☰ menu ☰ hide

Ford Hybrid Electric Vehicles

  • New Hybrid Puma
    New Hybrid Puma
  • Kuga Hybrid
    Kuga Hybrid
  • Fiesta Hybrid
    Fiesta Hybrid
  • New All-Electric Explorer
    New All-Electric Explorer
  • Mustang Mach-E
    Mustang Mach-E

There's a lot of information about electric vehicles out there. And trying to choose a vehicle to fit your lifestyle isn't easy. That's why at Buckingham Ford we've put together all the facts you need to help you choose the car that's right for you.



Electric cars come in various types for different usage scenarios, like short local trips or a long daily commute. Once you understand what makes them different, it's easier to see which vehicle would fit your lifestyle best.


A small electric motor that helps improve efficiency versus a conventional internal combusion engine. Mild Hybrid vehicles have two sources of power that work together - a conventional engine and a battery driven electric motor. The electric motor does not power the car. It simply assists it.



Hybrid vehicles have two sources of power. They can automatically switch between conventional mode, pure electric mode (for short distances) or use both to power the vehicle as needed.



Plug In. Charge up. Improves efficiency versus a mild hybrid or hybrid engine. Plug-in Hybrids have the two sources of power like a hybrid, but with a larger high voltage battery, enabling you to drive longer distances on all-electric power.



100% Electric. Just charge it up and go. All-Electric cars are powered by electricity alone. This means they have to be charged before you can drive.




All four electric vehicle types use regenerative braking to charge the battery. While braking, the motor is still spinning even though the car is trying to slow down. Regenerative braking captures this typically wasted energy to create electricity, which charges the battery.



There's no need to plug in your vehicle for charging. Hybrid vehicles are able to recharge the battery in two ways:

  • Regenerative Braking
  • Conventional Engine

The conventional engine powers the generator which transforms mechanical energy into electrical energy to charge the battery.



The larger battery in Plug-in Hybrids can be plugged-in to charge. Once the battery is depleted, the vehicle behaves like a conventional hybrid with the engine running when required.



All-Electric vehicles are powered by electricity alone and don't have a petrol engine. They must be plugged in to charge the battery.


230V Wall outlet

Plug-in Hybrids and All-Electric vehicles can be charged on a 230V outlet. This takes longer than when using a Wallbox.



For faster charging at home you can install a wallbox, which is capable of charging your vehicle overnight.


Public charging stations

Public charging stations, available in many cities and work places, can charge your vehicle much faster than at home. They can deliver an 80% charge in just 30 minutes. The price and charging capability can vary.


IONITY High-power charging stations

Ford Motor Company are building a High-Power Charging network across Europe. 400 charging stations will be capable of delivering faster charging of up to 350 kW. These stations will be compatible with both current and future electric vehicles.

What is the range of a Hybrid/Electric Ford?


Mild Hybrid vehicles cannot be driven solely by the electric battery and motor,they utilise a conventional engine.


A Hybrid is capable of driving short distances on electric power alone.


When fully charged, Plug-in Hybrids can operate on electric power for journeys of approximately 30 miles. Once the battery runs out of charge, the vehicle will behave like a hybrid with the conventional engine running when necessary.


The range on a fully charged All-Electric vehicle varies from 100 miles on older models to approximately 300 miles on newer models.

How long does it take to change an electric car?

Can I charge an electric car in the rain?

Aren't electric cars dangerous in an accident?

How do I find a charger?

How do I pay for charging?

  • Copyright © 2003-2024 Redding and Redding Ltd.
  • All rights reserved.