refs #

image ling cdn

ESP32S3-Tutorial/example/Lesson_10_Photoresistor/README.md

@@ -8,7 +8,7 @@
 
 ### 10.2.1 Photoresistor
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/10.lesson_photoresistor.png" width="150" height="150"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/10.lesson_photoresistor.png" width="150" height="150"/>
 
  Aphotoresistor is a resistor made by utilizing the photoelectric effect of semiconductors. The resistance value changes with
  the intensity of incident light. It is also called a photodetector. When the incident light is strong, the resistance decreases.
@@ -23,13 +23,13 @@
 
 ## 10.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/10.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/10.lession_connect_line.png" width="800" height="600"/>
 
 ## 10.4 Upload code program
  
 ### 10.4.1 Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 10.4.2 Open the program file (path: 2_ESP32_S3_PLUS \ Lesson_10_Photoresistor )
  Also select the board type as ESP32S3 Dev Module and select the COM number newly displayed when the USB is plugged

ESP32S3-Tutorial/example/Lesson_11_Ultrasonic_ranging_OLED_display/README.md

@@ -9,7 +9,7 @@
 
 ### 11.2.1 Ultrasonic sensor
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/11.lesson_ultrasonic.png" width="300" height="100"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/11.lesson_ultrasonic.png" width="300" height="100"/>
 
  Sound waves are produced by vibrations and can travel at different speeds in different media. Ultrasonic waves have the
  advantages of strong directivity, slow energy loss, and long propagation distance in media, and are often used for distance
@@ -55,7 +55,7 @@
  
 ### 11.2.2 OLED
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/11.lesson_oled.png" width="150" height="150"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/11.lesson_oled.png" width="150" height="150"/>
 
  1. Resolution: 128*64
  2. Super wide viewing angle: greater than 160
@@ -64,13 +64,13 @@
  
 ## 11.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/11.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/11.lession_connect_line.png" width="800" height="600"/>
  
 ## 11.4 Upload code program
 
 ### 11.4.1 Connect the main control board to the computer with a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 11.4.2 Open the program file ( path : 2_ESP32_S3_PLUS \ Lesson_11_Ultrasonic_ranging_OLED_display )
  Also select the board type as ESP32S3 Dev Module and select the COM number newly displayed when the USB is plugged
@@ -80,7 +80,7 @@
  screen does not display correctly, you need to check the SCL/SDAwiring, or press the motherboard reset button to reset the
  program ).
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/11.lesson_oled_output.png" width="200" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/11.lesson_oled_output.png" width="200" height="200"/>
  
 ## 11.5 Code analysis
 

ESP32S3-Tutorial/example/Lesson_12_DHT11_OLED_display/README.md

@@ -9,7 +9,7 @@
 
 ### 12.2.1. DHT11 temperature and humidity sensor
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/12.lesson_dht11.png" width="100" height="150"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/12.lesson_dht11.png" width="100" height="150"/>
 
 - **humidity:**
 - **Resolution:** 16Bit
@@ -31,13 +31,13 @@
 
 ## 12.3 Connection lines
  
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/12.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/12.lession_connect_line.png" width="800" height="600"/>
 
 ## 12.4 Upload code program
  
 ### 12.4.1 Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 12.4.2 Open the program file (path: 2_ESP32_S3_PLUS\ Lesson _ 12_DHT11_OLED_display )
  Also select the board type as ESP32S3 Dev Module and select the COM number newly displayed when the USB is plugged
@@ -46,7 +46,7 @@
  After the program is uploaded, you will see the temperature and humidity values ( when the screen does not display
  correctly, you need to check the SCL/SDAwiring, or press the motherboard reset button to reset the program ).
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/12.lesson_oled_output.png" width="200" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/12.lesson_oled_output.png" width="200" height="200"/>
  
 ### 12.5 Code analysis
  Declare the required library files. If the corresponding library is not added, please go back to the installation library

ESP32S3-Tutorial/example/Lesson_13_Infrared_change_RGB/README.md

@@ -23,19 +23,19 @@
  (5) The time for each bit is 1.125 ms or 2.25 ms
 
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/13.lesson_ir_receiver.png" width="150" height="150"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/13.lesson_ir_receiver.png" width="150" height="150"/>
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/13.lesson_ir_transmiter.png" width="200" height="400"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/13.lesson_ir_transmiter.png" width="200" height="400"/>
 
 ## 13.3 Connection lines
  
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/13.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/13.lession_connect_line.png" width="800" height="600"/>
 
 ## 13.4 Upload code program
 
 ### 13.4.1 Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 13.4.2 Open the program file ( Path : 2_ESP32_S3_PLUS \ Lesson_13_Infrared_change_RGB )
  Also select the board type as ESP32S3 Dev Module and select the COM number newly displayed when the USB is plugged

ESP32S3-Tutorial/example/Lesson_14_Web_key_controls_LED/README.md

@@ -9,17 +9,17 @@
  phones to connect to the same WiFi. Enter the IP in the browser address bar to open the web interface created by ESP32,
  and control it through the web page containing the LED switch. LED.
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="800" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="800" height="200"/>
 
