JP7209320B2 - audio equipment - Google Patents

Description

The present disclosure relates to an audio device including a power supply device that converts AC voltage into DC voltage and outputs the same.

Patent Literature 1 discloses a switching power supply device (see FIG. 3 of Patent Literature 1). This power supply includes a rectifier circuit that rectifies an AC voltage that is input, a modulation circuit that modulates the voltage that is output from the rectifier circuit, a transformer that transmits the voltage that is output from the modulation circuit, and a voltage that is output from the transformer. and a smoothing circuit for smoothing the Further, the power supply device of Patent Document 1 includes a voltage detection circuit that detects overvoltage in the power supply device. In this power supply, when an overvoltage is detected, voltage output from the modulation circuit to the transformer is stopped to protect each circuit of the power supply and the load connected to the power supply.

JP-A-10-309078

The present disclosure provides an audio device that includes a power supply device that detects the presence or absence of an AC voltage input and outputs a signal to the outside.

An audio device according to the present disclosure includes an input terminal to which an AC voltage is input, a first rectifier circuit that rectifies and outputs the AC voltage input to the input terminal, and a voltage output from the first rectifier circuit. A modulation circuit that modulates and outputs a voltage, a transformer that transmits the voltage output from the modulation circuit, a smoothing circuit that smoothes the voltage output from the transformer, and an output of the voltage smoothed by the smoothing circuit. a power supply output terminal, a detection circuit for detecting the presence or absence of input of the AC voltage on the primary side of the transformer, a signal output terminal for receiving and outputting a signal regarding the presence or absence of the input of the AC voltage from the detection circuit, and a power supply device that receives the voltage output from the power supply output terminal, receives the signal output from the signal output terminal, and transmits the signal to the speaker based on the signal received by wireless communication with the external communication terminal a communication audio control circuit for outputting sound , wherein the detection circuit detects whether or not the AC voltage generated by turning on/off of a switch connected to the input terminal is input, and the communication audio control circuit detects the number of times the switch has been turned on and off continuously at intervals within a predetermined time, and performs different actions depending on the number of times, and the different actions include a first action and a second action. , the first operation is a connection operation for the communication audio control circuit to perform wireless communication with the external communication terminal, and the second operation is an operation different from the first operation.

The audio device of the present disclosure is effective in performing wireless communication connection operation based on a signal regarding the presence or absence of an AC voltage input.

1 is a schematic diagram showing an audio device according to an embodiment; FIG. 1 is a block configuration diagram showing an audio device provided with a power supply device according to an embodiment; FIG. 1 is a circuit configuration diagram of a power supply device according to an embodiment; FIG.

(Embodiment)
Audio device 9 according to the present embodiment is, for example, an audio device including a lighting fixture such as a downlight. The lighting device is not limited to a downlight, and may be a ceiling light or the like.

FIG. 1 is a schematic diagram showing an audio device 9 of this embodiment. FIG. 2 is a block configuration diagram showing an audio device 9 including the power supply device 1 of this embodiment. Note that FIG. 1 shows an audio system including not only the audio device 9 but also the audio device 9 , the switch 3 and the external communication terminal 5 .

As shown in FIG. 1, the audio device 9 includes a housing 8 having an opening 8a, a speaker 42 for emitting sound, and a light emitting section 62 for emitting light. The housing 8 is installed, for example, on a ceiling, which is an example of construction materials. The light-emitting part 62 is a light-emitting module having, for example, an LED (Light Emitting Diode), and is provided in the opening 8a of the housing 8 . The speaker 42 is provided inside the housing 8 , and more specifically, is arranged on the side opposite to the light emitting side of the light emitting section 62 . The housing 8 is made of, for example, a resin material such as polybutylene terephthalate resin.

The audio device 9 also includes an audio circuit A<b>1 connected to the speaker 42 and an illumination circuit L<b>1 connected to the light emitting unit 62 . Each of the audio circuit A1 and the lighting circuit L1 is provided in a box-shaped housing. The audio circuit A1 has an audio power supply 1, and the lighting circuit L1 has a lighting power supply 50 (see FIG. 2). The audio circuit A1 and the lighting circuit L1 are connected via wires to the switch 3 installed on the wall. The switch 3 is of, for example, a single throw type, and is shared by the audio circuit A1 and the lighting circuit L1.

