Deployment & Engineering
Point-to-Point Wireless Links
We design and deploy point-to-point wireless links to connect buildings, extend networks, and deliver reliable connectivity where fibre is not practical. From short campus links to longer backhaul paths, we engineer the solution around capacity, resilience, interference risk, and environmental constraints. Every deployment is aligned, tested, documented, and handed over with clear performance expectations.
When Point-to-Point Links Make Sense
Typical use cases
Point-to-point links are ideal when you need dependable connectivity between locations but trenching fibre is too slow, too expensive, or not possible. We assess line-of-sight, Fresnel clearance, interference risk, and mounting constraints, then design a link that meets your throughput and reliability needs. The result is a predictable connection that behaves like a wired circuit, with clear performance targets and a practical maintenance approach.
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Fibre is not practical
High civil costs, long lead times, wayleave issues, or restricted sites make fibre unrealistic.
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Building-to-building connectivity
Connect offices, warehouses, portacabins, or remote areas of a campus with stable backhaul.
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CCTV and IoT extension
Extend connectivity for cameras, access control, sensors, and operational systems without new cabling.
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Temporary sites and events
Rapid deployments for projects, pop-ups, or temporary structures where you still need proper performance.
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Resilience and failover
Add a secondary path to protect business-critical connectivity between sites.
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Performance requirements
You need predictable throughput, latency, and stability rather than a “best effort” radio bridge.
What you get
A properly engineered link, tested against realistic expectations, with documentation you can support. Deliverables vary by site and platform, but typically include the following.
Path assessment
Line-of-sight and Fresnel clearance checks, mounting constraints, and practical installation approach.
Link budget and design
Frequency selection, modulation targets, fade margin, channel width, and expected performance under realistic conditions.
Equipment selection
Appropriate radios, antennas, mounting hardware, and protection measures for the environment and range.
Installation and alignment
Correct mounting, grounding considerations, clean cabling, and alignment to maximise signal quality and stability.
Performance validation
Throughput, latency, and stability checks, plus RF readings to confirm the link is operating as designed.
Documentation and handover
Configuration notes, diagrams, an IP plan, and an agreed support approach for ongoing maintenance, if required.
How it works
A structured approach that prioritises link stability and avoids the common pitfalls of under-designed wireless bridging.
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Step 01
Discovery
Confirm the business outcome, throughput needs, resilience goals, site constraints, and any change windows.
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Step 02
Path survey & design
Validate line-of-sight and Fresnel clearance, assess interference risk, and produce the link budget and design choices.
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Step 03
Install & align
Install hardware, align precisely, apply a clean configuration, and integrate the link into your network.
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Step 04
Validate & handover
Test throughput and stability, document the outcome, and outline recommended monitoring and maintenance.
Need reliable connectivity between sites?
Tell us the distance, locations, and the performance you need. We will recommend the right approach and the cleanest deployment plan.