★モーターと組み合わされるトランスミッションたち【EV】

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Hello everyone.

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The theme this time is about EV transmissions.

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Today, the electrification of powertrains

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is changing the environment surrounding transmissions.

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This is because the role of the transmission is decreasing

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as the main driving force is shifting from the engine to the motor.

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However, just because it is an EV does not necessarily mean

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that a transmission is unnecessary.

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This video will show you the possibilities of transmissions in EVs.

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What is transmission?

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The transmission is often mounted behind the engine

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and transmits the turning power (torque) and speed

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from the engine to the tires by increasing or decreasing

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and reversing the speed according to the driving conditions.

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The principle of the gearbox uses a combination of gears of different sizes.

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When a large gear turns a small gear in an intermeshing pair of gears,

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the rotation speed of the small gear increases.

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Conversely, when a small gear turns a large gear,

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the large gear has more turning force (torque).

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Transmissions are based on this principle.

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A vehicle requires turning power (torque) when starting off or going up and down hills,

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and conversely, when traveling at high speeds,

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it is necessary to increase the number of revolutions in order to speed up the vehicle.

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Also, when moving backward, the rotation is required to be reversed.

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Why do we need transmissions in automobiles in the first place?

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The torque, speed, and direction of rotation of an engine cannot be changed at will,

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but can only fluctuate within a certain range.

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Outside of that certain rpm range, operation may stop, efficiency may drop,

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or in the worst case, damage may result.

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Therefore, the transmission is used to change the torque, speed,

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and direction of rotation from the engine

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to what is best suited to the vehicle's needs by combining gears.

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In addition, the torque generated by the engine is poor

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for moving a car weighing thousands of kilograms,

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and deceleration is required to increase torque.

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Multiple gear sets are also intended to reduce rpm, i.e., amplify torque.

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Characteristics of motors

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Most EVs currently in mass production do not employ transmissions.

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In EVs, anyone can easily start driving by setting the selector for driving

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to D range and stepping on the accelerator pedal.

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Driving force and speed can be controlled

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only by the number of motor revolutions and the gas pedal opening.

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It can be said that the lack of any difficulty and the beginner-friendly ease of use are

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the beauty of EVs without transmission.

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This is due to the characteristics of electric motors.

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As is widely known,

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electric motors are able to extract maximum torque immediately from zero rpm.

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The motor can immediately extract a large amount of torque

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that a gasoline engine would need to rev up to 3-4000 rpm and apply a load,

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eliminating the need for high gears for starting.

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And if the motor speed is increased as it is, the vehicle speed will also increase

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with the maximum torque, so it is said that a transmission is not necessary.

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In Japan, there is a speed limit of 60 km/h in urban areas and 120 km/h on highways,

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so there is no need to extract higher speeds for practical use.

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Except for a very few areas with unlimited maximum speed,

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it is considered globally acceptable to support a maximum speed of about 140 km/h.

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Therefore, the characteristic of electric motors is that

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they can handle this without having a multi-speed transmission.

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However, a transmission is essential for an engine-powered car.

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The reason why a transmission is installed in a car in the first place is

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to bridge the "gap" between the "rotational speed-torque characteristics" of the engine

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and the "driving force characteristics" required of the car.

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The engine reaches its maximum torque at a particular rpm,

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and torque drops off sharply at other times.

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On the other hand, a car requires a large driving force when starting and accelerating,

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and can run with a small driving force without slowing down

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when it reaches a certain speed.

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To achieve these driving force characteristics required of a car,

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engine cars need a transmission.

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Engine cars require precise control using a multi-stage transmission

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so that the engine can operate near the eyeballs of fuel economy

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even as vehicle speed, torque requirements,

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and other factors vary with driving conditions.

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In contrast, a motor maintains its maximum torque

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from a standstill up to a certain rotational speed, and then drops off above that speed.

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Since these rotational speed-torque characteristics are similar

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to the driving force characteristics required of a car,

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EVs can be driven in a variety of driving conditions simply

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by attaching a fixed-stage reduction gear to the motor.

