CN112566316B - Microwave gesture control lamp and control method - Google Patents

Abstract

The invention particularly relates to a microwave gesture control lamp and a control method thereof, and the microwave gesture control lamp comprises a lamp main body provided with an LED lamp, wherein a microwave module, a storage module, a comparison module and a control module are arranged in the lamp main body, the comparison module is respectively in signal connection with the microwave module and the storage module, the control module is in signal connection with the comparison module, the microwave gesture control lamp further comprises a lamp circuit which is arranged in the lamp main body and is respectively connected with the microwave module, the control module and the LED lamp, and the lamp circuit consists of a rectifying circuit, a microwave power supply circuit and a control circuit. The invention can transmit and receive millimeter wave signals, and the millimeter wave signals are calculated and identified through each module, so that the millimeter wave signals have more various control modes and control results, and meanwhile, the built-in lamp circuit can process the connection and signal transmission of each module, so that the working process is more stable.

Description

Microwave gesture control lamp and control method

Technical Field

The invention belongs to the field of lighting equipment, and particularly relates to a microwave gesture control lamp and a control method.

Background

With the continuous improvement of the living standard of people and the gradual change of the technological development, the traditional lamp can not meet the requirements of people for various functions and individuation. Lamps in the current market often have only a single function, and the structural form is also very solidified. More recently, some more intelligent lighting fixtures have emerged, such as induction fixtures.

