Suzuki DF 40, DF 50 Service Manual
Suzuki DF 40 is a powerful and reliable outboard motor that is perfect for a variety of boating applications. It features a 4-cylinder, 4-stroke engine that produces 40 horsepower. The DF 40 is also very fuel-efficient, and it has a number of features that make it easy to operate and maintain. If you are looking for a powerful and reliable outboard motor that is perfect for a variety of boating applications, the Suzuki DF 40 is an excellent choice.
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99500-87J00-01E
FOREWORD
This manual contains an introductory description on
SUZUKI Outboard motor DF40/50 and procedures for the inspection, service and overhaul of its main components.
General knowledge information is not included.
Please read the GENERAL INFORMATION section to familiarize yourself with basic information concerning this motor. Read and refer to the other sections in this manual for information regarding proper inspection and service procedures.
This manual will help you better understand this outboard motor so that you may provide your customers with optimum and quick service.
• This manual has been prepared using the latest information available at the time of publication.
If a modification has been made since then, differences may exist between the content of this manual and the actual outboard motor.
• Illustrations in this manual are used to show the basic principles of operation and work procedures and may not represent the actual outboard motor in exact detail.
• This manual is intended for use by technicians who already possess the basic knowledge and skills to service SUZUKI outboard motors.
Persons without such knowledge and skills should not attempt to service an outboard engine by relying on this manual only.
Instead, please contact your nearby authorized SUZUKI outboard motor dealer.
A
Apprentice machanics or do-it-yourself mechanics that don’t have the proper tools and equipment may not be able to properly perform the services described in this manual.
Improper repair may result in injury to the mechanic and may render the engine unsafe for the boat operator and passengers.
GROUP INDEX
GENERAL INFORMATION
PERIODIC MAINTENANCE
ENGINE CONTROL SYSTEM
ELECTRICAL
FUEL SYSTEM
POWER UNIT
MID UNIT
POWER TRIM AND TILT
LOWER UNIT
WIRE / HOSE ROUTING
6
7
4
5
1
2
3
8
9
10
Marine & Power Products Division
COPYRIGHT SUZUKI MOTOR CORPORATION 1998
HOW TO USE THIS MANUAL
TO LOCATE WHAT YOU ARE
LOOKING FOR:
1. The text of this manual is divided into sections.
2. The section titles are listed on the previous page in a GROUP INDEX. Select the section you wish to reference.
3. Holding the manual as shown at the right will allow you to find the first page of the section easily.
4. The first page of each section lists a table of contents to easily locate the item and page you need.
COMPONENT PARTS AND IMPORTANT ITEM ILLUSTRATIONS
Under the name of each system or unit, an exploded view is provided with work instructions and other service information such as the tightening torque, lubrication and locking agent points.
Example :
@ 200 N.m
(20.0 kg-m, 145 lb.-ft.)
1
Flywheel bolt
2 Washer
3 Key
4
Flywheel
5 CKP sensor
6 Screw
7
CMP sensor
8 Bolt
1
2
3 o
4
5
7
8 h
5
6
5
Crankshaft
NOTE:
Clean flywheel and crankshaft mating surfaces with cleaning solvent.
SYMBOL
Listed in the table below are the symbols indicating instructions and other important information necessary for proper servicing. Please note the definition for each symbol. You will find these symbols used throughout this manual. Refer back to this table if you are not sure of any symbol(s) meanings.
SYMBOL
@ o
DEFINITION
Torque control required.
Data beside it indicates specified torque.
Apply oil. Use engine oil unless otherwise specified.
j
Apply SUZUKI OUTBOARD
MOTOR GEAR OIL.
v
Apply SUZUKI SUPER GREASE “A”.
l
Apply SUZUKI WATER
RESISTANT GREASE.
a
Apply SUZUKI BOND “1104”.
b
Apply SUZUKI BOND “1207B”.
SYMBOL h
DEFINITION
Apply THREAD LOCK “1342”.
g s t r q z
Apply THREAD LOCK SUPER
“1333B”.
Measure in DC voltage range.
Measure in resistance range.
Measure in continuity test range.
Use peak voltmeter
“Stevens CD-77”.
Use special tool.
k
Apply SUZUKI SILICONE SEAL.
GENERAL INFORMATION
CONTENTS
WARNING/CAUTION/NOTE _________________________________ 1-1
GENERAL PRECAUTIONS _________________________________ 1-1
IDENTIFICATION NUMBER LOCATION _______________________ 1-3
FUEL AND OIL ___________________________________________ 1-3
GASOLINE RECOMMENDATION .................................................................
1-3
ENGINE OIL ...................................................................................................
1-3
ENGINE BREAK-IN _______________________________________ 1-4
PROPELLERS ___________________________________________ 1-5
SPECIFICATIONS _________________________________________ 1-6
SERVICE DATA ___________________________________________ 1-8
TIGHTENING TORQUE ____________________________________ 1-15
SPECIAL TOOLS _________________________________________ 1-17
MATERIALS REQUIRED ___________________________________ 1-20
1
1-1 GENERAL INFORMATION
WARNING/CAUTION/NOTE
Please read this manual and follow its instructions carefully. To emphasize special information, the symbol and the words WARNING, CAUTION and NOTE have special meanings. Pay special attention to the messages highlighted by these signal words.
A
Indicates a potential hazard that could result in death or injury.
B
Indicates a potential hazard that could result in motor damage.
NOTE:
Indicates special information to make maintenance easier or instructions clearer.
Please note, however, that the warnings and cautions contained in this manual cannot possibly cover all potential hazards relating to the servicing, or lack of servicing, of the outboard motor. In addition to the
WARNING and CAUTION stated, you must also use good judgement and observe basic mechanical safety principles.
GENERAL PRECAUTIONS
A
• Proper service and repair procedures are important for the safety of the service mechanic and the safety and reliability of the outboard motor.
• To avoid eye injury, always wear protective goggles when filing metals, working on a grinder, or doing other work, which could cause flying material particles.
• When 2 or more persons work together, pay attention to the safety of each other.
• When it is necessary to run the outboard motor indoors, make sure that exhaust gas is vented outdoors.
• When testing an outboard motor in the water and on a boat, ensure that the necessary safety equipment is on board. Such equipment includes : flotation aids for each person, fire extinguisher, distress signals, anchor, paddles, bilge pump, first-aid kit, emergency starter rope, etc.
• When working with toxic or flammable materials, make sure that the area you work in is well-ventilated and that you follow all of the material manufacturer’s instructions.
• Never use gasoline as a cleaning solvent.
• To avoid getting burned, do not touch the engine, engine oil or exhaust system during or shortly after engine operation.
• Oil can be hazardous. Children and pets may be harmed from contact with oil. Keep new and used oil away from children and pets. To minimize your exposure to oil, wear a long sleeve shirt and moisture-proof gloves (such as dishwashing gloves) when changing oil. If oil contacts your skin, wash thoroughly with soap and water. Launder any clothing or rags if wet with oil. Recycle or properly dispose of used oil.
• After servicing fuel, oil/engine cooling system and exhaust system, check all lines and fittings related to the system for leaks.
• Carefully adhere to the battery handling instructions laid out by the battery supplier.
GENERAL INFORMATION 1-2
B
• If parts replacement is necessary, replace the parts with Suzuki Genuine Parts or their equivalent.
• When removing parts that are to be reused, keep them arranged in an orderly manner so that they may be reinstalled in the proper order and orientation.
• Be sure to use special tools when instructed.
• Make sure that all parts used in assembly are clean and also lubricated when specified.
• When use of a certain type of lubricant, bond, or sealant is specified, be sure to use the specified type.
• When removing the battery, disconnect the negative cable first and then the positive cable.
When reconnecting the battery, connect the positive cable first and then the negative cable.
• When performing service to electrical parts, if the service procedures do not require using battery power, disconnect the negative cable at the battery.
• Tighten cylinder head and case bolts and nuts, beginning with larger diameter and ending with smaller diameter, Always tighten from inside to outside diagonally, to the specified tightening torque.
• Whenever you remove oil seals, gaskets, packing, O-rings, locking washers, locking nuts, cotter pins, circlips, and certain other parts as specified, always replace them with new.
Also, before installing these new parts, be sure to remove any left over material from the mating surfaces.
• Never reuse a circlip. When installing a new circlip, take care not to expand the end gap larger than required to slip the circlip over the shaft. After installing a circlip, always ensure that it is completely seated in its groove and securely fitted.
• Use a torque wrench to tighten fasteners to the torque values when specified.
Remove grease or oil from screw / bolt threads unless a lubricant is specified.
• After assembly, check parts for tightness and operation.
• To protect the environment, do not unlawfully dispose of used motor oil, other fluids, and batteries.
• To protect the Earth’s natural resources, properly dispose of used motor parts.
1-3 GENERAL INFORMATION
IDENTIFICATION NUMBER LOCATION
MODEL PRE-FIX SERIAL NUMBER
The MODEL, PRE-FIX and SERIAL NUMBER of motor are stamped on a plate attached to the clamp bracket.
Example
MODEL
DF 50
0 5 0 0 1 F – X X X X X X
PRE-FIX SERIAL NUMBER
ENGINE SERIAL NUMBER
A second engine serial number plate is pressed into a boss on the cylinder block .
FUEL AND OIL
GASOLINE RECOMMENDATION
Suzuki highly recommends that you use alcohol - free unleaded gasoline with a minimum pump octane rating of 87
(R+M / 2 method) or 91 (Research method). However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
Allowable maximum blend of a single additive (not combination) :
5% Methanol, 10% Ethanol, 15% MTBE
B
If leaded gasoline is used, engine damage may result.
ENGINE OIL
Use only oils that are rated SE, SF, SG, SH, or SJ under the
API (American Petroleum Institute) classification system.
The viscosity rating should be SAE 10W-40.
If an SAE 10W-40 motor oil is not available, select an alternative according to the chart at right.
ENGINE BREAK-IN
The first 10 hours are critically important to ensure correct running of either a brand new motor or a motor that has been reconditioned or rebuilt. How the motor is operated during this time will have direct bearing on its life span and long-term durability.
Break-in period : 10 hours
WARM-UP RECOMMENDATION
Allow sufficient idling time (more than 5 minutes) for the engine to warm up after cold engine starting .
THROTTLE RECOMMENDATION
NOTE:
Avoid maintaining a constant engine speed for an extended period at any time during the engine break-in by varying the throttle position occasionally.
1.
FIRST 2 HOURS
For first 15 minutes, operate the engine in-gear at idling speed.
During the remaining 1 hour and 45 minutes, operate the engine in-gear at less than 1/2 (half) throttle (3000 r/min).
NOTE:
The throttle may be briefly opened beyond the recommended setting to plane the boat, but must be reduced to the recommended setting immediately after planning.
2.
NEXT 1 HOUR
Operate the engine in-gear at less than 3/4 (three-quarter) throttle (4000 r/min).
3.
LAST 7 HOURS
Operate the engine in-gear at desired engine speed.
However, do not operate continuously at full throttle for more than 5 minutes.
GENERAL INFORMATION 1-4
1-5 GENERAL INFORMATION
PROPELLERS
An outboard motor is designed to develop its rated power within a specified engine speed range. The maximum rated power delivered by the DF40 / 50 T models is shown below.
Recommended full throttle speed range
DF40T
DF50T
5200-5800 r / min
5900-6500 r / min
If the standard propeller fails to meet the above requirement, use another pitch propeller to hold the engine speed within the range specified above.
3
3
3
3
Blade
3
3
3
3
3
Propeller selection chart
× Diam. (in.) × Pitch (in.)
× 11- 1/2 × 9 (S900)
× 11- 1/2
× 11- 1/2
×
×
10 (S1000)
11 (S1100)
× 11- 5/8
× 11- 1/2
× 11- 3/8
× 11- 1/4
× 11- 1/8
× 11
×
×
×
×
×
×
12 (S1200)
13 (S1301, SS1300)
14 (S1400, SS1400)
15 (S1500)
16 (S1600, SS1600)
17 (S1700)
SPECIFICATIONS
Item Unit
PRE-FIX
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
Weight
(without engine oil)
Transom height
L
S
L
S
L mm (in.) mm (in.) mm (in.) mm (in.) kg (Ib.) kg (Ib.) mm (in. type) mm (in. type)
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control kW (PS) r/min r/min mm (in.) mm (in.) cm 3 (cu in.)
: 1
NGK
GENERAL INFORMATION 1-6
Data
DF40T
04001F
DF50T
05001F
756 (29.8)
382 (15.0)
1263 (49.7)
1390 (54.7)
106 (234)
109 (240)
401 (15)
528 (20)
29.4 (40) 36.8 (50)
5900 – 6500 5200 – 5800
850 ± 50 (in-gear: approx. 850±50)
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Water cooled
Wet sump by trochoid pump
Electric
Remote control
1-7 GENERAL INFORMATION
Data
Item Unit
DF40T DF50T
FUEL & OIL
Fuel
Engine oil
Engine oil amounts
Gear oil
Gearcase oil capacity
BRACKET
Trim angle
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
Gear ratio
Drive line impact protection
Propeller
S : Aluminum propeller
SS : Stainless steel propeller
L (US/Imp. qt) ml (US/Imp. oz)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 ( R + M
2 method) or 91
(Research method). However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil (SAE #90 hypoid gear oil)
610 (20.6/21.5) degree
PTT system
PTT system
73 °
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.27)
Spline drive rubber hub
Blade × Diam. (in.) × Pitch (in.)
3 × 111 /
2
× 9 (S900)
3 × 111 /
2
× 10 (S1000)
3 × 111 /
2
× 11 (S1100)
3 × 115 /
8
× 12 (S1200)
3 × 111 /
2
× 13 (S1301, SS1300)
3 × 113 /
8
× 14 (S1400, SS1400)
3 × 111 /
4
× 15 (S1500)
3 × 111 /
8
× 16 (S1600, SS1600)
3 × 11 × 17 (S1700)
These specifications are subject to change without notice.
GENERAL INFORMATION 1-8
SERVICE DATA
Data
Item Unit
DF40T DF50T
POWERHEAD
Recommended operating range
Idle speed
**Cylinder compression
**Cylinder compression max.
difference between any two cylinders r/min r/min kPa (kg/cm 2 . psi) kPa (kg/cm 2 . psi)
**Engine oil pressure kPa (kg/cm 2 . psi)
Engine oil
Engine oil amounts
L (US/Imp. qt)
Thermostat operating temperature
°C (°F)
** Figures shown are guidelines only, not absolute service limits.
5200 – 5800 5900 – 6500
850 ± 50 (in-gear: approx.850±50)
1300 – 1600 (13 – 16, 185 – 228)
100 (1.0, 14)
295 – 373 (3.0 – 3.8, 42 – 54) at 4000 r/min
(at normal operating temp.)
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
48 – 52 (126 – 134)
1-9 GENERAL INFORMATION
Item Unit
ENGINE OIL PUMP
Radial clearance
Side clearance
Limit
Limit mm (in.) mm (in.)
CYLINDER HEAD / CAMSHAFT
Cylinder head distortion Limit mm (in.)
Manifold seating faces distortion
Limit
Cam height
Camshaft journal oil clearance
IN
EX
Top,
Camshaft journal
(housing) inside diameter
2nd,
3rd,
4th
Top,
Camshaft journal outside diameter
2nd,
3rd,
4th
Camshaft runout
STD
Limit
STD
Limit
Cylinder head bore to tappet clearance
Limit
STD
Limit
STD
Limit
STD
Limit
STD
Limit
Tappet outer diameter
Cylinder head bore
STD
STD mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
DF40T
Data
0.31 (0.0122 in.)
0.15 (0.0059 in.)
DF50T
0.05 (0.002)
0.10 (0.004)
37.530–37.690 (1.4776–1.4839) 38.230–38.390 (1.5051–1.5114)
37.430 (1.4736) 38.130 (1.5012)
37.740–37.900 (1.4858–1.4921) 37.740–37.900 (1.4858–1.4921)
37.640 (1.4819) 37.640 (1.4819)
0.045 – 0.087 (0.0018 – 0.0034)
0.12 (0.0047)
23.000 – 23.021 (0.9055 – 0.9063)
23.171 (0.9122)
22.934 – 22.955 (0.9029 – 0.9037)
22.784 (0.8970)
0.10 (0.004)
0.025 – 0.062 (0.0010 – 0.0024)
0.150 (0.0059)
26.959 – 26.975 (1.0614 – 1.0620)
27.000 – 27.021 (1.0630 – 1.0638)
Item
VALVE / VALVE GUIDE
Valve diameter
Tappet clearance
(Cold engine condition)
Valve seat angle
IN
EX
IN
EX
Valve guide to valve stem clearance
IN
EX
IN
EX
STD
STD
STD
Limit
STD
Limit
Valve guide inside
IN,EX diameter
STD
Valve guide protrusion
IN,EX
Valve stem outside diameter
IN
EX
STD
STD
STD
Valve stem end length
IN,EX Limit
Valve stem end deflection
IN Limit
EX
Valve stem runout IN,EX
Limit
Limit
Valve head radial runout
IN,EX Limit
Valve head thickness
Valve seat contact width
Valve spring free length
IN
EX
IN
EX
Valve spring tension
STD
Limit
STD
Limit
STD
STD
STD
Limit
STD
Limit
Valve spring sequareness
Limit
Unit mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
N (kg, Ibs)
N (kg, Ibs) mm (in.)
DF40T
GENERAL INFORMATION 1-10
Data
DF50T
24.6 (0.9685)
21.5 (0.8465)
0.18 – 0.24 (0.007 – 0.009)
0.18 – 0.24 (0.007 – 0.009)
30 ° , 45 °
15 ° , 45 °
0.020 – 0.047 (0.0008 – 0.0019)
0.070 (0.0028)
0.045 – 0.072 (0.0018 – 0.0028)
0.090 (0.0035)
5.500 – 5.512 (0.2165 – 0.2170)
11 (0.4331)
5.465 – 5.480 (0.2152 – 0.2157)
5.440 – 5.455 (0.2142 – 0.2148)
3.2 (0.1260)
0.14 (0.0055)
0.18 (0.0071)
0.05 (0.0020)
0.08 (0.0031)
1.0 (0.0394)
0.7 (0.0276)
1.15 (0.0453)
0.5 (0.0197)
1.80 – 2.20 (0.0709 – 0.0866)
1.65 – 2.05 (0.0650 – 0.0984)
33.13 (1.3043)
31.80 (1.2520)
95 – 111 (9.7–11.3, 21.4–24.9) for 28.5 mm (1.12 in.)
88 (8.9, 19.6) for 28.5 mm (1.12 in.)
2.0 (0.079)
1-11 GENERAL INFORMATION
Item Unit
CYLINDER / PISTON / PISTON RING
Cylinder distortion
Piston to cylinder clearance
Cylinder bore
Limit
STD
Limit
STD
Cylinder measuring position
Piston skirt diameter STD
Piston measuring position
Cylinder bore wear Limit
Piston ring end gap
1st
2nd
STD
Limit
STD
Limit
Piston ring free end gap
Piston ring to groove clearance
1st
2nd
1st
2nd
STD
Limit
STD
Limit
STD
Limit
STD
Limit
Piston ring groove width
Piston ring thickness
1st
2nd
Oil
1st
2nd
STD
STD
STD
STD
STD mm (in.) mm (in.) mm (in.) mm (in) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
Pin clearance in piston pin hole
Piston pin outside diameter
Piston pin hole diameter
Pin clearance in conrod small end
STD
Limit
STD
Limit
STD
Limit
STD
Limit mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
Conrod small end bore
STD mm (in.)
Data
DF40T DF50T
0.06 (0.0024)
0.020 – 0.040 (0.0008 – 0.0016)
0.100 (0.0039)
71.000 – 71.020 (2.7953 – 2.7961)
50 (1.969) from cylinder top surface
70.970 – 70.990 (2.7941 – 2.7949)
19 (0.748) from piston skirt end.
0.10 (0.039)
0.10 – 0.25 (0.0039 – 0.0098)
0.70 (0.0276)
0.25 – 0.40 (0.0098 – 0.0157)
1.00 (0.0394)
Approx. 7.5 (0.2953)
6 (0.2362)
Approx. 11 (0.4330)
8.8 (0.3465)
0.020 – 0.060 (0.0008 – 0.0024)
0.10 (0.0039)
0.020 – 0.060 (0.0008 – 0.0024)
0.10 (0.0039)
1.01 – 1.03 (0.0398 – 0.0406)
1.01 – 1.03 (0.0398 – 0.0406)
1.51 – 1.53 (0.0594 – 0.0602)
0.97 – 0.99 (0.0382 – 0.0390)
0.97 – 0.99 (0.0382 – 0.0390)
0.006 – 0.018 (0.0002 – 0.0007)
0.040 (0.0016)
17.966 – 18.000 (0.7085 – 0.7087)
17.980 (0.7079)
18.006 – 18.014 (0.7089 – 0.7092)
18.040 (0.7102)
0.003 – 0.015 (0.0001 – 0.0006)
0.05 (0.002)
18.003 – 18.011 (0.7088 – 0.7091)
Item Unit
CRANKSHAFT / CONROD
Conrod small end inside diameter
STD mm (in.)
Conrod big end oil clearance
STD
Limit mm (in.) mm (in.)
Conrod big end inside diameter
STD mm (in.)
Crank pin outside diameter
STD mm (in.)
Crank pin outside diameter difference
(out of round and taper)
Limit
Conrod bearing thickness
STD
Conrod big end side clearance
Conrod big end width
Crank pin width
STD
Limit
STD
STD
Crankshaft center journal runout
Limit
Crankshaft journal oil clearance
STD
Limit
Crankcase bearing holder inside diameter
STD
Crankshaft journal outside diameter
Crankshaft journal outside diameter difference
(out of round and taper)
Crankshaft bearing thickness
STD
Limit
STD
Crankshaft thrust play
Crankshaft thrust bearing thickness
STD
Limit
STD mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
DF40T
GENERAL INFORMATION 1-12
Data
DF50T
18.003 – 18.011 (0.7088 – 0.7091)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
41.000 – 41.018 (1.6142 – 1.6149)
37.982 – 38.000 (1.4954 – 1.4961)
0.010 (0.0004)
1.486 – 1.502 (0.0585 – 0.0591)
0.100 – 0.250 (0.0039 – 0.0098)
0.350 (0.0138)
21.950 – 22.000 (0.8642 – 0.8661)
22.100 – 22.200 (0.8700 – 0.8740)
0.04 (0.0016)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
49.000 – 49.018 (1.9291 – 1.9298)
44.982 – 45.000 (1.7709 – 1.7717)
0.01 (0.0004)
1.999 – 2.015 (0.0787 – 0.0793)
0.11 – 0.31 (0.0043 – 0.0122)
0.35 (0.0138)
2.470 – 2.520 (0.0972 – 0.0992)
1-13 GENERAL INFORMATION
Item Unit
ELECTRICAL
Ignition timing
Over revolution limiter
CKP sensor resistance
CMP sensor resistance
Ignition coil resistance Primary
Secondary
Battery charge coil resistance
Battery charge coil output (12V)
Standard spark plug Type
Gap
Degrees at r/min r/min
W
W
W k W at 20°C at 20°C at 20°C at 20°C
W at 20°C
Watt
NGK mm (in.)
Fuse amp. rating A
Recommended battery capacity (12V)
Fuel injector resistance
IAC valve resistance
IAT sensor/Cylinder temp. sensor
/ Ex-mani. temp. sensor
(Thermistor characteristic)
ECM main relay resistance
Starter motor relay resistance
PTT motor relay resistance k W at 25°C
Ah (kC)
W
W
W
W
W at 20°C at 20°C at 20°C at 20°C at 20°C
DF40T
Data
DF50T
BTDC 0° – BTDC 32°
6500
BTDC 0° – BTDC 25°
7000
168 – 252
——
1.9 – 2.5
8.1 – 11.1
0.56 – 0.84
216
DCPR 6E
0.9 – 1.0 (0.035 – 0.039)
Main fuse : 30
Fuel pump fuse : 15
70 (252) or larger
11.0 – 16.5
21.5 – 32.3
1.8 – 2.3
80 – 120
3.5 – 5.1
3.0 – 4.5
STARTER MOTOR
Max. continuous time of use
Motor output
Brush length STD
Limit
STD
Commutator undercut
Limit
STD
Commutator outside diameter
Limit
STD
Commutator outside diameter difference
Limit
Pinion to ring gear gap STD
Sec kW mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
30
0.9
17.0 (0.67)
10.0 (0.39)
0.5 – 0.8 (0.02 – 0.03)
0.2 (0.008)
33.0 (1.30)
32.0 (1.26)
0.05 (0.002)
0.40 (0.016)
3.0 – 5.0 (0.12 – 0.20)
GENERAL INFORMATION 1-14
PTT MOTOR
Brush length STD
Limit
STD
Commutator outside diameter
Limit mm (in.) mm (in.) mm (in.) mm (in.)
9.8 (0.39)
4.8 (0.19)
22.0 (0.87)
21.0 (0.83)
SELF-DIAGNOSTIC SYSTEM INDICATION
When the abnormality occurs in a signal from sensor, switch etc., the “CHECK ENGINE” lamp on the monitor-tachometer flashes (lights intermittently) according to the each code pattern with buzzer sounding.
PRIORITY
*
FAILED ITEM CODE LAMP FLASHING PATTERN
FAIL-SAFE SYSTEM
ACTIVE
1
2
3
4
5
6
7
8
9
10
MAP sensor 1
CKP sensor
IAC valve/By-pass air screw adjustment
CMP sensor
CTP switch
Cylinder temp. sensor
IAT sensor
MAP sensor 2
(Sensor hose)
Rectifier & regulator
(Over-charging)
Exhaust manifold temp.
sensor
3 – 4
4 – 2
3 – 1
2 – 4
2 – 2
1 – 4
2 – 3
3 – 2
1 – 1
1 – 5 on off on off on off on off on off on off on off on off on off on off
YES
NO
NO
YES
NO
YES
YES
NO
NO
YES
* If more than two items fail at once, the self-diagnostic indication appears according to priority order.
The indication repeats three times.
1-15 GENERAL INFORMATION
TIGHTENING TORQUE
Tightening Torque – Important Fasteners
Cylinder head cover bolt
Cylinder head bolt
Crankcase bolt
ITEM
THREAD
DIAMETER
6 mm
10 mm
8 mm
10 mm
8 mm Conrod cap nut
Camshaft housing bolt
Camshaft timing sprocket bolt
Timing chain guide bolt
Intake manifold bolt / nut 6 mm
8 mm
Oil pressure switch
Intake manifold fuel main gallery 3-way joint bolt
Upper/lower plug
Low pressure fuel pump bolt
Thermostat cover bolt
Flywheel bolt
Starter motor mounting bolt
Engine oil filter
Engine oil drain plug
Power unit mounting bolt/nut
Driveshaft housing bolt
Upper mount nut
Upper mount cover bolt
Lower mount nut
Clamp bracket shaft nut
Water pump case nut
Gearcase bolt
Propeller shaft bearing housing bolt
Pinion nut
Propeller nut
Front
Rear
6 mm
6 mm
6 mm
16 mm
8 mm
12 mm
8 mm
10 mm
10 mm
10 mm
8 mm
12 mm
12 mm
22 mm
6 mm
8 mm
8 mm
18 mm
23
60
40
43
23
50
50
40
8
23
17
50
55
35
10
10
200
23
14
13
11
23
13
10
35
10
10
10
N . m
10
59
25
53
TIGHTENING TORQUE
2.3
6.0
4.0
4.3
2.3
5.0
5.0
4.0
0.8
2.3
1.7
5.0
5.5
3.5
1.0
1.0
20.0
2.3
1.4
1.3
1.1
2.3
1.3
1.0
3.5
1.0
1.0
1.0
kg-m
1.0
6.0
2.5
5.3
16.5
36.0
36.0
30.0
16.6
43.5
29.0
31.0
5.8
16.6
12.3
36.2
40.0
25.3
7.0
7.0
145
16.5
10.0
9.5
25.3
7.2
7.2
7.2
7.9
16.5
9.5
7.2
Ib.-ft.
7.2
43.4
18.1
38.3
GENERAL INFORMATION 1-16
Tightening torque – general bolt
NOTE:
These values are only applicable when torque for a general bolt is not listed in the “Important Fasteners” table.
