In a world racing toward wireless everything, ElectraWireless is pioneering the next frontier—power without plugs. In this exclusive conversation, Shivam Rajput, Founder & CEO of ElectraWireless, speaks with Electronics Maker about the company’s bold mission to make electricity as seamless and accessible as Wi-Fi. From powering smart kitchens and EVs to reimagining urban infrastructure, Rajput shares how ElectraWireless is reshaping energy delivery for a smarter, safer, and more sustainable future—one where plugging in becomes a thing of the past.
ElectraWireless is pioneering a universal wireless power ecosystem. What is the core mission behind this, and what milestones have helped you move from concept to deployment?
Our mission is to make electricity as seamless and accessible as WiFi. The world has gone wireless in every other way, yet power still relies on 20th-century infrastructure. We believe it’s time to rethink how energy is delivered not just generated, and rebuild systems that match the way we live and work today.
Over the last few years, we have completed five core product phases, ranging from wire-free kitchen appliances to EV charging pads for cities. These are not blueprints. These are working systems that are pilot-ready. That is the difference between speculation and readiness.
Your system delivers up from 5 watts to 40 kilowatts wirelessly. What enables such high-capacity energy transfer, especially over distance?
The breakthrough lies in how our transmitter and receiver communicate. We have developed a proprietary, embedded platform that creates a real-time, intelligent feedback loop between power sources and devices.
Most current wireless charging methods require close alignment and operate at low wattages. Ours does not. We can safely deliver power through surfaces like quartz or wood, without needing physical contact, while continuously adjusting for load, temperature, and demand. That makes the system both scalable and safe.
What makes this approach different from existing wired or wireless solutions?
Traditional wiring is rigid, exposed, and prone to faults. It wastes energy, takes up design space, and often becomes a safety hazard.
Meanwhile, most wireless options today are either limited in power or rely on tight physical alignment, which restricts real-world use. Our system is modular, mobile, and intelligent. Devices can draw power without plugging in, and the system knows exactly how much power to deliver, when to stop, and how to adjust to movement.
This opens up a new design language. It’s not just about convenience, it’s about rethinking safety, efficiency, and the role power plays in infrastructure.
For product manufacturers, what does integration look like?
We’re building for interoperability. Our receivers are compact and designed to be embedded directly into the devices, appliances, or vehicles being powered.
Manufacturers will need to factor in a small spatial footprint and include standard protocols for energy communication. We provide full integration support including development kits, reference schematics, and customization support.
The goal is to make adoption easy, without forcing a full redesign. It’s about enabling what’s already being built to become more intelligent and energy-aware.
How does this address broader climate and sustainability goals?
We focus on a part of the climate conversation that is often overlooked energy transmission. A significant amount of global electricity is lost between generation and usage, either through outdated wiring, inefficient standby systems, or cooling requirements.
Our system reduces waste at the point of use. It delivers only what is needed, lowers ambient heat, and eliminates energy that is otherwise lost in idle or over-engineered systems.
If we want to meet climate goals, we have to design smarter systems that learn from behavior and adapt in real time. That starts at the infrastructure level.
How are you engaging with regulatory bodies and standards organisations to ensure safe and scalable adoption?
We are not waiting for standards to catch up. We are actively working with labs, compliance partners, and regulatory agencies to set safety benchmarks for this category.
Our technology is built to exceed safety requirements across geographies. It removes exposed wiring, minimizes overload risk, and adds a layer of real-time intelligence that most wired systems lack.
We believe standards are essential to long-term trust, and we are helping shape them from the inside, not watching from the sidelines.
Your team operates across six countries. How does that influence innovation?
Innovation is stronger when it reflects real-world diversity. Our team spans India, the US, Belgium, the UK, China, and Mexico. Each geography brings a unique perspective from design aesthetics to cost efficiency, from regulatory expertise to large-scale manufacturing.
We intentionally build with this global lens. A solution that works in a New York smart home should also scale to a rural kitchen in Gujarat. That’s not just good design. That is responsible innovation.
Which market segments are you focusing on first, and what proof points can you share?
