You might not know that ATTS, or Active Torque Transfer System, is a technology that helps cars perform better by controlling how power is distributed between the front and rear wheels.
ATTS ensures the best grip and stability by automatically sending power to the wheels with the most traction, which is especially useful in tough driving conditions.
This system constantly checks traction levels to prevent wheels from slipping, making it very useful for SUVs and trucks.
So, how does ATTS manage power so smoothly, and what else can it be used for?
Definition and Purpose
The Automatic Torque Transfer System (ATTS) is built to improve your vehicle’s performance by automatically shifting power between the front and rear wheels. This ensures your car has the best grip and stability in various driving conditions.
ATTS improves power management by sending more power to the wheels with the most traction, helping your vehicle stay in control. This system works independently without needing any input from the driver.
By constantly checking the traction of each wheel, ATTS reduces wheel slip, especially in tough situations. It’s particularly useful for SUVs and trucks, enhancing their stability and handling.
In short, ATTS helps your vehicle maintain excellent traction and stability, making your driving experience safer and more controlled.
How ATTS Works
Ever wondered how ATTS helps keep your car stable and gives you better traction while you drive?
ATTS uses smart technology to monitor each wheel’s grip. If one wheel starts to slip, the system quickly sends more power to the wheels with better grip. This happens automatically, so you don’t have to do anything.
Sensors constantly send information to a central computer, which makes quick decisions to adjust power. ATTS does this to help prevent wheel slip, improve handling, and keep your car stable.
In simple terms, ATTS is a smart system that manages power to make your driving safer and smoother in different conditions.
Advantages and Applications
Let’s look at how ATTS, which automatically manages power distribution, benefits modern vehicles and where it’s commonly used.
One of ATTS’s main advantages is that it makes cars more stable and improves traction, especially in tough conditions. This system sends power to the wheels with the best grip, reducing slipping and improving handling.
For off-road driving, ATTS really stands out by helping vehicles handle tough terrains like mud, snow, and rough roads without needing any manual adjustments.
ATTS is often found in SUVs and trucks, but it’s also used in high-performance and luxury cars to enhance driving dynamics and comfort.
The flywheel stores rotational energy from the engine and provides smooth power delivery. Changes in transmission strategy can alter the flywheel’s workload, affecting its performance during shifts.
ATSS can influence fuel delivery demands by adjusting shift points for performance or efficiency, which can impact the fuel pump’s output and operation.
The friction clutch engages and disengages the engine from the transmission. ATSS modifies how the clutch engages based on driving conditions, directly affecting clutch wear and efficiency.
ATSS can optimize fuel injection timing and delivery based on shifting strategy, influencing how GDI systems operate under different loads and driving conditions.
ATSS can adjust the interaction between the internal combustion engine and the electric motor in hybrid systems, optimizing power delivery and fuel economy.
Changes in shift strategy affect how power is delivered to the wheels, influencing load distribution and gross axle weight during acceleration and deceleration.
ATSS can alter shift patterns for fuel efficiency, particularly at highway speeds, optimizing fuel consumption and improving overall highway fuel economy.