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Current EV transmission system

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EVs do not necessarily need a transmission,

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but EVs currently on the market do not transmit

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the rotation of the motor directly to the drive wheels.

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This means that

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the motor and the tires of the drive wheels do not rotate at the same speed.

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Unlike an engine, a motor has no reciprocating parts,

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so it can increase its rpm compared to an engine.

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Take, for example, the Nissan LEAF, a domestically produced EV,

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with an EM57 AC synchronous motor

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with specifications of maximum output of 150 hp at 3283-9795 rpm (normal grade).

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If this motor speed is transmitted directly to the drive wheels,

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the speed is converted to about 400 to 1200 km/h.

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This is far from the practical range and inefficient.

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Therefore, many commercial EVs use a set of reduction gears

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to decelerate the speed of the motor output shaft and transmit it to the tires.

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No matter how much torque a motor can produce,

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more power is needed to move a vehicle weighing 1 to 2 tons.

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To achieve this, torque is increased by a combination of large and small gears.

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The reduction gear plays this role.

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EVs can be driven in a variety of driving conditions simply

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by attaching a fixed-stage reduction gear to the motor.

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So many EVs today are equipped with a reduction gearbox

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even if they do not have a transmission.

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What is a reduction gear?

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A reduction gear is a device

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that outputs torque by decelerating the rotational speed with gears or other devices.

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It can output torque inversely proportional to the deceleration.

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Reduction gears are devices that spread along with the development of motors.

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It is no exaggeration to say that

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unless the mechanism utilizes the rotation of the motor as it is,

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some kind of reduction device is necessary,

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and where there is a motor, there is a reduction gear.

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By installing a reduction gear between the motor and the device it drives,

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the required torque and rotational speed can be obtained.

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They are widely used in industrial machinery such as robots and factory conveyor lines,

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as well as ship's screws and airplane propellers.

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The reduction gear mechanism uses the principle of leverage.

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In the principle of leverage, the greater the distance

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between the point of application of force and the point of support,

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the greater the force generated with less force.

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The force point for the gears is "where the gears engage"

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and the fulcrum is "the center point of the gear on the tire side.

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A makes one turn, B makes only 1/2 turn, but less force is required to turn B.

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Therefore, if the rotational speed is 1/2, its rotational force (torque) is doubled.

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The reduction ratio at this time is expressed as "2.

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Incidentally, a reduction gearbox is a device with one fixed reduction ratio,

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while a transmission is a device with variable speed ratio.

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By using a reduction gear, low-speed rotation can be efficiently obtained

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and high torque can be obtained as a so-called doubling device.

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Why EVs need transmissions

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The engine produces more torque as the rpm increases,

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while the motor produces its maximum torque immediately after rotation

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and gradually decreases in efficiency.

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Therefore, the mainstream powertrain for EVs

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has been to use a reduction gear to amplify torque and not to have a transmission.

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However, even motors need to be highly efficient.

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Electric powertrains that combine wide range and high performance are emerging,

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based on the concept that if efficiency declines as rpm rises,

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a multi-stage gearshift should be used.

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As some say, "EVs lose battery power faster at high speeds,"

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the efficiency of motors differs by more than 10%

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between ordinary roads and highways.

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In the case of permanent magnet synchronous motors, when running at high speeds,

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the back EMF generated by rotation creates rotational resistance,

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which reduces efficiency. If the speed is shifted according to the rotation speed,

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the efficiency can be improved by up to 4% in the case of a D-segment car.

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The role of the transmission for EVs is to allow the motor to be driven

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in a more efficient range, thereby extending the cruising range,

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and also to improve driving performance by increasing the drive torque.

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1 High speed and maximum speed

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The energy conversion efficiency of electric motors is much higher

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than that of internal combustion engines.

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While the highest value for mass-produced gasoline engines is about 41%,

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electric motors achieve more than 90%.