TYPE OF BOLT
(Conventional or “4” marked bolt)
(Stainless steel bolt)
(7 marked or marked bolt)
THREAD
DIAMETER
5 mm
6 mm
8 mm
10 mm
5 mm
6 mm
8 mm
10 mm
5 mm
6 mm
8 mm
10 mm
N . m
TIGHTENING TORQUE kg-m Ib.-ft.
2 – 4
4 – 7
10 – 16
0.2 – 0.4
0.4 – 0.7
1.0 – 1.6
1.5 – 3.0
3.0 – 5.0
7.0 – 11.5
22 – 35
2 – 4
6 – 10
15 – 20
34 – 41
3 – 6
8 – 12
18 – 28
40 – 60
2.3 – 3.5
0.2 – 0.4
0.6 – 1.0
0.8 – 1.2
16.0 – 25.5
1.5 – 3.0
4.5 – 7.0
1.5 – 2.0
11.0 – 14.5
3.4 – 4.1
24.5 – 29.5
0.3 – 0.6
2.0 – 4.5
6.0 – 8.5
1.8 – 2.8
13.0 – 20.0
4.0 – 6.0
29.0 – 43.5
1-17 GENERAL INFORMATION
SPECIAL TOOLS
1.
2.
3.
4.
09821-00004
Air pump Assy
5.
(A)
(B)
09900-00410
Hexagon wrench set
6.
09900-00411
Hexagon socket
(included in 09900-00410)
7.
09900-00413 (5 mm)
09900-00414 (6 mm)
Hexagon bit
(included in 09900-00410)
8.
(A) 09900-06107
(B) 09900-06108
Snap ring pliers
9.
09900-20101 (150 mm)
09900-20102 (200 mm)
Vernier calipers
10.
09900-20202
Micrometer (25 – 50 mm)
11.
09900-20203
Micrometer (50 – 75 mm)
12.
09900-20205
Micrometer (0 – 25 mm)
13.
09900-20508
Cylinder gauge set
(40 – 80 mm)
14.
09900-20605
Dial calipers (10 – 34 mm)
15.
09900-20606
Dial gauge
16.
09900-20701
Magnetic stand
17.
09900-20803
Thickness gauge
18.
09900-21304
Steel “V” block set
19.
09900-22302
(0.051 – 0.125 mm)
09900-22301
(0.025 – 0.076 mm)
Plastigauge
20.
09900-26006
Engine tachometer
21.
(1) 09912-58441
Fuel pressure gauge
(2) 09912-58431
Fuel pressure hose
(3) 09912-58490
3-way joint & hose
(2)
09900-28403
Hydrometer
(3)
(1)
09921-29510
Driveshaft holder
22.
09913-50121
Oil seal remover
09919-16010
Deep socket wrench
23.
09914-79410
Test wheel
24.
09915-47340
Oil filter wrench
28.
26.
GENERAL INFORMATION 1-18
27.
25.
09915-64510
Compression gauge
09915-63210
Adaptor
29.
09915-77310
Oil pressure gauge
30.
09915-78211
Oil pressure gauge adapter
31.
09916-10910
Valve lapper
32.
09916-14510
Valve lifter
33.
09916-14910
Valve lifter attachment
34.
09916-24450
Solid pilot (N-100-5.52)
35.
09916-24440
Handle adaptor
(N-503-1)
36.
09916-24980
Handle (N-503)
37.
09916-20630
Valve seat cutter
(Neway 126)
38.
09916-20620
Valve seat cutter
(Neway 122)
39.
09916-20610
Valve seat cutter
(Neway 121)
40.
09916-34550
Valve guide reamer
( f 5.5 mm)
41.
09916-34542
Valve guide reamer handle
42.
09916-37320
Valve guide reamer
( f 10.5 mm)
43.
09916-44310
Valve guide remover
44.
09916-84511
Tweezers
09916-57330
Valve guide installer
45.
09916-67010
Tappet holder
46.
09916-77310
Piston ring compressor
47.
(A) (B)
09917-47910
Vacuum pump gauge
09917-87010
Valve guide installer attachment
(A) 09922-59410
Propeller shaft housing
installer
(B) 09922-59420
Housing installer handle
1-19 GENERAL INFORMATION
48.
49.
50.
51.
09922-89810
Shift lock pin remover
52.
09930-30161
Propeller shaft remover
53.
09930-30102
Sliding hammer
54.
09930-39411
Flywheel rotor remover
55.
09930-39420
Rotor remover bolt
56.
09930-48720
Flywheel holder
57.
09930-76420
Timing light
58.
09930-89240
4-pin connector test cord
59.
09930-89260
Injector test cord A
60.
09930-89910
4-pin connector test cord
61.
09930-89920
6-pin connector test cord
62.
09930-89930
8-pin connector test cord
63.
09930-89940
12-pin connector test cord
64.
09930-99320
Digital tester
65.
09932-79910
Diagnostic harness
66.
(A)
(B)
09940-44120
Air pressure gauge
67.
09940-44130
Attachment
68.
(B)
(A)
(C)
(D)
09944-08711
PTT cylinder cap tool
Pinion bearing installer and remover
(A) 09951-59910
Pinion bearing installer
shaft
(B) 01107-08408
Bolt
(C) 09951-39914
Pinion bearing plate
(D) 09951-19430
Attachment
(B)
(A) 09950-69511
Gearcase oil leakage tester
(B) 09821-00004
Air pump
69.
(A)
(A) 18213-74F00
O
2
sensor
(B) 18498-99E40
Protector
09951-09510
Gear adjusting gauge
70.
09930-88720
H.T cord adapter
GENERAL INFORMATION 1-20
71.
72.
73 .
99954-53008-820*
Digital voltmeter
99954-53873*
Stevens CD-77
Peak reading voltmeter
NOTE:
* Marked part No. is in U.S. market only.
99954-53883*
Gear oil filler
MATERIALS REQUIRED
SUZUKI OUTBOARD
MOTOR GEAR OIL
SUZUKI SUPER
GREASE “A”
WATER RESISTANT
GREASE
SUZUKI SILICONE
SEAL
99000-22540
(400 ml × 24 pcs.)
SUZUKI BOND “1104”
*99000-25030
99000-25010
(500 g)
SUZUKI BOND “1207B”
99000-25160
(250 g)
THREAD LOCK “1342”
99000-31120
(50 g)
4-Stroke Motor Oil
99000-31030
(100 g)
* 99104-33140
99000-31140
(100 g)
NOTE:
* Marked part No. is in U.S. market only.
99000-32050
(50 g)
API : SE, SF, SG, SH, SJ
SAE : 10W-40
PERIODIC MAINTENANCE
CONTENTS
PERIODIC MAINTENANCE SCHEDULE _______________________ 2-1
PERIODIC MAINTENANCE CHART ..............................................................
2-1
MAINTENANCE AND TUNE-UP PROCEDURES _________________ 2-2
ENGINE OIL / ENGINE OIL FILTER ...............................................................
2-2
GEAR OIL ........................................................................................................
2-5
LUBRICATION .................................................................................................
2-6
SPARK PLUG ..................................................................................................
2-7
TAPPET CLEARANCE ....................................................................................
2-8
IDLE SPEED ....................................................................................................
2-14
IGNITION TIMING ............................................................................................
2-15
BREATHER AND FUEL LINE .........................................................................
2-16
LOW PRESSURE FUEL FILTER ....................................................................
2-16
HIGH PRESSURE FUEL FILTER ....................................................................
2-17
WATER PUMP / WATER PUMP IMPELLER ...................................................
2-17
PROPELLER / NUT / COTTER PIN ................................................................
2-17
ANODES AND BONDING WIRES ..................................................................
2-18
BATTERY .........................................................................................................
2-19
BOLT AND NUTS ............................................................................................
2-20
FUEL MIXTURE CHECK (O
2
FEEDBACK) ....................................................
2-21
OIL PRESSURE ___________________________________________ 2-26
CYLINDER COMPRESSION _________________________________ 2-28
2
2-1 PERIODIC MAINTENANCE
PERIODIC MAINTENANCE SCHEDULE
The chart below lists the recommended intervals for all the required periodic service work necessary to keep the motor operating at peak performance and economy.
Maintenance intervals should be judged by number of hours or months, whichever comes first.
NOTE:
More frequent servicing should be performed on outboard motors that are used under severe conditions.
PERIODIC MAINTENANCE CHART
Item to be serviced
Spark plug
Engine oil filter
Low pressure fuel filter
High pressure fuel filter
Ignition timing
Idle Speed
Tappet clearance
Water pump
Water pump impeller
Propeller nut & pin
Bolt & Nuts
Interval
Breather Hose & Fuel line
Engine oil
Gear oil
Lubrication
Anodes & Bonding wires
Battery
Fuel mixture check
(O
2
feedback)
Initial 20 hrs.
or 1 month
—
I
R
R
—
—
—
R
—
—
I
T
—
I
I
Every 50 hrs.
or 3 months
—
Every 100 hrs.
or 6 months
I
I I
Replace every 2 years
— R
—
I
I
I
R
I
I
I
Perform every 2 years.
— —
Replace every 400 hours or 2 years.
Replace every 1000 hours.
—
—
—
—
—
—
—
—
—
—
—
—
I
T
I : Inspect and clean, adjust, lubricate, or replace, if necessary T : Tighten R : Replace
Every 200 hrs.
or 12 months
R
I
I
R
I
T
I
I
I
R
R
I
I
I
R
PERIODIC MAINTENANCE 2-2
MAINTENANCE AND TUNE-UP PROCEDURES
This section describes the servicing procedures for each of the periodic maintenance requirements.
ENGINE OIL / ENGINE OIL FILTER
ENGINE OIL LEVEL CHECK
Inspect oil level before every use.
(1) Place the outboard motor upright on a level surface.
(2) Remove the motor cover.
(3) Remove the oil level dipstick and wipe it clean.
(4) Insert it fully into the dipstick hole, then remove it to check oil level.
2
1 Oil level dipstick
2
Oil filler cap
1
(5) Oil level should be between the full level line (Max.) and low level line (Min.)
If the level is low, add recommended oil to full level line.
Recommended oil :
• 4 stroke motor oil
• API classification SE, SF, SG, SH, SJ.
• Viscosity rating SAE 10 W-40.
Full level line
Low level line
2-3 PERIODIC MAINTENANCE
ENGINE OIL CHANGE / ENGINE OIL FILTER
REPLACEMENT
ENGINE OIL
Change initially after 20 hours (1 month) and every
100 hours (6 months) thereafter.
ENGINE OIL FILTER
Replace initially after 20 hours (1 month) and every
200 hours (12 months) thereafter.
NOTE:
• Engine oil should be changed while the engine is warm.
• When replacing the engine oil filter, change engine oil at the same time.
1. Place the outboard motor upright on a level surface.
2. Remove the oil filler cap.
3. Place a container under the engine oil drain plug.
4. Remove the engine oil drain plug and gasket to drain engine oil.
1
1
2
1
Oil filler cap
5. ENGINE OIL FILTER REPLACEMENT
NOTE:
For engine oil change only, go to step 6.
To replace the engine oil filter :
(1) Remove the PORT side lower cover. (See page 7-1)
(2) Using oil filter wrench, loosen the oil filter.
z
09915-47340 : Oil filter wrench
NOTE:
Before fitting new oil filter, be sure to oil O-ring.
1
Oil drain plug
2
Gasket o
(3) Screw new filter on by hand until the filter O-ring contacts the Mounting surface.
(4) Tighten the filter 3/4 turn from the point of contact with the mounting surface using an oil filter wrench.
@ Engine oil filter : 14 N . m (1.4 kg-m, 10.0 lb.-ft.),
3/4 turn.
(5) Install the PORT side lower cover.
6. Install the gasket and the oil drain plug.
Tighten the engine oil drain plug to the specified torque.
@ Engine oil drain plug : 13N . m (1.3 kg-m, 9.5 lb.-ft.)
B
Do not re-use gasket. Always replace with a new gasket.
7. Pour recommended engine oil into the oil filler opening, then install the oil filler cap.
Engine oil amounts
Oil change only : 2.2L (2.3 / 1.9 US / Imp. qt)
Oil filter change : 2.4L (2.5 / 2.1 US / Imp. qt)
8. Start the engine and allow it to run for several minutes at idle speed.
Check oil filter for oil leakage.
Turn off the engine and wait for approx. two minutes, then re-check the engine oil level.
PERIODIC MAINTENANCE 2-4
Full level line
Low level line
2-5 PERIODIC MAINTENANCE
GEAR OIL
Change initially after 20 hours (1 month) and every 100 hours (6 months) thereafter.
(1) Place the outboard motor upright on a level surface.
(2) Place a container under the lower unit.
(3) Remove the lower gear oil drain plug before the gear oil level plug and drain the gear oil.
(4) Fill with the recommended gear oil through the oil drain hole until oil just starts to flow out from the oil level hole.
Gear oil amount : 610 ml ( 20.6 / 21.5 US / Imp. oz)
Recommended oil :
Suzuki Outboard Motor Gear Oil or SAE # 90
Hypoid gear oil
(5) Install the oil level plug before removing the oil filler tube from the drain hole.
(6) Install the oil drain plug.
B
Do not re-use gaskets. Always use a new gasket.
1
2
1
Oil level plug
2
Oil drain plug
LUBRICATION
Inspect every 50 hours (3 months).
Apply Suzuki Water Resistant Grease to the following points.
l 99000-25160 : Water Resistant Grease
PERIODIC MAINTENANCE 2-6
Throttle/Shift linkage
Swivel bracket
Steering bracket
Propeller shaft
2-7 PERIODIC MAINTENANCE
SPARK PLUG
• Inspect every 100 hours (6 months).
• Replace every 200 hours (12 months).
Standard spark plug : NGK DCPR6E
CARBON DEPOSIT
Check for a carbon deposit on the spark plug bases.
If carbon is present, remove it with a spark plug cleaning machine or by carefully using a pointed tool.
SPARK PLUG GAP
Use a thickness gauge to measure for correct spark plug gap.
Adjust to within the specified range if the gap is out of specification.
Spark plug gap : 0.9 – 1.0 mm (0.035 – 0.039 in.) z
09900-20803 : Thickness gauge
CONDITION OF ELECTRODE
Check the electrode for a worn or burnt condition.
If it is extremely worn or burnt, replace the spark plug.
Also, be sure to replace the plug if it has a broken insulator, damaged thread, etc.
B
Confirm the thread size and reach when replacing the plug. If the reach is too short, carbon will be deposited on the threaded portion of the plug hole resulting in possible engine damage.
@ Spark plug : 17.5 N . m (1.75 kg-m, 12.7 lb.-ft.)
Gap
TAPPET CLEARANCE
Inspect initially after 20 hours (1 month) and every 200 hours (12 months) thereafter
The tappet clearance specification is the same for both intake and exhaust valves.
Too small a tappet clearance may reduce engine power, too large a tappet clearance increases valve noise and hastens valve and seat wear.
When the tappets are set to the specified clearance, the engine will run without excessive noise from the valve mechanism and will deliver full power. In this engine, the tappet clearance is increased or decreased by replacing the shim disc, made of a special wear resistant material, fitted to the top of the tappet.
The shim discs are easy to remove and refit.
Tappet clearance adjustment must be checked and adjusted:
• at the time of periodic inspection
• when the valve mechanism is serviced
• when the camshafts are disturbed by removing them for inspection
CHECKING AND ADJUSTING TAPPET CLEARANCE
(1) Remove following parts :
• Engine side lower cover (see page 7-1)
• Flywheel cover
• Ignition coils
• Spark plugs
(2) Disconnect camshaft sensor lead
1
.
(3) Remove fuel hose (intake and outlet)
2 .
3 from low fuel pump.
PERIODIC MAINTENANCE 2-8
(4) Remove the twelve bolts securing the cylinder head cover
4 to the cylinder head and remove cylinder head cover.
5
6
11
8
3
9
1
4
2
7
12
10
2-9 PERIODIC MAINTENANCE
(5) Rotate crankshaft clockwise to bring cam nose vertical to shim surface.
(6) Measure tappet clearances by inserting thickness gauge between cam and shim surface.
Tappet clearance (cold engine condition) :
IN. : 0.18 – 0.24 mm (0.007 – 0.009 in.)
EX. : 0.18 – 0.24 mm (0.007 – 0.009 in.) z
09900-20803 : Thickness gauge
B
Rotate crankshaft clockwise to prevent water pump impeller damage.
NOTE:
•
Rotate crankshaft and measure clearance for each tappet respectively by bringing cam nose vertical to shim surface.
•
All tappet clearances can be measured during two turns of crankshaft.
(7) If out of specification, adjust tappet clearance by changing shim.
z
90 °
PERIODIC MAINTENANCE 2-10
ADJUSTMENT
Tappet clearances are adjusted by replacing tappet shim.
(1) Close valve and turn tappet cut-away toward inside as shown in figure.
2
(2) Rotate crankshaft to open (lift up) the valve and then remove camshaft housing bolts where the shim to be replaced.
(3) Install special tool with camshaft housing bolts as shown in figure.
z
09916-67010 : Tappet holder
NOTE:
Index mark “IN” on the tappet holder is for intake side, while
“EX” is for exhaust side.
(4) Rotate top of cam 90 degree clockwise and remove shim from cut-away at tappet.
(Two tappets can be adjusted at the same time)
B
• Do not put your finger between camshaft and tappet while the tappet is being held with the tappet holder.
• Use a magnet to remove and install shim.
• When installing shim, identification mark on the shim must face towards tappet side.
(5) After removing shim, measure thickness of original shim and determine correct thickness of shim for proper tappet clearance as calculated by the following formula.
z
09900-20205 : Micrometer
A = B + (C – 0.20 mm)
A : Correct thickness of shim for proper tappet
clearance (mm)
B : Thickness of original shim (mm)
C : Original tappet clearance (mm)
2
1
Magnet
2
Shim
3 1
1
Cut section of tappet
2
Plug hole
3
Shim
1
1 z
1
Camshaft housing bolt
2
Plug hole
1
2
1
Removed shim
2-11 PERIODIC MAINTENANCE
I.D No.
232
234
236
238
240
242
244
218
220
222
224
226
228
230
2.28
2.30
2.32
2.34
2.36
2.38
2.40
2.42
2.44
Thickness
(mm)
2.18
2.20
2.22
2.24
2.26
I.D No.
260
262
264
266
268
270
272
246
248
250
252
254
256
258
2.56
2.58
2.60
2.62
2.64
2.66
2.68
2.70
2.72
Thickness
(mm)
2.46
2.48
2.50
2.52
2.54
I.D No.
288
290
292
294
296
298
300
274
276
278
280
282
284
286
2.84
2.86
2.88
2.90
2.92
2.94
2.96
2.98
3.00
Thickness
(mm)
2.74
2.76
2.78
2.80
2.82
(6) Install shim. Identification number must face towards tappet.
(7) Remove tappet holder.
NOTE:
When removing tappet holder, rotate crankshaft counterclockwise to be open (lift up) valve.
(8) Tighten camshaft housing bolts to the specified torque and recheck tappet clearance.
@ Camshaft housing bolt :
10 N . m (1.0 kg-m, 7.2 lb.- ft.)
NOTE:
After completing tappet clearance adjustment and securing camshaft housing bolts, inspect tappet clearance again.
250
I.D No.
2.50 mm
2
1 z
3
1
Special tool
2 Tappet
3
Camshaft
Reassembly
After checking and adjusting all valves, reverse removal procedure for installation.
• Install the cylinder head cover. (See page 6-8)
NOTE:
Examine cylinder head cover gasket for damage.
Always replace gasket if sealing performance is suspect.
• Tighten cylinder head cover bolts to specification.
@ Cylinder head cover bolts :
10 N . m (1.0 kg-m, 7.2 lb.-ft.)
PERIODIC MAINTENANCE 2-12
TAPPET SHIM SELECTION CHART
Shim I.D.
No.
218 220 222 224 226 228 230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
Present shim
size (mm)
Tappet clearance
(mm)
0.00 – 0.04
2.18
2.20 2.22 2.24 2.26 2.28 2.30 2.32 2.34 2.36 2.38 2.40 2.42 2.44 2.46 2.48 2.50 2.52 2.54 2.56 2.58 2.60 2.62 2.64 2.66 2.68 2.70 2.72 2.74 2.76 2.78 2.80 2.82 2.84 2.86 2.88 2.90 2.92 2.94 2.96 2.98 3.00
218 220 222 224 226 228 230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282
218 220 222 224 226 228 230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 0.05 – 0.09
0.10 – 0.14
218 220 222 224 226 228 230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292
0.15 – 0.17
0.18 – 0.24
218 220 222 224 226 228 230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296
SPECIFIED CLEARANCE / NO. ADJUSTMENT REQUIRED
0.25 – 0.29
224 226 228 230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.30 – 0.34
230 232 234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.35 – 0.39
234 236 238 240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.40 – 0.44
240 242 244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.45 – 0.49
244 246 248 250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.50 – 0.54
250 252 254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.55 – 0.59
254 256 258 260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.60 – 0.64
260 262 264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.65 – 0.69
264 266 268 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.70 – 0.74
270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.75 – 0.79
274 276 278 280 282 284 286 288 290 292 294 296 298 300
0.80 – 0.84
280 282 284 286 288 290 292 294 296 298 300
0.85 – 0.89
284 286 288 290 292 294 296 298 300
0.90 – 0.94
290 292 294 296 298 300
0.95 – 0.99
294 296 298 300
1.
2.
3.
Measure tappet clearance “Engine cold”.
Measure present shim size.
Match clearance in vertical column with present shim size in horizontal column
[ EXAMPLE ]
Tappet clearance is — 0.35 mm
Present shim size — 2.40 mm
Shim size to be used — 2.56 mm
IDLE SPEED
Inspect initially after 20 hours (1 month) and every 200 hours (12 months) thereafter.
NOTE:
•
•
Before checking idle speed, the engine should be allowed to warm up.
Check and / or adjust idle speed after engine speed has stabilized.
(1) Remove bolt and No.1 ignition coil.
(2) Connect special tool (H . T cord with plug cap adapter) between No.1 ignition coil and spark plug.
z 09930-88720 : H . T cord with plug cap adapter
(3) Start engine.
(4) Attach engine tachometer to the special tool.
z 09900-26006 : Engine tachometer
(5) Check engine speed.
Idle speed (no load) : 800 – 900 r / min
ADJUSTMENT :
If the idle speed is out of specification, adjust it as follows :
(6) Remove IAC hose from silencer case.
(7) To stop the airflow from the IAC passage, pinch the IAC valve hose closed.
(8) Adjust the engine speed to approx. 800 r / min. by turning the by-pass airscrew.
Turning airscrew clockwise : Engine speed will
decrease.
Turning airscrew counterclockwise
: Engine speed will increase.
PERIODIC MAINTENANCE 2-14
2-15 PERIODIC MAINTENANCE
(9) Release pinch, allowing air to the IAC valve, and recheck if engine speed is stable at 800 – 900 r / min.
NOTE:
The idling / trolling speed of 800 – 900 r / min. is controlled by the IAC ( idle air control ) system.
If the engine speed does not return to specification, the IAC passage (including the IAC hose and silencer) may be clogged or the IAC system may not operating correctly.
See the “IDLE AIR CONTROL SYSTEM” section, 3-20.
NOTE:
Trolling speed (in-gear idle speed) is the same as idle speed.
(10) Reinstall parts removed earlier.
IGNITION TIMING
Inspect every 200 hours (12 months)
NOTE:
Before checking the ignition timing, make sure idle speed is adjusted within the specification.
(1) Start the engine.
(2) Attach the timing light cord to the No.1 ignition coil primary wire .
z
09930-76420 : Timing light
(3) Check the ignition timing while operating the engine at 1000 r / min.
Ignition timing : Approx. BTDC 7° at 1000 r / min.
BREATHER AND FUEL LINE
• Inspect initially after 20 hours (1 month) and every
50 hours (3 months) thereafter.
• Replace every 2 year.
If leakage, cracks, swelling or other damage is found, replace the breather line and / or fuel line.
PERIODIC MAINTENANCE 2-16
LOW PRESSURE FUEL FILTER
• Inspect before every use.
• Replace every 400 hours or 2 years.
If water accumulation, sediment, leakage, cracks, or other damage is found, replace the fuel filter.
2-17 PERIODIC MAINTENANCE
HIGH PRESSURE FUEL FILTER
Replace every 1000 hours.
SUZUKI recommends that the high pressure fuel filter be replaced every 1000 operating hours.
WATER PUMP / WATER PUMP IMPELLER
WATER PUMP
Inspect every 200 hours (12 months).
Inspect case and under panel.
Replace If wear, cracks, distortion or corrosion is found.
WATER PUMP IMPELLER
Replace every 200 hours (12 months).
Inspect water pump impeller.
Replace if vanes are cut, torn or worn.
PROPELLER / NUT / COTTER PIN
Inspect initially after 20 hours (1 month) and every 100 hours (6 months) thereafter.
• Inspect the propeller for bent ,chipped or broken blades.
Replace propeller if damage noticeably affects operation.
• Inspect propeller splines. Replace propeller if splines are worn or damaged.
• Inspect propeller bush for slippage.
Replace if necessary.
• Make sure the propeller nut and cotter pin are installed securely.
ANODES AND BONDING WIRES
Inspect every 50 hours (3 months).
ANODES
If 2/3 of the zinc anode has corroded away, replace the anode.
B
Never paint the anode.
NOTE:
The anode securing bolt should be covered with Suzuki Silicone Seal.
k 99000-31120 : Suzuki Silicone Seal
BONDING WIRES
• If breakage or other damage is found on the wire, replace the wire.
• If rust, corrosion, or other damage is found on terminal, clean with cleaning solvent or replace the wire.
NOTE:
The insulation washer must be installed between the terminal and the motor body.
PERIODIC MAINTENANCE 2-18
Anode k
Bonding wire terminal
Insulation washer
2-19 PERIODIC MAINTENANCE
BATTERY
Inspect every 50 hours (3 months)
A
• Never expose battery to open flame or electric spark as batteries generate gas, which is flammable and explosive.
• Battery acid is poisonous and corrosive. Avoid contact with eyes, skin, clothing, and painted surfaces.
If battery acid comes in contact with any of these, flush immediately with large amounts of water.
If acid contacts the eyes or skin, get immediate medical attention.
• Batteries should always be kept out of reach of children.
• When checking or servicing the battery, disconnect the negative (black) cable. Be careful not to cause a short circuit by allowing metal objects to contact the battery posts and the motor at the same time.
• Wear approved eye protection.
Recommended battery :
12 V 70 Ah (252 kC) or larger
CONNECTING BATTERY
Upon completion of connection, lightly apply grease to the battery terminals.
How to connect :
(1) Connect the positive (+) terminal first.
(2) Connect the negative (–) terminal second.
How to disconnect :
(1) Disconnect the negative (–) terminal first.
(2) Disconnect the positive (+) terminal second.
PERIODIC MAINTENANCE 2-20
BATTERY SOLUTION LEVEL CHECK
Battery solution level should be between the UPPER level and
LOWER level.
If the level is low, add distilled water only.
B
Once the battery has been initially serviced, NEVER add diluted sulfuric acid, or you will damage the battery. Follow the battery manufacture’s instructions for specific maintenance procedures.
BATTERY SOLUTION GRAVITY CHECK
Measure the gravity of battery solution using a hydrometer.
Battery solution gravity : 1.28 at 20°C z
09900-28403 : Hydrometer
BOLT AND NUTS
Inspect initially after 20 hours (1 month) and every 100 hours (6 months) thereafter
Check that all bolt and nuts listed below are tightened to their specified torque.
ITEM
Cylinder head cover bolt
Intake manifold bolt / nut
Flywheel bolt
ECM ground bolt
Power unit mount bolt
Clamp bracket shaft nut
Gear case bolt
Propeller nut
6 mm
8 mm
8 mm
10 mm
N . m
10
11
23
200
10
23
50
43
23
55
Tighten torque kg-m
1.0
1.1
2.3
20.0
1.0
2.3
5.0
4.3
2.3
5.5
lb.-ft.
7.2
7.9
16.5
145
7.2
16.5
36.0
31
16.6
40.0
2-21 PERIODIC MAINTENANCE
FUEL MIXTURE CHECK (O
2
FEEDBACK)
Perform every 2 years.
