we are building satellite networks engineered specifically for the Indian subcontinent ensuring complete, consistent, and high-performance ground coverage that serves both national infrastructure and last-mile populations.
The backbone of global communications, climate science, national security, precision agriculture, disaster response, and the emerging trillion-dollar New Space economy. access to space becomes more democratized, the technologies driving this revolution are evolving at unprecedented speed.
Bringing next-generation direct-to-home (DTH) broadband internet service powered by our upcoming satellite-enabled NTN network. Designed for homes across urban, rural, remote, and underserved Bharat Edge delivers fast, reliable, and always-on connectivity.
Satellite-as-a-Service platform delivers high-precision SAR imaging to governments, enterprises, and research institutions seeking reliable, real-time Earth observation intelligence.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
we are building satellite networks engineered specifically for the Indian subcontinent ensuring complete, consistent, and high-performance ground coverage that serves both national infrastructure and last-mile populations.
Delivering high-speed internet to homes, businesses, and institutions without the need for traditional ground infrastructure.
FWA via satellite ensures consistent performance, low latency, and rapid scalability empowering digital inclusion where it matters most.
Stay connected even while in transit. Our SATCOM solutions power seamless wireless internet for.
We provide uninterrupted connectivity that enhances passenger experience, improves operational efficiency, and supports real-time fleet communication.
In times of crisis, reliable communication can save lives. Our satellite-enabled networks offer rapid-deploy, resilient connectivity .
With portable satellite terminals and instant-on service, we ensure that first responders and relief agencies stay connected when terrestrial networks are down.
The SKY Connect is a compact, low-profile electronically steered phased-array antenna designed for Direct-to-Device (D2D) satellite links, mobile ground terminals, vehicular/roof-mount installations and rooftop/home broadband terminals. It provides agile beam steering with no moving parts, ultra-low aerodynamic drag, and high reliability in demanding outdoor environments.
low-profile electronically steered phased-array antenna designed for Direct-to-Device (D2D) satellite links, mobile ground terminals, vehicular/roof-mount installations and rooftop/home broadband terminals.
Fully electronic 2D beam steering instantaneous tracking of LEO/MEO satellites.
(<30 mm) and lightweight — simple flush/roof mounting.
Modular, multi-band support (configurable L-band and S/Ku/Ka options).
PoE/10–36 VDC power options and standard IP67 radome for harsh environments.
The SKY Connect is a compact, low-profile electronically steered phased-array antenna designed for Direct-to-Device (D2D) satellite links, mobile ground terminals, vehicular/roof-mount installations and rooftop/home broadband terminals. It provides agile beam steering with no moving parts, ultra-low aerodynamic drag, and high reliability in demanding outdoor environments.
Integrated digital beamformer with per-element phase & amplitude control.
True-time-delay compensation (for wideband steering) + FFT-based digital steering.
Real-time satellite tracking (TLE import), manual/auto modes.
Nulling & interference mitigation: Adaptive null steering, sidelobe suppression, and spatial filtering.
MIMO support: Optional 2×2 MIMO (separate subarrays).
Built-in MCU + API
Indian subcontinent presents one of the most demanding operational environments for any satellite system geographically, demographically, and geopolitically. From the glaciated peaks of the Himalayas to the dense wetlands of the Sundarbans, and from coastal archipelagos to urban megacities, achieving reliable, high-fidelity satellite ground coverage requires not just orbital access, but intelligent system engineering.
At Skylink, we design and operate software-defined satellite systems that are mission-optimized for the Indian landscape, offering wide-area coverage with pinpoint precision for communication, sensing, and resilience.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
The backbone of global communications, climate science, national security, precision agriculture, disaster response, and the emerging trillion-dollar New Space economy. access to space becomes more democratized, the technologies driving this revolution are evolving at unprecedented speed.
Bringing next-generation direct-to-home (DTH) broadband internet service powered by our upcoming satellite-enabled NTN network. Designed for homes across urban, rural, remote, and underserved Bharat Edge delivers fast, reliable, and always-on connectivity.
Satellite-as-a-Service platform delivers high-precision SAR imaging to governments, enterprises, and research institutions seeking reliable, real-time Earth observation intelligence.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
Skylink Mesh is a high-capacity, satellite-backed mesh network designed specifically for public internet zones such as airports, railway stations, bus terminals, stadiums, malls, universities, and other high-density environments.
Unlike traditional Wi-Fi setups that rely on a single central access point, Skylink Mesh uses a network of interconnected nodes that share data intelligently. Each node communicates with others, creating a self-healing, load-balanced network that maintains stable and seamless connectivity — even when thousands of users are online simultaneously.
Multiple nodes distribute user load efficiently, preventing congestion and providing smooth connectivity during peak hours.
If one node fails or becomes overloaded, traffic is automatically rerouted through other nodes, keeping public internet running without interruption.
Removes dead zones and provides uniform coverage across large public spaces like terminals, concourses, waiting halls, lounges, and platforms.
Skylink Mesh can operate with satellite backhaul, ensuring connectivity even in locations where fiber or terrestrial links are weak, unreliable, or unavailable.
A public Wi-Fi mesh network for airports is a multi-node wireless system designed to deliver robust, seamless, and high-capacity internet access across terminals, gates, lounges, check-in areas, and arrival halls. Instead of depending on a single Wi-Fi router, a mesh network uses multiple interconnected access points that communicate with each other to create one unified network. This ensures uninterrupted coverage and stable performance even when tens of thousands of passengers connect simultaneously.
A Public Wi-Fi Mesh network for Railways is a resilient, multi-node wireless system designed to deliver seamless, high-speed internet access across railway stations, platforms, concourses, waiting areas, foot-over bridges, and passenger zones. Unlike traditional setups with a single access point, a mesh network uses multiple interconnected Wi-Fi nodes that work together to create one unified, self-healing network. This ensures stable connectivity even in extremely crowded and dynamic environments.
Public Wi-Fi Mesh for events is a dynamic networking solution designed to deliver reliable, high-speed internet across large and crowded venues. Whether it's a music festival, sports tournament, conference, trade show, or outdoor gathering, a mesh network ensures every attendee stays connected without interruptions. The network is built from several smart nodes that communicate with each other.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
Pioneering VLEO trajectories enables a new class of missions that leverage ultra-close proximity to Earth’s surface, delivering superior spatial resolution, lower latency, and enhanced signal strength with dramatically reduced launch and manufacturing costs.
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