Difference between revisions of "ESPEasy"

From Let's Control It
Jump to navigation Jump to search
Line 324: Line 324:
 
| [["Soil_moisture_sensor" | Soil moisture sensor]] [[File:Soilmoisturesensor_small.jpg|link="Soil_moisture_sensor"]]
 
| [["Soil_moisture_sensor" | Soil moisture sensor]] [[File:Soilmoisturesensor_small.jpg|link="Soil_moisture_sensor"]]
 
| capacitive moisture, temperature, light
 
| capacitive moisture, temperature, light
| 3.3V - 5 V
+
| 3.3V - 5V
 
| SDA/SCL or 2 digital GPIO
 
| SDA/SCL or 2 digital GPIO
 
| I²C bus
 
| I²C bus

Revision as of 07:54, 26 May 2017

Introduction

The ESP Easy firmware can be used to turn the ESP module into an easy multifunction sensor device for Home Automation solutions like Domoticz. Configuration of the ESP Easy is entirely web based, so once you've got the firmware loaded, you don't need any other tool besides a common web browser.

The ESP Easy firmware is currently at build R120 an looks stable enough for production purposes as long as it's being used as a sensor device.

ESP Easy also offers limited "low level" actuator functions but due to system instability, this could be less useful in real life applications.

Get started

Getting started with the ESP Easy takes a few basic steps. In most cases your ESP module comes with the AT firmware or the NodeMCU LUA firmware. We need to replace the existing firmware with the ESP Easy firmware. We provide a (Windows only) flashtool to make this process an easy job.

1. Download firmware as binary including flash tool

2. Connect the ESP to Windows PC
Using either USB/UART of board or separate USB/TTL adapter

3. Write firmware using flash tool
Note necessity for GPIO to be LOW to enter flashmode

4. Restart ESP. WiFi "AP ESP_0" will appear

5. Search for you routers WiFi and connect

6. Reconnect to your WiFi and enter IP adress sshown on previous screen

Supported Hardware

ESP Easy can be installed/flashed on nearly every piece of Hardware that has an ESP8266 built-in, newest 2.0.0 version even does support the ESP8285 (basically an ESP8266 with buildtin 1M Flash):

This is a (not yet complete) list of Hardware which is known to be supported:

Device Name ESP Chip Flash Size USB-TTL GPIOs available GPIO connected to onboard Hardware onboard PSU/voltage regulator Input voltage Antenna Size (LxWxH)
12 E/F 4MB CH340 0, 1, 2, 3, 4, 5, 12, 13, 14, 15, 16, A0 (with Voltage divider) 1&3 (serial) RT9013 5 VDC (+/-0,5V) onboard PCB 34.2mm x 25.6mm x ?mm
12 E/F 16MB CP2104 0, 1, 2, 3, 4, 5, 12, 13, 14, 15, 16, A0 (with Voltage divider) 1&3 (serial) RT9013 5 VDC (+/-0,5V) onboard ceramic/pigtail connector 34.2mm x 25.6mm x ?mm
WeMos D1 R2

Wemos d1 r2.jpg

12 E/F 4MB CP340G 0, 1, 2, 3, 4, 5, 12, 13, 14, 15, 16, A0 (with Voltage divider) 1&3 (serial) 9-24VDC Switching power supply to 5 VDC(@1A) and RT9013 9-24VDC (power jack), 5VDC (5V pin) onboard PCB 68.6mm x 53.4mm x ?mm (=Arduino UNO)
NodeMcu V2

NodeMCUv2.jpg

12 E 4MB CP2102 0, 1, 2, 3, 4, 5, 12, 13, 14, 15, 16, A0 (with Voltage divider) 1&3 (serial) ? 5 VDC (+/-0,5V) onboard PCB ?mm x ?mm x ?mm
12 E 4MB CP340 0, 1, 2, 3, 4, 5, 12, 13, 14, 15, 16, A0 (with Voltage divider) 1&3 (serial) ? 5 VDC (+/-0,5V) onboard PCB ?mm x ?mm x ?mm
generic ESP8266 1MB None 1, 3, (14) 0 (button), 12 (Relay 10A@230VAC), 13 (LED) on board mains AC to 5DVC + ? 3.3V Voltage Regulator
Attention! The DC power is NOT galvanically decoupled from AC power!
90-250VAC onboard PCB 88mm x 38mm x 23mm
Sonoff TH10/TH16

