JP5124891B2 - Selector device - Google Patents

Description

  The present invention relates to a selector device that selects one of a first digital audio input terminal, a second digital audio input terminal, and an analog audio input terminal.

  As shown in FIG. 3, the amplifier device is provided with a switch for switching an audio signal input between an optical digital audio input terminal and a coaxial digital audio input terminal. A digital audio signal input from an optical digital audio input terminal or a coaxial digital audio input terminal is converted into an I2S format digital audio signal in the DIR, converted into an analog audio signal in the DAC, and a volume circuit or an amplifier circuit in the subsequent stage To be supplied. Here, when the switch is switched between the optical digital audio input terminal and the coaxial digital audio input terminal, depending on the timing, if the digital audio signal input immediately before remains in the DIR, it is input immediately before. The newly input digital audio signal may be combined with the digital audio signal, resulting in a signal that cannot be reproduced, and noise may be reproduced.

  In order to prevent this, when switching the switch between the optical digital audio input terminal and the coaxial digital audio input terminal, it is necessary to reset the DIR and erase the digital audio signal input immediately before. Conventionally, as shown in FIG. 4, the amplifier device includes a microcomputer, and when the switch is switched between the optical digital audio input terminal and the coaxial digital audio input terminal, the microcomputer transmits a reset control signal to the DIR for a predetermined time. As a result, the DIR is reset. However, in an amplifier device that does not need to include a microcomputer, it is not preferable in terms of cost to include a microcomputer only for transmitting a reset control signal to the DIR.

JP-A-61-177031

  The present invention has been made to solve the above-described conventional problems, and an object of the present invention is to provide a first digital audio input terminal and a second digital signal without providing a microcomputer only for supplying a reset control signal to the conversion means. It is an object of the present invention to provide a selector device capable of resetting a conversion means when switching a selection state with an input terminal.

  A selector device according to a preferred embodiment of the present invention includes a first digital audio input terminal, a second digital audio input terminal, an analog audio input terminal, the first digital audio input terminal, and the second digital audio input terminal. , One of the analog audio input terminals is selected, and the selected state is switched to the first digital audio input terminal, the analog audio input terminal, the second digital audio input terminal, and vice versa. When the slide switch and the slide switch select the first digital audio input terminal or the second digital audio input terminal, the first digital audio input terminal or the second digital audio input terminal Conversion means for converting a digital audio signal supplied from the camera via the slide switch into a predetermined standard digital audio signal When the slide switch selects the first digital audio input terminal or the second digital audio input terminal, the slide switch is selected to output the audio signal from the conversion means to the subsequent stage, and the slide switch Includes a second switch that selects to output an analog audio signal from the analog audio input terminal to a subsequent stage when the analog audio input terminal is selected, and the slide switch includes the first digital audio signal When the input terminal or the second digital audio input terminal is selected, the conversion means performs the reset operation by not connecting the reset terminal of the conversion means to the first level potential via the slide switch. If the slide switch selects the analog audio input terminal without executing the reset, By connecting to the first level of the potential bets terminal through the slide switch, the converting means performs a reset operation, a selector device.

  When the slide switch switches the selection state between the first digital audio input terminal and the second digital audio input terminal, the slide switch always goes through the state of selecting the analog audio input terminal. When the slide switch selects the analog audio input terminal, the reset terminal of the conversion means is connected to the first level potential via the slide switch. As a result, the conversion means performs a reset operation. The first level potential is not particularly limited, but may be a ground potential or a predetermined power supply voltage line.

  In a preferred embodiment, the apparatus further comprises reset control signal generation means for supplying a reset control signal for resetting the conversion means to the conversion means, wherein the slide switch is the first digital audio input terminal or the second When the digital audio input terminal is selected, by not connecting the reset control signal generating means to the first level potential via the slide switch, the reset control signal generating means converts the reset control signal to the converting means. When the slide switch selects the analog audio input terminal, the reset control signal generating means is connected to the first level via the slide switch. The reset control signal generating means The Tsu Miyako control signal continuously for a predetermined time is supplied to the conversion means, said conversion means performs the resetting operation.

  In this case, even when the selection state is instantaneously switched from the first digital audio input terminal to the second digital audio input terminal via the analog audio input terminal (or vice versa), the reset control signal generating means The reset control signal is supplied to the conversion means continuously for a time. Therefore, the conversion means can execute the reset operation more reliably.

