Deploy your own carrier-grade private LTE network in the CBRS band — purpose-built for schools, hospitals, enterprise campuses and government facilities that demand secure, reliable broadband without dependency on public carriers.
A complete indoor/outdoor private LTE ecosystem operating in the shared CBRS spectrum — combining an all-in-one modem and radio unit, a ruggedised outdoor base station, and a Software Defined Radio LTE-Advanced platform into a single, integrated solution.
| Parameter | Specification |
|---|---|
| Spectrum Band | CBRS — 3550 to 3700 MHz |
| Duplex Mode | TD-LTE (Time Division Duplex) |
| Radio Standard | LTE & LTE-Advanced (SDR 16e) |
| Modem Form Factor | All-in-One (modem + radio, single unit) |
| Outdoor Unit | Ruggedised all-outdoor, high-power LTE Base Station |
| Indoor MIMO | 4×4 Rx MIMO Radio for superior indoor coverage |
| Mobility Support | Fixed, High Mobility, Dense Urban, Mixed Environments |
| Spectrum Access | Priority Access License (PAL) or General Authorized Access (GAA) |
| SAS Integration | Spectrum Access System (SAS) coordination for dynamic spectrum sharing |
| Applications | Education, Healthcare, Government, Enterprise Campuses |
The FCC designates the 3550–3700 MHz band for shared use under a structured three-tier architecture that balances incumbent protection with open access for commercial and enterprise deployments.
The highest-priority tier is reserved for existing incumbents — principally the US Navy operating along coastal regions, and Fixed Satellite Earth Stations at licensed receive-only locations. Military, DoD, satellite and utility operators retain first-priority protection, particularly in designated coastal areas, and all lower-tier transmissions must protect these operations from harmful interference.
Priority Access Licences (PAL) provide protected spectrum for commercial operators who require guaranteed channel access. PALs were auctioned by the FCC in mid-2020 and are defined per census tract and time period. Each PAL holder receives interference protection from GAA users while still yielding to Tier 1 incumbents — making this the preferred tier for deployments requiring service-level guarantees.
The broadest access tier, General Authorized Access (GAA) allows any registered CBRS device to operate across the full 150 MHz band through dynamic coordination via a licensed Spectrum Access System (SAS). The SAS monitors the RF environment in real time, enforces tier priorities and allocates spectrum not in use by higher-priority users — enabling enterprise LTE networks with zero spectrum licence fees.
CBRS-based private LTE is purpose-designed for organisations that need enterprise-grade wireless connectivity without the cost, complexity or coverage constraints of public carrier networks.
Deliver reliable, high-speed broadband to every classroom, lab and outdoor area across an entire school district. Private LTE gives educators full control over the network — with no shared congestion from public carriers — supporting devices, video conferencing, digital learning platforms and administrative systems at scale.
Enhance indoor network coverage and capacity across hospital floors, wards, diagnostic centres and emergency departments. CBRS private LTE supports clinical-grade connectivity for medical IoT, patient monitoring devices, mobile workstations and staff communication — with the security and reliability that healthcare applications demand.
Provide secure, independently managed broadband to government buildings, military installations, municipal campuses and critical infrastructure sites. A private LTE network keeps communications on-premises, isolated from the public internet where required, and fully under the control of the operating authority.
Connect warehouses, manufacturing floors, logistics hubs and corporate campuses with deterministic low-latency wireless. Private LTE supports AGVs, machine-to-machine communication, barcode scanners, video surveillance and staff mobility — without the unpredictability of Wi-Fi or the cost of public cellular data plans.
Serve high-density environments where public cellular networks are congested and Wi-Fi is impractical at scale. A dedicated CBRS private LTE layer provides consistent throughput per user, seamless roaming across zones and centralised network management for urban districts, stadiums and mixed-use developments.
Support both fixed broadband subscribers and high-mobility users within the same CBRS network. The platform handles handoffs at vehicular speeds and provides fixed wireless last-mile access to premises that are difficult or expensive to reach with fibre — broadening the range of viable deployment scenarios.
Our engineers will work with you to design a CBRS private LTE solution tailored to your site, spectrum access strategy and coverage requirements — from a single building to a multi-site campus.