CN209806130U - Intelligent induction lamp control circuit - Google Patents

Abstract

The utility model discloses an intelligence response lamps and lanterns control circuit, this intelligence response lamps and lanterns control circuit includes: the singlechip controls the processing module; the photosensitive sensing module is used for detecting the intensity of ambient light and is connected with the single-chip microcomputer control processing module; the radar sensing module is connected with the single chip microcomputer control processing module through a signal amplifying circuit module; the 0-10V voltage output dimming module is used for dimming the LED lamp, the 0-10V voltage output dimming module is connected with the single-chip microcomputer control processing module, and the 0-10V voltage output dimming module is connected with the LED lamp; the infrared remote control module is connected with the single chip microcomputer control processing module; the circuit module for converting DC20-80V into DC5V is characterized in that the circuit module for converting DC20-80V into DC5V is connected with the single-chip microcomputer control processing module, the radar sensing module, the infrared remote control module, the signal amplification circuit module and the 0-10V voltage output dimming module, and the circuit module for converting DC20-80V into DC5V is connected with the DC20-80V input end.

Description

Intelligent induction lamp control circuit

the technical field is as follows:

The utility model relates to the field of electronic technology, refer in particular to an intelligence response lamps and lanterns control circuit.

Background art:

The induction lamp is a novel intelligent illuminating product capable of automatically controlling the light source to be turned on, is a new generation of green energy-saving illuminating lamp, can be automatically turned on for illumination, can be automatically turned off in a delayed manner after people leave, avoids artificial waste of energy, prolongs the service life of an electric appliance, and integrates the functions of energy conservation and convenience.

In the prior art, the induction lamp acquires signals through the induction device, transmits the induction signals to the single chip microcomputer, and judges and controls the on and off of the lighting lamp through the single chip microcomputer. When the induction lamp receives the control signal of the single chip microcomputer, the induction lamp starts to illuminate, and after a certain time, if the induction device does not acquire the induction signal any more, the single chip microcomputer controls the induction lamp to stop illuminating, so that the purpose of intelligently controlling the induction lamp to be started and closed is achieved.

the induction lamp in the prior art can only start and stop the lighting function according to a single induction signal received by a single induction device, the working mode of the induction lamp is single, the function is single, and the induction lamp cannot meet the use requirements of modern people.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

An object of the utility model is to overcome prior art not enough, provide an intelligence response lamps and lanterns control circuit.

In order to solve the technical problem, the utility model discloses a following technical scheme: this intelligence response lamps and lanterns control circuit includes: the singlechip controls the processing module; the photosensitive sensing module is used for detecting the intensity of ambient light and is connected with the single-chip microcomputer control processing module; the radar sensing module is connected with the single chip microcomputer control processing module through a signal amplifying circuit module; the 0-10V voltage output dimming module is used for dimming the LED lamp, the 0-10V voltage output dimming module is connected with the single-chip microcomputer control processing module, and the 0-10V voltage output dimming module is connected with the LED lamp; the infrared remote control module is connected with the single chip microcomputer control processing module; the circuit module for converting DC20-80V into DC5V is characterized in that the circuit module for converting DC20-80V into DC5V is connected with the single-chip microcomputer control processing module, the radar sensing module, the infrared remote control module, the signal amplification circuit module and the 0-10V voltage output dimming module, and the circuit module for converting DC20-80V into DC5V is connected with the DC20-80V input end.

further, in the above technical solution, the single chip microcomputer control processing module includes a single chip microcomputer, and the model of the single chip microcomputer is N76E 003.

Further, in the above technical solution, the photosensitive sensing module includes a photosensitive device, the photosensitive device is connected to the circuit module of converting DC20-80V to DC5V after being connected to the resistor R17, and the photosensitive device is further connected to the single chip microcomputer control processing module.

Further, in the above technical solution, the type of the photosensitive device is PT 0805.

furthermore, in the above technical solution, the signal amplification circuit module includes a first operational amplifier chip, the model of the first operational amplifier chip is 2904, one pin of the first operational amplifier chip is connected to the single chip microcomputer control processing module after being connected to the resistor R13, and one pin of the first operational amplifier chip is connected to the radar sensing module.

Further, in the above technical solution, the radar sensing module includes a radar sensing antenna, and the radar sensing antenna is connected to the DC 20-80V-to-DC 5V circuit module and the signal amplifying circuit module.

further, in the above technical solution, the 0-10V voltage output dimming module includes an RC resonant circuit connected to the single chip microcomputer control processing module, a 2-fold signal amplifying circuit, and a 0-10V voltage output port, and the 0-10V voltage output port is connected to the LED lamp.