The audio circuit A1 can communicate with an external communication terminal 5 such as a smart phone or a tablet terminal through wireless communication r1. The wireless communication r1 is, for example, short-range wireless communication such as Bluetooth (registered trademark). The audio circuit A1 receives a digital signal such as music data from the external communication terminal 5, converts the received signal into an analog signal, and outputs the analog signal to the speaker . The wireless communication r1 is not limited to Bluetooth (registered trademark), and may be WiFi (registered trademark) or ZigBee (registered trademark).

In this audio device 9, there are cases where it is desired to switch the external communication terminal 5 that is performing wireless communication r1 to another external communication terminal, that is, to switch the pairing partner (connection partner) and play music different from the music currently being played. be. In that case, for example, by turning the switch 3 on and off, more specifically, by cutting off the power supply to the audio device 9 and then supplying it again, the pairing partner can be reset. It becomes possible. For example, in the audio device 9 including lighting equipment, by switching the switch 3 on and off in a short time, the external communication terminal 5 for wireless communication r1 can be switched to play music transmitted from another external communication terminal. It is possible.

However, the power supply device 1 of the audio circuit A1 has a smoothing circuit including a capacitor, and if the switching operation time of the switch 3 is too short (for example, 30 ms or more and 100 ms or less), the power supply is interrupted. becomes difficult to detect. Therefore, it may not be possible to reset the pairing partner in the audio device 9 by turning the switch 3 on and off for a short period of time.

The power supply device 1 of the present embodiment has a configuration capable of detecting the presence or absence of an AC voltage input and outputting a signal to the outside. This enables connection operations such as re-setting of pairing in the audio device 9 .

Hereinafter, embodiments of the power supply device 1 and the audio device 9 will be described in detail with reference to the drawings as appropriate. However, more detailed description than necessary may be omitted. For example, detailed descriptions of well-known matters and redundant descriptions of substantially the same configurations may be omitted. This is to avoid unnecessary verbosity in the following description and to facilitate understanding by those skilled in the art.

It should be noted that the accompanying drawings and the following description are provided for a full understanding of the present disclosure by those skilled in the art and are not intended to limit the claimed subject matter.

[1. Configuration of Audio Device]
Next, the configuration of the audio device 9 will be described with reference to FIG. As described above, the audio device 9 includes the audio circuit A1 and the speaker . The audio device 9 also has an illumination function, and includes an illumination circuit L1 and a light emitting section 62 .

The audio circuit A1 includes an audio power supply 1 and a communication audio control circuit 41 connected to the power supply 1 . A speaker 42 is connected to the communication audio control circuit 41 .

The power supply device 1 is connected to a switch 3 provided outside. By turning the switch 3 on and off, the presence or absence of the commercial AC voltage input to the power supply device 1 is switched. The power supply device 1 converts the input AC voltage into a DC voltage and outputs the DC voltage to the communication audio control circuit 41 .

Communication audio control circuit 41 includes, for example, a Bluetooth® audio module. The communication audio control circuit 41 receives the voltage output from the power supply output terminals t21 and t22 of the power supply device 1, and causes the speaker 42 to output sound based on the signal received by the wireless communication r1 with the external communication terminal 5. circuit.

Further, the communication audio control circuit 41 receives signals regarding the presence/absence of AC voltage input output from the signal output terminals t31 and t32 of the power supply device 1, and performs a predetermined operation. Specifically, the communication audio control circuit 41 performs the connection operation of the wireless communication r1 with the external communication terminal 5 when receiving the switching signal regarding the presence or absence of the AC voltage input via the signal output terminals t31 and t32.

Here, the switching signal regarding the presence or absence of input of AC voltage is a signal indicating that the AC voltage has changed from no input to input. The connection operation is pairing performed between the external communication terminal 5 and the communication audio control circuit 41 . Note that pairing is mutual storage of identification information and the like of communication partners. By pairing the external communication terminal 5 and the communication audio control circuit 41, the communication audio control circuit 41 can receive the digital signal transmitted from the external communication terminal 5 and process the received digital signal. .

