- Utilizes DHT22 temperature + humidity sensor
- Changing to a different sensor should only require changes to a few lines of code
- OTA (Over The Air) firmware updates
- No need to physically connect to device to flash new firmware
- Utilizes InfluxDB time series DB for data logging
- Utilizes the board's deep sleep (low power) mode to minimize power consumption
- For maximum efficient/lowest power consumption, the board needs to be powered directly and not via the USB connector (which utilizes the on-board voltage regulator)
- Per device configuration for temperature and humidity adjustments
- Adjustments can be made globally (it's all code) but for my purposes I used the ESP8266 WiFI adapter MAC address
- It's reccomended to calibrate (adjust the software offsets) relative to known accurate sensors
- 1x ESP8266
- The provided case leverages NodeMCU v3 w/o attached headers
- 1x 1N5817 Schottky diode
- 1x 10kΩ resistor
- 4x M2x4 self tapping screws
- 2x M2x8 self tapping screws
- 1x M2 nylon washer (optional)
- 1x 3-wire Micro JST connector (optional to simplify disassembly/reassembly)
- stl, step, and f3d models provided
- Flame retartent filament recommended
- I personally use eSun ePC (Flame retardant level: UL94:V2) for electronics projects
- Remember to scale the 3D model to compensate for filament shrinkage
- This case relies on the ESP8266 NodeMCU v3 dimensions and a headerless (no pre-soldered pin headers) board. While headerless boards are more difficult to find, their use does allow for a much shorter, uniform, and convenient case height
- Board dimensions vary wildly between ESP8266 version and manufacturer. I highly reccomend comparing the dimensions of your board and screw hole sizes/locations to the 3D model to avoid wasting unnecessary time and filament
- Assembly
- Use the 4x M2x4 screws to attach the ESP8266 to the case
- Use the 2x M2x8 screws to attach the sensor lid to the case
- If the sensor does not sit flush, use the nylon washer (any thin washer would do but I used a nylon washer as I had one available) to fill the empty space between the sensor and the lid
- As long as the tolerances of your 3D print are within reason, the sliding lid should attach without force but should also not slide out on its own
- Install the ES8266 boards
- Instructions here
- Select the ESP8266 board
- Tools --> Boards --> NodeMCU 1.0 (ESP-12E Module)
- Install the Adafruit DHT sensor library
- Instructions here
- Don't forget to install both the DHT sensor library and the Adafruit Unified Sensor libraries
- Locate the writeNewDeviceSettings function and make updates as necessary
These settings should be common across all your sensors.
char* otaUrl = "http://otaserverhostname:otaserverport/ota/tempsensor.bin"; //Blank if not using OTA updates
short dhtPin = 5; //ESP8266 D1
short dhtPowerPin = 4; //ESP8266 D2 (Not required if you use a power pin directly)
char* wifiSSID = "yourwifissid";
char* wifiPwd = "yourwifipwd";
char* influxDBProtocol = "http";
char* influxDBHost = "yourinfluxdbhost";
int influxDBPort = 8086;
char* influxDBDB = "sensordata";
char* influxDBMeasurement = "temperature";
short sendInterval = 60; //secondsEach sensor must also have an entry to specify the device's ID and temperature/humidity adjustments.
To locate each sensor's MAC address, upload the sketch and observe the serial output.
WiFi MAC Address: AA:AA:AA:AA:AA:AA
if (mac_address == "AA:AA:AA:AA:AA:AA") {
sensorTempAdjustment = 0.0;
sensorHumdidityAdjustment = 0.0;
deviceId = "SensorA";
} else if (mac_address == "BB:BB:BB:BB:BB:BB") {
sensorTempAdjustment = 0.0;
sensorHumdidityAdjustment = 0.0;
deviceId = "SensorB";
}