# Energy Monitor Our energy monitor is based on the openenergymonitor.org project (Licence GNU GPL V3). It uses our HelTec Wireless Stick. This - of course - can be replaced by a cheaper ESP32 module. Power Measurement is done by a SCT013 clamp (100A:50mA). ## Build the hardware ### Used materials - [Bill of Material](../../hardware/BOM.md) ### PinOut ![PinOut](../images/HTIT-WS_V3.png "PinOut") We use A1, A2 and A3 because they are free (most ADCs are already used on the HelTec Board) ### Sensors The SCT-013 sensors are small current transformers (SCT). They have a ferromagnetic core that can be opened and in which we can enclose our conductor. This conductor is the primary winding and the secondary winding is fixed in the sensor and can have 2000 turns. This gives us a ratio of 1:2000 as an example. When AC current flows through the conductor, a magnetic flux is generated in the ferromagnetic core, which in turn generates an electric current in the secondary winding. I could not meassure "small" power consumptions (like a LED lamp or a light stripe, as the magnetix flux in the ferromagnet core seems to be too small). ![clamp on wire](../images/clamp1.jpeg "clamp on a wire") I was able to measure high loads (like a heater the can be switched between 1 kW and 2 kW). ![heater](../images/example-heater.png "serial out of a heater") Make sure the clamp is _always positioned towards the consumer_, otherwise it does _not_ work. There is a small arrow on the case. ![point the clamp](../images/clamp2.jpeg "point the clamp") > Attention: I could not measure any meaningful values on the "cable". I had to go to the wire. ![cable](../images/clamp3.jpeg "use the clamp on the wire, not on the cable") ### Breadboard Let's start with a simple breadboard layout. ![Breadboard](../images/breadboard.png "breakboard layout") ![Photo of breadboard](../images/photo-breadboard.jpeg "photo of breadboard") To understand this, have a look at this plan: ![Plan](../images/plan.png "plan") R1 & R2 are a voltage divider that provides the 1.65 V source. We use 10 kΩ for mains powered monitors. If we want to run on batteries, we have to choose differnt ones (like 470 kΩ resistors to keep the power consumption to a minimum). Capacitor C1 has a low reactance - a few hundred ohms - and provides a path for the alternating current to bypass the resistor. A value of 10 μF is suitable. R3 is the burden resistor. Ideal burden would be 19 Ω. As this is not a common value, you could choose 18 Ω or 22 Ω (I am still using a 47 Ω restistor, that has to be replaced). See the Fritzing file for [details](./energy-monitor.fzz). ## Code ### Print to serial out Start with a simple code that just prints the values. The code is quite simple, as we can use the existing _[EmonLib libary V1.1.0 by OpenEnergyMonitor](https://docs.openenergymonitor.org/electricity-monitoring/ct-sensors/)_. [Check out the small amount of code to print the values to serial out.](../../software/energy-monitor/01-energy-monitor-serial-out/) This piece of code is based on on Thomas Edlinger's code for [Edi's Tech Lab](https://www.edistechlab.com). The only interesting part is this line: ```C emon1.current(current1Pin, 8); // Pin and Calibration ``` The [calibration](https://docs.openenergymonitor.org/electricity-monitoring/ctac/calibration.html) value "8" was done with a Fluke multimeter (and maybe a not so ideal burden resistor). The code just prints the current power consumption to serial out: ```txt 16:28:18.915 -> 2853.16 Watt - 12.41 Ampere 16:28:19.998 -> 2854.63 Watt - 12.41 Ampere 16:28:21.119 -> 2850.93 Watt - 12.40 Ampere 16:28:22.207 -> 1702.19 Watt - 7.40 Ampere 16:28:23.289 -> 400.62 Watt - 1.74 Ampere 16:28:24.367 -> 94.42 Watt - 0.41 Ampere ``` ### Post to MQTT #### Boot up MQTT Now follow this documentation to set up [IoT Prototyping Backend](https://code.curious.bio/curious.bio/iot-backend). #### Credentials To connect to your Wifi and access your MQTT server you have to add this to an `environment` [header file](../../software/energy-monitor/02-energy-monitor-mqtt/environment.h): ```C // Replace with your network credentials #define secrect_ssid "Guest" #define secret_password "guestguest" #define mqtt_server "192.168.2.103" #define mqtt_port 1883 #define mqtt_prefix "/iot-platform/energy-monitor/test-device" ``` The `mqtt_server` in tis example posts to my local IP adress. The Wifi network is a `Guest` network I just created for this test. The `mqtt_prefix` should be different per device, as this is the topic prefix used to identify the device. ### Testing You can subscribe to your local MQTT server and subscribe to all or just the interesting topics: ```sh mosquitto_sub -h localhost -t '#' -p 1883 #all mosquitto_sub -h localhost -t '/iot-platform/energy-monitor/test-device/ampere' -p 1883 #current mosquitto_sub -h localhost -t '/iot-platform/energy-monitor/test-device/watt' -p 1883 #power ``` ### Interesting code blocks Posting to MQTT is quite simple. After setting up Wifi and connection to the MQTT server, it's just a few lines of code: ```C client.publish(concat(mqttPrefix, "/watt"), powerArray); client.publish(concat(mqttPrefix, "/ampere"), irmsArray); ``` Have a look at the complete [example](../../software/energy-monitor/02-energy-monitor-mqtt/). ## Simulator If you just need random inputs (without using the actual hardware), you can simply modify my short [shell script](../../software/energy-monitor/00-simulator/). ## Links - A very comprehensive project to build an energy monitor can be found in the [ESP32 + ESPHome Open Source Energy Monitor project by Daniel BP](https://github.com/danpeig/ESP32EnergyMonitor). - A nice (German) [video tutorial can be found at Eddie's Techlab](https://edistechlab.com/sct013-sensor-zum-wechselstrom-messen/). - Have a look at the [complete documentation of the Open Energy Monitor project](https://docs.openenergymonitor.org/). - There is also a German [example project](http://www.technik-fan.de/index.php/Open_Energy_Monitor_mit_dem_ESP32) (that currently cannot be reached over TLS, so be careful before clicking this link). - MQTT and ESP32 is described in this article ["How to Connect ESP32 to MQTT Broker"](https://iotdesignpro.com/projects/how-to-connect-esp32-mqtt-broker).