The document discusses control systems in automobiles, specifically focusing on electronic control units (ECUs) and knock sensors. It provides details on how ECUs act as the "brain" of a vehicle by collecting sensor data to control engine functions like fuel injection and spark timing. Knock sensors detect engine knocking through vibrations and send signals to the ECU to optimize ignition timing and prevent damage. Microcontrollers play an important role in both ECUs and knock sensors to process signals and precisely manage engine performance and emissions.
2. ECU:The Brain of your vehicle
• ECU stands for electronic control unit.
• It is a generic term for any embedded system that controls
one or more of the electrical system or subsystems in a motor
vehicle.
• A modern ECU contains a 32-bit, 40-MHz processor.
3. • It collect data from different sensors, it knows everything from
the coolant temperature to the amount of oxygen in the exhaust.
• With this data, it performs many calculations and decides the
best spark timing and determining how long the fuel injector is
open.
• The code in an average ECU takes up less than 1MB of memory.
• It uses closed-loop control, a control scheme that monitors
outputs of a system to control the inputs to a system, managing
the emissions and fuel economy of the engine.
4. ECU COMPONENTS
Th-e processor is packaged in a module with hundreds of
components on a multi-layer circuit board. Some of the
components in the ECU that support the processor are:
Analog-to-digital converters - These devices read the
outputs of the sensors in the car, such as the oxygen sensor.
The output of an oxygen sensor is an analog voltage. The
processor only understands digital numbers, so the analog-
to-digital converter changes this voltage into a 10-bit digital
number.
High-level digital outputs - On many modern cars, the ECU
fires the spark plugs, opens and closes the fuel injectors and
turns the cooling fan on and off. All of these tasks require
digital outputs. A digital output is either on or off, there is
no in-between.
5. • Digital-to-analog converters - Sometimes the ECU has to provide an
analog voltage output to drive some engine components. Since the
processor on the ECU is a digital device, it needs a component that
can convert the digital number into an analog voltage.
• Signal conditioners - A signal conditioner is a circuit that adjusts the
level of the signals coming in or out. For instance, if we applied a
signal conditioner that multiplied the voltage coming from the oxygen
sensor (0V to 1.1V) by 4, we'd get a 0V to 4.4V signal.
• Communication chips - These chips implement the various
communications standards that are used on cars. This communication
standard allows for communication speeds of up to 500 kilobits per
second (Kbps).This speed is becoming necessary because some
modules communicate data onto the bus hundreds of times per
second.
7. OBJECTIVES
Power output
Fuel efficiency
Emissions performance
Engine tuning
Driveability and smooth operation
8. Strict emission standards require precise fuel delivery.
Computers used to calculate fuel needs.
EFIS is very precise, reliable & cost effective.
EFI provide correct A/F ratio for all loads, speeds, & temperature ranges.
14. Overview
What is Knock Sensor
Micro Controller application in Knock Sensor
15. What is knocking?
What are Knocks?? - high frequency
vibrations caused by detonation, or
the premature burning of fuel
inside an engine's cylinders
16. How can it be prevented?
Why do we care?? - Knocks can rob
power from the engine and worst,
destroy the engine itself.
How can we prevent knocking?? –
lower compression ratio, higher
octane fuel, change driving habits
or……
MICRO-CONTROLLERS
17. The Sensor
Knock Sensors generate a voltage
when vibration is applied to them
utilizing the piezoelectric effect
Generated voltage is proportional
to the acceleration
Due to the vibration, a counter
weight inside the sensor is applying
pressure on the piezo element, this
pressure creates an electric charge
in the piezo element which is the
output signal of the sensor.
Tuned to engine knock frequency
(typically 6-8kHz)
18. Location of Knock Sensor
The knock sensor is located on
the engine block, cylinder
head, or the intake manifold.
This is because the function of
this sensor is to sense
vibrations an engine creates.
The ECU uses this signal to
alter the ignition timing and
prevent detonation.
It will compare this
information with its preset
tables to identify an engine
knock.
19. Knock Sensor Circuit
Once signs of detonation are detected (i.e. knocking), the knock sensor
sends a voltage signal to the engine management computer which retards
the spark timing slightly to avoid detonation.
20. Benefits
Vehicle engines work more efficiently and produce more power when
operating near the detonation limit.
Although simple, knock sensors allow optimum engine performance and
protect the engine from potential damage caused by detonation.