BMW presents the first series-produced Neue Klasse model. The new-generation BMW iX3 is a fully electric Sports Activity Vehicle (SAV) that gives customers their first on-the-road taste of a whole new era of Sheer Driving Pleasure. An all-new design language gives the car a character-rich appearance that faithfully conveys the technological progress made by the new model. With sixth-generation BMW eDrive technology, a range of up to 805 kilometres and a peak charging rate of 400 kW, the new BMW iX3 sets new standards for efficiency and long-distance capability. A new electronics and software architecture including four “superbrain” high-performance computers makes the first Neue Klasse model more intelligent and better equipped for the future than ever. The “Heart of Joy” drivetrain and driving dynamics management technology enables unmatched handling dynamism and precision, while the latest systems for automated driving optimise symbiotic human-vehicle interaction.
The sixth-generation BMW eDrive technology developed for the Neue Klasse comprises highly efficient electric motors, fundamentally new high-voltage batteries with cylindrical cells, and 800V technology. The BMW iX3 50 xDrive is powered by two electric motors, which together generate output of 345 kW and 645 Nm of torque. It accelerates from 0 to 100 km/h in 4.9 seconds and reaches a top speed of 210 km/h. Its electric all-wheel-drive configuration consists of an extensively upgraded electrically excited synchronous motor (EESM) with particularly high levels of efficiency at the rear axle and, at the front axle, a new asynchronous motor (ASM) distinguished by its compact design and high cost efficiency. The combination of EESM and ASM is evidence of the BMW Group’s commitment to technological neutrality within electric mobility as well. The drive technology developed for the Neue Klasse reduces energy losses by 40 per cent compared to fifth-generation BMW eDrive technology, weight by 10 per cent and manufacturing costs by 20 per cent.
The new high-voltage battery concept with cylindrical cells for the Neue Klasse also achieves significant advances. The energy density on a cell level is 20 per cent higher than with fifth-generation BMW eDrive technology, and the new concept also paves the way for a 30 per cent increase in charging speed. The cylindrical cells are integrated directly into the high-voltage battery (“cell to pack”), which benefits energy density and cost efficiency. Added to which, the high-voltage battery is integrated into the vehicle architecture as a structural component to minimise weight (“pack to open body”). The high-voltage battery in the BMW iX3 50 xDrive has a usable energy content of 108.7 kWh, enabling a range of up to 805 kilometres in the WLTP cycle.
The advances brought by sixth-generation BMW eDrive technology have a significant influence on the charging experience, too. A maximum charging rate of 400 kW enables users to fill their new BMW iX3 with enough energy at an 800V direct current (DC) rapid charging station to add up to 372 kilometres of range in just ten minutes. The high-voltage battery can charge from 10 to 80 per cent capacity in 21 minutes. Thanks to the battery management tech with integrated switching matrix developed completely in-house by the BMW Group, the new BMW iX3 can also be charged from 400V DC stations. Upgrades to the battery preparation also help to shorten charging times. The new BMW iX3 50 xDrive can top up on alternating current (AC) at 11 kW as standard or 22 kW as an option.
A variety of measures ensures that the product carbon footprint of the new BMW iX3 50 xDrive over its full life cycle – based on a mileage of 200,000 kilometres – is 34 per cent smaller than that of its predecessor. This means that, when charged with electricity from the European energy mix, it has a smaller product carbon footprint than a comparable combustion-engined (ICE) model after around 21,500 kilometres. When charged exclusively with electricity from renewable sources, the BMW iX3 50 xDrive beats the comparable ICE model after only 17,500 kilometres (WLTP combined), allowing customers to potentially achieve CO₂e advantages over the ICE model in as little as one year.
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