B
Before performing a fuel mixture check (O
2
feedback), the outboard motor must be checked to be sure that it is free of any trouble codes or operational problems.
NOTE:
See “O
2
FEEDBACK SYSTEM” section on page 3-32 before starting O
2
feedback operation.
There are two methods available for performing the O
2
feedback operation :
(a) Using a personal computer and the Suzuki Diagnostic System software.
(Suzuki recommends using this method as it is possible to monitor the feedback condition.)
(b) Using the diagnostic harness without a personal computer.
Refer to the “ Suzuki Diagnostic System operation manual” for the “a” method procedure.
The “b” method procedure is as follows :
A
To prevent any sudden boat movement, the boat must be securely moored to the dock while the test wheel equipped engine is running in gear during the feedback test procedure.
1. Remove propeller and install a test wheel.
09914-79410 : Test wheel
2. Remove grommet
1
and stbd.lower side cover.
(See page 7-1)
PERIODIC MAINTENANCE 2-22
3. Remove plug
2
from oil pump case and install the O
2
sensor
3
and protector sleeve
4
.
z
18213-74F00 : O
2
sensor
18498-99E40 : Protector sleeve
B
The O
2
sensor used for the feedback test procedure must be in proper working order and installed securely.
If either sensor or installation is improper, the O
2 feedback operation will be performed incorrectly and could possibly result in engine operating problems.
NOTE:
• The O
2 sensor is NOT WATERPROOF.
Cover O
2
sensor with the protector sleeve to protect from water spray.
• Cut off the protector (P/N 18498-99E40) to a length of 20 –
30 cm (7.8 – 11.8 in.). The O2 sensor must be completely covered as shown.
4. Connect the diagnostic harness to both O
2
sensor and engine harness connectors.
z
09932-79910 : Diagnostic harness
4
2-23 PERIODIC MAINTENANCE
5. Install stbd.side lower cover.
NOTE:
Route the diagnostic harness through clearance between remote control cable holder plate and side cover.
6. Make sure none of the six diagnostic harness single lead wire connectors (located next to the diagnostic adapter plug) are connected.
7. Install motor cover.
8. Warm up the engine until it is stable at idle speed, then shift into forward.
NOTE:
The O
2
feedback operation must be performed under engine load.
Do not perform the O
2
feedback operation using warm-up lever without first shifting into forward gear.
9. Connect one of the diagnostic harnesses single Black lead wires and the single Red lead wire together.
NOTE:
If engine stalls when doing step “9”, raise engine speed to slightly higher than trolling before repeating step “9”.
Black
Red
10. Adjust engine speed to 2500±100 r/min (ZONE 1) and hold for a minimum of 20 seconds.
• If buzzer sounds for approx.3 seconds, the feedback op-
eration at this ZONE was successfully finished.
Go to next step (ZONE 2).
• If no buzzer sounds within approx.2 minutes, the feedback operation at this ZONE failed.
Ignore this ZONE and proceed to next step (ZONE 2).
11. Repeat the procedure in step “10” at 3500±100 r/min (ZONE
2).
12. Repeat the procedure in step “10” at 4500±100r/min (ZONE
3).
13. If the feedback operation at any ZONE failed, repeat the feedback operation at that ZONE.
14. Return the throttle to a full closed position only after the feedback operation at all ZONEs has been successfully finished.
NOTE:
Do not close throttle fully for more than 10 seconds while feedback operation is being performed.
This will cause the O
2
feedback operation to finish with incomplete data.
15. Approximately 10 seconds after closing the throttle, the buzzer will sound as follows:
• If the total feedback operation was successfully finished,
a series of short (0.5 sec.) buzzer sounds will be heard.
• If the total feedback operation failed, a series of long (3 sec.) buzzer sounds will be heard.
PERIODIC MAINTENANCE 2-24
2-25 PERIODIC MAINTENANCE
16. When finished with the O
2
feedback operation, disconnect the diagnostic harness Black and Red lead wires.
17. If retrying feedback operation , repeat procedure used in steps “6” and “9” through “16”.
NOTE:
Repeat the O
2
feedback operation with a new O
2
sensor if :
• The total feedback operation finished without returning the throttle to a fully closing position.
• The total feedback operation failed repeatedly.
B
The O
2
sensor is only used when performing the O
2 feedback operation.
After O
2
feedback operation is completed the original plug must be installed in the oil pump case.
18. Assembly is reverse order of disassembly.
Black
Red
OIL PRESSURE
Oil pressure ( at normal operating temp. ):
295 - 373 kPa (3.0 - 3.8 kg/cm 2 , 42 - 54 psi.)
at 4000 r / min.
NOTE:
The figure shown above is a guideline only, not an absolute service limit.
If oil pressure is lower or higher than specification, the following causes may be considered.
(See page 6-66 for oil passage locations)
Low oil pressure
• Clogged oil filter
• Leakage from oil passages
• Defective oil pump
• Defective oil pressure regulator
• Damage O-ring
• Combination of above items.
High oil pressure
• Using an engine oil of too high viscosity
• Clogged oil passage
• Clogged oil pressure regulator
• Combination of above items
PERIODIC MAINTENANCE 2-26
TEST PROCEDURE
(1) Check the engine oil level.
(2) Remove the PORT side lower cover.
(3) Remove the plug
1
for oil pressure service port.
(4) Install the oil pressure gauge in place of service port.
z
09915-77310 : Oil pressure gauge
09915-78211 : Oil pressure gauge adapter
1 z
2-27 PERIODIC MAINTENANCE
(5) Remove bolt and No.1 ignition coil.
(6) Connect special tool (H . T cord with plug cap adapter) between No.1 ignition coil and spark plug.
z 09930-88720 : H . T cord with plug cap adapter
(7) Attach engine tachometer to the special tool.
z
09900-26006 : Engine tachometer
(8) Start the engine and warm up engine as follow :
Summer : 5 min. at 2000 r / min.
Winter : 10 min. at 2000 r / min.
(9) After warming up, shift into forward gear and increase the engine speed to 4000 r / min. then compare the pressure indicated on the gauge to specifications.
(10) After testing, reinstall parts removed earlier. (plug, side lower cover, etc.)
CYLINDER COMPRESSION
Cylinder compression :
Standard : 1300 – 1600 kPa (13 - 16 kg / cm 2 ,
185 – 228 psi.)
Max. difference between any two cylinders :
100kPa (1.0 kg / cm 2 , 14 psi.)
NOTE:
Figures shown are guidelines only, not absolute service limits.
Low compression pressure can indicate one or more of the following :
• Excessively worn cylinder wall
• Worn piston or piston rings
• Stuck piston rings
• Poor seating of valves
• Ruptured or otherwise damaged cylinder head gasket
TEST PROCEDURE
(1) Start engine and allow to warm up, then shut engine off.
(2) Remove the STBD / PORT engine side lower cover.
(3) Remove all spark plugs.
(4) Install the compression gauge into the plug hole.
z
09915-64510 : Compression gauge
09915-63210 : Compression gauge adaptor
(5) Disconnect the safety lanyard from the emergency stop switch.
A
Disconnect the safety lanyard from the emergency stop switch prior to cranking the engine.
This will prevent any residual fuel discharged from the cylinders being ignited by a spark discharge from the ignition coil.
(6) Disconnect the remote control throttle cable from the throttle lever.
(7) Move and hold the throttle lever in the full-open position.
(8) While cranking the engine with the starter motor, note the maximum compression pressure reading on the gauge for each cylinder.
(9) Reinstall parts removed earlier. ( spark plug, side lower cover, etc.)
PERIODIC MAINTENANCE 2-28
ENGINE CONTROL SYSTEM
CONTENTS
ENGINE CONTROL SYSTEM STRUCTURE ____________________
3-1
SYSTEM STRUCTURE 1 ................................................................................ 3-1
SYSTEM STRUCTURE 2 ................................................................................ 3-2
WIRING DIAGRAM FOR ENGINE CONTROL ............................................... 3-3
COMPONENTS FOR SYSTEM CONTROL ______________________
3-4
ENGINE CONTROL MODULE (ECM) ............................................................ 3-4
ECM CONNECTORS / TERMINALS LAYOUT ............................................... 3-5
ECM INTERNAL STRUCTURE ....................................................................... 3-6
SENSOR AND SWITCH .................................................................................. 3-7
IGNITION SYSTEM ________________________________________
3-11
IGNITION CONTROL SYSTEM ...................................................................... 3-11
ELECTRONIC FUEL INJECTION SYSTEM _____________________
3-13
FUEL INJECTION CONTROL SYSTEM ......................................................... 3-13
FUEL DELIVERY SYSTEM COMPONENTS .................................................. 3-15
FUEL PUMP CONTROL SYSTEM.................................................................. 3-18
AIR INTAKE COMPONENTS .......................................................................... 3-19
IDLE AIR CONTROL SYSTEM OUTLINE ...................................................... 3-20
CAUTION SYSTEM ________________________________________
3-22
OVER-REVOLUTION CAUTION SYSTEM ..................................................... 3-22
LOW OIL PRESSURE CAUTION SYSTEM .................................................... 3-23
OVERHEAT CAUTION ..................................................................................... 3-24
LOW BATTERY VOLTAGE CAUTION SYSTEM ............................................. 3-25
SELF-DIAGNOSTIC SYSTEM ________________________________
3-26
PRIORITY / CODE / PATTERN FOR SELF-DIAGNOSTIC
SYSTEM OPERATION .................................................................................... 3-26
CONDITION FOR SELF-DIAGNOSTIC SYSTEM OPERATION .................... 3-28
FAIL-SAFE SYSTEM _______________________________________
3-29
PRE-PROGRAMMED VALUE FOR FAIL-SAFE SYSTEM ............................ 3-29
OPERATING HOUR INDICATION SYSTEM _____________________
3-30
START-IN-GEAR PROTECTION SYSTEM ______________________
3-31
O
2
FEEDBACK SYSTEM _____________________________________
3-32
INSPECTION _____________________________________________
3-33
PRECAUTION ON SYSTEM INSPECTION .................................................... 3-33
INSPECTION FOR ECM CIRCUIT VOLTAGE ................................................ 3-33
INSPECTION FOR RESISTANCE .................................................................. 3-35
OTHER INSPECTION ...................................................................................... 3-36
TROUBLESHOOTING ______________________________________
3-41
REMOVAL / INSTALLATION _________________________________
3-47
FLYWHEEL / CKP SENSOR / CMP SENSOR ............................................... 3-47
OIL PRESSURE SWITCH ............................................................................... 3-50
3
3-1 ENGINE CONTROL SYSTEM
ENGINE CONTROL SYSTEM STRUCTURE
The DF40 / DF50 models employ an integrated control system which performs the control functions for fuel injection, ignition, idle / trolling speed (idle air), etc. through the ECM (Engine control module).
SYSTEM STRUCTURE 1
INPUT
(sensor / switch)
CONTROL
(ECM)
OUTPUT
(actuator etc.)
CKP sensor
CMP sensor
MAP sensor
IAT sensor
Cylinder temp. sensor
Exhaust manifold temp. sensor
CTP switch
Neutral switch
Oil pressure switch
O
2
sensor (optional)
Fuel injection system
Ignition system
Idle air system
Fuel pump system
Caution system
Self-diagnostic system
Fail-safe system
Operating hour indication system
Start-in-gear protection system
O
2
feedback system
Fuel injector
Ignition coil
IAC valve
High pressure fuel pump
Caution buzzer
Monitor-tachometer
Starter motor
[Abbreviation]
ECM (Engine control module)
CKP (Crankshaft position sensor)
CMP (Camshaft position sensor)
MAP (Manifold absolute pressure sensor)
IAT (Intake air temperature sensor)
CTP (Close throttle position switch)
IAC (Idle air control valve)
SYSTEM STRUCTURE 2
ENGINE CONTROL SYSTEM 3-2
3-3 ENGINE CONTROL SYSTEM
WIRING DIAGRAM FOR ENGINE CONTROL
No.1
Cyl.
No.2
Cyl.
No.3
Cyl.
Alternator
Battery charge coil
W W W
Rectifier & regulator
Gr Gr
Gr
W
To PTT sw.
30A fuse
W
ECM main relay
Gr
IAC valve
W
Remo-con box
Ignition sw.
Gr
Ignition coil
Gr
B/R B4
B5
B/G
Bl/Y
R/Y
G/Y
O/Y
B
Communication connector
P/B
D5
C10
C11
D9
D12
B2
B
Gr
Br
B
G
W
O
Stop
sw.
B
Bl/R C1
O
C12
O Bl
ENGINE
CONTROL
MODULE
G
M
R
Neutral sw.
Buzzer
Gr Bz
R
Y/G
Br
Bl
Gr
Y/G
Br
Neutral sw.
Br C8
Y/G
Bl/W
C11
C7
REV
OIL
TEMP
Bl/B C6
G/Y C4
C/E
G/W C3
P C5
Battery
B
Y/B C2
Monitortachometer B B B B
Spark plug
Gr
Gr
A4 O/B
Gr
A7 B/Y
A8 R/W
Gr
Gr
E2 O/G
Fuel injector
No.1 Cyl.
No.2 Cyl.
No.3 Cyl.
B/W
CMP sensor
E4
E3
E1
R/B
W/B
R/W No.1
B1
Gr
No.3
No.2
CKP sensor
15A Fuse
B/W
P
FP
High press.
fuel pump
B/W
D1 B/W
D6 Lg/B
IAT sensor
D3
C9
Lg/W
Cyl. temp.
sensor
V/W
Ex-mani temp.sensor
D2
D7
R
W
D8
Lg/R
D4 Bl
Oil press. sw.
B/W
MAP sensor
CTP sw.
ENGINE CONTROL SYSTEM 3-4
COMPONENTS FOR SYSTEM CONTROL
ENGINE CONTROL MODULE (ECM)
The ECM sends signals to control the actuators based on the information inputs from each sensor / switch.
Major controls are as follows:
NAME OF CONTROL
Fuel injection control
Ignition control
Idle air control
Fuel pump control
Caution system control
DESCRIPTION
• Controls fuel injection amount and timing.
• Controls ignition timing.
• Controls idling/trolling speed by adjusting intake air amount through IAC valve.
• Controls high pressure fuel pump drive.
• Informs operator of abnormal engine condition.
• Controls engine speed.
• Informs operator of sensor / switch malfunction.
Self-diagnostic system control
Fail-safe system control
Operating hour indication system control
Start-in-gear protection system control
O
2
feedback system control
• Allows operation during sensor/ switch malfunction.
• Informs operator of total operating time in units of 50 hours.
• Prevents engine start when shift is positioned in forward or reverse.
• Controls and performs O
2
feedback operation using optional O
2
sensor.
NOTE:
The information related to the Caution system, Self-Diagnostic System, Operating hour indication system and O
2
feedback system are retained in ECM memory.
3-5 ENGINE CONTROL SYSTEM
ECM CONNECTORS / TERMINALS LAYOUT
A B C D E
C4
C5
C6
C7
B6
C1
C2
C3
C8
C9
C10
C11
C12
B2
B3
B4
B5
A6
A7
A8
B1
TERMI-
NAL
A1
A2
A3
A4
A5
ECM CIRCUITS
WIRE
COLOR
Bl
CIRCUIT
B
G
O/ B
O
B
B/ Y
No.2 Ignition (–)
Ground for power source
No.3 Ignition (–)
No.1 Fuel injector (–)
No.1 Ignition (–)
Ground for power source
No.2 Fuel injector (–)
R/W No.3 Fuel injector (–)
B / W Fuel pump (–)
P / B Ground for ECM main relay
B Ground for ECM
B / R IAC valve solenoid (–)
Gr ECM power source
B Ground for ECM
Bl / R Emergency stop switch
Y / B Tachometer
G/ W CHECK ENGINE lamp
G / Y TEMP lamp
P REV-LIMIT lamp
Bl / B OIL lamp
Bl / W Buzzer
Br Neutral switch
V / W Ex-manifold temperature sensor
Bl / Y PC communication
R / Y PC communication
O Buzzer cancel
D10
D11
D12
E1
D6
D7
D8
D9
TERMI-
NAL
D1
D2
D3
D4
D5
E2
E3
E4
WIRE
COLOR
CIRCUIT
B / W Ground for sensors
R Power source for MAP sensor
Lg/ W Cylinder temperature sensor
Bl Oil pressure switch
B / G O
2
feed-back / PC communication
Lg/ B IAT sensor
W MAP sensor
Lg/R CTP switch
G / Y PC communication
— —
Y / G Engine start switch (signal)
O / Y PC communication
R/W CKP sensor No.3
O / G CMP sensor
W / B CKP sensor No.2
R / B CKP sensor No.1
ECM INTERNAL STRUCTURE
ENGINE CONTROL SYSTEM 3-6
3-7 ENGINE CONTROL SYSTEM
SENSOR AND SWITCH
CKP (Crankshaft Position) SENSOR
There are three (3) CKP sensors installed below the flywheel rotor.
When the reluctor bar on the flywheel passes the sensors, a signal (voltage pulse) is generated and sent to the ECM.
This is the fundamental signal used to judge the engine speed and crankshaft angle.
CMP (Camshaft Position) SENSOR
A CMP sensor mounted on the cylinder head cover and a reluctor bar pressed onto the end of the intake camshaft are used to detect piston position. The signal from this sensor is received by the ECM which uses it to determine sequential fuel injection control.
The CMP sensor contains a “Hall Effect” semiconductor and a magnet. The semiconductor generates a voltage in proportion to the line of magnetic force passed through it. When the single trigger vane on the camshaft reluctor aligns with the sensor’ internal magnet, a large amount of magnetic force is generated allowing a high voltage to pass through the semiconductor. When the trigger vane moves away from the sensor, no magnetic force is generated and low voltage passes through the semiconductor.
These generated voltages are rectified to create “ON” (high voltage) & “OFF” (low voltage) signals for ECM. The “ON” voltage signal indicates the position of #1 piston. The position of
#2 and #3 pistons, “OFF” signal, follow in firing sequence order based on the now established position of #1 piston.
Camshaft
Trigger vane
“Hall Effect” semiconductor
Magnet
CMP sensor High voltage
Low voltage
CYLINDER TEMPERATURE SENSOR
The cylinder temperature sensor is installed on the cylinder
(top side) and used to detect the cylinder temperature.
This is a thermistor type sensor (resistance of which changes depending on the temperature) and inputs a signal to the ECM as a voltage value. This input signal is used to compensate the fuel injection time duration, ignition timing, etc.
This sensor is also used to detect engine over-heat as the
ECM detects both the temperature and temperature change gradient (temperature rise Vs time).
ENGINE CONTROL SYSTEM 3-8
(k W )
Temperature (°C)
EXHAUST MANIFOLD TEMPERATURE SENSOR
The exhaust manifold temperature sensor is installed on the exhaust manifold and used to detect the exhaust manifold temperature. This sensor is the same type as the cylinder temperature sensor, and inputs a signal to the ECM as a voltage value. This input signal is also used to detect engine over-heat.
IAT (Intake Air Temperature) SENSOR
The IAT sensor is installed on the bottom of the air silencer and used to detect the intake air temperature.
This sensor is the same type as the cylinder temperature sensor, and inputs a signal to the ECM as a voltage value.
This input signal is used to compensate the fuel injection time duration.
MAP (Manifold Absolute Pressure) SENSOR
The MAP sensor is installed on the intake manifold and used to detect the intake manifold pressure. It also detects the barometric pressure before starting the engine. This sensor inputs the intake manifold pressure to the ECM as a voltage value.
This input signal is used as the fundamental signal to determine the fuel injection time duration, ignition timing, etc.
3-9 ENGINE CONTROL SYSTEM
CTP (Closed Throttle Position) SWITCH
The CTP switch is installed on the top of throttle body and used to detect whether the throttle is fully closed or not.
This switch inputs the signal to the ECM. The ECM detects the throttle position and determines the control modes for various control system (idle air control, ignition timing control, etc.).
NEUTRAL SWITCH
The neutral switch is installed on the cylinder block (PORT side) and used to detect the shift position.
This switch is “ON” in neutral and “OFF” in forward or reverse.
The ECM detects shift position and performs the following controls :
• Fuel injection is not performed when the shift is in forward or reverse at the time of engine start.
(Start-in-gear protection)
• When the shift is in neutral, fuel injection is controlled so that the engine speed does not exceed 3000 r/min.
• When the shift is in neutral, if the engine speed exceeds
1200 r/min, the ignition timing is fixed at BTDC 9°.
• For two seconds after shifting into forward or reverse from neutral, the IAC valve is controlled so that intake air increases to prevent unstable engine idle or stalling.
ECM MAIN RELAY
The ECM main relay is installed in the electric parts holder.
When energized by the turning ignition switch ON, it forms the circuit which supplies battery voltage to the ECM, injector, ignition coil, IAC valve, CMP sensor and high pressure fuel pump.
O
2
SENSOR (Optional item)
The O
2
sensor is installed in the exhaust manifold only when the O
2
feedback operation is performed.
This sensor is a zirconia element (platinum plated) the output voltage of which changes depending on the oxygen concentration. The voltage change reflects the concentration of the oxygen in the exhaust gas and is used to perform the O
2
feedback operation.
The terminal voltage change (0 – 1 V) is dependent on the concentration of oxygen in the exhaust gas.
This detected voltage value therefore represents the oxygen concentration. The terminal voltage decreases when the oxygen concentration is high, and increases when it is low.
NOTE:
As the zirconia element is not conductive below 250°C, the O
2 sensor will not function properly until the engine is at normal operating temperature.
NOTE:
Zirconia element
The zirconia element produces a potential difference (voltage) when there is a difference in the oxygen concentration of the gases which contact the two sides of the element.
Since the inner surface of the zirconia element (inside the sensor) is exposed to atmospheric air and the outer surface exposed to the exhaust gas, there is a difference in oxygen concentration on each side and thus a difference in the potential generated.
ENGINE CONTROL SYSTEM 3-10
Zirconia element
Housing
3-11 ENGINE CONTROL SYSTEM
IGNITION SYSTEM
The ignition system used by the DF40/DF50 is a fully transistorized, electronic microcomputer timing advanced type.
On this system, power is totally supplied from the battery with the ECM controlling all ignition timing functions.
The ignition system is composed of the ignition coil, spark plug and components for system control (ECM, sensor,switch etc.)
When the ignition switch is “ON”, battery voltage (12V) is applied to the circuit as shown in the illustration.
At the calculated time of ignition, the transistor in the ECM turns “OFF”, breaking the ground circuit.
In this way, a mutual induction high voltage occurs in the ignition coil secondary side and spark is generated.
ECM
Battery charge coil
CPU
Sensor/switch signal input
Rectifier & regulator
ECM main relay
Spark timing
30A fuse
(Voltage)
Ignition coil
Ignition switch Spark plug
12V
Battery
A terminal voltage (Time)
IGNITION CONTROL SYSTEM
OUTLINE
Sensors at specific points on the engine monitor current engine conditions and send signals to the ECM.
Based on these signals, the ECM determines the optimum ignition timing and releases voltage to the ignition coils.
Basic sensors
MAP sensor :
Informs ECM of intake manifold pressure.
CKP sensor :
Informs ECM of engine speed and crankshaft angle.
ECM
Ignition timing is determined by a digital map designed in relation to intake manifold pressure and engine speed.
Compensating sensors
Cylinder temperature sensor :
Informs ECM of cylinder temperature.
Ignition timing compensation.
Switches
CTP switch :
Informs ECM of throttle position (open / closed).
Ignition switch :
Informs ECM of “START” signal.
Signal Signal Signal
Ign.coil
Ign.coil
Spark plug
Ign.coil
ENGINE CONTROL SYSTEM 3-12
IGNITION TIMING CHART
The following chart is an example for ignition at BTDC30°.
BTDC 65° on #1 exhaust stroke
120° 120° 120° 60°
CKP Sensor Signal 1
CKP Sensor Signal 2
CKP Sensor Signal 3
CMP Sensor Signal
#1 Ignition Signal
30°
30°
ON
OFF
In.
Cm.
TDC
Ep.
#3 Ignition Signal
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Spark timing
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
E
#2 Ignition Signal
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
In.: Intake, Cm.: Compression, Ep.: Explosion Ex.: Exhaust
CONTROL MODE
WHEN CRANKING :
The ignition timing is fixed at BTDC 7° until the engine starts.
WHEN IDLING / TROLLING :
The ignition timing is controlled to within the range of BTDC 5° to 13° to provide stable engine operation at the specified idling / trolling speed.
When the shift lever is in neutral, if engine speed exceeds 1200 r / min , ignition timing remains fixed at
BTDC 9°.
WHEN RUNNING (NORMAL OPERATION) :
The ignition timing ranges between BTDC 0° – 32° (DF40) or 25° (DF50), depending on current engine operating conditions.
WHEN DECELERATING :
When the throttle valve is closed suddenly, turning the CTP switch “ON”, ignition timing is delayed for a programmed duration to prevent engine stalling or unstable running.
SPECIFICATION
Ignition system
Advance
Ignition timing
Firing order
Full-transistorized ignition
Electronic microcomputer control
DF 40 : BTDC 0° – 32°, DF 50 : BTDC 0° – 25°
1 – 3 – 2
3-13 ENGINE CONTROL SYSTEM
ELECTRONIC FUEL INJECTION SYSTEM
The fuel injection system used by the DF40/50 is a speed-density, multi-point, sequential, electronic fuel injection type.
The fuel injection system is composed of the fuel line components, air intake components , and components for system control (ECM,sensors, switches, etc.).
FUEL INJECTION CONTROL SYSTEM
OUTLINE
The sensors monitor current engine condition and send signals to the ECM. Based on these signals, the
ECM determines the optimum fuel injection time duration (fuel amount) and fuel injection timing (multi- point sequential timing) and controls the injector operating signals accordingly.
Fuel injection timing is set at a constant compression stroke.
ECM
Basic sensors
MAP sensor :
Informs ECM of intake manifold pressure.
CKP sensor :
Informs ECM of engine speed and crankshaft angle.
Fuel injection time duration
(amount) is determined by a digital map designed in relation to intake manifold pressure and engine speed.
Compensating sensors
Cylinder temperature sensor:
Informs ECM of cylinder temperature.
IAT sensor:
Informs ECM of intake air temperature.
MAP sensor:
Informs ECM of barometric pressure at time of engine starting.
Battery voltage:
Fuel amount compensation
Multi-point sequential timing
Signal Signal Signal
Others
CMP sensor:
Informs ECM of camshaft angle.
CTP switch:
Informs ECM of throttle position (open / closed).
Neutral switch:
Informs ECM of shift position (neutral or nut).
Injector
ECM
CPU
Battery charge coil
Rectifier & regulator
30A fuse
ECM main relay
Sensor/switch signal input
(Voltage)
Injection time duration
12V
Ignition switch
Battery A terminal voltage
(Time)
Injector
ENGINE CONTROL SYSTEM 3-14
FUEL INJECTION TIMING CHART
BTDC 65° on #1 exhaust stroke
120° 120° 120° 120° 60°
CKP Sensor Signal 1
CKP Sensor Signal 2
CKP Sensor Signal 3
CMP Sensor Signal
30°
BTDC 545° on #1 exhaust stroke
#1 Injection Signal
ON
OFF
In.
Cm.
TDC
Ep.
Injection time duration
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
#3 Injection Signal
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
#2 Injection Signal
Cm.
Ep.
TDC
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
Cm.
TDC
Ep.
Ex.
TDC
In.
In.: Intake, Cm.: Compression, Ep.: Explosion Ex.: Exhaust
CONTROL MODE
BEFORE START :
When the ignition switch is turned “ON”, the ECM receives a MAP sensor signal, indicating the static barometric pressure of the intake manifold, which is used to compensate the fuel injection map for altitude.
WHEN CRANKING :
Fuel is simultaneously injected to all cylinders every time any piston is positioned at compression stroke.
AFTER START (FAST-IDLE FUNCTION):
The fuel injection amount is controlled to increase until the timer, set according to cylinder temperature at the time of engine start, expires.
WHEN IDLING / TROLLING :
The fuel injection amount is controlled to maintain a stable engine speed at the specified idle / trolling rpm.
WHEN ACCELERATING :
The fuel injection amount is controlled to increase.
WHEN DECELERATING :
The fuel injection amount is controlled to decrease.
