by hearingearly hearingearly


  Along with the rapid improvement of China’s economic level, elevators have long come into people’s lives and become a basic tool to be used every day.

  This article provides a set of elevator display control solutions based on the STONE STVC070WT-01 screen, including: outside the cabin display control, inside the cabin display control, control terminal three parts, you can also use it as an advertising player to use.

  Achieved functions


  (A) Outside the cabin display control

  1. Outside the cabin display panel, showing the floor where the elevator is located.

  2. Outside the cabin summoning control panel, the user completes the selection of up and down floors to summon the elevator.

  (B) Inside the cabin display control

  1. Inside the cabin display control panel, completing floor selection, opening, closing, and alarming.

  2. Inside the cabin advertising panel, completing the playback of video or audio advertising.

  (C) Display control of control cabinet

  The control cabinet setting panel, completing elevator settings, such as stopping or starting operation, certain floors without stopping.

  (D) Elevator integrated control unit

  The basic logic of the integrated control unit of the elevator, in order to complete the operation control of the whole elevator system.

  System principle and composition

  (A) System Principle

  The elevator is a large electromechanical product composed of mechanical and electrical close contact, mainly composed of the machine room, shaft, cabin, door system, and electrical control system.

  The basic principles are:

The system summons the elevator to the corresponding floor according to the summoning command (up and down command) outside the cabin and opens the cabin door after the leveling proofreading system confirms that there is no error.
The external summoning and internal door opening and closing commands can control the opening and closing of the cabin door.
The floor selection command inside the cabin can control the floor to be reached.
When arriving at the set floor, open the door after leveling and checking.
Press the alarm bell when there is an unexpected situation during operation.
The billboard inside the cabin plays or pauses according to the instruction of the display control system (no announcement is broadcast when it is not moving);
The control cabinet sets the panel, which can control whether the whole elevator is running and which floors are not available.

  (B) System Composition

  The system is mainly composed of four parts: outside the cabin display control, inside the cabin display control, display control of control cabinet, elevator integrated control unit. This article mainly completes the display control part inside and outside the cabin.


  1. Outside the cabin display control

  can be further divided into: “elevator floor display unit” and “elevator summon unit”.


  2. Inside the cabin display control

  Mainly completing the functions of current floor display, floor selection & cancellation, door opening and closing, alarm, etc.


  3. Display control of control cabinet (Show in the next article)

  It can control whether the whole elevator is running, which floors are not available, get the current elevator position, continuous running time, elevator load condition; temperature and humidity information inside the elevator; smoke alarm system; condition of the lighting system, etc.

  4. Elevator integrated control unit

  The operation control center of the elevator, generally use PLC to realize the control of the whole elevator’s electric distribution, power, fire, lighting, etc. This article in order to cooperate with the display control unit to demonstrate the program of MCU to illustrate.

  System hardware design

  (A) Outside the cabin display control

  1. Hardware design of “floor display unit of the elevator”

  Using the HMI screen of Beijing STONE Technology Co., Ltd, the module is STVC070WT-01, which integrates the TFT display and touch controller.

  (1) STVC070WT-01 product features:

Controlled by any MCU.
Displaying pictures/text/curves.
65536 color TFT display.
with/without the touch screen.
RS232/RS485/TTL UART interface and USB port.
Wide voltage range.

  (2) Interfaces

Power supply interface.
DC power supply from 5V 1A power adapter.
Communication interface
Communication with the elevator’s integrated control unit via RS232 serial port to receive the sent floor and operation status information (rise, fall, stop) at a baud rate of 9600bps.

  2. Hardware design of the “elevator summoning unit”

  (1) Display control hardware

  The same 7-inch STONE HMI STVC070WT-01, with a TTL UART interface to communicate with it, and the baud rate set to 9600bps.

  (2) Interface

  -Power supply interface.

  DC power supply provided by a 5V 1A power adapter.

  -Communication interface

  Sending current floor and up/down information to the integrated control unit via RS232 serial port with a baud rate of 9600bps.

  (B) Inside the cabin display control

  1. Display control panel inside the cabin

  Use the 7-inch screen of STVC070WT-01, with a touch function, to complete the display of floor selection, door opening, door closing, alarm, and other functions.

  The power supply is provided by a 5V 1A power adapter, and the communication interface is an RS232 serial port.

  2. Advertising panel inside the cabin (detailed introduction in the next article)

  As above, connecting external speakers through the audio output interface of the HMI screen.

  The power supply is adopted by a 5V 1.5A power adapter, and the communication interface adopts an audio interface.


  (C) Analog integrated control unit

  1. Hardware Composition

  The control circuit uses the C8051F340 as the core chipboard.


  The development board comes with keys to simulate the elevator running status and send corresponding commands to the inside and outside display control unit developed by Stone HMI through the RS232 serial port.

  2. Main Controller Chip

  The C8051F340 device is a fully integrated mixed-signal system-on-a-chip MCU.

