Cellular IoT Connectivity for the Utility Sector

Sector Focus

Cellular IoT Connectivity for the Utility Sector

Guides, hardware references, and connectivity architecture for electricity distribution, battery energy storage, renewable generation, and water infrastructure. From secondary substation SCADA to grid-edge monitoring – the connectivity layer that keeps utility assets visible and controllable.

Connectivity Requirements in the Utility Sector

The utility sector places demands on communications infrastructure that few other industries match. Critical grid assets must remain visible to the control centre at all times. SCADA sessions over DNP3 or IEC 104 must survive WAN failover events without requiring manual restart. Cybersecurity frameworks including NIS, NCSC CAF, and ENA Engineering Recommendations impose technical requirements on network architecture, encryption, and access control. And the hardware installed in substations and field cabinets must operate reliably for the 15-20 year asset replacement cycles the sector works to.

Cellular connectivity has become the primary WAN technology for secondary substations, BESS sites, and distributed grid assets in the UK – not because it is the only option, but because it gets a site connected faster, cheaper, and with better inherent WAN redundancy (dual-SIM across different MNOs) than a single fixed line connection can provide.

Secondary Substations

DNP3 and IEC 104 SCADA connectivity to distribution substations. Dual-SIM failover on different MNOs, serial RTU integration, IPsec tunnels to control centre.

Battery Energy Storage (BESS)

Control system connectivity for grid-connected BESS. DNP3 over cellular, GPS NTP synchronisation, comms-loss alerting, ENA TS2 compliance.

Renewable Generation

Wind and solar site SCADA backhaul and sensor monitoring. Cellular WAN for site-level control, LoRaWAN for distributed environmental and condition monitoring.

Water and Wastewater

Remote pump station monitoring, flow metering, and alarm telemetry. Long-life unattended deployment with low-data SCADA traffic over resilient cellular.

Guides and Technical References

Milesight Industrial Hardware for Utility Applications

Full coverage of Milesight dual-SIM routers, LoRaWAN gateways, and the Development Platform for utility deployments. Reference architecture for BESS and secondary substation sites included. Read the guide

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SCADA Cellular Connectivity

How cellular WAN is used for SCADA communications – protocol considerations for DNP3 and IEC 104 over cellular, failover behaviour, and VPN architecture. Read the guide

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Milesight Development Platform

Remote fleet management, OTA firmware updates, comms-loss alerting, and webhook integration for utility device estates. Read the guide

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M2M SIM Cards for Utility Deployments

SIM selection for utility cellular deployments – multi-network vs single-operator, fixed IP considerations, private APN for SCADA isolation. Read the guide

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LoRaWAN for Renewable Site Monitoring

LoRaWAN gateway deployment for distributed sensor monitoring across wind and solar generation sites. Milesight UG65 and UG67 gateway specifications. Read the guide

Cybersecurity and Regulatory Context

UK utility operators are subject to the NIS (Network and Information Systems) Regulations 2018, with Ofgem as the designated competent authority for the electricity sector. The NCSC Cyber Assessment Framework provides the practical implementation guidance. ENA Engineering Recommendations – particularly those covering controllable distributed energy resources – impose communications and cybersecurity requirements on BESS and generation assets connected to the distribution network.

The connectivity architecture that these frameworks require is well-defined: encrypted WAN communications (IPsec or equivalent), network segmentation between SCADA and management traffic, authenticated remote access, patch management processes for connected devices, and incident detection capability. Industrial cellular routers from manufacturers including Milesight support all of these requirements as standard hardware capability.

5G network slicing for critical infrastructure 5G standalone networks introduce network slicing – the ability to carve out a dedicated, isolated slice of radio and core network capacity for a specific application or customer. For utility SCADA communications, a dedicated 5G slice with guaranteed QoS and complete traffic isolation from other users is a compelling proposition. The technical and commercial development of 5G slicing for critical infrastructure is covered at 5G Slicing.

Hardware Selection for Utility Sites

The right hardware for a utility cellular deployment depends on the specific application. For secondary substation and BESS control system connectivity, the Milesight UR35 (4G dual-SIM with RS485 serial) and UR75 (5G dual-SIM with multi-WAN) cover the majority of cases. For distributed sensor monitoring on renewable generation sites, the Milesight UG67 (outdoor LoRaWAN gateway with LTE backhaul) handles the collection layer.

For the full Milesight industrial router range with specifications and ordering codes, see the Milesight industrial routers page. For the LoRaWAN gateway range see the Milesight LoRaWAN gateway guide.

Related external technical resources
  • 5G Slicing – 5G network slicing for utility and critical infrastructure communications
  • eUICC Explained – remote SIM profile management for large utility device estates
  • SGP.32 – IoT eSIM standard for remote SIM management without site visits
  • IoT SIMs – M2M SIM cards for utility and critical infrastructure deployments
  • 5G RedCap – 5G RedCap as an emerging connectivity option for utility sensor applications

Utility Sector Connectivity Resources

Hardware guides, SIM options, platform tools and sector applications across IoT Portal.

Milesight for Utilities SCADA Connectivity M2M SIM Cards Milesight Routers