Current response lamps and lanterns mainly divide into based on ultrasonic sensor, based on infrared sensor, based on microwave radar three types, provide a mode of more intelligent control lamps and lanterns to a certain extent. Compared with two types of induction lamps based on an ultrasonic sensor and an infrared sensor, a microwave induction lighting lamp and an LED light source are more popular in life of people, and the radar microwave inductor for the microwave induction lighting lamp on the market can only meet single on-off control, namely, the radar microwave inductor is turned on when a moving object is detected, or is turned off when the moving object is detected.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a microwave gesture control lamp and a control method.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a microwave gesture control lamp comprises a lamp body provided with an LED lamp, wherein a microwave module, a storage module, a comparison module and a control module are arranged in the lamp body, the comparison module is respectively in signal connection with the microwave module and the storage module, and the control module is in signal connection with the comparison module; the LED lamp also comprises a lamp circuit which is arranged in the lamp main body and is respectively connected with the microwave module, the control module and the LED lamp, wherein the lamp circuit consists of a rectifying circuit, a microwave power supply circuit and a control circuit, the rectifying circuit consists of a fuse, a common-mode inductor I, a common-mode inductor III, a voltage stabilizing diode I, a bridge type rectifying diode I, an LED driving chip, a photoelectric coupler light receiver, a four-winding transformer, an electrolytic capacitor I, a triode I, an MOS tube II, a piezoresistor I, a piezoresistor II, an inductor I, an inductor II, a diode I, a diode III, a diode VII, a diode nine, a diode fifteen, a diode sixteen, a diode seventeen, a capacitor II, a capacitor III, a capacitor V, a capacitor VI, a capacitor VII, a capacitor eight, a capacitor nine, a capacitor eleven, a capacitor fifteen, a capacitor twenty-one, a capacitor twenty-twelve, a capacitor twenty-thirteen, a capacitor thirteen and a control circuit, and the LED lamp is connected with the common-inductor I, and the LED lamp, The common mode inductor comprises a first input pin of the common mode inductor which is respectively connected with one end of the piezoresistor and a zero line, a second input pin of the common mode inductor which is respectively connected with the other end of the piezoresistor and one end of the fuse, the other end of the fuse is connected with a live wire, a first output pin of the common mode inductor is respectively connected with one end of the inductor II and one end of the piezoresistor, the zero line, the common mode inductor which is respectively connected with one end of the piezoresistor and one end of the fuse, the common mode inductor which is respectively connected with the other end of the piezoresistor and one end of the fuse, the common mode inductor which is connected with one end of the inductor II and one end of the fuse, the resistor which is connected with the live wire, a resistor which is connected with the other end of the piezoresistor and one end of the inductor, a resistor which is connected with one end of the resistor, a resistor II, a resistor which is connected with one end of the common mode inductor and one end of the fuse, a resistor which is connected with the other end of the common mode inductor, a resistor which is connected with the resistor II, a resistor which is connected with the other end of the resistor which is connected with the common mode inductor, and the resistor which is connected with the common mode inductor which is connected with the other end of the common mode inductor which is connected with the first and the other end of the first and the first input pin is connected with the first and the second which is connected with the first and the second which is connected with the first and the second which is connected with the first input pin is connected, One end of a resistor twelve is connected, the other end of an inductor two, the other end of the resistor twelve, a common mode inductor three input pin one is connected with one end of a capacitor eighteen, a common mode inductor one output pin two, a common mode inductor three input pin two are connected with the other end of the capacitor eighteen, a common mode inductor three output pin one is connected with a bridge rectifier diode one alternating current input pin one, a common mode inductor three output pin two is connected with a bridge rectifier diode one alternating current input pin two, an output anode of the bridge rectifier diode is respectively connected with one end of the inductor one, one end of the resistor three and one end of the capacitor six, an output cathode of the bridge rectifier diode one, the other end of the capacitor six, one end of the capacitor seven and one end of a piezoresistor two are grounded, one end of the capacitor two, one end of a resistor four, one end of a resistor five, one end of the resistor two, the other end of the piezoresistor two, the other end of the inductor one, the other end of the resistor three and the other end of the capacitor seven are connected with one input pin of a four-winding transformer, the other end of the capacitor two, the other end of the resistor four and the other end of the resistor five are connected with the cathode of the diode three, the other end of the resistor two is connected with one end of the resistor seven, the other end of the resistor seven is connected with the HV pin of the LED driving chip, the ZCD pin of the LED driving chip is respectively connected with one end of the resistor thirteen, one end of the resistor nineteen and one end of the capacitor fifteen, the signal ground is connected with the other ends of the resistor thirteen and the resistor nine, the input pin four of the four-winding transformer is connected with the drain electrode of the MOS tube two and the anode of the diode three, the input pin three of the four-winding transformer, one end of the capacitor nine and the cathode of the capacitor are connected with the signal ground, the other end of the capacitor nine end, the anode of the capacitor ten, the anode of the diode sixteen and the emitter of the triode VCC pin are connected with the emitter of the LED driving chip, the cathode of the diode sixteen, one end of the resistor eleven, one end of the capacitor eight and the cathode of the diode fifteen are connected with the collector of the triode, the anode of a diode fifteen is connected with the other end of a resistor nine, the anode of a voltage-stabilizing diode and the other end of a capacitor eight are in signal grounding, the other end of a resistor eleven and the cathode of the voltage-stabilizing diode are connected with a base electrode of a triode, the anode of a diode seventeen, the end of a resistor seventeen and the end of a resistor twenty one are connected with a grid electrode of an MOS tube, the end of a resistor twenty five, the end of a resistor forty five and the end of a resistor forty six are connected with a source electrode of the MOS tube, the cathode of a diode seventeen are connected with one end of a resistor, the other end of the resistor seventeen and the other end of the resistor seventeen are connected with a GATE pin of an LED driving chip, the output end of a light-receiving device of a photoelectric coupler, the end of the capacitor twenty six, the other end of the resistor twenty five, the other end of the resistor forty three, the end of the resistor twenty four end, the resistor, the ten end of the LED driving chip GND pin are in signal grounding, the other end of the resistor is connected with the twenty four ends, the other end of the resistor forty-six and the other end of the capacitor twenty-six are connected with a CS pin of an LED driving chip, the input end of a photoelectric coupler light receiver, one end of the capacitor twenty-two and one end of the capacitor twenty-three are connected with a COMP pin of the LED driving chip, the other end of the capacitor twenty-two and the other end of the capacitor twenty-three are connected with a eleven-end of the resistor sixteen, one end of a diode nine anode, one anode of a diode, one end of a resistor sixteen and one end of a resistor fifteen are connected with a six pin of a four-winding transformer output pin, the other end of a resistor fifteen and the other end of the resistor sixteen are connected with one end of a capacitor twenty-one, the other end of a diode nine cathode, the anode of a diode, the anode of a capacitor three, the anode of a capacitor twenty-anode, one end of a capacitor five, one end of a resistor eight, one end of an electrolytic capacitor one end, one end of a capacitor eleven end and one end of a resistor fourteen are connected with a 42V voltage output, the negative electrode of the capacitor twenty-cathode, the other end of the capacitor five, the other end of the capacitor eight end of the capacitor, The output pin of the four-winding transformer is grounded five times, the other end of the electrolytic capacitor, the other end of the capacitor eleven, the other end of the resistor fourteen and the cathode of the diode seventy are connected with a 49V voltage output, the anode of the diode seventy is connected with an 8V voltage output, one end of the resistor six is connected with an 8V voltage input, the other end of the resistor six and one end of the resistor eighteen are connected with the input end of the light source of the photoelectric coupler, one end of the capacitor twenty five and the other end of the resistor eighteen, the cathode of the linear voltage stabilizer is connected with the output end of a light source of the photoelectric coupler, the anode of the linear voltage stabilizer and one end of a twenty-two resistor are grounded, the other end of the twenty-two resistor, one end of a twenty-three resistor, one end of a fifty-two resistor and one end of a fifty-six resistor are connected with a control pin of the linear voltage stabilizer, the other end of a fifty-six resistor is connected with the other end of a twenty-five capacitor, the other end of a twenty-three resistor is connected with a 42V voltage input, and the other end of the fifty-two resistor is connected with an 8V voltage input; the microwave power supply circuit consists of an HT7550-1, a capacitor twelve, a capacitor thirteen, a capacitor fourteen and a diode eight, wherein the anode of the diode eight is connected with 8V voltage input, the cathode of the diode eight and one end of the capacitor fourteen are connected with an HT7550-1 Vin pin, the GND pin of HT7550-1, the other end of the capacitor fourteen, the cathode of the capacitor twelve and one end of the capacitor thirteen are grounded, and the HT7550-1 Vout pin, the anode of the capacitor twelve and the other end of the capacitor thirteen are connected with 5V voltage output; the control circuit comprises a control module seven-pin plug-in connected with the control module, an LED lamp five-pin plug-in connected with the LED lamp, a PCB four-pin plug-in, a voltage detector, a controller, a MOS tube seven, an inductor four, a thermistor one, a triode three, a triode four, a triode five, a triode six, a clamping diode fifty-three, a clamping diode fifty-four, a clamping diode fifty-five, a clamping diode fifty-six, a MMDT3946 one, an MMDT3946 two, an MMDT3946 three, an MMDT3946 four, a diode two, a diode four, a diode five, a diode six, a diode fourteen, a capacitor sixteen, a capacitor seventeen, a capacitor fourteen, a capacitor forty-four zero, a resistor twenty-six, a resistor seventeen, a resistor twenty-eight, a resistor twenty-nine, a resistor thirty-one, a resistor thirty-two, a resistor thirty-three, a resistor thirty-five, a resistor thirty-six, a resistor thirty-seven, a resistor, a seventeen, a resistor, Thirty-eight resistor, thirty-nine resistor, forty-one resistor, forty-two resistor, forty-seven resistor, forty-nine resistor, fifty-five resistor, sixty-six resistor, sixty-two resistor, sixty-three resistor, sixty-four resistor, seventy-one resistor, fifty-zero resistor and sixty-zero capacitor, wherein the seven pins of the control module are connected with the three ends of the plug-in units, the seven pins of the control module are connected with the four ends of the plug-in units, the five pins of the control module are connected with the sixty-two ends of the resistor, the seven pins of the control module are connected with the six eleven ends of the plug-in units, the seven pins of the control module are connected with the two ends of the sixty-one resistor, the other ends of the sixty-two resistors, the other ends of the sixty-three resistor, the other ends of the sixty-four ends of the resistor and the forty capacitor, One end of a resistor sixty, one end of a capacitor sixteen, one end of a capacitor nineteen and two pins of a PCB four-pin plug-in are grounded, one end of a resistor fifty, the other end of the resistor sixty and the other end of the capacitor forty-four are connected with seven pins of a control module seven-pin plug-in, one pin of the PCB four-pin plug-in and the other end of the resistor fifty are connected with 5V voltage input, one pin of the capacitor sixteen and one end of a resistor five-zero are connected with one pin of the control module seven-pin plug-in, the other end of a resistor five-zero and one end of a capacitor six-zero are connected with a voltage detector VDD pin, one end of a capacitor four-zero is connected with a voltage detector OUT pin, the other end of a capacitor four-zero, the other end of a capacitor six-zero and one end of a capacitor six-zero, the voltage detector VSS pin is grounded, the four pins of the PCB four-pin plug-pin are connected with 49V voltage input, the three pins of the PCB four-pin plug-pin, the other end of the capacitor nineteen, one end of the resistor fifty-nine, one end of a diode, one terminal of the resistor fourteen negative electrode, one end of the resistor fifty-fifteen terminal fifty-fifteen, one end of the resistor forty-fifty, one terminal forty-fifty, the PCB four-pin plug-four-negative electrode of the capacitor plug-four-pin plug-four-pin plug-four-pin plug-four-pin of the capacitor, the capacitor-four-zero-negative electrode of the negative electrode of, A fifty-four end of a resistor, a fifty-three end of the resistor and a pin of a controller in are connected with a 42V voltage input, a fifty-five other end of the resistor, a forty-nine other end of the resistor, a fifty-four other end of the resistor, a fifty-three other end of the resistor, a pin of a controller rs and a three collector of a triode are connected with a pin of an LED lamp, a pin of a controller vcc is connected with a seventeen end of a capacitor, the other end of the capacitor is grounded, a pin of a controller dr is connected with a seventeen end of a resistor, the seventeen-one end of a resistor and a forty-two end of a resistor are connected with a seven-grid electrode of an MOS tube, a pin of a controller dim is connected with one end of a resistor forty-seventeen end of the resistor, the other end of the resistor, the seven-two end of the resistor and the seven-source electrode of the MOS tube are grounded, a fourteen anode of a diode and a seven-drain electrode of the MOS tube are connected with one end of an inductor, the four other end of the four end of the thermistor, a three-base electrode of the triode, a clamping diode and a fifty-six-cathode of the resistor, One twenty-nine end of the resistor is connected with a four-pin MMDT3946, the other twenty-nine end of the resistor is connected with a 49V voltage input, the other thirty-nine end of the resistor, one thirty-one end of the resistor, one-five pin MMDT3946, the other thirty-eight end of the resistor, one two-pin MMDT3946, the other thirty-eight end of the resistor, one-three pin MMDT3946, the anode of clamping diode fifty-six, the emitter of triode and the collector of triode are connected with the two pins of the plug-in of the LED lamp, the four base of triode, the cathode of clamping diode fifty-five, one thirty-two end of the resistor, one twenty-six end of the resistor, two-four pins of MMDT3946, the other twenty-six end of the resistor, the other thirty-two end of the resistor, one-thirteen end of the resistor, the other thirty-three end of the resistor, one-six pin of the MMDT3946, one end of the thirty-nine end of the resistor, one of the resistor, the other thirty-nine end of the resistor, the anode of the resistor, the MMDT3946 two-three pins, the clamping diode fifty-five anode, the triode four emitter, the triode five collector are connected with the LED lamp five-pin connector three pins, the triode five base, the clamping diode fifty-four cathode, one end of the resistor thirty-four, one end of the resistor twenty-seven are connected with the MMDT3946 three-four pins, the other end of the resistor twenty-seven is connected with 49V voltage input, the other end of the resistor thirty-four, one end of the resistor thirty-fifteen is connected with the MMDT3946 three-five pins, the other end of the resistor thirty-five is connected with the MMDT3946 three-six pins, one end of the resistor forty is connected with the MMDT3946 three-two pins, the other end of the resistor forty is connected with the diode six anode, the MMDT3946 three-three pins, the clamping diode fifty-fourteen anode, the triode five emitter and the triode six collector are connected with the LED lamp five-pin connector four pins, the triode six base, the clamping diode fifty-three cathode, one end of the resistor thirty-six end, one end of the resistor twenty-eight is connected with the MMDT3946 four pins, the other end of the resistor twenty-eight is connected with the 49V voltage input, the other end of thirty-six of the resistor and one end of thirty-seven of the resistor are connected with four-five pins of the MMDT3946, the other end of thirty-seven of the resistor is connected with four-six pins of the MMDT3946, one end of forty-one of the resistor is connected with four-two pins of the MMDT3946, the other end of forty-one of the resistor is connected with four anodes of the diodes, the four-three pins of the MMDT3946, the fifty-three anodes of the clamping diodes, the six emitting electrodes of the triodes and one end of the thermistor are connected with five pins of the LED lamp connecting plug-in unit, and the four cathodes of the diodes, the five cathodes of the diodes and the six cathodes of the diodes are connected with two cathodes of the diodes.

