CN113811048A - Intelligent power supply and control method thereof - Google Patents

Abstract

The invention discloses an intelligent power supply and a control method thereof, and the intelligent power supply comprises an input end, a low-voltage rectifying device and an output end, wherein the input end comprises an AC input end, a first high-frequency filter, a high-voltage filter capacitor and an AC full-bridge rectifier, the AC input end is connected with the first high-frequency filter, the first high-frequency filter is connected with the AC full-bridge rectifier, the AC rectifier is connected with the high-voltage filter capacitor, a double-power-supply switching tube is arranged between the input end and the low-voltage rectifying device, the low-voltage rectifying device comprises a switching transformer, a low-voltage rectifier, an output voltage filter capacitor and a second high-frequency filter, one end of the switching transformer is connected with the power-supply switching tube, the other end of the switching transformer is connected with the low-voltage rectifier, the low-voltage rectifier is connected with the second high-frequency filter, the second high-frequency filter is connected with the output voltage filter capacitor, the output end is provided with an RGB silicon tube, and the RGB silicon tube is connected with a lamp.

Description

Intelligent power supply and control method thereof

Technical Field

The invention belongs to the technical field of power supplies, and particularly relates to an intelligent power supply and a control method thereof.

Background

The traditional power needs to be connected with the RGB controller, just can control the lamp area of colour, and the power can only receive the control signal of remote controller, can not connect the application of cell-phone and the control signal of language control, through the line connection between traditional power and the RGB controller, produces extra wiring process at the in-process of product assembly, has more the cost of labor and the material cost of product, and the power of traditional power is less.

The power supply is a common accessory in an electric appliance, the traditional power supply can only adjust the voltage of an external power supply, the external power supply is connected with an external lamp through the output end of the power supply after the external power supply is adjusted to a certain voltage, and the adjusted current is transmitted to the lamp end, but the traditional power supply does not achieve the function of controlling the lamp to work, and the traditional power supply is the main defect of the traditional technology.

Disclosure of Invention

The technical scheme provided by the invention is as follows: an intelligent power supply comprises an input end, a low-voltage rectifier and an output end, wherein the input end comprises an AC input end, a first high-frequency filter, a high-voltage filter capacitor and an AC full-bridge rectifier, the AC input end is connected with the first high-frequency filter, the first high-frequency filter is connected with the AC full-bridge rectifier, the AC rectifier is connected with the high-voltage filter capacitor, a double-power switch tube is arranged between the input end and the low-voltage rectifier, the low-voltage rectifier comprises a switch transformer, a low-voltage rectifier, an output voltage filter capacitor and a second high-frequency filter, one end of the switch transformer is connected with the power switch tube, the other end of the switch transformer is connected with the low-voltage rectifier, the low-voltage rectifier is connected with the second high-frequency filter, and the second high-frequency filter is connected with the output voltage filter capacitor, the output end is provided with an RGB silicon tube, and the RGB silicon tube is connected with a lamp.

A control method of an intelligent power supply comprises the following steps:

in the first step, a control command is sent,

the control instruction comprises a language instruction, a mobile phone instruction and a remote controller instruction, the language instruction is sent by a human body, the language instruction can control the on-off, color, transparency and brightness of the lamp,

the mobile phone clicks to enter a full-color lamp interface by opening a downloaded application program of the mobile phone, the full-color lamp interface comprises a power-on key, a power-off key and a dimming part, the power-on key and the power-off key are pressed to generate a control instruction for starting or shutting off the lamp, the switch of the lamp can be controlled,

the light adjusting part comprises a color control strip, a saturation control strip, a color temperature control strip and a brightness control strip, a control instruction of the color of the lamp light can be generated by sliding fingers on the color control strip, the hue of the lamp light can be adjusted,

the control instruction of the saturation of the lamp light is generated by sliding the finger on the saturation control strip, the saturation of the lamp light can be adjusted,

the color temperature control instruction of the lamp light can be regenerated by sliding the finger on the color temperature control strip, the color temperature of the lamp light can be adjusted,

the brightness control instruction of the lamp light can be regenerated by sliding the finger on the brightness control strip, the brightness of the lamp light is saved,

the application program also has a mode interface and a timing interface, the mode interface is provided with a plurality of keys for controlling the working mode of the lamp light, the keys are pressed to generate the working mode instruction of the lamp light, the working mode of the lamp can be adjusted,

the timing interface is provided with a plurality of timing time period keys which control the working time of the lamp and press the time period keys to generate timing instructions of lamp light,

the remote controller is provided with an adjusting key and a mode key, the adjusting key is pressed to generate an adjusting instruction, the adjusting instruction can adjust the color temperature, the transparency, the color and the brightness of the lamp light,

and pressing the mode key to generate a mode instruction, wherein the mode instruction can control the working mode of the lamp.

The second step, receiving the control command,

the power supply can receive the control instruction from the control instruction, the control instruction comprises a language instruction, a mobile phone instruction and a remote controller instruction,

the mobile phone is connected with the power supply through the Bluetooth and receives the control command sent by the mobile phone,

the remote controller is connected with the power supply in a matching way and receives the control instruction sent by the remote controller.

