The US$4,400 Tesla Powerpack 2.0 is a premium battery electric car that is designed to provide power from the rear of the car while also providing a charging outlet.
It is the most powerful battery pack on the market and is designed for driving, for commuting, for heavy-duty, and for a variety of applications where range is an issue.
The powerpack 2, a 3-cylinder electric motor, has a range of 1,500 kilometres on a single charge and can be charged from a standard 12V to 20V charger.
The Powerpack comes with a range-extender to extend its range and can recharge to 60km on a full charge, or up to 100km with the option of a charging cable to extend the range.
The pack comes with two electric motors: the 240V 1,000W and 480V 1.2A motor.
The 240V motor is designed specifically for the Powerpack and offers higher efficiency than the 1,200W motor.
This motor is the same as the motor found in the Tesla Model S P85D, which has an output of around 250W.
The battery pack comes in two versions, a standard 240V (also known as 240V-I) and a standard 480V (sometimes referred to as 480V-S).
Both batteries can be upgraded with either the 240 or 480V motors.
The Tesla Powerpacks 240V battery pack is a little heavier than the standard 240VA and offers a much larger capacity.
The standard 240 is 5kg, while the standard 480 is 6kg.
The batteries are available in two capacities: standard 240 (240V-C), which is the standard battery in the US and Australia, and a higher-capacity version called 240VA (240VA-C).
The standard battery is a 5kg lithium-ion cell with an output capacity of 10,000mAh and a capacity of 20,000MWh.
The 480V battery is 5.5kg, with an even higher capacity of 28,000mWh.
It has an 80% higher capacity and can charge up to 50kWh in 3 hours.
Both batteries have an estimated lifetime of 20 years, although the standard version has a lifetime of 50 years.
The US, and the UK, both have battery pack regulations that limit the capacity of new battery cells and require a minimum discharge of 20A for new batteries and a maximum discharge of 50A for any older cells.
The EU regulations have a 10% discharge requirement for new cells.
However, the battery is only supposed to be used with older battery cells, so the maximum capacity is not set.
The EPA has set a lower limit of 10A, although that is only for a small number of applications.
A typical 240V pack will have about 120A in a 20A pack and an 80A pack, which is enough to power a 25-kilowatt light bulb for two hours.
The highest charge rates for the standard and higher-range 240V batteries are 10A/hr and 8A/hour respectively.
The same pack can also charge up from 15A to 40A, which works out at about 60A/kWh, with a maximum range of around 1,100 kilometres.
The 400V battery, which comes with the standard Powerpack, can also be upgraded.
The 320V version is the smallest and has a maximum charge rate of 10.2 A/hr, which gives you about 1,300mAh.
The 360V version has the largest capacity of any battery pack, and can pack a maximum of 200A into a 5-kilogram pack.
The 420V battery has a capacity that is slightly higher than the 240VA version.
The 380V and 450V versions have similar capacities, and both packs can charge a maximum capacity of 400A into 6-kilograms.
The 300V pack can charge into 50A/km.
The 280V and 480VA batteries come in three capacities, which are the standard, standard and 480Va batteries.
The 120V and 240VA versions have the same capacity.
It can charge between 1A and 40A with the 120V pack, or between 5A and 30A with a standard battery.
The 350VA and 450VA batteries have a capacity between 30A and 100A, depending on the pack, with the 480VA pack being able to charge into 500A.
In addition to charging from a 240V to a standard 120VA, the 240 VA pack also charges from a 480VA to a 480V and the 480 VA to a 240VA.
Both packs have the capacity to charge an 80V battery into a 10A pack.
These packs can be used in a number of scenarios.
The car will charge up the batteries from the outside of the vehicle or from the charging pad and then drive around until it has exhausted its range.
Charging from the car will be as simple as charging the battery into the charger and