The lighting circuit L1 includes a lighting power supply 50 and a lighting control circuit 61 connected to the lighting power supply 50 . A lighting power supply 50 is connected to the switch 3 . The switch 3 is shared as a switch for turning on and off both the power supply device 1 for audio and the power supply device 50 for lighting at the same time.

The lighting power supply device 50 converts an AC voltage into a DC voltage and outputs the DC voltage to the lighting control circuit 61 . The lighting control circuit 61 controls light emission of the light emitting section 62 . Specifically, the lighting control circuit 61 controls the pulse width or voltage of the voltage output to the light emitting section 62 to control the light emission of the light emitting section 62 . Note that the light emitting unit 62 is not limited to a light emitting module having an LED, and may be an incandescent lamp or a fluorescent lamp.

[2. Power Supply Configuration]
Next, the power supply device 1 for audio will be described with reference to FIG. FIG. 3 is a circuit configuration diagram of the power supply device 1. As shown in FIG.

The power supply device 1 is a device that converts an input AC voltage into a DC voltage and outputs the DC voltage. The power supply device 1 includes a power supply circuit 20 including a first rectifier circuit 21 , a modulation circuit 22 , a transformer 23 and a smoothing circuit 24 , and a detection circuit 30 . The power supply device 1 also includes input terminals t11 and t12, power output terminals t21 and t22, and signal output terminals t31 and t32.

The input terminals t11 and t12 are terminals to which a commercial AC voltage (for example, AC100V) is input. One input terminal t11 is connected via the switch 3 to an AC voltage source, and the other input terminal t12 is connected to the AC voltage source.

Branch points 12 and 13 for branching the input AC voltage are provided on the primary side wiring path 11 connecting the input terminals t11 and t12 and the primary side of the transformer 23 . The AC voltage branched at the branch point 12 is input to the lighting circuit L1, and the AC voltage branched at the branch point 13 is input to the detection circuit 30 .

The first rectifier circuit 21 is a circuit that rectifies and outputs the AC voltage input to the input terminals t11 and t12. The first rectifier circuit 21 is provided on the wiring route between the branch point 13 and the transformer 23 in the primary wiring route 11 . The first rectifier circuit 21 is, for example, a full-wave rectifier circuit configured by a diode bridge.

A capacitor c<b>1 is provided between the first rectifier circuit 21 and the transformer 23 in the primary wiring path 11 . The capacitor c<b>1 smoothes the pulsating voltage output from the first rectifier circuit 21 .

The modulation circuit 22 is a circuit that PWM (Pulse Width Modulation) modulates the voltage output from the first rectifier circuit 21 and smoothed by the capacitor c1, and outputs the modulated voltage. The modulation circuit 22 is a circuit that switches the switching element Tr1 at high speed (repeatedly turns on and off). The switching element Tr1 is, for example, a field effect transistor.

Transformer 23 is a transformer having a primary winding and a secondary winding. The transformer 23 transmits the voltage output from the modulation circuit 22 and input to the primary winding to the secondary winding in an electrically insulated state.

The smoothing circuit 24 is a circuit that smoothes the voltage output from the transformer 23 . The smoothing circuit 24 is provided on the secondary side wiring path 16 connecting the secondary side of the transformer 23 and the power output terminals t21 and t22. The voltage output from the transformer 23 is rectified by the diode d1 and smoothed by the capacitor c2. The capacitor c2 is, for example, an electrolytic capacitor, has a larger capacity than the capacitor c1, and is a capacitor that is difficult to finish discharging in a short period of time.

The power supply output terminals t21 and t22 are terminals for outputting the voltage smoothed by the smoothing circuit 24 . A DC voltage (power supply voltage) of 12 V, for example, is output from the power supply output terminals t21 and t22. The DC voltage output from the power supply output terminals t21 and t22 is input to the communication audio control circuit 41. FIG.

A monitor circuit 25 for detecting the voltage of the secondary side wiring path 16 is provided on the wiring path between the smoothing circuit 24 and the power supply output terminals t21 and t22. A voltage detected by the monitor circuit 25 is fed back to the modulation circuit 22 via the photocoupler 26 . The switching of the switching element Tr1 is controlled by the modulation circuit 22 so that the voltage detected by the monitor circuit 25 is constant. When the voltage detected by the monitor circuit 25 is fed back, the photocoupler 26 outputs the detected voltage to the modulation circuit 22 in an electrically isolated state.

