An AI lighting control circuit and an AI lighting fixture
By designing an AI lighting control circuit, combined with an AI module and voice unit, the system enables users to interact with lighting products, solving the problem of limited functionality in traditional lighting products and improving the convenience of interaction and lighting comfort.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAMEN TOPSTAR LIGHTING
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-30
AI Technical Summary
Existing AI lighting products lack AI dialogue capabilities, making it impossible to adjust lighting, play appropriate scene images, videos, and music through conversations with users.
Design an AI lighting control circuit, including an AI module, an AI voice unit, a music playback driver unit, a colorful light driver unit, a main lighting driver unit, an auxiliary lighting driver unit, and a display unit. The AI voice unit receives user voice signals and controls the other units to achieve lighting adjustment, image, video, and music playback.
It enables users to control the lighting system through natural language commands, enhancing the convenience of interaction and intelligent experience, supporting the coordinated operation of main and auxiliary lighting, flexibly switching lighting environments, and providing an immersive scene experience.
Smart Images

Figure CN224439255U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting technology, and in particular to an AI lighting control circuit and an AI lighting fixture. Background Technology
[0002] Lighting lamps are devices used for nighttime illumination. These lamps are applied in various locations, such as homes, retail stores, factories, and mines, each with different lighting needs. However, with the development of smart home technology, the functional limitations of traditional lighting equipment are becoming increasingly apparent, mainly due to the following problems:
[0003] (1) Existing AI lighting products can only be controlled and interacted with via an app;
[0004] (2) Existing smart lighting products do not have AI dialogue function and cannot adjust the lights by talking to the user;
[0005] (3) Existing lighting products do not have the ability to play pictures, videos and music of appropriate scenes based on dialogue with users. Utility Model Content
[0006] The technical problem to be solved by this utility model is to provide an AI lighting control circuit and an AI lighting fixture, which can interpret the content of the conversation with the user to create the desired atmosphere, illuminate the appropriate light for the user, project the appropriate picture or video, and play the music that the user wants.
[0007] To solve the above-mentioned technical problems, the first technical solution adopted by this utility model is as follows:
[0008] An AI lighting control circuit includes an AI module, an AI voice unit, a music playback driver unit, a colorful light driver unit, a main lighting driver unit, an auxiliary lighting driver unit, and a display unit. The AI module is electrically connected to the AI voice unit, the music playback driver unit, the colorful light driver unit, the main lighting driver unit, the auxiliary lighting driver unit, and the display unit, respectively.
[0009] The AI voice unit is used to receive voice signals from the user and convert the voice signals into electrical signals for transmission to the AI module.
[0010] The music playback driver unit is used to process and amplify the audio signal transmitted from the AI module and play the music.
[0011] The colorful light driving unit is used to drive the colorful lights to work;
[0012] The main lighting drive unit is used to drive the main lighting source to work;
[0013] The auxiliary lighting drive unit is used to drive the auxiliary lighting source to work in order to assist the main lighting drive unit.
[0014] Furthermore, the AI module includes a chip IC8, and the sixth, seventh, and tenth pins of the chip IC8 are all electrically connected to the music playback driver unit;
[0015] Pins 15 and 16 of the IC8 chip are both electrically connected to the AI voice unit.
[0016] The eighth and ninth pins of the IC8 chip are both electrically connected to the main lighting driver unit.
[0017] The 21st and 22nd pins of the IC8 chip are both electrically connected to the auxiliary lighting driver unit.
[0018] The first and second pins of the chip IC8 are both electrically connected to the display unit.
[0019] Furthermore, the music playback driver unit includes a chip IC5 and a speaker Y1. The first and third pins of the chip IC5 are electrically connected to the AI module, the sixth pin of the chip IC5 is electrically connected to one end of the speaker Y1, and the seventh pin of the chip IC5 is electrically connected to the other end of both the AI module and the speaker Y1.
[0020] Furthermore, the music playback driver unit also includes inductor L4, inductor L5, capacitor C11, and capacitor C12. One end of inductor L5 is electrically connected to the sixth pin of chip IC5, and the other end of inductor L5 is electrically connected to one end of capacitor C12 and the other end of speaker Y1. One end of inductor L4 is electrically connected to the seventh pin of chip IC5, and the other end of inductor L4 is electrically connected to one end of capacitor C11, the AI module, and the other end of speaker Y1. The other ends of capacitors C11 and C12 are both grounded.
