Toyota Proace Verso Long 50 kWh

February 2024 - August 2024

£43,488Price from

46.3 kWhUseable Battery

110 miReal Range

421 Wh/miEfficiency

This electric vehicle is no longer for sale

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Price from (last known) £43,488

Availability	Not available to order
Available to order from	February 2024
Available to order until	August 2024

Annual VED	£0
Congestion Charge	£11.50
Insurance Group	N/A

Price shown is the last known On The Road price: it includes VAT, first year VED, vehicle first registration fee, number plates and delivery.

Real Range between 80 - 170 mi

City - Cold Weather	120 mi
Highway - Cold Weather	80 mi
Combined - Cold Weather	95 mi

City - Mild Weather	170 mi
Highway - Mild Weather	95 mi
Combined - Mild Weather	125 mi

Indication of real-world range in several situations. Cold weather: 'worst-case' based on -10°C and use of heating. Mild weather: 'best-case' based on 23°C and no use of A/C. For 'Highway' figures a constant speed of 70 mph is assumed. The actual range will depend on speed, style of driving, weather and route conditions.

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Performance

Acceleration 0 - 62 mph	12.1 sec
Top Speed	81 mph
Electric Range	110 mi

Total Power	100 kW (134 hp)
Total Torque	192 lb-ft
Drive	Front

Battery

Nominal Capacity	50.0 kWh
Battery Type	Lithium-ion
Number of Cells	216
Architecture	400 V
Warranty Period	8 years
Warranty Mileage	100,000 mi

Useable Capacity	46.3 kWh
Cathode Material	NCM
Pack Configuration	108s2p
Nominal Voltage	400 V
Form Factor	No Data
Name / Reference	No Data

Charging

Home / Destination

Charge Port	Type 2
Port Location	Left Side - Front
Charge Power	7.4 kW AC

Charge Time (0->110 mi)	7h30m
Charge Speed	15 mph

Rapid Charging

Charge Port	CCS
Port Location	Left Side - Front
Charge Power (max)	101 kW DC
Charge Power (10-80%)	78 kW DC

Charge Time (11->88 mi)	26 min
Charge Speed	170 mph
Autocharge Supported	Yes

Plug & Charge

Plug & Charge Supported

Supported Protocol

Click here for all charging information

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Bidirectional Charging (V2X / BPT)

Vehicle-to-Load (V2L)

V2L Supported	No
Max. Output Power	-

Exterior Outlet(s)	-
Interior Outlet(s)	-

Vehicle-to-Home (V2H)

V2H via AC Supported	No
Max. Output Power	-

V2H via DC Supported	No
Max. Output Power	-

Vehicle-to-Grid (V2G)

V2G via AC Supported	No
Max. Output Power	-

V2G via DC Supported	No
Max. Output Power	-

Energy Consumption

EVDB Real Range

Range	110 mi
Vehicle Consumption	421 Wh/mi

CO2 Emissions	0 g/km
Vehicle Fuel Equivalent	96 mpg

WLTP Ratings (TEL)

Range	143 mi
Rated Consumption	407 Wh/mi
Vehicle Consumption	324 Wh/mi

CO2 Emissions	0 g/km
Rated Fuel Equivalent	99 mpg
Vehicle Fuel Equivalent	125 mpg

WLTP Ratings (TEH)

Range	136 mi
Rated Consumption	428 Wh/mi
Vehicle Consumption	340 Wh/mi

CO2 Emissions	0 g/km
Rated Fuel Equivalent	95 mpg
Vehicle Fuel Equivalent	119 mpg

TEL = Test Energy Low | TEH = Test Energy High
Rated = official figures as published by manufacturer. Rated consumption and fuel equivalency figures include charging losses.
Vehicle = calculated battery energy consumption used by the vehicle for propulsion and on-board systems.
NOTE: The fuel equivalency figures are shown in IMPERIAL MPG. Figures in US MPG will differ significantly.

