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STONE DISPLAY SCREEN + STM32 MCU + RELAY MODULE TO CONTROL SMART HOME APPLIANCES

 

This project shows how to use the STONE display screen, STM32 MCU, relay module. The aim of the project is to be able to control home appliances through the STONE display as a human-computer interface.

 

 

Consumables used in the project

 

The display adopts an 8-inch  display screen and an 8-inch intelligent STONE display screen industrial display module 

 

 

STONE STVI080WT-01 TFT LCD Module

 

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The STONE STVI080WT-01 intelligent TFT LCD module with the Cortex-M4 32-bit CPU can be controlled by Any MCU via the UART port via a simple Hex instruction.

STONE provides software engineers with easy and visual Settings for a variety of graphical user interface features such as text, numbers, curves, image switching, keyboard, progress bar, slider, dial, clock and touch buttons, data storage, USB download, video & audio.

 

Engineers can easily adopt STONE display screen color user interfaces and touch functions on a variety of industrial devices, and much less development time and cost.

 

Easy to use:

1. Design a beautiful set of "graphical user interface" and use our toolbox software to set up various application functions on the GUI.

2. Connect the customer MCU directly through RS232, RS485, or TTL level, plug, and play.

3. Compile the MCU program and control the STONE display screen module through 4 simple Hex instructions.

 

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Relay module -8 channels

 

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Instructions for use of relay board:

 

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When there is no or insufficient voltage at both ends of the relay coil, COM and NC at the common end and normally closed end of the relay conduct

 

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When the voltage at both ends of the relay reaches the absorption voltage, the COM common end of the relay is on with normally open NO

 

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Wiring the electrical equipment installation and modification method

The module adopts patch optocoupler isolation and has a strong anti-interference ability. There are altogether 8 ways of control from IN1 to IN8

Reference wiring diagram

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STM32F411 MCU core board


STM32 core board:

 

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MCU program STM32CUDEMX using firmware library programming: 

 

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Next up is programming

 

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Clockwise configuration:

 

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Defines IO pin output to be high by Default

 

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Click generate code

 

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Hardware connection:

 

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Connected according to the schematic diagram:

 

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The J17 jumper behind the STONE screen disconnects selects to the TLL level, and communicates with the MCU:

 

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Photoshop is used to design the base image displayed on the page:

 

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The renderings are also ready:

 

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Import images into GUI TOOL by number:

 

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Add good touch controls in turn:

 

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Variable address assignment:

 

Bedroom light on:0x0001

Kitchen light on: 0x0002

Switch on the bathroom lamp: 0x0003

Electric fan on: 0x0004

Air conditioning on: 0x0005

TV on: 0x0006

Balcony light on: 0x0007

Bedroom lights off: 0x0011

Kitchen light off: 0x0012

Switch off the bathroom lamp: 0x0013

Electric fan off: 0x0014

Air conditioning off: 0x0015

TV off: 0x0016

Balcony light off: 0x0007

 

Then add the text display control:

 

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Status display text address:

Bedroom light: 0x0020

Kitchen light: 0x0030

Bathroom lamp: 0x0040

Electric fan: 0x0050

Air conditioning: 0 x0060

TV: 0 x0070

Balcony light: 0x0080

 

After setting, no click on the compile button to generate the files that need to be imported into the screen

 

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Plugin the USB of the screen and click "Download" to wait for the successful Download:

 

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The screen display effect is as follows:

 

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Source code analysis

 

MCU uses serial port 1 and touch screen communication, the use of baud rate is 115200

 

void MX_USART1_UART_Init(void)

{

 

  huart1.Instance = USART1;

  huart1.Init.BaudRate = 115200;//

  huart1.Init.WordLength = UART_WORDLENGTH_8B;

  huart1.Init.StopBits = UART_STOPBITS_1;

  huart1.Init.Parity = UART_PARITY_NONE;

  huart1.Init.Mode = UART_MODE_TX_RX;

  huart1.Init.HwFlowCtl = UART_HWCONTROL_NONE;

  huart1.Init.OverSampling = UART_OVERSAMPLING_16;

  if (HAL_UART_Init(&huart1) != HAL_OK)

  {

    Error_Handler();

  }

 

}

 

The configuration of HAL library GPIO is as follows:

 

void MX_GPIO_Init(void)

{

 

  GPIO_InitTypeDef GPIO_InitStruct = {0};

 

  /* GPIO Ports Clock Enable */

  __HAL_RCC_GPIOC_CLK_ENABLE();

  __HAL_RCC_GPIOH_CLK_ENABLE();

  __HAL_RCC_GPIOA_CLK_ENABLE();

  __HAL_RCC_GPIOB_CLK_ENABLE();

 

  /*Configure GPIO pin Output Level */

  HAL_GPIO_WritePin(GPIOA, A8_Pin|A7_Pin|A6_Pin|A5_Pin, GPIO_PIN_SET);

 

  /*Configure GPIO pin Output Level */

  HAL_GPIO_WritePin(GPIOB, A4_Pin|A3_Pin|A2_Pin|A1_Pin, GPIO_PIN_SET);

