It communicates with meters using standard utility protocols such as DLMS , MBus, and IEC1107.
The CAM65’s primary function is "concentration"—gathering data from various subordinate meters and relaying it to a Head-End System (HES). It supports a modular structure, allowing it to adapt to different physical link layers and protocols: It communicates with meters using standard utility protocols
The modernization of energy grids relies heavily on the efficient collection and processing of data from thousands of individual endpoints. The CAM65 data concentrator, developed by ZPA Smart Energy , serves as the localized "brain" of these networks. By managing communication with hundreds of electricity meters, the CAM65 transforms raw consumption data into actionable information for utility providers. 1. Hardware and Software Architecture The CAM65 data concentrator, developed by ZPA Smart
To reach the central master system, it uses Ethernet or 4-band GPRS/GSM radio WAN. 3. Operational Intelligence Hardware and Software Architecture To reach the central
Designed for the utility field, it operates in extreme temperatures ranging from –40 °C to +70 °C and features IP53 ingress protection. 2. Advanced Communication and Connectivity
It is equipped with 512 MB of DDR3 RAM and 4 GB of internal memory, which can be expanded via a MicroSD card up to 16 GB to store months or even years of consumption profiles.
Beyond simple data passing, the CAM65 performs automated tasks via an internal scheduler. It can automatically read meter registries, track alarms, and process operational data. A key feature is its which allows the central HES to access individual meters directly through the concentrator, facilitating real-time troubleshooting and firmware updates at the endpoint level. Conclusion