Sonoff th.jpg

generic ESP8266 1MB None 1, 3, (14) 0 (button), 12 (Relay 10A/16A@230VAC), 13 (LED), 14 (AM2301) on board mains AC to 5DVC + ? 3.3V Voltage Regulator
Attention! The DC power is NOT galvanically decoupled from AC power!
90-250VAC onboard PCB 88mm x 38mm x 23mm
Sonoff S20

Sonoff S20.jpg

generic ESP8266 1MB None 1, 3, (14) 0 (button), 12 (Relay 10A@230VAC), 13 (LED) on board mains AC to 5DVC + ? 3.3V Voltage Regulator 90-250VAC onboard PCB ?
Sonoff 4ch

Sonoff-4ch.jpg

generic ESP8285 1MB None 2, (7, 8) 0, 9, 10, 14 (Buttons), 4 , 5, 12, 15 (Relay 10A@230VAC), 13 (LED blue) on board mains AC to 5DVC buck converter + 3.3V Voltage Regulator 90-250VAC onboard PCB 145mm x 90mm x 41mm
Ai-Thinker A20 Breakout

Ai-thinker a20.jpg

generic ESP8285 1MB None ? ? ? ? SMA Connector ?

Supported Sensors/Actuators

Long list of devices that has been used and confirmed to work with ESP Easy.
Device Type Device Name Physical values measured Power In connection method output format possible I²C addresses level shifter required mounting options Size (LxWxH)
PulseCounter IR emitter + phototransistor (for ex. water/electricity meters), distance 3.3V - 5V 1 digital GPIO (for pulse/proxy) and/or 1 Analog input (distance) binary(0/1) (for pulse/proxy)/ 0-3.3V (distance) N/A no Ø? (1x or 2x)
C-C?
Temperature Sensor Temperature (-55 to +125°C) 3.3V - 5V 1 digital GPIO for multiple sensors 1wire bus N/A no
(yes if you use 5V logic and the ESP unit can't handle that voltage on GPIO)
None but could be placed in a metal "pipe"/protective sleeve Ø4.6mm x L4.6mm
Temperature Sensor Sensor temperature (-40 to +125°C)

IR temperature (-70 to +380°C)

3.3V - 5V SDA/SCL or 2 digital GPIO I²C bus 0x5a no Ø? (2x)
C-C?
Environment BMP085/BMP180 BMP085.png temperature (-40 to +85°C)

barometric pressure (300-1100 hPa)

3.3V SDA/SCL or 2 digital GPIO I²C bus 0x77 no Pins (6x)
C-C2.54mm
Environment BME280 BME280.png temperature (-40 to +85°C)

humidity ( 0…100 % rel. humidity) barometric pressure (300-1100 hPa)

3.3V SDA/SCL or 2 digital GPIO I²C bus 0x76
0x77
no Ø? (1x) 19.0mm x 18.0mm x 3.0mm
Environment BMP280 BMP280.png temperature (-40 to +85°C)

barometric pressure (300-1100 hPa)

3.3V SDA/SCL or 2 digital GPIO I²C bus 0x76 no Ø? (2x)
C-C?
19.0mm x 18.0mm x 3.0mm
Environment MS5611 MS5611.png temperature (-40 to +85°C)

barometric pressure (10 to 1200 mbar)