Preferably, a millimeter wave transmitting antenna and a receiving antenna are arranged in the microwave module, and can transmit millimeter waves outwards and receive reflected signals reflected by hands or consecutive actions of the hands; a plurality of control instructions and comparison data matched with the control instructions are prestored in the storage module; the comparison module can calculate the reflected signal output by the microwave module to obtain source data, and compares the source data with the comparison data in the storage module to obtain a control instruction matched with the comparison data; the control module can control the control circuit to make the LED lamp change correspondingly according to the control instruction output by the comparison module; the control instructions comprise an instruction for turning on the LED lamp, an instruction for turning off the LED lamp, an instruction for improving the brightness of the LED lamp, an instruction for reducing the brightness of the LED lamp, an instruction for improving the color temperature of the LED lamp and an instruction for reducing the color temperature of the LED lamp.

Preferably, the lamp body is also internally provided with a wireless module which is in signal connection with the storage module, and the external device can modify, update and synchronize the control instruction in the storage module and the comparison data matched with the control instruction through the wireless module.

Preferably, the external device may be any one of a computer, a mobile phone, a program, and an APP.

Preferably, the emission angle of the millimeter wave is 360 degrees, and the farthest emission distance of the millimeter wave is 30 meters.

Preferably, the LED driving chip is LD 7830.

Preferably, the linear regulator is RS 431.

Preferably, the voltage detector is HT 7027.

Preferably, the controller is MP 24894.

A control method for controlling a lamp by microwave gestures comprises the following steps:

s1, emitting millimeter waves to the periphery within a certain distance, and receiving reflected signals reflected by hands or the continuous actions of the hands;

s2, recognizing the motion change of the hand in a certain time according to the reflected signal, calculating source data corresponding to the motion change, and comparing the source data with preset contrast data to obtain a control instruction;

and S3, making the LED lamp change correspondingly according to the control command.

Compared with the prior art, the invention has the following advantages and effects: the millimeter wave signal can be transmitted and received, the millimeter wave signal is calculated and identified through the modules, so that the millimeter wave signal has more various control modes and control results, and meanwhile, the built-in lamp circuit can process connection and signal transmission of the modules, so that the working process is more stable.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic diagram of a rectifying circuit in a lamp circuit according to an embodiment.

Fig. 3 is a schematic diagram of a microwave power supply circuit in a lamp circuit according to an embodiment.

Fig. 4 is a schematic diagram of a control circuit in a lamp circuit according to an embodiment.

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Examples are given.

As shown in fig. 1, the embodiment includes a lamp body provided with an LED lamp, a microwave module, a storage module, a comparison module, a control module, and a wireless module are provided in the lamp body, the comparison module is respectively in signal connection with the microwave module and the storage module, the control module is in signal connection with the comparison module, and the wireless module is in signal connection with the storage module. The lamp circuit is connected with the microwave module, the control module and the LED lamp respectively, and provides electric energy for the working operation of the lamp and changes the working state of the LED lamp under the control of the control module.

The microwave module is internally provided with a millimeter wave transmitting antenna and a receiving antenna, and can transmit millimeter waves outwards and receive reflected signals caused by the hand or the continuous action of the hand. The emission period of the millimeter waves can be preset as required, the emission angle of the millimeter waves is 360 degrees, the farthest emission distance of the millimeter waves is slightly larger than the range of the lighting of the LED lamp, and in this embodiment, the farthest emission distance is 30 meters.

The storage module is internally pre-stored with a plurality of control instructions and comparison data matched with the control instructions, wherein the control instructions comprise an instruction for turning on the LED lamp, an instruction for turning off the LED lamp, an instruction for improving the brightness of the LED lamp, an instruction for reducing the brightness of the LED lamp, an instruction for improving the color temperature of the LED lamp, an instruction for reducing the color temperature of the LED lamp and more instructions for realizing state change with the LED lamp. Any control instruction corresponds to at least one comparison data, and each realizable control instruction can be output through at least one comparison data. The number of the control commands corresponding to each comparison data is fixed, and a plurality of control commands can be realized through one comparison data. When one comparison data corresponds to a plurality of control commands, the sequence of the control commands is fixed.

The comparison module can calculate the reflected signal output by the microwave module to obtain source data, and can compare the source data with the comparison data in the storage module to obtain at least one control instruction matched with the comparison data.

The control module can control the control circuit to make the LED lamp change correspondingly according to the control instruction output by the comparison module. When more than one control instruction is output by the comparison module, the control module controls the control circuit to make the LED lamp change correspondingly according to the input sequence of the control instructions.

The wireless module provides a scheme for connecting with external equipment for the lamp, and the scheme comprises WIFI, Bluetooth and other modes which can realize wireless connection at will. The external device can be used for connecting the lamp through the wireless module, and modifying, updating and synchronizing the control instructions in the storage module and the comparison data matched with the control instructions. The external device may be any one of a computer, a mobile phone, a program, and an APP.

The lamp circuit consists of a rectifying circuit, a microwave power supply circuit and a control circuit.

