LC-WF-3-4
Contents
Product name
AC/DC power suppply ESP8266 WIFI 4-way relay module ESP-12F development board secondary development.
Overview
LC ESP8266 4-way relay development board is equipped with ESP-12F WiFi module, all I/O ports are drawn out, and supports various power supply methods such as AC90-250V/DC7-30V/5V.
Provide Arduino development environment reference code, suitable for ESP8266 secondary development learning, smart home wireless control and other occasions.
Feature
- Onboard mature and stable ESP-12F WiFi module, large capacity 4M Byte Flash
- The I/O port of the WiFi module and the UART program download port are all exported to facilitate secondary development
- Onboard AC-DC switching power supply module, power supply mode supports AC90-250V/DC7-30V/5V
- Onboard WiFi module RST reset button
- ESP-12F supports the use of development tools such as Eclipse/Arduino IDE, and provides reference programs in the Arduino development environment
- On-board 4-way 5V relay, output switching signal, suitable for controlling loads whose operating voltage is within AC 250V/DC30V
- Onboard power indicator, 1 programmable LED and relay indicator
Description for interface
1.Board size:93*87mm Weight:90g
2.Introduce for interface
Programming port: GND, RX, TX, 5V of ESP8266 are respectively connected to GND, TX, RX, 5V of the external TTL serial port module. When downloading, IO0 needs to be connected to GND. After the download is completed, disconnect the connection between IO0 and GND
Relay output:
NC: normally closed terminal, short-circuit with COM before the relay pulls in, and hang in the air after the pull-in
COM: public port
NO: Normally open, suspended before the relay pulls in, and short-circuited with COM after the pull-in
3. GPIO port introduction
No. | Name | Function Description | No. | Name | Function Description |
1 | ADC | A/D conversion result. Input voltage range 0-1V, value range 0-1024 | 11 | IO15 | GPIO15; MTDO; HSPI_CS; UART0_RTS |
2 | EN | enable pin, default pull-up | 12 | TXD | UART0_TXD; GPIO1 |
3 | IO16 | GPIO16 | 13 | RXD | UART0_RXD; GPIO3 |
4 | IO14 | GPIO14; HSPI_CLK | 14 | GND | Power Ground |
5 | IO12 | GPIO12; HSPI_MISO | 15 | 5V | 5V power supply |
6 | IO13 | GPIO13; HSPI_MOSI; UART0_CTS | 16 | 3.3V | 3.3V power supply |
7 | IO5 | GPIO5 | 17 | RY1 | A relay drive port, which can be short-circuited with IO16 using a short-circuit cap; if you want to use other I/O drive relays, you can use a DuPont wire jumper |
8 | IO4 | GPIO4 | 18 | RY2 | One relay drive port, which can be short-circuited with IO14 using a short-circuit cap; if you want to use other I/O drive relays, you can use a Dupont wire jumper |
9 | IO0 | GPIO0 | 19 | RY3 | A relay drive port, you can use a short cap and IO12 to short-circuit; if you want to use other I/O drive relays, you can use a DuPont wire jumper |
10 | IO2 | GPIO2; UART1_TXD | 20 | RY4 | A relay drive port, which can be short-circuited with IO13 using a short-circuit cap; if you want to use other I/O drive relays, you can use a DuPont wire jumper |
Description for connection
Arduino development environment setup:
ESP8266 supports Eclipse/Arduino IDE and other development tools. It is relatively simple to use Arduino. The following is how to build the Arduino development environment:
1. Install Arduino IDE 1.8.9 or the latest version;
2. Open the Arduino IDE, click File--Preferences in the menu bar, enter the preferences and click Add Network in the "Additional Development Board Manager URL"
http://arduino.esp8266.com/stable/package_esp8266com_index.json
3. Click Tools--Development Board--Development Board Manager in the menu bar, and then search for "ESP8266" to install Arduino's support package for ESP8266 2.5.2 or the latest version.
Note: Since the download URL is from a foreign country, the access speed is relatively slow, and there may be download errors. Just try a few more times when the network is good.
Program download:
1. Use jumper caps to connect IO0 and GND pins, prepare a TTL serial port module (for example: FT232) and plug it into the computer USB; GND, RX, TX, 3.3V are respectively connected to GND, TX, RX, 3.3V of the external TTL serial port module V;
2. Click Tools--Development Board in the menu bar, and select the development board as ESPino (ESP-12 module);
3. Open the program to be downloaded, click Tools--Port in the menu bar and select the correct port number;
4. After clicking "Upload", the program will be automatically compiled and downloaded to the development board;
5. Finally, disconnect the connection between IO0 and GND, power on the development board again or press the reset button to run the program.