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CN-122001055-A - LED display wireless charger based on AI blink algorithm and control method

CN122001055ACN 122001055 ACN122001055 ACN 122001055ACN-122001055-A

Abstract

The invention discloses an LED display wireless charger based on an AI blinking algorithm and a control method, wherein blinking parameters comprising average blinking frequency, single blinking time length and eye closing intervals are preset in an AI blinking algorithm module, the AI blinking algorithm module carries out randomization processing on the blinking parameters based on a linear congruence random number algorithm, adjusts fluctuation time length and blinking time length of each blinking interval and sets parameter constraint logic to generate a blinking control signal representing a natural blinking effect, and a main MCU module is used for controlling the charging state of a circular charging coil and outputting a control instruction to an LED eye module according to the blinking control signal so as to control the on-off time sequence of an LED lamp in the LED eye module and further simulate the natural blinking effect of human eyes. Compared with the prior art, the invention not only can fully utilize the idle area of the non-coil cavity and realize the natural blinking effect of human eyes, but also has simple structure and lower cost, and better meets the application requirements.

Inventors

  • SHE BO
  • YI CHAOQUN
  • ZHU TIANSHU

Assignees

  • 深圳市茂楷创新科技有限公司

Dates

Publication Date
20260508
Application Date
20260209

Claims (10)

  1. 1. The utility model provides a wireless charger of LED demonstration based on AI blinking algorithm, its characterized in that, including charger body (1), be equipped with circular charging coil (2) and mainboard (6) in charger body (1), the center department of circular charging coil (2) is formed with non-coil hole region (3) and is located LED eyes module (4) of non-coil hole region (3) inboard, LED eyes module (4) with circular charging coil (2) electricity respectively connect in mainboard (6), integrated main MCU module and AI blinking algorithm module on mainboard (6), wherein: The AI blink algorithm module is internally preset with blink parameters comprising average blink frequency, single blink duration and eye closure intervals, performs randomization processing on the blink parameters based on a linear congruence random number algorithm, adjusts fluctuation duration and blink duration of each blink interval, sets parameter constraint logic and generates blink control signals representing natural blink effects; The main MCU module is used for controlling the charging state of the round charging coil (2) and outputting a control instruction to the LED eye module (4) according to the blink control signal, so as to control the on-off time sequence of the LED lamp in the LED eye module (4), and further simulate the natural blink effect of human eyes.
  2. 2. The AI blink algorithm-based LED display wireless charger of claim 1, wherein the LED eye module (4) includes 6 LED lamps (7), the 6 LED lamps (7) are symmetrically distributed in two left and right columns, and a distance between the two left and right symmetrical LED lamps (7) is 14mm.
  3. 3. The AI-blink-algorithm-based LED display wireless charger of claim 1, wherein the AI-blink-algorithm module is built-in with a status-link sub-module for receiving wireless charging-operation status data transmitted by the main MCU module and dynamically matching corresponding blink logic data.
  4. 4. The AI blink algorithm based LED display wireless charger of claim 1 wherein the outside cover of the LED eye module (4) is provided with a light guide cover (5).
  5. 5. The AI blink algorithm based LED display wireless charger of claim 1 wherein signal transmission is achieved between the AI blink algorithm module and the main MCU module via a serial port communication protocol or UART communication protocol.
  6. 6. An AI blink algorithm-based control method for an LED display wireless charger, wherein the control method is implemented based on the wireless charger of claim 1, the control method comprising: Writing blink parameters comprising average blink frequency, single blink duration and eye closure intervals into the AI blink algorithm module, carrying out randomization processing on the blink parameters based on a linear congruence random number algorithm by the AI blink algorithm module, adjusting fluctuation duration and blink duration of each blink interval, setting parameter constraint logic, and generating blink control signals representing natural blink effects; And the main MCU module is used for controlling the charging state of the round charging coil (2) and outputting a control instruction to the LED eye module (4) according to the blink control signal, so as to control the on-off time sequence of the LED lamp in the LED eye module (4), and further simulate the natural blink effect of human eyes.
  7. 7. The AI blink algorithm based LED display wireless charger control method of claim 6, wherein the average blink frequency in the blink parameters is 10-20 times per minute, the duration of a single blink is 0.1-0.4 seconds, and the eye closure interval between blinks is 2-6 seconds.
  8. 8. The method for controlling the wireless charger for the LED display based on the AI blinking algorithm according to claim 6, wherein a state linkage submodule is built in the AI blinking algorithm module, the state linkage submodule is used for receiving wireless charging working state data transmitted by the main MCU module and dynamically matching corresponding blinking logic data, the blinking frequency is 10-20 times per minute when the wireless charger is in a standby state, the LED eye module (4) is extinguished when the wireless charger is in a charging state, and the blinking function is restored when the wireless charger stops charging.
  9. 9. The AI blink algorithm based LED display wireless charger control method of claim 8, wherein the status linkage submodule adjusts the probability of triggering complete blinks and incomplete blinks according to a set parameter.
  10. 10. The AI blink algorithm based LED display wireless charger control method of claim 8, further comprising a parameter restricting step for restricting the randomly adjusted blink parameters from exceeding the blink parameter range.