Real Energy Consumption between 272 - 579 Wh/mi

City - Cold Weather	386 Wh/mi
Highway - Cold Weather	579 Wh/mi
Combined - Cold Weather	487 Wh/mi

City - Mild Weather	272 Wh/mi
Highway - Mild Weather	487 Wh/mi
Combined - Mild Weather	370 Wh/mi

Indication of real-world energy use in several situations. Cold weather: 'worst-case' based on -10°C and use of heating. Mild weather: 'best-case' based on 23°C and no use of A/C. For 'Highway' figures a constant speed of 70 mph is assumed. The energy use will depend on speed, style of driving, climate and route conditions.

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Dimensions and Weight

Length	5308 mm
Width	1920 mm
Width with mirrors	2204 mm
Height	1890 mm
Wheelbase	3275 mm
Weight Unladen (EU)	1989 kg
Gross Vehicle Weight (GVWR)	2830 kg
Max. Payload	916 kg

Cargo Volume	989 L
Cargo Volume Max	3497 L
Cargo Volume Frunk	0 L
Roof Load	0 kg
Tow Hitch Possible	Yes
Towing Weight Unbraked	750 kg
Towing Weight Braked	1000 kg
Vertical Load Max	60 kg

Miscellaneous

Seats	8 people
Isofix	Yes, 3 seats
Turning Circle	12.4 m
Platform	PSA EMP2
EV Dedicated Platform	No

Car Body	Small Passenger Van
Segment	N
Roof Rails	No
Heat pump (HP)	Yes
HP Standard Equipment	Yes

Company Car Tax Indication

Financial Year 2023-24

BIK Tax Rate	2%
P11D Value from	£43,433
Benefit in Kind (BIK)	£869

BIK @ 20%	£14 pcm
BIK @ 40%	£29 pcm
BIK @ 45%	£33 pcm

Financial Year 2024-25

BIK Tax Rate	2%
P11D Value from	£43,433
Benefit in Kind (BIK)	£869

BIK @ 20%	£14 pcm
BIK @ 40%	£29 pcm
BIK @ 45%	£33 pcm

Financial Year 2025-26

BIK Tax Rate	3%
P11D Value from	£43,433
Benefit in Kind (BIK)	£1,303

BIK @ 20%	£22 pcm
BIK @ 40%	£43 pcm
BIK @ 45%	£49 pcm

Go to the Proace Verso on the official Toyota website.

* = estimated value. Average energy consumption and range based on moderate drive style and climate. Real-life values may differ significantly. Pricing information might not be actual for some regions. No rights can be derived from the information on this site.

Home and Destination Charging (0 -> 100%)

Charging is possible by using a regular wall plug or a charging station. Public charging is always done through a charging station. How fast the EV can charge depends on the charging station (EVSE) used and the maximum charging capacity of the EV. The table below shows all possible options for charging the Toyota Proace Verso Long 50 kWh. Each option shows how fast the battery can be charged from empty to full.

Type 2 (Mennekes - IEC 62196)

Charging Point	Max. Power	Power	Time	Rate
Wall Plug (2.3 kW)	230V / 1x10A	2.3 kW	23h45m	5 mph
1-phase 16A (3.7 kW)	230V / 1x16A	3.7 kW	14h45m	7 mph
1-phase 32A (7.4 kW)	230V / 1x32A	7.4 kW	7h30m	15 mph
3-phase 16A (11 kW)	230V / 1x16A	3.7 kW †	14h45m	7 mph
3-phase 32A (22 kW)	230V / 1x32A	7.4 kW †	7h30m	15 mph

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

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Rapid Charging (10 -> 80%)

Rapid charging enables longer journeys by adding as much range as possible in the shortest amount of time. Charging power will decrease significantly after 80% state-of-charge has been reached. A typical rapid charge therefore rarely exceeds 80% SoC. The rapid charge rate of an EV depends on the charger used and the maximum charging power the EV can handle. The table below shows all details for rapid charging the Toyota Proace Verso Long 50 kWh.