As shown in fig. 2, the rectifying circuit includes a linear regulator U5, a fuse F1, a common mode inductor LF1, a common mode inductor tri L3, a zener diode ZD1, a bridge rectifier diode DB1, an LED driver chip U2, a photocoupler light source PC1A, a photocoupler light receiver PC1B, a four-winding transformer TR1, an electrolytic capacitor E1, a triode Q1, a MOS transistor di-Q2, a varistor RV1, a varistor di-RV 2, an inductor L1, an inductor di-L2, a diode D1, a diode tri-D3, a diode heptad 7, a diode nine D9, a diode pentadec 15, a diode hexadecec 15, a diode seventec 15, a capacitor dc 15, a capacitor dc capacitor 15, a capacitor dc capacitor 15, a capacitor dc capacitor 15, a capacitor dc capacitor 15, a capacitor dc capacitor 15, a capacitor C15, a capacitor dc capacitor C15, a capacitor C, A capacitor twenty five C25, a capacitor twenty six C26, a resistor one R1, a resistor two R2, a resistor three R3, a resistor four R4, a resistor five R5, a resistor six R6, a resistor seven R7, a resistor eight R8, a resistor nine R9, a resistor ten R10, a resistor eleven R11, a resistor twelve R12, a resistor thirteen R13, a resistor fourteen R14, a resistor fifteen R15, a resistor sixteen R16, a resistor seventeen R17, a resistor eighteen R18, a resistor nineteen R19, a resistor twenty one R21, a resistor twenty twelve R22, a resistor twenty thirteen R23, a resistor twenty fourteen R24, a resistor twenty five R25, a resistor forty three R25, a resistor fifteen R25, a resistor forty six R25, a resistor fifty twelve R25 and a resistor fifty six R25, wherein an input pin I25 of a common mode inductor I is respectively connected with a voltage-sensitive resistor RV, a zero line, a resistor 25, a resistor IV and a common mode fuse F, and a resistor F25, and a common mode fuse F are respectively connected with one end of the other end of the common mode fuse F input terminal of the common mode fuse F and the common mode fuse F are respectively, a first common mode inductor output pin LF1 is connected with one end of an inductor two L2 and one end of a resistor twelve R12, the other end of an inductor two L2, the other end of a resistor twelve R12, a common mode inductor three L3 input pin is connected with one end of a capacitor eighteen C18, a second common mode inductor output pin LF1 input pin and a third common mode inductor three L3 input pin are connected with the other end of a capacitor eighteen C18, a common mode inductor three L3 output pin is connected with a first bridge rectifier diode DB1 alternating current input pin, a second common mode inductor three L3 output pin is connected with a second bridge rectifier diode DB1 alternating current input pin, a first bridge rectifier diode DB1 output anode is connected with one end of an inductor one L1, one end of a resistor three R3, one end of a capacitor six C6, a first bridge rectifier diode one output cathode, the other end of a capacitor six DB 6, one end of a capacitor seven C7, one end of a piezoresistor two RV 4 end is grounded, one end of a capacitor two C2 end, one end of a resistor four R2, one end of a resistor 2, a resistor five R2 and one end of a resistor 2 are connected with one end, The other end of a piezoresistor II RV2, the other end of an inductor I1, the other end of a resistor III R3 and the other end of a capacitor seven C7 are connected with a first input pin of a four-winding transformer TR1, the other end of a capacitor two C2, the other end of a resistor four R4 and the other end of a resistor five R5 are connected with the cathode of a diode three D3, the other end of a resistor two R2 is connected with one end of a resistor seven R7, the other end of a resistor seven R7 is connected with a pin U2 HV (universal serial bus) of an LED driving chip, a pin U2 ZCD (zero cross current) of the LED driving chip is respectively connected with one end of a resistor thirteen R13, one end of a resistor nineteen R19, one end of a resistor fifteen C19, the other end of a resistor nineteen R19 and the other end of a capacitor fifteen C19 are grounded, one end of the other end of a resistor thirteen R19 is connected with a fourth input pin of a fourth winding transformer TR 19, the drain of a MOS tube second Q19, the anode of a diode three D19 is connected with a fourth input pin II D19, one end of a fourth winding transformer TR 4, one end of a signal of a capacitor C19 is connected with the fourth winding transformer TR 19 and the cathode of a capacitor C19 is grounded 19, the other end of the capacitor nine C9, the anode of the capacitor ten C10, the anode of the diode sixteen D16, the emitter of the triode Q1 are connected with an LED driving chip U2 VCC pin, the cathode of the diode sixteen D16, one end of the resistor eleven R11, one end of the capacitor eight C8 and the cathode of the diode fifteen D15 are connected with the collector of the triode Q1, the anode of the diode fifteen D15 is connected with the other end of the resistor nine R9, the anode of the voltage-stabilizing diode ZD1 and one end of the capacitor eight C1 are grounded, the other end of the resistor eleven R1 and the cathode of the voltage-stabilizing diode ZD1 are connected with the base of the triode Q1, the anode of the diode seventeen D1, one end of the resistor seventeen R1 and one end of the resistor twenty-R1 are connected with the grid of the MOS tube II Q1, one end of the resistor twenty-Pentagon the 1, one end of the resistor Twur6854, one end of the resistor forty-Pentagon the diode 1 and one end of the diode seventeen D1 are connected with the source of the source Q1, one end of the cathode of the MOS tube 1 and the resistor 1 and the other end of the resistor 1, The other end of a resistor seventeen R17 is connected with an LED driving chip U2 GATE pin, the output end of a photoelectric coupler light receptor PC1B, one end of a capacitor twenty-six C26, the other end of a resistor twenty-five R25, the other end of a resistor forty-five R45, the other end of a resistor forty-three R43, one end of a resistor twenty-four R24, a resistor eleven R11 and the GND pin of the LED driving chip U2 are grounded in signal mode, the other end of a resistor twenty-one R21 is connected with the other end of a resistor twenty-four R24, the other end of a resistor forty-six R46 and the other end of a capacitor twenty-six C26 are connected with an LED driving chip U2 CS pin, the input end of the photoelectric coupler light receptor PC1B, one end of a capacitor twenty-two C22, one end of a capacitor twenty-three C23 is connected with an LED driving chip U2 COMP pin, the other end of a capacitor twenty-two C22 and the other end of a capacitor twenty-three C23 are connected with the other end of a resistor ten R10, the anode of a diode nine-D9, the anode of a diode one D1, the anode of a diode one end of a resistor sixteen R16 and the winding 15 are connected with an output transformer 59 1, the other end of the resistor pentadec R15 and the other end of the resistor sixteen R16 are connected with one end of a capacitor twenty-one C21, the other end of a capacitor twenty-one C21, the cathode of a diode nine D9, the cathode of a diode one D1, the anode of a capacitor three C3, the anode of a capacitor twenty-C20, one end of a capacitor five C5, one end of a resistor eight R8, one end of an electrolytic capacitor one E1, one end of a capacitor eleven C11 and one end of a resistor fourteen R14 are connected with a 42V voltage output, the cathode of a capacitor three C3, the cathode of a capacitor twenty C20, the other end of a capacitor five C5, the other end of a resistor eight R8 and the output pin of a four-winding transformer TR1 are grounded five times, the other end of the electrolytic capacitor one E1, the other end of the capacitor eleven C1, the other end of the resistor fourteen R1 and the cathode of the diode seventy D1 are connected with a 49V voltage output, the anode of the diode seven D1 is connected with an 8V voltage input end of a light-emitting source 1, and one end of a photoelectric coupler 1 is connected with the input end of the light-emitting source 1, one end of a capacitor twenty-five C25, the other end of a resistor eighteen R18 and the cathode of a linear voltage stabilizer U5 are connected with the output end of a photoelectric coupler light source PC1A, the anode of the linear voltage stabilizer U5 and one end of a resistor twenty-two R22 are grounded, the other end of the resistor twenty-two R22, one end of a resistor twenty-three R23, one end of a resistor fifty-two R52 and one end of a resistor fifty-six R56 are connected with a control pin of the linear voltage stabilizer U5, the other end of the resistor fifty-six R56 is connected with the other end of the capacitor twenty-five C25, the other end of the resistor twenty-three R23 is connected with a 42V voltage input, and the other end of the resistor fifty-two R52 is connected with an 8V voltage input. In this embodiment, the LED driving chip U2 is LD7830, and the linear regulator U5 is RS 431. The rectifier circuit outputs alternating current into +49V voltage and +8V voltage which can be used by modules of the lamp except a microwave module, the circuit is low in cost and optimized in structure, meanwhile, the output voltage of the power circuit can be stabilized, and unstable power supply voltage caused by the alternating current is avoided.

As shown in fig. 3, the microwave power supply circuit is composed of HT 7550-1U 1, a capacitor dodeca 12, a capacitor tridec 13, a capacitor tetradec 14, and a diode octa D8, wherein the anode of the diode octa D8 is connected to 8V voltage input, the cathode of the diode octa D8 and one end of the capacitor tetradec 14 are connected to the pin HT 7550-1U 1 Vin, the pin HT 7550-1U 1 GND, the other end of the capacitor tetradec 14, the cathode of the capacitor dodeca 12, one end of the capacitor tridec 13 is grounded, and the pin HT 7550-1U 1 Vout, the anode of the capacitor dodeca 12, and the other end of the capacitor tridec 13 are connected to 5V voltage output. The microwave power supply circuit outputs +8V voltage to +5V voltage which can be used by the microwave module, the output voltage precision is high, and the static power consumption current is low.