  Without having a microcomputer only for supplying a reset control signal to the conversion means, the conversion means must be reset when the selection state is switched between the first digital audio input terminal and the second digital input terminal. A selector device that can be provided can be provided.

1 is a circuit diagram illustrating a selector device according to a preferred embodiment of the present invention. 1 is a circuit diagram illustrating a selector device according to a preferred embodiment of the present invention. 1 is a circuit diagram illustrating a selector device according to a preferred embodiment of the present invention. 1 is a circuit diagram illustrating a selector device according to a preferred embodiment of the present invention. 1 is a circuit diagram illustrating a selector device according to a preferred embodiment of the present invention. 1 is a circuit diagram illustrating a selector device according to a preferred embodiment of the present invention. It is a block diagram which shows the conventional selector apparatus. It is a block diagram which shows the conventional selector apparatus.

  Hereinafter, although the selector apparatus 1 by preferable embodiment of this invention is demonstrated concretely with reference to drawings, this invention is not limited to these embodiment. The selector device 1 can be employed in an amplifier device, a TV, or the like.

  1A to 1C are schematic circuit diagrams showing the selector device 1. FIG. The selector device 1 generally includes a slide switch 2, a DIR (Digital Audio Interface Receiver) 3, which is an example of a conversion unit, a DAC (Digital Analog Converter / Digital Audio Converter) 4, and a relay switch 5. The selector device 1 includes at least a plurality of digital audio input terminals and one or more analog audio input terminals as audio input terminals. In this example, the digital audio input terminal includes an optical digital audio input terminal (first digital audio input terminal) and a coaxial digital audio input terminal (second digital audio input terminal), but two optical digital audio input terminals. Or two coaxial digital audio input terminals.

  The slide switch 2 selects an audio signal that is amplified by an amplifier device and output to a speaker from a plurality of audio signals. That is, the slide switch 2 selects an audio input terminal to which an audio signal that is amplified by the amplifier device and output to the speaker is input from among the plurality of audio input terminals. The slide switch 2 has at least three selection states. As the selection state of the slide switch 2, the first digital audio input terminal (optical digital audio input terminal), the analog audio input terminal, and the second digital audio input terminal (coaxial digital audio input terminal) are arranged in order from the left. Yes. That is, when the selection state is switched between the optical digital audio input terminal and the coaxial digital audio input terminal, the selection state of the analog audio input terminal is always passed.

  When selecting the analog audio input terminal, the slide switch 2 connects the reset terminal of the subsequent stage DIR3 to the first level potential (in this example, the ground potential), so that the reset control signal is supplied to the reset terminal of the DIR3. (Low level signal) is supplied. Therefore, when switching between the optical digital audio input terminal and the coaxial digital audio input terminal, the selection state of the analog audio input terminal is always passed, so that a reset control signal is always supplied to the reset terminal of DIR3. Can do. Since the slide switch 2 supplies a reset control signal to the DIR 3, it is not necessary to separately provide a microcomputer for supplying the reset control signal to the DIR 3.

  The slide switch 2 includes switch bodies 21 and 22 and terminals a to j. The switch bodies 21 and 22 can be slid in the left-right direction in the figure in conjunction with each other. The switch body 21 can be connected to two of the terminals f to j, and the selected two terminals can be electrically connected (electrically connected). The switch body 22 can be connected to two terminals among the terminals a to e, and can conduct (electrically connect) the two selected terminals.

  The terminal b is connected to the ground potential. The terminal c is connected to the terminal d and the reset terminal of the DIR3, and is connected to the base of the pnp type transistor Q1 for controlling the relay switch 5 via the resistor R2. The terminal f is connected to an optical digital audio input terminal. The terminal g is connected to the ground potential via the resistor R1. The terminal h is connected to the terminal i and the digital audio input terminal RX of the DIR3. Terminal j is connected to a coaxial digital audio input terminal.

  FIG. 1A shows a state in which the switch bodies 21 and 22 of the slide switch 2 are located on the left side, and shows a state in which the optical digital audio input terminal is selected. At this time, the switch body 21 makes the terminal f and the terminal h conductive. Accordingly, a digital audio signal from the optical digital audio input terminal is supplied to the digital audio input terminal RX of the DIR 3 via the terminal f, the switch body 21, and the terminal h. Further, the switch body 22 makes the terminal a and the terminal c conductive. Therefore, the reset terminal of DIR3 is not connected to the ground potential, and the reset control signal (low level signal) is not supplied to the reset terminal of DIR3.

