Monta's EV charging speed analysis: which models perform best

UPDATED: Renault Captur E-tech was faulty categorized; thanks for pointing it out

This is a chart that tries to push an agenda. There exists only Peak rate and Average rate of charge, Peak Average is an oxymoron

The important kpi for the EV owner is not the peak power which often last for a few seconds. The KPI that matter is the average charging speed but it is of course difficult to compare as it depends if they are charging to 80 or 100%

Peak power as a stand alone indicator of „fast charging“ is worthless - the data needs to be combined with consumption of the vehicle and state of charge. The reason why a user gets into his car is, that he wants to get from A to B, always. Means he need to drive a certain distance as fast as possible. That why P3 created the #P3ChargingIndex several years ago combining all those information and ranked the vehicle according to their recharged range in a certain time window - this allows to compare „fast charging“ from a user perspective. And for sure charging curves and consumption are measured close to real world scenarios. Get in contact with Christian Daake or Markus Hackmann to combine more data and get the correct results for fast charging.

Casper H Rasmussen is this normalized by charger peak kw capacity? Ie - all chargers were 200 kW and above? Because I often wonder how the shape of a charge curve varies based on charger capacity. Does a given ev have the same shape on a 250kw charger vs a 120kw charger. Or what if an ev with a peak of 180 kw is sold heavily into a country that has a bunch more 120kw chargers, and a different ev with a peak of 180kw is sold into another country that had a lot of 200kw chargers. They both could have same charge curve but the latter would show higher peaks and averages.

I own a 2024 Chevrolet Silverado EV RST First Edition EV Truck. - Not Even On Your List. - Peak Charging Power Is 350kW. - Charge Back Time For 100 Miles Is 10 Minutes. - Range At 100% Charge Is 440 Miles.

Hey Casper, this Peak Charging Power table is simply (sorry to use this ugly word) #bullshit - one dimensional - from my perspective. Blending readers by one topic. It is the same like you would compare a car only by topspeed and not by how fast it will be on the whole race track from Start to Finish line. I don't agree with this table, and I have also seen some experts from their comments here, which are thinking similar here as well 🤔

It’s interesting data, but the question of “which car charges faster” is a bit misleading. The table reflects how buyers of those cars are using specific infrastructure, charging in certain weather conditions, and following particular behavioral patterns to achieve those numbers. If you take a Taycan, Hyundai, or Kia to a fully operational 300kW 800V charging station, with battery preconditioning and a state of charge below 30%, you’ll consistently hit well over 200kW charging power and finish in under 20 minutes—significantly faster than Tesla or BMW in the same conditions. Also, from a driver’s perspective, fast charging only matters during stopovers on long-distance trips. Mercedes cars, for instance, even offer an option to enforce slower charging. If users consistently use that option during 2h mall visits, they’ll appear lower on the list—not because the vehicles are not fast charging ones, but because they’re designed to be smarter about it.

Casper H Rasmussen that’s not US data right?

are the data points from only fast dc superchargers or all type of chargers, as someone else mentioned: “isn’t this a bit of a customer behavior graph rather than statistics on real life charging efficiency?