The fuel injection is also cut off on very rapid engine deceleration.
3-15 ENGINE CONTROL SYSTEM
FUEL DELIVERY SYSTEM COMPONENTS
The fuel delivery system is composed of the low pressure line components (fuel tank, filter , pump etc.), fuel vapor separator, high pressure fuel pump, high pressure fuel filter, fuel pressure regulator (located in the fuel vapor separator), fuel injector and hoses.
Fuel is supplied through the primer bulb, low pressure fuel filter, and low pressure pump to the fuel vapor separator.
Fuel flow from the fuel vapor separator is pressurized by the high pressure fuel pump and supplied through the high pressure fuel filter and fuel delivery gallery to the fuel injectors.
The pressure regulator maintains fuel pressure in the feed line between the high pressure fuel pump and fuel injector.
This pressure , maintained at a constant level, is higher than the pressure in the vapor separator chamber.
When fuel feed line pressure exceeds vapor separator chamber pressure by more than approx. 250 kPa
(2.55 kg/cm 2 , 36.3 psi.), the valve in the fuel pressure regulator will open and return the excess fuel to the vapor separator chamber.
Pressurized fuel enters into the intake ports through the fuel injector based on the sequential signals supplied from the ECM.
Primer bulb
Fuel tank
High pressure fuel filter
Delivery gallery
High pressure fuel pump
Breather
hose
Fuel injector
Intake manifold
Throttle body
Fuel vapor separator
Evaporation hose
Fuel pressure regulator
Silencer
Low pressure fuel filter
Low pressure fuel pump
Exhaust manifold
ENGINE CONTROL SYSTEM 3-16
FUEL VAPOR SEPARATOR
The fuel vapor separator incorporates a float system that maintains a constant fuel level inside the separator chamber.
As the fuel level decreases, fuel flows into the vapor separator from the low pressure fuel pump.
The function of this unit is to separate vapors from fuel delivered by the low pressure fuel pump or fuel returned from the fuel pressure regulator.
This vapor is routed through the evaporation hose connecting the vapor separator cover to the air inlet cover over the flywheel.
HIGH PRESSURE FUEL PUMP
The high pressure fuel pump is an “integral” type in which the pump mechanism is located within the fuel vapor separator.
To supply the optimum fuel amount, the pump is driven by the duty cycle signal from ECM.
Fuel outlet
Evaporation
Fuel inlet
Valve seat
High pressure fuel pump
Needle valve
Float
Suction filter
Water inlet
(For cooling Fuel)
Water outlet
Fuel drain
Fuel return
Fuel pressure regulator
3-17 ENGINE CONTROL SYSTEM
FUEL PRESSURE REGULATOR
The fuel pressure regulator is located in vapor separator.
The regulator’ function in the system is to maintain a constant fuel pressure relative to the injector while the engine is operating.
The regulator diaphragm chamber is open to the vapor separator chamber to keep the pressure balanced.
Fuel pressure, adjusted by the regulator, is constantly maintained higher than the pressure in vapor separator chamber by approx. 250 kPa (2.55 kg/cm 2 , 36.3 psi.).
By-pass fuel is returned back to the fuel vapor separator chamber.
VALVE CLOSED
(below 2.55 kg/cm 2 )
VALVE OPENED
(over 2.55 kg/cm 2 )
To Vapor separator chamber
(Fuel return) from Delivery line from Delivery line
FUEL INJECTOR
The fuel injector is an electromagnetic valve operated by a signal from the ECM.
When the injection signal is supplied to the fuel injector, the solenoid coil is energized pulling up the plunger.
This opens the injector needle valve and injects fuel.
Because the fuel pressure is kept constant, the amount of fuel injected is determined by the amount of time (duration) the valve is open.
Filter
Fuel inlet
Plunger
Solenoid coil
Filter
Fuel inlet
Needle valve
ENGINE CONTROL SYSTEM 3-18
FUEL PUMP CONTROL SYSTEM
OUTLINE
To supply the optimum fuel amount, the ECM controls the fuel pump drive duty cycle, a repeated ON/ OFF signal, at a specified rate (1000 times a second).
Based on engine speed and battery voltage, the ECM determines the optimum duty (repeating “ON” time rate within a cycle) and sends this signal to the fuel pump.
CKP sensor :
Informs ECM of engine speed.
Battery voltage :
Ignition switch :
Informs ECM of “START” signal.
ECM Signal FP
Fuel pump
Battery charge coil
Rectifier & regulator
30A fuse
Battery
ECM
CPU
ECM main relay
Ignition switch
15A fuse
FP
Fuel pump
Sensor / switch signal input
Duty cycle signal for fuel pump
(example : 80% duty)
“ON” time
1 cycle time
× 100 = duty (%)
0.8 ms
OFF
ON
1 ms (1cycle)
Time
CONTROL MODE
BEFORE START :
For 3 seconds after ignition switch is turned “ON”, the pump is controlled to operate at 100% duty in order to initially pressurize the high pressure line.
WHEN CRANKING :
The pump is controlled to operate at 100% duty.
WHEN RUNNING (NORMAL OPERATION) :
The pump is controlled to operate at 80 – 90% duty based on the current engine speed and battery voltage.
3-19 ENGINE CONTROL SYSTEM
AIR INTAKE COMPONENTS
Air, after entering through the silencer, passes through the throttle body and flows into the surge tank where it is then distributed to the cylinder intake manifold.
Intake manifold pressure, monitored by the MAP sensor, is an indirect measure of the intake air amount.
When the throttle is fully closed, the main supply of intake manifold air necessary to sustain engine idle passes through the by-pass air passage.
To maintain engine idle speed at specification, the ECM controlled IAC valve supplies a regulated amount of additional air through the IAC (idle air control) passage.
AIR FLOW
By-pass air screw
Throttle body
By-pass air passage
Intake manifold
Frame arrester
(Surge tank)
Gas filter
MAP sensor
IAC passage
IAC valve
(Plunger)
Through passage in flywheel cover
THROTTLE BODY
The throttle body assembly consists of the main bore, throttle valve, air bypass / IAC passages, air by-pass adjustment screw and CTP switch.
The throttle body adjusts the intake air amount with the throttle valve which is connected to the throttle / linkage lever.
The CTP (closed throttle position) switch installed on the top of throttle body informs of throttle valve position.
NOTE:
Do not try to adjust or remove any of the throttle body component parts (CTP switch, throttle valve, throttle / linkage lever, etc.).
These components have been factory adjusted to precise specifications.
IAC valve silencer
Silencer
ENGINE CONTROL SYSTEM 3-20
BY-PASS AIR SCREW / PASSAGE
Since the throttle valve is almost fully closed when idling/ trolling, the main flow of air necessary to maintain idling / trolling speed passes through the by-pass air passage.
The by-pass air adjustment screw controls the flow of air through the passage and provides a means of partially adjusting the total amount of air necessary for idling / trolling.
NOTE:
See page 2-14 for the by-pass air screw adjustment procedure.
IAC VALVE / PASSAGE
The IAC valve is a solenoid plunger type mounted on the electrical parts holder.
Its purpose is to control the amount of intake air flowing from the IAC passage.
The IAC valve is driven by the duty cycle signal from the ECM.
IDLE AIR CONTROL SYSTEM OUTLINE
The ECM controls the duty cycle signal of the IAC valve to regulate a portion of the intake air flow to the intake manifold.
This system is used for the following purposes:
• To keep idling / trolling at the specified speed.
• To improve driveability when decelerating.
(Dash-pot effect)
• To improve engine starting and warm-up performance.
(Fast-idle function)
The sensors / switch shown below monitor current engine condition and send signals to the ECM. Based on these signals, the ECM determines the optimum duty cycle (repeating “ON” time rate within a cycle).
A repeating ON/OFF signal at a specified rate (10 times per / sec.) is then sent to the IAC valve.
CKP sensor :
Informs ECM of engine speed.
MAP sensor :
Informs ECM of intake manifold pressure.
CTP switch :
Informs ECM of throttle position (open/closed).
Cylinder temp. sensor :
Informs ECM of cylinder temperature.
ECM
Signal
IAC valve
3-21 ENGINE CONTROL SYSTEM
Battery charge coil
Rectifier & regulator
30A fuse
ECM main relay
Battery
Ignition switch
ECM
CPU
IAC valve
Sensor / switch signal input
Duty cycle signal for IAC valve
(example : 20% duty)
“ON” time
1 cycle time
× 100 = duty (%)
20 ms
OFF
ON
100 ms (1cycle)
Time
CONTROL MODE
BEFORE START:
The IAC valve is always closed when engine is not running. (0% duty)
WHEN CRANKING :
The IAC valve is controlled to operate at 100% duty.
AFTER START ( FAST-IDLE FUNCTION ) :
The IAC valve is controlled to operate at 100% duty until the timer, which was set according to cylinder temperature at cranking, expires.
WHEN IDLING / TROLLING :
The IAC valve is controlled so that the engine speed is stable at the idling / trolling speed specified.
During this period, the IAC valve has a duty cycle of approx. 20% but will vary slightly as idling / trolling conditions change.
WHEN RUNNING ( NORMAL OPERATION ) :
The IAC valve is controlled to operate at 20 – 100% duty, which depends on the current engine conditions.
WHEN DECELERATING ( DASH-POT EFFECT):
When the throttle valve is suddenly returned to full close and the CTP switch signal changes to “ON”, the
IAC valve operates at a controlled gradual return to idle / troll operating duty to prevent engine stalling or unstable running.
NOTE:
Due to the limited intake air flow from the IAC passage and in order to effectively use both the “Dash-pot effect” and “Fast-idle function”, the by-pass air screw must be adjusted to provide IAC valve operation at 20
± 5% duty at the engine idling / trolling specification.
See page 2-14 for the by-pass air screw adjustment procedure.
CAUTION SYSTEM
The following four caution systems alert the operator when an abnormality occurs on the engine.
• OVER-REVOLUTION CAUTION
• LOW OIL PRESSURE CAUTION
• OVERHEAT CAUTION
• LOW BATTERY VOLTAGE CAUTION
CAUTION
TYPE
Over-revolution
Low oil pressure
Overheat
Low battery voltage
CAUTION
LAMP
Yes 1
Yes
2
(
1
)
Yes 3 ( 1 )
Yes
4
CAUTION
BUZZER
No
Yes
Yes
Yes
OVER-REV
LIMITER
(3000 r/ min)
Yes
Yes
Yes
No
ENGINE CONTROL SYSTEM 3-22
MONITOR-TACHOMETER
4
3 2
1
“REV LIMIT” lamp
2
“OIL” lamp
3
“TEMP” lamp
4
“CHECK ENGINE” lamp
1
OVER-REVOLUTION CAUTION SYSTEM
CONDITION:
When the engine speed exceeds 6500 r/min(DF40) or 7000 r/min (DF50), the ECM initiates an intermittent fuel injection signal to provide a 6500 r/min or 7000 r/min maximum. (Over-revolution limiter)
ACTION:
Engine speed Automatically reduced to approx. 3000 r/min by intermittent fuel injection signal.
Caution lamp “REV-LIMIT” lamp lights continuously.
Caution buzzer No buzzer sounds.
RESET :
Close throttle to reduce engine speed below approx. 3000 r/min for one second.
3-23 ENGINE CONTROL SYSTEM
LOW OIL PRESSURE CAUTION SYSTEM
CONDITION :
Immediate activation of system when the oil pressure switch turns “ON” due to an engine oil pressure drop below 100 kPa ( 1.0 kg / cm 2 , 14 psi.).
ACTION :
Engine speed Automatically reduced to approx. 3000 r/min by intermittent fuel injection signal if the system is activated at 3000 r/min or higher.
Caution lamp “ OIL ” lamp lights continuously.
“ REV-LIMIT ” lamp lights continuously during engine speed rev-limiter activation.
Caution buzzer Sounds in a series of long (1.5 sec.) beeps.
RESET :
Stop engine and check engine oil level. Refill engine oil to the correct level if below the low oil mark.
If the engine oil level is correct, the following causes may be considered:
• Improper oil viscosity.
• Malfunctioning oil pressure switch.
• Clogged oil strainer or oil filter.
• Worn oil pump relief valve.
• Oil leakage from the oil passage.
• Excessive wear / damage of oil pump
NOTE:
The low oil pressure caution system is reset when the oil pressure is restored to over 1.0kg/cm 2 with approx.
3000 r/min or less engine speed operation.
However, the engine must be stopped and checked immediately once the system is activated.
ENGINE CONTROL SYSTEM 3-24
OVERHEAT CAUTION
CONDITION 1 (Maximum temperature)
Immediate activation of system when :
(a) Cylinder temperature reaches 121°C
(b) Exhaust manifold temperature reaches 121°C
CONDITION 2 (Temp. rise Vs Time)
Immediate activation of system when :
(a) The average temperature difference during three consecutive 10 second measurement periods of the cylinder temperature sensor at engine speeds of 500 r/min or higher exceeds the limits as shown below.
Temperature range
60 °C ~ 94 °C
95 °C ~
Temperature difference
1.6 °C
0.9 °C
(b) The average temperature difference during three consecutive 10 second measurement periods of the exhaust manifold temperature sensor at engine speeds of 500 r/min or higher exceeds the limits shown below.
Temperature range
80 °C ~ 94 °C
95 °C ~
Temperature difference
14.4 °C
1.4 °C
ACTION :
Engine speed Automatically reduced to approx. 3000 r/min by intermittent fuel injection signal if the system is activated at 3000 r/min or higher.
Caution lamp “TEMP” lamp lights continuously.
“REV- LIMIT” lamp lights continuously during engine speed limiter activation.
Caution buzzer Sounds in a series of long (1.5 sec.) beeps.
RESET :
Close throttle to reduce engine speed below approx. 3000 r/min.
When cylinder temperature drops below the limits as shown below, the system resets. However, the system may be activated again unless the cause for overheat (such as insufficient water) is removed.
Caution cause
Condition 1
(Maximum temperature)
Condition 2
(Temperature rise Vs Time)
Reset temperature
Approx. 65 °C
Approx. 70 °C
3-25 ENGINE CONTROL SYSTEM
LOW BATTERY VOLTAGE CAUTION SYSTEM
CONDITION :
System activated when battery voltage decreases to less than 9 volts for 30 seconds.
ACTION:
Engine speed No engine speed limiter is activated.
Caution lamp “CHECK ENGINE” lamp lights continuously.
Caution buzzer Sounds in a series of long (1.5 sec.) beeps.
RESET:
This caution system is automatically reset when battery voltage increases to more than 9 volts. Refrain from using electrical equipment requiring high amperage such as hydraulic trim tabs, hydraulic jack plate, etc.
after this caution is activated.
SELF-DIAGNOSTIC SYSTEM
The self-diagnostic system alerts the operator when an abnormality occurs in a signal from sensor, switch, etc.
When the system is activated, the “CHECK ENGINE” lamp flashes (lights intermittently) according to each code pattern along with a buzzer sound.
When engine is running, the buzzer sounds a series of short
(0.2 sec.) beeps.
When engine is not running, the buzzer sounds according to each code pattern, but not simultaneous with the lamp flash.
The buzzer sound, activated by the self-diagnostic system, can be temporally canceled by pushing the ignition key in.
ENGINE CONTROL SYSTEM 3-26
MONITOR-TACHOMETER
“CHECK ENGINE” lamp
PRIORITY / CODE / PATTERN FOR SELF-DIAGNOSTIC SYSTEM OPERA-
TION
PRIORITY
1
2
3
4
5
6
7
8
9
10
FAILED ITEM CODE LAMP FLASHING PATTERN
MAP sensor 1
CKP sensor
IAC valve/By-pass air screw adjustment
CMP sensor
CTP switch
Cylinder temp. sensor
IAT sensor
MAP sensor 2
(Sensor hose)
Rectifier & regulator
(Over-charging) [NOTE 2]
Exhaust manifold temp. sensor
3 – 2
1 – 1
1 – 5
3 – 4
4 – 2
3 – 1
2 – 4
2 – 2
1 – 4
2 – 3 on off on off on off on off on off on off on off on off on off on off
FAIL-SAFE SYSTEM
ACTIVE
YES
NO [NOTE1]
NO
YES
NO
YES
YES
NO
NO
YES
3-27 ENGINE CONTROL SYSTEM
NOTE:
• If more than two items fail at once, the self- diagnostic indication appears according to priority order. The indication repeats three times.
• If the failed item remains, the self-diagnostic indication appears again after turning the ignition switch
“ON”.
• After correcting failed item, the self-diagnostic indication appears until the ECM receives the proper signal with the engine running.
• For cylinder temp. sensor, exhaust manifold temp. sensor or IAT sensor the self-diagnostic indication will be canceled after corrective action by turning the ignition switch “ON”.
(The ECM will require 10 – 20 seconds after turning the ignition switch “ON” to cancel the self-diagnostic indication.)
NOTE 1:
• No spark or injection signal will be supplied to the cylinder corresponding to the faild CKP sensor.
• If two or more CKP sensors have failed at the same time, the engine will stop.
NOTE 2 :
The self-diagnostic indication may be canceled by turning ignition switch “ON” because the ECM detects only battery voltage, not charging output. Under this condition the buzzer will not sound a 1-1 code.
However, if the rectifier & regulator have failed, the self-diagnostic indication will again appear after starting the engine.
ENGINE CONTROL SYSTEM 3-28
CONDITION FOR SELF-DIAGNOSTIC SYSTEM OPERATION
FAILED ITEM CONDITION
MAP sensor 1
CKP sensor
• No signal (With engine running)
• Receiving an out of range “37 – 860 mmHg (0.50 – 4.84V)”
signal ( With engine running )
• No signal from any CKP sensors while receiving 8 signals from other
CKP sensors.
• No signal from one CKP sensor while receiving 6 signals from CMP
sensor. (One CKP sensor fail)
IAC valve / By-pass air screw • IAC valve operates at 90% duty or higher when CTP switch is “ON” adjustment • IAC valve operates at 10% duty or lower when CTP switch is “ON”
[NOTE 1]
CMP sensor
CTP switch
• No signal while receiving 12 signals from CKP sensors
• Receiving “ON” signal when engine speed is 2500 r/ min or higher and
intake manifold pressure is 380 mmHg or higher.
Cylinder temp. sensor
IAT sensor
MAP sensor 2
(Sensor hose)
Rectifier & regulator
(Over-charging )
• No signal
• Receiving an out of range “– 46 to +170 °C (0.10 – 4.84 V)” signal
• No signal
• Receiving an out of range “– 46 to +169 °C ( 0.10 – 4.88V)” signal
• Receiving unchanging signal regardless engine speed change
[NOTE 2]
• Receiving 16 volts or higher signal
Exhaust manifold temp, sensor • No signal
• Receiving an out of range “– 46 to +170 °C (0.10 – 4.84V)” signal
[NOTE 1]
These conditions will be caused by IAC valve failure or incorrect by-pass air screw adjustment. If IAC valve is always closed or by-pass air is too low, the ECM controls the IAC valve duty to increase to maintain the idling/trolling speed specified.
Conversely, if IAC valve is always opened or by -pass air is too high, the ECM controls the IAC valve duty to decrease to maintain the idling / trolling speed specified.
[NOTE 2]
This condition will be caused by disconnected, kinked or clogged MAP sensor hose or clogged inlet manifold gas filter.
3-29 ENGINE CONTROL SYSTEM
FAIL-SAFE SYSTEM
The fail-safe system is closely related to the self-diagnostic system.
When an abnormality occurs in a sensor signal, the ECM ignores the out-of-range signal and assumes a preprogrammed value for the failed sensors.
This allows the engine to continue running under the fail-safe condition.
PRE-PROGRAMMED VALUE FOR FAIL-SAFE SYSTEM
FAILED ITEM
MAP sensor 1
CMP sensor
Cylinder temp. sensor
IAT sensor
Exhaust manifold temp. sensor
PRE-PROGRAMMED VALUE
• 319 – 475 mmHg / (750 – 4000 r/min)
• Fuel Injection:
1 simultaneous injection for all cylinders per 2 crankshaft rotations
• Ignition Timing:
Normal ignition timing based on signals from CKP sensor (s)
60 °C (140 °F)
45 °C (113 °F)
60 °C (140 °F)
NOTE:
There is no back-up system for the ECM itself. The engine will stop if it has failed.
ENGINE CONTROL SYSTEM 3-30
OPERATING HOUR INDICATION SYS-
TEM
When the ignition switch is initially turned “ON” (from “OFF”), the ECM tests the caution system by turning on all four lamps in the monitor-tachometer and sounding the caution buzzer for an initial two seconds.
For the next three seconds, the ECM indicates the total operating hours, in units of 50 hours, using a combination of the tachometer needle and three lamps (except for “CHECK ENGINE” lamp).
NOTE:
The total operating hours displayed are those of actual engine operation, not ignition switch “ON” time.
MONITOR-TACHOMETER
3 2
1
“REV LIMIT” lamp
2
“OIL” lamp
3
“TEMP” lamp
CHART OF TOTAL OPERATING HOURS INDICATION
TOTAL OPERATING
HOURS
0 (h)–
50 (h)–
100 (h)–
150 (h)–
200 (h)–
250 (h)–
300 (h)–
350 (h)–
400 (h)–
450 (h)–
500 (h)–
550 (h)–
600 (h)–
650 (h)–
700 (h)–
750 (h)–
800 (h)–
850 (h)–
900 (h)–
950 (h)–
1000 (h)–
1050 (h)–
1100 (h)–
1150 (h)–
1200 (h)–
“REV-LIMIT”
lamp on flash on flash on flash on flash off flash on flash on flash on flash on flash on flash on flash on flash on
1
MONITOR-TACHOMETER INDICATION
“OIL”
lamp 2
“TEMP” lamp 3 on flash on flash on flash on flash off off off flash off off off off off off off off off on flash on off off flash on flash off off off off off off off off off off off off on flash on flash on flash on flash on
1
Needle indication
0 rpm
0 rpm
1000 rpm
1000 rpm
2000 rpm
2000 rpm
4000 rpm
0 rpm
1000 rpm
1000 rpm
2000 rpm
2000 rpm
4000 rpm
0 rpm
1000 rpm
1000 rpm
2000 rpm
2000 rpm
4000 rpm
0 rpm
1000 rpm
1000 rpm
2000 rpm
2000 rpm
4000 rpm
3-31 ENGINE CONTROL SYSTEM
START- IN- GEAR PROTECTION SYSTEM
A switch to detect neutral gear position is located on the cylinder block (PORT side) and operated by the clutch control arm.
This ON / OFF type switch is “ON” in neutral and “OFF” in forward or reverse.
On starting the engine, the ECM detects the shift position using the neutral switch. When the neutral switch is
“OFF”, the ECM does not send a signal for injector operation.
A switch to detect neutral gear position is also in the NA12S, binnacle and side mount remote control box’s.
This ON/OFF type switch is also “ON” in neutral and “OFF” in forward or reverse. When this switch is “OFF”, no power is supplied to the starter motor relay preventing starter motor engagement.
Using the combination of neutral switches, the fuel supply circuit as well as the starter motor circuit is regulated. The engine will not start, even by emergency rope, with the shift in the forward or reverse position.
SHIFT POSITION
Neutral
Forward / Reverse
NEUTRAL
SWITCH
ON
OFF
Fuel injector
Yes
No
Ignition
Yes
Yes
OPERATION
Fuel pump
Yes
Yes
Starter motor
Yes
No
Battery charge coil
Rectifier & regulator
30A fuse
6
12V power supply
OFF
ON
START
Remo-con box
3
2
1
4
5
Battery
ECM
1
Neutral switch
2
Neutral switch
3
Ignition switch
4
Starter motor
5
Starter motor relay
6
ECM main relay
ENGINE CONTROL SYSTEM 3-32
O
2
FEEDBACK SYSTEM
After extended usage, the engine components may become deteriorated or worn out.
This might make the A / F (air / fuel mixture ratio) incorrect which could affect exhaust emissions. To correct the A/F, an O
2
sensor is temporally installed to the exhaust manifold. This sensor is used to measure the concentration of oxygen in the exhaust gas at engine speeds of 2500, 3500 and 4500 r/ min.
The ECM uses the input data from the O
2
sensor to correct the compensation coefficient of the fuel injection duration map within the ECM itself.
O
2
sensor :
Informs ECM of concentration of oxygen in exhaust gas.
ECM
Feedback
NOTE:
See the “FUEL MIXTURE CHECK (O
2
FEEDBACK)” section on page 2-21 for the O
2
feedback operation procedure.
3-33 ENGINE CONTROL SYSTEM
INSPECTION
PRECAUTION ON SYSTEM INSPECTION
A
To prevent an unexpected engine start, perform the following before proceeding with any CRANK-
ING tests.
• When performing tests not related to fuel injector operation :
• Disconnect all fuel injector wire connectors.
• When performing tests related to fuel injector operation :
• Relieve fuel pressure in line. (See page 5-2.)
• Disconnect high pressure fuel pump wire connector located on fuel vapor separator.
B
• Always turn ignition switch “OFF” and disconnect battery cables when wires are being disconnected or connected.
• Hold and pull connector pieces when disconnecting. Do not pull wires.
NOTE:
• The self-diagnostic code memory in ECM will remain even if battery is disconnected.
• As each terminal voltage is affected by battery voltage, use a full-charged battery.
• Make sure all ground points have good electrical contact.
• Make sure all wires/cables are securely connected.
INSPECTION FOR ECM CIRCUIT VOLTAGE
B
ECM cannot be bench checked. It is strictly prohibited to connect any tester (voltmeter or ohmmeter) to an
ECM separated from the engine wiring harness.
z
09930-89910 : 4-pin test cord –
1
09930-89920 : 6-pin test cord –
2
09930-89930 : 8-pin test cord –
3
09930-89940 : 12-pin test cord –
4
09930-99320 : Digital tester s
Tester range : V (DC voltage)
(1) Turn ignition switch OFF.
(2) Connect the test cord 1 , 2 , 3 or 4 between ECM and wire harness as shown.
(3) Connect the tester probe
-
(Black) to body ground, and measure voltage according to the “CIRCUIT VOLTAGE
TABLE”.
A
3
B
2
C
4
D
1
E
ECM
ENGINE CONTROL SYSTEM 3-34
Y/B
G/W
G/Y
P
Bl/B
Bl/W
Br
P/B
B
B/R
Gr
B
Bl/R
V/W
Bl/Y
R/Y
O
B/W
R
Lg/W
Bl
B/G
Lg/B
W
Lg/R
G/Y
—
Y/G
O/Y
R/W
O/G
W/B
R/B
C2
C3
C4
C5
C6
C7
C8
B2
B3
B4
B5
B6
C1
C9
C10
C11
C12
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
E1
E2
E3
E4
CIRCUIT VOLTAGE TABLE
TER-
MINAL
A5
A6
A7
A8
B1
A1
A2
A3
A4
WIRE COLOR
ENGINE TEST CORD
Bl
B
Bl
G
G
O/B
O
B
B/Y
R/W
B/W
B/W
B/R
O
B
B/Y
Lg
R/W
CIRCUIT
No.2 Ignition (–)
Ground for power source
No.3 Ignition (–)
No.1 Fuel injector (–)
No.1 Ignition (–)
Ground for power source
No.2 Fuel injector (–)
No.3 Fuel injector (–)
Fuel pump (–)
R
Lg/W
Bl
B/G
Lg/B
W
Lg/R
P/B
G
O/B
Gr
B
B/W
G/Y
B/R
Y/G
O/Y
B/W
R
Lg/W
Bl
B/G
Lg/B
W
Lg/R
G/Y
B/R
Y/G
O/Y
B
O/G
W/B
R/B
Ground for ECM main relay
Ground for ECM
IAC valve solenoid (–)
ECM power source
Ground for ECM
Emergency stop switch
Tachometer
CHECK ENGINE lamp
TEMP lamp
REV-LIMIT lamp
OIL lamp
Buzzer
Neutral switch
Ex-manifold temperature sensor
PC communication
PC communication
Buzzer cancel
Ground for sensors
Power source for MAP sensor
Cylinder temperature sensor
Oil pressure switch
O2 feedback/PC communication
IAT sensor
MAP sensor
CTP switch
PC communication
—
Engine start switch (signal)
PC communication
CKP sensor No.3
CMP sensor
CKP sensor No.2
CKP sensor No.1
STANDARD
VOLTAGE
CONDITION / REMARKS
—
Approx. 5V
Approx. 0V
—
—
—
—
—
—
Approx. 0V
Approx. 5V
0.14 – 4.75V
—
Approx. 12V Ignition switch ON
—
Approx. 12V
Approx. 12V
Ignition switch ON
Ignition switch ON
Ignition switch ON Approx. 12V
—
Approx. 12V
Approx. 12V
Approx. 0V
Ignition switch ON
Ignition switch ON
—
—
For 3 sec. after ignition switch ON
While engine cranking
Approx. 12V
—
—
Approx. 12V
Approx. 12V
Other than above (Ignition switch ON)
Ignition switch ON
Ignition switch ON
—
—
—
Ignition switch ON, plate IN
—
Approx. 12V
Approx. 0V
—
Approx. 5V
0.14 – 4.75V
Approx. 5V
Approx. 0V
—
0.14 – 4.75V
0.20 – 4.50V
Approx. 5V
Approx. 0V
Ignition switch ON, plate OUT
Ignition switch ON, shift into NEUTRAL
Ignition switch ON, shift into FORWARD or REVERSE
Ignition switch ON
—
Ignition switch ON, key pushed
Ignition switch ON, key not pushed
—
Ignition switch ON
Ignition switch ON
While engine running
—
—
—
—
—
—
—
Other than above (Ignition switch ON)
Ignition switch ON
Ignition switch ON
—
Ignition switch ON, throttle not fully closed
Ignition switch ON, throttle fully closed
—
—
6 – 12V
Approx. 0V
—
—
Approx.1V or 5V
—
—
Ignition switch ON
—
—
While engine cranking
Other than above (Ignition switch ON)
—
—
—
—
A B C D E
3-35 ENGINE CONTROL SYSTEM
INSPECTION FOR RESISTANCE
z
09930-99320 : Digital tester t Tester range : W (Resistance)
(1) Turn ignition switch OFF.