  FIG. 1B shows a state in which the switch bodies 21 and 22 of the slide switch 2 are located on the center side, and shows a state in which the analog audio input terminal is selected. At this time, the switch body 21 makes the terminal g and the terminal i conductive. Therefore, the digital audio input terminal RX of DIR3 is connected to the ground potential via the terminal i, the switch body 21, the terminal g, and the resistor R1, and no digital audio signal is input. Further, the switch body 22 makes the terminal b and the terminal d conductive. Accordingly, the reset terminal of DIR3 is connected to the ground potential via the terminal d, the switch body 22, and the terminal b, and a reset control signal (low level signal) is supplied.

  FIG. 1C shows a state where the switch bodies 21 and 22 of the slide switch 2 are located on the right side, and shows a state where the coaxial digital audio input terminal is selected. At this time, the switch body 21 makes the terminal h and the terminal j conductive. Accordingly, a digital audio signal from the coaxial digital audio input terminal is supplied to the digital audio input terminal RX of the DIR 3 via the terminal j, the switch body 21, and the terminal h. Further, the switch body 22 makes the terminal c and the terminal e conductive. Therefore, the reset terminal of DIR3 is not connected to the ground potential, and the reset control signal (low level signal) is not supplied to the reset terminal of DIR3.

  DIR3 includes a digital audio input terminal RX, a reset terminal RESET, and a digital audio output terminal DOUT. The digital audio input terminal RX is connected to the terminals h and i of the slide switch 2. The reset terminal RESET is connected to the 5V power supply voltage line and the terminals c and d of the slide switch 2. The digital audio output terminal DOUT is connected to the digital audio input terminal DATA of the DAC 4.

  The DIR 3 converts the digital audio signal input to the digital audio input terminal RX into a digital audio signal of a predetermined standard (in this example, but not limited to, an I2S digital audio signal), and outputs it from the digital audio output terminal DOUT. When the selected state of the slide switch 2 is switched between the optical digital audio input terminal and the coaxial digital audio input terminal, the DIR 3 is supplied with a reset control signal (low level signal) to the reset terminal RESET and performs a reset operation. Need to run. That is, the reset terminal RESET is not connected to the ground potential via the slide switch 2 when the slide switch 2 selects the optical digital audio input terminal or the coaxial digital audio input terminal, and is connected to the 5V power supply voltage line. Therefore, a high level signal is input (no reset control signal is input), and the reset operation is not executed. In addition, the reset terminal RESET is connected to the ground potential via the slide switch 2 when the slide switch 2 selects the analog audio input terminal, so that a low level signal (reset control signal) is received. It is input and the reset operation is executed. Here, the reset operation is to erase the data (information) of the digital audio signal held in the DIR3. In other words, when the slide switch 2 selects the coaxial digital audio input terminal from the optical digital audio input terminal via the analog audio input terminal, the DIR 3 resets the digital audio input from the optical digital audio input terminal. Erase all signal data.

  DIR3 is not particularly limited. For example, WM8804GEDS / RV manufactured by WOLFSON MICROELECTRONICS may be used.

  The DAC 4 includes a digital audio input terminal DATA, an analog left audio output terminal LOUT, and an analog right audio output terminal ROUT. The digital audio input terminal DATA is connected to the digital audio output terminal DOUT of DIR3. The analog left audio output terminal LOUT is connected to the switch SW1 of the relay switch 5. The analog right audio output terminal ROUT is connected to the switch SW2 of the relay switch 5. The DAC 4 converts the I2S digital audio signal input to the digital audio input terminal DATA into an analog left audio signal and an analog right audio signal and outputs them to the relay switch 5.

  The relay switch 5 is switch-controlled by the transistor Q1 in accordance with the selection state of the slide switch 2, and an analog audio signal output to a subsequent volume circuit, amplifier circuit, or the like is converted into an analog audio signal input from an analog audio input terminal. And switching between analog audio signals input from the DAC 4. That is, when the slide switch 2 selects the optical digital audio input terminal or the coaxial digital audio input terminal, the slide switch 2 is switched to output the analog audio signal from the DAC 4 to the volume circuit or the amplifier circuit. When the audio input terminal is selected, the analog audio signal from the analog audio input terminal is switched to be output to the volume circuit or the amplifier circuit.

