- Product Innovation & Lifecycle
- Advanced Engineering
5G Network-in-a-Box (NIB) is a compact, all-in-one private 5G solution engineered for ultra-portable, tactical and mission-critical deployments. Preconfigured, assembled and optimized for plug-and-play usage, this ready-to-use 5G platform enables rapid pop-up network deployment in remote or disconnected environments. Tailored for high-demand users including first responders, defense forces, and maritime operations, VVDN’s NIB ensures robust connectivity for surveillance, tactical communication and mission-critical IoT applications.
VVDN delivers complete Network-in-a-Box solutions through in-house design and manufacturing. We handle system architecture, hardware and RF design, battery integration and rugged mechanical enclosures. Our teams develop embedded software and integrate the 5G RAN and core stack with flexible backhaul options. Prototypes are fabricated and tested for IP65 compliance, environmental durability, and regulatory certification. VVDN ensures every unit is production-ready, secure and tailored for mission-critical use.
All-in-One Unit
Supports 64 Active Users per Cell
Supports 64 Active Users per Cell
Up to 1.5 km
for Easy Field Deployment
ARM Core or Intel FlexRAN
Sub 6 GHz
Lightweight, mobile deployment for field personnel
Transportable with more capacity for extended operations
Tactical integration for moving convoys or mobile HQs
Public Protection & Disaster Relief: Enable real-time situational awareness, rescue coordination and remote communication.
Military Tactical Communication: Deployed as a secure communications node in combat zones or blacked-out areas.
Naval Communications: Onboard or offshore 5G connectivity for ships and coastal operations.
With over a decade of deep expertise in 5G product engineering and end-to-end system integration, VVDN offers NIB as part of its broader mission to power secure, agile and intelligent connectivity. Our in-house R&D, design, and manufacturing capabilities ensure unmatched reliability, security and performance from silicon to system.