3.3V SDA/SCL or 2 digital GPIO I²C bus 0x76 no Ø? (2x)
C-C?
19.0mm x 18.0mm x 3.0mm
PulseCounter LJ12A3 LJ12A3-4-Z.jpeg Inductive proximity sensor 5V - 12V 1 digital GPIO (for pulse/proxy) binary(0/1) (for pulse/proxy) N/A no
(yes if you consider pull-up and pull-down resistors as level shifter?)
M12 thread Ø12mm x L55mm
PulseCounter Pulse logic input Flow sensor pulse.jpg General, output as pulse 5V - 12V (in general) 1 digital GPIO (for pulse) binary(0/1) (for pulse) N/A no
Gas Sensor GP2Y10 GP2Y10.png "Dust" (particle matter: PM2.5) 5V 1 analog (data) and 1 digital GPIO (for LED) analog (for data) N/A no Small flanges on the sides 46.0mm x 30.0mm x 17.6mm
Current Current (max ±3.2A), Voltage (max. 26V) 3.3V - 5V SDA/SCL or 2 digital GPIO I²C bus 0x40
0x41
0x44
0x45
no Ø? holes (4x)
C-C??
C-C??
?
Soil moisture Soil moisture sensor Soilmoisturesensor small.jpg capacitive moisture, temperature, light 3.3V - 5V SDA/SCL or 2 digital GPIO I²C bus 0x20 (changeable) no ? ?
Gas Sensor MH-Z19 Mh-z19.jpg CO2 ppm, temperature, U 3.3V 2 digital GPIO (Software-Serial) serial N/A no Pins (4x + 5x)
C-C2.54mm
?
Light/Lux BH1750 BH1750.jpg Illuminance, Lux 3.3V SDA/SCL I²C bus 0x5c
0x23
no Ø? holes (2x)
C-C??
?
Light/Lux TSL2561 TLS2561.png Illuminance, Lux 3.3V SDA/SCL I²C bus 0x29
0x39
0x49
no Ø? holes (2x)
C-C??
?
Light/Lux TCS34725 TCS34725-RGB-Color-Sensor.jpg RGB Color 3.3V SDA/SCL I²C bus 0x29 no Ø? holes (2x)
C-C??
?
Light/Lux Light intensity
Analog 1-100% or Binary above/below trigger value
3.3V - 5V 1 analog
and/or
1 digital
analog (0-3.3V)
and/or
binary (0/1)
N/A no Ø? hole ?
Environment temperature (-40 to +85°C)

humidity ( 0…100 % rel. humidity)

3.3V - 5V 1 digital GPIO for multiple sensors 1wire bus N/A no Ø? hole (DHT22) ?
Environment DHT12 DHT12.png temperature (-20 to +60°C)

humidity ( 20…95 % rel. humidity)

3.3V - 5V 1 digital GPIO for multiple sensors I²C bus
(or 1wire bus)
0xb8 no no 12.3mm x 7.5mm x 4.7mm
Environment SI7021/HTU21D SI7021.png temperature (-40 to +125°C)

humidity ( 0…100 % rel. humidity)

3.3V SDA/SCL or 2 digital GPIO I²C bus 0x40 no
Environment SHT1X SHT1X.png temperature

humidity

3.3V - 5V ? ? ? no
Environment AM2320 AM2320-Sensor.jpg temperature (-40 to +80°C)

humidity ( 0…99.9 % rel. humidity)

3.3V - 5V SDA/SCL or 2 digital GPIO I²C bus 0x5C (not found via i2c scan?) no
RFID Wiegand WiegandRFID 1.jpg RFID 6V - 12V 2 digital GPIO yes
RFID PN532 PN532.png RFID 3.3V ? no

OLD Supported Sensors/Actuators List

Sensors (Input)
Distance Switch
HC-SR04 HC-SR04.jpg Switch Lightswitch.jpg Door Switch.png PIR.jpg
Analog More Analog
Analog Analog.png PCF8591 PCF8591Module.jpg
ADS1115 ADS1115.png
Digital inputs Infrared Receivers
MCP23017 MCP23017DIP28.jpg
PCF8574 PCF8574.jpg
IR TSOP4838.png
Motion
MPU 6050 Mpu-6050.jpg
Actuators (Output)
Digital output Servo
Output pin LED.png
Relays Relaisbordje.jpg
Servo Servo.png
IR-Transmit Extra IO
IR Led IRLED.png MCP23017 MCP23017DIP28.jpg
PCF8574 PCF8574.jpg
PWM Motor Shield
PCA9685 PCA9685Module.jpg
PWM GPIOMosFET.png
Adafruit Motor Shield v2 Motor shield klein.jpg
Buzzer (RTTL)
RTTL Buzzer.jpg


Other
LCD OLED Level Shifter
LCD Display LCDDemo.jpg OLED Display OLED.png Level Shifter Level shifter example.jpg

Modded Hardware Products

Device Type Device Name Recommended ESP8266 board Information
Weather Station Ventus W266 Ventusw266.png WeMos D1 mini This device is also sold as "RenkForce W205GU".

Tutorials

Hardware Tips 'n Tricks

Examples

Loading firmware

Tutorial_ESPEasy_Firmware_Upload

Protocol selection

The ESP Easy supports several Home Automation controllers or web-services that collect sensor data.

EasyProtocols

Configuration

This section tells you more about the ESPeasy setup and the ESP unit's need to know settings (GPIO boot states etc.).

