WO2018058987A1 - Networked musical light source and system thereof - Google Patents

Abstract

The present invention discloses a networked musical light source and a system thereof. The networked musical light source comprises: a frequency-modulation transmitting circuit; a first amplifier circuit, electrically connected to the frequency-modulation transmitting circuit; an audio output circuit, electrically connected to the frequency-modulation transmitting circuit and the first amplifier circuit; a wireless audio device, electrically connected to the audio output circuit; a first wireless lighting device; a first lighting drive circuit, electrically connected to the first wireless lighting device; and a first lightboard circuit, electrically connected to the first lighting drive circuit. The present invention achieves effective networked functionality among multiple musical light sources by means of wireless control technology and frequency modulation, enhancing home living and diversifying smart home control functions.

Description

Network music light source and system thereof Technical field

The invention relates to the technical field of networking music light sources, in particular to a networking music light source and a system thereof.

Background technique

With the popularity of music light source technology, more and more music light sources have entered people's lives. At present, the technology of remotely controlling the music source through the smart home is relatively mature, but the remote control technology has weak anti-interference ability, inconvenient networking, and high reliability. Moreover, in the prior art, it is difficult to implement a networking function between a plurality of music light sources.

technical problem

The object of the present invention is to provide a network music light source and a system thereof, which solves the problem that the remote control technology has weak anti-interference ability, is inconvenient in networking, has high reliability, and is difficult to realize networking functions between multiple music light sources. problem.

Problem solution

Technical solution

The technical solution of the present invention is implemented as follows:

The invention provides a network music light source, comprising:

Frequency modulation transmitting circuit;

a first power amplifier circuit electrically connected to the frequency modulation transmitting circuit;

An audio output circuit electrically connected to the FM transmitting circuit and the first power amplifier circuit;

An audio wireless device electrically connected to the audio output circuit;

First lighting wireless device;

a first illumination driving circuit electrically connected to the first illumination wireless device;

The first light board circuit is electrically connected to the first illumination driving circuit.

In the network music source of the present invention, the FM transmission circuit includes:

a transmitting sub-circuit electrically connected to the first power amplifier circuit and the audio output circuit; the transmitting sub-circuit comprising a transmitting antenna and a first processor electrically connected to the transmitting antenna;

a frequency setting sub-circuit electrically connected to the transmitting sub-circuit; the frequency setting sub-circuit includes a second processor electrically connected to the first processor and electrically connected to the second processor Frequency switch assembly.

In the networking music source of the present invention, the first power amplifier circuit comprises:

a power amplifier processor electrically connected to the FM transmitting circuit and the audio output circuit;

The sound is electrically connected to the power amplifier processor.

In the network music light source of the present invention, the audio output circuit includes an audio socket; the audio socket includes a transmit jack, a receive jack, a mute jack, a left channel jack, and a right channel jack; the left channel The socket and the right channel socket are electrically connected to the first power amplifier circuit and the frequency modulation transmitting circuit.

In the networking music source of the present invention, the audio wireless device includes an audio housing, a transmitting interface, a receiving interface, a mute interface, a left channel interface, a right channel interface, and a wireless audio antenna; wherein the transmitting The interface, the left channel interface and the right channel interface are disposed on the surface of the audio housing, and the receiving interface, the mute interface and the wireless audio antenna are disposed inside the audio housing; the transmitting interface is connected to the transmitting socket, The receiving interface is connected to a receiving jack, the mute interface is connected to the mute jack, the left channel interface is connected to the left channel jack, and the right channel interface is connected to the right channel jack.

In the networking music source of the present invention, the first light board circuit comprises a warm color LED light group, a cool color LED light group, an R light group, a G light group, a B light group and a light board plug end;

The lamp board insertion end comprises a warm color lamp end, a cool color lamp end, an R lamp end, a G lamp end, a B lamp end and a power end, wherein the warm color lamp end is connected to one end of the warm color LED lamp set, a cold light end connected to one end of the cool LED light set, the R light end being connected to the R light set, the G light end being connected to the G light set, the B light end being connected to the The B lamp group is connected to the warm LED lamp group, the cool LED lamp group, the R lamp group, the G lamp group, and the other end of the B lamp group.