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However, not all ranges exceed 90%. In the low RPM, high torque range,

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the resistance due to the electrical resistance of the copper wire increases,

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and in the higher RPM, lower torque range, the more loss occurs

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when switching the magnetic field of the iron core.

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Also, even a motor heats up because a large current continues to flow

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if it continues to run at high RPM.

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Therefore, in order to lower the motor speed at high speeds,

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shifting to a combination with a small gear ratio difference allows

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efficient use of the motor speed and reduces heat generation.

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And if the car is designed to run at 200 km/h or more,

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as in a GT or sports car, a transmission is required.

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Many mass-produced EVs without transmissions have

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a maximum speed of 160 km/h or less.

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While this is sufficient for mainly city driving,

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the current electric powertrains fall a little short

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when seeking performance equivalent to that of an engine-powered vehicle.

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EVs have a fixed 3rd gear that covers the entire range from start to high speed,

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and the technology of combining a transmission

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with a gear ratio range equivalent to 1st to 6th gears makes it possible

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to raise the starting, hill climbing, or towing performance.

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At the same time, the maximum speed can be increased.

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However, since the motor has a wider speed range than the engine,

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it is said that a two-speed gear shift is sufficient.

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2 Downsizing of motors

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One of the benefits of using a transmission for EVs is

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that the motor can be downsized;

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EVs require large motors in situations where high torque is required,

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such as starting and rapid acceleration.

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If large torque is required at startup, the motor must necessarily be larger.

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This will involve issues of cost and size.

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The advantage of electric vehicles equipped with a transmission mechanism is that

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by combining the transmission mechanism with the motor,

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not only can the motor be downsized, but also auxiliary equipment

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such as inverters can be downsized.

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The smaller the motor can be made, the more space it takes up for the battery.

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This is directly related to extending the cruising range of EVs.

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And it not only reduces weight, but also reduces

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the amount of expensive rare earth and electromagnetic copper plates used in motors.

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So, downsizing can also reduce costs.

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Adding a multistage transmission to a smaller motor

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rather than a larger motor that covers 0-140 km/h

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would cover the starting torque and reduce the burden at the highest speed,

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which would reduce the cost of the motor.

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However, there are also disadvantages to having a transmission.

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EVs have problems such as back EMF of the motor,

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which makes it difficult to increase the maximum speed without a transmission.

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However, since it is sufficient for EVs used

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in daily life to be able to reach speeds of around 100 km/h or more,

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there is no need to go to the trouble and expense of installing a heavy transmission.

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The appeal of EVs is their seamless and smooth acceleration.

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The appeal of EVs would be diminished

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if the combination of a gearbox and a transmission caused shifting shocks.

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It is inevitable that the transmission efficiency of the entire drivetrain will be reduced

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when a transmission is combined.

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Weight and volume will increase, and so will cost.

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A prerequisite for adoption is that

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the positive factors resulting from the transmission combination outweigh

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the negative factors associated with the adoption of the transmission.

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Electric motors have a thermal efficiency of over 90%,

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and they can do so over a wide range of speeds.

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So while it certainly only needs one gear,

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there is still room to improve efficiency by using a transmission.

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The total cost of EVs may become more advantageous if the weak points of EVs,

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such as improved power consumption at high speeds, smaller motors,

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and reduced battery capacity due to improved power consumption,

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are taken into account.

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Examples of EV Transmission

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Electric motors can generate maximum torque from low or zero RPM

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and can rev higher than engines.

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Therefore, they require only one gear,

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which has advantages in terms of transmission efficiency and weight.

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Therefore, all passenger car EVs on the market today have one gear

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except for the e-tron GT and the Porsche Taikan,

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which shares hardware with the e-tron GT.

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If a sports-type car is converted

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to a two-speed for the purpose of speeding down the German Autobahn,

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it can combine tremendous start-up acceleration with performance at very high speeds.

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In fact, first gear is used when using launch control

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and when the Audi Drive Select is set to dynamic for stronger acceleration,

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and second gear is used during normal driving.