And the third step, transmitting the control command,

and after receiving the control instruction from the language, the mobile phone and the remote controller, the power supply transmits the received control instruction to the lamp end.

The fourth step, the control instruction is executed,

and the lamp receives the control instruction from the power supply, executes the control instruction and controls the working state of the lamp to work according to the control instruction.

The invention has the technical effects and advantages that: the control power supply can receive the language control signal, the mobile phone control signal and the remote controller control signal and transmit the received control command to the lamp end, thereby achieving the effect of controlling the lamp to work and solving the problem that the traditional power supply needs to be connected with an RGB controller through a power line and can only receive the control command of the remote controller.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the power supply of the present invention.

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

Fig. 3 is a schematic view of a full-color lamp interface of the mobile phone of the present invention.

Fig. 4 is a schematic diagram of a mode interface of the mobile phone of the present invention.

Fig. 5 is a schematic diagram of the remote controller of the present invention.

Fig. 6 is a schematic view of lamp control according to the present invention.

Detailed Description

As shown in fig. 1, the intelligent power supply comprises an input end, a low-voltage rectifying device and an output end, wherein the input end is externally connected with a circuit, the output end is connected with an external lamp, and the output end transmits a control signal of the power supply to the lamp end to control the lamp to work.

The input end comprises an AC input end 11, a first high-frequency filter 12, a high-voltage filter capacitor 13 and an AC full-bridge rectifier 14, wherein the AC input end 11 is connected with the first high-frequency filter 12, the first high-frequency filter 12 is connected with the AC full-bridge rectifier 14, and the AC rectifier 14 is connected with the high-voltage filter capacitor 13.

In specific implementation, an external power supply is input from the AC input terminal 11, the first high-frequency filter 12 filters high voltage of the external power supply, and the external power supply is decompressed through the AC full-bridge rectifier 14 and the high-voltage filter capacitor 13.

A double-power switch tube 15 is arranged between the input end and the low-voltage rectifying device.

The low-voltage rectifying device comprises a switch transformer 21, a low-voltage rectifier 22, an output voltage filtering capacitor 23 and a second high-frequency filter 24, wherein one end of the switch transformer 21 is connected with the power switch tube 15, the other end of the switch transformer 21 is connected with the low-voltage rectifier 22, the low-voltage rectifier 22 is connected with the second high-frequency filter 24, and the second high-frequency filter 24 is connected with the output voltage filtering capacitor 23.

At least more than one output voltage filter capacitor 23 is arranged.

The output end is provided with an RGB silicon tube 25, the RGB silicon tube 25 is connected with the lamp and controls color mixing, transparency adjusting degree, switch, lamp transparency and timing of the lamp.

The power still is equipped with intelligent control module 30, intelligent control module 30 is equipped with transmission antenna 31, intelligent control module 30 with RGB silicon tube 25 is connected.

In the concrete implementation, intelligent object with transmission antenna connects, and APP control RGB adjusts colours, transfers transparency, switch and regularly on the accessible bluetooth connection cell-phone, also can connect intelligent audio amplifier connection network relation connection and transmit the power, realizes the different functions of speech control transform, can connect different change intelligent audio amplifier and changed single connected mode.

As shown in fig. 2 to 6, a control method of an intelligent power supply includes the steps of:

in the first step, a control command is sent.

The control instruction comprises a language instruction, a mobile phone instruction and a remote controller instruction, the language instruction is sent out by a human body through the language signal, and the language instruction can control the on-off, color, transparency and brightness of the lamp.

The mobile phone clicks to enter a full-color lamp interface by opening an application program downloaded by the mobile phone, the full-color lamp interface comprises a starting button, a shutdown button and a dimming part, the starting button is pressed, the shutdown button generates a control instruction for starting or shutting down the lamp, and the lamp can be controlled to be switched on or off.

The light modulation part comprises a color control strip, a saturation control strip, a color temperature control strip and a brightness control strip, the control command of the color of the lamp light can be generated by sliding the color control strip through fingers, and the hue of the lamp light can be adjusted.

The control instruction of the saturation of the lamp light is generated by sliding the saturation control strip through the fingers, and the saturation of the lamp light can be adjusted.

The color temperature control instruction of the lamp light can be regenerated by sliding the finger on the color temperature control strip, the color temperature of the lamp light can be adjusted,

the brightness control instruction of the lamp light can be regenerated by sliding the finger on the brightness control strip, and the brightness of the lamp light is saved.

The application program is further provided with a mode interface and a timing interface, the mode interface is provided with a plurality of keys for controlling the working mode of the lamp light, the keys are pressed to generate the working mode instruction of the lamp light, and the working mode of the lamp can be adjusted.

The timing interface is provided with a plurality of timing time period keys, the time period keys control the working time of the lamp, and the time period keys are pressed to generate a timing instruction of lamp light of the lamp.

The remote controller is provided with an adjusting key and a mode key, the adjusting key is pressed to generate an adjusting instruction, and the adjusting instruction can adjust the color temperature, the transparency, the color and the brightness of lamp light.

