Automotive Engineering; Digital Powertrain Control Systems

A detailed description on the Role of electronics in Electronic Engine and powertrain

Traditionally, the term powertrain has been used to include the engine, transmission, differential, and drive axle/wheel assemblies. With the advent of electronic controls, the powertrain also includes the electronic control system (in whatever configuration it has).

What you’ll learn

  • Role of Electronics in Engine/Powertrain control.
  • Various control mode of the Engine.
  • EGR Electronic Control.
  • Variable Valve timing & Electronic Ignition Control.

Course Content

  • Introduction –> 2 lectures • 8min.
  • Section 2 –> 4 lectures • 35min.
  • EGR Control & Engine subsystems integration –> 4 lectures • 21min.

Automotive Engineering; Digital Powertrain Control Systems

Requirements

  • Basic knowledge of IC engines, Mechanical Engineering, Automobile Diploma , Automobile engineering.

Traditionally, the term powertrain has been used to include the engine, transmission, differential, and drive axle/wheel assemblies. With the advent of electronic controls, the powertrain also includes the electronic control system (in whatever configuration it has).

In addition to engine control functions for emissions regulation, fuel economy, and performance, electronic controls are also used in the automatic transmission to select shifting as a function of operating conditions.

Moreover, certain vehicles employ electronically controlled clutches in the differential (transaxle) for traction control. Electronic controls for these major powertrain components can be either separate (i.e., one for each component) or an integrated system regulating the powertrain as a unit.

This latter integrated control system has the benefit of obtaining optimal vehicle performance within the constraints of exhaust emission and fuel economy regulations. Each of the control systems is discussed separately beginning with electronic engine control.

In this course we will discussing the various control modes in which the powertrain is operated.

For a typical engine, there are at least seven different engine-operating modes that affect fuel control: engine crank, engine warm-up, open-loop control, closed-loop control, hard acceleration, deceleration, and idle. The program for mode control logic determines the engine-operating mode from sensor data and timers. All the above modes will be discussed in detail.