Automatic Gearbox
Your automatic transmission is located at the rear of your engine. The actual location inside your vehicle can vary depending on the placement of your engine. While most engines have their serpentine belts (and thus the front of the engine) facing the front of the vehicle, some vehicles have a sideways mounted engine. Sliding The Vehicle Down A Slope In The Neutral Mode. This habit won’t let you accelerate the car.
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Most modern automatic gearboxes have a set of gears called a planetary or epicyclic gear train.
A planetary gear set consists of a central gear called the sun gear, an outer ring with internal gear teeth (also known as the annulus, or ring gear), and two or three gears known as planet gears that rotate between the sun and ring gears.
The drive train is coupled to a mechanism known as a torque converter, which acts as a fluid drive between the engine and transmission.
Gotham font free. If the sun gear is locked and the planets driven by the planet carrier, the output is taken from the ring gear, achieving a speed increase.
If the ring gear is locked and the sun gear is driven, the planet gears transmit drive through the planet carrier and speed is reduced.
With power input going to the sun gear and with the planet carrier locked, the ring gear is driven, but transmits drive in reverse.
To achieve direct drive without change of speed or direction of rotation, the sun is locked to the ring gear and the whole unit turns as one.
A torque converter is a fluid coupling that acts like a clutch, except that drive is by hydraulic pressure.
The converter has three main components - the impeller, bolted to the flywheel; the turbine, connected to the gearbox input shaft; and the central reactor between the two, which has a one-way clutch called a freewheel.
As the engine speed is increased, the centrifugal force acting on the hydraulic fluid via the impeller vanes transmits the torque, or turning effort, to the turbine.
The central reactor converts this turning effort by redirecting the flow of fluid back to the impeller to give higher torque at low speeds.
Once the engine speeds up and develops more power, the need for this torque amplification decreases and the reactor freewheels. The torque converter then acts as a fluid flywheel, connecting engine to gearbox.
The main components of a torque converter are shown in the diagram - the impeller, reactor (or stator) and turbine.
The smaller diagrams show the direction taken by the hydraulic fluid under centrifugal forces.
The same effect can also be achieved by locking the planet gears to the planet carrier.
Most automatic gearboxes have three forward speeds, and use two sets of epicyclic gears.
The locking sequences of the epicyclic gear train are achieved by hydraulic pressure operating brake bands or multi-plate clutches.
The bands are tightened round the ring gear to prevent it turning, and the clutches are used to lock the sun gear and planets.
The correct sequence of pressure build-up and release is controlled by a complex arrangement of hydraulic valves in conjunction with sensors that respond to engine load, road speed and throttle opening.
A mechanism linked to the throttle - known as a kickdown - is used to effect a change-down for rapid acceleration. When you press down the accelerator suddenly to its full extent, a lower gear is selected almost instantly.
Most automatic gearboxes have an override system so that the driver can hold a low gear as required.
Automatic gearboxes vary widely in design and performance, and knowing what type your car has can be tricky. We’re here to help you tell your CVT from your DSG..
Automatic gearboxes aren’t exactly new. In fact, it could be argued that the very first production car, the 1886 Benz Patent Motorwagen, had one; it certainly didn’t have a clutch pedal. What’s certain, though, is that they’re now offered in any kind of car you could mention.
In fact, last year cars with automatic gearboxes outsold manual models for the first time. Of the 1.63 million new cars registered in the UK, 915,812 were automatics; that’s 56% of the total. And with electric and hybrid cars making up many of the best sellers, it’s evident that the automatic takeover is only just getting started.
There are other reasons why car makers are falling out of love with manual gearboxes. They cost a lot to develop at a time when demand is diminishing, and they are no longer necessarily greener or more fuel efficient than automatics – partly because the latter can be controlled by computer to change gear at precisely the right time to achieve the best economy and lowest emissions.
But while every automatic gearbox does basically the same thing, there is a baffling array of different types. And with manufacturers dreaming up brand names for their own particular offerings, it’s becoming rather confusing to work out what’s what. So, read on for our guide to the mysterious world of effort-free cog-swapping.
