How Automatic Transmission Work?

Automatic Transmission

Most automobiles use a form of automatic transmission called a hydraulic planetary automatic transmission, which is also used in a scaled-up version in some industrial and commercial equipment and heavy-duty vehicles.

According to Meineke, most automobiles use a form of automatic transmission called a hydraulic planetary automatic transmission, which is also used in a scaled-up version in some industrial and commercial equipment and heavy-duty vehicles. The friction clutch is replaced by fluid coupling and the system defines a set of gear ranges depending on the needs of the auto. When you put the vehicle in park, all the gears lock to prevent the car from rolling forward or backward.

A less common option is automated manual transmission (AMT). Sometimes called a semi-automatic transmission, this model pairs the clutches and gears of a manual transmission with a set of actuators, sensors, processors, and pneumatics. AMTs operates like an automatic while providing the affordability and fuel-saving benefits of a manual transmission. With this type of transmission, the driver can manually shift gears or opt for automatic shifting. Either way, he or she does not need to use the clutch, which is operated by a hydraulic system.

History of the Automatic Transmission

General Motors and REO both released semi-automatic vehicle transmissions in 1934. These models posed fewer challenges than the traditional manual transmission but still required the use of a clutch to change gears. The GM transmission was the first of its kind to use a hydraulically controlled planetary gearbox, allowing the gears to shift depending on the vehicle’s travel speed.

The planetary transmission was one of the most important developments on the road to a modern automatic transmission. Although GM was the first to use the version with hydraulic controls, this technology dates to a 1900 invention by Wilson-Pilcher. That innovation consisted of four forward gears on two trains that could be shifted with a single lever.

Operation of an Automatic Transmission

The most common type of automatic transmission uses hydraulic power to shift gears. According to How Stuff Works, this device combines a torque or fluid coupling converter with gearsets that provide the desired range of gears for the vehicle. The torque converter connects the engine to the transmission and uses pressurized fluid to transfer power to the gears. This apparatus replaces a manual friction clutch and lets the vehicle come to a complete stop without stalling.

Information from Art of Manliness depicts the operation of an automatic transmission. As the engine transmits power to the pump of the torque converter, the pump converts this power into transmission fluid that powers the turbine of the torque converter. This apparatus increases the power of the fluid and transmits even more power back to the turbine, which creates a vortex power rotation that spins the turbine and the attached central shaft. The power created by this rotation is then transmitted from the shaft to the transmission’s first planetary gear set.

This type of transmission has what is called hydraulic control. The transmission fluid is pressurized by an oil pump, which allows the speed to change depending on the vehicle’s speed, tire revolutions per minute, and other factors. The gear pump is placed between the planetary gearset and torque converter, where it pulls and pressurizes transmission fluid from a sump. The pump input leads directly to the housing of the torque converter attached to the flexplate of the engine. When the engine is not running, the transmission does not have the oil pressure needed to operate and thus the vehicle cannot be push-started.

The planetary gear train is a mechanical system in which the gears are connected with a set of bands and clutches. When the driver changes gears, the bands hold one gear still while rotating another to transmit torque from the engine and increase or decrease gears.

The different gears are sometimes called the sun gear, the ring gear, and the planetary gear. The arrangement of the gears determines how much power will flow from one gear to another and out to the drive train of the vehicle when you shift.

Gears of an Automatic Transmission

The gears of an automatic transmission include the following:

  • According to How a Car Works, when you shift your vehicle into drive, you engage all available forward gear ratios. This means that the transmission can move between its full range of gears as needed. Six-speed automatic transmissions are the most common number of gears, but older cars and entry-level compact cars may still have either four or five automatic gears.
  • The third gear either locks the transmission in third gear or limits it to the first, second, and third gear ratios. This provides the power and traction needed to go either uphill or downhill or to tow a boat, RV, or trailer. When the engine reaches a designated level of revolutions per minute (RPM), most vehicles automatically drop the third gear to keep the engine from harm.
  • Second gear either locks the transmission in second gear or limits it to the first and second gear ratios. This gear is ideal for going uphill and downhill in slippery conditions as well as driving during ice, snow, and other types of inclement weather.
  • First gear is used when you want to lock the transmission in first gear, although some vehicles will automatically switch out of this gear to protect the engine at a certain RPM. Like second and third gear, this gear is best used for towing, driving uphill or downhill, and when traveling during slippery, icy conditions.

Advantages of an Automatic Transmission

According to How Stuff Works, the biggest advantage of an automatic transmission is the ability to drive without the need for a clutch as is required with a manual transmission. Individuals with many disabilities can drive using an automatic since operation only requires two usable limbs.

The lack of a clutch also eliminates the need to pay attention to shifting manually and monitoring the tachometer to make the necessary shifts, which gives you more attention to focus on the task of driving.

Many drivers also find it easier to control an automatic transmission at low speeds than a manual transmission. The hydraulic automatic transmission creates a phenomenon called idle creep, which encourages the vehicle to move forward even when idling.

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