Description

LED display wireless charger based on AI blink algorithm and control method Technical Field The invention relates to a wireless charger, in particular to an LED display wireless charger based on an AI blinking algorithm and a control method. Background With the rapid development of consumer electronics technology and AI technology, wireless chargers for mobile phones have become common charging devices for the public, and consumers continuously raise the functional, interesting and innovative requirements of products due to increasingly competitive market. The traditional wireless charger for the mobile phone generally only has a single wireless charging function, and although part of products are provided with colorful LED light on the periphery, the light effect is simpler, the fixed color is always bright, the mechanical flicker or the cyclic color change is mostly carried out, the interactivity and the natural feeling with users are lacking, and the requirements of consumers on individuation and interestingness of the products in the AI era cannot be met. Meanwhile, a wireless charging coil of the wireless charger of the mobile phone generally adopts a circular structure, and a non-coil cavity area with the diameter of about 18mm can be formed in the circle center area due to the limitation of a coil winding process, and the area belongs to an idle area and is not effectively utilized, so that the waste of the internal space of a product is caused. Therefore, how to skillfully utilize the idle space of wireless charging and combine with the AI technology to realize product innovation becomes the technical problem to be solved in the current wireless charger field of mobile phones. Disclosure of Invention Aiming at the defects of the prior art, the invention provides the LED display wireless charger based on the AI blink algorithm and the control method, which can fully utilize the idle area of the non-coil cavity, realize the natural blink effect of human eyes, have simple structure and lower cost. In order to solve the technical problems, the invention adopts the following technical scheme. The LED display wireless charger based on the AI blink algorithm comprises a charger body, wherein a round charging coil and a main board are arranged in the charger body, a non-coil hollow area and an LED eye module which is positioned inside the non-coil hollow area are formed in the center of the round charging coil, the LED eye module and the round charging coil are respectively and electrically connected to the main board, a main MCU module and the AI blink algorithm module are integrated on the main board, blink parameters comprising average blink frequency, single blink duration and eye closing intervals are preset in the AI blink algorithm module, the AI blink algorithm module carries out randomization processing on the blink parameters based on a linear congruent random number algorithm, the fluctuation duration and the time duration of each blink interval are adjusted, parameter constraint logic is set, a blink control signal representing a natural blink effect is generated, and the main MCU module is used for controlling the charge state of the round charging coil and outputting the control instruction to the LED eye module according to the blink control signal, so as to control the bright eye time sequence of the LED lamp in the LED eye module, and further simulate the natural blink effect of a human eye. Preferably, the LED eye module comprises 6 LED lamps, wherein the 6 LED lamps are symmetrically distributed in left and right rows, and the distance between the two symmetrical LED lamps is 14mm. Preferably, the AI blink algorithm module is internally provided with a state linkage sub-module, and the state linkage sub-module is used for receiving wireless charging working state data transmitted by the main MCU module and dynamically matching corresponding blink logic data. Preferably, the outer cover of the LED eye module is provided with a light guide cover. Preferably, the AI blink algorithm module and the main MCU module realize signal transmission through a serial port communication protocol or a UART communication protocol. The control method is realized based on the wireless charger, and comprises the steps of writing blink parameters comprising average blink frequency, single blink duration and eye closure intervals into an AI blink algorithm module, carrying out randomization processing on the blink parameters by the AI blink algorithm module based on a linear congruence random number algorithm, adjusting fluctuation duration and blink duration of each blink interval, setting parameter constraint logic, generating blink control signals representing natural blink effects, controlling the charge state of a circular charging coil by using a main MCU module, outputting control instructions to an LED eye module according to the blink control signals, and further controlling the on-off time sequence o