[0021] Furthermore, the music playback driver unit also includes resistors R1 and R47. One end of resistor R1 is electrically connected to the AI module, and the other end of resistor R1 is electrically connected to one end of resistor R47 and the first pin of chip IC5. The other end of resistor R47 is electrically connected to the eighth pin of chip IC5, and both the other end of resistor R47 and the eighth pin of chip IC5 are grounded.
[0022] Furthermore, the music playback driver unit also includes a resistor R3 and a capacitor C7. One end of the resistor R3 is electrically connected to the third pin of the chip IC5, and the other end of the resistor R3 is electrically connected to the AI module through the capacitor C7.
[0023] Furthermore, the music playback driving unit also includes a resistor R42 and a capacitor C19. One end of the resistor R42 is electrically connected to one end of the speaker Y1, and the other end of the resistor R42 is electrically connected to the AI module through the capacitor C19.
[0024] Furthermore, the AI voice unit includes a microphone (MIC), a Zener diode (ESD1), a resistor (R45), and a capacitor (C21). The first end of the microphone (MIC) is electrically connected to one end of the Zener diode (ESD1) and one end of the resistor (R45). The second end of the microphone (MIC) is electrically connected to the other end of the Zener diode (ESD1), the third end of the microphone (MIC), and the fourth end of the microphone (MIC), and all of these terminals are grounded. The other end of the resistor (R45) is electrically connected to the AI module through the capacitor (C21).
[0025] Furthermore, the AI voice unit also includes resistors R44 and R46 and capacitor C20. One end of resistor R44 is electrically connected to the first end of microphone MIC, one end of Zener diode ESD1 and one end of resistor R45 respectively. The other end of resistor R44 is electrically connected to one end of resistor R46 and one end of capacitor C20 respectively. The other end of resistor R46 is electrically connected to AI module, and the other end of capacitor C20 is grounded.
[0026] The second technical solution adopted in this utility model is:
[0027] An AI lighting fixture includes a lamp housing and the aforementioned AI lighting control circuit, wherein the AI lighting control circuit is disposed inside the lamp housing.
[0028] The beneficial effects of this utility model are as follows:
[0029] This solution receives user voice signals via an AI voice unit and converts them into electrical signals for transmission to the AI module. This solves the problem of existing smart lighting products lacking AI dialogue capabilities and the inability to adjust lights via voice. Users can control the lighting system directly through natural language commands without relying on an app or manual operation, significantly improving interactivity and the intelligent experience. The AI module is electrically connected to the music playback driver unit, the color light driver unit, the main lighting driver unit, the auxiliary lighting driver unit, and the display unit, enabling it to play appropriate images, videos, and music based on user dialogue, creating an immersive scene experience. Overcoming the limitations of traditional lighting's single function, the main lighting driver unit and auxiliary lighting driver unit are independently controlled, enabling collaborative work between the main and auxiliary lighting. This allows for flexible switching based on scene requirements, solving the problem of traditional lighting's inability to finely adjust the light environment and improving lighting comfort and energy efficiency. Through the coordination of the AI module, AI voice unit, music playback driver unit, colorful light driver unit, main lighting driver unit, auxiliary lighting driver unit, and display unit, this solution can interpret the user's dialogue to create the desired atmosphere, illuminate appropriate lights, project suitable images or videos, and play desired music. Attached Figure Description
[0030] Figure 1 This is a connection block diagram of the AI lighting control circuit of this utility model;
[0031] Figure 2 This is a circuit diagram of the AI module of the AI lighting control circuit of this utility model;
[0032] Figure 3 This is a circuit diagram of the music playback drive unit of the AI lighting control circuit of this utility model.
[0033] Figure 4 This is a circuit diagram of the AI voice unit in the AI lighting control circuit of this utility model.
[0034] Figure 5 This is a circuit diagram of the main lighting drive unit of the AI lighting control circuit of this utility model;
[0035] Figure 6 This is a circuit diagram of the auxiliary lighting drive unit of the AI lighting control circuit of this utility model.
[0036] Figure 7 This is a circuit diagram of the touch button driving unit of the AI lighting control circuit of this utility model.
[0037] Figure 8The circuit diagram of the first power supply unit of the AI lighting control circuit of this utility model is shown.