As shown in fig. 4, the control circuit includes a control module seven-pin plug JP connected to the control module, an LED lamp five-pin plug JP connected to the LED lamp, a PCB four-pin plug JP, a voltage detector 10, a controller U, a MOS transistor seven Q, an inductor four L, a thermistor one RZ, a triode three Q, a triode four Q, a triode five Q, a triode six Q, a clamp diode five dtree, a clamp diode five dtfourteen D, a clamp diode five dtfifteen D, a clamp diode five D sixteen D, a MMDT3946 one QD, a MMDT3946 two QDs, a MMDT3946 three QDs, a MMDT3946 four QD, a diode two D, a diode four D, a diode five D, a diode six D, a diode fourteen D, a capacitor sixteen C, a capacitor seventeen C, a capacitor forty C, a capacitor four zero C440, a twenty six resistor R, a twenty seven resistor R, a twenty-eight resistor R, a twenty-nine resistor R, a resistor R, A resistor thirty R30, a resistor thirty-one R31, a resistor thirty-two R32, a resistor thirty-three R33, a resistor thirty-four R33, a resistor thirty-five R33, a resistor thirty-six R33, a resistor thirty-seventeen R33, a resistor thirty-eight R33, a resistor thirty-nine R33, a resistor forty-ten R33, a resistor forty-two R33, a resistor forty-seven R33, a resistor forty-nine R33, a resistor fifty-two R33, a resistor fifty-one R33, a resistor fifty-three R33, a resistor fifty-four R33, a resistor fifty-five R33, a resistor sixty-two R33, a resistor sixty-three R33, a resistor seventy-four R33, a resistor fifty-one R501, a capacitor sixty-one C601, a control module seven-pin connector 33, a three pin connector, a resistor thirty-four-pin and a resistor 33, a seven-pin plug of a control module JP3 is connected with one end of a sixty-one R61 pin, the seven-pin plug of the control module JP3 is connected with two pins, the other end of a sixty-one R61 pin, the other end of a sixty-two R62 pin, the other end of a sixty-three R63 pin, the other end of a sixty-four R64 pin, one end of a fourteen C44 pin, a sixty-one R61 pin, one end of a sixteen C16 pin, one end of a nineteen C19 pin, the other end of a PCB is connected with a plug JP4 pin and is grounded, a fifty-one R51 pin, the other end of a sixty R60 pin and the other end of a fourteen C44 pin are connected with a seven-pin plug of the control module JP3 pin, the four-pin plug of the PCB is connected with one pin JP4 pin, the other end of the fifty R50 pin is connected with a 5V voltage input, the other end of the sixteen C16 pin and one end of the fifty-zero-one R501 pin is connected with a seven-pin of the control module plug 3 pin, the other end of a voltage detector JP 501 pin OUT 440 pin is connected with the voltage detector 10, the other end of a capacitor tetrazero C440, the other end of a capacitor sixty-zero C601, a voltage detector 10 VSS pin are grounded, a PCB four-pin plug-in JP4 four pin is connected with a 49V voltage input, a PCB four-pin plug-in JP4 three pin, the other end of a capacitor nineteen C19, one end of a resistor fifty-one R51, a cathode of a diode fourteen D14, one end of a resistor fifty-five R55, one end of a resistor forty-nine R49, one end of a resistor fifty-four R54, one end of a resistor fifty-three R53, a controller U3 in pin is connected with a 42V voltage input, the other end of a resistor fifty-five R55, the other end of a resistor forty-nine R49, the other end of a resistor fifty-four R54, the other end of a resistor fifty-three-R53, a controller U3 rs pin, a triode three-Q3 collector is connected with an LED lamp fifty-pin plug-pin JP1 one pin, a controller U3 vcc pin is connected with one end of a capacitor seventy C17, the other end of a capacitor seventy-C17 another end is grounded, the other end of a controller U3 drr 71, one end of a resistor seventy-seven-R71 is connected with a resistor 71, One end of a resistor forty-two R42 is connected with a grid of a MOS (metal oxide semiconductor) transistor seventy-Q7, a pin of a controller U3 dim is connected with one end of a resistor forty-seven R47, the other end of the resistor forty-seven R47, the other end of the resistor forty-twelve R42, the source of the MOS transistor seventy-Q7 is grounded, the anode of a diode fourteen D7 and the drain of the MOS transistor seventy-Q7 are connected with one end of an inductor tetraL 7, the other end of the inductor tetraL 7 is connected with one end of a thermistor RZ 7, the base of a triode thirty-Q7, the cathode of a clamp diode five D7 sixteen D7, the terminal of a resistor thirty-eleven R7, one end of a resistor twenty-nine R7 is connected with a MMDT 3946-six pins, the other end of the clamp diode 7, the other end of the thirty-eight R7 is connected with a 49V voltage input, the other end of the resistor thirty-eight-five-three-five-foot of the MMDT 7, the anode of the MMDT 7 is connected with the MMDT3946, the anode of the MMDT 7, the MMDT 7 and the anode of the MMDT 7 is connected with the MMDT 7, the other end of the MMDT 7 is connected with the MMDT 7, the MMDT-eight-five-eight-five-, An emitter of a triode three Q3, a collector of a triode four Q4 are connected with a pin of an LED lamp which is connected with a pin of a plug-in unit JP1, a base of a triode four Q4, a negative electrode of a clamp diode five D5 pentadec 55, one end of a resistor thirty-two R32, one end of a resistor twenty-six R32 are connected with a pin of an MMDT3946 two QD 32, the other end of the resistor twenty-six R32 is connected with a 49V voltage input, the other end of the resistor thirty-two R32, one end of a resistor thirty-three R32 are connected with a pin of the MMDT3946 two QD 32, the other end of the resistor thirty-three R32 is connected with a pin of the MMDT3946 one QD 32, one end of the resistor thirty-nine R32 is connected with a pin of the MMDT3946 two QD 32, the other end of the resistor thirty-nine R32 is connected with a positive electrode of the diode five D32, one pin of the MMDT3946 three QD 32, a positive electrode of the clamp diode five D32, a base of the LED five Q32, a collector of the plug-pin of the LED lamp is connected with a pin of the plug-in unit JP 32, one terminal of the plug-three Q32, one end of the pin of the resistor 32, and a resistor 32, one end of the resistor 32 is connected with a pin of the MMDT 32, one end of the MMDT 32 and a pin of the MMDT 32, the other end of the resistor twenty-seven R27 is connected with a 49V voltage input, the other end of the resistor thirty-four R34, one end of the resistor thirty-five R35 is connected with an MMDT3946 three QD3 five-pin, the other end of the resistor thirty-five R35 is connected with an MMDT3946 three QD3 six-pin, the end of the resistor forty-eleven R41 is connected with an MMDT3946 three QD3 two-pin, the other end of the resistor forty R40 is connected with an anode of a diode six D6, the other end of the MMDT3946 three QD 6 three-pin, a cathode of a clamping diode five D6 fourteen D6, an emitter of a triode five Q6, a collector of an MMDT 6 is connected with an LED lamp five-pin plug 6, a base of a triode six Q6, a cathode of the clamping diode five D6 thirteen D6, one end of the resistor thirty-sixteen R6, one end of the MMDT 6 one terminal, one end of the MMDT 6 one end of the MMeighteen R6 is connected with an MMDT 46 four QD four-pin 6 four pins 6, the other end of the resistor twenty-eighteen R6 is connected with a 49V voltage input, the other end of the resistor seventy R6 is connected with a 49V voltage input, the other end of the resistor seventy-seventy R6 is connected with the other end of the resistor seventy-seventy R6, the other end of the resistor 6 is connected with a resistor seventy-five-six-pin of the another end of the another resistor 6 is connected with a resistor 6 and the another resistance, the another resistance is connected with a resistance 6 and the another resistance 6 is connected with a resistance 6 and the resistance 6 of the four-pin of the four-pin of the resistance 6 and the resistance 6 of the resistance 6 is connected with the resistance 6 of the resistance 6 and the resistance 6 of the resistance 6 is connected with the MMDT 6, the other end of the resistor forty-one R41 is connected with the anode of a diode four D4, the MMDT3946 four QD4 three-pin, the anode of a clamp diode five D5 thirteen D53, the emitter of a triode six Q6, the other end of the thermistor one RZ1 is connected with a pin of a LED lamp five-pin connector JP1, the cathode of the diode four D4, the cathode of the diode five D5 and the cathode of the diode six D6 are connected with the cathode of a diode two D2. In this embodiment, the voltage detector 10 is HT7027, and the controller U3 is MP 24894. In the arranged voltage stabilizing circuit, a control module outputs a control instruction (PWM signal which can enable the LED lamp to change the working state) to a controller U3MP24894 through a control module seven-pin plug-in JP3, and a controller U3MP24894 outputs (changes PWM duty ratio) to control a MOS tube seven-Q7 to match with an MMDT3946 one-QD 1, an MMDT3946 two-QD 2, an MMDT3946 three-QD 3 and an MMDT3946 four-QD 4 so as to change the current passing through the LED lamp five-pin plug-in JP1, thereby changing the working state of the LED lamp, including turning on the LED lamp, turning off the LED lamp, improving the brightness of the LED lamp, reducing the brightness of the LED lamp and the like. In addition, a PCB quad-pin connector JP4 is provided for connection to an external module, providing some adjustability to the circuit, such as connection to a voltage regulation module, for stabilizing the operating voltage of the circuit.