  Relay switch 5 includes switches SW1 and SW2 and a coil L. One terminal on the input side of the switch SW1 is connected to the analog left audio input terminal, the other terminal on the input side is connected to the analog left audio output terminal LOUT of the DAC 4, and the output side terminal is connected to a volume circuit, an amplifier circuit, or the like. It is connected. One terminal on the input side of the switch SW2 is connected to the analog right audio input terminal, the other terminal on the input side is connected to the analog right audio output terminal ROUT of the DAC 4, and the output side terminal is connected to a volume circuit, an amplifier circuit, or the like. It is connected. One end of the coil L is connected to the collector of the transistor Q1, and the other end is connected to the ground potential.

  The transistor Q1 is for switching control of the relay switch 5. The transistor Q1 has a base connected to the terminals c and d of the slide switch 2 via a resistor R2, a collector connected to the coil L, and an emitter connected to the 5V power supply voltage line. When the slide switch 2 selects the optical digital audio input terminal or the coaxial digital audio input terminal, the base of the transistor Q1 is not connected to the ground potential via the slide switch 2, but is connected to the 5V power supply voltage line. Will be in the off state. Accordingly, since no current flows through the coil L, the switches SW1 and SW2 select the DAC 4. On the other hand, when the slide switch 2 selects the analog audio input terminal, the transistor Q1 is in a state where the base is connected to the ground potential via the slide switch 2 and is turned on. Therefore, a current flows through the coil L, and the switches SW1 and SW2 select the analog audio input terminal side.

The operation of the selector device 1 having the above configuration will be described.
[When slide switch 2 selects the optical digital audio input terminal]
As shown in FIG. 1A, the switch bodies 21 and 22 of the slide switch 2 are located on the left side. Since the switch body 21 conducts the terminal f and the terminal h, the digital audio signal from the optical digital audio input terminal is supplied to the digital audio input terminal RX of the DIR3. The DIR3 converts the digital audio signal supplied to the digital audio input terminal RX into an I2S digital audio signal, and supplies it to the DAC4. DIR3 does not execute the reset operation because the reset terminal RESET is connected to the 5V power supply voltage line. The DAC 4 converts the I2S digital audio signal into an analog audio signal and supplies the analog audio signal to the relay switch 5. The base of the transistor Q1 is connected to the 5V power supply voltage line, is in an off state, and no current flows through the coil L. Therefore, the switches SW1 and SW2 of the relay switch 5 select the DAC4 side. Therefore, the digital audio signal from the optical digital audio input terminal can be converted into an analog audio signal and supplied to a volume circuit or the like.

[When slide switch 2 selects analog audio input terminal]
As shown in FIG. 1B, the switch bodies 21 and 22 of the slide switch 2 are located on the center side. Since the switch body 21 conducts the terminal g and the terminal i, the digital audio signal is not supplied to the digital audio input terminal RX of the DIR3. Since the switch body 22 of the slide switch 2 conducts the terminal b and the terminal d, the reset terminal RESET of the DIR 3 is connected to the ground potential, and a low level signal (reset control signal) is input. DIR3 performs a reset operation. The transistor Q1 has a base connected to the ground potential and is in an on state, and a current flows through the coil L. Accordingly, the switches SW1 and SW2 of the relay switch 5 select the analog audio input terminal side. Therefore, an analog audio signal from the analog audio input terminal can be supplied to a volume circuit or the like.

[When slide switch 2 selects coaxial digital audio input terminal]
As shown in FIG. 1C, the switch bodies 21 and 22 of the slide switch 2 are located on the right side. Since the switch body 21 conducts the terminal h and the terminal j, the digital audio signal from the coaxial digital audio input terminal is supplied to the digital audio input terminal RX of the DIR3. The DIR3 converts the digital audio signal supplied to the digital audio input terminal RX into an I2S digital audio signal, and supplies it to the DAC4. DIR3 does not execute the reset operation because the reset terminal RESET is connected to the 5V power supply voltage line. The DAC 4 converts the I2S digital audio signal into an analog audio signal and supplies the analog audio signal to the relay switch 5. The base of the transistor Q1 is connected to the 5V power supply voltage line, is in an off state, and no current flows through the coil L. Therefore, the switches SW1 and SW2 of the relay switch 5 select the DAC4 side. Therefore, the digital audio signal from the coaxial digital audio input terminal can be converted into an analog audio signal and supplied to a volume circuit or the like.