[0038] Figure 9 This is a circuit diagram of the second power supply unit of the AI lighting control circuit of this utility model;
[0039] Figure 10 This is a circuit diagram of the third power supply unit of the AI lighting control circuit of this utility model;
[0040] Figure 11 This is a circuit diagram of the display unit of the AI lighting control circuit of this utility model;
[0041] Figure 12 This is a circuit diagram of the colorful light driving unit of the AI lighting control circuit of this utility model;
[0042] Label Explanation:
[0043] 1. AI module; 2. AI voice unit; 3. Music playback driver unit; 4. Colorful light driver unit; 5. Main lighting driver unit; 6. Auxiliary lighting driver unit; 7. Display unit; 8. Touch button driver unit; 9. First power supply unit; 10. Second power supply unit; 11. Third power supply unit. Detailed Implementation
[0044] To explain in detail the technical content, objectives, and effects of this utility model, the following description is provided in conjunction with the embodiments and accompanying drawings.
[0045] Please refer to Figure 1 The first technical solution adopted by this utility model is:
[0046] An AI lighting control circuit includes an AI module, an AI voice unit, a music playback driver unit, a colorful light driver unit, a main lighting driver unit, an auxiliary lighting driver unit, and a display unit. The AI module is electrically connected to the AI voice unit, the music playback driver unit, the colorful light driver unit, the main lighting driver unit, the auxiliary lighting driver unit, and the display unit, respectively.
[0047] The AI voice unit is used to receive voice signals from the user and convert the voice signals into electrical signals for transmission to the AI module.
[0048] The music playback driver unit is used to process and amplify the audio signal transmitted from the AI module and play the music.
[0049] The colorful light driving unit is used to drive the colorful lights to work;
[0050] The main lighting drive unit is used to drive the main lighting source to work;
[0051] The auxiliary lighting drive unit is used to drive the auxiliary lighting source to work in order to assist the main lighting drive unit.
[0052] As can be seen from the above description, the beneficial effects of this utility model are as follows:
[0053] This solution receives user voice signals via an AI voice unit and converts them into electrical signals for transmission to the AI module. This solves the problem of existing smart lighting products lacking AI dialogue capabilities and the inability to adjust lights via voice. Users can control the lighting system directly through natural language commands without relying on an app or manual operation, significantly improving interactivity and the intelligent experience. The AI module is electrically connected to the music playback driver unit, the color light driver unit, the main lighting driver unit, the auxiliary lighting driver unit, and the display unit, enabling it to play appropriate images, videos, and music based on user dialogue, creating an immersive scene experience. Overcoming the limitations of traditional lighting's single function, the main lighting driver unit and auxiliary lighting driver unit are independently controlled, enabling collaborative work between the main and auxiliary lighting. This allows for flexible switching based on scene requirements, solving the problem of traditional lighting's inability to finely adjust the light environment and improving lighting comfort and energy efficiency. Through the coordination of the AI module, AI voice unit, music playback driver unit, colorful light driver unit, main lighting driver unit, auxiliary lighting driver unit, and display unit, this solution can interpret the user's dialogue to create the desired atmosphere, illuminate appropriate lights, project suitable images or videos, and play desired music.
[0054] Furthermore, the AI module includes a chip IC8, and the sixth, seventh, and tenth pins of the chip IC8 are all electrically connected to the music playback driver unit;
[0055] Pins 15 and 16 of the IC8 chip are both electrically connected to the AI voice unit.
[0056] The eighth and ninth pins of the IC8 chip are both electrically connected to the main lighting driver unit.
[0057] The 21st and 22nd pins of the IC8 chip are both electrically connected to the auxiliary lighting driver unit.
[0058] The first and second pins of the chip IC8 are both electrically connected to the display unit.
[0059] Furthermore, the music playback driver unit includes a chip IC5 and a speaker Y1. The first and third pins of the chip IC5 are electrically connected to the AI module, the sixth pin of the chip IC5 is electrically connected to one end of the speaker Y1, and the seventh pin of the chip IC5 is electrically connected to the other end of both the AI module and the speaker Y1.
[0060] Furthermore, the music playback driver unit also includes inductor L4, inductor L5, capacitor C11, and capacitor C12. One end of inductor L5 is electrically connected to the sixth pin of chip IC5, and the other end of inductor L5 is electrically connected to one end of capacitor C12 and the other end of speaker Y1. One end of inductor L4 is electrically connected to the seventh pin of chip IC5, and the other end of inductor L4 is electrically connected to one end of capacitor C11, the AI module, and the other end of speaker Y1. The other ends of capacitors C11 and C12 are both grounded.