In this embodiment, specific parameters or types of each electronic component include: a common mode inductance LF1, 2200 uH; common mode inductance three L3, 35 MH; zener diode one ZD1, 20V; the bridge rectifier diode one DB1 is KBP 408; the photoelectric coupler is PC 817C; the four-winding transformer TR1 is EE 16W; electrolytic capacitors one E1, 22 uF; the triode I Q1 is KSP 2222; the MOS transistor II Q2 is 6N 70; the first piezoresistor RV1 is 10D 511; the second piezoresistor RV2 is 10D 511; inductance L1, 3.3 mH; inductance two L2, 3.3 mH; diode one D1 is SF 55; diode three D3 is RS 1M; diode seven D7 is DFS 1J; diode fifteen D15 is DFS 1J; diode sixteen D16 is 4148; diode seventeen D17 is 4148; capacitance two C2, 1 nF; capacitance three C3, 680 uF; capacitance five C5, 100 nF; the capacitor six C6 is 683/630V; a capacitor seven C7124/630V; capacitance eight C8,10 uF; capacitances nine C9, 100 nF; capacitance deca 10, 10 uF; capacitance eleven C11, 100 nF; a capacitance of eighteen C18; capacitance twenty C20, 680 uF; capacitance twenty-one C21, 100 pF; capacitance twenty-two C22,4.7 uF; capacitance twenty three C23,2.2 uF; a capacitance of twenty-six C26, 150pF; resistance one R1,47 Ω; resistance two R2, 10K omega; resistance three R3, 10K Ω; resistance four R4, 200K Ω; resistance five R5, 200K Ω; resistance seven R7, 10K Ω; resistance eight R8, 100K Ω; resistance nine R9, 10 Ω; resistors decar 10, 220 Ω; resistance eleven R11, 4.7K Ω; resistance twelve R12, 12K Ω; resistance thirteen R13, 130K Ω; fourteen R14, 14K Ω; resistance fifteen R15, 51 Ω; resistance sixteen R16, 51 Ω; resistance seventeen R17, 82 Ω; resistance nineteen R19, 33K Ω; resistance twenty-one R21,10K Ω; resistance twenty-four R24,1.3 Ω; resistance twenty-five R25, 47 Ω; resistance forty-three R43,47 Ω; resistance forty-five R45,47 Ω; resistance forty six R46, 270 Ω; capacitance twelve C12, 220uF; capacitance thirteen C13, 100 nF; capacitance fourteen c14, 220uf; diode eight D8 is DFS 1J; capacitance twenty-five C25, 2.2 uF; resistance six R6, 470 Ω; resistance eighteen R18, 10K Ω; resistance twenty-two R22, 2.7K Ω; resistance twenty three R23, 49.9 Ω; resistance fifty-two R52, 47K Ω; resistance fifty six R56, 18K Ω; the MOS tube is seven Q7, 10A/100V; inductance four L4, 270 uH; a triode three Q3, 3A/60V; a triode four Q4, 3A/60V; a triode five Q5, 3A/60V; a triode six Q6, 3A/60V; clamp diode five D5 thirteen D53, 18V; five clamping diodes D5 fourteen D54, 18V; clamp diodes five D5 fifteen D55, 18V; five clamp diodes D5 sixteen D56, 18V; diode two D2 is SDMK 0340L; diode quad D4 is SDMK 0340L; diode five D5 is SDMK 0340L; diode six D6 is SDMK 0340L; a diode fourteen D14, 10A/100V; capacitance sixteen C16,1 nF; capacitance seventeen C17, 2.2 uF; capacitance nineteen C19, 100 nF; capacitance forty-four C44, 1 nF; capacitance four zero C440, 1 nF; capacitance six zero one C601, 1 nF; resistance twenty-six R26, 15K Ω; the resistance is twenty-seven R27, 15K omega; resistance twenty-eight R28, 15K Ω; a resistance of twenty-nine R29, 12K omega; resistance thirty R30, 33K Ω; resistance thirty-one R31, 15K Ω; resistance thirty-two R32, 33K Ω; resistance thirty-three R33, 10K Ω; resistance thirty-four R34, 33K Ω; resistance thirty-five R35, 4.7K Ω; resistance thirty six R36, 33K Ω; resistance thirty-seven R37, 3K Ω; resistance thirty-eight R38, 10K Ω; resistance thirty-nine R39, 10K Ω; resistance forty R40, 10K Ω; resistance forty one R41, 10K Ω; resistance forty-two R42, 4.7K Ω; resistance forty-seven R47, 4.7K Ω; resistance forty nine R49, 1.1 Ω; resistance fifty R50, 6.8K Ω; resistance fifty-three R53, 1.1 Ω; resistance fifty-four R54, 1.1 Ω; resistance fifty five R55, Ω; resistance sixty R60, Ω; resistance sixty one R61, 3K Ω; resistance sixty-two R62, 3K Ω; resistance sixty-three R63, 3K Ω; resistance sixty-four R64, 3K Ω; resistance seventy-one R71, 20 Ω; resistors are fifty-one R501, 33K Ω. The parameters and types of the electronic components are only one of the preferences of this embodiment, but not only one of the preferences.

The microwave gesture control lamp provided by the above specific embodiment can transmit and receive millimeter wave signals, and the millimeter wave signals are calculated and identified by the modules, so that the microwave gesture control lamp has more various control modes and control results, and meanwhile, the built-in lamp circuit can process connection and signal transmission of the modules, so that the working process is more stable.

The embodiment of the invention provides a control method for controlling a lamp by a microwave gesture, which comprises the following steps:

and S1, periodically emitting millimeter waves in a certain distance and receiving a reflected signal reflected by the hand or the hand continuous action.

And S2, recognizing the motion change of the hand within a certain time according to the reflected signal, calculating source data corresponding to the motion change, and comparing the source data with preset comparison data to obtain a control instruction.

And S3, making the LED lamp change correspondingly according to the control command.

The foregoing specific embodiment provides a control method for controlling a lamp by using a microwave gesture, where the emitted millimeter waves are reflected by a hand, so that the lamp by using the microwave gesture calculates a corresponding hand (hand motion) by using the reflected millimeter waves, thereby obtaining a control instruction corresponding to the hand (hand motion), implementing control of the lamp by using the microwave gesture, and enabling the lamp by using the microwave gesture to have more various control modes and control results.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (9)

1. A microwave gesture control lamp comprises a lamp body provided with an LED lamp and is characterized in that a microwave module, a storage module, a comparison module and a control module are arranged in the lamp body, the comparison module is respectively in signal connection with the microwave module and the storage module, and the control module is in signal connection with the comparison module; the microwave module is internally provided with a millimeter wave transmitting antenna and a receiving antenna, can transmit millimeter waves outwards and receive reflected signals reflected by hands or the consecutive actions of the hands; a plurality of control instructions and comparison data matched with the control instructions are prestored in the storage module; the comparison module can calculate the reflected signal output by the microwave module to obtain source data, and compares the source data with the comparison data in the storage module to obtain a control instruction matched with the comparison data; the control module can control the control circuit to make the LED lamp change correspondingly according to the control instruction output by the comparison module; the control instructions comprise an instruction for turning on the LED lamp, an instruction for turning off the LED lamp, an instruction for improving the brightness of the LED lamp, an instruction for reducing the brightness of the LED lamp, an instruction for improving the color temperature of the LED lamp and an instruction for reducing the color temperature of the LED lamp;

