Dec. 16, 2024
This comprehensive guide on Level 2 charging for electric vehicles (EVs) covers everything from Level 2 charging speeds and charger types to EV charging incentives, ensuring you have all the knowledge you need to fully understand Level 2 EV charging.
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Level 2 chargers are a step up from Level 1 chargers, offering faster charging speeds using alternating current (AC) power. In the United States, they utilize a 208/240 volts input; in Europe, they utilize either a single-phase 230 volts input or a three-phase 400 volts input. Level 2 chargers are primarily designed for home, workplace, and public charging stations; theyre compatible with most electric vehicles available on the market and are the most common level charger installed globally. Level 2 chargers come in wall-mounted versions, which can also be attached to a pedestal, and versions with an all-in-one design.
When discussing electric vehicle charging, its essential to understand the two types of electrical current used: alternating current (AC) and direct current (DC). Both currents play a crucial role in how long it takes to charge an EV and battery management in electric vehicles charging process.
The electricity that comes from the grid and powers the outlets in your home or office is always AC. This electrical current is named after the way it flows, changing direction periodically. AC electricity can be transported over long distances efficiently, making it the global standard for power distribution. Level 2 EV charging inputs and outputs power in AC.
In contrast, batteries in EVs store direct current, named after its straight-line power flow. DC electricity is used within the power circuitry of electronic devices, powering them directly. When an electric vehicle is plugged into a Level 2 EV charging station, it receives AC power, which is then converted to DC electricity for use within the car by its onboard converter.
Electric vehicles undergo a power conversion process when charging with a Level 2 EV charger. The AC power supplied by the L2 charger is converted into DC electricity by the vehicles onboard converter before being stored in the battery. This DC power is then used to operate the vehicle.
Level 1 and Level 2 charging stations utilize AC power, which is converted to DC power by the vehicles onboard converter during the charging process. In contrast, Level 3 charging, also known as DC fast charging, directly supplies the battery with DC power. This is possible because the conversion from AC to DC occurs within the charging station, bypassing the vehicles onboard converter. This enables Level 3 chargers to deliver power quicker than Level 2.
By understanding the roles of AC and DC electricity in electric vehicle charging, youll better grasp the charging process and how the different levels of EV chargers operate to provide power to your vehicle.
The charging curves between AC and DC electric vehicle charging differ. With Level 2 EV charging (AC), the power delivery is steady as the onboard converter can only accept a relatively small amount of power at a time. This differs from DC fast charging, which delivers a high peak of power at the start before it slowly tapers down in power delivery as the battery slowly requests less power through the battery management system. You can see the difference in the charging curves in the below illustration.
Charging speeds for Level 2 chargers range from 3 to 19.2 kilowatts (kW) in the United States and up to 22 kW in Europe, providing 10 to 75 miles (16 120 km) of range per hour of charging. The specific charging speed achieved depends on the chargers power output and the vehicles onboard charging capabilities, including its charge acceptance rate. Roughly speaking, a Level 2 charger can be up to 19 times faster than a Level 1 charger. However, it isnt as fast as Level 3 DC fast charging.
Charging LevelOutput Power RangeEstimated Charge time (40 kWh)Estimated Range Per Hour of EV ChargingEV Connector TypeUser CaseLevel 2 (L2)3 kW 22 kW (19.2 kW for USA)2 13 hours10 75 miles (16 120 km)Type 1 J (USA and Japan)The charging time for a Level 2 charger is influenced by the chargers power output, the EVs onboard charge acceptance rate, and the vehicles battery size. Many other variables can affect charging time, but here are some rough estimates based on an electric car that can accept the full charge power of the EV charger and adds 40 kWh of battery capacity (40 kWh is the average capacity of EV batteries).
Level 2 Charger Output PowerCharge Time (hours)3 kW13.37 kW5.711 kW3.619.2 kW2.122 kW1.8Please keep in mind these times will vary depending on the specific make and model of EV.
Level 2 electric vehicle chargers come in two main varieties: tethered and untethered. This section will delve into the key differences, merit and demerits, and other factors to consider when choosing between the two difference Level 2 charger types.
Tethered chargers feature a permanently attached charging cable and connector, saving you from carrying a separate charging cable. They are easy to use and always ready for charging (when available). However, compatibility with all EVs depends on the connector type. Tethered Level 2 chargers are popular in North America.
