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Ford EEC IV

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Ford EEC IV Operation and Testing Overview ECT MAP/BARO TPS CKP/CMP O2S EGR Position ACT KS BOO AC Power Steering Operating Modes Base Engine Strategy MPG Lean Cruise ... – PowerPoint PPT presentation

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Title: Ford EEC IV


1
Ford EEC IV
  • Operation and Testing

2
Overview
A/F Mixture Ignition Timing Idle Speed Thermactor
Airflow Canister Purge EGR Flow TCC AC Fan WOT
Cut Off Inlet Air Temp Fuel Pump Relay Turbo
Boost
  • ECT
  • MAP/BARO
  • TPS
  • CKP/CMP
  • O2S
  • EGR Position
  • ACT
  • KS
  • BOO
  • AC
  • Power Steering

PCM
3
Operating Modes
  • Base Engine Strategy
  • MPG Lean Cruise
  • Modulator Strategy
  • Limited Operational Strategy
  • Adaptive Strategy

4
Base Engine Strategy
  • Used to control warm engine running
  • Open Loop starts at 130o
  • Warm up mode sub modes
  • Cranking
  • Closed-throttle
  • Part throttle (closed loop)
  • Wide-open throttle (WOT)
  • PCM controls actuators for good driveability

5
MPG Lean Cruise
  • Some engines beginning 1988
  • Certain criteria are met
  • Goes out of closed-loop fuel control
  • Very lean for economy at cruise

6
Modulator Strategy
  • Conditions that require significant change from
    Base Engine Strategy
  • Cold engine
  • Overheated engine
  • High altitude

7
Limited Operational Strategy
  • Component Failure
  • Protect other components
  • Converter
  • Substitute values from another sensor
  • MAP TPS
  • ECT IAT
  • EGR Disable EGR

8
Adaptive Strategy
  • Started in 1985
  • PCM has base map
  • Monitors operation and modifies base map
  • Compensates for wear etc.
  • Dirty Injectors
  • Are in response to O2S
  • Stored in KAM

9
Adaptive Strategy
10
Adaptive Strategy
11
Adaptive Strategy
12
Adaptive Strategy
13
Inputs
A/F Mixture Ignition Timing Idle Speed Thermactor
Airflow Canister Purge EGR Flow TCC AC Fan WOT
Cut Off Inlet Air Temp Fuel Pump Relay Turbo
Boost
  • ECT
  • MAP/BARO
  • TPS
  • CKP/CMP
  • O2S
  • EGR Position
  • ACT
  • KS
  • BOO
  • AC
  • Power Steering

PCM
14
Engine Coolant Temp
  • Thermistor
  • Voltage to PCM is 4.5 cold to .3 hot
  • Resistance 470K? cold to 1k? hot
  • Influences PCMs calibrations for
  • A/F Raito
  • Idle Speed
  • Thermactor Air
  • Canister Purge
  • Choke Voltage, Temp compensated accel pump
  • Upshift light

15
Pressure Sensors
  • MAP, BARO
  • Pressure-sensitive capacitor
  • Convert to frequency out
  • 100 Hz no load Idle
  • 159 Hz atmospheric (WOT)
  • Voltage will go from 0 to 5 at the frequency
    above

16
Pressure Sensors
  • MAP used for BARO
  • PCM uses Key On before cranking and WOT for BARO
    calculations.
  • BARO used with Vane Airflow Sensors
  • Looks like MAP with collar

17
Throttle Position Sensor
  • Some adjustable, some not
  • Potentiometer
  • 3 wires, 5v reference, ground, signal
  • Two common problems
  • Bad spot, signal dropout
  • Bad ground
  • Full reference on signal
  • Biased high

18
Profile Ignition Pickup (PIP)
  • Hall Effect Switch
  • Engine speed and crank position
  • In distributor
  • One vane narrower for location

19
Profile Ignition Pickup (PIP)
  • On DIS sensor is on front of engine
  • One vane for each pair of companion cylinders
  • Most PIP signals go from .4v or less to battery
    voltage at 10o BTDC

20
Cylinder Identification (CID)
  • Used with Distributorless Ignition
  • PIP doesn't know which stroke
  • Driven at cam speed
  • Also usedfor SFI

21
4 Cylinder PIP CID
  • On DIS, 1 4 fire together
  • CID is on crank with PIP

22
Ignition Diagnostic Monitor
  • Used on TFI systems
  • Checks to see that spark occurred
  • Wire with 22k? from Tach wire to PCM
  • Makes sure SPOUT command is carried out
  • Makes sure timing advance is working