In the networking music source of the present invention, the first lighting wireless device includes an illumination housing, a warm color light interface, a cool color light interface, an R light interface, a G light interface, a B light interface, and a wireless illumination antenna; The warm light interface, the cold light interface, the R light interface, the G light interface, the B light interface, and the wireless lighting antenna are all disposed inside the lighting housing.

In the networking music source of the present invention, the first illumination driving circuit comprises:

The illuminating plug end includes a port corresponding to the warm color lamp end, the cold color lamp end, the R lamp end, the G lamp end, the B lamp end and the power end one-to-one;

a first MOS tube connected to the warm color lamp end through the illumination plug end;

a second MOS tube connected to the cold color lamp end through the illumination plug end;

a third MOS tube connected to the R lamp end through the illumination plug end;

a fourth MOS tube connected to the G lamp end through the illumination plug end;

a fifth MOS tube connected to the B lamp end through the illumination plug end;

The wireless plug-in end includes a port corresponding to the warm color light interface, the cold light light interface, the R light interface, the G light interface, and the B light interface, and the first MOS tube is connected to the ground through the wireless plug end a warm color light interface, the second MOS tube is connected to the cold light connector through the wireless plug end, and the third MOS tube is connected to the R light interface through the wireless plug end, the first A fourth MOS transistor is connected to the G lamp interface through the wireless plug end, and the fifth MOS transistor is connected to the B lamp interface through the wireless plug end.

In the networking music source of the present invention, the power circuit is further included; the power circuit includes:

An AC input for accessing an alternating current;

An AC-DC step-down circuit electrically connected to the AC input terminal;

a first DC voltage stabilizing circuit, wherein an input end thereof is electrically connected to the AC-DC step-down circuit, and an output end thereof is electrically connected to the FM transmitting circuit and the first lighting wireless device to output a first DC voltage ;

The second DC voltage stabilizing circuit has an input end electrically connected to the AC-DC step-down circuit, and an output end electrically connected to the first power amplifier circuit and the audio wireless device to output a second DC voltage.

In another aspect, a network music light source system is provided, including:

a network music source as described above;

One or more sub-music light sources; each of the sub-music light sources includes: an FM radio circuit, a second power amplifier circuit, a second illumination wireless device, a second illumination driving circuit, and a second light board circuit; wherein the FM radio circuit Connected to the FM transmitting circuit by frequency modulation, the second power amplifier circuit is electrically connected to the FM radio circuit, and the second lighting wireless device is connected to the first lighting wireless device by wireless communication, the second An illumination driving circuit is electrically connected to the second illumination wireless device, The two lamp circuit is electrically connected to the second illumination driving circuit.

In the network music light source system of the present invention, the FM radio circuit includes:

Receive antenna;

a radio processor electrically connected to the second power amplifier circuit and the receiving antenna;

The frequency selective potentiometer is electrically connected to the radio processor.

Advantageous effects of the invention

Beneficial effect

Therefore, the beneficial effects of the present invention are that the networking function between the plurality of music light sources is realized by the wireless control technology and the frequency modulation, thereby improving the life experience of the people and diversifying the smart home control functions.

Brief description of the drawing

DRAWINGS

The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

1 is a block diagram of a block music light source provided by the present invention;

2 is a schematic structural diagram of a circuit for implementing a music networking in a network music light source according to an embodiment of the present invention;

3 is a schematic structural diagram of a power supply circuit according to an embodiment of the present invention;

4 is a schematic structural diagram of a circuit for implementing a lighting networking in a network music light source according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a network music light source system according to the present invention; FIG.

FIG. 6 is a schematic structural diagram of a circuit for implementing a music networking in a sub-music light source according to an embodiment of the present invention; FIG.

FIG. 7 is a schematic structural diagram of a circuit for implementing a lighting networking in a sub-music light source according to an embodiment of the present invention.

