Faraday Future FF91 – The Fastest Charging Electric Car: How It Changes The Future of Charging? 

Not only is the gasoline price rising in the market but also it’s hampering global warming, in addition to which the importance of adopting alternative energy sources has become necessary.

On the other hand, to save precious fossil fuels and lessen the impact of a carbon footprint on the earth, there is rising awareness among people to buy renewable energy products.

There are multiple ways to promote sustainable energy and save the planet. Especially, one such step is to change commuting modes and select an electric-powered vehicle for traveling.

At this time if you are deciding to buy an electric car comes with multiple advantages apart from cleaner and greener living, and one of them is that you will be able to skip the expensive visits to the petrol pumps, and not be affected by rising gasoline prices day by day [1].

Faraday Future FF91

Soon after the first two decades of the 21st century have been the most significant period for electric vehicle (EVs) evolution. Besides, the increased number of EV manufacturers offer powerful features for a safe and comfortable driving experience.

The American technology firm Faraday Future (FF), founded in 2014, is dedicated to the creation of cutting-edge electric vehicles.

Furthermore, Faraday Future is ready to remove the barriers between the internet, IT, creative, and auto industries with product and service solutions that incorporate renewable energy, AI, Internet, and sharing models. In addition, Faraday Future FF91 is the first production vehicle and flagship model developed by FF.

In addition, it is an all-electric, autonomous-ready, and instantly connected vehicle that represents the company’s newest mobility innovations in performance, intelligence, user experience, and design.

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Faraday Future FF91 Charging Facts

Moreover, the most crucial component of any electric vehicle is charging, thus every EV owner has to have a basic understanding of how to do it.

Therefore, we have compiled some of the most common questions on charging your FF91 car and tried to answer them simply so that you can drive and recharge it confidently. Not only FF91 is based on the platform VPA (Variable Platform Architecture), but also it’s the company’s own development.

Highlights of Faraday Future FF91:

  • FF91 car is powered by three electric motors delivering 1050 hp of peak power output.
  • Achieving 60 mph acceleration in less than 2.4s makes it faster than the Tesla Model X Plaid car.
  • Also, it has a high-density 130kWh Li-ion battery pack, giving an extra range of 378 miles EPA / 700 km NEDC on a single full charge.  
  • Additionally, Faraday Future claims its electric vehicle to be the fastest charging in the world. FF91 all-electric vehicle takes advantage of the quickest charging speed currently available to experience a new kind of rapidity.
  • Additionally, the FF91 charger gives high charging power to be charged at a pace of 500 miles range per hour charging through direct current (DC).
  • The electric automobile won’t let you down even when you’re at home because using a 240-volt outlet will only take 4,5 hours to recharge the batteries by half.

On the other hand, there are two types of charging options available for Faraday Future FF91 vehicles: onboard chargers and off-board chargers.

Above all FF91 has an onboard alternating current (AC) charger of 15.2kW; and an off-board direct current (DC) charger of 200kW. Firstly, the Type 1 charging port is compatible with the vehicle and the port location is on the rear-right side.

Depending on the charger’s architecture and construction we cannot say whether it will be included or not included in the vehicle. We have elaborated on the difference in Figure 1 below.

Faraday Future FF91 has a bi-directional AC/DC converter-based charger that offers two charging options without complicated circuitry: onboard AC charging and off-board DC charging.

On-board charger vs. Off-board charger
Figure 1: On-board charger vs. Off-board charger

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On-Board Charging

Also, the onboard chargers have the limitation of Level 1 and Level 2 (slow charging) due to size and weight constraints.

The main advantage of onboard charging is the capability to charge EV batteries whenever possible through an AC power source, such as a household outlet.

Chargers used in homes often charge at night time, which has little impact on the supply grid. And they can help utility providers to maintain their load levels because the demand for electricity at night is relatively low.

At this time Faraday Future revealed a collaboration with Meta System to become the exclusive supplier of onboard power management modules for its ultra-luxurious FF 91 EV.

On the other hand, the FF91 will have an onboard AC charger with a powerful 15.2 kW charging capacity provided by Meta System.