(2) Disconnect battery cables from battery.
(3) Disconnect all wires from ECM.
(4) Connect the tester probes to terminal of wire harness side, and measure resistance according to the “RESISTANCE
TABLE”.
5
1
4 5 6
1 2 3
B
6 7 8
2 3
A
4
9 10 11 12
5 6 7 8
1 2 3 4
C (White)
9 10 11 12
5 6 7 8
1 2 3 4
D (Black)
3 4
1 2
E
RESISTANCE TABLE
ITEM
CKP sensor No.1
CKP sensor No.2
CKP sensor No.3
Ignition coil No.1 (Primary)
Ignition coil No.2 (Primary)
Ignition coil No.3 (Primary)
Ignition coil No.1 (Secondary)
Ignition coil No.2 (Secondary)
Ignition coil No.3 (Secondary)
Fuel injector No.1
Fuel injector No.2
Fuel injector No.3
IAC valve
IAT sensor
Cylinder temperature sensor
Ex-mani. temperature sensor
ECM main relay
Starter motor relay
TERMINAL FOR TESTER
PROBE CONNECTION
E4 (R/B) to D1 (B/W)
E3 (W/B) to D1 (B/W)
E1 (R/W) to D1 (B/W)
A5 (O) to B5 (Gr)
A1 (Bl) to B5 (Gr)
A3 (G) to B5 (Gr)
B5 (Gr) to No.1 spark plug cap
B5 (Gr) to No.2 spark plug cap
B5 (Gr) to No.3 spark plug cap
A4 (O/B) to B5 (Gr)
A7 (B/Y) to B5 (Gr)
A8 (R/W) to B5 (Gr)
B4 (B/R) to B5 (Gr)
D6 (Lg/B) to D1 (B/W)
D3 (Lg/W) to D1 (B/W)
C9 (V/W) to D1 (B/W)
B2 (P/B) to Terminal A [NOTE1]
D11 (Y/G) to Ground
STANDARD RESISTANCE
(at 20°C)
168 – 252
1.9 – 2.5 W
8.1 – 11.1 k
W
W
11.0 – 16.5 W
21.5 – 32.3 W
0°C ( 32°F) : 5.3 – 6.6 k W
25°C ( 77°F) : 1.8 – 2.3 k W
50°C (122°F) : 0.73 – 0.96 k W
75°C (135°F) : 0.33 – 0.45 k W
(Thermistor characteristic)
80 – 120 W
3.5 – 5.1 W
NOTE1:
Disconnect remote control wire harness, and connect tester probe to terminal A (Gray wire).
ENGINE CONTROL SYSTEM 3-36
OTHER INSPECTION
FUEL INJECTOR OPERATING SOUND (CRANKING)
(1) Touch a sound scope or long blade screw driver to fuel injector body as shown.
(2) Crank engine and check for injector operating sound.
Injector operating sound : “Click”
FUEL INJECTOR OPERATING SOUND (INDIVIDUAL)
(1) Disconnect fuel injector wire, and connect the test cord.
z
09930-89260 : Injector test cord A
(2) Connect Gray wire to body ground.
(3) Momently touch Black/Yellow wire to starter motor relay right terminal (connected to battery positive (+) terminal), and check for injector operating sound.
Injector operating sound : “Click”
FUEL INJECTOR OPERATING SIGNAL z
09930-89930 : 8-pin test cord q
Peak voltmeter Stevens CD-77
Tester range : NEG50
(1) Connect the test cord as shown, then turn ignition switch
ON.
(2) Connect the tester probe
-
(Black) to starter motor relay right terminal (connected to battery positive (+) terminal) as shown.
"Click"
Gr
B/Y
A B C D E
ECM
Starter motor relay
3-37 ENGINE CONTROL SYSTEM
(3) Connect the tester probe
+
(Red) to each terminal.
Injector
No.1
No.2
No.3
Terminal
A4
A7
A8
Wire color
Engine Test cord
O/B
B/Y
R/W
B/R
B/Y
Lg
(4) Crank engine and measure voltage.
Fuel injector operating signal : 6 – 10 V
FUEL PUMP 3 SEC. OPERATING SOUND
Turn ignition switch ON and check for fuel pump operating sound.
Fuel pump operating sound :
Sounds for approx. 3 seconds only
NOTE:
Fuel pump operating sound is low because pump is in fuel vapor separator. If you cannot hear clearly, use a sound scope or long blade screw driver.
IGNITION COIL OPERATING SIGNAL z 09930-89930 : 8-pin test cord q
Peak voltmeter Stevens CD-77
Tester range : NEG50
(1) Connect the test cords as shown, then turn ignition switch
ON.
(2) Connect the tester probe
-
(Black) to starter motor relay right terminal (connected to battery positive (+) terminal) as shown.
(3) Connect the tester probe
+
(Red) to each terminal.
Ignition coil
No.1
No.2
No.3
Terminal
A5
A1
A3
Wire color
Engine Test cord
O
Bl
G
O
Bl
B/W
(4) Crank engine and measure voltage.
Ignition coil operating signal : 6 – 10 V
(Voltage)
12V
A
B
A
Peak voltage reading (NEG)
B
0V level for peak voltmeter
(Time)
A B C D E
ECM
Starter motor relay
(Voltage)
12V
A
B
A
Peak voltage reading (NEG)
B
0V level for peak voltmeter
(Time)
CMP SENSOR SIGNAL z q
09930-89910 : 4-pin test cord
Peak voltmeter Stevens CD-77
Tester range : POS 50
(1) Connect the test cord as shown, then turn ignition switch
ON.
(2) Connect the tester probe (+) (Red) to terminal.
Terminal
E2
Engine
O/G
Wire color
Test cord
O/G
(3) Connect the tester probe (–) (Black) to body ground, then measure voltage.
CMP sensor signal
When ignition switch ON : Approx. 1 V or 5 V
(4) Measure voltage at cranking.
CMP sensor signal
When cranking : Approx. 5 V
ENGINE CONTROL SYSTEM 3-38
A B C D E
ECM
3-39 ENGINE CONTROL SYSTEM
MAP SENSOR OUTPUT VOLTAGE CHANGE
z 09917-47910 : Vaccum pump gauge
09930-89940 : 12-pin test cord
09930-99320 : Digital tester s
Tester range : V (DC voltage)
(1) Disconnect MAP sensor hose from gas filter (surge tank) side.
(2) Connect the gauge to MAP sensor hose end as shown.
(3) While applying negative pressure to MAP sensor, measure
“D7” terminal voltage. (See page 3-33 and 3-34 for procedure.)
MAP sensor output voltage change :
Negative pressure kPa (kg/cm 2 , mm Hg)
0
(0, 0)
40
(0.4, 300)
80
(0.8, 600)
“D7” terminal voltage (V)
4.00
2.42
0.84
(at 1013 hPa baro.)
CTP SWITCH
z 09930-99320 : Digital tester
r
Tester range : ^ (Continuity)
(1) Disconnect CTP switch wire.
(2) Check continuity between CTP switch terminal and body ground.
CTP switch function :
Throttle position
Fully closed
(switch pushed)
Not fully closed
(switch free)
Continuity
Yes
No
ENGINE CONTROL SYSTEM 3-40
OIL PRESSURE SWITCH z
09940-44120 : Air pressure gauge
09821-00004 : Air pump Assy
09930-99320 : Digital tester r
Tester range : ^ (Continuity)
(1) Remove oil pressure switch. (See page 3-50.)
(2) Connect the gauge and pump as shown.
(3) While applying pressure to oil pressure switch, check continuity.
Oil pressure switch function :
Pressure kPa (kg/cm 2 )
Less than
70 – 130 (0.7 – 1.3)
70 – 130 (0.7 – 1.3) or over
Continuity
Yes
No
ECM MAIN RELAY z r
09930-99320 : Digital tester
Tester range : ^ (Continuity)
(1) Disconnect ECM main relay from wire.
(2) Check continuity between terminal 1 and 2 each time 12V is applied. Connect positive (+) side to terminal 4 , and negative (–) side to terminal 3 .
ECM main relay function :
12 V power
Applied
Not applied
Continuity
Yes
No
B
Be careful not to touch 12 V power supply wires to each other or with other terminals.
Oil pressure switch
ECM main relay
1
3
12V
2 4
3-41 ENGINE CONTROL SYSTEM
TROUBLESHOOTING
A
Before starting troubleshooting, read and follow the “PRECAUTION ON SYSTEM INSPECTION” section on page 3-33.
In this section, troubleshooting procedures are based on the assumption that “low pressure fuel system” and
“mechanical components (power unit, lower unit, etc.)” are normal.
NOTE:
For troubleshooting of “Starter motor will not run”, see page 4-7.
CHART1 : SELF-DIAGNOSTIC CODE “3-4”
START
< Ignition switch “ON” >
Check “D2” terminal voltage.
Is result OK? (See page 3-34.)
NO
ECM failure
YES
< Ignition switch “ON” >
Check “D7” terminal voltage.
Is result OK? (See page 3-34.)
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
NO
MAP sensor failure
CHART2 : SELF-DIAGNOSTIC CODE “4-2”
START
< Ignition switch “OFF” >
Check CKP sensor resistance.
Is result OK? (See page 3-35.)
NO
CKP sensor failure
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
NOTE:
• It will be possible to start engine if one CKP sensor has failed.
• No spark or injection signal will be supplied to the cylinder corresponding to the faild CKP sensor.
CHART3 : SELF-DIAGNOSTIC CODE “3-1”
START
< Ignition switch “OFF” >
Check IAC valve resistance.
Is result OK? (See page 3-35.)
NO
IAC valve failure
YES
< Ignition switch “ON” >
Check “B4” terminal voltage.
Is result OK? (See page 3-33.)
YES
NO
ECM failure
Possible cause :
• Incorrect by-pass air screw adjustment
• IAC valve failure (mechanical)
• IAC passage failure (clogged hose/silencer,
etc.)
• ECM failure
• Wire continuity/connection failure
ENGINE CONTROL SYSTEM 3-42
CHART4 : SELF-DIAGNOSTIC CODE “2-4”
START
< Ignition switch “ON”, cranking >
Check CMP sensor signal.
Is result OK? (See page 3-38.)
NO
CMP sensor failure
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
NOTE:
It will be possible to start engine if CMP sensor has failed.
CHART5 : SELF-DIAGNOSTIC CODE “2-2”
START
< Ignition switch “ON” >
Check “D8” terminal voltage.
Is result OK? (See page 3-34.)
NO
CTP switch failure
[NOTE1]
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
NOTE1:
In this case, CTP switch will be in “always ON” condition.
(“D8” terminal voltage will be 0V always regardless throttle position.)
3-43 ENGINE CONTROL SYSTEM
CHART6 : SELF-DIAGNOSTIC CODE “1-4”
START
< Ignition switch “OFF” >
Check cylinder temp. sensor resistance.
Is result OK? (See page 3-35.)
NO
Cylinder temp. sensor failure
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
CHART 7 : SELF-DIAGNOSTIC CODE “2-3”
START
< Ignition switch “OFF” >
Check IAT sensor resistance.
Is result OK? (See page 3-35.)
NO
IAT sensor failure
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
CHART8 : SELF-DIAGNOSTIC CODE “3-2”
START
< Individual check >
Check MAP sensor hose is in good condition/connection.
Is result OK?
NO
MAP sensor hose failure
YES
< Ignition switch “ON” >
Check MAP sensor output voltage change.
Is result OK? (See page 3-39.)
YES
Possible cause :
• Gas filter failure (clogged, etc.)
• ECM failure
• Wire continuity/connection failure
NO
MAP sensor failure
ENGINE CONTROL SYSTEM 3-44
CHART9 : SELF-DIAGNOSTIC CODE “1-1”
START
< Individual check >
Check rectifier & regulator resistance.
[NOTE1]
Is result OK? (See page 4-3.)
NO
Rectifier & regulator failure
YES
< Engine running >
Check “B5” terminal voltage at idle speed. (See page 3-34.)
Is result 16 V or over?
NO
Possible cause :
• ECM failure
• Wire continuity/connection failure
YES
NOTE:
This self-diagnostic code indication may be canceled by turning ignition switch ON because ECM detects battery voltage.
NOTE1:
It is difficult to check rectifier & regulator completely. Before replacing with new one, check if its ground point has good electrical contact.
CHART10 : SELF-DIAGNOSTIC CODE “1-5”
START
< Ignition switch “OFF” >
Check exhaust manifold temp. sensor resistance.
Is result OK? (See page 3-35.)
NO
Exhaust manifold temp. sensor failure
YES
Possible cause :
• ECM failure
• Wire continuity/connection failure
3-45 ENGINE CONTROL SYSTEM
CHART11 : ENGINE CRANKED, BUT NOT START (OR STOPS SHORTLY
AFTER STARTING)
Before starting this troubleshooting, make sure that :
• There is no self-diagnostic code indication.
• Emergency stop switch plate is set in place.
• 15A fuse is good.
START
< Ignition switch “ON” >
Check “B5” terminal voltage.
Is result OK?
(See page 3-34.)
YES
NO
< Cranking >
Check injector operating sound.
Is result OK?
(See page 3-36.)
NO
< Ignition switch “OFF” >
Check fuel injector resistance.
Is result OK?
(See page 3-35.)
YES
< Ignition switch “ON” >
Check “A7, A8 and A4 terminal voltage.
Is result OK?
(See page 3-34.)
YES
< Cranking >
Check fuel injector operating signal.
Is result OK?
(See page 3-36.)
YES
Fuel injector failure
NO
YES
YES
NO
NO
ECM main relay failure Emergency stop switch failure
< Ignition switch “ON” >
Check “C1” terminal voltage
Is result OK?
(See page 3-34.)
YES
< Cranking >
Check ignition spark using timing light
(P/no. 09930-76420).
Is there light flashing?
NO
Spark plug failure
NO
YES
NO
< Individual check >
Check if spark plug is in good condition.
Is result OK?
Ignition coil failure
< Ignition switch “OFF” >
• Check ignition primary coil resistance.
(See page 3-35.)
• Check ignition secondary coil resistance.
(See page 3-35.)
Are results OK?
NO
YES
Power supply wire (Gr) failure
ECM failure
NO
< Ignition switch “ON” >
Check “A1, A3 and A5” terminal voltage.
Is result OK?
(See page 3-34.)
NO YES YES
< Cranking >
Check ignition coil operating signal.
Is result OK?
(See page 3-37.)
< Ignition switch “ON” >
Check “B1” terminal voltage for 3 sec. after switch ON.
Is result OK?
(See page 3-34.)
Possible cause :
Failure of high pressure fuel system components.
(See page 3-46.)
NO
YES
YES
Fuel pump failure
NO
< Ignition switch “ON” >
Check fuel pump 3 sec.
operating sound.
Is result OK?
(See page 3-37.)
YES
< Cranking >
Check “B1” terminal voltage.
Is result OK?
(See page 3-34.)
YES
NO
Engine start signal wire
(Y/G) failure
NO
< Cranking >
Check “D11” terminal voltage.
Is result OK?
(See page 3-34.)
ENGINE CONTROL SYSTEM 3-46
CHART12 : UNSTABLE IDLING / TROLLING (OR ENGINE TENDS TO STALL)
Before starting this troubleshooting, make sure that :
• There is no self-diagnostic code indication.
START
< Ignition switch “ON” >
Check “C8” terminal voltage.
Is result OK? (See page 3-34.)
YES
< Ignition switch “ON” >
Check “D8” terminal voltage.
Is result OK? (See page 3-34.)
YES
NO (Always 0 V)
(Always 5 V)
< Individual check >
Check neutral switch function.
Is result OK? (See page 4-9.)
NO YES
Neutral switch failure
[NOTE1]
ECM failure
YES
NO (Always 0 V)
(Always 5 V)
< Individual check >
Check CTP switch function.
Is result OK? (See page 3-39.)
NO
CTP switch failure
[NOTE2]
Possible cause :
• Incorrect by-pass air screw adjustment [NOTE3]
• IAC valve failure [NOTE3]
• IAC passage failure (clogged hose / silencer, etc.) [NOTE3]
• Spark plug failure
• Ignition coil failure
• ECM failure
• Wire continuity / connection failure
• Failure of high pressure fuel system components :
• Fuel injector (clog, stuck valve, etc.)
• Fuel pressure regulator (incorrect regulated pressure, etc.)
• Fuel pump (clogged suction filter, leakage in tank, etc.)
• Fuel filter (clog, etc.)
• Hose (clog, kink, leakage, etc.)
NOTE1:
If neutral switch has failed, engine will tend to stall when shifting into gear.
If neutral switch has failed as “always ON”, engine speed is limited to 3000 r/min by intermittent fuel injection and ignition timing is fixed at BTDC9 °.
NOTE2:
If CTP switch has failed, engine will tend to stall when decelerating.
NOTE3:
• The self-diagnostic code “3-1” may not be indicated because IAC valve condition depends on ECM control.
(See page 3-28.)
• If IAC valve has failed, “Fast-idle function (warm-up mode)” won’t operate.
3-47 ENGINE CONTROL SYSTEM
REMOVAL / INSTALLATION
FLYWHEEL / CKP SENSOR / CMP SENSOR
@
200 N.m
(20.0 kg-m, 145 lb.-ft.) 1
Flywheel bolt
2
Washer
3
Key
4
Flywheel
5
CKP sensor
6
Screw
7
CMP sensor
8
Bolt
1
2
3 o
4
7
8
5 h
5
6
5
Crankshaft
NOTE:
Clean flywheel and crankshaft mating surfaces with cleaning solvent.
REMOVAL
Prior to removing Flywheel :
• Disconnect battery cables from battery.
1. Remove flywheel cover.
2. Loosen flywheel bolt 2 – 3 turns.
z
09930-48720 : Flywheel holder
NOTE:
Do not remove flywheel bolt at this time.
This bolt prevents damage to the crankshaft when using flywheel remover tools.
ENGINE CONTROL SYSTEM 3-48
3. Using special tools, loosen flywheel from crankshaft.
z
09930-39411 : Flywheel remover
09930-39420 : Flywheel remover bolt
4. Remove flywheel bolt
1
, washer
2
, flywheel
3
and key
4 .
5. Remove screws
5
and CKP sensors
6
, then disconnect
CKP sensor connector.
3
4
1
2
5
6
6
6. Disconnect CMP sensor connector.
Remove bolt
7 and CMP sensor
8
.
3-49 ENGINE CONTROL SYSTEM
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
CKP sensors
Apply Thread Lock 1342 to the sensor mounting screws.
h 99000-32050 : Thread Lock 1342
Flywheel
• Clean flywheel and crankshaft mating surfaces with cleaning solvent.
• Apply engine oil to flywheel bolt and washer before installing.
• Tighten flywheel bolt to specified torque.
z
09930-48720 : Flywheel holder
@ Flywheel bolt : 200 N . m (20.0 kg-m, 145 lb.- ft.)
ENGINE CONTROL SYSTEM 3-50
OIL PRESSURE SWITCH
REMOVAL
Remove flywheel cover.
Loosen screw and disconnect blue lead wire from switch.
Remove oil pressure switch from cylinder block.
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
• Before installing oil pressure switch, wrap screw threads with sealing tape then tighten switch to specified torque.
NOTE:
Cut off any excess sealing tape from switch threads before installation.
@
Oil pressure switch : 13 N . m (1.3kg-m, 9.5 lb.-ft.)
• Start engine and check oil pressure switch for oil leakage.
Reseal switch if oil leakage is found.
1. Sealing tape
1
ELECTRICAL
CONTENTS
BATTERY CHARGING SYSTEM ______________________________ 4-1
OUTLINE ..........................................................................................................
4-1
INSPECTION ...................................................................................................
4-2
REMOVAL / INSTALLATION ...........................................................................
4-4
ELECTRIC STARTER SYSTEM _______________________________ 4-6
OUTLINE ..........................................................................................................
4-6
TROUBLESHOOTING .....................................................................................
4-7
INSPECTION ...................................................................................................
4-8
STARTING MOTOR .........................................................................................
4-11
MONITOR-TACHOMETER ___________________________________ 4-17
INSPECTION ...................................................................................................
4-17
4
4-1 ELECTRICAL
BATTERY CHARGING SYSTEM
OUTLINE
The battery charging system circuit is illustrated below.
It is composed of the BATTERY CHARGE COIL, RECTIFIER
& REGULATOR and BATTERY.
The three phase AC current generated from battery charge coil is converted by the rectifier & regulator into regulated DC current which is used to charge the battery.
OUTPUT
REGULATED
VOLTAGE
216 W
14.5 – 15.5 V
W
W
W
Alternator
(Magneto)
Battery charge coil
B
Y Y Y
W
W
To PTT switch
To ECM main relay
To Ignition switch
30A Fuse
W
To Starter motor
Starter motor relay
R
+
Battery (12V)
HIC
Rectifier & regulator
4-3 ELECTRICAL
RECTIFIER & REGULATOR z t
09930-99320 : Digital tester
Tester range : W (Resistance)
1. Disconnect all lead wires of rectifier & regulator.
2. Measure resistance between leads in the combinations shown.
NOTE:
The values given below are for a SUZUKI digital tester.
As thyristors, diodes, etc. are used inside this rectifier & regulator, the resistance values will differ when an ohmmeter other than SUZUKI digital tester is used.
Rectifier & regulator resistance :
Tester probe + (Red)
Unit : M W
Black White Yellow 1 Yellow 2 Yellow 3
Black
White 9 – 14
0.F
0.F
7 – 11
0.F
0.F
8 – 13 7.5 – 11.5
Yellow 1 6 – 9
Yellow 2 6 – 9
0.F
0.F
0.F
0.F
0.F
0.F
Yellow 3 6 – 9 0.F
0.F
0.F
0.F : Infinity
If measurement exceeds specification, replace rectifier & regulator.
B
W
Y
1
Y
2
Y
3
REMOVAL / INSTALLATION
System construction o
3
ELECTRICAL 4-4
1 @
200 N . m
(20.0 kg-m, 145 Ib.-ft.)
2
1 Bolt (1)
2 Washer (1)
3 Key (1)
4 Flywheel (1)
5 Battery charge coil (1)
6 Screw (3)
7 Rectifier & regulator (1)
8 Bolt (2)
9 Fuse case (1)
0 30A fuse (1)
4
5
6 h
7
8
REMOVAL
Prior to removing electrical parts :
• Disconnect battery cables from battery.
Battery charge coil
• Remove flywheel. (See page 3-48.)
• Remove three screws securing the battery charge coil.
• Disconnect battery charge coil lead wire connector from rectifier & regulator.
Rectifier & regulator
• Remove two bolts securing the Rectifier & regulator.
• Disconnect lead wire connectors.
9
0
4-5 ELECTRICAL
Fuse case
• Disconnect fuse case lead wires from engine wiring harness and starter motor relay terminal.
INSTALLATION
Installation is reverse order of removal with special attention to the following step.
• Battery charge coil
• Apply Thread Lock 1342 to the coil securing screws.
h 99000-32050 : Thread Lock 1342
• Wire routing
• Check wire routing. (See page 10-1 to 10-4)
ELECTRICAL 4-6
ELECTRIC STARTER SYSTEM
OUTLINE
The circuit of the electric starter system is illustrated below.
This circuit is mainly composed of Battery, Starter motor, Relay, Neutral switches and Ignition switch.
M Starter motor
To ECM main relay To Rectifier
& regulator
W
W
W
30A Fuse
To ECM
W
R
B
W
Br
R
Y/G
Y/G
Y/G
Br
Neutral switch
Br
W
Br
Neutral switch
B GND
W BATT
Br START
Remote control box
B
+ -
Battery
Ignition switch
4-7 ELECTRICAL
TROUBLESHOOTING
NOTE:
Before troubleshooting the electric starter system, make sure of the following :
• Battery is fully charged.
• All cables / wires are securely connected.
• Shift is in “NEUTRAL” position.
Circuit check schematic
+
GND
Battery
GND
Starter motor relay
1 2
30A Fuse
Neutral switch
GND
Sub cable
3
Starter motor
GND
Neutral switch
ST
BAT
GND
Ignition switch
Starter motor will not run.
Check for relay “click” sound when turning ignition switch to “START”.
Is there “click” sound?
YES
Measure voltage at terminal
2 with ignition switch at “START”. It must be above 12 V.
Is result OK?
YES
Measure voltage at terminal 3 with ignition switch at “START”. It must be above 12 V.
Is result OK?
YES NO
Sub cable failure Starter motor failure
Check starter motor.
(See page 4-14.)
NO
NO
Measure voltage at terminal
1
. It must be above 12V.
Is result OK?
YES
Check 30A fuse and fuse case.
(See page 4-2.)
Is result OK?
YES
NO
NO
Check ignition switch function.
(See page 4-8.)
Is result OK?
YES
NO
Check function of both neutral switches.
(See page 4-9.)
Is result OK?
NO
Battery cable failure
30A fuse or fuse case failure
Ignition switch failure
Neutral switch failure
Starter motor relay failure
Check starter motor relay.
(See page 4-10.)
ELECTRICAL 4-8
INSPECTION
IGNITION SWITCH z r
09930-99320 : Digital tester
Tester range : (Continuity)
1. Disconnect the ignition switch from remo-con box wiring harness.
2. Check continuity between wiring leads at the key positions shown in the chart.
Key
Position
1 OFF
2
ON
3 START
4
FREE
5 PUSH
Switch Lead Wires
Black Green White Gray Brown Orange
If out of specification, replace ignition switch.
: Continuity
1 (OFF)
2
(ON)
3 (START)
4
(FREE) 5
(PUSH)
PUSH
Black
Green
White
Gray
Brown
Orange
4-9 ELECTRICAL
NEUTRAL SWITCH
Check for continuity / infinity of the neutral switch.
z r
09930-99320 : Digital tester
Tester range : (Continuity)
Neutral switch in remo-con box
1. Disconnect neutral switch lead wire from ignition switch and remo-con box wiring lead.
2. Check continuity / infinity between switch brown wire leads while operating remo-con handle.
Shift position
Neutral
Forward
Reverse
Tester indicates
Continuity
Infinity
Infinity
If out of specification, replace neutral switch.
Neutral switch on cylinder block
1. Disconnect neutral switch lead wires.
2. Check continuity / infinity between Yellow / Green and Brown lead wires while operating remo-con handle.
Shift position
Neutral
Forward
Tester indicates
Continuity
Infinity
Reverse Infinity
If out of specification, replace neutral switch.
