Chinese automaker BYD says its new megawatt charging platform could eliminate range anxiety and double Tesla’s speed, but how does it work, and what could this mean for UK drivers?
Charges As Quickly As Filling A Petrol Tank
According to Chinese electric vehicle giant BYD, EV charging is about to get a serious upgrade. BYD has just revealed a new fast-charging system that it claims can deliver up to 400km of range in just five minutes, thereby potentially making it as quick to charge an EV as it is to fill a petrol tank. If the technology holds up in real-world use, it could mark a turning point not just for BYD, but for the entire electric vehicle industry.
Twice The Power Of Tesla Superchargers
With charging power reaching a staggering 1,000 kW, twice that of Tesla’s best superchargers, the announcement is already (understandably) rattling the market. For example, shares in BYD jumped 4.1 per cent in response, while Tesla’s stock fell for the second day running. However, the real story lies in the technology behind the hype, and the wider implications for sustainability, infrastructure, and competition in the UK and beyond.
How Does It Actually Work?
Can BYD really charge an EV in five minutes? Technically, yes it seems, although it may not be quite as simple as plugging in and hitting the road.
The key lies in the Han L sedan’s 83.2 kWh lithium iron phosphate (LFP) battery, paired with a cutting-edge 945-volt electrical system. This high-voltage architecture reduces heat and boosts efficiency, allowing for rapid energy transfer without overheating. For example:
– The LFP chemistry is more thermally stable than the nickel-based alternatives used by many rivals, making it safer and more tolerant of aggressive charging rates.
– BYD’s “Blade Battery 2.0” technology, made by its subsidiary FinDreams, uses a dense, compact structure that enables faster heat dissipation.
– The “dual-gun” system means two 500 kW charging connectors can be used simultaneously, delivering a combined 1,000 kW charging speed, or 1 megawatt.
– This setup allows the car to charge from 16 per cent to 80 per cent in just 10 minutes, and from 16 per cent to 100 per cent in 24 minutes, even in sub-zero temperatures.
Caveat
It should be noted, however, that there’s a caveat. The range claim of 400km in five minutes is based on China’s CLTC cycle, which tends to overstate real-world figures by around 35 per cent. Realistically, UK drivers might see closer to 160 miles from a five-minute top-up. Nonetheless, it’s a massive leap from current norms.
How Does It Rate Against Tesla?
Tesla’s most powerful chargers currently deliver 250-500 kW, depending on the model and version. The latest V4 superchargers, while not widely deployed yet, promise faster speeds, but still fall short of BYD’s new benchmark. For example:
– Tesla’s 500 kW charging adds around 170 miles in 15 minutes.
– BYD’s system adds the same in just 5 minutes.
Charging Station Difference
The key difference is that Tesla’s infrastructure is more mature, with over 65,000 superchargers globally. BYD, meanwhile, has only just announced plans to install 4,000 “flash-charging stations” in China. Rollout elsewhere, including the UK, remains unclear.
However, with BYD now outselling Tesla in battery electric vehicles globally, i.e. 1.77 million units vs. Tesla’s 1.77 million (with a few hundred fewer sales), the race is tightening.
Why This Matters for Sustainability
Beyond the tech buzz, the implications for sustainability are significant. For example, one of the biggest barriers to widespread EV adoption remains “charging anxiety”, i.e. the fear of long wait times and limited charging infrastructure. BYD says its platform directly addresses that concern, because:
– Faster charging means shorter stops and less congestion at public chargers, reducing the energy used in queueing, idling, or rerouting to find available stations.
– LFP batteries, like those used in BYD’s vehicles, avoid the use of cobalt and nickel, which are more resource-intensive to mine and process.
– The ability to handle rapid charging without degradation means batteries could last longer, reducing waste and improving lifecycle emissions.
If BYD can scale this tech internationally, it could accelerate the decarbonisation of road transport – especially in countries like the UK, where EV adoption has so far been hampered by patchy charging infrastructure.
What About The UK Market?
While BYD’s fast-charging system is initially launching in China, its growing presence in the UK could mean British buyers benefit sooner than expected.
Last month, BYD overtook Tesla in UK EV sales for the first time, with year-on-year growth of 500 per cent. Tesla’s UK sales, by contrast, fell by 8 per cent, amid growing unease over Elon Musk’s political involvement in Trump’s US government and the broader downturn in EV sentiment.
If BYD brings the Han L sedan or Tang L SUV (both of which are compatible with the new charging system) to the UK, they could seriously undercut premium rivals. With starting prices around £28,700 in China, even after import costs, these models would compete strongly against higher-priced Teslas and European EVs.
Also, US President Donald Trump’s push for increased tariffs on Chinese imports could unintentionally benefit BYD in European markets. While 100 per cent tariffs currently apply to Chinese EVs entering the US, the UK (like the EU) has so far taken a more moderate stance.
In fact, the EU has launched an anti-subsidy investigation into Chinese EVs, but has stopped short of immediate punitive tariffs. For example, the European Commission says: “The aim is to ensure a level playing field… not to shut out competition, but to ensure that competition is fair.”
For BYD, this opens a window of opportunity to expand its footprint across Europe, especially as Tesla’s share price has slumped, and its product development slowed.
Can the Grid Handle It?
For BYD, there’s one potential spanner in the works, i.e. the charging infrastructure itself. Delivering 1,000 kW of power requires serious hardware and some serious grid capacity. Each charging station would need reinforced grid connections, advanced cooling systems, and high-spec transformers. It’s unlikely to be rolled out in older service stations without significant upgrades. For example, the heat output of megawatt-class EV chargers needs continuous thermal management and some substantial safety measures.
Therefore, for BYD’s system to reach the UK en masse, infrastructure investment will be key. It may also require new standards and regulations, given that most UK fast-charging points currently max out at 150-350 kW.
That said, with the technology now proven, and global EV sales continuing to rise, faster charging is no longer really a fantasy but is the next frontier.
What Does This Mean For Your Organisation?
If BYD can deliver on its promise of five-minute charging at scale, the ripple effects for UK businesses, infrastructure providers, and consumers could be significant. For example, for fleet operators, taxi firms, delivery services and public transport providers, faster charging could translate into less downtime, lower running costs, and improved operational efficiency. It would also allow more flexible scheduling of EV use, making electric fleets a far more attractive option for businesses previously hesitant to commit.
For UK charging infrastructure firms and energy providers, on the one hand, rolling out megawatt-capable charging points will require costly upgrades and forward planning. However, on the other, it opens the door to a new generation of ultra-rapid charging hubs, reshaping service stations and rest stops into high-efficiency EV energy depots. It seems that those who move early may well gain a long-term competitive edge.
For manufacturers and retailers, BYD’s technology ups the ante. Carmakers relying on slower or more conventional charging models may now face mounting pressure to catch up or risk being left behind. At the same time, retailers in the UK who already stock BYD vehicles, or plan to do so, could find themselves with a compelling new selling point that aligns with growing consumer demand for convenience, performance and sustainability.
From a consumer point of view, the shift to faster, safer, and more sustainable battery technology addresses several long-standing concerns in one go. If BYD’s LFP-powered Han L or Tang L models can combine competitive pricing with real-world reliability, the barriers to EV adoption, particularly for those without home chargers, may start to erode far more quickly.
It should be noted, however, that it’s still early days. BYD’s ultra-fast chargers are currently limited to China, and widespread rollout in Europe will depend on regulatory approval, grid capacity, and investment appetite.