Invention embodiment

Embodiments of the invention

In order to more clearly understand the technical features, objects and effects of the present invention, the embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be understood that the following description is only illustrative of the embodiments of the invention, and is not intended to limit the scope of the invention.

The invention provides a networking music light source and a system thereof, the purpose of which is to adopt wireless control technology and adjust The frequency realizes the networking function between multiple music light sources, improves people's life experience, and makes the smart home control functions diversified.

Referring to FIG. 1 , FIG. 1 is a block diagram of a block music light source provided by the present invention. The set music light source 100 includes an FM transmitting circuit 1 , a first power amplifier circuit 2 , an audio output circuit 3 , an audio wireless device 4 , and a power supply. The circuit 5, the first illumination wireless device 6, the first illumination driving circuit 7, and the first light board circuit 8.

Referring to FIG. 2, FIG. 2 is a schematic diagram of a circuit structure for implementing a music networking in a network music source according to an embodiment of the present invention. In the figure, the FM transmission circuit 1 includes a transmission sub-circuit 11 and a frequency setting sub-circuit 12. The transmitting sub-circuit 11 is electrically connected to the first power amplifier circuit 2 and the audio output circuit 3; the frequency setting sub-circuit 12 is electrically connected to the transmitting sub-circuit 11.

The transmitting sub-circuit 11 includes a transmitting antenna 111 and a first processor 112. The transmitting antenna 111 is an RF-ANT in the figure, and its frequency modulation frequency is FM: 87.5-110 MHz. The first processor 112 is electrically connected to the transmitting antenna 111. The first processor 112 is U8 in the figure, and the RF-OUT terminal of U8 is connected to the transmitting antenna 111.

The frequency setting sub-circuit 12 includes a second processor 121 and a frequency switch component 122. The second processor 121 is electrically connected to the first processor 112; the second processor 121 is U9 in the figure, the model is LY-MCU, the PA7 end of the U9 is connected to the SDL end of the U8, and the PA3 end of the U9 is Connected to the SDA end of U8, the PA4 end of U9 is connected to the SW1 end of U8. The frequency switch component 122 is electrically connected to the second processor 121. The frequency switch component 122 includes switches S1 and S2. Referring to the table in the figure, when both S1 and S2 are off, that is, when the values of S1 and S2 are 0, the generated radio frequency signal (ie, RF) is f1, that is, Transmit frequency; when S1 is off (value is 0), S2 is closed (value is 1), the generated RF signal is f2; when S1 is closed (value is 1) and S2 is off (value is 0), The RF signal is f3; when both S1 and S2 are closed, the generated RF signal is f4. U9 can control the transmission signal of the transmitting antenna 111 according to the frequency modulation signal.

The first power amplifier circuit 2 is electrically connected to the frequency modulation transmitting circuit 1; the first power amplifier circuit 2 includes a power amplifier processor 21 and an audio unit 22. The power amplifier processor 21 is U7 in the figure, and is electrically connected to the FM transmitting circuit 1 and the audio output circuit 3, and is specifically connected to the INL and INR terminals of the U8 through the IN+ end thereof; the acoustic circuit 22 is electrically connected to the Referring to the power amplifier processor 21, the audio 22 is SP1 in the figure, which is connected to the OUT+ and OUT- terminals of U7.

The audio output circuit 3 is electrically connected to the FM transmitting circuit 1 and the first power amplifier circuit 2; the audio output circuit 3 includes an audio socket 31 and a DC step-down circuit 32; the audio socket 31 is a BLE2 in the figure. , including the transmit jack TX, the receive jack RX, the mute jack MUTE, the left channel jack LIN, the right sound a power socket of the RIN and the +3.6V; the left channel jack LIN and the right channel RIN jack are electrically connected to the IN+ end of the U7 of the first power amplifier circuit 2 and the FM transmitting circuit 1 IN8 and INR end of U8. The transmit jack TX is connected to the peripheral's transmit function button, the receive jack RX is connected to the peripheral's receive function button, and the mute jack MUTE is connected to the peripheral's mute function button. The DC step-down circuit 32 is used to step down the +5V DC voltage to a +3.6V DC voltage. An input terminal is electrically connected to the second DC voltage stabilizing circuit 54 to access a +5V voltage; an output end of the DC buck circuit 32 is electrically connected to the audio wireless device 4 by the power socket Output +3.6V voltage. Specifically, the DC step-down circuit 32 includes a processor U6. The model number of the U6 is SI6001, and the two terminals are connected to the +5V voltage, and the three terminals output the +3.6V voltage.

