KR900004563B1 - Distinction and connection apparatus of capacitor terminal - Google Patents

Abstract

The apparatus for atutomatically checking quality of electronic condenser microphone unit has a detecting probe (4) having two terminals or more and a circuit for discriminating output terminal of microphone automatically. The discriminating circuit includes detecting and discriminating circuits for each terminals and a switching circuit having SW2, SCR, and relays.

Description

Automatic identification and connection device of output terminal of electronic condenser microphone

1 is a block diagram of the present invention including a perspective view of an electronic capacitor microphone and an embodiment of a detection rod.

2 is an automatic identification circuit diagram of an output terminal of an electronic capacitor microphone, which is a part of the present invention.

* Explanation of symbols for main parts of the drawings

1: Output terminal 2: Ground terminal

3: casing 4: index finger

5: detection terminal

The present invention provides an automatic terminal for determining and connecting a measuring terminal of an electronic condenser microphone unit for automatically performing a quality inspection, that is, a quality inspection and an inspection for characteristic classification of an electric condenser microphone unit. It is for.

As shown in FIG. 1, the electronic capacitor microphone unit has a half moon-shaped output terminal 1 and a ground terminal 2 formed on the upper surface thereof, and the ground terminal 2 is connected to the casing 3 by an electric field. It is. In the inspection of such a unit, the casing 3 is grounded when the unit is placed high on a predetermined device stage. Therefore, measurement is possible by connecting the detection rod of the measuring instrument to the output terminal 1. However, since the unit is cylindrical, it cannot be uniformly arranged in the feeding process. Therefore, the detection rod of the measuring instrument must be manually connected to the output terminal 1 by visually determining the position of the output terminal 1. .

Accordingly, the present invention is provided with a plurality of detection terminals on the detection rod of the measuring instrument to contact the detection rod to the upper surface of the unit so that at least one terminal of the plurality of detection terminals are connected to the output terminal (1), the output terminal (1) Other detection terminals not connected to) are created so that the output terminal (1) and the measuring instrument can be connected to the microphone unit in any direction so that the electrical circuit is cut off so that the inspection can be automated. Referring to the drawings as follows.

1 is an external perspective view of an electronic capacitor microphone as a buoyancy diagram of the present invention. Such a microphone is formed in a cylindrical shape as shown, the output terminal 1 and the ground terminal 2 is formed on the upper surface, the ground terminal 2 is electrically connected to the casing (3).

When the microphone to be inspected is transferred to the inspection table, the casing 3 is installed to be connected to the ground wire, and thus the inspection is performed by connecting the detection terminal of the detection rod to the output terminal 1. However, it is not possible to always transfer the cylindrical microphone in a constant direction. Therefore, it is necessary to ensure that the detection terminal of the detection rod is connected only to the output terminal 1 even if it is conveyed in any direction.

