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Automotive Wave forms. Oscilloscope's An oscilloscope can be a priceless price of test equipment used for observation of electrical/electronic wave patterns.

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Presentation on theme: "Automotive Wave forms. Oscilloscope's An oscilloscope can be a priceless price of test equipment used for observation of electrical/electronic wave patterns."— Presentation transcript:

1 Automotive Wave forms

2 Oscilloscope's An oscilloscope can be a priceless price of test equipment used for observation of electrical/electronic wave patterns.

3 Oscilloscope's To properly use an oscilloscope you must understand the scale selections. Must automotive oscilloscope will automatically adjust to the proper scale. It’s the technician job to interpret the reading and determine if the wave form is normal or defective. Not all devices operate in the same manner please check manufactures specifications before replacing any sensor.

4 Oscilloscope's Oscilloscope are used to measure voltage over a period of time. An event that happens over a period of time is called frequency and in measured in Hertz per second. 1 Second Scale TIME VOLTAGEVOLTAGE 20 15 10 5 0 5 10 15

5 VOLTAGEVOLTAGE 10 5 0 5 10 1 Second scale 12.2 filter DC voltage 6 – 9 volts unfiltered DC voltage 4 Volts Peak to Peak AC Voltage Grid lines

6 Oscilloscope's Filtered voltage: A smooth supply of voltage. Unfiltered voltage: Normally a ripple type wave pattern.

7 Oscilloscope's An AC wave form change direction from positive to negative. Peak voltage: is the voltage from the highest positive voltage to the lowest negative voltage reading. +5 0 -5

8 Peak Voltage Peak to Peak voltage is determine by multiplying: Grid division x voltage setting = Peak to peak voltage

9 Oscilloscope's Oscilloscope can be used to measure an event over a period of time.  Frequency: Number of complete cycles per second measured in hertz (Hz).  Hertz (Hz): Unit of measurement for frequency. 1 hertz equal 1 cycle per second.

10 Oscilloscope's To check frequency you may need some math. Number of grid lines covered for 1 cycle divided by the time scale.

11 Wheel speed sensor The Anti-lock Braking System (ABS) relies upon information coming in from speed sensors. The wave form produced is used by the ABS control module to determine if wheel lock-up is occurring.

12 Two ABS wave forms. Both are good the difference is the meter set-up

13 12 V O L T S C A L E 5 mS Time Scale NORAM ABS PATTERN

14 10 mS Time Scale Normal ABS Pattern 12 V O L T S C A L E 10 mS 2 Volts

15 Throttle Position Sensor A throttle position is normally produces an analog signal. The throttle position is normally used to tell the PCM the position of the throttle Analog signal: an electrical signal that varies in strength.

16 200 mS Time Division 543210543210 Normal Throttle Position Wave Form Most throttle position can be easily seen on the 200 mS scale Throttle Held open Throttle Snapped

17 Good TPS Sensor

18 Electronic Throttle Good Trace

19 200 mS Time Division 543210543210 Normal Throttle Position Wave Form Most throttle position can be easily seen on the 200 mS scale Defective TPS

20 Air Flow Meters The voltage output from the internal track of an Air Flow Meter (AFM) should be linear to flap movement, This can be measured on an oscilloscope

21 MASS AIR FLOW METER The waveform should show approximately 1.0 volt when the engine is at idle, Voltage will rise as engine when engine speed is increased. A peak voltage of around 4.5 is normal due to natural inertia. Voltage will drop and then level off

22 Normal Pattern

23 Spike due to acceleration Normal fall- off caused by inertia Normal float back to match air flow Throttle Released Around 1 Volt at idle

24 Bad Airflow Sensor

25 Hot Wire Air flow Meters 543210543210 At idle around 1 volt normal Voltage spike due to quick throttle opening Cold air cooling of wire Temperature stabilizes Throttle Released 250 mS time division

26 543210543210 A defective Mass Air Flow will have low voltage or operate erratic at all throttle angles. A mass air flow angle should change in relation to throttle angle. 250 mS time division

27 Wave Forms Another common type wave form is the square wave. Most electronic components are controlled by a computer PCM, BCM, ECM, ECU or a host of other names. When the computer turns on a component it usually completes a ground circuit sometime controlling a relay.

28 Square Wave 15 10 5 0 Normal Square wave. NOTE: Any wave that is on more than off or off ore than on is called a pulsed wave. Normal voltage spikes

29 Pulsed Wave Pulsed waves are used to control several electrical components such as:  Fuel pump  Canister solenoids  EGR solenoids Wave length: The time required for on complete cycle of a waveform.

