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Kohler Command PRO EFI ECH749 [33/180] Efi system electronic throttle body etb ech
3324 690 01 Rev. O KohlerEngines.com
EFI SYSTEM-ELECTRONIC THROTTLE BODY (ETB) ECH
ECU is brain or central processing computer of entire
EFI and ETB/electronic governor system. During
operation, sensors continuously gather data which is
relayed through wiring harness to input circuits within
ECU. Signals to ECU include: ignition (on/off ), crankshaft
position and speed (RPM), throttle position, requested
customer speed input, oil temperature, intake air
temperature, exhaust oxygen levels, manifold absolute
pressure, and battery voltage.
ECU compares input signals to programmed maps in
its memory to determine appropriate fuel and spark
requirements for immediate operating conditions. ECU
then sends output signals to set injector duration, ignition
timing, and ETB throttle opening.
ECU continually performs a diagnostic check of itself,
each sensor, and system performance. If a fault is
detected, ECU can turn on a Malfunction Indicator Light
(MIL) (if equipped) on equipment control panel, store
fault code in its fault memory, and go into a default
operating mode. Depending on signifi cance or severity
of fault, normal operation may continue. A technician can
access stored fault code using a blink code diagnosis
fl ashed out through MIL or use KOHLER
®
Diagnostic
System (KDS) Gen 2, see Tools and Aids.
ECU requires a minimum of 6.0 volts to operate.
To prevent engine over-speed and possible failure, a
rev-limiting feature is programmed into ECU. If maximum
RPM limit (4500) is exceeded, ECU suppresses injection
signals, cutting off fuel fl ow. This process repeats itself in
rapid succession, limiting operation to preset maximum.
Wiring harness used in EFI system connects electrical
components, providing current and ground paths for
system to operate. All input and output signaling occurs
through two special all weather connectors that attach
and lock to ECU. Connectors are Black and Grey and
keyed diff erently to prevent being attached to ECU
incorrectly.
Condition of wiring, connectors, and terminal
connections is essential to system function and
performance. Corrosion, moisture, and poor connections
are as likely cause of operating problems and system
errors as an actual component. Refer to Electrical
System for additional information.
EFI system is a 12 VDC negative ground system,
designed to operate down to a minimum of 6.0 volts.
If system voltage drops below this level, operation
of voltage sensitive components such as ECU, fuel
pump, ignition coils, and injectors will be intermittent
or disrupted, causing erratic operation or hard starting.
A fully charged, 12 volt battery with a minimum of 350
cold cranking amps is important in maintaining steady
and reliable system operation. Battery condition and
state of charge should always be checked fi rst when
troubleshooting an operational problem.
Keep in mind that EFI-related problems are often caused
by wiring harness or connections. Even small amounts
of corrosion or oxidation on terminals can interfere with
milliamp currents used in system operation.
Cleaning connectors and grounds will solve problems
in many cases. In an emergency situation, simply
disconnecting and reconnecting connectors may clean
up contacts enough to restore operation, at least
temporarily.
If a fault code indicates a problem with an electrical
component, disconnect ECU connector and test for
continuity between component connector terminals and
corresponding terminals in ECU connector using an
ohmmeter. Little or no resistance should be measured,
indicating that wiring of that particular circuit is OK.
Crankshaft position sensor is essential to engine
operation; constantly monitoring rotation and speed
(RPM) of crankshaft. There are 23 consecutive teeth
cast into fl ywheel. One tooth is missing and is used to
reference crankshaft position for ECU.
During rotation, an AC voltage pulse is created within
sensor for each passing tooth. ECU calculates engine
speed from time interval between consecutive pulses.
Gap from missing tooth creates an interrupted input
signal, corresponding to specifi c crankshaft position near
BDC for cylinder #1. This signal serves as a reference
for control of ignition timing by ECU. Synchronization of
inductive speed pickup and crankshaft position takes
place during fi rst two revolutions each time engine is
started. Sensor must be properly connected at all times.
If sensor becomes disconnected for any reason, engine
will quit running.
Throttle position sensor (TPS) is used to indicate throttle
plate angle to ECU. Since throttle (by way of governor
or customer speed input/ETB throttle opening) reacts to
engine load, angle of throttle plate is directly related to
load on engine.
