When trenching fibre is costâprohibitive and copper loops canât reach the last mile, fixed wireless bridges the gapâdelivering fibreâclass bandwidth through the air. SolveForce engineers pointâtoâpoint and pointâtoâmultipoint fixed wireless networks that supply symmetrical, lowâlatency connectivity to urban rooftops, rural farms, and everything inâbetween. We combine carrierâgrade radios, licensed or lightly licensed spectrum, and hardened encryption protocols to keep your traffic fast, stable, and secure.
đâŻWhat Is Fixed Wireless?
Fixed wireless delivers internet access via lineâofâsight (or nearâLOS) radio links between a customerâpremises antenna and a base station on a tower, building, or mast. Unlike mobile LTE/5âŻGâwhich serves roaming devicesâfixed 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.
đâŻKey Benefits
| đâŻAdvantage | Business Impact |
|---|---|
| đ High Throughput | Packages from 50âŻMb/s up to 10âŻGb/sâsymmetricâsupport cloud apps, VoIP, CCTV backâhaul, and data lakes. |
| đ Rapid Deployment | Typical install within 7â14âŻdays; no trenching, easement, or local permitting delays. |
| đ Secure Links | AESâ256 radio encryption, 802.1X port security, and optional IPsec tunnels safeguard sensitive data. |
| đ Extended Reach | Licensed microwave spans up to 50âŻkm; millimetreâwave spans 5â10âŻkm for gigabit metro rings. |
| đ Scalable Bandwidth | Upgrade capacity with a radio swap or software keyâno ripâandâreplace cabling. |
| đď¸ InfrastructureâFree | Ideal for brownâfields, heritage zones, campuses, wind farms, oilfields, and disasterârecover sites. |
đ ď¸âŻSolveForce Fixed Wireless Portfolio
| đ°ď¸âŻSolution Type | Typical Use Case | Core Specs & Features |
|---|---|---|
| PointâtoâPoint (P2P) | Datacentre â HQ, campus backâhaul, CCTV aggregation | Licensed 6â42âŻGHz or 60â80âŻGHz, <âŻ1âŻms latency |
| PointâtoâMultipoint (P2MP) | ISPs, multiâtenant buildings, smartâcity sensor grids | Sector antennas, TDMA scheduling, QoS per CPE |
| Gigabit mmWave | 5âŻG smallâcell fronthaul, rooftop metro rings | 60/70/80âŻGHz, 10âŻGb/s fullâduplex over 5âŻkm LOS |
| Rural Broadband | Farms, mining camps, distant branch offices | Licensed 2â11âŻGHz microwave, solarâpowered ODU |
| Temporary/POPâUp Links | Construction sites, festivals, disaster response | Rapidâdeploy tripods, LTE backâhaul, 48âhour SLA |
đĄâŻTechnical Architecture
- Site Survey & Path Profiling â Utilise LiDAR data, Fresnel zone analysis, and rainâfade models to validate alignment and availability targets.
- Spectrum Strategy â Select lightly licensed CBRS (3.5âŻGHz), licensed microwave (6â42âŻGHz), or millimetreâwave Eâband (70/80âŻGHz) based on distance, bandwidth, and noise floor.
- Radio Hardware â Deploy carrierâgrade radios (IPâ67), dualâpolarised MIMO, adaptive modulation (256âQAM to QPSK) for fading resilience.
- Redundancy & QoS â Optional ring topology or dual radio paths; implement DiffServ queues for realâtime traffic (VoIP, SCADA).
- Security Overlay â Layerâ2 AES encryption, MAC ACLs, and IPsec tunnels terminating on edge routers or SDâWAN CPE.
- Monitoring & Management â 24âŻĂâŻ7 NOC eyesâonâglass, SNMP telemetry, linkâbudget alarms, and automated ticketing for SLA compliance.
đĽď¸âŻIndustry Applications
| đ˘âŻSector | Fixed Wireless Value Proposition |
|---|---|
| đž Agriculture | Connect IoT sensors, drones, and farm machinery across thousands of acres for precision ag. |
| đď¸ Construction | Provide gigabit internet to jobâsite trailers and IoT kits without waiting for fibre pulls. |
| đ Education | Link satellite campuses, extend WiâFi to athletic fields, and power distanceâlearning labs. |
| đĽ Healthcare | Enable rural teleâhealth clinics with lowâlatency links for diagnostics and imaging uploads. |
| đď¸ Retail | Supply broadband to kiosk locations, popâup stores, or underserved suburban outlets. |
| ⥠Energy/Utilities | Backâhaul SCADA, smartâmeter, and substation telemetry from remote generation sites. |
đâŻDeployment Timeline
| đď¸âŻPhase | Activities (Typical Duration) |
|---|---|
| đâŻPreâSurvey | GIS analysis, tower availability check (1â2âŻdays) |
| đâŻEngineering | Link budget, interference study, path profile (2â3âŻdays) |
| đ ď¸âŻInstall & Align | Mount antenna, run PoE, align with spectrum analyser (1âŻday) |
| â âŻAcceptance Testing | RFCâŻ2544 throughput, BER tests, jitter/latency baseline (1âŻday) |
| đâŻGoâLive | Handover diagrams, NOC onboarding, SLA clock starts (same day) |
Total turnaround: ~7â14âŻcalendar days from purchase order to live traffic, subject to spectrum licensing.
đâŻSecurity & Compliance
- AESâ256 Link Encryption â All radio payload encrypted at the PHY layer.
- Mutual Authentication â 802.1X/EAPâTLS ensures only authorised CPE join the network.
- IPsec/SSL Overlays â Endâtoâend encryption for compliance regimes (HIPAA, CJIS, PCIâDSS).
- RADIUS Accounting â Centralised logging of session events for audit trails.
- Physical Hardening â Tamperâproof enclosures, grounding kits, and lightning arrestors protect assets on rooftops and towers.
đâŻWhy SolveForce?
- Custom Design â Each link engineered to your bandwidth SLA, path reliability, and budget mandates.
- Rapid Provisioning â Inâhouse tower crews and RF engineers compress timelines, bypassing monthsâlong fibre builds.
- CarrierâNeutral â We broker licensed spectrum from multiple providers, choosing the quietest channels for peak uptime.
- 24âŻĂâŻ7âŻĂâŻ365 Support â U.S.âbased NOC with proactive linkâhealth alerts, <âŻ30âminute response, and 4âhour MTTR targets.
- Historical Uptime â Fleetâwide average availability of 99.995âŻ% over the past 36âŻmonths.
đâŻContact SolveForce
Unleash highâspeed connectivity where cables canât reach. Speak with a fixed wireless architect today.
ââŻ(888)âŻ765â8301â|âââŻcontact@solveforce.comâ|âOnline Enquiry PortalâŻÂť
SolveForce â Your partner in highâspeed, flexible, and reliable fixed wireless connectivity.