NOTE:
After installing neutral switch, check for proper correct function by operating remo-con handle.
REVERSE FORWARD
Brown
Brown
ELECTRICAL 4-10
STARTER MOTOR RELAY
Two methods can be used to test starter motor relay.
z
09930-99320 : Digital tester
Method 1
1. Disconnect all cables / lead wires from starter motor relay.
2. Measure resistance between relay wiring leads.
t Tester range : W (Resistance)
Red +
Tester probe connection
Black -
Yellow / Green Black
Starter motor relay solenoid coil resistance :
3.5 – 5.1 W
If measurement exceeds specification, replace starter motor relay.
Method 2
Connect the wiring leads of the relay to battery (12V) and check relay operation.
r
Tester range : (Continuity)
1. Disconnect all cables / wires from starter motor relay.
2. Connect Yellow /Green wire to positive
+
terminal, and Black wire to negative
-
terminal of battery.
When 12V applied : Continuity between relay
terminal
1 and
2
.
3. Disconnect wiring leads from battery.
No voltage applied : No continuity between
relay terminal
1
and
2
.
If out of specification, replace starter motor relay.
Y/G
B
Y/G
1
2
B
+
12V Battery
-
4-11 ELECTRICAL
STARTING MOTOR
REMOVAL
Prior to removing starter motor :
• Disconnect battery cables from battery.
1. Remove four bolts and flywheel cover.
2. Remove bolt
1
and silencer case
2
.
3. Disconnect lead wire connector from IAT (Intake air temperature) sensor.
4. Remove bolt and negative
-
battery cable
3
.
5. Remove starter motor sub cable
4
.
6. Remove two bolts
5
and starter motor band
6
.
7. Remove two bolts 7 and starter motor 8 .
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
• Install starter motor and tighten starter motor mounting bolts securely.
@ Starter motor mounting bolt :
23 N . m (2.3 kg-m, 16.5 Ib.-ft.)
ELECTRICAL 4-12
1
Stopper ring
2
Pinion stopper (1)
3
Spring (1)
4
Pinion (1)
5
Bolt (2)
6
Front cover (1)
7
Washer
8
Washer
9
Stator (1)
0
Armature (1)
A
Washer
B
Rear cover (1)
C
Nut (1)
D
Washer (1)
E
Washer (1)
F
Screw
G
Brush holder
H
Brush
I
Brush spring v
4
1
2
3
6
7
8
DISASSEMBLY
NOTE:
For correct assembly, scribe an alignment mark on the front cover, stator and rear cover.
v
0
A
9
G
E
C D
F B
H
I v
5
4-13 ELECTRICAL
Push down the pinion stopper
2
, remove stopper ring
1
.
Remove pinion stopper 2 , spring 3 , and pinion 4 .
A
Wear safety grasses when disassembling and assembling stopper ring.
NOTE:
Using a screw-driver, pry off the stopper ring.
1
2
3
4
Remove two bolts 5 .
Remove following parts :
• Front cover 6
• Washer 7 , 8
• Stator 9
• Armature 0
• Washer A
• Rear cover B
7
8
6
B
Remove the nut
C
, washer
D and
E
from rear cover
B
.
Remove two screws
F
and brush holder assembly
G
(with brush
H and brush spring
I
).
G
E
H
C D
F
I
B
0
A
9
5
ELECTRICAL 4-14
INSPECTION & SERVICING
Pinion
Inspect pinion.
Replace pinion if damaged or worn.
Armature and Commutator
Inspect the commutator surface.
If surface is gummy or dirty, clean with 400 grade emery paper
A
.
A
Measure commutator outside diameter.
z
09900-20101 : Vernier calipers
Commutator outside diameter:
Standard : 33mm (1.30 in.)
Service limit : 32mm (1.26 in.)
If measurement exceeds service limit, replace armature.
Check that mica (insulator) between the segments is undercut to specified depth.
Commutator undercut:
Standard : 0.5 – 0.8mm (0.02 – 0.03 in.)
Service limit : 0.2 mm (0.008 in.)
If measurement exceeds service limit, cut to specified depth.
NOTE:
Remove all particles of mica and metal using compressed air.
A
Wear safety grasses when using compressed air.
1
. undercut
SEGMENT
1
MICA
4-15 ELECTRICAL
Check for continuity between the commutator and the armature core / shaft.
Replace armature if continuity is indicated.
Check for continuity between the adjacent commutator segments.
Replace armature if no continuity is indicated.
z r
09930-99320 : Digital tester
Tester range : (Continuity)
Armature core
Commutator
Shaft
BRUSHES
Check the length of each brush.
z
09900-20101 : Vernier calipers
Brush length:
Standard : 17.0 mm (0.67 in.)
Service limit : 10.0 mm (0.39 in.)
If brushes are worn down to the service limit, they must be replaced.
BRUSH HOLDER
Check brush holder continuity.
z r
09930-99320 : Digital tester
Tester range : (Continuity)
Brush holder continuity :
Tester probe connection
Brush holder positive
+
to Brush holder negative
-
Brush holder positive
+
to Base plate
(ground)
Continuity
No
No
+
Brush
-
Base plate
ASSEMBLY
Assembly is reverse of disassembly with special attention to following steps.
B
When installing armature, exercise care to avoid breaking brushes.
Apply grease to armature shaft and shaft holes.
v 99000-25010 : Suzuki Super Grease “A” v
ELECTRICAL 4-16 v v
Align front cover, stator and rear cover with alignment lines scribed earlier and assemble starter.
A
Wear safety grasses when disassembling and reassembling stopper ring.
Install pinion , spring , pinion stopper and stopper ring.
NOTE:
Make sure stopper ring 1 fit tightly in pinion stopper 2 and armature shaft 3 .
2
1
3
4-17 ELECTRICAL
MONITOR-TACHOMETER
INSPECTION
MONITOR LAMP CHECK
(1) Connect the test cord as shown.
z
09930-89240 : 4-pin test cord
NOTE:
This check can be performed without the test cord (P/no. 09930-
89240). If it is not available, directly connect battery to terminal of meter.
(2) Apply 12V power to meter. Connect Gray wire to positive (+) terminal, and Black wire to negative (–) terminal of battery.
1 2
1
“CHECK ENGINE”
2
TEMP “ ”
3
OIL “ ”
4
REV “LIMIT”
B
3
4
12V
Battery
G/W
P
Gr
Bl/B G/Y
(3) Check if lamp lights when connecting battery to test cord terminal as shown.
Monitor lamp check:
Battery terminal
Terminal for battery connection
Negative (–)
Negative (–)
Negative (–)
Positive (+)
Test cord Meter
Bl G/W
W
Y
R
G/Y
Bl/B
P
Lighting lamp
Lamp 1
Lamp
2
Lamp 3
Lamp
4
If out of specification, replace monitor-tachometer.
Bl
W
Y
12V
Battery
R
12V
Battery
FUEL SYSTEM
CONTENTS
PRECAUTION ON FUEL SYSTEM SERVICE ____________________ 5-1
GENERAL PRECAUTION ...............................................................................
5-1
FUEL PRESSURE RELIEF PROCEDURE .....................................................
5-2
FUEL LINE _______________________________________________ 5-3
REMOVAL / INSTALLATION ...........................................................................
5-3
FUEL LEAKAGE CHECK PROCEDURE .......................................................
5-3
FUEL HOSE CONNECTION ...........................................................................
5-4
FUEL PRESSURE INSPECTION ....................................................................
5-5
FUEL VAPOR SEPARATOR / HIGH PRESSURE FUEL PUMP ______ 5-7
REMOVAL / INSTALLATION ...........................................................................
5-7
DISASSEMBLY ................................................................................................
5-8
INSPECTION ...................................................................................................
5-9
ASSEMBLY ......................................................................................................
5-11
FUEL INJECTOR __________________________________________ 5-12
INSPECTION ...................................................................................................
5-12
REMOVAL ........................................................................................................
5-12
INSTALLATION ................................................................................................
5-13
LOW PRESSURE FUEL PUMP _______________________________ 5-14
REMOVAL / INSTALLATION ...........................................................................
5-14
DISASSEMBLY / REASSEMBLY ....................................................................
5-15
INSPECTION ...................................................................................................
5-16
FUEL TANK _______________________________________________ 5-17
DISASSEMBLY / REASSEMBLY ....................................................................
5-17
INSPECTION ...................................................................................................
5-18
5
5-1 FUEL SYSTEM
PRECAUTION ON FUEL SYSTEM SERVICE
GENERAL PRECAUTION
A
Gasoline is extremely flammable and toxic. Always observe the following precautions when working around gasoline or servicing the fuel system.
• Disconnect battery cables except when battery power is required for servicing / inspection.
• Keep the working area well ventilated and away from open flame (such as gas heater) or sparks.
• Do not smoke or allow anyone else to smoke near the working areas.
Post a “NO SMOKING” sign.
• Keep a fully charged CO
2
fire extinguisher and readily available for use.
• Always use appropriate safety equipment and wear safety glasses when working around pressurized fuel system.
• To avoid potential fire hazards, do not allow fuel to spill on hot engine parts or on operating electrical components.
• Wipe up fuel spills immediately.
A
The components after the high pressure fuel pump remain pressurized at all times.
To protect against fuel spray, relieve fuel line pressure before disconnecting or removing components.
FUEL PRESSURE RELIEF PROCEDURE
After making sure that engine is cold, relieve fuel pressure as follows.
1. Turn OFF ignition switch.
2. Disconnect high pressure fuel pump lead wire connector at high pressure fuel pump.
FUEL SYSTEM 5-2
3. Disconnect the ignition coil primary lead wire connector from all ignition coils.
4. Crank the engine 5 – 10 times (3 seconds each time) to dissipate fuel pressure in lines.
5. Make sure fuel pressure has been removed by pinching high pressure fuel hose with finger tips (line should feel soft without pressure).
6. Upon completion of servicing, connect ignition coil primary wire and fuel pump wire.
5-3 FUEL SYSTEM
FUEL LINE
REMOVAL / INSTALLATION
Pay special attention to the following steps when removing or installing fuel hoses.
A
The components after the high pressure fuel pump remain pressurized at all times.
To protect against fuel spray, relieve fuel line pressure before disconnecting or removing components.
B
• Do not over bend (kink) or twist hoses when installing.
• When installing hose clamps, position tabs to avoid contact with other parts.
• Be sure hoses do not contact rods, levers or other components with engine either operating or at rest.
• Extreme care should be taken not to cut, abrade or cause any other damage to hoses.
• Use care not to excessively compress hoses when tightening clamps.
NOTE:
• Check fuel hose routing. (See page 10-7 and 10-9)
• Check for fuel leakage.
FUEL LEAKAGE CHECK PROCEDURE
After performing any fuel system service, always be sure there is not fuel leakage by checking as follows.
1. Squeeze fuel primer bulb until you feel resistance.
2. Turn ignition switch “ON” for 3 seconds(to operate fuel pump), then turn it “OFF”.
Repeat this (ON and OFF) procedure 3 or 4 times to pressurize the fuel system.
3. Once pressurized, check all connections and components for any signs of leakage.
OFF
ON
FUEL HOSE CONNECTION
Note that fuel hose connection varies with each type of pipe. Be sure to connect and clamp each hose correctly by referring to the figure.
• For type “A” (short barbed end) pipe, hose must completely cover pipe.
“A”
FUEL SYSTEM 5-4
Clamp (Clip)
Hose
Joint piep
3 – 7 mm
(0.1 – 0.3 in)
• For type “B” (bent end) pipe, hose must cover straight part of pipe by 20 – 30mm (0.8 – 1.2in.).
“B”
20 – 30 mm
(0.8 – 1.2 in.)
3 – 7 mm
(0.1 – 0.3 in.)
• For type “C” pipe, hose must fit up against flanged part of pipe.
“C”
• For type “D” pipe, hose must cover pipe by 20 – 30mm (0.8 –
1.2 in.).
“D”
3 – 7 mm (0.1 – 0.3 in.)
20 – 30 mm
3 – 7 mm
(0.8 – 1.2 in.)
(0.1 – 0.3 in.)
5-5 FUEL SYSTEM
FUEL PRESSURE INSPECTION
1. Relieve fuel pressure in fuel feed line. (See page 5-2)
2. Connect special tools (pressure gauge, pressure hose & pressure joint) between fuel feed hose and 3-way joint pipe as shown in figure.
Clamp hose securely to ensure no leaks occur during checking.
z
09912-58441 : Pressure gauge – a
09912-58431 : Fuel pressure hose – b
09912-58490 : Fuel pressure joint – c
B
A small amount of fuel may be released when the fuel feed hose is disconnected.
Place container under the fuel feed hose or 3-way pipe with a shop cloth so that released fuel is caught in container or absorbed in cloth. Place fuel soaked cloth in an approved container.
3. Squeeze fuel primer bulb until you feel resistance.
Turn ignition switch “ON” for 3 seconds (to operate fuel pump), then turn it “OFF”.
Repeat this (“ON” and “OFF”) procedure 3 or 4 times to pressurize the fuel system and then check fuel pressure.
4. Measure fuel pressure in line at cranking or idle speed operation.
Fuel pressure : Approx. 235 kPa
(2.4 kg/cm 2 , 34.1 psi.)
5. Stop engine and wait 5 minutes.
2
1 b a c
3
1. High pressure fuel filter
2. Fuel delivery gallery
3. 3-way pipe
OFF
ON
B
As fuel feed line is still under high fuel pressure, make sure to release fuel pressure according to following procedures.
• Place container under joint to catch fuel.
• Cover joint with rag and loosen joint nut slowly to gradually release fuel pressure.
1
1
Joint nut
6. After checking fuel pressure, remove fuel pressure gauge.
7. Reconnect fuel line.
8. With engine not running and ignition switch “ON”, check fuel system for leaks.
FUEL SYSTEM 5-6
5-7 FUEL SYSTEM
FUEL VAPOR SEPARATOR / HIGH PRESSURE FUEL PUMP
REMOVAL / INSTALLATION
Removal
A
The components after the high pressure fuel pump remain pressurized at all times.
To protect against fuel spray, relieve fuel line pressure before disconnecting or removing components.
• Remove intake manifold assembly.
(See page 6-1)
• Remove three bolts and fuel vapor separator assembly from intake manifold.
Installation
Installation is reverse order of removal.
See page 6-2 for installation of intake manifold assembly.
DISASSEMBLY
Remove five screws 1 .
Remove separator cover
2
with high pressure fuel pump from separator case 3 .
NOTE:
Separator cover and case are a set.
Make sure paint marks on both items are matched when assembling.
Remove float pin
4
and float
5
.
FUEL SYSTEM 5-8
Remove needle valve
6
, screw, plate and valve seat
7
.
Remove plate
8
.
Remove screw and fuel pressure regulator
9
from separator case.
5-9 FUEL SYSTEM
Remove screw and pump bracket
0
.
Remove high pressure fuel pump
A from separator cover and then disconnect pump lead wire connector.
INSPECTION
NOTE:
If cracks, excessive wear or other damage is found on any component, replace component.
Needle valve / Valve seat
Check needle valve and valve seat.
If grooved or damaged, replace valve and seat.
If dirt is found, clean.
Float
Check float.
If cracked or damaged, replace float.
FUEL SYSTEM 5-10
Filter
Check pump suction filter.
If clogged or damaged, clean or replace filter.
Fuel pressure regulator
Check fuel pressure regulator operation.
z
09821-00004 : Hand air pump
1
09940-44120 : Air pressure gauge
2
09940-44130 : Attachment
3
09912-58490 : Hose
4
1. Connect special tools to inlet side of regulator as shown.
2. Pump air into regulator using pump
1
until air is released through outlet side.
3. Note pressure on gauge when air is released.
Regulator operating pressure :
240 – 270 kPa (2.4 – 2.7 kg/cm 2 , 34.1 – 38.4 psi.)
If measurement exceeds specification, replace regulator.
2
3 4
1
5-11 FUEL SYSTEM
ASSEMBLY
Assembly is reverse order of disassembly paying special attention to the following steps.
Float / Float pin
Install float and float pin.
NOTE:
After assembling, check for smooth and free float movement.
Fuel pressure regulator
Install fuel pressure regulator and tighten screw securely.
NOTE:
Apply fuel to O-ring before installing regulator.
Separator cover / Separator case
Apply Suzuki Bond evenly to only the outside mating surface of separator cover as shown.
b 99000-31140 : Suzuki Bond 1207B
NOTE:
• Clean mating surfaces before applying bond.
• Do not apply bond to o-ring, groove and inside mating surface.
Install separator case and tighten screws securely.
NOTE:
Separator cover and case are a set.
Make sure paint marks on both items are matched when assembling.
FUEL INJECTOR
INSPECTION
1. Using sound scope or equivelent, check operating sound of fuel injector when engine is running or cranking.
The injector operating sound cycle should vary according to engine speed.
If no sound or an unusual sound is heard, check injector circuit (wire or connector) or injector.
2. Disconnect lead wire connector from fuel injector.
3. Connect digital tester between terminals of injector and check resistance.
z
09930-99320 : Digital tester t
Tester range : W (Resistance)
Fuel injector resistance : 11.0 – 16.5 W
If out of specification, replace fuel injector.
4. Connect lead wire connector to fuel injector securely.
REMOVAL
1. Relieve fuel pressure according to procedure described on page 5-2.
2. Disconnect lead wire connectors from each injector.
3. Remove the screw securing the fuel injector stopper.
4. Remove fuel injector stopper and fuel injector.
B
A small amount of fuel may be released when the fuel injector is removed from intake manifold.
Place a shop cloth under fuel injector before removal to absorb any fuel released.
Dispose of fuel soaked cloth in appropriate container.
FUEL SYSTEM 5-12
5-13 FUEL SYSTEM
INSTALLATION
1. Use care when installing to prevent any O-ring damage.
2. Always replace injector cushion with new.
Assemble cushion to fuel injector.
3. Apply thin coat of fuel to injector O-rings before installing injector into intake manifold.
4. Install injector stopper and tighten stopper screw securely.
5. Connect lead wire connector to injector securely.
1
Cushion
3
O-ring
2 Injector 4 O-ring
6. Turn ignition switch “ON” for 3 seconds (to operate fuel pump), then turn it “OFF”.
Repeat this (ON and OFF) procedure 3 or 4 times to pressurize the fuel system.
Check for fuel leaks around fuel injector.
LOW PRESSURE FUEL PUMP
REMOVAL / INSTALLATION
REMOVAL
1. Disconnect inlet hose 1 and outlet hose 2 from low pressure fuel pump.
2. Remove two bolts
3
.
3. Remove fuel pump 4 and O-ring 5 .
FUEL SYSTEM 5-14
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
B
• Before installing fuel pump, rotate the crankshaft to bring No.1 (top cylinder) piston to Top Dead Center on compression stroke.
• Discard O-rings after removal. always use new O-ring to ensure proper sealing.
@ Low pressure fuel pump bolt :
10 N . m (1.0 kg-m, 7.2 lb.-ft.)
5-15 FUEL SYSTEM
DISASSEMBLY / REASSEMBLY
DISASSEMBLY
NOTE:
For correct assembly, scribe an alignment mark on each part of fuel pump.
Remove six screws
1
and remove in sequence the outer plate
2
, diaphragm
3
and valve body
4
.
Turn piston
6
until pin
5
comes out through cutaway of pump body
0
.
Remove following parts :
• Pin
5
• Piston
6
• Spring
7
• Diaphragm
8
• Spring
9
0
7
5
6
1
4
8
2
3
9
ASSEMBLY
Assembly is reverse order of disassembly with special attention the following steps.
NOTE:
After connecting diaphragm rod
8
to piston
6
with pin
5
, align the six diaphragm holes to pump body holes by turning piston
6
and diaphragm
8
together. Turning them together prevents the pin from coming out through pump body
0
cutaway.
INSPECTION
Diaphragm
Inspect all diaphragms. If distortion, tears, or other damage is found, replace diaphragms.
Check-valves
Inspect the fuel pump check valves. If tears, distortion or damage is found, replace fuel pump.
Pump body
Inspect each fuel pump body and outer plate.
If cracks, nicks, distortion or damage is found, replace fuel pump.
FUEL SYSTEM 5-16
5-17 FUEL SYSTEM
FUEL TANK
DISASSEMBLY / REASSEMBLY
When disassembly or reassembling fuel tank, refer to the construction diagram below.
Plastic tank Steel tank
2
–(b)
3
1
3
4
3
3
2
–(a)
5
G
H
F
H
J
H
3
4
I
H
6
5
1
2
B
C
D
E
8
9
0
A
7
7
8
9
0
6
K
A
1
Fuel hose assy (1)
2
–(a),
Connector
2
–(b),
Connector
[
3
Clip (4)]
[
4
Primer bulb (1)]
5
Tank cap (1)
6
Gasket (1)
7
Connector plug (1)
8
Outlet (1)
9
Filter (1)
0
O-ring (1)
A
Fuel tank (1)
1
Tank cap (1)
2
Gasket (1)
3
Screw (4)
4
Gasket (4)
5
Connector plug (1)
6
Gasket (1)
7
Fuel gauge assy (1)
[
8
Cover (1)]
[
9
Gasket (1)]
[
0
Lens (1)]
[
A
Gasket (1)]
[
B
Screw (2)]
[
C
Float (1)]
[
D
Push nut (1)]
[
E
Gasket (1)]
F
Fuel hose assy (1)
[
G
Connector (1)]
[
H
Clip (4)]
[
I
Connector (1)]
[
J
Primer bulb (1)]
[
K
Fuel tank (1)]
FUEL SYSTEM 5-18
INSPECTION
Fuel connector
Inspect fuel connector. If leakage,deterioration or other damage is found, replace fuel connector.
1
2
1
1. Connector 2. Connector plug
2
Fuel primer bulb
Inspect fuel primer bulb. If cracks, leakage, or deterioration is found, replace primer bulb.
If check valve function is defective, replace primer bulb.
Fuel hose
Inspect fuel hose. If cuts, cracks, leakage, tears or deterioration is found, replace fuel hose.
Fuel tank
Inspect fuel tank. if cracks, leakage or deterioration is found, replace fuel tank.
If water or other contamination is found, drain and clean fuel tank.
Tank cap
Check that the fuel tank vent opens and relieves internal tank pressure properly.
Replace tank cap if vent is suspect.
POWER UNIT
CONTENTS
INTAKE MANIFOLD ASSEMBLY _____________________________ 6-1
REMOVAL ........................................................................................................
6-1
INSTALLATION ................................................................................................
6-2
POWER UNIT _____________________________________________ 6-3
REMOVAL ........................................................................................................
6-3
INSTALLATION ................................................................................................
6-7
OIL PUMP / CASE _________________________________________ 6-10
REMOVAL ........................................................................................................
6-10
DISASSEMBLY ................................................................................................
6-10
INSPECTION ...................................................................................................
6-11
MEASURING PUMP COMPONENTS ............................................................
6-11
ASSEMBLY ......................................................................................................
6-12
INSTALLATION ................................................................................................
6-12
TIMING CHAIN / TENSIONER ________________________________ 6-15
REMOVAL ........................................................................................................
6-15
INSPECTION ...................................................................................................
6-17
INSTALLATION ................................................................................................
6-18
CYLINDER HEAD ASSEMBLY _______________________________ 6-21
REMOVAL ........................................................................................................
6-21
ASSEMBLY ......................................................................................................
6-21
DISASSEMBLY ................................................................................................
6-24
INSPECTION / SERVICING ............................................................................
6-25
REASSEMBLY .................................................................................................
6-38
CYLINDER / CRANKSHAFT / PISTON _________________________ 6-40
DISASSEMBLY ................................................................................................
6-40
INSPECTION / SERVICING ............................................................................
6-43
REASSEMBLY .................................................................................................
6-57
THERMOSTAT ____________________________________________ 6-64
REMOVAL / INSPECTION / INSTALLATION .................................................
6-64
OPERATION ______________________________________________ 6-65
WATER COOLING SYSTEM ...........................................................................
6-65
ENGINE LUBRICATION SYSTEM ..................................................................
6-66
6
6-1 POWER UNIT
INTAKE MANIFOLD ASSEMBLY
REMOVAL
Before removing intake manifold :
• Relieve fuel pressure. (See page 5-2)
• Disconnect battery cables from battery.
• Remove both side covers. (See page 7-1)
1. Remove flywheel cover and breather hose.
Remove evaporation hose from flywheel cover.
2. Remove silencer case 1 and disconnect lead wire connector 2 from IAT sensor.
3. Disconnect lead wire connector 3 from CTP switch.
4. Remove throttle rod 4 from throttle body.
5. Remove bolts and side cover holder 5 .
6. Remove water inlet hose 6 and outlet hose 7 from vapor separator.
7. Place a suitable container under the vapor separator, then disconnect fuel return hose 8 from vapor separator.
8. Disconnect MAP sensor lead wire connector 9 at MAP sensor.
Disconnect low pressure fuel inlet hose 0 from vapor separator.
9. Disconnect high pressure fuel outlet hose A from vapor separator.
Disconnect high pressure fuel pump lead wire connector B at high pressure fuel pump.
10. Remove two bolts and high pressure fuel filter C .
11. Disconnect lead wire connectors D from all fuel injectors.
12. Remove four (4) bolts and Throttle body E .
Remove IAC valve hose F from Throttle body.
13. Remove bolts and nuts, and then remove intake manifold assembly G .
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
NOTE:
Do not re-use gasket. Always use a new gasket.
• Install gasket and intake manifold.
• Tighten bolts and nuts securely.
• Check to ensure that all removed parts are back in place.
Checking
• Check fuel and water hose routing.
(See page 10-7 to 10-9)
• Check wire routing (See page 10-1 to 10-6)
• Check for fuel leakage. (See page 5-3)
• Check for water leakage.
POWER UNIT 6-2
6-3 POWER UNIT
POWER UNIT
REMOVAL
Before removing power unit :
• Drain engine oil.
• Remove intake manifold assembly. (See page 6-1)
Remove two bolts and low pressure fuel pump 1 .
Disconnect ignition coil connectors.
Remove the bolt securing the ignition coil 2 .
Remove all ignition coils 2 and spark plugs.
Disconnect CMP sensor connector 3 .
Remove the twelve (12) cylinder head cover bolts, and then remove cylinder head cover 4 .
Remove starter motor. (See page 4-11)
Remove flywheel. (See page 3-48) z
09930-48720 : Flywheel holder
09930-39411 : Flywheel remover
09930-39420 : Flywheel remover bolt
Remove battery charge coil 1 . (See page 4-4)
Disconnect CKP sensor connector and remove sensors 2 .
Disconnect cylinder temperature sensor connector and remove sensor 3 .
Remove two bolts and rectifier & regulator.
Remove bolt and low pressure fuel filter bracket.
Disconnect water hose 4 from thermostat cover and engine holder.
Disconnect exhaust manifold temperature sensor connector and remove sensor 5 .
Loosen screw and disconnect oil pressure switch lead wire 6 .
Disconnect neutral switch lead connector wire 7 .
Disconnect all engine wiring harness connectors from ECM, then remove ECM 8 .
Disconnect the PTT motor cable wire leads (G, Bl) from the
PTT relays.
Remove positive (+) battery cable from starter motor relay.
ECM
POWER UNIT 6-4
6-5 POWER UNIT
Remove four bolts and electric part holder.
Remove IAC valve silencer.
Disconnect clutch rod from shift rod by loosening lock nut and turnbuckle.
Remove throttle control lever 1 and clutch control lever 2 .
Remove bolt and neutral switch 3 with bracket.
Remove two bolts 1 securing front panel bracket 2 .
Remove screw 3 and clutch lever shaft 4 .
Remove clutch rod arm 5 from crankcase .
Remove pin 6 and side cover seal 7 .
Remove oil level dipstick 8 .
Remove eight bolts and nut.
Lift up and remove power unit from engine holder.
POWER UNIT 6-6
6-7 POWER UNIT
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
B
Do not re-use gasket and o-ring.
Always replace with new parts.
POWER UNIT
Install dowel pins 1 , gasket 2 and O-ring 3 .
Apply Suzuki Water Resistant Grease to driveshaft splines.
l 99000-25160 : Suzuki Water Resistant Grease
Lower the power unit onto engine holder.
NOTE:
Rotate crankshaft to aid alignment of driveshaft and crankshaft splines.