GPIO on ESP8266

GPIO Number GPIO Name Boot State Precautions and information
0 D3 HIGH for boot
LOW for serial programming
Pullup resistor on most boards
1 Used as serial (TX)
May be used but observe that signal might flicker due to serial activity during boot.
2 D4 HIGH for boot
HIGH for serial programming
Connected to onboard LED (low active)
Used as serial1 (TX1)
3 Used as serial (RX)
May be used but observe that signal might flicker due to serial activity during boot.
4 D2 Generally used as SDA (I2C)
5 D1 Generally used as SCL (I2C)
6 Do not use!
Reserved for SPI + flash
7 Do not use!
Reserved for SPI + flash
8 Do not use!
Reserved for SPI + flash
9 D11 Do not use!
Reserved for SPI + flash
10 D12 Use with caution!
Reserved for SPI + flash
11 Do not use!
Reserved for SPI + flash
12 D6
13 D7
14 D5
15 D8 LOW for boot Pulldown resistor on most boards
16 D0 No PWM. No internal pullup available. Used in sleep mode for wakeup

ESP Easy web interface

The ESP Easy has a user-friendly web interface for all configuration settings. They are locally stored in flash memory and retained on power-off. We will explain all configuration pages and settings:

Main page

URL:<espeasyip>
ESPEasy Main.png

This is an informational page that provides some technical and operational parameters. The bottom half shows a node list of all known ESP units that are running in your network (this is optional and needs to be configured in tools/advanced) The list only shows live systems.

Config page

URL:<espeasyip>/config
Main settings can be found under "Config" page.

ESPEasy Config.png

Name Can be set to an easy to remember name for this system. Can also be used in MQTT communication templates.

Admin Password Can be set if you want to protect your system config with a password.

SSID Wifi network SSID

WPA Key The key used on your Wifi Access Point

WPA AP Mode Key The key that ESP Easy will use if it starts as a Wifi Access Point to set the first time configuration

Unit nr Each ESP Easy unit needs a unique number in the range 1-31. This is important for MQTT connections and the Node list! Do not forget to set this field to a non-zero value, not conflicting with other units.

Protocol Select the protocol for your Home Automation controller or webservice like ThingSpeak.

Locate Controller You can set the controller based on it's DNS hostname or it's IP address.

Controller IP/Hostname Set IP or hostname for the controller

Controller Port Set the TCP port used on your controller or webservice.

Sensor Delay Set the delay between sensor reporting in seconds.

Sleep Mode Tick this field to use the ESP in deepsleep mode for low power operation. Read more: SleepMode

Optional

ESP IP You can set a static IP for this ESP unit. Set to 0.0.0.0 to use DHCP

ESP GW If using a static IP, enter the gateway (not needed if no connection to internet is needed!)

ESP Subnet Enter the local used subnet, usually 255.255.255.0

ESP DNS Enter you local DNS server IP address. Usually the IP of your local internet router.

Controllers page (version 2.0+)

URL:<espeasyip>/controllers
WebGUI controllers.PNG

It is possible to have multiple controllers/brokers activated.

Hardware page

URL:<espeasyip>/hardware
ESPEasy Hardware.png

Status LED (version 2.0 only) Select the data pin used for a low active LED to show the status of the firmware. Use D4 (GPIO2) for the on-board blue LED.

StatusLEDModes.png

SDA Select the data pin used for I2C communications.

SCL Select the clock pin used for I2C communications.

Pin mode x Select an optional boot state for this pin, either output low or high

I2C is a well known standard to let multiple devices communicate over just two wires (and ground). We use it to connect sensors to ESP Easy. You can connect multiple sensors to the same two wires. Don't forget to use pull-up resistors on both SDA and SCL, unless one of your sensors already has them mounted on board.

Rules page

URL:<espeasyip>/rules
WebGUI rules.PNG Here's where the rules goes.

Notifications page (version 2.0+)

URL:<espeasyip>/notifications
WebGUI notifications.PNG

It is possible to have the ESP unit send emails or giving you notifications using a buzzer.

Devices page

URL:<espeasyip>/devices
ESPEasy Devices.png

This is a list of tasks that the ESP Easy will perform. A sensor needs to be defined here to get the values send to your controller.

After selecting a new device, press the ? button to get specific help on this device!

