When trenching fibre is cost‑prohibitive and copper loops can’t reach the last mile, fixed wireless bridges the gap—delivering fibre‑class bandwidth through the air. SolveForce engineers point‑to‑point and point‑to‑multipoint fixed wireless networks that supply symmetrical, low‑latency connectivity to urban rooftops, rural farms, and everything in‑between. We combine carrier‑grade radios, licensed or lightly licensed spectrum, and hardened encryption protocols to keep your traffic fast, stable, and secure.
🌐 What Is Fixed Wireless?
Fixed wireless delivers internet access via line‑of‑sight (or near‑LOS) radio links between a customer‑premises antenna and a base station on a tower, building, or mast. Unlike mobile LTE/5 G—which serves roaming devices—fixed links use directional dishes or panel antennas locked on a single endpoint, creating deterministic bandwidth, low jitter, and enterprise SLAs without the delays of physical cabling projects.
🔑 Key Benefits
📈 Advantage | Business Impact |
---|---|
🚀 High Throughput | Packages from 50 Mb/s up to 10 Gb/s—symmetric—support cloud apps, VoIP, CCTV back‑haul, and data lakes. |
🕒 Rapid Deployment | Typical install within 7–14 days; no trenching, easement, or local permitting delays. |
🔒 Secure Links | AES‑256 radio encryption, 802.1X port security, and optional IPsec tunnels safeguard sensitive data. |
🌍 Extended Reach | Licensed microwave spans up to 50 km; millimetre‑wave spans 5–10 km for gigabit metro rings. |
🔄 Scalable Bandwidth | Upgrade capacity with a radio swap or software key—no rip‑and‑replace cabling. |
🏗️ Infrastructure‑Free | Ideal for brown‑fields, heritage zones, campuses, wind farms, oilfields, and disaster‑recover sites. |
🛠️ SolveForce Fixed Wireless Portfolio
🛰️ Solution Type | Typical Use Case | Core Specs & Features |
---|---|---|
Point‑to‑Point (P2P) | Datacentre ↔ HQ, campus back‑haul, CCTV aggregation | Licensed 6–42 GHz or 60–80 GHz, < 1 ms latency |
Point‑to‑Multipoint (P2MP) | ISPs, multi‑tenant buildings, smart‑city sensor grids | Sector antennas, TDMA scheduling, QoS per CPE |
Gigabit mmWave | 5 G small‑cell fronthaul, rooftop metro rings | 60/70/80 GHz, 10 Gb/s full‑duplex over 5 km LOS |
Rural Broadband | Farms, mining camps, distant branch offices | Licensed 2–11 GHz microwave, solar‑powered ODU |
Temporary/POP‑Up Links | Construction sites, festivals, disaster response | Rapid‑deploy tripods, LTE back‑haul, 48‑hour SLA |
📡 Technical Architecture
- Site Survey & Path Profiling – Utilise LiDAR data, Fresnel zone analysis, and rain‑fade models to validate alignment and availability targets.
- Spectrum Strategy – Select lightly licensed CBRS (3.5 GHz), licensed microwave (6–42 GHz), or millimetre‑wave E‑band (70/80 GHz) based on distance, bandwidth, and noise floor.
- Radio Hardware – Deploy carrier‑grade radios (IP‑67), dual‑polarised MIMO, adaptive modulation (256‑QAM to QPSK) for fading resilience.
- Redundancy & QoS – Optional ring topology or dual radio paths; implement DiffServ queues for real‑time traffic (VoIP, SCADA).
- Security Overlay – Layer‑2 AES encryption, MAC ACLs, and IPsec tunnels terminating on edge routers or SD‑WAN CPE.
- Monitoring & Management – 24 × 7 NOC eyes‑on‑glass, SNMP telemetry, link‑budget alarms, and automated ticketing for SLA compliance.
🖥️ Industry Applications
🏢 Sector | Fixed Wireless Value Proposition |
---|---|
🌾 Agriculture | Connect IoT sensors, drones, and farm machinery across thousands of acres for precision ag. |
🏗️ Construction | Provide gigabit internet to job‑site trailers and IoT kits without waiting for fibre pulls. |
🎓 Education | Link satellite campuses, extend Wi‑Fi to athletic fields, and power distance‑learning labs. |
🏥 Healthcare | Enable rural tele‑health clinics with low‑latency links for diagnostics and imaging uploads. |
🛍️ Retail | Supply broadband to kiosk locations, pop‑up stores, or underserved suburban outlets. |
⚡ Energy/Utilities | Back‑haul SCADA, smart‑meter, and substation telemetry from remote generation sites. |
🚀 Deployment Timeline
🗓️ Phase | Activities (Typical Duration) |
---|---|
🔍 Pre‑Survey | GIS analysis, tower availability check (1–2 days) |
📐 Engineering | Link budget, interference study, path profile (2–3 days) |
🛠️ Install & Align | Mount antenna, run PoE, align with spectrum analyser (1 day) |
✅ Acceptance Testing | RFC 2544 throughput, BER tests, jitter/latency baseline (1 day) |
📊 Go‑Live | Handover diagrams, NOC onboarding, SLA clock starts (same day) |
Total turnaround: ~7–14 calendar days from purchase order to live traffic, subject to spectrum licensing.
🔒 Security & Compliance
- AES‑256 Link Encryption – All radio payload encrypted at the PHY layer.
- Mutual Authentication – 802.1X/EAP‑TLS ensures only authorised CPE join the network.
- IPsec/SSL Overlays – End‑to‑end encryption for compliance regimes (HIPAA, CJIS, PCI‑DSS).
- RADIUS Accounting – Centralised logging of session events for audit trails.
- Physical Hardening – Tamper‑proof enclosures, grounding kits, and lightning arrestors protect assets on rooftops and towers.
🌟 Why SolveForce?
- Custom Design – Each link engineered to your bandwidth SLA, path reliability, and budget mandates.
- Rapid Provisioning – In‑house tower crews and RF engineers compress timelines, bypassing months‑long fibre builds.
- Carrier‑Neutral – We broker licensed spectrum from multiple providers, choosing the quietest channels for peak uptime.
- 24 × 7 × 365 Support – U.S.‑based NOC with proactive link‑health alerts, < 30‑minute response, and 4‑hour MTTR targets.
- Historical Uptime – Fleet‑wide average availability of 99.995 % over the past 36 months.
📞 Contact SolveForce
Unleash high‑speed connectivity where cables can’t reach. Speak with a fixed wireless architect today.
☎ (888) 765‑8301 | ✉ contact@solveforce.com | Online Enquiry Portal »
SolveForce – Your partner in high‑speed, flexible, and reliable fixed wireless connectivity.