Furthermore, in the above technical solution, the infrared remote control module includes an infrared receiving tube, the type of the infrared receiving tube is CHQ0038K, pin 1 of the infrared receiving tube is connected to the single chip microcomputer control processing module, pin 2 of the infrared receiving tube is grounded, and pin 3 of the infrared receiving tube is connected to the resistor R16 and then connected to the DC 20-80V-to-DC 5V circuit module.

Further, in the above technical solution, the DC20-80V to DC5V circuit module includes a DC20-80V to DC12V circuit module and a DC12V to DC5V circuit module which are connected in sequence, the DC20-80V to DC12V circuit module is connected to the 0-10V voltage output dimming module, and the DC12V to DC5V circuit module is connected to the single chip microcomputer control processing module, the radar sensing module, the signal amplification circuit module and the infrared remote control module.

Further, in the above technical solution, the circuit module for converting DC20-80V into DC12V includes a first voltage stabilization chip, and the model of the first voltage stabilization chip is XL 7045; and the DC 12V-to-DC 5V circuit module comprises a second voltage stabilizing chip, and the model of the second voltage stabilizing chip is 78L 05.

after the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: when the utility model works, the light intensity of the environment is detected by the photosensitive sensing module, the light sensing signal is transmitted to the singlechip control processing module, and the singlechip control processing module judges whether the light sensing signal reaches a set value; meanwhile, whether a person enters an induction area is detected through the radar induction module, a radar induction signal is transmitted to the single-chip microcomputer control processing module, only when the single-chip microcomputer control processing module judges that the light induction signal reaches a set value and the radar induction module detects that the person enters the induction area, the single-chip microcomputer control processing module controls the 0-10V voltage output dimming module to work so as to start the LED lamp to realize illumination, therefore, the light ray difference can be ensured, and the LED lamp can be started to realize illumination under the condition of the person, so that the LED lamp has the characteristics of high accuracy, stability, energy conservation and the like; meanwhile, the utility model can be connected with an external infrared remote controller through an infrared remote control module to realize the remote control function; furthermore, the utility model discloses still can realize adjusting luminance to LED lamps and lanterns through the module realization of adjusting luminance of single chip microcomputer control processing module cooperation 0-10V voltage output to satisfy different operation requirements, order the utility model discloses extremely strong market competition has.

Description of the drawings:

FIG. 1 is a block diagram of the present invention;

Fig. 2 is a circuit diagram of the present invention.

the specific implementation mode is as follows:

The present invention will be further described with reference to the following specific embodiments and accompanying drawings.

as shown in fig. 1 and 2, an intelligent induction lamp control circuit is provided, which includes: a single chip microcomputer control processing module 1; the photosensitive sensing module 2 is used for detecting the intensity of ambient light, and the photosensitive sensing module 2 is connected with the singlechip control processing module 1; the radar sensing module 3 is connected with the singlechip control processing module 1 through a signal amplifying circuit module 4; the 0-10V voltage output dimming module 6 is used for dimming the LED lamp 5, the 0-10V voltage output dimming module 6 is connected with the single-chip microcomputer control processing module 1, and the 0-10V voltage output dimming module 6 is connected with the LED lamp 5; the infrared remote control module 7, the infrared remote control module 7 connects the said single-chip computer control processing module 1; the circuit module 8 for converting DC20-80V into DC5V is connected with the singlechip control processing module 1, the radar sensing module 3, the infrared remote control module 7, the signal amplification circuit module 4 and the 0-10V voltage output dimming module 6 through the DC20-80V into DC5V, and the circuit module 8 for converting DC20-80V into DC5V is connected with the DC20-80V input end 9. When the utility model works, the light intensity of the environment is detected by the photosensitive sensing module 2, the photoinduction signal is transmitted to the singlechip control processing module 1, and the singlechip control processing module 1 judges whether the photoinduction signal reaches a set value; meanwhile, whether a person enters an induction area is detected through the radar induction module 3, a radar induction signal is transmitted to the single chip microcomputer control processing module 1, only when the single chip microcomputer control processing module 1 judges that the light induction signal reaches a set value, and the radar induction module 3 detects that the person enters the induction area, the single chip microcomputer control processing module 1 controls the 0-10V voltage output dimming module 6 to work so as to start the LED lamp 5 to realize illumination, therefore, the light ray difference can be ensured, and the LED lamp 5 is started to realize illumination under the condition of the person, so that the accuracy is high, and the characteristics of stability, energy conservation and the like are realized; meanwhile, the utility model can be connected with an external infrared remote controller through an infrared remote control module 7 to realize the remote control function; furthermore, the utility model discloses still can realize adjusting luminance to LED lamps and lanterns 5 through 1 cooperation 0-10V voltage output of single chip microcomputer control processing module 6 to satisfy different operation requirements, order the utility model discloses extremely strong market competition has.