Most common mistake if your values remain 0: The ESP Easy mainly targets Domoticz and the internal framework is entirely build upon the IDX field. This needs to match Domoticz. If you run a different protocol, it can be any value but must be non-zero. Just choose '1' in those cases...

Tools page

URL:<espeasyip>/tools
ESPEasy Tools.png

Some maintenance tools.


Tools Log page

URL:<espeasyip>/log
WebGUI log.PNG

This page can be used for debugging issues. The debug level is set to '2' by default and will show sensor readings. Debugging levels can be changed under Tools/Advanced.

If your system runs fine, you can set the level to '0' to turn of logging. This will save valuable RAM!

Tools Advanced page

URL:<espeasyip>/advanced
ESPEasy Tools Advanced.png

Subscribe Template Used for MQTT subscription. Selecting a MQTT protocol will automatically fill this field

Publish Template Used for MQTT publishing. Selecting a MQTT protocol will automatically fill this field It is also used for the Generic HTTP protocol. Create your custom template here.

MQTT Retain Msg

Message Delay To prevent overloading your controller or webservice, a delay between reports can be set. Defaults to 1000 milliseconds. For ThingSpeak, you need to set this to 15000! to have multiple sensor readings working

Fixed IP Octet Special network config where the ESP starts with DHCP to get the basic network config and then sets the last octet to a fixed IP.

Use NTP To enable internal software clock, synchronized using internet time.

NTP Hostname Can be left empty as it defaults to pool.ntp.org. Can be changed here if needed.

Timezone Offset Offset in minutes to GMT. In the Netherlands this should be '60'

DST Daylight Saving Time. Must be set manually when DST is active to adjust the time.

Syslog IP Enter your syslog server IP if you have one running and want to debug something.

Syslog level Level of log messaging to the syslog server. Can be set between 0 - 4 (0=no logging, 1=error, 2=error+info, 3=error+info+debug, 4=error+info+more debug)

UDP port This is used for communication between ESP unit's. 65500 is just a sample. Use a number that does not conflict with other systems on your network as the ESP uses broadcast messages. If you have a syslog server running, do not enter 514 here!. This fields needs to be non-zero to have the node list running.

Enable Serial Port Enable/disable the serial port.

Serial log level Level of log messaging to the serial port. Can be set between 0 - 4 (0=no logging, 1=error, 2=error+info, 3=error+info+debug, 4=error+info+more debug)

Web log level Level of log messaging to the web gui. Can be set between 0 - 4 (0=no logging, 1=error, 2=error+info, 3=error+info+debug, 4=error+info+more debug)

Baud Rate Serial port baud rate

WD I2C Address I2C address to send watchdog messages to. Experimental feature to feed a ATTiny based external watchdog.

Custom CSS Tick this box to use a custom CSS (style sheet). You must first upload a "esp.css" file one to use this. The CSS filesize can not exceed 4 kbyte!.

Use SSDP SSDP is a network protocol based on the Internet Protocol Suite for advertisement and discovery of network services and presence information. This option toggles this service.

Rules Tick this checkbox to enable the Rules section for scripting the device. Else the rules aren't visible and editable and won't be processed at all.

I2C ClockStrechLimit

Global Sync

Tools Wifi scan

URL:<espeasyip>/wifiscanner
WebGUI wifiscanner.PNG

Here's a list of all accessible wifi networks and their signal strength.

Tools I2C scan

URL:<espeasyip>/i2cscanner
WebGUI i2cscanner.PNG

If one or more I2C devices are connected to the ESP Easy, you can use this scan feature to verify if devices can be located using their I2C address. If no device is shown, you likely made a mistake on wiring or the I2C configuration in the Hardware page.

If the I2C scanner lists an address, it will also list some well known devices that are fixed or typically found on that address. It does NOT mean that the detected device is verified to work in any way. I2C devices use a 7 bit address and the ESP will just scan all 127 possible addresses. If a device listens to some address it will acknowledge this to the ESP. It does not report the type of device so the ESP can only tell that something is listening!

Tools Settings up/download

URL:<espeasyip>/upload (for uploading settings)
WebGUI upload.PNG

URL:<espeasyip>/download (for downloading settings, not a webpage but a direct download)
WebGUI download.PNG

The ESP Easy settings can be saved to your computer so you can restore them if they are lost or you just want to restore them after some experimenting. You can also upload a custom style sheet.