[0061] Furthermore, the music playback driver unit also includes resistors R1 and R47. One end of resistor R1 is electrically connected to the AI module, and the other end of resistor R1 is electrically connected to one end of resistor R47 and the first pin of chip IC5. The other end of resistor R47 is electrically connected to the eighth pin of chip IC5, and both the other end of resistor R47 and the eighth pin of chip IC5 are grounded.
[0062] Furthermore, the music playback driver unit also includes a resistor R3 and a capacitor C7. One end of the resistor R3 is electrically connected to the third pin of the chip IC5, and the other end of the resistor R3 is electrically connected to the AI module through the capacitor C7.
[0063] Furthermore, the music playback driving unit also includes a resistor R42 and a capacitor C19. One end of the resistor R42 is electrically connected to one end of the speaker Y1, and the other end of the resistor R42 is electrically connected to the AI module through the capacitor C19.
[0064] Furthermore, the AI voice unit includes a microphone (MIC), a Zener diode (ESD1), a resistor (R45), and a capacitor (C21). The first end of the microphone (MIC) is electrically connected to one end of the Zener diode (ESD1) and one end of the resistor (R45). The second end of the microphone (MIC) is electrically connected to the other end of the Zener diode (ESD1), the third end of the microphone (MIC), and the fourth end of the microphone (MIC), and all of these terminals are grounded. The other end of the resistor (R45) is electrically connected to the AI module through the capacitor (C21).
[0065] Furthermore, the AI voice unit also includes resistors R44 and R46 and capacitor C20. One end of resistor R44 is electrically connected to the first end of microphone MIC, one end of Zener diode ESD1 and one end of resistor R45 respectively. The other end of resistor R44 is electrically connected to one end of resistor R46 and one end of capacitor C20 respectively. The other end of resistor R46 is electrically connected to AI module, and the other end of capacitor C20 is grounded.
[0066] The second technical solution adopted in this utility model is:
[0067] An AI lighting fixture includes a lamp housing and the aforementioned AI lighting control circuit, wherein the AI lighting control circuit is disposed inside the lamp housing.
[0068] Please refer to Figures 1 to 12 As shown, Embodiment 1 of this utility model is as follows:
[0069] Please refer to Figure 1 An AI lighting control circuit includes an AI module 1, an AI voice unit 2, a music playback driver unit 3, a colorful light driver unit 4, a main lighting driver unit 5, an auxiliary lighting driver unit 6, and a display unit 7. The AI module 1 is electrically connected to the AI voice unit 2, the music playback driver unit 3, the colorful light driver unit 4, the main lighting driver unit 5, the auxiliary lighting driver unit 6, and the display unit 7, respectively.
[0070] The AI voice unit 2 is used to receive voice signals from the user and convert the voice signals into electrical signals for transmission to the AI module 1.
[0071] The music playback driver unit 3 is used to process and amplify the audio signal transmitted from the AI module 1 and play the music.
[0072] The colorful light driving unit 4 is used to drive the colorful lights to work;
[0073] The main lighting drive unit 5 is used to drive the main lighting source to work;
[0074] The auxiliary lighting drive unit 6 is used to drive the auxiliary lighting source to work, so as to assist the main lighting drive unit 5.
[0075] Please refer to Figure 2 The AI module 1 includes a chip IC8 (model US516P6), and the sixth, seventh and tenth pins of the chip IC8 are all electrically connected to the music playback driver unit 3.
[0076] Pins 15 and 16 of the chip IC8 are both electrically connected to the AI voice unit 2;
[0077] The eighth and ninth pins of the chip IC8 are both electrically connected to the main lighting drive unit 5.
[0078] The 21st and 22nd pins of the chip IC8 are both electrically connected to the auxiliary lighting driver unit 6.
[0079] The first and second pins of the chip IC8 are both electrically connected to the display unit 7.
[0080] Please refer to Figure 3 The AI module 1 also includes capacitors C26 (4.7μF), C27 (100nF), C28 (12pF), R40 (82kΩ), C29 (12pF), crystal oscillator X1 (12MHz), C35 (4.7μF), C36 (100nF), C61 (4.7μF), C62 (100nF), C30 (4.7μF), C31 (100nF), C32 (4.7μF), C33 (100nF), and R41 (10Ω). For the specific connections between these components, please refer to [reference needed]. Figure 2 .
