Xiaomi SU7 Pro

94.3 kWh Useable Battery
830 km
Real Range
210 km/h
Top Speed
Wh/km *
Efficiency

Price

United Kingdom
£32000
The Netherlands
€36200
Germany
€36200
United Kingdom £32000
The Netherlands €36200
Germany €36200

Available to Order 01/03/2024

Real Range Estimation between - km

City - Cold Weather * km
Highway - Cold Weather * km
Combined - Cold Weather * km
City - Mild Weather * km
Highway - Mild Weather * km
Combined - Mild Weather * km
Indicating the actual driving range under various conditions. In cold conditions: the 'worst-case' scenario is assumed at -10°C with heating on. In mild conditions: the 'best-case' scenario is considered at 23°C without air conditioning. For 'Highway' driving, a steady speed of 110 km/h is presumed. The real-world range will vary based on driving speed, driving style, weather, and road conditions.

Performance

Acceleration 0 - 100 km/h 5.7 sec
Top Speed 210 km/h
Electric Range * km
Total Power 299hp (220 kW)
Total Torque 400 Nm
Drive Rear

Battery

Nominal Capacity * kWh
Battery Type
Number of Cells
Architecture 400 V
Useable Capacity kWh
Cathode Material
Pack Configuration
Nominal Voltage V

Charging

Home / Destination

Charge Port
Port Location
Charge Power
Charge Time (830) 30min
Charge Speed 1660 km/h

Fast Charging

Fastcharge Port
FC Port Location
Fastcharge Power (max)
Fastcharge Time (0->350km) 15 min
Fastcharge Speed 1400 km/h

Plug & Charge

Plug & Charge Supported
Supported Protocol

Bidirectional Charging (V2X / BPT)

Vehicle-to-Load (V2L)

V2L Supported
Max. Output Power kW AC
Exterior Outlet(s) 1 x Type 2 (Adapter)
Interior Outlet(s)

Vehicle-to-Home (V2H)

V2H via AC Supported
Max. Output Power
V2H via DC Supported
Max. Output Power

Vehicle-to-Grid (V2G)

V2G via AC Supported
Max. Output Power
V2G via DC Supported
Max. Output Power

Energy Consumption

EVDB Real Range

Range * km
Vehicle Consumption * Wh/km
CO2 Emissions g/km
Vehicle Fuel Equivalent * l/100km

WLTP Ratings (TEL)

Range km
Rated Consumption Wh/km
Vehicle Consumption Wh/km
CO2 Emissions g/km
Rated Fuel Equivalent l/100km
Vehicle Fuel Equivalent l/100km

WLTP Ratings (TEH)

Range km
Rated Consumption Wh/km
Vehicle Consumption Wh/km
CO2 Emissions g/km
Rated Fuel Equivalent l/100km
Vehicle Fuel Equivalent l/100km

Real Energy Consumption Estimation

City - Cold Weather * Wh/km
Highway - Cold Weather * Wh/km
Combined - Cold Weather * Wh/km
City - Mild Weather * Wh/km
Highway - Mild Weather * Wh/km
Combined - Mild Weather * Wh/km
Presentation of actual energy consumption in different scenarios. In cold conditions: the 'worst-case' scenario involves temperatures of -10°C with the heating turned on. In warmer weather: the 'best-case' scenario applies at 23°C without the need for air conditioning. For 'Highway' travel, it's assumed the vehicle maintains a steady 110 km/h. Energy consumption will be influenced by driving speed, manner of driving, environmental conditions, and the specifics of the journey.

Safety (Euro NCAP)

Safety Rating
Adult Occupant %
Child Occupant %
Rating Year
Vulnerable Road Users %
Safety Assist %

Dimensions and Weight

Length 4997
Width 1963
Width with mirrors
Height 1440
Wheelbase 3000
Weight Unladen (EU) 2205
Gross Vehicle Weight (GVWR)
Max. Payload
Cargo Volume
Cargo Volume Max
Cargo Volume Frunk
Roof Load
Tow Hitch Possible
Towing Weight Unbraked
Towing Weight Braked
Vertical Load Max

Miscellaneous

Seats 5 people
Isofix
Turning Circle
Platform Sedan
EV Dedicated Platform
Car Body
Segment
Roof Rails
Heat pump (HP)
HP Standard Equipment
*: estimated value. Average energy consumption and range are calculated based on a moderate driving style and climate conditions. Actual performance may vary significantly. Price information may not reflect current values for all regions. No legal entitlements can be derived from the content provided on this website.

Home and Destination Charging (0 -> 100%)

It's feasible to charge through a standard wall outlet or a dedicated charging station. Public charging exclusively utilizes charging stations. The speed at which the electric vehicle (EV) charges is determined by the charging station (Electric Vehicle Supply Equipment, EVSE) and the EV's maximum charging capability. The table below outlines all available charging methods for the Xiaomi SU7 Pro, detailing the speed of charging the battery from empty to full for each method.

Europe

The approach to charging an EV in Europe varies from one country to another. Some countries in Europe predominantly rely on 1-phase electrical connections to the grid, whereas others mainly utilize 3-phase connections. The table below presents all the potential charging methods for the Xiaomi SU7 Pro, noting that the availability of certain charging modes may be limited in specific countries.

† = Limited by on-board charger, vehicle cannot charge faster.

Fast Charging (10 -> 80%)

Rapid charging facilitates extended trips by maximizing the amount of range added in the minimal amount of time. The charging efficiency significantly drops after the battery reaches an 80% state of charge, making it uncommon for a rapid charge to go beyond this threshold. The rate at which an EV rapidly charges depends on both the capabilities of the charging station used and the maximum charging power the EV is designed to accept. Below is a detailed table outlining the specifics for rapidly charging the Xiaomi SU7 Pro, including:

  • Max. Power: The highest power output available from the charging station.
  • Avg. Power: The average power output from the charging station during a charging session from 10% to 80%.
  • Time: The duration required to charge the battery from 10% to 80%.
  • Rate: The average rate of charging during a session from 10% to 80%.

† = Constrained by the vehicle's charging capacity.

Autocharge: enables automatic start of a charging session at compatible CCS charging stations.

Plug & Charge: facilitates automatic commencement of a charging session at CCS charging stations that support it, following the ISO 15118 standard.

The real charging speeds may vary from the figures provided, influenced by external conditions such as ambient temperature, battery condition, and driving habits.

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