TPS is sealed and not serviced separately. Mounted on
electronic throttle body and operated directly off end of
throttle shaft, TPS works as a potentiometer, varying
voltage signal to ECU in direct correlation to angle
of throttle plate. This signal, along with other sensor
signals, is processed by ECU and compared to internal
preprogrammed maps to determine required fuel and
ignition settings for amount of load.
TPS auto-learn is an automated process. No adjustment
is required.
Engine temperature sensor is used by system to
help determine fuel requirements for starting (a cold
engine needs more fuel than one at or near operating
temperature).
Mounted in breather cover, it has a temperature-
sensitive resistor that extends into oil fl ow. Resistance
changes with oil temperature, altering voltage sent
to ECU. Using a table stored in its memory, ECU
correlates voltage drop to a specifi c temperature. Using
fuel delivery maps, ECU then knows how much fuel is
required for starting at that temperature.
Temperature/Manifold Absolute Pressure (TMAP) sensor
is an integrated sensor that checks both intake air
temperature and manifold absolute pressure.
Intake Air Temperature control is a thermally sensitive
resistor that exhibits a change in electrical resistance
with a change in its temperature. When sensor is cold,
resistance of sensor is high. As sensor warms up,
resistance drops and voltage signal increases. From
voltage signal, ECU can determine temperature of intake
air.
Содержание
- Ech630 ech749 ch735 ch26 ch745 service manual 1
- Safety 2
- Maintenance 3
- Maintenance 4
- Specifications 5
- Specifi cations 5
- Specifi cations 6
- Specifi cations 7
- Specifi cations 8
- Specifi cations 9
- Specifi cations 10
- Specifi cations 11
- Specifi cations 12
- Specifi cations 13
- Specifi cations 14
- Specifi cations 15
- Specifi cations 16
- Specifi cations 17
- Specifi cations 18
- Specifi cations 19
- Specifi cations 20
- Specifi cations 21
- Specifi cations 22
- Tools and aids 23
- Tools and aids 24
- Tools and aids 25
- Troubleshooting 26
- Troubleshooting 27
- Troubleshooting 28
- Troubleshooting 29
- Troubleshooting 30
- Air cleaner intake 31
- Efi system electronic throttle body etb ech 32
- Electronic fuel injection efi system electronic throttle body etb ech 32
- Efi system electronic throttle body etb ech 33
- Efi system electronic throttle body etb ech 34
- Efi system electronic throttle body etb ech 35
- Black connector side grey connector side ecu 36
- Efi system electronic throttle body etb ech 36
- Pinout of ecu 36
- Efi system electronic throttle body etb ech 37
- Efi system electronic throttle body etb ech 38
- Efi system electronic throttle body etb ech 39
- Efi system electronic throttle body etb ech 40
- Efi system electronic throttle body etb ech 41
- Efi system electronic throttle body etb ech 42
- Efi system electronic throttle body etb ech 43
- Efi system electronic throttle body etb ech 44
- Efi system electronic throttle body etb ech 45
- Efi system electronic throttle body etb ech 46
- Efi system electronic throttle body etb ech 47
- Efi system electronic throttle body etb ech 48
- Efi system electronic throttle body etb ech 49
- Efi system electronic throttle body etb ech 50
- Efi system electronic throttle body etb ech 51
- Efi system electronic throttle body etb ech 52
- Efi system electronic throttle body etb ech 53
- Efi system electronic throttle body etb ech 54
- Efi system electronic throttle body etb ech 55
- Efi system electronic throttle body etb ech 56
- Efi system electronic throttle body etb ech 57
- Efi system electronic throttle body etb ech 58
- 24 690 01 rev o kohlerengines com 59
- After turning key to off wait 10 seconds before turning to on to allow ecu to go to sleep 59
- Efi diagnostic flow diagram 59
- Efi system electronic throttle body etb ech 59
- Fuel pump module can be heard or a vibration can be felt to establish pump cycle fuel pump module will run for one 4 6 second cycle when ecu wakes up after being asleep 59
- Start of test 59
- Efi system electronic throttle body etb ech 60
- Efi system electronic throttle body etb ech 61
- Efi system ech 62
- Electronic fuel injection efi system ech 62
- Efi system ech 63
- Efi system ech 64
- Efi system ech 65
- Black connector side grey connector side ecu 66
