

FIG. 5 is a block diagram of a receiving device according to another embodiment of the present invention.

FIG. 6 is a circuit diagram showing a connection state of each signal output terminal (jack terminal) in the another embodiment.

FIG. 7 is an explanatory diagram showing a connection example of a conventional receiving device and an amplifier device.

FIG. 8 is an explanatory diagram showing another connection example of a conventional receiving device and an amplifier device.

[Explanation of symbols]

100 receiver 111, 112 signal receiver 121, 122 signal output terminals 131, 132 switching circuit 141,142 adder circuit 151,152 amplifier 160 Connection status detecting means 170 jack terminals 20 amplifier device A and B microphones

Claims (3)

[Claims] 1. A first signal receiving section and a second signal receiving section respectively receiving audio signals transmitted from two microphones,
First and second signal output terminals provided corresponding to the first and second signal receiving portions, respectively, and a predetermined electric device of the next stage is connected to each of the signal output terminals via a signal cable. In the microphone receiver, a first adder circuit provided between the first signal receiving section and the first signal output terminal and a second adding circuit provided between the second signal receiving section and the second signal output terminal. A second adder circuit,
A first switching circuit for switching the first signal receiving section to either the first adding circuit or the second adding circuit, and the second signal receiving section for either the first adding circuit or the second adding circuit. A second switching circuit for switching to one of the two, and a connection state detecting means for detecting a connection state of the signal cable with respect to the first and second signal output terminals. 1
If it is connected to the signal output terminal only,
Both the switching circuit and the second switching circuit are switched to the first addition circuit side, and when the signal cable is connected only to the second signal output terminal, the first switching circuit and the second switching circuit Are switched to the second addition circuit side, and the signal cable is connected to the first signal output terminal and the second signal circuit.
The microphone receiving device, wherein the first switching circuit is switched to the first adding circuit and the second switching circuit is switched to the second adding circuit side when they are respectively connected to the signal output terminals. . 2. A first signal receiving section and a second signal receiving section respectively receiving audio signals transmitted from two microphones,
First and second signal output terminals provided corresponding to the first and second signal receiving portions, respectively, and a predetermined electric device of the next stage is connected to each of the signal output terminals via a signal cable. In the microphone receiver, a first adder circuit connected between the first signal receiving section and the first signal output terminal and a second adding circuit connected between the second signal receiving section and the second signal output terminal. A second adder circuit,
A first switching circuit for selectively connecting the first signal receiving unit to the second adding circuit; a second switching circuit for selectively connecting the second signal receiving unit to the first adding circuit; Connection state detecting means for detecting a connection state of the signal cable with respect to the first and second signal output terminals, wherein the connection state detecting means is characterized in that the signal cable is the first.
The first switching circuit and the second switching circuit are both turned off only when they are respectively connected to the signal output terminal and the second signal output terminal, and in other cases, the first switching circuit and the second switching circuit are turned off. Both the second switching circuits are turned on so that the first signal receiving section is connected to the second adding circuit and the second signal receiving section is connected to the first adding circuit. apparatus. 3. The signal cable comprises a single head plug,
The first and second signal output terminals are jack terminals each having a switch that opens and closes by inserting and removing the single-headed plug, and the connection state detecting means outputs a signal from the switch to the first and second signal output terminals. The microphone receiver according to claim 1 or 2, which detects a connection state of the signal cable.