Apply Suzuki Silicone Seal to power unit mounting bolts and tighten bolts and nut to specified torque.
k 99000-31120 : Suzuki Silicone Seal
@ Power unit mounting bolt and nut :
8 mm 23 N . m ( 2.3kg-m, 16.5 lb.-ft. )
10 mm 50 N . m ( 5.0kg-m, 36.0 lb.-ft.)
FLYWHEEL
Install battery charge coil. (See page 4-5)
Install CKP sensors. (See page 3-49)
Install flywheel and tighten flywheel bolt to specified torque.
(See page 3-49) z
09930-48720 : Flywheel holder
@ Flywheel bolt : 200 N . m (20.0 kg-m, 145 lb.-ft.)
CYLINDER HEAD COVER
NOTE:
Before installing cylinder head cover, check tappet clearance.
(See page 2-8)
Apply Suzuki Bond to area as shown in figure.
b 99000-31140 : Suzuki Bond No. 1207B
Assemble new O-rings and cylinder head cover gasket to cylinder head cover.
NOTE:
Be sure to check all parts for wear or any damage before installation and replace any found defective.
Install cylinder head cover to cylinder head and tighten cover bolts to specified torque.
@
Cylinder head cover bolt :
10 N . m (1.0kg-m, 7.2 lb.-ft.)
NOTE:
Use care when installing cylinder head cover.
Be certain cylinder head cover gasket and O-rings remain in their correct position.
POWER UNIT 6-8
6-9 POWER UNIT
INTAKE MANIFOLD
Install intake manifold assembly.
(See page 6-2)
FINAL ASSEMBLY CHECK
Perform the following checks to ensure proper and safe operation of the repaired unit.
• All parts removed have been returned to their original positions .
• Lower unit gear engagement is properly adjusted.
(See page 9-22)
• Fuel and water hose routing match’s service manual illustration. (See page 10-7 to 10-9)
• Wire routing match’s service manual illustration.
(See page 10-2 to 10-6)
• No fuel leakage is evident when fuel system is pressurized.
(See page 5-3)
• No water leakage is evident during final test running.
POWER UNIT 6-10
OIL PUMP / CASE
REMOVAL
1. Remove the power unit.
(see page 6-3 to 6-6)
2. Remove the two (2) bolts securing the under oil seal housing to oil pump case, then remove the under oil seal housing.
3. Remove the seven (7) bolts securing the oil pump case to cylinder block, then remove oil pump case with oil pump.
DISASSEMBLY
1. Remove the screws securing oil pump rotor plate to the oil pump case, then remove the oil pump rotor plate.
2. Take out inner rotor and outer rotor.
Rotor plate
1
1. Outer rotor 2. Inner rotor
2
6-11 POWER UNIT
INSPECTION
Oil seal
Check oil seal lip for wear or other damage.
Replace as necessary.
Oil pump components
Check outer and inner rotors, rotor plate and oil pump case for excessive wear or damage.
Replace as necessary.
1
2
MEASURING PUMP COMPONENTS
Radial clearance
Using a feeler gauge, measure radial clearance between outer rotor and case.
Radial clearance :
Service limit : 0.31 mm (0.0122 in.)
If measurement is not within specifications, replace the outer rotor and/or case.
Side clearance
Using straightedge and feeler gauge, measure side clearance.
Side clearance
Service limit : 0.15 mm (0.0059 in.)
If measurement is not within specifications, replace the outer rotor and/or pump case.
1. Outer rotor 2. Inner rotor z
1
2
1. Outer rotor 2. Inner rotor z
ASSEMBLY
(1) Wash, clean and then dry all disassembled parts.
(2) Apply thin coat of engine oil to inner and outer rotors, oil seal lip and inside surfaces of oil pump case and plate.
(3) Install outer and inner rotor to pump case.
POWER UNIT 6-12
1
(4) Install outer plate.
Tighten six (6) screws securely.
After mounting the outer plate, check to be sure that each rotor turns smoothly by hand.
1. Outer rotor 2. Inner rotor
2
INSTALLATION
Installation is reverse of removal with special attention to following steps.
1. Check for proper timing chain installation.
(see page 6-20)
2. Install two (2) dowel pins to cylinder block.
Before fitting the pump case, oil the oil seal lip.
1
1. Dowel pin
1
6-13 POWER UNIT
3. Apply sealant to areas as shown in figure.
b 99000-31140 : Suzuki Bond 1207B
4. Apply a continuous bead of sealant to oil pump case mating surface as shown in figure.
b 99000-31140 : Suzuki Bond 1207B
5. Install oil pump case to cylinder block and tighten seven (7) bolts securely.
NOTE:
• When installing oil pump case be sure position of oil pump inner rotor matchs with crankshaft.
• Tighten bolts in the indicated order.
Sealant b
Sealant b
6. Install dowel pin and gasket to oil pump case.
7. Apply grease to oil seal lip.
l 99000-25160 : Water Resistant Grease
8. Install under oil seal housing and tighten bolts.
POWER UNIT 6-14
6-15 POWER UNIT
TIMING CHAIN / TENSIONER
REMOVAL
Prior to this service work :
• remove the power unit. (see page 6-3 to 6-6)
• remove the oil pump case. (see page 6-10)
7
8
5
9
3
6
4
1
2
1
Crankshaft / timing sprocket
2
Timing chain
3
Timing chain guide No.1
4
Timing chain tensioner
5
Timing chain tensioner link
6
Timing chain tensioner adjuster
7
Timing chain guide No.2
8
Exhaust camshaft w/timing sprocket
9
Intake camshaft and timing sprocket
1. Turn the crankshaft in its normal running direction ( R direction) until No.1 cylinder reaches top dead center.
NOTE :
To bring No.1 cylinder top dead center, align mark S on the crankshaft with mark a on the crank case.
B
When timing chain has been removed, never turn crankshaft or camshaft.
2. Remove the bolts and timing chain tensioner link
5
.
3. Remove the bolts and tensioner adjuster
6
.
4. Remove the bolts and timing chain guide No.1 3 .
R a a
: Match mark on crank case
S : Match mark on crank shaft
R : Engine normal running direction
S
5. Remove the bolt and timing chain tensioner
4
.
6. Remove the bolts and timing chain guide No.2
7
.
NOTE:
Hold camshaft by placing a wrench on the hexagon area of the camshaft.
7. Remove the three(3) bolts securing the intake timing sprocket to camshaft.
8. Remove the intake timing sprocket, dowel pin and timing chain.
POWER UNIT 6-16
6-17 POWER UNIT
INSPECTION
NOTE:
If any component is worn excessively, cracked, defective or damaged in any way, it must be replaced.
Timing chain
Inspect timing chain.
Replace if worn or damaged.
Tensioner adjuster
Inspect tensioner adjuster for smooth operation.
Replace if faulty.
Timing chain tensioner / chain guide
Check shoe for wear or damage.
1 2
1. Latch
2. Tooth surface
Timing sprocket
Check teeth of sprocket for wear or damage.
POWER UNIT 6-18
INSTALLATION
Installation is reverse of removal with special attention to following steps.
(1) Align crankshaft timing mark S with timing mark a on crankcase as shown in figure by turning crankshaft.
(2) Install dowel pin 1 in intake camshaft.
Then turn the camshaft to position the dowel pin at the top, as shown in figure.
Check that mark e on exhaust camshaft timing sprocket aligns with timing mark b on cylinder head as shown in figure.
(3) Install timing chain by aligning blue plate of timing chain and arrow on exhaust camshaft timing sprocket as shown in figure.
Install timing chain by aligning yellow plate of timing chain and crankshaft timing mark S as shown in figure.
(4) Bring blue plate of timing chain into alignment with arrow mark on intake camshaft timing sprocket, then install intake cam timing sprocket to intake camshaft.
Tighten sprocket bolts to specified torque.
@ Camshaft timing sprocket bolt :
10 N . m (1.0 kg-m, 7.2 lb.-ft.)
Blue plate
Arrow mark
( )
1 b e
S a
S
Yellow plate
NOTE:
Hold the camshaft by placing a wrench on the hexagon area of the shaft.
6-19 POWER UNIT
(5) Install timing chain guide No.2
1
.
1
(6) Insert spacer into chain tensioner.
Install chain tensioner
2 as shown in figure.
Apply oil to chain tensioner.
(7) Install timing chain guide No.1
3
.
(8) With latch of tensioner adjuster returned and plunger pushed back into body, insert stopper into latch and body.
After inserting stopper, check to make sure that plunger will not come out.
1 2
2
4
3
1. Plunger
2. Latch
3. Body
4. Stopper
(9) Install timing chain tensioner adjuster
4
.
Apply engine oil to timing chain.
(10) Install timing chain tensioner link
5
.
(11) Pull out stopper from adjuster.
(12) Turn crankshaft normal running direction 2 revolutions and check that match marks are aligned as shown in figure.
(13) Install oil pump case.
(See page 6-12)
(14) Install under oil seal housing.
(See page 6-14)
2
POWER UNIT 6-20
1
4
1. Match mark (slit) on camshaft sprocket
2. Match mark (rib) on cylinder head
3. Match mark on crank shaft
4. Match mark on crankcase
3
6-21 POWER UNIT
CYLINDER HEAD ASSEMBLY
(Cylinder head / valve / camshaft)
REMOVAL
Prior to removing cylinder head :
• Remove the power unit.
(see page 6-3 to 6-6)
• Remove the timing chain.
(see page 6-15 to 6-16)
1. Remove the bolts securing the camshaft housing to cylinder head, then remove each camshaft housing.
NOTE:
For ease of assembly, note position of each individual camshaft housing.
2. Remove intake and exhaust camshafts.
3. Loosen ten (10) cylinder head bolts in the order indicated in figure and remove them.
4. Remove cylinder head assembly and head gasket.
NOTE:
Use a special tool (10mm deep socket wrench) when loosening the cylinder head bolts.
z
09919-16010 : Deep socket wrench (10 mm)
ASSEMBLY
Assemble in reverse order of removal paying special attention to the following steps.
B
Do not re-use gasket. Always use a new gasket.
6
8 10
3
9
1
7
2
5
4
1. Insert the dowel pins and place a new cylinder head gasket into position on the cylinder.
POWER UNIT 6-22
2. Position cylinder head on cylinder.
3. Apply engine oil to cylinder head bolts and tighten them gradually as follows.
(a) Tighten all bolts to 30 N . m (3.0 kg-m, 21.5 lb.-ft.) ac-
cording to numerical order in figure.
(b) Loosen all bolts to 0 N . m (0 kg-m, 0 lb.-ft.) according to
reverse order in figure.
(c) Again tighten all bolts to 30 N . m (3.0 kg-m, 21.5 lb.-ft.)
according to numerical order in figure.
(d) Finally tighten all bolts to specified torque according to
numerical order in figure.
@
Cylinder head bolt : 59 N . m (6.0 kg-m, 43.4 lb.-ft.)
5
3 1
NOTE:
Use special tool (10mm deep socket wrench) when tighten the cylinder head bolt.
z
09919-16010 : Deep socket wrench (10 mm)
8
2
10
4 9
6
7
4. Apply engine oil around tappets and install.
5. Install tappet shims.
6. Apply engine oil to the surface of each camshaft lobe and journal, then install them as shown in figure.
NOTE:
Before installing camshafts, turn crankshaft until No.1 cylinder reaches top dead center. (see page 6-15)
1
3
1. Dowel pin hole
2. Match mark (slit)
3. Match mark (rib)
2
6-23 POWER UNIT
7. Install camshaft housing pins as shown in figure.
Pin
8. Check position of camshaft housing.
• Embossed marks are provided on each camshaft housing indicating position and direction of installation.
Install housings as indicated by these marks.
I : Intake side
E : Exhaust side
Position from flywheel magneto side
Pointing to flywheel magneto side
9. Apply engine oil to housing bolts.
10. Lightly seat all housing bolts at first.
Following numerical order in figure, tighten bolts to 1/3 of specified torque, then 2/3 of specified torque and finally to full specified torque.
@ Camshaft housing bolt : 10 N . m (1.0 kg-m, 7.2 lb.-ft.)
13
15
14
16
6
5
2 1
10
17
7
8 3
4
11. Install timing chain. (see page 6-18)
12. Adjust tappet clearance. (see page 2-8)
12
9
11
POWER UNIT 6-24
DISASSEMBLY
1. Remove tappets with shims.
2. Using valve lifter and attachment, remove valve cotters
1 while compressing valve spring.
z
09916-14510 : Valve lifter
09916-14910 : Attachment
09916-84511 : Tweezers z
3. Remove valve spring retainer
2
, valve spring
3 and valve
4
.
z z z z
1
4. Remove valve stem seal
5 and valve spring seat
6
.
NOTE:
Reassemble each valve and valve spring in their original positions.
6
1 2
1
3 5 6 4
5
6-25 POWER UNIT
INSPECTION / SERVICING
NOTE:
If cracks, excessive wear or other damage is found on any component, replace component.
CYLINDER HEAD
Remove all carbon from combustion chambers.
NOTE:
• Do not use any sharp edged tool to scrape carbon off cylinder head or its components.
• Be careful not to scuff or nick metal surfaces when decarboning.
Check cylinder head for cracks in intake and exhaust ports, combustion chambers, and head surface.
Valve seat
Check valve seat, if cracks or other damage is found, replace cylinder head.
Cylinder head distortion
Using a straightedge and thickness gauge, measure cylinder head distortion (gasket surface) at a total of six (6) locations as shown.
z
09900-20803 : Thickness gauge
Cylinder head distortion
Service limit : 0.05 mm (0.002 in.)
If measurement exceeds service limit, resurface or replace cylinder head.
NOTE:
Cylinder head can be resurfaced, using a surface plate and
#400 grit wet sandpaper.
Move the cylinder head in a figure eight pattern when sanding.
z
Manifold seating faces distortion
Using a straightedge and thickness gauge, check cylinder head to manifold seating faces.
Manifold seating faces distortion
Service limit : 0.10 mm (0.004 in.)
If measurement exceeds service limit, resurface or replace cylinder head.
Water jackets
Check water jackets. If clogged or obstructed, clean water jackets.
z
POWER UNIT 6-26
CAMSHAFT
Cam face
Inspect cam face for scratches and wear.
Cam wear
Using micrometer, measure cam height H .
z
09900-20202 : Micrometer
Cam height
Standard:
DF40 IN 37.530 – 37.690 mm (1.4776 – 1.4839 in.)
EX 37.740 – 37.900 mm (1.4858 – 1.4921 in.)
DF50 IN 38.230 – 38.390 mm (1.5051 – 1.5114 in.)
EX 37.740 – 37.900 mm (1.4858 – 1.4921 in.)
Service limit
DF40 IN 37.430 mm (1.4736 in.)
EX 37.640 mm (1.4819 in.)
DF50 IN 38.130 mm (1.5012 in.)
EX 37.640 mm (1.4819 in.)
If measurement exceeds service limit, replace camshaft.
H
6-27 POWER UNIT
Camshaft identification
DF40 and DF50 camshafts differ as indicated below.
Model
DF40
DF50
Identification Groove
No groove
Groove
Camshaft runout
Position camshaft between two “V” blocks and measure runout using a dial gauge.
z
09900-20606 : Dial gauge
09900-21304 : “V” block set
09900-20701 : Magnetic stand
Camshaft runout
Service limit : 0.10 mm (0.004 in.)
If measurement exceeds service limit, replace camshaft.
IN
1
Groove
EX
CAMSHAFT JOURNAL
Check camshaft journals and camshaft housing for pitting, scratches, wear or damage.
If any of the above conditions are found, replace camshaft or cylinder head with housing.
NOTE:
Camshaft housing and cylinder head must be replaced as a set.
POWER UNIT 6-28
Camshaft journal oil clearance
Check journal oil clearance using Plastigauge as follows.
1. Clean housing and camshaft journals.
2. Install camshaft to cylinder head.
3. Place Plastigauge across the full width of camshaft journal
(parallel to camshaft).
z
09900-22302 : Plastigauge
4. Install camshaft housing. Tighten housing bolts in 3 steps
(1/3 of specification, 2/3 of specification, full torque specification) in the indicated order.
@ Camshaft housing bolt : 10 N . m (1.0 kg-m, 7.2 lb.-ft.)
NOTE:
Do not rotate camshaft while Plastigauge is installed.
5. Remove camshaft housing.
6. Using scale on Plastigauge envelope, measure Plastigauge at its widest point.
Camshaft journal oil clearance
Standard : 0.045 – 0.087 mm (0.0018 – 0.0034 in.)
Service limit : 0.12 mm (0.0047 in.)
13
15
14
16
6
5
2 1
10
17
7
8 3
4
1
1. Plastigauge
2. Scale
12
2
9
11
If journal oil clearance exceeds the service limit, measure camshaft journal (outside dia.) and camshaft housing (inner dia.).
Based on measurements, replace camshaft and / or cylinder head with camshaft housing.
z
09900-20205 : Micrometer
Camshaft journal outside diameter
Standard : 22.934 – 22.955 mm (0.9029 – 0.9037 in.)
Service limit : 22.784 mm (0.8970 in.)
6-29 POWER UNIT
Camshaft journal (housing) inside diameter
Standard : 23.000 – 23.021 mm (0.9055 – 0.9063 in.)
Service limit : 23.171 mm (0.9122 in.)
TAPPET / TAPPET SHIM
Wear of tappet and shim
Check tappet and shim for pitting,scratches, or damage.
If any above conditions are found, replace component.
Measure cylinder head bore and tappet outside diameter to determine cylinder head to tappet clearance.
z
09900-20202 : Micrometer
If measurement exceeds service limit, replace tappet or cylinder head.
Cylinder head bore to tappet clearance
Standard : 0.025 – 0.062 mm (0.0010 – 0.0024 in.)
Service limit : 0.150 mm (0.0059 in.)
Tappet outer diameter
Standard : 26.959 – 26.975 mm (1.0614 – 1.0620 in.)
Cylinder head bore
Standard : 27.000 – 27.021 mm (1.0630 – 1.0638 in.)
POWER UNIT 6-30
VALVE / VALVE GUIDE
Valve guide to valve stem clearance
Using a micrometer and bore gauge, take diameter readings on valve stems and guides to check guide to stem clearance.
Be sure to take readings at more than one place along the length of each stem and guide.
z
09900-20205 : Micrometer
Valve stem outside diameter
Using micrometer, measure valve stem outside diameter.
Valve stem outside diameter
Standard:
IN 5.465 – 5.480 mm (0.2152 – 0.2157 in.)
EX 5.440 – 5.455 mm (0.2142 – 0.2148 in.)
Valve guide inside diameter
Using a small bore gauge, measure valve guide inside diameter.
Valve guide inside diameter
Standard :
IN 5.500 – 5.512 mm (0.2165 – 0.2170 in.)
EX 5.500 – 5.512 mm (0.2165 – 0.2170 in.)
Valve guide to valve stem clearance
Valve guide to valve stem clearance
Standard :
IN 0.020 – 0.047 mm (0.0008 – 0.0019 in.)
EX 0.045 – 0.072 mm (0.0018 – 0.0028 in.)
Service limit :
IN 0.070 mm (0.0028 in.)
EX 0.090 mm (0.0035 in.)
If measurement exceeds service limit, replace valve and / or valve guide.
NOTE:
For valve guide replacement, see “VALVE GUIDE REPLACE-
MENT” section on page 6-35.
z
6-31 POWER UNIT
Valve stem end deflection
If unable to measure valve guide inside diameter, check “Valve stem end deflection”.
z 09900-20606 : Dial gauge
09900-20701 : Magnetic stand
Measure valve stem end deflection as follows :
(1) Install valve into valve guide.
(2) Position valve head at approx. 5mm away from valve seat.
(3) Move stem end in the direction “X – Y”, and measure deflection.
Valve stem end deflection
Service limit :
IN 0.14 mm (0.0055 in.)
EX 0.18 mm (0.0071 in.)
If measurement exceeds service limit, replace valve.
If measurement still exceeds service limit with new valve, replace valve guide.
Valve stem end length
Inspect valve stem end face for pitting and wear.
If pitting or wear is found, valve stem end may be resurfaced.
Use caution when resurfacing, do not grind away stem end chamfer.
When chamfer has been worn away, replace valve.
z
09900-20101 : Vernier calipers
Valve stem end length
1
Service limit : 3.2 mm (0.1260 in.)
X
Y
1
Valve stem runout
Measure valve stem runout.
z 09900-20606 : Dial gauge
09900-20701 : Magnetic stand
09900-21304 : “V” block set
Valve stem runout
Service limit : 0.05 mm (0.0020 in.)
If measurement exceeds service limit, replace valve.
Valve head radial runout
Measure valve head radial runout.
z
09900-20606 : Dial gauge
09900-20701 : Magnetic stand
09900-21304 : “V” block set
Valve head radial runout service limit : 0.08 mm (0.0031 in.)
If measurement exceeds service limit, replace valve.
Valve head thickness
Measure thickness
T of valve head.
z
09900-20101 : Vernier calipers
Valve head thickness
Standard :
IN 1.0 mm (0.0394 in.)
EX 1.15 mm (0.0453 in.)
Service limit :
IN 0.7 mm (0.0276 in.)
EX 0.5 mm (0.0197 in.)
If measurement exceeds service limit, replace valve.
45 °
POWER UNIT 6-32
T
6-33 POWER UNIT
Valve seat contact width
Measure valve seat contact width as follows :
(1) Remove all carbon from valve and seat.
(2) Coat valve seat evenly with Prussian blue
(or equivalent)
(3) Install valve into valve guide.
(4) Put valve lapper on valve.
z 09916-10910 : Valve lapper
(5) Rotate valve while gently tapping valve contact area against seat.
(6) Continuously pattern on valve seating face with Prussian blue.
(7) Measure valve seat contact width
A
.
z
09900-20101 : Vernier calipers
Valve seat contact width
A
Standard :
IN 1.80 – 2.20 mm (0.0709 – 0.0866 in.)
EX 1.65 – 2.05 mm (0.0650 – 0.0984 in.)
If measurement exceeds specification, repair valve seat.
NOTE:
For valve seat repair, see “Valve seat servicing” section on page
6-34.
A
VALVE SEAT SERVICING
If valve seat contact width is out of specification, reface valve seat as follows :
• Valve seat angle
Intake side : 30 ° , 45 °
Exhaust side : 15 ° , 45 ° z
09916-20620 : Valve seat cutter (NEWAY122) 45 °
09916-20610 : Valve seat cutter (NEWAY121) 15 °
09916-20630 : Valve seat cutter (NEWAY 126) 30 °
09916-24440 : Handle adaptor (N-503-1)
09916-24450 : Solid pilot (N-100-5.52)
09916-24980 : Handle (N-503)
NOTE:
Turn cutter clockwise, never counterclockwise.
IN
30 °
45 °
(1) Remove all carbon from valve and valve seat.
(2) Using 45 ° angle cutter, reface valve seat.
(3) Check valve seat contact width A .
See the “Valve seat contact width” section on page 6-33.
(4) If width A is too high (or wide), reface valve seat using small angle cutter (Intake side : 30 ° , Exhaust side : 15 ° ).
If width A is too low (or narrow), reface valve seat using
45 ° angle cutter.
(5) Clean up any burrs using 45 ° angle cutter very lightly.
B
Grind seat areas minimally only.
Do not grind more than necessary.
(6) Lap valve on seat in two steps, first with coarse grit lapping compound applied to face and the second with fine grit compound.
(7) Recheck valve seat contact width A .
• Too high (wide)
A
• Too low (narrow)
A
POWER UNIT 6-34
EX
15 °
45 °
6-35 POWER UNIT
NOTE:
Clean and assemble cylinder head and valve components.
Fill intake and exhaust ports with solvent to check for leaks between valve seat and valve.
If any leaks occur , inspect valve seat and face for burrs or other things that could prevent valve from sealing.
VALVE GUIDE REPLACEMENT
B
Be careful not to damage cylinder head when replacing valve guide.
(1) Using valve guide remover, drive valve guide out from combustion chamber side towards valve spring side.
z
09916-44310 : Valve guide remover
NOTE:
Do not reuse valve guide once it has been removed.
Always use a new valve guide (oversize) when assembling.
(2) Ream valve guide hole with f 10.5 mm reamer to true hole and remove burrs.
z
09916-37320 : Valve guide reamer ( f 10.5mm)
09916-34542 : Reamer handle
NOTE:
Turn reamer clockwise, never counterclockwise.
z z z
(3) Install valve guide to cylinder head.
• Heat cylinder head to a temperature of 80 – 100°C (176 –
212°F ).
Apply heat uniformly so that head will not be distorted.
• Use special tools to drive new valve guide into hole.
Drive in new valve guide until special tool (valve guide
installer attachment) contacts cylinder head.
• After installing, check valve guide protrusion H .
z
09916-57330 : Valve guide installer handle
A
09917-87010 : Valve guide installer attachment
B
Valve guide protrusion
H standard :
IN & EX 11mm (0.4331 in.)
(4) Ream valve guide bore with f 5.5mm reamer.
z
09916-34550 : Valve guide reamer ( f 5.5mm)
09916-34542 : Reamer handle
NOTE:
Clean and oil valve guide bore after reaming.
H
POWER UNIT 6-36 z A z B z z
6-37 POWER UNIT
VALVE SPRING
Valve spring free length
Check spring strength by measuring free length.
z 09900-20101 : Vernier calipers
Valve spring free length
Standard :
IN & EX 33.13 mm (1.3043 in.)
Service limit :
IN & EX 31.80 mm (1.2520 in.)
If lower than service limit, replace valve spring.
Valve spring preload
Measure valve spring preload.
z
09900-20101 : Vernier calipers
Valve spring preload
Standard :
IN & EX 95 – 111 N (9.7 – 11.3 kg , 21.4 – 24.9 lbs.)
for 28.5 mm (1.12 in.)
Service limit :
IN & EX 88 N (8.9 kg, 19.6 lbs.) for 28.5mm
(1.12 in.)
If lower than service limit, replace valve spring.
Valve spring squareness
Use a square and surface plate to check each spring for squareness
(clearance between end of valve spring and square).
z
09900-20101 : Vernier calipers
Valve spring squareness
Service limit :
IN & EX 2.0 mm (0.079 in.)
If measurement exceeds service limit, replace valve spring.
REASSEMBLY
Reassemble in reverse order of disassembly paying special attention to the following steps.
VALVE
Install valve spring seat
1 to cylinder head.
5
4
3
POWER UNIT 6-38
6
2
1
After applying engine oil to stem seal
2 and spindle of special tool ( Installer attachment ), fit stem seal to spindle.
Then, pushing special tool by hand, install stem seal to valve guide.
Check to be sure that seal is properly fixed to valve guide.
z
09917-87010 : Installer attachment
A
09916-57330 : Installer handle
B
B
Do not reuse stem seal once removed.
Always install new seal.
z B z A
2
Apply engine oil to stem seal, valve guide bore and valve stem.
Install valve
3
to valve guide.
NOTE:
Reassemble each valve and valve spring to their original position.
Install valve spring
4
, and valve retainer
5
.
NOTE:
Set valve spring in place with narrow spiral area facing valve seat.
1
3 o
1. Large-pitch
2. Small-pitch
3. Valve spring
retainer side
4. Valve spring
seat side
2
4
6-39 POWER UNIT
Hold valve spring compressed with special tool and install valve cotters 6 .
Make sure valve cotters are properly seated in groove
A
.
z
09916-14510 : Valve lifter
09916-14910 : Attachment
09916-84511 : Tweezers z
6 z
A
6 z z z
CYLINDER / CRANKSHAFT / PISTON
DISASSEMBLY
Before performing service work in this section :
• Remove power unit (see page 6-3 to 6-6)
• Remove timing chain (see page 6-15 to 6-16)
• Remove cylinder head (see page 6-21)
Remove the five (5) bolts securing the upper oil seal housing to cylinder, then remove the oil seal housing.
Remove oil filter.
z
09915-47340 : Oil filter wrench
Remove oil pressure switch.
POWER UNIT 6-40
Remove eight (8) bolts 1 .
Remove eight (8) bolts 2 .
Remove crankcase from cylinder block.
6-41 POWER UNIT
NOTE:
For proper assembly, mark cylinder number on all pistons, conrods, and conrod caps, using quick drying paint.
Remove all conrod cap nuts 1 and conrod caps 2 .