We are focused on five key segments where infrastructure transformation is most urgent and visible. These include smart kitchens, e-bike charging, industrial robotics, workspace furniture, and EV charging.
We have completed working prototypes across all five. For example, our smart kitchen system is already being piloted in India. In Germany and the US, warehouse robots are using our pads to charge autonomously.
We’re not theorizing use cases, we are proving them, with real partners, in real conditions.
What is your long-term vision for ElectraWireless, and how do you see this technology shaping the next decade?
In ten years, asking “Where is the plug?” will feel as outdated as asking “Where is the landline?”
Our vision is to build ambient infrastructure. Power should exist in surfaces, walls, and public spaces, ready to deliver what is needed without anyone having to search, untangle, or troubleshoot.
This will reshape how cities are designed, how homes are built, and how devices are manufactured. We are building toward a world where energy delivery is safe, invisible, and completely intuitive.
How do you plan to build consumer trust, especially for use cases like cooking or mobility?
We start with transparency and design clarity. People trust what they can understand and safely experience.
We are building interfaces that show energy use clearly, systems that stop when they sense anomalies, and surfaces that look and feel familiar. We are also working with appliance manufacturers, designers, and influencers to demonstrate what this looks like in daily life, not just in labs or trade shows.
Education and trust are not separate from the product. They are built into every detail, from how we design safety protocols to how we tell our story.
Beyond product sales, what does your business model look like?
Our core technology opens up multiple revenue paths. These include direct product sales, OEM licensing, data intelligence services, and subscription-based access in shared environments like smart offices or EV charging hubs.
The data layer is especially powerful. When power systems become behavior-aware, they generate insights that can help improve efficiency, safety, and planning. We treat that data with the same seriousness as the power itself, it is secure, anonymized, and built to serve utility, not surveillance.
We are not building a one-time sale product, we are creating a platform for continuous value.
How do you see the impact of data centres on the environment, and where does wireless power fit in?
Data centres play a critical role in the digital economy, but their environmental footprint is often underestimated. From energy-intensive cooling systems to high consumption loads from servers, they are responsible for a growing share of global emissions. The challenge isn’t just the volume of electricity used it’s about the efficiency and point-of-use losses.
That’s where wireless electricity steps in. At ElectraWireless, we believe electricity should be as seamless as Wi-Fi ambient, safe, and intelligent. When power is transmitted wirelessly through a network of intelligent transmitters and receivers, it eliminates the need for bulky infrastructure, tangled cables, and loss-prone adapters. This reduces material waste and enhances energy efficiency.
What role does real-time data play in enabling greener infrastructure?
Real-time data is at the core of sustainability. Our system embeds smart transmitters and receivers in appliances, enabling two-way communication. This isn’t just about powering devices, it’s about understanding how energy is consumed, where it’s wasted, and how behavior can be optimized.
We can track patterns in usage, idle states, and peak times, helping users and city planners make smarter choices. It’s like giving infrastructure a nervous system that responds in real time.
How does this tie into mobility and urban infrastructure?
Mobility is infrastructure. As cities grow smarter, electric vehicles, micro-mobility, and smart appliances all demand energy in dynamic, decentralized ways. Our vision includes universal wireless charging pads that can power e-bikes, drones, robots, and kitchen appliances, all without plugging in.
Imagine a mobility hub or a kitchen counter that charges devices automatically as they come into range. This kind of infrastructure reduces energy loss, enhances user convenience, and unlocks data that fuels further innovation.
What are some future implications of wireless electricity on sustainability?
Wireless electricity allows us to rethink not just how we consume power, but how we distribute and manage it. For instance, a smart city could optimize electricity flow to critical areas during peak hours. Appliances could go into eco-mode automatically. Data centres could reduce cooling loads by removing physical cable congestion.
We’re entering an era where energy data is as valuable as internet data. By combining wireless power with AI and sensor fusion, we open doors to entirely new industries predictive maintenance, smart cooking, autonomous charging, and much more.
The path forward isn’t just cleaner electricity it’s smarter electricity.