[0081] Please refer to Figure 3 The music playback driver unit 3 includes a chip IC5 (model MIX2808) and a speaker Y1. The first and third pins of the chip IC5 are electrically connected to the AI module 1, the sixth pin of the chip IC5 is electrically connected to one end of the speaker Y1, and the seventh pin of the chip IC5 is electrically connected to the other end of the AI module 1 and the speaker Y1, respectively.
[0082] Please refer to Figure 3 The music playback driving unit 3 further includes an inductor L4 (inductance value of 15μH), an inductor L5 (inductance value of 15μH), a capacitor C11 (capacitance value of 10pF), and a capacitor C12 (capacitance value of 10pF). One end of the inductor L5 is electrically connected to the sixth pin of the chip IC5, and the other end of the inductor L5 is electrically connected to one end of the capacitor C12 and the other end of the speaker Y1. One end of the inductor L4 is electrically connected to the seventh pin of the chip IC5, and the other end of the inductor L4 is electrically connected to one end of the capacitor C11, the AI module 1, and the other end of the speaker Y1. The other ends of the capacitors C11 and C12 are both grounded.
[0083] Please refer to Figure 3 The music playback driving unit 3 further includes a resistor R1 (47kΩ) and a resistor R47 (100kΩ). One end of the resistor R1 is electrically connected to the AI module 1, and the other end of the resistor R1 is electrically connected to one end of the resistor R47 and the first pin of the chip IC5. The other end of the resistor R47 is electrically connected to the eighth pin of the chip IC5, and both the other end of the resistor R47 and the eighth pin of the chip IC5 are grounded.
[0084] Please refer to Figure 3The music playback driving unit 3 also includes a resistor R3 (resistance value of 47kΩ) and a capacitor C7 (capacitance value of 100pF). One end of the resistor R3 is electrically connected to the third pin of the chip IC5, and the other end of the resistor R3 is electrically connected to the AI module 1 through the capacitor C7.
[0085] Please refer to Figure 3 The music playback driving unit 3 also includes a resistor R42 (resistance value of 10kΩ) and a capacitor C19 (capacitance value of 1μF). One end of the resistor R42 is electrically connected to one end of the speaker Y1, and the other end of the resistor R42 is electrically connected to the AI module 1 through the capacitor C19.
[0086] Please refer to Figure 3 The music playback driver unit 3 also includes resistors R2 (10kΩ), R48, R4 (47kΩ), capacitors C8 (100pF), C9 (1μF), and C10 (10μF). For the specific connections between these components, please refer to [reference needed]. Figure 3 .
[0087] The 5V power supply is filtered by capacitors C9 and C10 and then supplies power to chip IC5. Chip IC8 controls the operation of chip IC5 through resistors R1 and R47. Audio signals are input through capacitors C7, R3, C8, and R4. The output signal is filtered by inductors L4, C11, L5, and C12 and then supplied to speaker Y1.
[0088] Please refer to Figure 4 The AI voice unit 2 includes a microphone (model JHO6027B), a Zener diode (ESD1) with a voltage regulation value of 5V, a resistor R45 with a resistance value of 220Ω, and a capacitor C21 with a capacitance value of 4.7μF. The first end of the microphone is electrically connected to one end of the Zener diode (ESD1) and one end of the resistor R45. The second end of the microphone is electrically connected to the other end of the Zener diode (ESD1), the third end of the microphone, and the fourth end of the microphone, and all of these terminals are grounded. The other end of the resistor R45 is electrically connected to the AI module 1 through the capacitor C21.
[0089] Please refer to Figure 4The AI voice unit 2 also includes resistor R44 (2.2kΩ), resistor R46 (220Ω), and capacitor C20 (4.7μF). One end of resistor R44 is electrically connected to the first end of microphone MIC, one end of Zener diode ESD1, and one end of resistor R45. The other end of resistor R44 is electrically connected to one end of resistor R46 and one end of capacitor C20. The other end of resistor R46 is electrically connected to AI module 1, and the other end of capacitor C20 is grounded.