Untethered EV chargers do not have a permanently attached charging cable or connector. Instead, users must supply their own charging cable, which can be connected and disconnected via a socket in the EV charger. Untethered Level 2 chargers are popular throughout Europe.
Different EV charging connectors and plug types are used in various regions across the globe. Four connectors and plugs are used mainly for Level 2 charging.
The Type 1 connector and plug (the J Plug) is a charging standard used mainly in North America and Japan. It can deliver up to a 19.2 kW EV charger with 80 amps utilizing a single-phase 240-volt input. Almost every battery electric car and plug-in hybrid vehicle in North America, with the exception of Tesla, uses the Type 1 J connector and plug.
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The Type 2 connector and plug, or Mennekes, is a charging standard used in Europe, Australia, and parts of the Middle East and Africa. It can deliver up to 7.6 kW with 32 amps at single-phase 230-volt and 22 kW with 32 amps utilizing a three-phase 400-volt input.
GB/T is the EV connector and plug for AC electric vehicle charging in China. It can provide up to 7.4 kW of power output with a single-phase input. It looks similar to the Type 2 connector used in Europe. However, the wiring configuration inside the cable is entirely different, and as such, they are incompatible.
The NACS is a charging standard developed by Tesla for use in North America. It was previously named the Tesla Super Charger connector. It can provide both AC and DC charging to a Tesla model vehicle. The AC version classed as Level 2 can deliver up to 48 Amps on a single-phase 240-volt input.
Level 2 chargers offer the versatility to function efficiently in various locations, ensuring convenience and accessibility for EV users. Here are the ideal places for installing Level 2 chargers:
Installing Level 2 chargers at home is perfect for overnight charging. They can provide a good range for daily commuting and regular short journeys, offering convenience and flexibility for homeowners.
Workplaces serve as strategic locations for Level 2 chargers. These chargers allow employees to recharge their EVs during work hours, making adopting electric vehicles more feasible and beneficial for staff. Installing EV chargers at your workplace will also help to attract and retain environmentally conscious staff and can be used as an employee benefit or perk.
Installing Level 2 chargers at public charging stations provides accessible charging solutions for EV drivers away from home or work. These locations can include community centers, parks, event venues, leisure centers, and roadside rest stops. Public charging stations are essential for EV users who cannot have an EV charger at home due to no off-street parking.
Commercial properties such as retail parks, restaurants, long-stay car parks, and hotels are excellent locations for Level 2 chargers. They support EV fleets, encourage customers to spend more time on the premises and potentially money while their vehicles charge, and convey a commitment to sustainability.
In summary, Level 2 chargers can be strategically placed in various locations to support the widespread use of electric vehicles and meet the changing needs of different user groups. By carefully selecting installation locations, Level 2 charging can seamlessly integrate into peoples lives and daily routines, making EV ownership a more attractive option.
Many countries, states, and local governments offer financial incentives to encourage the adoption of electric vehicles and in particular EV charging infrastructure. Incentives for EV charging include tax credits, rebates, and grants. In the United States there are various Level 2 and DC fast charger incentives by state including rebates from utility companies.
Level 2 charging is a practical, efficient, and convenient method for charging electric vehicles at home, work, or public locations. By understanding the various aspects of Level 2 charging, such as charging speeds, connectors, and available incentives, youll be well-equipped to decide whether installing Level 2 charging stations is the right choice for you.
Part of whats giving so many people the confidence to make the switch to electric transportation is the widespread buildout of Level 2 AC and Level 3 DC fast charging infrastructure at shopping centers, multifamily properties, parking facilities and along highways.
But what are the differences between the two types of charging? It has to do with how electricity from the grid makes its way to an EVs battery. The power from our energy grid is alternating current (AC), and most power outlets use AC power. Batteries, on the other hand, use direct current (DC) power. When charging an EV, the AC power from the grid must be converted to DC power so it can be stored in the vehicles battery.
Some drivers may still use Level 1 charging cables at their homes. These require only a 120-volt, 20-amp circuit, which means you can simply plug them into a normal household outlet and connect to an EV at the other end. Level 1 charging speed depends on the type of EV (all-electric or plug-in hybrid), the size of the battery and how much energy the battery has in it. For example, an EV with a 100-mile battery plugged into a Level 1 charging cable can take about 24 hours to fully charge when its nearly empty.
Get more detail on how DC fast charging works.
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