  As described above, according to the present embodiment, when the selection state of the slide switch 2 is switched between the optical digital audio input terminal and the coaxial digital audio input terminal, the analog audio input terminal is always selected. At this time, the reset operation can be executed by connecting the reset terminal RESET of DIR3 to the ground potential. Further, since the DIR 3 performs the reset operation when the analog audio input terminal is selected, it is not necessary to provide the selector switch 2 with a state only for executing the reset operation, so that the user is aware of the reset operation. There is no. In addition, since the DIR 3 performs the reset operation when the analog audio input terminal is selected, it is possible to eliminate the influence of the radiation noise from the digital circuit on the analog audio signal.

  Next, a selector device 11 according to another preferred embodiment of the present invention will be described with reference to FIGS. 2A to 2C. The selector device 11 is different from the selector device 1 of FIGS. 1A to 1C in that a reset IC 6 is added and when the slide switch 2 selects the analog audio input terminal, By connecting a predetermined power supply voltage line (here 3.3V power supply voltage line) to the input of the reset IC 6 and the base of the npn transistor Q2, a high level signal is outputted to the reset IC 6 and the transistor Q2. Yes.

  The slide switch 2 will be described. The terminal b is connected to the input terminal of the reset IC, and is connected to the base of the transistor Q2 via the resistor R2. The terminal c is connected to the terminal d and the 3.3V power supply voltage line. The terminal f is connected to an optical digital audio input terminal. The terminal g is connected to the ground potential via the resistor R1. The terminal h is connected to the terminal i and the digital audio input terminal RX of the DIR3. Terminal j is connected to a coaxial digital audio input terminal.

  The reset IC 6 has an input terminal IN connected to the terminal b of the slide switch 2 and an output terminal connected to the reset terminal RESET of DIR3. When the slide switch 2 selects the analog audio input terminal, the reset IC 6 is connected to the power supply voltage line of 3.3V via the slide switch 2 and a high level signal is input to output the reset IC 6. From the terminal, a low level signal (reset control signal) is supplied to the reset terminal RESET of DIR3 continuously for a predetermined time (for example, 200 milliseconds). This predetermined time is set to a time longer than the minimum time during which the DIR 3 can determine that the reset control signal has been input. Accordingly, even when the slide switch 2 is instantaneously switched between the optical digital audio input terminal and the coaxial digital audio input terminal by a user operation (that is, the state in which the analog audio input terminal is selected is small). Since the reset IC continuously outputs the reset control signal to the DIR 3 for a predetermined time (even if there is only a short time), the DIR 3 can reliably execute the reset operation.

Next, the operation of this embodiment will be described.
[When slide switch 2 selects the optical digital audio input terminal]
As shown in FIG. 2A, the switch bodies 21 and 22 of the slide switch 2 are located on the left side. Since the switch body 21 conducts the terminal f and the terminal h, the digital audio signal from the optical digital audio input terminal is supplied to the digital audio input terminal RX of the DIR3. The DIR3 converts the digital audio signal supplied to the digital audio input terminal RX into an I2S digital audio signal, and supplies it to the DAC4. Further, since the input terminal of the reset IC 6 is not connected to the 3.3V power supply voltage line and a high level signal is not supplied, a low level signal (reset control signal) is not supplied to the reset terminal of DIR3. Therefore, DIR3 does not execute the reset operation. The DAC 4 converts the I2S digital audio signal into an analog audio signal and supplies the analog audio signal to the relay switch 5. The transistor Q2 is in a state in which the base is not connected to the 3.3V power supply voltage line and is connected to the ground potential via the resistor R3. Therefore, the switches SW1 and SW2 of the relay switch 5 select the DAC4 side. Therefore, the digital audio signal from the optical digital audio input terminal can be converted into an analog audio signal and supplied to a volume circuit or the like.

[When slide switch 2 selects analog audio input terminal]
As shown in FIG. 2B, the switch bodies 21 and 22 of the slide switch 2 are located on the center side. Since the switch body 21 conducts the terminal g and the terminal i, the digital audio signal is not supplied to the digital audio input terminal RX of the DIR3. Since the switch body 22 of the slide switch 2 conducts the terminal b and the terminal d, the input terminal of the reset IC 6 is connected to the 3.3V power supply voltage line via the terminal b, the switch body 22 and the terminal d. A level signal is provided. Accordingly, the reset IC 6 continuously supplies a low level signal (reset control signal) to the reset terminal RESET of the DIR 3 for a predetermined time (200 milliseconds). As a result, the DIR 3 performs a reset operation. The base of the transistor Q2 is connected to the 3.3V power supply voltage line via the resistor R2, the terminal b, the switch body 22, and the terminal d, and is in an on state, and a current flows through the coil L. Accordingly, the switches SW1 and SW2 of the relay switch 5 select the analog audio input terminal side. Therefore, an analog audio signal from the analog audio input terminal can be supplied to a volume circuit or the like.

