Toyota's VVT-i System Explained
Any mechanic or automotive enthusiast can tell you that an engine is essentially a large air pump. The more an engine can suck in air to mix with fuel, the more it can create power through combustion. Thus, the more efficiently an engine removes exhaust gases from the cylinders, the better it can manage that power. The key to a strong, healthy engine is adequate air from one end to another.
Many different things can affect air flow in a motor, but the primary control over the volumes of air entering a cylinder, and exhaust leaving it, comes from the valves in the cylinder head. The intake valves open immediately before combustion to allow air to flow in and combine with the fuel. After this mixture has been ignited, the exhaust valves open and suck out the resulting gases. Valve timing is controlled by the camshaft, which is a rotating shaft with lobes pushing up on the valves to open them, then drop them closed again.
How long these valves remain open, and at what point in the combustion cycle, can have a big impact on the drivability and power generated by an engine. For instance, if you want to have a really fast car, like a race car, you'll want the engine to produce a lot of power at high RPMs. You can adjust the camshaft to perform well at higher RPMs. This will result in poor performance at low RPMs, but that's OK with a race car. Conversely, if you want a lot of low-end torque - which is great for towing - you need to adjust the camshaft to perform well at low RPMs. This, of course, will hurt high RPM performance.
Unfortunately for street vehicles, they need to be a compromise between reliability, fuel efficiency and power. Vehicles like race cars, which perform within a specific range of RPM, can afford to have poor performance outside their optimal RPM, in return for large amounts of power and high performance at their ideal RPM range. Street vehicles, however, need to function over a large range of RPMs. It would be no good if your street car stalled at every traffic light or ran out of steam whenever you tried to take the highway! Regular vehicles need to use a camshaft design that provides adequate power in the most often used range of RPMs.
These types of camshafts obviously aren't too efficient. Since they're trying to do everything adequately, they don't really do any one of them superiorly. Your engine needs to be able to perform just as well accelerating from a stop as it does speeding down the highway, which means that much of the time, it's burning too much fuel and also underperforming.
Automakers know about this problem, and have created something called "variable valve timing" (VVT) in response. The Toyota Tundra's i-Force 5.7L V8, Toyota's newest VVT-i engine, can use engine oil pressure to move the camshaft slightly, so that the timing of the valves can be adjusted in relation to engine speed. This way, more aggressive lobe designs can be used when the engine is working at a higher RPM. The VVT system allows the i-Force V8 to run a camshaft profile that gives good fuel efficiency in regular driving, but that can also crank up the power when it's called for.
The dual VVT-i in the Toyota Tundra goes even further - at high RPMs, it allows the exhaust and intake valves to open at the same time, which scavenges airflow as much as possible. The result? A V8 engine that can produce 381 horsepower at 5600 rpm, but also generate 401 lb-ft of torque at as little as 3600 rpm. And what's more, the 2 wheel drive Tundra can still get a respectable 20 miles per gallon on the highway. Possibly the best part about Toyota's variable valve timing system is getting killer horsepower without getting killed at the pump.
Article Source: http://www.search-raven.com
About the Author
The author Jason Lancaster administrates TundraHeadquarters.com, a web site with information, news, and reviews of Toyota Tundra parts and Tundra accessories.
This article is licensed under a Creative Commons Attribution - No Derivative Works 3.0 Unported License, which means you may freely reprint it, in its entirety, provided you include the author's resource box along with LIVE links (without "nofollow" tags).
by: JasonLancaster
Total views: 14
Word Count: 652
Rating: Not yet rated