The detection circuit 30 is a circuit that detects the presence or absence of an AC voltage input on the primary side of the transformer 23 . Specifically, the detection circuit 30 detects the presence or absence of an AC voltage that is generated when the switch 3 connected to the input terminal t11 is turned on and off.

The detection circuit 30 is arranged on the branch wiring path 14 that connects the branch point 13 on the primary side wiring path 11 and the signal output terminals t31 and t32. The branch point 13 is provided on a wiring path connecting the input terminals t11 and t12 and the first rectifier circuit 21 in the primary side wiring path 11 .

The detection circuit 30 detects a second rectifier circuit 32 that rectifies and outputs an AC voltage that is input from the input terminals t11 and t12 via the branch point 13, and that the supply of the voltage output from the second rectifier circuit 32 is interrupted. It has a photocoupler 33 that A second rectifier circuit 32 is connected to the branch point 13 . The photocoupler 33 is arranged on the wiring path between the second rectifier circuit 32 and the signal output terminals t31 and t32 in the branch wiring path 14 . The photocoupler 33 outputs a signal regarding the presence or absence of an AC voltage input to the signal output terminals t31 and t32 in an electrically insulated state. In this embodiment, no smoothing circuit is provided on the branch wiring path 14 .

The signal output terminals t31 and t32 are terminals for receiving and outputting from the detection circuit 30 a signal regarding the presence or absence of the AC voltage detected by the detection circuit 30 . Signal output terminals t31 and t32 output a voltage (for example, 3 V) lower than the voltage output from power supply output terminals t21 and t22. The signal output terminals t31 and t32 and the power output terminals t21 and t22 described above are connected to the connector of the communication audio control circuit 41 via the same connector.

In this manner, the power supply device 1 detects the presence or absence of an AC voltage input on the primary side of the transformer 23 by the detection circuit 30, and outputs signals regarding the presence or absence of the detected AC voltage via the signal output terminals t31 and t32 for communication audio control. It has a circuit configuration for transmitting to the circuit 41 . Therefore, even if it is difficult to detect the presence or absence of the voltage output on the secondary side of the transformer 23, the detection circuit 30 and the signal output terminals t31 and t32 are used to transmit signals regarding the presence or absence of the voltage input. It can be transmitted to the control circuit 41 . As a result, for example, the connection operation (pairing) between the audio device 9 and the external communication terminal 5 can be triggered.

When the communication audio control circuit 41 receives a signal regarding the presence or absence of voltage input via the signal output terminals t31 and t32, it uses wireless communication r1 to search for an external device that can be paired with itself. The audio device 9 is paired with the device when the found device requests pairing.

[3. effects, etc.]
As described above, the power supply device 1 according to the present embodiment includes the input terminals t11 and t12 to which the AC voltage is input, and the first rectifier circuit that rectifies and outputs the AC voltage that is input to the input terminals t11 and t12. 21, a modulation circuit 22 that modulates and outputs the voltage output from the first rectifier circuit 21, a transformer 23 that transmits the voltage output from the modulation circuit 22, and a voltage output from the transformer 23 that is smoothed. A smoothing circuit 24, power supply output terminals t21 and t22 for outputting the voltage smoothed by the smoothing circuit 24, a detection circuit 30 for detecting the presence or absence of an AC voltage input on the primary side of the transformer 23, and a detection circuit 30. and signal output terminals t31 and t32 for receiving and outputting signals relating to the presence or absence of an AC voltage input from.

According to this, the detection circuit 30 detects the presence or absence of an AC voltage input to the primary side of the transformer 23, and transmits a signal indicating the presence or absence of the detected AC voltage to an external device via the signal output terminals t31 and t32. be able to. Therefore, even if it is difficult for an external device to detect the presence or absence of a voltage output on the secondary side of the transformer 23, a signal regarding the presence or absence of a voltage input can be transmitted to the external device.

Further, the detection circuit 30 of the power supply device 1 includes a branch wiring connecting the branch point 13 on the primary side wiring path 11 connecting the input terminals t11 and t12 and the primary side of the transformer 23 and the signal output terminals t31 and t32. It may be arranged on the path 14 .