 

  /*Configure GPIO pins : PAPin PAPin PAPin PAPin */

  GPIO_InitStruct.Pin = A8_Pin|A7_Pin|A6_Pin|A5_Pin;

  GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;

  GPIO_InitStruct.Pull = GPIO_NOPULL;

  GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_LOW;

  HAL_GPIO_Init(GPIOA, &GPIO_InitStruct);

 

  /*Configure GPIO pins : PBPin PBPin PBPin PBPin */

  GPIO_InitStruct.Pin = A4_Pin|A3_Pin|A2_Pin|A1_Pin;

  GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;

  GPIO_InitStruct.Pull = GPIO_NOPULL;

  GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_LOW;

  HAL_GPIO_Init(GPIOB, &GPIO_InitStruct);

 

}

 

The sending format of the sending register is set according to the manual, and GB2312 Chinese character encoding library is used:

 

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Such as:

The "off" code is B9D8 and the "closed" code is B1D5

The inside code of "open" is B4F2, and the inside code of "open" is BFAA

 

Refresh all display states before MCU initialization:

 

data_send[4]=0x00;//

data_send[5]=0x20;//

data_send[6]=0xB9;//

data_send[7]=0xD8;

data_send[8]=0xB1;

data_send[9]=0xD5;

UART1_Send_Array(data_send,12);//

data_send[5]=0x30;//

UART1_Send_Array(data_send,12);//

data_send[5]=0x40;//

UART1_Send_Array(data_send,12);//

data_send[5]=0x50;//

UART1_Send_Array(data_send,12);//

data_send[5]=0x60;//

UART1_Send_Array(data_send,12);//

data_send[5]=0x70;//

UART1_Send_Array(data_send,12);//

data_send[5]=0x80;//

UART1_Send_Array(data_send,12);//

 

Receive the data sent by the screen to the MCU, and control the status of IO:

 

if ((char *)buffer != NULL)

{

if (strlen((char *)buffer) == 0)

{

//buffer

}

else//

{

 

switch(buffer[5])

{

case 0x01 : HAL_GPIO_WritePin(A1_GPIO_Port,A1_Pin,GPIO_PIN_RESET);  break;//

case 0x02 : HAL_GPIO_WritePin(A2_GPIO_Port,A2_Pin,GPIO_PIN_RESET);  break;//

case 0x03 : HAL_GPIO_WritePin(A3_GPIO_Port,A3_Pin,GPIO_PIN_RESET);  break;//

case 0x04 : HAL_GPIO_WritePin(A4_GPIO_Port,A4_Pin,GPIO_PIN_RESET);  break;//

case 0x05 : HAL_GPIO_WritePin(A5_GPIO_Port,A5_Pin,GPIO_PIN_RESET);  break;//

case 0x06 : HAL_GPIO_WritePin(A6_GPIO_Port,A6_Pin,GPIO_PIN_RESET);  break;//

case 0x07 : HAL_GPIO_WritePin(A7_GPIO_Port,A7_Pin,GPIO_PIN_RESET);  break;//

case 0x11 : HAL_GPIO_WritePin(A1_GPIO_Port,A1_Pin,GPIO_PIN_SET);    break;//

case 0x12 : HAL_GPIO_WritePin(A2_GPIO_Port,A2_Pin,GPIO_PIN_SET); break;//

case 0x13 : HAL_GPIO_WritePin(A3_GPIO_Port,A3_Pin,GPIO_PIN_SET);    break;//

case 0x14 : HAL_GPIO_WritePin(A4_GPIO_Port,A4_Pin,GPIO_PIN_SET);    break;//

case 0x15 : HAL_GPIO_WritePin(A5_GPIO_Port,A5_Pin,GPIO_PIN_SET);    break;//

case 0x16 : HAL_GPIO_WritePin(A6_GPIO_Port,A6_Pin,GPIO_PIN_SET);    break;//

case 0x17 : HAL_GPIO_WritePin(A7_GPIO_Port,A7_Pin,GPIO_PIN_SET);    break;//

}

}

CLR();//

}

 

Determine the IO's status, and display the current output status feedback screen

 

// Determine the value of IO and display the corresponding status value in the status box if(!HAL_GPIO_ReadPin(A1_GPIO_Port,A1_Pin))//

{//

data_send[4]=0x00;//

data_send[5]=0x20;//

data_send[6]=0xB4;//

data_send[7]=0xF2;

data_send[8]=0xBF;

data_send[9]=0xAA;

UART1_Send_Array(data_send,12);//

}

else

{//

data_send[4]=0x00;//

data_send[5]=0x20;//

data_send[6]=0xB9;//

data_send[7]=0xD8;

data_send[8]=0xB1;

data_send[9]=0xD5;

UART1_Send_Array(data_send,12);//

}

 

After the code is coded, click the compile button to view the output box showing no error and no warning:

 

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Click the button to burn the program into the MCU:

 

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STONE display screen +STM32 MCU + relay module control smart home appliances effect diagram

 

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