However, as described above, it is difficult to transfer the output terminal of the cylindrical microphone so that it is constantly positioned. Therefore, at least one detection terminal is connected to the output terminal 1 even if the output terminal 1 of the microphone is transferred to any position. The detection rods 4 were provided with a plurality of detection terminals 5 so as to be possible. The number of detecting terminals 5 provided in the detecting rod 4 may be any number of three or more, but it is preferable that the three detecting terminals 5 are arranged in an equilateral triangle. However, if the diameter of the front end surface of the detection terminal 5 is formed to be slightly smaller than the distance between the output terminal 1 and the ground terminal 2 of the microphone, it may be possible to form only two detection terminals. This is because, when the detection rod 4 is brought into contact with the upper surface of the microphone, it is very unlikely that both detection terminals are located in the space portion between the output terminal 1 and the ground terminal 2 of the microphone. However, in order to ensure the accuracy of the inspection, it is preferable to form three detection terminals (5). On the contrary, the arrangement of a plurality of detection terminals exceeding three is inconvenient for the circuit configuration for discriminating the output terminal (1) described later. There is a drawback. As described above, when the plurality of detection terminals 5 are mounted on the detection rods 4, when the detection rods 4 are brought into contact with the upper surface of the microphone, only at least one detection terminal 5 is the output terminal of the microphone ( 1) so that the output of the microphone can still be input to the instrument. However, in the detection terminal 5 of the detection rod 4, it may be connected to the ground terminal 2 which is the other terminal, or may be connected to the space part between the output terminal 1 and the ground terminal 2. As shown in FIG. If the detecting terminal 5 of the detecting rod 4 is in contact with the space between the output terminal 1 and the ground terminal 2, there is no problem, but one or two or more of the plurality of detecting terminals 5 are detected. When the terminal 5 is connected to the ground terminal 2, the circuit connected to the ground terminal 2 must be interrupted. As a means for solving such a technical problem, each detection terminal (5) is determined to be an output terminal (1), and when the detection terminal (5) is connected to the output terminal (1), the output is sent to the side device. When connected to the ground terminal 2, an apparatus for disconnecting the circuit, that is, an automatic discrimination circuit for the output terminal of the electronic capacitor microphone was provided. An embodiment of such an output terminal automatic discrimination circuit is shown in FIG. That is, the output terminal automatic discrimination circuit has separate detection and discrimination circuits for each detection terminal 5, and the contact portions A ₁ , B ₁ and detection terminals of Sw ₁ , C, R, and relay Ry are connected to the power input. 5) the terminal (b ₁₎ of the main circuit and Sw _2, SCR and a relay (Ry), the contact part (B ₁₎ of the connection to the switching circuit to the parallel coil and the SCR gate relay (Ry) of a Connect to and form. In the present invention as described above, when the detection terminal 5 is connected to the ground terminal 2 and Sw ₂ , is in the ON state, the time constant of the capacitor C ₁ and the resistor R ₁ when Sw ₁ is turned ON. As many gate trigger pulses are applied to the gate of SCR _{1 in} the case of the contact b ₁ of the contact part B ₁ through the contact a ₁ of the contact part A ₁ of the relay Ry ₁ . Since the detection terminal 5 is grounded, the gate trigger pulse is bypassed, so that SCR ₁ is not conducting. Therefore, the relay Ry ₁ is not turned on and remains in its original state. Therefore, the detection terminal 5 connected to the ground terminal 2 is not connected to the input of the measuring instrument. However, when the detection terminal 5 is connected to the output terminal 2, when Sw ₁ is turned ON, the applied voltage is not bypassed to the microphone unit due to the high resistance of the FET inside the microphone unit, and the capacitor C ₁ and Gate trigger pulses corresponding to the time constant of the resistor R ₁ are passed through the contact b ₁ of the contact part B ₁ through the contact a ₁ of the contact part A ₁ of the relay Ry ₁ . The trigger of SCR ₁ is triggered and SCR ₁ is conducted so that the relay Ry ₁ is activated so that the contact portion A ₁ is connected with the contact a ₂ and the contact portion B ₁ is the contact b. ₂ ) the detection terminal 5 is connected to the input of the measuring instrument. In addition, since the contact portion A ₁ is connected to the contact a ₂ , the capacitor C ₁ and the resistor R ₁ form a closed circuit to discharge the charging voltage of the capacitor C ₁ .

After the inspection of one microphone unit, the detection terminal is retracted from the output terminal 1 of the microphone, and Sw ₂ is turned off to reduce all of the SCRs to the off state.

Therefore, in the present invention, even if the unit of the microphone is supplied in any direction, only at least one detection terminal of the plurality of detection terminals can be connected to the output terminal 2 of the unit of the microphone, and only the detection terminal connected to the output terminal 2 is provided. It can be connected to this instrument. Therefore, the present invention makes it possible to perform a direct connection and discrimination function simultaneously by utilizing the circuit configuration features of a specific unit without introducing a sensor device or a discrimination process system for selective connection of terminals, thereby making a very simple and payable discrimination and selection device. It was possible to provide.

Claims (2)

Output terminal of electronic condenser microphone Automatic identification and connection device of output terminal of electronic condenser microphone, which is equipped with two or more detection terminals on a detection rod having automatic identification circuit. The output terminal automatic discrimination circuit of the electronic condenser microphone is provided with separate detection and discrimination circuits of the respective detection terminals, and connected thereto in parallel, and each detection and discrimination circuit is connected to the power input Sw ₁ ,. C, R, and relay contacts A, B, and the detection circuit with the weighting circuit of Sw ₂ , SCR, and the relay circuit of relays (Ry) are connected in parallel, and the gate of the SCR is relayed. An automatic identification circuit of an output terminal of an electronic capacitor microphone, characterized in that it is formed by being connected to a terminal b ₁ of a contact portion B of (Ry).

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