Smart energy systems are entering a new era, and Cyancannode is leading the transformation with innovations set to redefine grid efficiency and scalability. At ELECRAMA 2025, Ajoy Rajani offers a closer look at how the company’s latest breakthroughs position it for accelerated growth and global relevance.
In an exclusive conversation with EPR Magazine at ELECRAMA 2025, Ajoy Rajani, Executive Vice Chairman, MD, and CEO of Cyancannode, shared insight into the company’s forward momentum in smart metering and IoT-based communication technology. With a clear vision for scaling innovation, Rajani detailed how Cyancannode is focused on enabling advanced, reliable data transmission across utility networks using its proprietary RF mesh technology.
Cyancannode’s solutions are engineered to meet the rising demand for robust communication infrastructure as smart grid deployments intensify worldwide. Rajani highlighted the company’s strategic edge in delivering consistent performance across challenging terrains, a critical differentiator in utility-grade communication. The company’s technology seamlessly integrates with existing meter hardware, giving utility providers a cost-effective path to modernisation without compromising performance or scalability.
ELECRAMA 2025 provided an ideal backdrop to showcase Cyancannode’s evolving portfolio, including enhancements in latency, network resilience, and deployment speed. Rajani also pointed to the company’s international traction, particularly in emerging markets, where its plug-and-play architecture is enabling rapid rollouts and delivering measurable efficiency gains for power distribution companies.
Positioned at the intersection of energy infrastructure and digital intelligence, Cyancannode continues to expand its reach by partnering with system integrators and utility operators globally. With an eye on sustained growth, the company is scaling its capabilities to meet the needs of increasingly complex smart grid ecosystems.
CyanConnode Holdings plc (LON:CYAN) is a world leader in the design and development of Narrowband RF mesh networks that enable Omni Internet of Things (IoT) communications.