According to this, the detection circuit 30 on the branch wiring path 14 branched from the primary side wiring path 11 can stably detect the presence or absence of the AC voltage input. As a result, it is possible to transmit a signal regarding the presence or absence of voltage input to an external device.

The branch point 13 is provided on the wiring path between the input terminals t11 and t12 of the primary side wiring path 11 and the first rectifier circuit 21, and the detection circuit 30 is connected to the input terminals t11 and t12. A second rectifier circuit 32 that rectifies and outputs an AC voltage that is input, and a photocoupler 33 that detects supply cutoff of the voltage output from the second rectifier circuit 32 may be provided.

In this way, the detection circuit 30 having the photocoupler 33 can output the signal regarding the interruption of the voltage supply to the signal output terminals t31 and t32 in a state insulated from the input voltage, that is, in a safe state. As a result, it is possible to transmit a signal regarding the presence or absence of voltage input to an external device.

In the power supply device 1, the primary side and the secondary side are insulated by the transformer 23, the monitor circuit 25 and the modulation circuit 22 are insulated by the photocoupler 26, and the photocoupler 33 performs the second rectification. It has a circuit configuration in which the circuit 32 and the signal output terminals t31 and t32 are insulated. As a result, the power output terminals t21 and t22 and the signal output terminals t31 and t32 are insulated from the AC voltage source, and the communication audio control circuit 41 and the speaker 42 can be protected.

The audio device 9 according to the present embodiment receives voltage output from the power supply device 1 and power output terminals t21 and t22, receives signals output from signal output terminals t31 and t32, and receives external signals. and a communication audio control circuit 41 for outputting sound to the speaker 42 based on the signal received by the wireless communication r1 with the communication terminal 5. The communication audio control circuit 41 outputs an AC voltage through the signal output terminals t31 and t32. When the switching signal regarding the presence or absence of input is received, the connection operation of the wireless communication r1 with the external communication terminal 5 is performed.

According to this, the communication audio control circuit 41 can acquire the signal regarding the presence or absence of the AC voltage detected by the power supply device 1 via the signal output terminals t31 and t32. Therefore, even if it is difficult to detect the presence or absence of the voltage output on the secondary side of the transformer 23, the signal regarding the presence or absence of the voltage input on the primary side is acquired, and the connection with the external communication terminal 5 is performed. Action can be performed.

Further, the communication audio control circuit 41 may perform the connection operation when receiving a switching signal from no input to with input as the switching signal.

According to this, the communication audio control circuit 41 can acquire the switching signal from no input to input presence via the signal output terminals t31 and t32. Therefore, even if it is difficult to detect the presence or absence of the voltage output on the secondary side of the transformer 23, the signal regarding the presence or absence of the voltage input on the primary side is acquired, and the connection operation with the external communication terminal 5 is performed. It can be performed.

The communication audio control circuit 41 may perform an operation for pairing with the external communication terminal 5 as the connection operation.

According to this, the pairing between the audio device 9 and the external communication terminal 5 can be easily switched.

Further, the detection circuit 30 may detect the presence or absence of an AC voltage input that is generated when the switch 3 connected to the input terminals t11 and t12 is turned on and off.

According to this, switching of the connection operation between the audio device 9 and the external communication terminal 5 can be performed by turning the switch 3 on and off.

Further, the audio device 9 is further connected to a lighting power supply 50 to which AC voltage is input via input terminals t11 and t12, a lighting control circuit 61 connected to the lighting power supply 50, and a lighting control circuit 61. and a light-emitting portion 62 to be provided.

According to this, it is possible to provide the audio device 9 having an illumination function.

Also, the switch 3 connected to the input terminals t11 and t12 may be shared with a switch for turning on and off the power supply device 50 for lighting.

According to this, the number of switches 3 can be reduced and the operation of the audio device 9 can be simplified.

(Other embodiments)
As described above, the embodiment has been described as an example of the technique of the present disclosure. To that end, the accompanying drawings and detailed description have been provided.

Therefore, among the components described in the attached drawings and detailed description, there are not only components essential for solving the problem, but also components not essential for solving the problem in order to illustrate the above technology. can also be included. Therefore, it should not be immediately recognized that those non-essential components are essential just because they are described in the attached drawings and detailed description.

