Design, plan, and deploy secure private 5G and private LTE infrastructure for mining, utilities, manufacturing, ports, transportation, and enterprise operations across Canada. Site-assessed from the ground up — RF measurement, propagation modelling, and deployment design built around your operational environment, not a vendor brochure.
Support automation, robotics, telemetry, and mission-critical communications.
Keep operational traffic isolated from public cellular congestion.
Reliable coverage across yards, plants, campuses, substations, and field sites.
Enable AI systems, IoT deployments, smart operations, and edge computing.
Private5G.ca focuses on industrial and operational environments where reliability, coverage, mobility, and secure communications directly impact operations.
Support substations, field operations, SCADA systems, inspections, and mobile workforce communications.
Read More →Improve connectivity across remote operations, autonomous equipment, worker safety systems, and telemetry.
Read More →Enable industrial automation, predictive maintenance, machine telemetry, and connected production environments.
Read More →Reliable wireless infrastructure for yard operations, container tracking, fleet management, and automation systems.
Read More →Support rail, transit, fleet, and corridor communications with secure private wireless infrastructure.
Read More →Connect cameras, IoT sensors, AI systems, edge devices, and operational technology securely.
Read More →Secure private wireless for remote outstations, IoT, public infrastructure, and operational field assets.
Read More →Own the in-building private 5G network, improve tenant coverage, and explore carrier access models.
Read More →Private 5G only works when the design reflects the real operating environment. We start by measuring the site, mapping wireless conditions, identifying physical constraints, and modelling how people, equipment, vehicles, and infrastructure actually move through the space.
We begin with a structured site walkthrough to understand the physical, operational, and RF environment.
Industrial sites are full of RF challenges that do not show up in generic network plans.
Collected site data is analyzed to model coverage, capacity, interference, handoff behaviour, and network performance.
The final output is a practical deployment plan built around your operating environment and technical requirements.
Warehouses, substations, mines, ports, plants, and transportation facilities are dynamic RF environments. A strong private wireless design has to account for concrete, steel, equipment movement, channel congestion, interference, safety restrictions, mounting limitations, and operational workflows.
From greenfield deployments to modernization projects, we help organizations evaluate, design, and deploy scalable private wireless infrastructure.
Site walk, channel/frequency analysis, physical obstruction review, and deployment roadmaps.
Read More →Connect sensors, automation systems, edge devices, cameras, and OT workflows securely.
Read More →Supporting industrial connectivity initiatives across Ontario and Canada, including utilities, manufacturing, mining, logistics, and infrastructure environments.
In-depth technical resources covering private 5G use cases, network costs, architecture, and how private 5G compares to private LTE — written for operators, engineers, and decision-makers evaluating private wireless infrastructure for Canadian industrial sites.
Technical breakdown of 11 industrial use cases — AMRs, SCADA, worker safety, port automation, drone operations, and more. Includes latency specs, throughput requirements, and deployment considerations for each.
Read Use Cases →Honest CapEx and OpEx breakdown for Canadian deployments. Spectrum licensing in Canada, RAN hardware ranges, core software pricing, vendor landscape, and cost drivers by site type — small campus to large mine.
Read Cost Guide →Side-by-side technical comparison across latency, throughput, network slicing, spectrum, core architecture, device ecosystem, and migration paths. Includes a practical decision framework for when each is the right choice.
Read Comparison →Tell us about your operational environment, coverage challenges, mobility requirements, or modernization goals.