Torque converter automatic
Also known as Geartronic, G-Tronic, Steptronic, Tiptronic, ZF 8-speed
For Reliable and time-proven; usually smooth and quiet
Against Not particularly efficient; can be sluggish; sometimes pricey to buy
This is the traditional automatic gearbox that you would have found in pretty much every car without a clutch pedal 30 years ago. And it’s still very common today, particularly in executive and luxury cars, such as the BMW 7 Series as well as many larger SUVs.
The term ‘torque converter’ refers to the component that transmits power from the engine to the gearbox itself – like the clutch does in a manual car. But rather than having an actual, physical connection, as is the case with a clutch, the torque converter uses thick hydraulic fluid to transfer drive from the engine to the gearbox. It’s this fluid link that enables torque converter automatic set-ups to change gear smoothly.
This technology has been around for long enough to have been made very dependable. The downside is that the torque converter isn’t actually a very efficient way of transferring the engine’s power. As a result, this type of gearbox can be a little heavier on fuel than others, and the way it operates can give rise to tardy gearchanges.
You can still take control yourself, though; many systems provide the option to select gears manually, either using the gear selector or paddles behind the steering wheel. However, you’re rarely acting on the gearbox directly; you’re just giving it an electronic command. Some are more immediately obedient than others, but they mostly do what you ask.
Dual-clutch automatic
Also known as Direct-shift gearbox (DSG), dual-clutch transmission (DCT), PowerShift, S tronic, Porsche-Doppelkupplungsgetriebe (PDK)
For Very quick to change gear; quite fuel efficient
Against Can be jerky in use; mechanical complexity can make repairs expensive
Dual-clutch automatic gearboxes began to appear in road cars in 2003, notably in the Audi TT and Volkswagen Golf R32, and can now be found in all classes of cars, from small hatchbacks such as the Volkswagen Polo to the likes of the Porsche 911 sports car.
In fact, a growing number of new cars are available only with a dual-clutch ’box, including the mild hybrid versions of the Seat Leon and Volkswagen Golf. Part of the reason is that they’re very efficient. However, they’re also very complicated.
They work on a similar principle to a single-clutch automated manual (more about which later) but, as the name suggests, use two clutches.The idea is that they can line up the gear they think you’re going to need next on one clutch while the other is still being used to drive the car, and this enables extremely quick gearchanges.
2 Speed Gearbox For Trucks
However, because of how they work, dual-clutch automatics tend to be jerkier than torque converter units at lower speeds. They can also be a bit too keen to get into the higher gears quickly, leaving the car in the wrong gear to provide the best acceleration for overtaking. However, to help counter this, most also allow the driver to change gear manually, often with shift paddles behind the car’s steering wheel.
Their complexity is another downside; in recent years, older units have gained a reputation for poor reliability and some owners have reported theirs as needing costly repair work.
CVT automatic
Also known as e-CVT, Xtronic
For Mechanically simple and reliable; fuel efficient
Against Tends to be noisy; can be sluggish; little scope for manual control
The continuously variable transmission (CVT) is unusual in that it doesn’t use a series of cogs for gears like a traditional gearbox. Instead, it works a bit like the gears on your bicycle.
Inside a CVT gearbox you’ll find two cone-shaped pulleys – one connected to the engine and the other driving the wheels, linked by a belt. The pulleys expand and contract in diameter continuously as you accelerate or decelerate, and that alters the gear ratio.
Because the gearing is adjusted infinitely between the highest and lowest ratio, the engine is kept in its power band when you accelerate, rather than dropping in and out of the engine’s most efficient rev range, as is the case with other types of gearbox. What’s more, because there are no fixed gears, there are no gearchanges – and that means smooth acceleration without any jolts.
Automatic Gearbox Repairs
However, the downside is that, because the engine is held at peak power as you accelerate (normally at higher revs), CVT gearboxes can make cars rather noisy, especially if the engine is a bit weedy and needs to be revved harder to pull you along.
Toyota uses a more sophisticated gearbox, called e-CVT, in the Prius hatchback and RAV4 SUV, that replaces the belt and pulleys with two electric motor-generators. One is used to start the engine and act as a generator to charge the hybrid battery, while the other acts as a drive motor on its own or in conjunction with the engine. The system also enables the car to be driven in pure electric mode by mechanically decoupling the petrol engine.
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Automatic Gearbox How It Works Automechanika
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