The system recognizes only two filenames:

config.txt

This file contains the ESP main configuration settings, except security data. The filesize should be 32k. You can exchange this file with other people if you like, because WPA keys and config password are not stored into this file.

Security data cannot be saved or restored from file!


esp.css (Custom Style Sheet, max 4 kb !)

If you want to customize the web gui you can upload (a small) css file. Remember that the webgui is only there for configuration so customization is limited. You may use the following stylesheet as an working example or template for further customization. And don't forget to activate the uploaded stylesheet in the TOOLS>ADVANCED section by enabling the "Custom CSS" option.

* {
	font-family: verdana,sans-serif;
	font-size: 13px;
}
h1 {
	color: black;
	font-size: 16pt;
}

h1::after {
	content: " (Powersocket Livingroom)";  /* Give your Device an additional selfexplaing name after the topmost headline */
}

h6 {
	color: black;
	font-size: 10pt;
	text-align: center;
}
.button-menu {
	background: #3498db;
	background-image: -webkit-linear-gradient(top, #3498db, #2980b9);
	background-image: -moz-linear-gradient(top, #3498db, #2980b9);
	background-image: -ms-linear-gradient(top, #3498db, #2980b9);
	background-image: -o-linear-gradient(top, #3498db, #2980b9);
	background-image: linear-gradient(to bottom, #3498db, #2980b9);
	-webkit-border-radius: 7;
	-moz-border-radius: 7;
	border-radius: 7px;
	color: #ffffff;
	padding: 3px 10px 3px 10px;
	border: solid #1f628d 1px;
	text-decoration: none;
	margin:0px 2px;
}

.button-menu:hover {
	background: #8fd4ff;
	background-image: -webkit-linear-gradient(top, #8fd4ff, #3498db);
	background-image: -moz-linear-gradient(top, #8fd4ff, #3498db);
	background-image: -ms-linear-gradient(top, #8fd4ff, #3498db);
	background-image: -o-linear-gradient(top, #8fd4ff, #3498db);
	background-image: linear-gradient(to bottom, #8fd4ff, #3498db);
	text-decoration: none;
	margin:0px 2px;
}

.button-link {
	border: 1px solid;
	border-radius: 5px;
	background:ButtonFace;
	color:ButtonText;
	border-color:ButtonHighlight ButtonShadow ButtonShadow ButtonHighlight;
	padding: 5px 15px;
	text-decoration: none;
}
.button-link:hover {
	background-color:Highlight;
	color:HighlightText;
}
.button-link:active {
	border-color:ButtonShadow ButtonHighlight ButtonHighlight ButtonShadow;
}
th {
	background-color: #369;
	color: #ffffff;
	padding: 10px;
}
td {
	padding: 7px;
}
table {
	color: black;
	border-collapse:collapse;
}
.div_l {
	float: left;
}
.div_r {
	background-color: #080;
	border-radius: 7px;
	color: white;
	float: right;
	margin: 2px;
	padding: 1px 10px;
}
.div_br {
	clear: both;
}

Tools Firmware update using OTA

URL:<espeasyip>/update
WebGUI update.PNG

Once your first ESP Easy firmware is loaded using the serial interface, subsequent updates can be loaded using the Wifi connection (if your unit has 1MB flash or more!). More details on OTA firmware update: EasyOTA

Tools File List (version 2.0+)

URL:<espeasyip>/filelist
WebGUI filelist.PNG

Access to the ESP's files. Possible to download for backup, or upload your own files.

Tools SD CARD File List (version 2.0+)

URL:<espeasyip>/SDfilelist
WebGUI SDfilelist.PNG

Access to the ESP's files stored on the SD card (if any SD card). Possible to download for backup, or upload your own files.

JSON page (hidden prior to version 2.0+)

URL:<espeasyip>/json
WebGUI json.PNG

If you want to get the ESP units variables in a JSON package this is where you want to go. The page is not accessible through any webpage button like the other pages.

Command Reference

ESPEasy Command Reference

System variables Reference

ESPEasy System Variables

Tutorial Rules

Tutorial Rules

Most information on rules (=local logic on ESP without controller) can be found in the tutorial

Support and discussion

  • Forum
  • IRC: #espeasy @freenode

Source code development

Sources are on Github

Want to contribute? Anyone is invited to do so, but please read this first: ESPEasyDevelopmentGuidelines

If you're new to this, follow these guides: