EPV systems are commonly found on Formula One engines and EHV systems are being employed by the engines on BMW vehicles. Existing EPV and EHV systems generally eliminate the spring mechanism but still employ the cam. EPV and EHV use electric solenoids to control the flow of compressed air or hydraulic fluid to the valves at the appropriate time. Three of these methods are electro-pneumatic valves (EPV), electro-hydraulic valves (EHV), and electromagnetic valves (EMV). There are other mechanical/electrical methods that come one step closer to eliminating the camshaft altogether. Another approach to variable valve timing employs a cam phasing mechanism to monitor and adjust the rotation of the camshaft relative to the rotation of the crankshaft. An electronic control unit (ECU) selects which set of lobes to use based on the engine speed. As the camshaft rotates, the lobes push open the spring-loaded valves, which are then closed by the force of springs. The camshaft may have two sets of lobes where one set is designed for low and the other for high RPMs. Sometimes two camshafts are used, one to control the intake valves and the other to control the exhaust valves. Most existing systems manipulate the valve timing using a computer controlled actuator attached to the camshaft. Variable valve timing can significantly increase both the power and fuel efficiency of an internal combustion engine.Įlectronic valve control (EVC) systems attempt to optimize the valve timing over the entire range of possible engine speeds. There are several methods for changing the valve timing such as using multiple camshafts or eliminating the camshaft altogether, altering the timing of the intake camshaft, and controlling the valve timing with electronic, hydraulic or pneumatic actuators. Conversely, if optimized for high RPMs, the vehicle would experience rough idling at low RPMs. For example, if a camshaft is designed to operate the valves for optimal timing at low RPMs, then at higher RPMs each cylinder would be deprived of sufficient fuel and air mixture, limiting the engine power output. In an engine with fixed valve timing, the timing is not optimal for all engine speeds. The shape of these lobes determines the lift, timing and duration of each valve opening. In most engines, the valves are opened by lobes connected to the camshaft. The valves in an internal combustion engine open and close to allow both the fuel-air mixture to enter the cylinder prior to combustion and to allow the exhaust gases to exit the cylinder after combustion. Electronic Valve Timing Control Basic Description
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