23
Knock Sensor (KS)
  • Piezoelectric type
  • Vibration sends signal to PCM
  • PCM retards timing 1/2o per engine revolution

24
Intake Air Temp Sensor (IAT)
  • Was called Air Charge Temp (ACT) before OBDII
  • Thermistor
  • Voltages and resistance same as ECT
  • A/F and advance
  • Used on most Fords

25
EGR Position (EVP)Feedback (PFE)
  • EVP Linear Potentiometer
  • only monitors position
  • EVP Black and White physically interchangeable
  • PFE is like MAP but gives a voltage
  • Measures exhaust pressure under EGR valve
  • PFE measures flow used to
  • Fine tune EGR position
  • Fine tune A/F ratio
  • Modify ignition timing

26
Vane Air Flow (VAF)
  • Used with VAT and BP to calculate Speed Density

27
Mass Airflow MAF
  • Beginning in 1988
  • Uses sample tube
  • Uses hot wire
  • Encased in Glass
  • 200o above ambient
  • A/F and Timing

28
Transmission Switches
  • PCM knows if in gear, park or neutral
  • Affects Idle air control strategy
  • For A/T because converter loads engine
  • Response to rapid throttle closing

29
Transmission Switches
  • AXOD uses 3 switches
  • Neutral Pressure NPS
  • Trans Hydraulic THS 3-2
  • Trans Hydraulic THS 4-3
  • AXOD Trans Temp TTS opens over 275oF
  • Will apply TCC if temps get high like uphill climb

Can tell which gear except if it is in 1 or 2
30
Transmission Switches
31
Transmission Switches
  • Manual Trans
  • Neutral Gear Switch NGS
  • Clutch Engaged Switch CES
  • Wired in parallel so both must be open for PCM to
    know car is in gear.

32
Brake On/Off BOO
  • In stop lamp switch
  • A4LD has PCM controlled converter lockup
  • Used on most models today
  • Increases idle when in gear and brakes are on
  • May disengage AC on prolonged idle

33
Vehicle Speed Sensor (VSS)
  • Speedometer output
  • Mechanical or electric speedometer.
  • 8 cycles per revolution
  • 128000 signals per mile
  • Used for
  • TCC lockup
  • Coolant fan control
  • Identify deceleration

34
Other Inputs
  • Power Steering Pressure Switch PSPS
  • Opens between 400 and 600 PSI
  • Increases idle speed
  • AC Demand (ACD)
  • AC Clutch Cycling Switch (ACCS)
  • PCM watches to increase idle speed

35
Outputs
A/F Mixture Ignition Timing Idle Speed Thermactor
Airflow Canister Purge EGR Flow TCC AC Fan WOT
Cut Off Inlet Air Temp Fuel Pump Relay Turbo
Boost
  • ECT
  • MAP/BARO
  • TPS
  • CKP/CMP
  • O2S
  • EGR Position
  • ACT
  • KS
  • BOO
  • AC
  • Power Steering

PCM
36
Air / Fuel Mixture Control
  • Three types
  • Feedback Carburetors
  • Central Fuel Injection (TBI)
  • Electronic Fuel Injection (PFI)
  • Non Sequential
  • Group
  • Sequential

37
Feedback Carburetors
  • Motorcraft Carter uses solenoid to bleed air
    into idle and main metering circuits

38
Holley Carburetors
  • Holley uses remote solenoid with similar idle
    control

39
Holley Carburetors
  • Uses vacuum diaphragm and valve for main metering
    control

40
Central Fuel Injection
  • Low Pressure System
  • Single injector
  • Low Pressure System
  • Two injectors
  • Alternates injectors
  • ECM grounds to turn on
  • Pulse Width Modulated

41
Central Fuel Injection
42
CFI Fuel Delivery
43
Port Fuel Injection (EFI)
44
Port Fuel Injection
  • Non-sequential (EFI)
  • Group or bank-to-bank
  • Two Groups
  • Sequential (SEFI)
  • Injectors pulsed one at a time in firing order
  • Used throughout product line by early 1990s

45
Injector Removal
46
Fuel Supply System
47
Fuel Supply System
  • Fuel Pump
  • In tank
  • Trucks may have a lift and pressure pump
  • Most are around 39 psi
  • Pressure relief at 100 psi

48
Fuel Supply System
  • Pressure regulator
  • Manifold pressure modified
  • Low of 30 around psi (deceleration)
  • High of 39 psi (WOT)
  • Turbocharged may go as high as 50 psi
  • CFI does not use manifold pressure.
  • High pressure 38-40 psi
  • Low pressure 14.5 psi