Max. Power: maximum power provided by charge point
Avg. Power: average power provided by charge point over a session from 10% to 80%
Time: time needed to charge from 10% to 80%
Rate: average charging speed over a session from 10% to 80%

Combined Charging System (CCS Combo 2)

Charging Point	Max. Power	Avg. Power	Time	Rate
CCS (50 kW DC)	50 kW	49 kW †	42 min	110 mph
CCS (150 kW DC)	101 kW †	78 kW †	26 min	170 mph

Charge Curve

Data made available by Fastned

This vehicle supports Autocharge
This vehicle does not support Plug & Charge

† = Limited by charging capabilities of vehicle

Autocharge: allows for automatic initiation of a charging session at supported CCS charging stations.

Plug & Charge: allows for automatic initiation of a charging session at supported CCS charging stations in accordance with ISO 15118.

Actual charging rates may differ from data shown due to factors like outside temperature, state of the battery and driving style.

All about the Toyota Proace Verso Long 50 kWh

No longer available

This electric vehicle is no longer in production and not available to buy new. The Toyota Proace Verso Long 50 kWh was available from February 2024 until August 2024. Financial data like price, leasing and company car tax were applicable to the final year of availability of the Toyota Proace Verso Long 50 kWh.

Pricing

The Toyota Proace Verso Long 50 kWh had an On The Road Price (OTR) of £43,488. The OTR Price includes VAT, first year of VED, vehicle first registration fee, number plates and delivery.

Drivetrain and Performance

The Toyota Proace Verso Long 50 kWh is a full electric vehicle (BEV). The maximum power of the Toyota Proace Verso Long 50 kWh is 100 kW (134 hp). The maximum torque is 192 lb-ft. The Toyota Proace Verso Long 50 kWh is front wheel drive and can accelerate from 0 to 62 miles per hour in 12.1 seconds. The top speed is 81 mph.

Battery and Charging

The battery of the Toyota Proace Verso Long 50 kWh has a total capacity of 50 kWh. The usable capacity is 46.3 kWh. A range of about 110 miles is achievable on a fully charged battery. The actual range will however depend on several factors including climate, terrain, use of climate control systems and driving style.

For example: sustaining high speeds in cold weather could result in a range of around 80 mi. However, driving at low speeds in mild weather will increase the range to around 170 mi.

Charging is done using a Type 2 connector and the on-board charger has a maximum power of 7.4 kW. This charges a fully depleted battery back to full in around 7 hours 30 minutes. Charging the car using a regular wall plug will take around 23 hours 45 minutes.

Rapid charging is possible through a CCS connection. The maximum rapid charge power is 101 kW. The battery can't be charged continuously at this power. In an average rapid charge session the average charge power will be around 78 kW. This charges the battery from 10% to 80% in around 30 minutes. A rapid charge like this will add about 75 miles of range.

Energy Consumption

The combined (motorway and city) energy consumption of the Toyota Proace Verso Long 50 kWh is about 421 Wh per mile. By comparison, this energy consumption is the equivalent of a fuel consumption of 96 mpg in a traditional petrol car.

The actual energy consumption will depend on several factors including climate, terrain, use of climate control systems and driving style. For example: sustaining high speeds in cold weather could result in an energy use of around 579 Wh per mile. However, driving at low speeds in mild weather will increase the efficiency to about 272 Wh per mile.

CO2 Emission

The Toyota Proace Verso Long 50 kWh emits no CO2 during driving. This only includes direct emissions from the vehicle itself. The energy needed to charge the battery might have been (partly) generated by the use of fossil fuels. Vehicles with an internal combustion engine will always emit CO2 during driving. Additionally, CO2 is emitted during the production and transport of fossil fuels.

More information from Toyota

The link below will open the page of the Proace Verso on the official Toyota site.

Go to the Proace Verso on the official Toyota website.

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