- Efi system ech 66
- Pinout of ecu 66
- Efi system ech 67
- Efi system ech 68
- Efi system ech 69
- Efi system ech 70
- Efi system ech 71
- Efi system ech 72
- Efi system ech 73
- Efi system ech 74
- Efi system ech 75
- Efi system ech 76
- Efi system ech 77
- Efi system ech 78
- Efi system ech 79
- Efi system ech 80
- Efi system ech 81
- Efi system ech 82
- Efi system ech 83
- Efi system ech 84
- Efi system ech 85
- Efi system ech 86
- Efi system ech 87
- Efi system ech 88
- Efi system ech 89
- 24 690 01 rev o kohlerengines com 90
- After turning key to off wait 10 seconds before turning to on to allow ecu to go to sleep 90
- Efi diagnostic flow diagram 90
- Efi system ech 90
- Fuel pump module can be heard or a vibration can be felt to establish pump cycle fuel pump module will run for one 4 6 second cycle when ecu wakes up after being asleep 90
- Start of test 90
- Efi system bosch 91
- Electronic fuel injection efi system bosch 91
- Efi system bosch 92
- Efi system bosch 93
- Efi system bosch 94
- Efi system bosch 95
- Efi system bosch 96
- Efi system bosch 97
- Efi system bosch 98
- Efi system bosch 99
- Efi system bosch 100
- Efi system bosch 101
- Efi system bosch 102
- Efi system bosch 103
- Efi system bosch 104
- Efi system bosch 105
- Efi system bosch 106
- Efi system bosch 107
- Efi system bosch 108
- Efi system bosch 109
- Efi system bosch 110
- Efi system bosch 111
- Efi system bosch 112
- 24 690 01 rev o kohlerengines com 113
- After the problem has been corrected fault codes may be cleared as follows 1 disconnect negative battery cable from battery terminal or remove main fuse for ecu for approximately 1 minute 2 reconnect cable and tighten securely or reinstall main fuse start engine and allow it to run for several minutes mil should remain off if problem was corrected and fault codes should not reappear codes 31 32 33 and 34 may require 10 15 minutes of running to reappear following chart lists fault codes what they correspond to and what visual indications will be following chart is a list of individual codes with an explanation of what triggers them what symptoms might be expected and probable causes 113
- Diagnostic display initiated through ignition key sequencing 113
- Efi system bosch 113
- Example of diagnostic display 113
- 24 690 01 rev o kohlerengines com 114
- Efi system bosch 114
- P0261 injector 1 short circuit to ground n a n a y 114
- P0262 injector 1 short circuit to battery n a n a y 114
- P1263 injector 2 open circuit n a n a y 114
- Efi system bosch 115
- Efi system bosch 116
- Efi system bosch 117
- Efi system bosch 118
- Efi system bosch 119
- Efi system bosch 120
- Efi system bosch 121
- Efi system bosch 122
- Efi system bosch 123
- Lubrication system 124
- Lubrication system 125
- Electrical system 126
- Electrical system 127
- Electrical system 128
- Electrical system 129
- Electrical system 130
- Electrical system 131
- Electrical system 132
- Starter system 133
- Starter system 134
- Starter system 135
- Starter system 136
- Disassembly inspection and service 137
- Disassembly inspection and service 138
- Disassembly inspection and service 139
- Disassembly inspection and service 140
- Disassembly inspection and service 141
- Disassembly inspection and service 142
- Disassembly inspection and service 143
- Disassembly inspection and service 144
- Disassembly inspection and service 145
- Disassembly inspection and service 146
- Disassembly inspection and service 147
- Disassembly inspection and service 148
- Disassembly inspection and service 149
- Disassembly inspection and service 150
- Disassembly inspection and service 151
- Disassembly inspection and service 152
- Disassembly inspection and service 153
- Disassembly inspection and service 154
- Disassembly inspection and service 155
- Disassembly inspection and service 156
- Disassembly inspection and service 157
- Reassembly 158
- Reassembly 159
- Reassembly 160
- Reassembly 161
- Reassembly 162
- Reassembly 163
- Reassembly 164
- Reassembly 165
- Reassembly 166
- Reassembly 167
- Reassembly 168
- Reassembly 169
- Reassembly 170
- Reassembly 171
- Reassembly 172
- Reassembly 173
- Reassembly 174
- Reassembly 175
- Reassembly 176
- Reassembly 177
- Reassembly 178
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