[0090] The IC8 chip supplies power to the microphone (MIC) through resistors R46 and R44, capacitor C20, and Zener diode ESD1. After the microphone picks up the sound, the signal is filtered by resistor R45 and capacitor C34, and then DC blocked by capacitor C21 before being sent to the AI module for processing to control the actions of other devices.
[0091] Please refer to Figure 1 It also includes a touch button driving unit 8, which is electrically connected to the AI module 1.
[0092] Please refer to Figure 7 The touch button driving unit 8 includes capacitor C23 (4.7μF), capacitor C24 (18pF), resistor R5 (1kΩ), resistor R6 (1kΩ), resistor R7 (1kΩ), resistor R8 (1kΩ), resistor R9 (1kΩ), chip IC6 (AI05), capacitor C22 (100pF), capacitor C25 (4.7μF), chip IC7 (CM9E133A), light-emitting diode LED1, and resistor R78 (…). The components include resistors R79 (1.2kΩ), R80 (1.2kΩ), LEDs LED5 and LED3, resistors R81 and LED2 (1.2kΩ), resistors R82 and LED4 (1.2kΩ), resistors R75, R76, and R77 (270Ω), and chip IC4 (UTC7533). For detailed connections between these components, please refer to [reference needed]. Figure 7 .
[0093] The signals from the five touch buttons KEY1-KEY5 are input to chip IC6 through resistors R5, R6, R7, R8, and R9. Chip IC6 outputs signals to chip IC7 for processing, and then illuminates the corresponding LEDs LED1, LED2, LED3, LED4, and LED5 through resistors R78, R79, R80, R81, and R82. At the same time, the signals are transmitted to chip IC8 to control the operation of other devices. The 30V voltage is stepped down through resistors R75, R76, and R77 and then supplied to chip IC6 and chip IC7 via chip IC4.
[0094] Please refer to Figure 5 The main lighting drive unit 5 includes resistor R23 (10kΩ), chip IC9 (SM15201EH), resistor R24 (510Ω), capacitor C15, resistor R25 (1Ω), resistor R31 (10kΩ), chip IC10 (SM15201EH), resistor R32 (510Ω), capacitor C16, resistor R33 (1Ω), resistor R34 (10kΩ), resistor R35 (510Ω), capacitor C17, and resistor R36 (1Ω). Chip IC11 (model SM15201EH), resistor R37 (10kΩ), resistor R38 (510Ω), capacitor C18, resistor R39 (1Ω), chip IC12 (model SM15201EH), resistor R18 (51Ω), resistor R19 (51Ω), resistor R20 (51Ω), resistor R21 (51Ω), resistor R22 (51Ω), LEDs W1~W27 and LEDs A1~A27. For the specific connection relationships between these components, please refer to [reference needed]. Figure 5 .
[0095] Chips IC9 and IC10 are connected in parallel to form a constant current drive to control the operation of warm lights W1-W27; chips IC11 and IC12 are connected in parallel to form a constant current drive to control the operation of cold lights A1-A27; they are powered by resistors R23, R31, R34, and R37; resistors R24, R32, R35, and R38 are used for PWM signal current limiting; resistors R25, R33, R36, and R39 are sampling resistors used to adjust the power; resistors R18, R19, R20, R21, and R22 are used for voltage reduction and current limiting.
[0096] Please refer to Figure 6The auxiliary lighting driving unit 6 includes resistor R12 (10kΩ), resistor R13 (510Ω), capacitor C13, resistor R14 (1Ω), chip IC13 (SM15201EH), resistor R15 (10kΩ), resistor R16 (510Ω), capacitor C14, resistor R17 (1Ω), chip IC14 (SM15201EH), resistor R26 (51Ω), resistor R27 (51Ω), resistor R28 (51Ω), resistor R29 (51Ω), resistor R30 (51Ω), LEDs W28~W45, and LEDs A28~A45. For the specific connection relationships between these components, please refer to [reference needed]. Figure 6 .
[0097] Chip IC13 is a constant current driver IC that controls the operation of auxiliary warm light lamps W28-W45; chip IC14 is a constant current driver IC that controls the operation of auxiliary cool light lamps A28-A45; they are powered by resistors R12 and R15; resistors R13 and R16 are used for PWM signal current limiting; resistors R14 and R17 are sampling resistors used to adjust the power; resistors R26, R27, R28, R29, and R30 are used for voltage reduction and current limiting.
