
Cities around the world are working to reduce carbon emissions, enhance air quality, and create more liveable urban spaces. Electric buses have become a symbol of this transformation—silent, clean, and capable of replacing diesel fleets. But behind the scenes, considerable hurdles remain for cities that want their own buses to be sustainable and practical for everyday work.
Oversized batteries, costly infrastructure, grid overload, and limited urban space are just a few challenges that city planners and transport operators must navigate. Yet, amidst these challenges, one approach is reshaping how cities electrify their bus fleets: opportunity charging.
Opportunity charging rethinks how buses are powered by enabling them to recharge during short, scheduled stops throughout the day. Instead of relying on large batteries that require long charging sessions at depots, buses can “top up” on the way.
There are two main methods of opportunity charging:
Both approaches aim to solve the same problem: enabling efficient, on-the-go charging for electric buses. However, wireless opportunity charging offers unique advantages, particularly in terms of durability, aesthetics, and ease of integration.
Wireless opportunity charging might seem like a recent innovation, but it has operated successfully for over two decades. It began in 2002 in Genoa, Italy, where ENRX, formerly IPT Technology GmbH, introduced its first inductive charging system, paving the way for cities worldwide to adopt this transformative technology.
Today, ENRX systems are operational in 14 projects across Europe, highlighting their scalability, reliability, and adaptability in diverse environments. Key examples include:
Collectively, ENRX systems have powered electric buses for over 30 million kilometres and e-ferries for more than 300,000 kilometres, demonstrating their reliability in daily operations. While not yet adopted universally, ENRX’s wireless opportunity charging has proven to be a mature and effective solution where implemented.
The concept of wireless energy transfer dates to Nikola Tesla’s groundbreaking work in the 19th century. It’s a principle we use daily for charging devices like smartphones and electric toothbrushes—and for over 20 years, it has been delivering heavy-duty, high-power energy transfer for applications ranging from electric buses and trucks to industrial systems like forklifts and Automated Guided Vehicles (AGVs).
Wireless opportunity charging uses magnetic resonance to transfer energy between charging pads embedded in the ground and receivers on buses. When a bus stops above a pad, a magnetic field creates an electric current in the receiver, seamlessly charging the vehicle’s battery.
This contactless system requires no plugs or connectors, operates automatically, and integrates invisibly into urban infrastructure. Reliable in all weather conditions - from rain to snow and sand - it delivers maximum power within a second of activation, maintaining a constant energy flow without peak loads or power fluctuations.
Turin, Italy: Leading the way since 2004
Turin adopted wireless charging in 2004, installing charging pads at key stops for its fleet of 23 electric buses. Over 20 years of operation, the results speak for themselves:
Since 2014, Braunschweig has relied on ENRX’s Primove 200 kW inductive charging system to power its fleet of five e-buses: one 12-meter bus with a 60 kWh battery and four 18-meter articulated buses with 90 kWh batteries. By 2025, these buses will have travelled over 4.5 million kilometers, reducing CO₂ emissions by nearly 3,000 tons.
This showcases how wireless opportunity charging combines high power and compact battery systems to deliver diesel-equivalent performance with significant environmental and operational benefits.
Wireless opportunity charging doesn’t just address operational challenges—it transforms the economics of fleet electrification. By enabling cities to rethink how buses are powered, this technology offers tangible financial benefits:
Despite its proven history, wireless opportunity charging sometimes faces questions about its efficiency and scalability. Here’s how it performs:
Imagine a city where buses glide silently through the streets, seamlessly charging at stops without cables, connectors, or bulky infrastructure. This isn’t a distant vision - it’s already happening in cities like Braunschweig and Madrid.
By adopting wireless opportunity charging, cities unlock a cleaner, more efficient future for public transport. This proven technology helps overcome electrification challenges while creating quieter, greener environments.
The future of public transport isn’t about waiting for breakthroughs. It’s here - and powered by wireless opportunity charging.