They have met industry-leading safety standards and provide AC charging capabilities, FF91 drivers have to spend more time behind the wheels.

Read Battery Replacement Cost for Electric Scooter

Off-Board Charging

The off-board chargers are considered to be at level 3 of the charging facility. It provides a fast charging facility by converting the AC power received from the grid to DC power for directly charging the batteries.

Above all FF91’s onboard charging facility takes advantage of the quickest charging speed currently available to experience a new type of fast charging. For instance, using direct current (DC)

The 200kW charger enables the FF 91 to be charged at the fastest rate, delivering 500 miles of range per hour of charging.

Read Faraday Future Luxury Electric Car FF 91

FF91 Charging Options

FF91 also provides two options for charging the high-density 130kWh battery pack. We have given the charging time taken with onboard charging and off-board charging is given in Table 1 below.

Furthermore, with an AC three-phase, 32-ampere charging facility which takes 8 hours and 30 minutes of time for the fastest onboard charging. Moreover, with an off-board DC charging facility.

It takes just 98 minutes time to charge up to 80% state of charge.

Even though this information is a simple guide for FF91 enthusiasts. These numbers may slightly vary due to the fact that the configuration of the vehicle is based on a number of factors.

Sr.Charging PointCharging time (0 – 415 miles)
On-board AC Charger: 15.2kW
1.Wall Plug (2.3 kW)56h 30m
2.AC 1ph x 16A (3.7 kW)35h 15m
3.AC 1ph x 32A (7.4 kW)17h 30m
4.AC 3ph x 16A (11 kW)12h 00m
5.AC 3ph x 32A (22 kW)8h 30m
Off-board DC Charger: 200kW
1.DC 200kW (80%SOC)98 min
Table 1: FF91 On-board vs Off-board Charging Times

FF91 Battery Pack

So for understanding the EV charging options for FF91, one should learn about the battery pack supplied by the company. The framework behind FF91 is the concept of Variable Platform Architecture (VPA), that has created at the foundation of Faraday Future.

VPA also aims to provide a versatile powertrain architecture that may be adapted for use in various vehicle applications. On the other hand, the FF 91’s Battery Pack is a crucial component of the VPA, which supports many of the major features that facilitate the vehicle for its superior performance.

Here’s, a summary of FF91 battery specifications is given below:

  • Provides 378-mile EPA / 700 km NEDC range
  • Accelerate from 0 to 60 mph in less than 2.4 seconds
  • Accelerate a quarter of a mile in less than 10 seconds
  • The fast charging rate gives 500 miles of range per hour
  • Home charger (planned to be included) will achieve a 50% to full charge in under 4.5 hours at 240V.

Especially these are astounding numbers, and delivering them properly and securely calls for a complicated infrastructure. Moreover, the temperature management of the battery pack has a direct impact on meeting these requirements.

Furthermore, Faraday Future has spent more than five years perfecting the fully submerged cooling system.

Figure 2 shows the FF’s patented cooling mechanism where all major battery components are submerged in coolant.

Faraday Future FF91
Figure 2: Shows the working of the Fully Submerged Battery Cooling System

Read How Much Faraday Future Invested In Their Company

The Faraday Future Inverter

The EV battery charging system efficiently works with the other major components. The most important of them is the FF’s patented Faraday Future inverter.

The Faraday Future inverter is the best example of effective material utilization that transforms DC battery power into AC motor power and is considered one of the most powerful and compact electric car inverters.

Moreover, it has designed a new generation of small, lightweight inverters that can provide 850 Ampere of AC current.

With a patented design that mounts directly to a high-power motor delivering up to 350 hp (261 kW).

Also with all three motors combined with inverter drive units in the FF91, there can be 1,050 hp available to the driver.

Conclusion

Therefore Faraday Future believes that the future of charging is effortless. As a result, they are continuously developing products and devices that add innovative solutions to the electric vehicle market.

In addition to ever-increasing public charging stations across US and Canada. FF91 drivers will be able to access these charging points with convenience.

FF’s philosophy is to make the EV charging process as simple as possible. So whether you charge your vehicle at home or any charging station. You will get an effortless charging experience.

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