[When slide switch 2 selects coaxial digital audio input terminal]
As shown in FIG. 2C, the switch bodies 21 and 22 of the slide switch 2 are located on the right side. Since the switch body 21 conducts the terminal h and the terminal j, the digital audio signal from the coaxial digital audio input terminal is supplied to the digital audio input terminal RX of the DIR3. The DIR3 converts the digital audio signal supplied to the digital audio input terminal RX into an I2S digital audio signal, and supplies it to the DAC4. Further, since the input terminal of the reset IC 6 is not connected to the 3.3V power supply voltage line and a high level signal is not supplied, a low level signal (reset control signal) is not supplied to the reset terminal of DIR3. Therefore, DIR3 does not execute the reset operation. The DAC 4 converts the I2S digital audio signal into an analog audio signal and supplies the analog audio signal to the relay switch 5. Since the transistor Q2 is in a state where the base is not connected to the 3.3V power supply voltage line and is connected to the ground potential via the resistor R3, the transistor Q2 is in an off state and no current flows through the coil L. Therefore, the switches SW1 and SW2 of the relay switch 5 select the DAC4 side. Therefore, the digital audio signal from the optical digital audio input terminal can be converted into an analog audio signal and supplied to a volume circuit or the like.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to these embodiment. When the slide switch has four selection states, for example, the first digital audio input terminal, the first analog audio input terminal, the second analog audio input terminal, and the second digital audio input terminal are selected in order from the left. Good. When the slide switch has five selection states, for example, in order from the left, a first digital audio input terminal, a first analog audio input terminal, a second digital audio input terminal, a second analog audio input terminal, and a third digital audio It is good to select in order of input terminals. The conversion means is not limited to the one that converts to an I2S digital audio signal, and may be one that converts to another standard such as SPDIF.

  The present invention can be suitably employed for an amplifier or a speaker with a built-in amplifier.

1 Reset device 2 Slide switch 3 DIR
4 DAC
5 Relay switch 6 Reset IC

Claims (2)

A first digital audio input terminal, a second digital audio input terminal, an analog audio input terminal,
One of the first digital audio input terminal, the second digital audio input terminal, and the analog audio input terminal is selected, and the selection state is the first digital audio input terminal or the analog audio input. A terminal, a second digital audio input terminal, and a slide switch that is switched in the reverse order;
When the slide switch selects the first digital audio input terminal or the second digital audio input terminal, the slide switch is switched from the first digital audio input terminal or the second digital audio input terminal. Converting means for converting a digital audio signal supplied via a predetermined standard digital audio signal;
When the slide switch selects the first digital audio input terminal or the second digital audio input terminal, the slide switch selects to output the audio signal from the conversion means to the subsequent stage, and the slide switch A second switch for selecting to output the analog audio signal from the analog audio input terminal to the subsequent stage when the analog audio input terminal is selected,
When the slide switch selects the first digital audio input terminal or the second digital audio input terminal, the reset terminal of the conversion means is not connected to the first level potential via the slide switch. Thus, the conversion means does not execute the reset operation,
When the slide switch selects the analog audio input terminal, the conversion means performs a reset operation by connecting the reset terminal of the conversion means to the first level potential via the slide switch. A selector device. A reset control signal generating means for supplying a reset control signal for resetting the converting means to the converting means;
When the slide switch selects the first digital audio input terminal or the second digital audio input terminal, the reset control signal generating means is connected to the first level potential via the slide switch. By not allowing the reset control signal generation means to supply a reset control signal to the conversion means, the conversion means does not perform a reset operation,
When the slide switch selects the analog audio input terminal, the reset control signal generating means is reset by connecting the reset control signal generating means to the first level potential via the slide switch. The selector device according to claim 1, wherein a control signal is continuously supplied to the conversion unit for a predetermined time, and the conversion unit executes a reset operation.

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