WISP & Fixed Wireless
Broadband without the trench. We design, build, and run fixed wireless networks – RF planning, towers, backhaul, core, and billing – so you can light up coverage in weeks, not months, across CBRS and licensed spectrum.
Reach where fiber cannot.
Fixed Wireless Access (FWA) delivers broadband over radio between a sectorized base station and a fixed antenna at the premises. There is no trench and no drop cable, so a site goes live in a fraction of the time and cost of a fiber build. Typical throughput runs from about 100 to 400 Mbps on 5G-class gear and up to roughly 1 Gbps on mmWave, with latency near 50 to 70 ms – inside the NTIA and BEAD threshold of 100 ms or less. We engineer the link budgets, spectrum plan, and core so the network performs and scales.
- ✓Full-stack build. RF planning, towers, PtP and PtMP backhaul, network core, and billing/OSS – one team, one design.
- ✓Right spectrum for the job. Unlicensed 5, 6, and 60 GHz, SAS-coordinated CBRS at 3.5 GHz, and licensed 2.5 GHz plus mmWave.
- ✓Engineered coverage. Fresnel-zone modelling, sector loading, MU-MIMO and beamforming – designed for real throughput, not brochure figures.
Illustrative single-band decay. Real curves depend on spectrum, gear, and terrain, modelled per site.
What good fixed wireless delivers.
The whole network, engineered.
From the first site survey to subscriber billing – every layer of a fixed wireless operator, designed to grow.
RF planning & coverage design
Terrain modelling, link budgets, and Fresnel-zone analysis with at least 60 percent clearance for line-of-sight paths. We plan sectorized base stations, MU-MIMO, and beamforming to maximise real throughput per site, then predict coverage before a mast goes up.
PtP & PtMP topologies
Point-to-point links for backhaul and point-to-multipoint sectors for subscriber access, sized for concurrency.
Tower & rooftop deployment
Mast, rooftop, and structure work with power, grounding, and mounting for base stations and radios.
Backhaul & spectrum engineering
High-capacity backhaul over licensed and unlicensed bands, with spectrum planning across 5, 6, and 60 GHz unlicensed, SAS-coordinated CBRS at 3.5 GHz, and licensed 2.5 GHz plus mmWave. We manage interference, channel reuse, and capacity so aggregation keeps pace with the edge.
Network core & routing
Carrier-grade routing, IP address management, and quality-of-service policy for a stable, scalable core.
Billing & OSS
Subscriber provisioning, plan enforcement, billing, and operational support systems that run the business.
Choosing the right band.
Representative options for fixed wireless. The mix is engineered to your terrain, density, and capacity targets.
| Band | Licensing | Typical range | Best use |
|---|---|---|---|
| 5 / 6 GHz | Unlicensed | 2 to 4 miles | PtMP access and PtP backhaul in lighter interference |
| 60 GHz | Unlicensed | Short, under 1 mile | High-capacity, short-hop backhaul with clear line of sight |
| CBRS 3.5 GHz | SAS-coordinated | Up to ~6 miles | Backbone coverage with strong non-line-of-sight reach |
| mmWave (licensed) | Licensed | Short, high capacity | Gigabit-class access and dense-urban links |
From survey to subscribers.
Plan
Site surveys, terrain and Fresnel modelling, spectrum strategy, and link budgets for the coverage you need.
Deploy
Towers and rooftops, sectorized base stations, PtP and PtMP backhaul, power, and grounding.
Connect
Stand up the network core, routing, IP management, and billing/OSS, then provision the first subscribers.
Run & scale
Monitor sector load and link health, tune spectrum, and add capacity as the subscriber base grows.
Fixed wireless, answered.
What is fixed wireless, and how does it compare to fiber?
Do we need clear line of sight?
What is CBRS?
Is fixed wireless good enough for VoIP and gaming?
Can you build a whole WISP, including towers, core, and billing?
Light up coverage.
Skip the trench.
Tell us the area you want to serve and the capacity you need. We will run the RF plan, size the spectrum, and propose a network from towers to billing.