VTEC/VTC System Description (2.0L Engine)
For locations of each component on the vehicle, refer to the Component Location Index - Refer to: Fuel and Emissions Systems Component Location Index(Mexico models) or Fuel and Emissions Systems Component Location Index(Mexico models) .
VTEC
Overview
This VTEC system changes the exhaust valve lift timing and lift height depending on the engine speed and load in order to optimize the fuel efficiency and the engine output. The rocker arm oil control solenoid switches the VTEC system on and off; the solenoid is controlled by the PCM.
Construction
VTEC is composed of the VTEC camshaft, VTEC rocker arm, and rocker arm oil control valve.
Control
Based on the vehicle speed signal, engine speed signal, engine load signal, throttle position signal, and engine coolant signal sent from various sensors, the PCM determines the lift amount and controls the ON/OFF of the rocker arm oil control solenoid.The PCM generates and determines the control amount based on signals from various sensors to subject the rocker arm oil control solenoid to a feedback control.
For locations of each component on the vehicle, refer to the Component Location Index - Refer to: Fuel and Emissions Systems Component Location Index(Mexico models) or Fuel and Emissions Systems Component Location Index(Mexico models)
Operation
At low engine speed
The rocker arm oil control solenoid is turned off by the PCM. Oil pressure from the rocker arm oil control solenoid enters the exhaust secondary rocker arm via the oil port from the exhaust rocker shaft. This oil pressure and the return spring tension push the stopper piston and the VTEC switching pistons. Each exhaust rocker arm is separated by this, and the exhaust primary and the exhaust secondary rocker arms are lifted by the low lift cam lobe.
Rocker Arm Oil Control Solenoid OFF
At high engine speed/high load operation
The rocker arm oil control solenoid is turned on by the PCM. Oil pressure from the rocker arm oil control solenoid enters the exhaust primary rocker arm via the oil port from the exhaust rocker shaft, and it moves the VTEC switching piston in the exhaust primary rocker arm. This causes the VTEC switching piston to slide into the exhaust middle rocker arm and the exhaust secondary rocker arm, locking the secondary, middle, and the primary rocker arms. All exhaust rocker arms are lifted by the high lift cam lobe.
Rocker Arm Oil Control Solenoid ON
VTC
Overview
The VTC system makes continuous intake and exhaust valve timing changes depending on the engine speed, engine load, and vehicle speed.
Control
The VTC system diagram is as follows.The PCM advances or retards the valve timing based on the data from various sensors, and performs feedback-control to the VTC oil control solenoid valves.
Operation
Advance Rotation Operation
When the advance chamber is charged with pressured oil from the VTC oil control solenoid valve, the camshaft rotates to the advanced side. When there is no oil pressure (engine is stopped), the VTC actuator B is locked in the most advanced position by the return spring and the lock pin.
Intake Side (VTC Actuator A, VTC Oil Control Solenoid Valve A)
Exhaust Side (VTC Actuator B, VTC Oil Control Solenoid Valve B)
Retard Rotation Operation
When the retard chamber is charged with pressured oil from the VTC oil control solenoid valve, the camshaft rotates to the retarded side. When there is no oil pressure (engine is stopped), the VTC actuator A is locked in the most retarded position by the lock pin.
Intake Side (VTC Actuator A, VTC Oil Control Solenoid Valve A)
Exhaust Side (VTC Actuator B, VTC Oil Control Solenoid Valve B)