NETIO AN23 demonstrates how to connect NETIO devices (LAN / WiFi power sockets) to the ELAN AV system and control power sockets. It's using the Netio Driver for ELAN by Intrinsic. NETIO ELAN driver is available as PRO version to control device outputs, with energy consumption monitoring and Output status feedback.
NETIO AN54 demonstrates how to connect NETIO devices (LAN / WiFi power sockets) to the Control4 system and control power sockets or relay outputs.
It's using the NETIO Pro Driver for Control4 by Intrinsic. NETIO Control4 driver is available as paid (Pro) version with energy consumption monitoring and Output status feedback.
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.
NETIO AN28 describes how to control NETIO devices and read data from them with a Crestron control processor and the SIMPL environment. Http(s) and JSON are used.
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).
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.
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.
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).
The Domoticz home automation system can read measured values and control individual power outlets on a NETIO smart socket device. The example is applicable to NETIO 4All, PowerCable REST and other NETIO products that support JSON over HTTP. Domoticz is a Home Automation System that can configure, control and monitor various devices. It can run in a Docker container, a FreeNAS storage device, a local PC, or even a Raspberry Pi.
AN22 presents an example of connecting ProfiLab-Expert 4.0 with NETIO power sockets using Modbus/TCP. The example shows how to control the outputs and measure all accessible parameters.
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!
AN26 shows how to connect NETIO smart sockets with the IoT Hub (part of MS Azure). Standard M2M MQTT for NETIO 4x products is used. MQTT flex is not supported.
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.
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).
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.