30 Pulsed Wave 20 15 10 5 0. The difference in wave length is caused by circuit demands NORMAL PULSE WAVE Wave length

31 Pulsed Wave 20 15 10 5 0. Bad pulse wave Voltage did not drop properly Voltage did increase properly

32 Coolant Temperature Sensor (CTS) Most coolant sensors are Negative Temperature Coefficient (NTC) devices. The sensor resistance starts out high around 200 Ohms and drops as engine temperature increases.

33 Good CTS wave form 543210543210 50 100 150 200 250 50 second scale VOLTSVOLTS Good CTS waveform

34 Bad CTS wave forms 543210543210 50 100 150 200 250 50 second scale VOLTSVOLTS Bad CTS sensor or electrical connection disconnected waveform Bad CTS erratic voltage pattern

35 Crankshaft Sensor This signal should be test when the engine fail to start due to lack ignition. The crankshaft sensor produces an AC voltage that is low while cranking and increases after the engine starts. AC voltage output is critical, low output can prevent an engine from starting.  Even if the signal pattern look good.

36 Crankshaft Sensor Normal due to missing tooth on reluctor or flywheel. The missing tooth is used by the PCM to determine crankshaft position

37 Crankshaft Sensor Voltage at start-upVoltage at higher cranking RPM NOTE: Operating parameters vary from manufactures

38 Crankshaft Sensor Engine Running: Note the higher voltage

39 Crankshaft Sensor A defective crankshaft sensor will show little or no output on the oscilloscope Proper output voltage is critical. 1.8.6.4.2 0.2.4 Defective Crankshaft sensor Voltage to LOW

40 Knock Sensor A knock sensor is used with some management systems, The Knock sensor is a small piezo-electrical device. That produces electricity when vibrated. Knock sensor are used to reduce ignition timing when a spark knock occurs. Usually no more than 10˚ Knock Sensors

41 Knock Sensor 54321015432101 Point where knock occurred 50 100 150 200 250 300 350 50 mS scale VOLTAGEVOLTAGE NOTE: Knock sensor output should normally be zero

42 Knock Sensor 543210543210 Bad knock sensor pattern 50 100 150 200 250 300

43 Oscilloscope's Its important to remember that all electrical wiring will have some type electrical pattern that can be view on an oscilloscope. Open Circuit NOTE: Voltage is “0” on an open circuit Good ground circuit

44 Oscilloscope's Quiz 1. Technician A says pattern A is DC voltage. Technician B says Pattern B is DC voltage. Who is correct. A. Technician A only B. Technician B only C. Both A and B D. Neither A nor B Pattern A Pattern B

45 Fuel Pump Waveforms Bad Waveform Repaired Waveform

46 Oscilloscope's Quiz 2. How many seconds pass from point A to Pont B? A. 1 B. 2 C. 3 4. 4 1 Second Scale AB

47 Oscilloscope's Quiz 3. Technician A says this pattern is an AC wave form. Technician B says this is DC unfiltered. Who is correct? A. Technician A Only B. Technician B only C. Both A and B D. Neither A nor B 2101221012 2101221012

48 Oscilloscope's Quiz 4. What is peak Negative voltage in this pattern?  A. - 1 volt  B. - 2 volts  C. - 4 volts  D. -.25 volts 2101221012 50 100 150 200

49 Oscilloscope's Quiz 5. What is peak to peak voltage in this pattern?  A. 1 volt  B. 2 volts  C. 4 volts  D..25 volts 2101221012 50 100 150 200

50 Oscilloscope's Quiz 6. The number of complete cycles per second measured is:  A. Amperage  B. Frequency  C. Ohms  D. Voltage

51 Oscilloscope's Quiz 7. Technician A says voltage is measured from point A - B. Technician B says Time is measure from point C-D. Who is correct? A. Technician A only B. Technician B only C. Both A and B D. Neither A nor B ABAB C D

52 Oscilloscope's Quiz 8. What time scale is this oscilloscope set for? A. 2 mS B. 5 mS C. 10 mS D. 100 mS

53 Oscilloscope's Quiz 9. Technician A says the wave form is of a defective TPS (Throttle position sensor) Technician B says the pattern is of a good CTS sensor. Who is correct?  A. Technician A only  B. Technician B only  C. Both A and B  D. Neither A nor B 543210543210 50 Second Scale 50 100 150 200 250

54 Oscilloscope's Quiz 10. Which diagram is of a good ground circuit?  A. 1  B. 2  C. 3  D. 4 12341234


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