Introduction
Welcome to the Integration manuals section. This part of the Wiki is dedicated to providing concise, practical guides for configuring and integrating ACRIOS Systems devices.
Please note, that you may filter the articles based on the devices. The device filter can be found in the upper right corner.
Details
Example GIF
M-Bus
This manual provides a guide for integrating the ACR-CV-101L-M-D and ACR-CV-101L-M-EAC converters. It focuses on retrofitting meters with M-Bus communication to LoRaWAN. The guide covers the default Lua script settings and various configuration options.
The manual provides information about the utilization of Secondary Addressing on the ACR-CV-101L-M-D and ACR-CV-101L-M-EAC converters. The manual comprehensively addresses remote configuration, providing a description and examples of its application.
This manual provides a guide for integrating the ACR-CV-101L-M-D and ACR-CV-101L-M-EAC converters with the Akenza.io platform. The integration process focuses on connecting existing devices to Akenza.io for data transmission and monitoring.
This manual provides a guide for integrating the ACR-CV-101L-M-D and ACR-CV-101L-M-EAC converters with The Things Stack network server. The manual covers the steps required to connect devices for data transmission and monitoring.
This manual provides a guide for integrating the ACR-CV-101N-M-D and ACR-CV-101N-M-EAC converters. It focuses on retrofitting meters with M-Bus communication to NB-IoT. The guide covers the default Lua script settings and various configuration options.
Description of configuration commands used with a Lua script used to communicate with the ACR-CV-101N-M-D and ACR-CV-101N-M-EAC converters and the server configured for this purpose.
This manual provides a guide for integrating of the ACR-CV-101L-M-D and ACR-CV-101L-M-EAC converters for Wireless M-Bus applications useful for retrofitting meters with M-Bus communication. The manual outlines Lua script configuration and other operational aspects.
Wireless M-Bus
Description of configuration commands used with a Lua script which sets a protocol to communicate with the ACR-CV-101NI-W-D2 with ACR-CV-101LN-W-D firmware that allows the use of LoRaWAN and a potential use of NB-IoT for data sending to a remote backend.
Description of configuration commands used with a Lua script which sets a protocol to communicate with the Acrios ACR-CV-101NI-W-D2 and ACR-CV-101NI-W433-D2 converters and the server configured for this purpose.
Quick integration guide on how to utilize Send-Once approach using ACR-CV-101NI-W-D2 and ACR-CV-101NI-W433-D2 devices for purposes of Wireless M-Bus smart meters readout.
This manual provides a guide for integrating the ACR-CV-101NI-W-D2 and ACR-CV-101NI-W433-D2 converters with the MQTT protocol. The manual covers the steps required to connect devices for data transmission and monitoring.
RS485/Modbus
This manual introduces the ACR-CV-101L-R12-D, ACR-CV-101L-R12-EAC, ACR-CV-101L-R-D and ACR-CV-101L-R-EAC converters that streamline Modbus energy meter integration. The manual comprehensively addresses remote configuration, providing a description and examples of its application.
This manual introduces the ACR-CV-101N-R12-D, ACR-CV-101N-R12-EAC, ACR-CV-101N-R-D and ACR-CV-101N-R-EAC converters that streamline Modbus energy meter integration. The manual comprehensively addresses remote configuration, providing a description and examples of its application.
S0 Pulse input
This manual provides a guide for integrating the ACR-CV-101N-I4-D and ACR-CV-101N-I4-EAC converters. It focuses on retrofitting meters with pulse communication to NB-IoT. The guide covers the default Lua script settings and other aspects of the device.
This manual provides a guide for integrating the ACR-EX-100NILCD-I1-C converter. The manual addresses various aspects of device management and payloads for both uplink and downlink communication, configuration via the IEC62056-21 optical interface or use of data exchange and configuration protocol utilizing UDP or LwM2M.
Other
This manual provides a detailed guide on integrating the ACR-EX-100NILCD-I1-C converter as a signal tester device.