 ## 14.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/14.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/14.lession_connect_line.png" width="800" height="600"/>
 
 ## 14.4 Upload code program
  
 ### 14.4.1 Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
  
 ### 14.4.2 Open the program file (path: 2_ESP32_S3_PLUS \ Lesson_14_Web_key_controls_LED )
  

ESP32S3-Tutorial/example/Lesson_4_active_buzzer/README.md

@@ -13,17 +13,17 @@
  An active buzzer has an internal oscillation source, and it can sound as long as it is given a high level. Use the delay
  function to make the buzzer sound regularly
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/4.lesson_buzzer.png" width="150" height="100"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/4.lesson_buzzer.png" width="150" height="100"/>
 
 ## 4.3.Connect lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/4.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/4.lession_connect_line.png" width="800" height="600"/>
 
 ## 4.4.Upload code
 
 ### 4.4.1. Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 4.4.2. Open the program file (path: 2_ESP32_S3_PLUS\ Lesson_4_active_buzzer )
 

ESP32S3-Tutorial/example/Lesson_5_Traffic_light/README.md

@@ -6,7 +6,7 @@
 
 ## 5.2. Working principle
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/3_lession_traffic_light.png" width="200" height="80"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/3_lession_traffic_light.png" width="200" height="80"/>
 
  There are three colors of traffic lights, green light, yellow light and red light. The pins connected to the main control board
  are 13/11/10. By controlling the high level of the three pins, the corresponding lights can be lit. A single light cycle is as
@@ -23,13 +23,13 @@
 
 ## 5.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/5.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/5.lession_connect_line.png" width="800" height="600"/>
 
 ## 5.4 Upload code
 
 ### 5.4.1 Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 5.4.2 Open the program file (path: 2_ESP32_S3_PLUS\ Lesson_5_Traffic_light )
  Also select the board type as ESP32S3 Dev Module and select the COM number newly displayed when the USB is plugged

ESP32S3-Tutorial/example/Lesson_6_Flow_light/README.md

@@ -10,13 +10,13 @@
 
 ## 6.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/5.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/5.lession_connect_line.png" width="800" height="600"/>
 
 ## 6.4 Upload code
 
 ### 6.4.1 Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 6.4.2 Open the program file (path: 2_ESP32_S3_PLUS\ Lesson_6_Flow_light )
 

ESP32S3-Tutorial/example/Lesson_7_WS2812B/README.md

@@ -7,7 +7,7 @@
 
 ## 7.2. Working principle
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/7_lession_ws2812b.png" width="150" height="150"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/7_lession_ws2812b.png" width="150" height="150"/>
  
  WS2812B is an intelligent externally controlled LED light source that integrates control circuit and light-emitting circuit. Its
  appearance is the same as a 5050LED lamp bead, and each component is a pixel. There is an intelligent digital interface data
@@ -23,13 +23,13 @@
  
 ## 7.3.Connect the lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/7.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/7.lession_connect_line.png" width="800" height="600"/>
 
 ## 7.4.Upload code
 
 ### 7.4.1. Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 7.4.2 Open the program file (path: 2_ESP32_S3_PLUS\ Lesson_7_WS2812B )
 

ESP32S3-Tutorial/example/Lesson_8_Gradient_RGB_light/README.md

@@ -8,13 +8,13 @@
 
 ## 8.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/7.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/7.lession_connect_line.png" width="800" height="600"/>
  
 ## 8.4. Upload code program
 
 ### 8.4.1. Connect the main control board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 8.4.2 Open the program file (path: 2_ESP32_S3_PLUS\Lesson_8_Gradient_RGB_light)
  

ESP32S3-Tutorial/example/Lesson_9_Steering_gear_control/README.md

@@ -7,7 +7,7 @@
 
 ### 9.2.1. Steering gear
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/9.lesson_servo.png" width="150" height="150"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/9.lesson_servo.png" width="150" height="150"/>
  
  The steering gear ( servo motor ) control pulse signal period is a 20MS pulse width modulation signal (PWM), the pulse
  width is from 0.5ms to 2.5ms, and the corresponding steering position changes linearly from 0 to 180 degrees.
@@ -17,13 +17,13 @@
 
 ## 9.3 Connection lines
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/9.lession_connect_line.png" width="800" height="600"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/9.lession_connect_line.png" width="800" height="600"/>
  
 ## 9.4 Upload code program
 
 ### 9.4.1 Connect the main control SD board to the computer using a USB cable
 
-<img src="https://mkpark.iptime.org:10443/esp32S3_tscinbuny_tutorial/images/upload_code_program.png" width="600" height="200"/>
+<img src="https://cdn.mkaidevops.xyz/tscinbuny/esp32_s3_plus/upload_code_program.png" width="600" height="200"/>
 
 ### 9.4.2 Open the program file (path: 2_ESP32_S3_PLUS\Lesson_9_Steering_gear_control)
  Also select the board type as ESP32S3 Dev Module and select the COM number newly displayed when the USB is plugged