An audio wireless device 4 for receiving an audio control signal by wireless is electrically connected to the audio output circuit 3. The audio wireless device 4 may be an audio Bluetooth device, a wifi device or the like, preferably an audio Bluetooth device, receiving an external audio signal through the audio wireless device 4 and forwarding it to the first power amplifier circuit 2 and the FM transmission circuit 1, which includes an audio shell The body 41, the transmitting interface 42, the receiving interface 43, the mute interface 44, the left channel interface 45, the right channel interface 46, and the wireless audio antenna 47; wherein the transmitting interface 42, the left channel interface 45, and the right channel interface 46 is disposed on the surface of the audio housing 41, and the receiving interface 43, the mute interface 44, and the wireless audio antenna 47 are disposed inside the audio housing 41; the transmitting interface 42 is connected to the transmitting socket TX, and the receiving The interface 43 is connected to a receiving jack RX, the muting interface 44 is connected to the mute jack MUTE, the left channel interface 45 is connected to the left channel jack LIN, and the right channel interface 46 is connected to the right Channel jack RIN. In addition, the audio wireless device 4 further includes a wireless signal processor connected to the transmitting interface 42, the receiving interface 43, the mute interface 44, the left channel interface 45, the right channel interface 46, and the wireless audio antenna 47, wirelessly The signal processor is disposed inside the audio housing 41.

Referring to FIG. 3, FIG. 3 is a schematic structural diagram of a power supply circuit 5 according to an embodiment of the present invention. The power supply circuit 5 includes an AC input terminal 51, an AC-DC step-down circuit 52, a first DC voltage regulator circuit 53 and a first embodiment. Two DC voltage regulator circuits 54. The AC input terminal 51 is used to access 100-240V AC power. The AC-DC step-down circuit 52 is electrically connected to the AC input terminal 51; the input end of the first DC voltage regulator circuit 53 is electrically connected to the AC-DC step-down circuit 52, and the output end thereof is electrically connected to The FM transmitting circuit 1 and the first lighting wireless device 6 output a first DC voltage of +5V; the second DC voltage stabilizing circuit 54 is configured to output a second DC voltage, and an input end thereof is electrically connected to the AC-DC a step-down circuit 52, the output end of which is electrically connected to the first power amplifier circuit 2 And the audio wireless device to output a second DC voltage of +3.3V.

Referring to FIG. 4, FIG. 4 is a schematic structural diagram of a circuit for implementing a lighting networking in a network music light source according to an embodiment of the present invention. In the figure, the first light board circuit 8 includes a warm color LED group 81 and a cool LED group. 82. R lamp group 83, G lamp group 84, B lamp group 85, and lamp board insertion end 86 (FFC2).

The lamp board insert end 86 includes a warm color lamp end 861, a cool color lamp end 862, an R lamp end 863, a G lamp end 864, a B lamp end 865, and a power end 866, wherein the warm color lamp end 861 is connected to the warm color. One end of the LED lamp set 81, the cold color lamp end 862 is connected to one end of the cool color LED lamp set 82, the R lamp end 863 is connected to the R lamp set 83, and the G lamp end 864 is connected to the G lamp group 84, the B lamp terminal 865 is connected to the B lamp group 85, and the power terminal 866 is connected to the warm color LED lamp group 81, the cool color LED lamp group 82, the R lamp group 83, The G lamp group 84 and the other end of the B lamp group 85. The power terminal 866 is connected to the +18V voltage, which is connected to the CN01 terminal of FIG. 3 to access the +18V voltage.