the LED lamp also comprises a lamp circuit which is arranged in the lamp main body and is respectively connected with the microwave module, the control module and the LED lamp, wherein the lamp circuit consists of a rectifying circuit, a microwave power supply circuit and a control circuit, the rectifying circuit consists of a fuse, a common-mode inductor I, a common-mode inductor III, a voltage stabilizing diode I, a bridge type rectifying diode I, an LED driving chip, a photoelectric coupler light receiver, a four-winding transformer, an electrolytic capacitor I, a triode I, an MOS tube II, a piezoresistor I, a piezoresistor II, an inductor I, an inductor II, a diode I, a diode III, a diode VII, a diode nine, a diode fifteen, a diode sixteen, a diode seventeen, a capacitor II, a capacitor III, a capacitor V, a capacitor VI, a capacitor VII, a capacitor eight, a capacitor nine, a capacitor eleven, a capacitor fifteen, a capacitor twenty-one, a capacitor twenty-twelve, a capacitor twenty-thirteen, a capacitor thirteen and a control circuit, and the LED lamp is connected with the common-inductor I, and the LED lamp, The common mode inductor comprises a first input pin of the common mode inductor which is respectively connected with one end of the piezoresistor and a zero line, a second input pin of the common mode inductor which is respectively connected with the other end of the piezoresistor and one end of the fuse, the other end of the fuse is connected with a live wire, a first output pin of the common mode inductor is respectively connected with one end of the inductor II and one end of the piezoresistor, the zero line, the common mode inductor which is respectively connected with one end of the piezoresistor and one end of the fuse, the common mode inductor which is respectively connected with the other end of the piezoresistor and one end of the fuse, the common mode inductor which is connected with one end of the inductor II and one end of the fuse, the resistor which is connected with the live wire, a resistor which is connected with the other end of the piezoresistor and one end of the inductor, a resistor which is connected with one end of the resistor, a resistor II, a resistor which is connected with one end of the common mode inductor and one end of the fuse, a resistor which is connected with the other end of the common mode inductor, a resistor which is connected with the resistor II, a resistor which is connected with the other end of the resistor which is connected with the common mode inductor, and the resistor which is connected with the common mode inductor which is connected with the other end of the common mode inductor which is connected with the first and the other end of the first and the first input pin is connected with the first and the second which is connected with the first and the second which is connected with the first and the second which is connected with the first input pin is connected, One end of a resistor twelve is connected, the other end of an inductor two, the other end of the resistor twelve, a common mode inductor three input pin one is connected with one end of a capacitor eighteen, a common mode inductor one output pin two, a common mode inductor three input pin two is connected with the other end of the capacitor eighteen, the common mode inductor three output pin one is connected with a bridge rectifier diode one alternating current input pin one, the common mode inductor three output pin two is connected with a bridge rectifier diode one alternating current input pin two, an output positive electrode of the bridge rectifier diode is respectively connected with one end of the inductor one, one end of a resistor three, one end of a capacitor six, one end of a capacitor seven, one end of a piezoresistor two, one end of the capacitor two, one end of a resistor four, one end of a resistor five, one end of the resistor two, the other end of the piezoresistor two, the other end of the inductor one, the other end of the resistor three, and the other end of the capacitor seven are connected with one input pin one of a four-winding transformer, the other end of the capacitor two, the other end of the resistor four and the other end of the resistor five are connected with the cathode of the diode three, the other end of the resistor two is connected with one end of the resistor seven, the other end of the resistor seven is connected with the HV pin of the LED driving chip, the ZCD pin of the LED driving chip is respectively connected with one end of the resistor thirteen, one end of the resistor nineteen and one end of the capacitor fifteen, the signal ground is connected with the other ends of the resistor thirteen and the resistor nine, the input pin four of the four-winding transformer is connected with the drain electrode of the MOS tube two and the anode of the diode three, the input pin three of the four-winding transformer, one end of the capacitor nine and the cathode of the capacitor are connected with the signal ground, the other end of the capacitor nine end, the anode of the capacitor ten, the anode of the diode sixteen and the emitter of the triode VCC pin are connected with the emitter of the LED driving chip, the cathode of the diode sixteen, one end of the resistor eleven, one end of the capacitor eight and the cathode of the diode fifteen are connected with the collector of the triode, the anode of a diode fifteen is connected with the other end of a resistor nine, the anode of a voltage-stabilizing diode and the other end of a capacitor eight are in signal grounding, the other end of a resistor eleven and the cathode of the voltage-stabilizing diode are connected with a base electrode of a triode, the anode of a diode seventeen, the end of a resistor seventeen and the end of a resistor twenty one are connected with a grid electrode of an MOS tube, the end of a resistor twenty five, the end of a resistor forty five and the end of a resistor forty six are connected with a source electrode of the MOS tube, the cathode of a diode seventeen are connected with one end of a resistor, the other end of the resistor seventeen and the other end of the resistor seventeen are connected with a GATE pin of an LED driving chip, the output end of a light-receiving device of a photoelectric coupler, the end of the capacitor twenty six, the other end of the resistor twenty five, the other end of the resistor forty three, the end of the resistor twenty four end, the resistor, the ten end of the LED driving chip GND pin are in signal grounding, the other end of the resistor is connected with the twenty four ends, the other end of the resistor forty-six and the other end of the capacitor twenty-six are connected with a CS pin of an LED driving chip, the input end of a photoelectric coupler light receiver, one end of the capacitor twenty-two and one end of the capacitor twenty-three are connected with a COMP pin of the LED driving chip, the other end of the capacitor twenty-two and the other end of the capacitor twenty-three are connected with a eleven-end of the resistor sixteen, one end of a diode nine anode, one anode of a diode, one end of a resistor sixteen and one end of a resistor fifteen are connected with a six pin of a four-winding transformer output pin, the other end of a resistor fifteen and the other end of the resistor sixteen are connected with one end of a capacitor twenty-one, the other end of a diode nine cathode, the anode of a diode, the anode of a capacitor three, the anode of a capacitor twenty-anode, one end of a capacitor five, one end of a resistor eight, one end of an electrolytic capacitor one end, one end of a capacitor eleven end and one end of a resistor fourteen are connected with a 42V voltage output, the negative electrode of the capacitor twenty-cathode, the other end of the capacitor five, the other end of the capacitor eight end of the capacitor, The output pin of the four-winding transformer is grounded five times, the other end of the electrolytic capacitor, the other end of the capacitor eleven, the other end of the resistor fourteen and the cathode of the diode seventy are connected with a 49V voltage output, the anode of the diode seventy is connected with an 8V voltage output, one end of the resistor six is connected with an 8V voltage input, the other end of the resistor six and one end of the resistor eighteen are connected with the input end of the light source of the photoelectric coupler, one end of the capacitor twenty five and the other end of the resistor eighteen, the cathode of the linear voltage stabilizer is connected with the output end of the light source of the photoelectric coupler, the anode of the linear voltage stabilizer and one end of a twenty-two resistor are grounded, the other end of the twenty-two resistor, one end of a twenty-three resistor, one end of a fifty-two resistor and one end of a fifty-six resistor are connected with the control pin of the linear voltage stabilizer, the other end of a fifty-six resistor is connected with the other end of a twenty-five capacitor, the other end of a twenty-three resistor is connected with a 42V voltage input, and the other end of the fifty-two resistor is connected with an 8V voltage input;

the microwave power supply circuit consists of an HT7550-1, a capacitor twelve, a capacitor thirteen, a capacitor fourteen and a diode eight, wherein the anode of the diode eight is connected with 8V voltage input, the cathode of the diode eight and one end of the capacitor fourteen are connected with an HT7550-1 Vin pin, the GND pin of HT7550-1, the other end of the capacitor fourteen, the cathode of the capacitor twelve and one end of the capacitor thirteen are grounded, and the HT7550-1 Vout pin, the anode of the capacitor twelve and the other end of the capacitor thirteen are connected with 5V voltage output;