[0098] Please refer to Figure 1 The system also includes a first power supply unit 9, a second power supply unit 10, and a third power supply unit 11. The first power supply unit 9 is electrically connected to the music playback driver unit 3, the second power supply unit 10 is electrically connected to the AI module 1, and the third power supply unit 11 is electrically connected to the colorful light driver unit 4. In this embodiment, a 36W adapter is provided to power the entire system. The 36W adapter outputs 30V directly as the power supply for the main lighting driver unit 5 and the auxiliary lighting driver unit 6. At the same time, the 30V is converted to 5V by the first power supply unit 9 as the power supply for the music playback driver unit 3, the 30V is converted to 3.3V by the second power supply unit 10 as the power supply for the AI module 1, and the 30V is converted to 5V by the third power supply unit 11 as the power supply for the colorful light driver unit 4.
[0099] Please refer to Figure 8 The first power supply unit 9 includes an electrolytic capacitor E1 (100μF), a capacitor C1 (1μF), a chip IC1 (model KP521405LGA), an inductor L1 (47μH), a capacitor C2 (1μF), and an electrolytic capacitor E2 (100μF). For the specific connection relationships between these components, please refer to [reference needed]. Figure 8 .
[0100] Please refer to Figure 9The second power supply unit 10 includes an electrolytic capacitor E3 (100μF), a capacitor C3 (1μF), a chip IC2 (model KP521403LGA), an inductor L2 (47μH), a capacitor C4 (1μF), and an electrolytic capacitor E4 (100μF). For the specific connection relationships between these components, please refer to [reference needed]. Figure 9 .
[0101] Please refer to Figure 10 The third power supply unit 11 includes an electrolytic capacitor E5 (100μF), a capacitor C5 (1μF), a chip IC5 (KP521405LGA), an inductor L3 (47μH), a capacitor C6 (1μF), an electrolytic capacitor E6 (100μF), a diode D1 (ES1J), a resistor R10 (10kΩ), a MOSFET Q1 (UT3P06L), a resistor R11 (1kΩ), a resistor R43 (1kΩ), a resistor R49 (4.7kΩ), and a MOSFET Q2 (MMBT3904). For the specific connections between these components, please refer to [reference needed]. Figure 10 .
[0102] Please refer to Figure 11 The display unit 7 includes a display chip S. The first pin of the display chip S is connected to a 5V power supply. The second and third pins of the display chip S are both electrically connected to the AI module 1. The fourth pin of the display chip S is grounded.
[0103] Please refer to Figures 1 to 12 As shown, Embodiment 2 of this utility model is as follows:
[0104] An AI lighting fixture includes a lamp housing and the aforementioned AI lighting control circuit, wherein the AI lighting control circuit is disposed inside the lamp housing.
[0105] In summary, this utility model provides an AI lighting control circuit and an AI lighting fixture. The AI voice unit receives voice signals from the user and converts them into electrical signals, which are then transmitted to the AI module. This solves the problems of existing smart lighting products lacking AI dialogue functionality and being unable to adjust lighting via voice. Users can control the lighting system directly through natural language commands without relying on an app or manual operation, significantly improving the convenience and intelligent experience of interaction. The AI module is electrically connected to a music playback driver unit, a colorful light driver unit, a main lighting driver unit, an auxiliary lighting driver unit, and a display unit, enabling the playback of appropriate scene images and videos based on user dialogue. By combining music with the lighting, an immersive scene experience is created, overcoming the limitations of traditional lighting's single function. The main lighting driver unit and the auxiliary lighting driver unit are independently controlled, enabling collaborative work between the main and auxiliary lighting. They can be flexibly switched according to scene requirements, solving the problem of traditional lighting's inability to finely adjust the light environment and improving lighting comfort and energy efficiency. Through the cooperation between the AI module, AI voice unit, music playback driver unit, colorful light driver unit, main lighting driver unit, auxiliary lighting driver unit, and display unit, this solution can interpret the content of the conversation with the user to achieve the desired atmosphere effect. It can illuminate the appropriate lights, project suitable images or videos, and play the music the user wants.