The first lighting wireless device 6 includes an illumination housing 61, a warm color light interface 62, a cool color light interface 63, an R light interface 64, a G light interface 65, a B light interface 66, and a wireless illumination antenna 67; wherein the warm light The interface 62, the cool color light interface 63, the R light interface 64, the G light interface 65, the B light interface 66, and the wireless illumination antenna 67 are all disposed on the surface of the illumination housing 61. The processing and drive circuitry of the first illumination wireless device 6 should also include various processing and drive circuitry to support operation of the first illumination wireless device 6. The first lighting wireless device 6 is preferably a lighting Bluetooth device that transmits and/or receives signals via Bluetooth. The first lighting wireless device 6 has three functions, one for receiving an external control signal to drive the first light board circuit. 8 work; the second is to synchronize the control signal to the sub-music light source, so that the sub-music light source of the light board together to illuminate; the third is to connect the audio wireless device, synchronous lighting and music signals. That is, the audio wireless device 4 and the first lighting wireless device 6 are connected by wireless.

The first illumination driving circuit 7 includes an illumination plug end 71 (FFC1), five MOS tubes, and a wireless plug end 77 (BLE1).

The illumination insertion end 71 includes a one-to-one correspondence with the warm color lamp end 861, the cold color lamp end 862, the R lamp end 863, the G lamp end 864, the B lamp end 865, and the power terminal 866. Port

The first MOS transistor 72 (Q4) is connected to the warm color lamp end 861 through the illumination plug terminal 71; that is, the drain of Q4 is connected to the warm color LED lamp group 81, and the gate of Q4 is connected to the warm color lamp interface 62.

a second MOS transistor 73 (Q5) is connected to the cold color lamp end 862 through the illumination plug end 71; that is, Q5 The drain is connected to the cool LED lamp set 82, and the gate of Q5 is connected to the cool color lamp interface 63.

The third MOS transistor 74 (Q3) is connected to the R lamp terminal 863 through the illumination plug terminal 71; that is, the drain of Q3 is connected to the R lamp group 83, and the gate of Q3 is connected to the R lamp interface 64.

The fourth MOS transistor 75 (Q1) is connected to the G lamp terminal 864 through the illumination plug terminal 71; that is, the drain of Q1 is connected to the G lamp group 84, and the gate of Q1 is connected to the G lamp interface 65.

The fifth MOS transistor 76 (Q2) is connected to the B lamp terminal 865 through the illumination plug terminal 71; that is, the drain of Q2 is connected to the B lamp group 85, and the gate of Q2 is connected to the B lamp interface 66.

The wireless plug-in end 77 includes a port corresponding to the warm-light connector 62, the cool-light connector 63, the R-light interface 64, the G-light interface 65, and the B-light interface 66, and the first MOS transistor 72 passes the wireless The plug end 77 is connected to the warm light connector 62, and the second MOS transistor 73 is connected to the cold light connector 63 through the wireless plug end 77, and the third MOS transistor 74 is plugged by the wireless The terminal 77 is connected to the R lamp interface 64, and the fourth MOS transistor 75 is connected to the G lamp interface 65 through the wireless plug terminal 77, and the fifth MOS transistor 76 passes through the wireless plug terminal 77. Connected to the B lamp interface 66.

Referring to FIG. 5, FIG. 5 is a schematic structural diagram of a network music light source system 10 according to the present invention. The network music light source system 10 includes the network music light source 100 as described above and one or more of the frequency modulation and wireless connections. The sub-music light source 200 of the network music light source 100. In this way, the external audio control signal is wirelessly received by the audio wireless device 4 through the networked music source 100 and the external illumination control signal is received by the first illumination wireless device 6, and the audio control signals and the illumination control signals can pass through the preset control terminal. The control terminal can be a mobile terminal such as a mobile phone, and the corresponding APP can be installed in the mobile phone to implement the control function. The audio 22 is controlled by the audio control signal to control the audio 22 of the assembled music source 100, and is transmitted to each sub-music light source 200 through the FM transmitting circuit 1 of the network music source 100. The sub-music light source 200 receives the audio control signal and the network music. The light source 100 is played together; the lighting policy of the first lighting circuit 8 of the network music source 100 is controlled by the lighting control signal, and the lighting policy is synchronized to the sub-light source 200 by the first lighting wireless device 6 to synchronize the sub-light source 200 Glowing.