the control circuit comprises a control module seven-pin plug-in connected with the control module, an LED lamp five-pin plug-in connected with the LED lamp, a PCB four-pin plug-in, a voltage detector, a controller, a MOS tube seven, an inductor four, a thermistor one, a triode three, a triode four, a triode five, a triode six, a clamping diode fifty-three, a clamping diode fifty-four, a clamping diode fifty-five, a clamping diode fifty-six, a MMDT3946 one, an MMDT3946 two, an MMDT3946 three, an MMDT3946 four, a diode two, a diode four, a diode five, a diode six, a diode fourteen, a capacitor sixteen, a capacitor seventeen, a capacitor fourteen, a capacitor forty-four, a capacitor-four-zero, a capacitor sixty-one, a resistor twenty-six, a resistor twenty-seven, a resistor twenty-eight, a resistor twenty-nine, a resistor thirty-one, a resistor thirty-two, a resistor thirty-three, a resistor, a resistance thirty-five, a resistor, a thirty-six, a resistor, a clamp, a clamping diode fifteen-five-ten-four-pin plug-pin plug-in connected with the control module, a control, Thirty-seven resistors, thirty-eight resistors, thirty-nine resistors, forty-five resistors, forty-two resistors, forty-seven resistors, fifty-five resistors, sixty-six resistors, sixty-two resistors, sixty-four resistors, seventy-one resistors and fifty-zero resistors, wherein the seven-pin plug-in of the control module is connected with one end of the sixty-four resistors, the seven-pin plug-in of the control module is connected with one end of the sixty-three resistors, the five-pin plug-in of the control module is connected with one end of the sixty-two resistors, the seven-pin plug-in of the control module is connected with one end of the sixty-one resistors, the other end of the sixty-two resistors, the other end of the sixty-three resistors, the other end of the sixty-four resistors and one end of the forty capacitors, One end of a resistor sixty, one end of a capacitor sixteen, one end of a capacitor nineteen and two pins of a PCB four-pin plug-in are grounded, one end of a resistor fifty, the other end of the resistor sixty and the other end of the capacitor forty-four are connected with seven pins of a control module seven-pin plug-in, one pin of the PCB four-pin plug-in and the other end of the resistor fifty are connected with 5V voltage input, one pin of the capacitor sixteen and one end of a resistor five-zero are connected with one pin of the control module seven-pin plug-in, the other end of a resistor five-zero and one end of a capacitor six-zero are connected with a voltage detector VDD pin, one end of a capacitor four-zero is connected with a voltage detector OUT pin, the other end of a capacitor four-zero, the other end of a capacitor six-zero and one end of a capacitor six-zero, the voltage detector VSS pin is grounded, the four pins of the PCB four-pin plug-pin are connected with 49V voltage input, the three pins of the PCB four-pin plug-pin, the other end of the capacitor nineteen, one end of the resistor fifty-nine, one end of a diode, one terminal of the resistor fourteen negative electrode, one end of the resistor fifty-fifteen terminal fifty-fifteen, one end of the resistor forty-fifty, one terminal forty-fifty, the PCB four-pin plug-four-negative electrode of the capacitor plug-four-pin plug-four-pin plug-four-pin plug-four-pin of the capacitor, the capacitor-four-zero-negative electrode of the negative electrode of, A fifty-four end of a resistor, a fifty-three end of the resistor and a pin of a controller in are connected with a 42V voltage input, a fifty-five other end of the resistor, a forty-nine other end of the resistor, a fifty-four other end of the resistor, a fifty-three other end of the resistor, a pin of a controller rs and a three collector of a triode are connected with a pin of an LED lamp, a pin of a controller vcc is connected with a seventeen end of a capacitor, the other end of the capacitor is grounded, a pin of a controller dr is connected with a seventeen end of a resistor, the seventeen-one end of a resistor and a forty-two end of a resistor are connected with a seven-grid electrode of an MOS tube, a pin of a controller dim is connected with one end of a resistor forty-seventeen end of the resistor, the other end of the resistor, the seven-two end of the resistor and the seven-source electrode of the MOS tube are grounded, a fourteen anode of a diode and a seven-drain electrode of the MOS tube are connected with one end of an inductor, the four other end of the four end of the thermistor, a three-base electrode of the triode, a clamping diode and a fifty-six-cathode of the resistor, One twenty-nine end of the resistor is connected with a four-pin MMDT3946, the other twenty-nine end of the resistor is connected with a 49V voltage input, the other thirty-nine end of the resistor, one thirty-one end of the resistor, one-five pin MMDT3946, the other thirty-eight end of the resistor, one two-pin MMDT3946, the other thirty-eight end of the resistor, one-three pin MMDT3946, the anode of clamping diode fifty-six, the emitter of triode and the collector of triode are connected with the two pins of the plug-in of the LED lamp, the four base of triode, the cathode of clamping diode fifty-five, one thirty-two end of the resistor, one twenty-six end of the resistor, two-four pins of MMDT3946, the other twenty-six end of the resistor, the other thirty-two end of the resistor, one-thirteen end of the resistor, the other thirty-three end of the resistor, one-six pin of the MMDT3946, one end of the thirty-nine end of the resistor, one of the resistor, the other thirty-nine end of the resistor, the anode of the resistor, the MMDT3946 two-three pins, the clamping diode fifty-five anode, the triode four emitter, the triode five collector are connected with the LED lamp five-pin connector three pins, the triode five base, the clamping diode fifty-four cathode, one end of the resistor thirty-four, one end of the resistor twenty-seven are connected with the MMDT3946 three-four pins, the other end of the resistor twenty-seven is connected with 49V voltage input, the other end of the resistor thirty-four, one end of the resistor thirty-fifteen is connected with the MMDT3946 three-five pins, the other end of the resistor thirty-five is connected with the MMDT3946 three-six pins, one end of the resistor forty is connected with the MMDT3946 three-two pins, the other end of the resistor forty is connected with the diode six anode, the MMDT3946 three-three pins, the clamping diode fifty-fourteen anode, the triode five emitter and the triode six collector are connected with the LED lamp five-pin connector four pins, the triode six base, the clamping diode fifty-three cathode, one end of the resistor thirty-six end, one end of the resistor twenty-eight is connected with the MMDT3946 four pins, the other end of the resistor twenty-eight is connected with the 49V voltage input, the other end of thirty-six of the resistor and one end of thirty-seven of the resistor are connected with four-five pins of the MMDT3946, the other end of thirty-seven of the resistor is connected with four-six pins of the MMDT3946, one end of forty-one of the resistor is connected with four-two pins of the MMDT3946, the other end of forty-one of the resistor is connected with four anodes of the diodes, the four-three pins of the MMDT3946, the fifty-three anodes of the clamping diodes, the six emitting electrodes of the triodes and one end of the thermistor are connected with five pins of the LED lamp connecting plug-in unit, and the four cathodes of the diodes, the five cathodes of the diodes and the six cathodes of the diodes are connected with two cathodes of the diodes.

2. The microwave gesture-controlled light fixture of claim 1, wherein: the lamp body is also internally provided with

And the wireless module is in signal connection with the storage module, and the external equipment can modify, update and synchronize the control instruction in the storage module and the comparison data matched with the control instruction through the wireless module.

3. The microwave gesture control light fixture of claim 2, wherein: the external device can be any one of a computer, a mobile phone, a program and an APP.

4. The microwave gesture control light fixture of claim 1, wherein: the emission angle of the millimeter waves is 360 degrees, and the farthest emission distance of the millimeter waves is 30 meters.

5. A microwave gesture-controlled light fixture according to any one of claims 1-4, characterized in that: the LED driving chip is LD 7830.

6. A microwave gesture-controlled light fixture according to any one of claims 1-4, characterized in that: the linear regulator is RS 431.

7. A microwave gesture-controlled light fixture according to any one of claims 1-4, characterized in that: the voltage detector is HT 7027.

8. The microwave gesture-controlled light fixture of any one of claims 1-4, wherein: the controller is MP 24894.

9. A control method for controlling a lamp by a microwave gesture according to any one of claims 1 to 8, comprising the steps of:

s1, the microwave module emits millimeter waves to the periphery within a certain distance and receives reflected signals reflected by hands or the continuous actions of the hands;

s2, a comparison module identifies motion change of the hand within a certain time according to the reflected signal, calculates source data corresponding to the motion change, and obtains a control instruction through comparison of the source data and preset comparison data;

and S3, the control module makes the LED lamp change correspondingly according to the control instruction.

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