The single chip microcomputer control processing module 1 comprises a single chip microcomputer 11, and the model of the single chip microcomputer 11 is N76E 003. The PWM pin of the singlechip 11 is connected with the 0-10V voltage output dimming module 6.

The photosensitive sensing module 2 comprises a photosensitive device 21, the photosensitive device 21 is connected with the circuit module 8 converting DC20-80V into DC5V after being connected with a resistor R17, and the photosensitive device 21 is further connected with the single-chip microcomputer control processing module 1. The type of the photosensitive device 21 is PT 0805.

the signal amplification circuit module 4 comprises a first operational amplifier chip 41, the model of the first operational amplifier chip 41 is 2904, one pin of the first operational amplifier chip 41 is connected with the single-chip microcomputer control processing module 1 after being connected with a resistor R13, and one pin of the first operational amplifier chip 41 is connected with the radar sensing module 3. The signal amplification circuit module 4 is used for amplifying the signal collected by the radar sensing module 3 into 0-4V voltage and then transmitting the voltage to the single chip microcomputer 11.

The radar sensing module 3 comprises a radar sensing antenna 31, and the radar sensing antenna 31 is connected with the circuit module 8 for converting DC20-80V into DC5V and the signal amplifying circuit module 4.

The 0-10V voltage output dimming module 6 comprises an RC resonant circuit 61 connected with the single chip microcomputer control processing module 1, a 2-fold signal amplifying circuit 62 and a 0-10V voltage output port 63, and the 0-10V voltage output port 63 is connected with the LED lamp 5.

The infrared remote control module 7 comprises an infrared receiving tube 71, the model of the infrared receiving tube 71 is CHQ0038K, 1 pin of the infrared receiving tube 71 is connected with the singlechip control processing module 1, 2 pins of the infrared receiving tube 71 are grounded, and 3 pins of the infrared receiving tube 71 are connected with a resistor R16 and then connected with the DC 20-80V-to-DC 5V circuit module 8.

the circuit module 8 for converting DC20-80V into DC5V comprises a DC20-80V into DC12V circuit module 81 and a DC12V into DC5V circuit module 82 which are sequentially connected, the circuit module 81 for converting DC20-80V into DC12V is connected with the dimming module 6 for outputting voltage of 0-10V, and the circuit module 82 for converting DC12V into DC5V is connected with the singlechip control processing module 1, the radar sensing module 3, the signal amplification circuit module 4 and the infrared remote control module 7.

The circuit module 81 for converting DC20-80V into DC12V comprises a first voltage stabilizing chip 811, wherein the model of the first voltage stabilizing chip 811 is XL 7045; and the DC12V to DC5V circuit module 82 includes a second zener chip 821, the model number of which is 78L 05.

to sum up, the utility model detects the light intensity of the environment through the photosensitive sensing module 2, and transmits the light sensing signal to the single chip microcomputer control processing module 1, and the single chip microcomputer control processing module 1 judges whether the light sensing signal reaches the set value; meanwhile, whether a person enters an induction area is detected through the radar induction module 3, a radar induction signal is transmitted to the single chip microcomputer control processing module 1, only when the single chip microcomputer control processing module 1 judges that the light induction signal reaches a set value, and the radar induction module 3 detects that the person enters the induction area, the single chip microcomputer control processing module 1 controls the 0-10V voltage output dimming module 6 to work so as to start the LED lamp 5 to realize illumination, therefore, the light ray difference can be ensured, and the LED lamp 5 is started to realize illumination under the condition of the person, so that the accuracy is high, and the characteristics of stability, energy conservation and the like are realized; meanwhile, the utility model can be connected with an external infrared remote controller through an infrared remote control module 7 to realize the remote control function; furthermore, the utility model discloses still can realize adjusting luminance to LED lamps and lanterns 5 through 1 cooperation 0-10V voltage output of single chip microcomputer control processing module 6 to satisfy different operation requirements, order the utility model discloses extremely strong market competition has.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides an intelligence response lamps and lanterns control circuit which characterized in that: it includes:

A single chip microcomputer control processing module (1);

The photosensitive sensing module (2) is used for detecting the intensity of ambient light, and the photosensitive sensing module (2) is connected with the single chip microcomputer control processing module (1);

The radar sensing module (3) is connected with the single-chip microcomputer control processing module (1) through a signal amplification circuit module (4);

The 0-10V voltage output dimming module (6) is used for dimming the LED lamp (5), the 0-10V voltage output dimming module (6) is connected with the single-chip microcomputer control processing module (1), and the 0-10V voltage output dimming module (6) is connected with the LED lamp (5);

The infrared remote control module (7), the infrared remote control module (7) connects the said single-chip microcomputer control processing module (1);

the circuit module (8) is used for converting DC20-80V into DC5V, the circuit module (8) is used for converting DC20-80V into DC5V, the circuit module (8) is connected with the single-chip microcomputer control processing module (1), the radar sensing module (3), the infrared remote control module (7), the signal amplification circuit module (4) and the 0-10V voltage output dimming module (6), and the circuit module (8) is used for converting DC20-80V into DC5V and is connected with the DC20-80V input end (9).

2. The intelligent induction lamp control circuit of claim 1, wherein: the single chip microcomputer control processing module (1) comprises a single chip microcomputer (11), and the type of the single chip microcomputer (11) is N76E 003.

3. The intelligent induction lamp control circuit of claim 1, wherein: the photosensitive sensing module (2) comprises a photosensitive device (21), the photosensitive device (21) is connected with the circuit module (8) converting DC20-80V into DC5V after being connected with a resistor R17, and the photosensitive device (21) is also connected with the single-chip microcomputer control processing module (1).

4. The intelligent induction lamp control circuit of claim 3, wherein: the type of the photosensitive device (21) is PT 0805.

5. The intelligent induction lamp control circuit of claim 1, wherein: the signal amplification circuit module (4) comprises a first operational amplifier chip (41), the model of the first operational amplifier chip (41) is 2904, one pin of the first operational amplifier chip (41) is connected with the single-chip microcomputer control processing module (1) after being connected with a resistor R13, and one pin of the first operational amplifier chip (41) is connected with the radar sensing module (3).

6. The intelligent induction lamp control circuit of any one of claims 1-5, wherein: the radar sensing module (3) comprises a radar sensing antenna (31), and the radar sensing antenna (31) is connected with the DC 20-80V-to-DC 5V circuit module (8) and the signal amplification circuit module (4).

7. The intelligent induction lamp control circuit of claim 6, wherein: the 0-10V voltage output dimming module (6) comprises an RC resonant circuit (61) connected with the single-chip microcomputer control processing module (1), a 2-time signal amplification circuit (62) and a 0-10V voltage output port (63), and the 0-10V voltage output port (63) is connected with the LED lamp (5).

8. The intelligent induction lamp control circuit of claim 6, wherein: the infrared remote control module (7) comprises an infrared receiving tube (71), the model of the infrared receiving tube (71) is CHQ0038K, 1 pin of the infrared receiving tube (71) is connected with the single-chip microcomputer control processing module (1), 2 pins of the infrared receiving tube (71) are grounded, and 3 pins of the infrared receiving tube (71) are connected with a resistor R16 and then connected with the circuit module (8) for converting DC20-80V into DC 5V.

9. The intelligent induction lamp control circuit of claim 6, wherein: the circuit module (8) for converting DC20-80V into DC5V comprises a DC20-80V into DC12V circuit module (81) and a DC12V into DC5V circuit module (82) which are sequentially connected, the DC20-80V into DC12V circuit module (81) is connected with the 0-10V voltage output dimming module (6), and the DC12V into DC5V circuit module (82) is connected with the single-chip microcomputer control processing module (1), the radar sensing module (3), the signal amplification circuit module (4) and the infrared remote control module (7).

10. The intelligent induction lamp control circuit of claim 9, wherein: the circuit module (81) for converting DC20-80V into DC12V comprises a first voltage stabilizing chip (811), wherein the model of the first voltage stabilizing chip (811) is XL 7045; and the DC 12V-to-DC 5V circuit module (82) comprises a second voltage stabilizing chip (821), and the model number of the second voltage stabilizing chip (821) is 78L 05.