Referring to FIG. 6, FIG. 6 is a schematic structural diagram of a sub-music light source 200 according to an embodiment of the present invention. Each of the sub-music light sources 200 includes an FM radio circuit 201, a second power amplifier circuit 202, and a second illumination wireless device 203. The second illumination driving circuit 204 and the second light board circuit 205; the FM radio circuit 201 includes a receiving antenna 2011, a radio processor 2012, and a frequency selective potentiometer 2013.

The receiving antenna 2011 is the FM-ANT in the figure. The radio processor 2012 is U10 in the figure, and is electrically connected to the second power amplifier circuit 202 and the receiving antenna 2011. Specifically, the GND5 terminal of the U10, the LDOCAP terminal, the FMIN terminal, and the like are connected to the receiving antenna 2011. The frequency selective potentiometer 2013 is a PVR1 in the figure, which is electrically connected to the VREF-N terminal, the VOL terminal and the VREF-P terminal of the radio processor. The second power amplifier circuit includes a processor U11 and an audio SP2, and the sound SP2 is connected to the OUT+ terminal and the OUT- terminal of the U11.

Referring to FIG. 7, FIG. 7 is a schematic structural diagram of a circuit for implementing a lighting networking in a sub-music light source according to an embodiment of the present invention. In the figure, the second lighting wireless device 203 is connected to the first lighting wireless device by wireless communication. The second illumination driving circuit 204 is electrically connected to the second illumination wireless device 203, and the second light board circuit 205 is electrically connected to the second illumination driving circuit 204. The circuit for realizing the lighting network in the sub-music light source 200 is similar to the circuit for realizing the lighting networking in the network music light source 100, and details are not described herein again.

In the above, the present invention has been disclosed in the above preferred embodiments, but the preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various modifications without departing from the spirit and scope of the invention. The invention is modified and retouched, and the scope of the invention is defined by the scope defined by the claims.

Claims (11)

1. A networking music light source, comprising:

   Frequency modulation transmitting circuit;

   a first power amplifier circuit electrically connected to the frequency modulation transmitting circuit;

   An audio output circuit electrically connected to the FM transmitting circuit and the first power amplifier circuit;

   An audio wireless device electrically connected to the audio output circuit;

   First lighting wireless device;

   a first illumination driving circuit electrically connected to the first illumination wireless device;

   The first light board circuit is electrically connected to the first illumination driving circuit.
2. The network music source according to claim 1, wherein the FM transmission circuit comprises:

   a transmitting sub-circuit electrically connected to the first power amplifier circuit and the audio output circuit; the transmitting sub-circuit comprising a transmitting antenna and a first processor electrically connected to the transmitting antenna;

   a frequency setting sub-circuit electrically connected to the transmitting sub-circuit; the frequency setting sub-circuit includes a second processor electrically connected to the first processor and electrically connected to the second processor Frequency switch assembly.
3. The network music source according to claim 1, wherein the first power amplifier circuit comprises:

   a power amplifier processor electrically connected to the FM transmitting circuit and the audio output circuit;

   The sound is electrically connected to the power amplifier processor.
4. The network music source of claim 1 , wherein the audio output circuit comprises an audio jack; the audio jack comprises a transmit jack, a receive jack, a mute jack, a left channel jack, and a right channel jack; The left channel jack and the right channel jack are electrically connected to the first power amplifier circuit and the frequency modulation transmitting circuit.
5. A network music source according to claim 4, wherein said audio wireless The device includes an audio housing, a transmitting interface, a receiving interface, a mute interface, a left channel interface, a right channel interface, and a wireless audio antenna; wherein the transmitting interface, the left channel interface, and the right channel interface are disposed on the audio a housing surface, a receiving interface, a mute interface and a wireless audio antenna are disposed inside the audio housing; the transmitting interface is connected to the transmitting socket, the receiving interface is connected to the receiving socket, and the silent interface is connected to the The mute jack is connected to the left channel jack, and the right channel interface is connected to the right channel jack.
6. The set music light source according to claim 1, wherein the first light board circuit comprises a warm color LED light group, a cool color LED light group, an R light group, a G light group, a B light group, and a light board plug. end;