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Structurally, a planetary gear system is used.

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It is not the case that two-speed EVs are only for models

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that require super performance.

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Major suppliers such as ZF and Bosch in Germany

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and Aisin and NSK in Japan are developing transmissions for EVs,

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including 2-speed transmissions.

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They are not only for sports and premium cars,

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but also for general passenger and commercial vehicles.

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Bosch is developing the CVT4EV, a continuously variable transmission (CVT) for EVs,

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utilizing the technology it has cultivated in the development of CVTs.

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They are currently developing the technology using a demo car

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and aim to put it to practical use in 2025.

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The CVT4EV, by its special design, allows for increased efficiency,

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more torque in towing mode, good acceleration and top speed, etc.

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The smoothness characteristic of EV driving is maintained

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through stepless gear shifting without torque steps.

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The LOW ratio improves acceleration and hill climbing performance at low speeds,

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while the TOP ratio improves efficiency and top speed at high speeds;

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the LOW ratio can also be used for towing and off-road driving

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by increasing torque more than efficiency.

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Efficiency can be improved by making better use of the motor's efficient range.

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If fluctuations in vehicle speed are absorbed by the CVT gearshift,

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the motor's rpm can be kept within a certain range.

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Compared to planetary gear systems, the ideal range of gear ratios is easier to achieve,

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and CVTs have an advantage over stepless systems

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in that they do not cause gearshift shocks.

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The greatest advantage is

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the ability to use the motor's highly efficient range without waste.

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The CVT4EV is expected to improve energy consumption by up to 5%

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and at the same time improve acceleration performance by up to 50%.

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The BlueE Nexus electric powertrain lineup, a partnership

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between the Aisin Group and Denso,

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also includes a unit with a two-speed transmission.

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This type has a mechanism called a planetary gear type 2-stage transmission.

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Like a standard AT, it has a clutch mechanism for gear shifting,

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a planetary gear mechanism for the first and second rows,

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and an output gear to the differential gear.

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By adopting a two-stage gear shift mechanism,

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the amount of batteries installed in the vehicle can be reduced,

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with the aim of improving cost and electric power consumption.

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NSK (NSK) announced in December 2016 that it has developed

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a system of in-wheel motors (IWM) equipped with a transmission.

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By combining a gearbox with two small motors,

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the IWM system enables a smaller overall volume

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than using only one large conventional motor.

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The NSK system has three planetary gears.

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Two of these act as transmissions and one as a reduction gear

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that amplifies the combined power of the two motors.

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There are two transmission gears: a low gear used primarily

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for starting and a high gear used for driving.

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In high gear, the two motors rotate in the same direction,

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while in low gear and when traveling backward, they rotate in opposite directions.

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The two-speed electric drive unit developed by ZF,

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a well-known transmission manufacturer,

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has a two-speed shifting mechanism using a planetary gear set.

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Starting in first gear provides higher torque for powerful starting and acceleration.

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On the other hand, shifting to 2nd gear at 70 km/h allows for higher speeds.

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2nd gear also greatly improves acceleration performance.

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By incorporating a two-speed transmission,

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ZF engineers say they can increase the range by 5% if the battery size is the same.

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A 2-speed transmission should be heavier and larger than a 1-speed,

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but ZF has succeeded in integrating a 2-speed transmission

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into the same size as the 1-speed electric drive unit.

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By the way, Formula E, the premier EV race, currently uses regulations

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that allow the use of gearboxes with up to six speeds.

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It is expected that transmissions for EVs will be introduced starting

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with large vehicles in the future.

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However, the benefits of adopting transmissions for small EVs

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for city driving may not be significant.

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Many people consider "C-segment cars to be the borderline for mounting.

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Motors are not all-powerful, either; they have their strengths and weaknesses.

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We look forward to the continued evolution of motors to achieve high efficiency.

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What kind of EV transmissions do you like?

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All right, that's all for this time. Thanks for watching!