49
Fuel Supply System
  • Fuel Pump Relay PCM Controlled
  • Turns on with key for 1-2 seconds or until PIP
    signal is present.
  • Inertia Switch is in series with pump

50
Thick Film Integrated (TFI-IV)
  • Thick film refers to the type of semi-conductor
  • Controls spark primary
  • Sends PIP to PCM
  • PCM modifies and sends back SPOUT
  • SPOUT tells TFI when to turn primary on and off.
  • In distributor or Closed Bowl

51
Thick Film Integrated (TFI-IV)
52
Thick Film Integrated (TFI-IV)
Closed Bowl
TFI Module
Octane rod can change base timing while keeping
rotor right.
53
Distributorless Ignition
  • PCM controls dwell and timing
  • DIS module is like TFI module
  • Also uses SPOUT
  • Now called Spark Angle Word (SAW)
  • 1991 second generation using Reluctance instead
    of Hall sensors
  • 35 teeth on crank 36 minus1 for position

54
Distributorless Ignition
  • Base Timing Check
  • Remove SPOUT/SAW jumper
  • 10o
  • Self check adds 20o
  • Octane adjustment jumper looks like SPOUT
  • Retards 3o to 4o and can be left out

55
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56
Spout Connectors
57
Idle Speed
  • Carbs CFI use
  • Throttle kicker
  • DC motor idle speed control (ISC)
  • Idle Tracking Switch
  • Senses closed throttle
  • PCM then operates ISC
  • Act as Idle Dashpot

58
EFI Idle Speed Control
  • Air bypass solenoid
  • PCM Controlled
  • Duty Cycle pintle valve
  • Also a dashpot

59
Thermactor Air Management
  • Thermactor Air Bypass (TAB)
  • Thermactor Air Diverter (TAD)
  • PCM Controlled

60
Thermactor Air Management
  • CTS Below 50o TAB grounded
  • Sends air to atmosphere
  • Between 50 and 190 Bypass valve sends air to
    diverter and to manifold
  • Over 190 closed loop and air goes to Cat
  • Bypass at idle, WOT, and with failing O2S

61
Open Loop Tip
  • The fastest way to see if vehicle is in open loop
    is to see where the air is going
  • Cat Closed Loop
  • Atmosphere or manifold Closed Loop
  • Provided thermactor system is working

62
Canister Purge
  • Three types
  • Constant purge with no PCM control
  • PCM controlled in-line solenoid
  • PCM controlled with temperature controlled vacuum
    valve

63
Canister Purge/Heat Control
To valve that warms intake manifold
64
EGR Control
  • EGR Control and EGR Vent
  • 2 solenoids that are dithered

65
EGR Control
  • EGR Shutoff Solenoid
  • Uses one solenoid
  • Controls ported vacuum
  • EGR Shutoff Solenoid with Backpressure Transducer
  • One solenoid
  • Strength of vacuum controlled by transducer
  • Does not have EVP sensor

66
EGR Control
  • Vacuum Regulator
  • Introduced in 1985 and is used for most
    applications

67
EEC IV Diagnosis
  • Codes follow self test
  • Codes can be read
  • Manually
  • Watch MIL
  • Hook up meter
  • Star II
  • Other scan tool

Notice the safety glasses ?
68
Slow and Fast Codes
  • Slow codes can be read with pulsing meter or MIL
  • Fast codes can be read by scan tool
  • Fast codes precede slow and look like a momentary
    flashing.

69
Diagnostic Connector
70
KOEO Self Test Procedures
  • Engine warm
  • Turn off for 10 seconds
  • KOEO, then ground STI
  • Test will run, then read codes
  • All accessories off
  • 2.5L and 4.9L hold clutch fully in.

71
KOEO Self Test Codes
72
KOER Self Test Procedures
  • Engine warm 2000 RPM 2 min
  • Turn off for 10 seconds
  • KOER, then ground STI
  • Test will run, then read ID codes
  • Push brake and turn steering wheel
  • After code 10 (or 1 flash) snap WOT

73
KOER Self Test Codes
74
Computed Timing
  • Pull SPOUT/SAW
  • Check for 10o with timing light
  • Reinstall SPOUT/SAW
  • Run KOER self test
  • At end of last code, 20o will be added to base
    timing for 2 min.

75
Other Tests
  • Continuous monitor (wiggle)
  • After last code, deactivate and reactivate self
    test
  • Wiggle wires etc. Fault will display
  • SEFI Cylinder Balance
  • KOER after last code, tip throttle and release.

76
(No Transcript)
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