[0106] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent modifications made based on the content of this utility model specification and drawings, or direct or indirect applications in related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. An AI lighting control circuit, characterized in that, It includes an AI module, an AI voice unit, a music playback driver unit, a colorful light driver unit, a main lighting driver unit, an auxiliary lighting driver unit, and a display unit. The AI module is electrically connected to the AI voice unit, the music playback driver unit, the colorful light driver unit, the main lighting driver unit, the auxiliary lighting driver unit, and the display unit, respectively. The AI voice unit is used to receive voice signals from the user and convert the voice signals into electrical signals for transmission to the AI module. The music playback driver unit is used to process and amplify the audio signal transmitted from the AI module and play the music. The colorful light driving unit is used to drive the colorful lights to work; The main lighting drive unit is used to drive the main lighting source to work; The auxiliary lighting drive unit is used to drive the auxiliary lighting source to work in order to assist the main lighting drive unit.
2. The AI lighting control circuit according to claim 1, characterized in that, The AI module includes a chip IC8, and the sixth, seventh and tenth pins of the chip IC8 are all electrically connected to the music playback driver unit; Pins 15 and 16 of the IC8 chip are both electrically connected to the AI voice unit. The eighth and ninth pins of the IC8 chip are both electrically connected to the main lighting driver unit. The 21st and 22nd pins of the IC8 chip are both electrically connected to the auxiliary lighting driver unit. The first and second pins of the chip IC8 are both electrically connected to the display unit.
3. The AI lighting control circuit according to claim 1, characterized in that, The music playback driver unit includes a chip IC5 and a speaker Y1. The first and third pins of the chip IC5 are electrically connected to the AI module, the sixth pin of the chip IC5 is electrically connected to one end of the speaker Y1, and the seventh pin of the chip IC5 is electrically connected to the other end of both the AI module and the speaker Y1.
4. The AI lighting control circuit according to claim 3, characterized in that, The music playback driver unit also includes inductor L4, inductor L5, capacitor C11, and capacitor C12. One end of inductor L5 is electrically connected to the sixth pin of chip IC5, and the other end of inductor L5 is electrically connected to one end of capacitor C12 and the other end of speaker Y1. One end of inductor L4 is electrically connected to the seventh pin of chip IC5, and the other end of inductor L4 is electrically connected to one end of capacitor C11, the AI module, and the other end of speaker Y1. The other ends of capacitors C11 and C12 are both grounded.
5. The AI lighting control circuit according to claim 3, characterized in that, The music playback driver unit also includes resistors R1 and R47. One end of resistor R1 is electrically connected to the AI module, and the other end of resistor R1 is electrically connected to one end of resistor R47 and the first pin of chip IC5. The other end of resistor R47 is electrically connected to the eighth pin of chip IC5, and both the other end of resistor R47 and the eighth pin of chip IC5 are grounded.
6. The AI lighting control circuit according to claim 3, characterized in that, The music playback driver unit also includes a resistor R3 and a capacitor C7. One end of the resistor R3 is electrically connected to the third pin of the chip IC5, and the other end of the resistor R3 is electrically connected to the AI module through the capacitor C7.
7. The AI lighting control circuit according to claim 3, characterized in that, The music playback driver unit also includes a resistor R42 and a capacitor C19. One end of the resistor R42 is electrically connected to one end of the speaker Y1, and the other end of the resistor R42 is electrically connected to the AI module through the capacitor C19.
8. The AI lighting control circuit according to claim 1, characterized in that, The AI voice unit includes a microphone (MIC), a Zener diode (ESD1), a resistor (R45), and a capacitor (C21). The first end of the microphone (MIC) is electrically connected to one end of the Zener diode (ESD1) and one end of the resistor (R45). The second end of the microphone (MIC) is electrically connected to the other end of the Zener diode (ESD1), the third end of the microphone (MIC), and the fourth end of the microphone (MIC), and all of these terminals are grounded. The other end of the resistor (R45) is electrically connected to the AI module through the capacitor (C21).
9. The AI lighting control circuit according to claim 1, characterized in that, The AI voice unit also includes resistors R44 and R46 and capacitor C20. One end of resistor R44 is electrically connected to the first end of microphone MIC, one end of Zener diode ESD1 and one end of resistor R45 respectively. The other end of resistor R44 is electrically connected to one end of resistor R46 and one end of capacitor C20 respectively. The other end of resistor R46 is electrically connected to AI module and the other end of capacitor C20 is grounded.
10. An AI lighting fixture, characterized in that, The lamp includes a lamp housing and an AI lighting control circuit according to any one of claims 1-9, wherein the AI lighting control circuit is disposed inside the lamp housing.