Six Star Magazine Six Star Magazine Spring 2015 | Page 30

The strength of FWD is in normal driving While RWD vehicles can perform at a the available traction under hard acceleration conditions, when the front wheels are needed very high level when it comes to acceleration, and when cornering. This characteristic only for gentle power delivery and cornering. there can be other challenges. In cornering, gives the average AWD vehicle the potential Under strong acceleration, weight transfer sees RWD vehicles tend to oversteer, meaning the to be more stable in all conditions. the nose of the vehicle lift and this can lead to back end of the vehicle can slide sideways. torque steer and loss of traction. This can be an alarming situation for the Meanwhile, in the corners, FWD vehicles driver and one that can be difficult to control. tend to understeer; the driver turns the Also, in low-traction conditions, RWD wheel to follow the corner, but the car goes vehicles can become unstable because the straight instead. In slick or loose conditions, rear wheels handle all the power delivery. FWD vehicles can suffer because the front Due to the fact that full-time AWD wheels need to handle power delivery, vehicles are able to divide the power delivery cornering and most of the braking, with responsibilities among all four wheels, significantly less traction available. they have the ability to capture more of Part-time AWD offers part of the solution A part-time AWD system operates in 2WD mode (FWD on most vehicles) most of the time and then automatically switches to AWD when conditions warrant. This type of system was once favoured by some manufacturers because it offered fuel savings over full-time AWD systems. While this may still be true of some manufacturer’s AWD systems, decades of engineering experience and fine-tuning have made Subaru symmetrical full-time AWD systems both lightweight and ultra-efficient. As with 2WD systems, on-demand AWD systems are at their best when the demands are limited. But when conditions require power to be sent to the other two wheels, challenges arise. First, the power-splitting mechanism of the on-demand AWD system is generally limited to helping you get going when starting to accelerate in a low-traction situation. When driving in slick conditions at higher speeds or on a very long and curvy road, the on-demand system can struggle to keep pace with the circumstances. If conditions change suddenly, this system may not be able to react quickly enough to avoid potential hazards. While on-demand systems only respond to a loss of traction, full-time AWD systems are always engaged and always active, making them the most effective and safest solution for all possible driving conditions. These systems are also particularly adept at handling unpredictable driving conditions, when immediate response is critical. Full-time AWD maximizes available traction right from the start by sending power to all four wheels and maintaining power 28 six star magazine