Anti-lag system Sound Cip

Anti-lag is a very interesting technology that came about in the 1980s, when turbocharging became standard in rally cars. To fully explain it, first I have to explain what lag is, and why it occurs.

An engine is an air pump, and the more air that goes into a motor, the more power it will make. The primary factors that determine how much air is flowing through an engine are displacement and RPM (although in reality it is much more complicated). So for example, as engine speed increases, so does the amount of air that goes through the motor. The same goes for displacement. So, if we want more power, we need more air to go through the motor. Eventually we will end up at a point where adding displacement or revs creates a motor that is either too heavy or too expensive. This is where forced induction, and the turbocharger comes in.

A turbocharger is a compressor spun by exhaust gasses. The purpose is to both reclaim some of the lost energy from the exhaust, increasing efficiency, and to increase the pressure of the intake air. Forcing more air into the motor means that you can make more power with less displacement.

The downside is that it takes some time for the turbo to get going, especially when you are using a large turbo to make a lot of power out of a small displacement engine. Until the engine is moving enough air to spin the turbo, you're stuck with a low displacement motor with low compression and no boost. This is called turbo-lag. In some cases you can compensate for the lag by increasing the revs to give you a larger in-boost powerband, but higher engine speeds mean much higher stress on the engine components. Additionally, many racing classes require the use of an intake restriction, which limits the amount of air that can be drawn in, and therefore limits the maximum power and rpm that can be achieved.

The most simple form of anti-lag, used in the 80s, was to never lift off the throttle. This mean significant wear on the brakes and transmission, given that cars of the time were making over 600hp in some cases. Soon, systems were created to keep the turbo on boost even when the throttle was lifted.

To make the maximum possible power, it's necessary to have the turbo providing boost before the engine is actually capable of flowing that much air. The simple way to do this is to increase the idle speed, dump a bunch of fuel, and then wait until the super-rich air fuel mixture is on the way out the cylinder before igniting it. So, instead of having the combustion event force the piston down to make power, it explodes going into the turbo, creating boost.

As you might imagine, having the combustion occur in the exhaust is bad for the exhaust valves, exhaust manifold, and turbocharger. It sounds a little something like this:

Category:

Education

Tags:

• 80s
• 90s
• Anti
• lag
• system

License:

Standard YouTube License