In addition, the above-described embodiments are intended to illustrate the technology of the present disclosure, and various modifications, replacements, additions, omissions, etc. can be made within the scope of the claims or equivalents thereof.

For example, the commercial AC voltage is not limited to AC100V, and may be AC200V. The DC voltage output from the power supply device 1 is not limited to 12V, and may be 24V or 5V.

For example, a filter circuit for removing common mode noise may be provided between the input terminals t11 and t12 and the branch point 13. FIG.

For example, the switch 3 may not necessarily be shared by the audio power supply 1 and the lighting power supply 50, and the power supply 1 and the lighting power supply 50 may be connected to different switches. good. Further, the audio device 9 may be caused to perform different operations depending on the number of times the switch 3 is turned on and off.

More specifically, it detects the number of times (the number of times a switching signal regarding the presence or absence of AC voltage input) has been continuously performed within a predetermined period of time (for example, within 300 msec), and operates differently depending on the number of times. You may let For example, if the number of interruptions is 1, the wireless communication r1 connection operation with the external communication terminal 5 is performed, and if the number of interruptions is 3, the characteristics of the amplifier included in the communication audio control circuit 41 are switched. You may make it operate|move.

The present disclosure is applicable to, for example, power supply devices used in audio devices and the like.

1 power supply device 3 switch 5 external communication terminal 8 housing 8a opening 9 audio device 11 primary side wiring path 12, 13 branch point 14 branch wiring path 16 secondary side wiring path 20 power supply circuit 21 first rectifier circuit 22 modulation circuit 23 transformer 24 smoothing circuit 25 monitor circuit 26 photocoupler 30 detection circuit 32 second rectifier circuit 33 photocoupler 41 communication audio control circuit 42 speaker 50 lighting power supply 61 lighting control circuit 62 light emitting unit A1 audio circuit c1, c2 capacitor d1 Diode L1 Lighting circuit r1 Wireless communication Tr1 Switching element t11, t12 Input terminals t21, t22 Power supply output terminals t31, t32 Signal output terminals

Claims (6)

an input terminal to which an alternating voltage is input;
a first rectifier circuit that rectifies and outputs the AC voltage input to the input terminal;
a modulation circuit that modulates and outputs the voltage output from the first rectifier circuit;
a transformer that transmits the voltage output from the modulation circuit;
a smoothing circuit for smoothing the voltage output from the transformer;
a power supply output terminal for outputting a voltage smoothed by the smoothing circuit;
a detection circuit for detecting whether or not the AC voltage is input on the primary side of the transformer;
a power supply device comprising: a signal output terminal for receiving and outputting a signal regarding whether or not the AC voltage is input from the detection circuit;
A communication audio that receives the voltage output from the power supply output terminal, receives the signal output from the signal output terminal, and causes a speaker to output sound based on the signal received by wireless communication with an external communication terminal. a control circuit;
with
The detection circuit detects whether or not the AC voltage is input when a switch connected to the input terminal is turned on and off,
The communication audio control circuit detects the number of times the switch has been turned on and off continuously within a predetermined time interval, and performs different operations depending on the number of times ,
the different actions include a first action and a second action;
the first operation is a connection operation for the communication audio control circuit to perform wireless communication with the external communication terminal;
The second operation is an operation different from the first operation
audio device. 2. The detection circuit according to claim 1, wherein the detection circuit is arranged on a branch wiring path that connects the signal output terminal and a branch point on a primary side wiring path that connects the input terminal and the primary side of the transformer. audio equipment. The branch point is provided on a wiring path between the input terminal and the first rectifier circuit in the primary wiring path,
The detection circuit includes a second rectifier circuit that rectifies and outputs the AC voltage input to the input terminal, and a photocoupler that detects supply cutoff of the voltage output from the second rectifier circuit. 3. Audio device according to claim 2. The audio device according to any one of claims 1 to 3, wherein the communication audio control circuit performs an operation for pairing with the external communication terminal as the connection operation. moreover,
a lighting power supply to which the AC voltage is input through the input terminal;
a lighting control circuit connected to the lighting power supply;
The audio device according to any one of claims 1 to 4, further comprising: a light emitting unit connected to the lighting control circuit. 6. The audio device according to claim 5, wherein the switch connected to the input terminal is shared with a switch for turning on and off the lighting power supply device.

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