   The lamp board insertion end comprises a warm color lamp end, a cool color lamp end, an R lamp end, a G lamp end, a B lamp end and a power end, wherein the warm color lamp end is connected to one end of the warm color LED lamp set, a cold light end connected to one end of the cool LED light set, the R light end being connected to the R light set, the G light end being connected to the G light set, the B light end being connected to the The B lamp group is connected to the warm LED lamp group, the cool LED lamp group, the R lamp group, the G lamp group, and the other end of the B lamp group.
7. The lapped music light source according to claim 6, wherein the first illuminating wireless device comprises an illumination housing, a warm color light interface, a cool color light interface, an R light interface, a G light interface, a B light interface, and wireless illumination. An antenna; wherein the warm light interface, the cold light interface, the R light interface, the G light interface, the B light interface, and the wireless lighting antenna are all disposed inside the lighting housing.
8. The networking music source of claim 7, wherein the first illumination driving circuit comprises:

   The illuminating plug end includes a port corresponding to the warm color lamp end, the cold color lamp end, the R lamp end, the G lamp end, the B lamp end and the power end one-to-one;

   a first MOS tube connected to the warm color lamp end through the illumination plug end;

   a second MOS tube connected to the cold color lamp end through the illumination plug end;

   a third MOS tube connected to the R lamp end through the illumination plug end;

   a fourth MOS tube connected to the G lamp end through the illumination plug end;

   a fifth MOS tube connected to the B lamp end through the illumination plug end;

   The wireless plug-in end includes a port corresponding to the warm color light interface, the cold light light interface, the R light interface, the G light interface, and the B light interface, and the first MOS tube is connected to the ground through the wireless plug end a warm color light interface, the second MOS tube is connected to the cold light connector through the wireless plug end, and the third MOS tube is connected to the R light interface through the wireless plug end, the first A fourth MOS transistor is connected to the G lamp interface through the wireless plug end, and the fifth MOS transistor is connected to the B lamp interface through the wireless plug end.
9. The networking music source of claim 1 further comprising a power supply circuit; said power supply circuit comprising:

   An AC input for accessing an alternating current;

   An AC-DC step-down circuit electrically connected to the AC input terminal;

   a first DC voltage stabilizing circuit, wherein an input end thereof is electrically connected to the AC-DC step-down circuit, and an output end thereof is electrically connected to the FM transmitting circuit and the first lighting wireless device to output a first DC voltage ;

   The second DC voltage stabilizing circuit has an input end electrically connected to the AC-DC step-down circuit, and an output end electrically connected to the first power amplifier circuit and the audio wireless device to output a second DC voltage.
10. A networking music light source system, comprising:

    The network music light source of claim 1;

    One or more sub-music light sources; each of the sub-music light sources includes: an FM radio circuit, a second power amplifier circuit, a second illumination wireless device, a second illumination driving circuit, and a second light board circuit; wherein the FM radio circuit Connected to the FM transmitting circuit by frequency modulation, the second power amplifier circuit is electrically connected to the FM radio circuit, and the second lighting wireless device is connected to the first lighting wireless device by wireless communication, the second The illumination driving circuit is electrically connected to the second illumination wireless device, and the second light panel circuit is electrically connected to the second illumination driving circuit.
11. The network music light source system according to claim 10, wherein the FM radio circuit comprises:

    Receive antenna;

    a radio processor electrically connected to the second power amplifier circuit and the receiving antenna;

    The frequency selective potentiometer is electrically connected to the radio processor.

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