Pinned Repositories
FAST-DIY-IoT
Many IoT projects have a few requirement in common. If you have a basic template to satisfy all this requirements, development can speed up. Although most IoT projects use a fast variety of sensors and actuators to solve problems, the common requirements include: A easy why to connect to the internet. If you have a WiFi device, it needs to get your WiFi hotspot details to connect to the internet. You need to have a user-friendly, interactive method of communicating with your device. Reading sensors values, monitor and management of actuators (motors, speakers, heaters, air conditioners etc) must be ease, using good graphical user interface. Cloud based dashboards are useful. Updating of firmware must be hazel free.
Higrow-ESP32-WiFi-Soil-Moisture-Sensor
Measure Soil Moisture with this capacitive, non corroding sensor. Temperature and Humidity is available via the on board DHT11. Data is published to a web server hosted on the sensor.
Inverter_communication
Repository for code, documents, protocols to communicate with Inverters and batteries
IoT-Geyser
Development of an IoT geyser
iTilt-digital-hydrometer
Digital Hydro Meter for Beer and Cider fermentation
python-onvif
ONVIF Client Implementation in Python
Raspberry_PI_i2C_conficts
Use multiple i2c devices with same i2c address. No extra hardware required.
Sensirion_SDP810
Reading Differential Pressure and Temperature from the Sensirion SDP810 125 PA and SDP810 500 PA sensors using Python and a Raspberry pi
Solar-Assistant-MQTT-client
Solar-Assistant (https://solar-assistant.io/) is software to monitor and control Solar Systems. Many Inverters and Batteries is supported. It runs on a Raspberry PI or Certain Orange PI's. Solar-assistant include a MQTT broker. By communicating with this broker you can monitor and control many solar systems via MQTT and Python. Paho mqtt client.
ULN-2003-Stepper-Driver
ULN-2003 Stepper Driver
JJSlabbert's Repositories
JJSlabbert/Higrow-ESP32-WiFi-Soil-Moisture-Sensor
Measure Soil Moisture with this capacitive, non corroding sensor. Temperature and Humidity is available via the on board DHT11. Data is published to a web server hosted on the sensor.
JJSlabbert/iTilt-digital-hydrometer
Digital Hydro Meter for Beer and Cider fermentation
JJSlabbert/Raspberry_PI_i2C_conficts
Use multiple i2c devices with same i2c address. No extra hardware required.
JJSlabbert/Solar-Assistant-MQTT-client
Solar-Assistant (https://solar-assistant.io/) is software to monitor and control Solar Systems. Many Inverters and Batteries is supported. It runs on a Raspberry PI or Certain Orange PI's. Solar-assistant include a MQTT broker. By communicating with this broker you can monitor and control many solar systems via MQTT and Python. Paho mqtt client.
JJSlabbert/Sensirion_SDP810
Reading Differential Pressure and Temperature from the Sensirion SDP810 125 PA and SDP810 500 PA sensors using Python and a Raspberry pi
JJSlabbert/FAST-DIY-IoT
Many IoT projects have a few requirement in common. If you have a basic template to satisfy all this requirements, development can speed up. Although most IoT projects use a fast variety of sensors and actuators to solve problems, the common requirements include: A easy why to connect to the internet. If you have a WiFi device, it needs to get your WiFi hotspot details to connect to the internet. You need to have a user-friendly, interactive method of communicating with your device. Reading sensors values, monitor and management of actuators (motors, speakers, heaters, air conditioners etc) must be ease, using good graphical user interface. Cloud based dashboards are useful. Updating of firmware must be hazel free.
JJSlabbert/Inverter_communication
Repository for code, documents, protocols to communicate with Inverters and batteries
JJSlabbert/IoT-Geyser
Development of an IoT geyser
JJSlabbert/python-onvif
ONVIF Client Implementation in Python
JJSlabbert/ULN-2003-Stepper-Driver
ULN-2003 Stepper Driver