High-speed, pipelined architecture with 8051-compatible microcontroller cores (up to 48 MIPS).
Full-speed, non-intrusive on-system debug interface (on-chip)
Universal Serial Bus (USB) capable controller with 8 flexible endpoint pipelines, integrated transceiver, and 1K FIFO RAM.
Power supply regulator.
True 10-bit 200 tips single-ended/differential ADC with an analog multiplexer.
On-chip voltage references and temperature sensors.
On-chip voltage comparators (two).
precision-calibrated 12 MHz internal oscillators and 4x clock multiplier.
Up to 64KB of on-chip FLASH memory.
Up to 4352 bytes of on-chip RAM (256+4KB)
Hardware-implemented SMBus/ I2C, enhanced UART (up to two), and enhanced SPI serial interfaces.
four general-purpose 16-bit timers.
Up to 40 port I/Os (5V tolerant inputs).

  System software design

  (A)Outside the cabin display control

  1. Software design of “floor display unit of the elevator”

  (1) The development process of HMI

  Firstly, create the project and load the required pictures into the project. Here we make a background picture to display the floor and upward and downward information through Ico.

  Second, use the TOOL-2019 controls to create, dynamically associated relationships; the main controls are: “Animated icon”, “Variable icon”;

  Third, software simulation and compilation to generate executable files.

  Fourth, connect the HMI screen to the PC side through debugging tools and download the executable file to the screen.


  (2) Software design of the analog control terminal

  The software of the simulation end is used to simulate the operation status of the elevator through “+”, “-“, “up”, “down”, and “stop” buttons, and send the corresponding commands to the HMI screen.

  Elevator arrives on the 1st floor: A5 5A 05 82 00 05 00 00.

  Elevator arrives on the 2nd floor: A5 5A 05 82 00 05 00 01.

  Elevator arrives on the 3rd floor: A5 5A 05 82 00 05 00 02.

  Elevator arrival on the 4th floor: A5 5A 05 82 00 05 00 03.

  Elevator arrival on the 5th floor: A5 5A 05 82 00 05 00 04.

  Elevator arrival on the 6th floor: A5 5A 05 82 00 05 00 05.

  2. Software design for “elevator summoning unit”


  It is relatively simple to send commands to the control port after displaying the upward and downward touch of the console, the commands are as follows.

  Elevator up command: A5 5A 06 83 00 01 01 00 00.

  Elevator down command: A5 5A 06 83 00 02 01 00 00.

  The function of the MCU emulation port is mainly to handle the serial port to receive commands.

  (B)Inside the cabin display control

  HMI-Stone uses controls such as “Variable icon”, “Button Key-value return”, “incremental adjustment”, “Text clock”, “Animation icon” and audio properties of the controls in order to realize the function of inside the cabin display control.
(1) Software design of HMI

  First of all, make the base map and do the corresponding action effect map for opening and closing the door and alarm, as shown in the following figure.

  STONE+STVC070WT-01+Elevator+display+and+control+system+based+on+Stone+HMI+screen STONE+STVC070WT-01+Elevator+display+and+control+system+based+on+Stone+HMI+screen

  Place the “Button Key-value return” control at the corresponding location and set its Button effect property to Figure 13 so that when the touch action occurs, the interface at the location covered by the control will display the content of Figure 13 to achieve the effect of a keypress.

  To create the effect of floor selection, use the “Variable icon” control and select the image source of the two icons, as shown in the figure below. Then the “incremental adjustment” control is used to cycle through the two images and send the corresponding commands through the serial port.

  STONE+STVC070WT-01+Elevator+display+and+control+system+based+on+Stone+HMI+screen STONE+STVC070WT-01+Elevator+display+and+control+system+based+on+Stone+HMI+screen

  1st floor selected command: A5 5A 06 83 00 11 01 00 01.

  1st floor unchecked command: A5 5A 06 83 00 11 01 00 00.

  The same “Variable icon” control is used to create the upward and downward elevator effects, but in a way that overlaps the two controls; each control selects the image source of three icons, as shown in the figure below.


  Each first one is blank when going up, control 1 will display 3 pictures in a cycle to simulate the dynamic effect, at this time control 2 shows empty pictures; when going down, control 2 will display 3 pictures in a cycle to simulate the dynamic effect, at this time control 1 shows empty pictures.
(2) Software design of the simulation control

  The software for testing the simulation terminal simulates the operation status of the elevator through the “+”, “-“, “up”, “down”, and “stop” buttons, and sends the corresponding commands to the HMI screen.

  Up command start: A5 5A 05 82 00 09 00 01.

  Up command stop: A5 5A 05 82 00 09 00 00.

  Downstream command start: A5 5A 05 82 00 0E 00 01.

  Downstream instruction stop: A5 5A 05 82 00 0E 00 00.

  MCU emulation port functions, mainly to handle serial port receive commands.

  System operation effect test


  The physical demonstration effect is shown in the figure below:


  Related posts:

  The Structure and Display Principle of High Brightness LCD
Control WS2812B_RGB Lamp by STONE Display Module
Raspberry Pi GUI using STONE HMI Touch Screen Display Module
Bluetooth communication DEMO: NRF51822 UART communicate with STONE HMI display
The Workflow of User Interface Design
Which is better, an TFT LCD screen dashboard or a mechanical dashboard?
Raspberry PI Pico and STONE Display Dazzling Light Control System
Intelligent Display for Energy Project
Record Medical Surgery Notes with STONE Serial LCD Screen
STONE HMI+BC1110 Bluetooth Transparent Transmission Mobile Phone Display Synchronously

STONE HMI Elevator Display and Control System