NETIO AN53 demonstrates how to connect NETIO smart electrical sockets to the Loxone building automation system. The 230V sockets can be easily controlled from the Loxone system. URL-API or Modbus/TCP protocols can be used for the communication.
AN52 demonstrates how to configure the LAN-Bluetooth hub for Flic 2 wireless buttons in order to directly control NETIO power sockets. The system is completely autonomous, no Internet or cloud connection is needed.
AN51 shows how to use PRTG to monitor and control NETIO power sockets using a map. To control the power outputs, an external script is used to switch the outputs on and off over the URL API.
This application note describes Prometheus monitoring system, how to use it to monitor runtime information about NETIO power sockets and how to visualise obtained data in Grafana. It can be used in Linux / Windows / as Docker image. The used protocol is JSON.
A PAB (Power Analyzer Block) in NETIO AN49 shows how to analyze the consumption of an appliance to count repeated actions (such as the number of coffees served by a coffee machine, or the number of times a parking gate barrier was lifted). In AN49, the consumption is measured by the NETIO device, and the Wh consumption in time is analyzed and the results displayed in Node-RED.
AN48 shows how to read NETIO power socket states from the Paessler PRTG Network Monitor (Windows only) in order to measure energy consumption. In this example, the device is accessed over SNMP and its electrical parameters (Wh, W, A, Hz, Power Factor) as well as power output states (on/off) are read.
The AN47 contains the NETIO BrightSign plugin (driver) for download and describes the use of the BrightSign player with NETIO LAN sockets. The system works autonomously, it does not need an internet connection or a cloud.
NETIO AN46 demonstrates how to connect smart power socket and Wix software with using Modbus/TCP protocol. Wix Measurement is a tool for monitoring and storing of data from wide range of devices which allows to control connected power sockets and make graphs of measuring power values (Current, Voltage, TruePF or kWh).
AN45 shows a Lua script that switches individual outputs on and off in a timed sequence when the device is powered up. In this way, a precise power-up sequence of the connected appliances can be defined.
NETIO AN44 demonstrates how to control outputs and read measurements (state, W, A) from the 110/230V NETIO smart sockets/outlets by Neets Control System over LAN/WiFi network.
Neets Control System is an easy way, how to control the AV systems. Neets EcHo Plus is the simple keypad control system connected to LAN. Neets devices can now easily control directly electrical socket outputs. It’s easy to use and you do not need to be a programmer or electrician to do so!
NETIO AN42 shows how to use the NETIO Power Analyzer utility (for Node-RED) to explore the power consumption behavior of electrical appliances. In a single screen, the Current [A], Load [W] and TruePF [-] waveforms are shown. The charts give a clear idea whether or not the energy consumption waveform can be used to monitor the appliance (e.g. see how many chewing gums were sold by a vending machine or if a fridge functions correctly).
AN41 shows how to use PowerPDU 4C to measure electric current and energy consumption in the Zabbix SNMP system (Linux). It also provides practical tips on power measurement and device monitoring in SNMP systems (Nagios, Zenoss, Zabbix and others).
MQTT-flex, supported by PowerCable MQTT, is a protocol for cloud applications. Flex is a method of configuring the standard MQTT with a user-defined topic and payload structure. The customer does not need to adapt to one particular MQTT structure. AN40 demonstrates how to configure MQTT-flex in PowerCable MQTT and connect the Wi-Fi smart socket device to the public HiveMQ broker. A mobile app is used to display the data and control the power output over the MQTT protocol.
The AN39 Application Note gives an overview of iOS (iPhone) apps that can be used for home automation to control electrical outlets and other devices over http get (URL API) or Modbus/TCP.
AN38 gives an overview of Android apps that can be used for home automation to control electrical outlets and other devices over http get (URL API) or Modbus/TCP.