And pressing the mode key to generate a mode instruction, wherein the mode instruction can control the working mode of the lamp.

And secondly, receiving a control instruction.

The power supply can receive the control instruction, and the control instruction comprises a language instruction, a mobile phone instruction and a remote controller instruction.

The mobile phone is connected with the power supply through the Bluetooth and receives the control command sent by the mobile phone.

The remote controller is connected with the power supply in a matching way and receives the control instruction sent by the remote controller.

And thirdly, transmitting a control command.

And after receiving the control instruction from the language, the mobile phone and the remote controller, the power supply transmits the received control instruction to the lamp end.

And fourthly, executing the control instruction.

And the lamp receives the control instruction from the power supply, executes the control instruction and controls the working state of the lamp to work according to the control instruction.

The control power supply can receive the language control signal, the mobile phone control signal and the remote controller control signal and transmit the received control command to the lamp end, thereby achieving the effect of controlling the lamp to work and solving the problem that the traditional power supply needs to be connected with an RGB controller through a power line and can only receive the control command of the remote controller.

Claims (5)

1. An intelligent power supply, characterized by: comprises an input end, a low-voltage rectifying device and an output end,

the input end comprises an AC input end (11), a first high-frequency filter (12), a high-voltage filter capacitor (13) and an AC full-bridge rectifier (14), the AC input end (11) is connected with the first high-frequency filter (12), the first high-frequency filter (13) is connected with the AC full-bridge rectifier (14), the AC rectifier (14) is connected with the high-voltage filter capacitor (13),

a double-power switch tube (15) is arranged between the input end and the low-voltage rectifying device,

the low-voltage rectifying device comprises a switching transformer (21), a low-voltage rectifier (22), an output voltage filter capacitor (23) and a second high-frequency filter (24),

one end of the switch transformer (21) is connected with the power switch tube (15), the other end of the switch transformer (21) is connected with the low-voltage rectifier (22), the low-voltage rectifier (22) is connected with the second high-frequency filter (24), the second high-frequency filter (24) is connected with the output voltage filter capacitor (23),

the output end is provided with an RGB silicon tube (25), and the RGB silicon tube (25) is connected with a lamp.

2. The intelligent control power supply of claim 1, wherein: the power still is equipped with intelligent control module (30), intelligent control module (30) are equipped with transmission antenna (31), intelligent control module (30) with RGB silicon tube (25) are connected.

3. The intelligent control power supply of claim 1, wherein: the output voltage filter capacitor (23) is at least provided with more than one.

4. A control method of an intelligent power supply comprises the following steps:

in the first step, a control command is sent,

the control instruction comprises a language instruction, a mobile phone instruction and a remote controller instruction, the language instruction is sent by a human body, the language instruction can control the on-off, color, transparency and brightness of the lamp,

the mobile phone clicks to enter a full-color lamp interface by opening a downloaded application program of the mobile phone, the full-color lamp interface comprises a power-on key, a power-off key and a dimming part, the power-on key and the power-off key are pressed to generate a control instruction for starting or shutting off the lamp, the switch of the lamp can be controlled,

the light adjusting part comprises a color control strip, a saturation control strip, a color temperature control strip and a brightness control strip, a control instruction of the color of the lamp light can be generated by sliding fingers on the color control strip, the hue of the lamp light can be adjusted,

the control instruction of the saturation of the lamp light is generated by sliding the finger on the saturation control strip, the saturation of the lamp light can be adjusted,

the color temperature control instruction of the lamp light can be regenerated by sliding the finger on the color temperature control strip, the color temperature of the lamp light can be adjusted,

the brightness control instruction of the lamp light can be regenerated by sliding the finger on the brightness control strip, the brightness of the lamp light is saved,

the application program also has a mode interface and a timing interface, the mode interface is provided with a plurality of keys for controlling the working mode of the lamp light, the keys are pressed to generate the working mode instruction of the lamp light, the working mode of the lamp can be adjusted,

the timing interface is provided with a plurality of timing time period keys which control the working time of the lamp and press the time period keys to generate timing instructions of lamp light,

the remote controller is provided with an adjusting key and a mode key, the adjusting key is pressed to generate an adjusting instruction, the adjusting instruction can adjust the color temperature, the transparency, the color and the brightness of the lamp light,

and pressing the mode key to generate a mode instruction, wherein the mode instruction can control the working mode of the lamp.

5. The second step, receiving the control command,

the power supply can receive the control instruction from the control instruction, the control instruction comprises a language instruction, a mobile phone instruction and a remote controller instruction,

the mobile phone is connected with the power supply through the Bluetooth and receives the control command sent by the mobile phone,

the remote controller is connected with the power supply in a matching way and receives the control instruction sent by the remote controller,

and the third step, transmitting the control command,

after receiving the control instruction from the language, the mobile phone and the remote controller, the power supply transmits the received control instruction to the lamp end,

the fourth step, the control instruction is executed,

and the lamp receives the control instruction from the power supply, executes the control instruction and controls the working state of the lamp to work according to the control instruction.

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