NOTE:
To prevent damage to crank pin and cylinder walls, install a piece of hose over threads of rod bolts.
Remove crankshaft.
Guide hose
Mark cylinder number on pistons using quick dry paint.
Push piston (with conrod) out through the top of cylinder bore.
NOTE:
• To prevent damage to piston rings, decarbon top of cylinder bore wall before removing piston.
• Reassemble each conrod cap to its original position after removing piston from bore.
POWER UNIT 6-42
Remove two compression rings (top and 2 nd) and oil ring from piston.
Mark cylinder number on conrod using quick dry paint.
Remove piston pin circlips as shown.
Remove piston pin from conrod.
NOTE:
Reassemble each piston, piston pin and conrod in their original combination and position.
1. Piston pin circlip
1
6-43 POWER UNIT
INSPECTION / SERVICING
NOTE:
If cracks, excessive wear or other damage is found on any component, replace component.
CYLINDER
• Cylinder distortion
Using a straightedge and thickness gauge, measure cylinder distortion (gasketed surface) at a total of six (6) locations as shown.
z 09900-20803 : Thickness gauge
Cylinder distortion
Service limit : 0.06 mm (0.0024 in.)
If measurement exceeds service limit, resurface or replace cylinder.
NOTE:
Cylinder can be resurfaced, using a surface plate and # 400 grit wet sand paper.
Use a figure eight sanding pattern when resurfacing.
• Water jackets
Check water jackets.
If clog or obstruction is found, clean water jacket.
z
• Cylinder bore
Inspect cylinder walls for scratches, roughness, or ridges which indicate excessive wear.
If cylinder bore is very rough or deeply scratched, or ridged, rebore cylinder and use oversize piston.
POWER UNIT 6-44
• Cylinder bore wear (difference)
Using cylinder gauge, measure cylinder bore in both axial
(vertical line, following crankshaft) and transverse (horizontal line across crankshaft) directions at two positions as shown in figure.
z
09900-20508 : Cylinder gauge set
Check for following :
• Difference between measurements at the two positions
(taper).
• Difference between axial and transverse measurement (outof-round).
Cylinder bore wear (difference)
Service limit : 0.10 mm (0.039 in.)
If measurement exceeds service limit, rebore or replace cylinder.
PISTON TO CYLINDER CLEARANCE
(1) Measure the piston diameter at a point 19mm (0.748 in.) above the piston skirt at a right angle to the piston pin bore.
z
09900-20203 : Micrometer
Piston skirt diameter
Standard : 70.970 – 70.990 mm (2.7941 – 2.7949 in.)
(2) Measure the cylinder bore at 50mm (1.969 in.) below the cylinder head gasket surface at a right angle to the crankshaft pin.
z
09900-20508 : Cylinder gauge set
Cylinder bore
Standard : 71.000 – 71.020 mm (2.7953 – 2.7961 in.) z
1
2
1. 50 mm (1.96 in.)
2. 90 mm (3.54 in.) z z
50 mm
19 mm
6-45 POWER UNIT
(3) Calculate the piston / cylinder clearance
(Clearance equals difference between piston diameter and cylinder bore measurements).
Piston to cylinder clearance
Standard : 0.020 – 0.040 mm (0.0008 – 0.0016 in.)
Service limit : 0.100 mm (0.0039 in.)
If clearance exceeds service limit, replace piston and / or cylinder or rebore cylinder.
Identification of oversize piston / piston ring
Two oversize piston / piston ring components, 0.25mm and
0.50mm, are available.
Oversize piston / piston ring are marked as shown,below.
• Piston
Oversize
0.25 mm
0.50 mm
I.D. mark
0.25
0.50
I.D. mark
0.25
or
0.50
• 1st & 2nd Piston ring
Oversize
0.25 mm
0.50 mm
1st ring
N25
N50
I.D. mark
2nd ring
2N25
2N50
I.D. mark
1st, 2nd ring
• Oil ring
Oversize
0.25 mm
0.50 mm
I.D. mark
White paint
Blue paint
NOTE:
Oversize oil ring rails have no I.D. mark to distinguish size.
Oil ring outer diameter must be measured to determine size.
I.D. mark
Oil ring spacer
POWER UNIT 6-46
PISTON
• Inspect piston for faults, cracks or other damage.
Damaged or faulty piston(s) should be replaced.
• Piston ring to groove clearance
Before checking, piston grooves must be clean, dry and free of carbon.
Fit piston ring into piston groove, and measure clearance between ring and ring groove using thickness gauge.
z
09900-20803 : Thickness gauge
Piston ring to groove clearance
Standard:
1 st 0.020 – 0.060 mm (0.0008 – 0.0024 in.)
2 nd 0.020 – 0.060 mm (0.0008 – 0.0024 in.)
Service limit :
1 st 0.10 mm (0.0039 in.)
2 nd 0.10 mm (0.0039 in.)
If measurement exceeds service limit, replace piston and / or piston ring.
Piston ring groove width
Standard :
1 st 1.01 – 1.03 mm (0.0398 – 0.0406 in.)
2 nd 1.01 – 1.03 mm (0.0398 – 0.0406 in.)
Oil 1.51 – 1.53 mm (0.0594 – 0.0602 in.)
Piston ring thickness
Standard :
1 st 0.97 – 0.99 mm (0.0382 – 0.0390 in.)
2 nd 0.97 – 0.99 mm (0.0382 – 0.0390 in.)
Piston ring z
6-47 POWER UNIT
PISTON RING
Piston ring end gap
Measure piston ring end gap with piston ring in the lowest position of cylinder bore.
z
09900-20803: Thickness gauge
Piston ring end gap
Standard:
1 st 0.10 – 0.25 mm (0.0039 – 0.0098 in.)
2 nd 0.25 – 0.40 mm (0.0098 – 0.0157 in.)
Service limit :
1 st 0.70 mm (0.0276 in.)
2 nd 1.00 mm (0.0394 in.)
If measurement exceeds service limit, replace piston ring.
Cylinder z
Piston ring
Piston ring free end gap
Measure piston ring free end gap using vernier calipers.
z
09900-20101 : Vernier calipers
Piston ring free end gap
Standard :
1 st Approx. 7.5 mm (0.2953 in.)
2 nd Approx. 11 mm (0.4330 in.)
Service limit :
1 st 6 mm (0.2362 in.)
2 nd 8.8 mm (0.3465 in.)
If measurement exceeds service limit, replace piston ring.
PISTON PIN
Check piston pin, conrod small end bore and piston pin hole for wear or damage.
If badly worn or damaged, replace component.
Piston pin clearance
• Check the piston pin clearance in the conrod small end.
Replace the conrod if its small end is badly worn or damaged or if clearance exceeds service limit.
z
09900-20205 : Micrometer
09900-20605 : Dial calipers
Piston pin outside diameter
Standard : 17.996 – 18.000 mm (0.7085 – 0.7087 in.)
Service limit : 17.980 mm (0.7079 in.)
Piston pin hole diameter
Standard : 18.006 – 18.014 mm (0.7089 – 0.7092 in.)
Service limit : 18.040 mm (0.7102 in.)
Conrod small end bore
Standard : 18.003 – 18.011 mm (0.7088 – 0.7091 in.)
Pin clearance in piston pin hole
Standard : 0.006 – 0.018 mm (0.0002 - 0.0007 in.)
Service limit : 0.040 mm (0.0016 in.)
Pin clearance in conrod small end
Standard : 0.003 – 0.015 mm (0.0001 – 0.0006 in.)
Service limit : 0.05 mm (0.002 in.)
POWER UNIT 6-48
6-49 POWER UNIT
CONROD BIG END SIDE CLEARANCE
Measure conrod big end side clearance with conrod installed on crank pin as shown.
z
09900-20803 : Thickness gauge
Conrod big end side clearance
Standard : 0.100 – 0.250 mm (0.0039 – 0.0098 in.)
Service limit : 0.350 mm (0.0138 in.)
If measurement exceeds service limit, replace conrod and /or crankshaft.
Conrod big end width
Standard : 21.950 – 22.000 mm (0.8642 – 0.8661 in.)
Crank pin width
Standard : 22.100 – 22.200 mm (0.8700 – 0.8740 in.)
CRANK PIN
Inspect crank pin for uneven wear or damage.
Measure crank pin for out - of - round or taper with micrometer.
If crank pin is damaged, out - of - round or taper is out of service limit, replace crankshaft.
z
09900-20202 : Micrometer
Out - of - round : A – B
Taper : a – b
Out-of-round and taper
Service limit : 0.01mm (0.0004 in.)
Crank pin diameter
Standard : 37.982 – 38.000 mm (1.4954 – 1.4961 in.) z
B
A a b
CONROD BEARING
Inspect bearing shell for proper contact pattern and signs of fusion, pitting, burning or flaking.
Bearing shells found in defective condition must be replaced.
Conrod big end oil clearance
Check conrod big end oil clearance as follows :
(1) Clean surface of conrod, conrod cap, conrod bearing, and crank pin.
(2) Install conrod bearing onto conrod and conrod cap.
NOTE:
• Reassemble each bearing and conrod cap to their original position.
• Do not apply oil to bearing.
(3) Place a piece of Plastigauge on crank pin parallel to crankshaft. Avoiding placing Plastigauge over oil hole.
z
09900-22301 : Plastigauge
(4) Install conrod cap (with bearing) to conrod with the arrow mark on cap toward flywheel side.
(5) Apply engine oil to conrod bolts and tighten nut in two steps.
@ Conrod cap nut :
1 st step 18 N . m (1.8 kg-m, 13.0 lb.-ft.)
2 nd step 35 N . m (3.5 kg-m, 25.3 lb.-ft.)
NOTE:
Do not rotate conrod with Plastigauge in place.
POWER UNIT 6-50
6-51 POWER UNIT
(6) Remove conrod and conrod cap from crank pin.
(7) Using scale on Plastigauge envelope, measure Plastigauge width at its widest point.
Conrod big end oil clearance
Standard : 0.020 – 0.040 mm (0.0008 – 0.0016 in.)
Service limit : 0.065 mm (0.0026 in.)
If measurement exceeds service limit, replace conrod bearing.
CRANKSHAFT
Crankshaft runout
Using a dial gauge, measure runout at center journal.
z
09900-20606 : Dial gauge
09900-20701 : Magnetic stand
Crankshaft runout
Service limit : 0.04 mm (0.0016 in.)
If measurement exceeds service limit, replace crankshaft.
Crankshaft thrust play
Measure thrust play with crankshaft, thrust bearing, journal bearing and crankcase/cylinder block assembled in a normal manner.
Tighten crankcase bolts to specified torque.
@ Crankcase bolt :
8 mm 25 N . m (2.5 kg-m, 18.1 Ib.-ft.)
10 mm 53 N . m (5.3 kg-m, 38.3 Ib.-ft.)
Use a dial gauge to read displacement in axial (thrust) direction of crankshaft.
Crankshaft thrust play
Standard : 0.11 – 0.31 mm (0.0043 – 0.0122 in.)
Service limit : 0.35 mm (0.0138 in.)
POWER UNIT 6-52
1
If measurement exceeds service limit, replace crankshaft thrust bearing.
Crankshaft thrust bearing thickness
Standard : 2.470 – 2.520 mm (0.0972 – 0.0992 in.)
Out - of - round and taper (uneven wear) of journals
An unevenly worn crankshaft journal shows up as a difference in diameter at a cross section or along its length (or both).
This difference, if any, is determined by taking micrometer readings.
If any journal is badly damaged or if measurements exceed service limit, replace crankshaft.
z
09900-20202 : Micrometer
Out - of - round : A – B
Taper : a – b
Out - of - round and taper
Service limit : 0.01 mm (0.0004 in.)
Crankshaft journal outside diameter
Standard : 44.982 – 45.000 mm (1.7709 – 1.7717 in.)
A
B a b
1. Thrust bearing
6-53 POWER UNIT
CRANKSHAFT MAIN BEARING
Check bearings for pitting, scratches, wear or damage.
If any improper condition is found, replace both upper and lower halves.
Always replace both bearing halves, never replace only one half of a bearing set.
CRANKSHAFT JOURNAL OIL CLEARANCE
Check clearance using Plastigauge according to the following procedure.
NOTE:
Assemble each bearing in its original position before checking clearance.
(1) Clean surface of bearing holder (crankcase, and cylinder), bearing, and main bearing journal.
(2) Install main bearing to cylinder and crankcase.
NOTE:
• Align the tab a of bearing with notch in cylinder and crankcase.
• Do not apply engine oil to bearing.
• Install the bearing half with oil hole / groove to cylinder side.
(3) Install crankshaft to cylinder.
(4) Place a piece of Plastigauge across full width of bearing
(parallel to crankshaft) on journal.
Do not place Plastigauge over oil hole.
z
09900-22301 : Plastigauge
NOTE:
Do not rotate crankshaft while Plastigauge is installed.
Plastigauge
(5) Assemble crankcase to cylinder.
(6) Apply engine oil to crankcase bolts.
Tighten crankcase bolts in three(3) steps following the order indicated below.
@
Crankcase bolt:
1st step 8 mm 5 N . m (0.5 kg-m, 3.6 lb.-ft.)
10 mm 11 N . m (1.1 kg-m, 8.0 lb.-ft.)
2nd step 8 mm 20 N . m (2.0 kg-m, 14.5 lb.-ft.)
10 mm 42 N . m (4.3 kg-m, 31.0 lb.-ft.)
Final step 8 mm 25 N . m (2.5 kg-m, 18.1 lb.-ft.)
10 mm 53 N . m (5.3 kg-m, 38.3 lb.-ft.)
NOTE:
Crankcase must be torqued to specification in order to assure proper compression of Plastigauge and accurate reading of clearance.
12
9
4
1
13
5
POWER UNIT 6-54
Tightening order
7
16
8
15
3
11
2
10
6
14
(7) Remove crankcase from cylinder.
(8) Using scale on Plastigauge envelope, measure Plastigauge width at its widest point.
Crankshaft journal oil clearance
Standard : 0.020 – 0.040 mm (0.0008 – 0.0016 in.)
Service limit : 0.065 mm (0.0026 in.)
If measurement exceeds service limit, replace crankshaft main bearing.
NOTE:
For bearing replacement, see the “SELECTION OF MAIN
BEARING” section on page 6-55.
Scale
Plastigauge
6-55 POWER UNIT
SELECTION OF MAIN BEARING
Whenever a bearing requires replacement, select a new bearing according to following procedure.
(1) First check journal diameter.
As shown in figure, upper (flywheel side) crank web of No.1
cylinder has four (4) stamped code numerals.
The numerals (1 , 2 & 3) represent the journal diameters shown below.
Numeral stamped
1
2
3
Journal diameter
44.994 – 45.000 mm
(1.7714 – 1.7717 in.)
44.988 – 44.994 mm
(1.7712 – 1.7714 in.)
44.982 – 44.988 mm
(1.7709 – 1.7712 in.)
(2) Next, check bearing holder inside diameter without bearing.
As shown in figure, the STBD side of cylinder block has four
(4) stamped codes letters.
The letters (A, B & C) represent the bearing holder inside diameters shown below.
Code
A
B
C
Crank bearing holder inside
diameter ( w / o bearing )
49.000 – 49.006 mm
(1.9291 – 1.9294 in.)
49.006 – 49.012 mm
(1.9294 – 1.9296 in.)
49.012 – 49.018 mm
(1.9296 – 1.9298 in.)
Flywheel side
No.2 Journal code
No.1 Journal code
No.4 Journal code
No.3 Journal code
Flywheel side
No.1 Holder code
No.2 Holder code
No.3 Holder code
No.4 Holder code
POWER UNIT 6-56
(3) There are five (5) main bearings available, each of differing thickness.
To distinguish them, a color mark is painted at the position indicated in figure.
Each color represents the following thickness measured at the center of the bearing.
Color mark
Green
Black
No Color mark
Yellow
Blue
Bearing thickness
1.999 – 2.003 mm
(0.0787 – 0.0789 in.)
2.002 – 2.006 mm
(0.0788 – 0.0790 in.)
2.005 – 2.009 mm
(0.0789 – 0.0790 in.)
2.008 – 2.012 mm
(0.0790 – 0.0792 in.)
2.011 – 2.015 mm
(0.0792 – 0.0793 in.)
(4) Select crankshaft main bearing referring the below table.
Code stamped
on cylinder block
(Bearing holder inside diameter)
A
B
C
Numeral stamped on crank web
( journal outside diameter )
1
Green
2
Black
3
No Color
Black
No Color
No Color
Yellow
Yellow
Blue
NOTE:
Measure crankshaft journal oil clearance again after installing new bearings selected. (see page 6-53)
OIL SEAL
Inspect condition. If cracked, cut or damaged, replace.
Color mark
6-57 POWER UNIT
REASSEMBLY
Assembly is reverse order of disassembly paying special attention to the following steps.
B
If original components are not replaced, each piston, piston pin and conrod is to be assembled and installed in its original order and position.
PISTON TO CONROD
Apply engine oil to piston pin
2
, piston pin bore and conrod
3
.
Fit conrod
3 to piston
1 as shown in figure and insert piston pin
2 through piston and conrod.
Install piston pin circlips
4
.
NOTE:
• Make sure conrod is installed in the direction shown.
• Circlip should be installed with gap facing either up or down as shown in figure.
• Always use new piston pin circlip.
2
4
1
Circlip or
Up mark “O”
Flywheel
3 side
Oil hole o 3
4
1
PISTON RING TO PISTON
Oil ring
• Apply engine oil to piston rings.
• Install spacer
1 first, then side rails
2 to piston.
POWER UNIT 6-58
2
1
2
B
When installing spacer, do not allow ends to overlap in groove.
Incorrect
Correct
1st ring and 2nd ring
• Apply engine oil to piston ring.
• Install 2nd ring and 1st ring to piston.
NOTE:
• 1st ring differs from 2nd ring in shape and color of surface contacting cylinder wall.
Distinguish 1st ring from 2nd ring by referring to figure.
• As indicated in figure, 1st and 2nd ring are marked, “N” or
“2N” .
When installing these piston rings, the marked side of each ring must face towards top of piston.
1st ring
Mark
2nd ring
“N”
“2N”
1
2
3
1. 1st ring
2. 2nd ring
3. Oil ring
1st ring
2nd ring
Ring gap direction
Position rings so that their gaps are staggered at approximately 90 degree angles as shown.
1
1st ring
2
Oil ring lower side rail
3
2nd ring
4
Oil ring upper side rail
B
Failure to stagger piston ring gaps may result in crankcase oil dilution.
2
3
Up mark “O”
4
1
6-59 POWER UNIT
PISTON TO CYLINDER
Install conrod bearing to conrod and conrod cap.
B
• Assemble each conrod bearing to its original position.
• Do not apply oil between conrod and bearing or between bearing cap and bearing.
Apply engine oil to piston and cylinder walls.
Insert piston and conrod assembly into cylinder bore from cylinder head side using special tool.
z
09916-77310 : Piston ring compressor
NOTE:
Position the “circle” mark on piston head to flywheel side.
z
CRANKSHAFT TO CYLINDER
Install crankshaft main bearings in cylinder and crankcase.
Apply engine oil to bearings.
B
• Assemble each bearing to its original position.
• Assemble main bearing half containing oil groove / hole to cylinder block.
Assemble the half without oil groove to crankcase.
• Do not apply oil between crank bearing holder and crank main bearing.
NOTE:
Align bearing tab a with notch in cylinder and crankcase.
Thrust bearing
Apply engine oil to thrust bearing and install in cylinder block between the No.2 and No.3 cylinders.
Oil groove sides of thrust bearing must face towards crank webs.
Crankshaft
Apply engine oil to crank pin and crankshaft main journal and install crankshaft in cylinder.
POWER UNIT 6-60
1
1. Thrust bearing
2. Oil groove
6-61 POWER UNIT
CONROD CAP
Apply engine oil to crank pin and conrod bearing.
Install conrod cap (with bearing) to conrod with arrow mark on cap toward flywheel side.
B
Reassemble each conrod cap to its original position.
Apply engine oil to conrod bolts.
Tighten conrod cap nuts in two steps.
@ Conrod cap nut :
1st step 18 N . m ( 1.8 kg-m, 13.0 lb.-ft.)
2nd step 35 N . m ( 3.5 kg-m, 25.3 lb.-ft.)
CRANKCASE TO CYLINDER
Clean mating surface of cylinder and crankcase.
Apply SUZUKI BOND to mating surface of crankcase as shown.
B
Apply bond to mating surface only.
Do not allow bond to contact surface of bearing.
a 99000-31030 : Suzuki Bond No.1104
a
Apply Bond to marked line a
Install four (4) dowel pins
1
.
POWER UNIT 6-62
Install crankcase to cylinder.
Apply engine oil to crankcase bolts.
Tighten crankcase bolts in three (3) steps following the order indicated below.
NOTE:
After tightening crankcase bolts, check to be sure that crankshaft rotates smoothly when turned by hand.
@ Crankcase bolt
1st step 8 mm 5 N . m (0.5 kg-m, 3.6 lb.-ft.)
10 mm 11 N . m (1.1 kg-m, 8.0 lb.-ft.)
2nd step 8 mm 20 N . m (2.0 kg-m, 14.5 lb.-ft.)
10 mm 42 N . m (4.3 kg-m, 31.0 lb.-ft.)
Final step 8 mm 25 N . m (2.5 kg-m, 18.1 lb.-ft.)
10 mm 53 N . m (5.3 kg-m, 38.3 lb.-ft.)
Tightening order
16
8
7
15
3
11
2
10
12
9
4
1
13
5
6
14
UPPER OIL SEAL HOUSING
Apply engine oil to lip area of upper oil seal.
Install upper oil seal housing and secure with bolts.
6-63 POWER UNIT
CYLINDER HEAD
Install cylinder head. (see page 6-21 to 6-23)
TIMING CHAIN
Install timing chain. (see page 6-18 to 6-20)
OIL PUMP CASE
Install oil pump case. (see page 6-12 to 6-14)
POWER UNIT
Install power unit. (see page 6-7 to 6-9)
THERMOSTAT
REMOVAL
• Disconnect water hose 1 from thermostat cover.
• Remove the four (4) bolts 2 securing the thermostat cover, then remove the cover 3 and thermostat 4 .
INSPECTION
• If salt deposits, corrosion, wear or other damage is found, clean or replace.
• Thermostat operation
Check thermostat opening temperature as follows :
• Insert a length of thread between thermostat valve / body
and suspend thermostat in a container filled with water.
• Place thermometer in container and heat water.
Observe water temperature when thermostat valve opens
and releases thread.
Thermostat operating temperature
Standard : 48 – 52 ° C (126 – 134 ° F)
Thermometer
Heater
POWER UNIT 6-64
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
• Assemble thermostat 1 , gasket 2 and thermostat cover 3 to cylinder head block and secure with bolts.
@
Thermostat cover bolt : 10 N.m (1.0 kgf-m, 7.2 Ib.-ft.)
6-65 POWER UNIT
OPERATION
WATER COOLING SYSTEM
The water cooling system includes the lower unit water pump, lower unit to power unit water supply tube, oil pan water pressure valve, power unit water passages and thermostat.
This system cools both the power unit and exhaust and is shown in schematic from below.
If overheating occurs, the components of the cooling system must be inspected for blockage, corrosion buildup or component damage.
Component inspection Refer to page
Water pump / Impeller ........................... 9-9
Water tube ............................................. 7-5
Thermostat ............................................ 6-64
Water pressure valve ............................ 7-5
Cylinder head ........................................ 6-26
Cylinder block ....................................... 6-43
ENGINE HOLDER
OIL PAN
DRIVESHAFT
HOUSING
CYLINDER HEAD
When open
THERMOSTAT
EXHAUST
WATER JACKET
CYLINDER
OIL PUMP CASE
ENGINE HOLDER
OIL PAN
WATER TUBE
WATER PUMP
PROPELLER
EXHAUST OUTLET
WATER INTAKE
WATER
VAPOR
SEPARATOR
PRESSURE
VALVE
PILOT
WATER HOLE
SUB-WATER
INTAKE
POWER UNIT 6-66
ENGINE LUBRICATION SYSTEM
A crankshaft driven trochoid type pump provides engine oil to all power unit components requiring lubrication.
Oil from the oil pan is drawn through the oil strainer and passed through a spin-on type oil filter before entering the main oil gallery.
A pressure regulator (relief valve) is positioned between the oil pump and oil filter to maintain oil pressure at a constant level.
From the main gallery, oil flow is directed through either drilled internal passages or by splash method to those surfaces requiring lubrication.
ENGINE OIL LUBRICATION CHART
No.1 CYLINDER
WALL
No.1 PISTON
No.2 CYLINDER
WALL
No.2 PISTON
No.3 CYLINDER
WALL
No.3 PISTON
OIL PRESSURE
SWITCH
No.1 CRANKSHAFT
MAIN JOURNAL
No.1 CRANK PIN
No.2 CRANKSHAFT
MAIN JOURNAL
No.2 CRANK PIN
No.3 CRANKSHAFT
MAIN JOURNAL
No.3 CRANK PIN
No.4 CRANKSHAFT
MAIN JOURNAL
No.1
CAM FACE
No.1 CAMSHAFT
JOURNAL (IN)
No.2
CAM FACE
No.2 CAMSHAFT
JOURNAL (IN)
No.3
CAM FACE
No.3 CAMSHAFT
JOURNAL (IN)
No.4 CAMSHAFT
HOUSING
OIL FILTER
OIL PUMP
OIL STRAINER
OIL PAN
PRESSURE
REGULATOR
No.1 CAMSHAFT
JOURNAL (EX)
No.1
CAM FACE
No.2 CAMSHAFT
JOURNAL (EX)
No.2
CAM FACE
No.3 CAMSHAFT
JOURNAL (EX)
No.3
CAM FACE
POWER TRIM AND TILT
CONTENTS
SYSTEM WIRING DIAGRAM _________________________________ 8-1
SERVICE PROCEDURE ____________________________________ 8-2
OIL LEVEL .......................................................................................................
8-2
AIR BLEEDING ................................................................................................
8-2
POWER TRIM AND TILT UNIT ________________________________ 8-3
REMOVAL ........................................................................................................
8-3
DISASSEMBLY ................................................................................................
8-4
CLEANING AND INSPECTING ......................................................................
8-6
REASSEMBLY .................................................................................................
8-8
PTT MOTOR.....................................................................................................
8-10
INSTALLATION ................................................................................................
8-14
PTT MOTOR RELAY________________________________________ 8-16
PTT SWITCH _____________________________________________ 8-17
OPERATION ______________________________________________ 8-18
COMPONENTS ................................................................................................
8-18
PRINCIPLES OF OPERATION .......................................................................
8-19
8
8-1 POWER TRIM AND TILT
SYSTEM WIRING DIAGRAM
PTT switch
UP
DN
PTT relay (UP)
B
Lbl
PTT motor
W
Bl
G
W
PTT relay
(DOWN)
P
Y/G
Starting motor relay
Lbl
P
P
Lbl
Lbl
P
Lbl P
W tube
Gr
Gr
To ignition switch
Remote control box
UP
W/R PTT switch
DN
Battery
SERVICE PROCEDURE
OIL LEVEL
To check the oil level :
1. The motor should be raised to a full-tilt position.
2. Lower the manual tilt lock lever 1 .
3. Remove the oil filler plug 2 .
4. If oil can be seen at filler plug level, the unit is full.
5. If oil level is low, refill with the recommended oil.
Recommended oil :
Dexron automatic transmission fluid or equivalent
B
To ensure consistent pump operation, do not mix different types of oil.
6. Reinstall oil filler plug.
AIR BLEEDING
1. Open manual release valve before performing air bleeding.
2. Manually raise and lower engine (full up to full down) 5-6 times.
3. Check oil level, topping off if necessary.
4. Reinstall oil filler plug.
POWER TRIM AND TILT 8-2
8-3 POWER TRIM AND TILT
POWER TRIM AND TILT UNIT
REMOVAL
Tilt engine fully up and lower the manual tilt lock levers 1 .
A
During the following procedures, firmly secure the engine and support its weight. (see right)
Remove the tilt rod snap ring
2
and push tilt cylinder upper shaft pin
3
out.
Lower tilt rod to full down position and disconnect the battery cable.
Disconnect the PTT motor cable wire leads (G, Bl) from the
PTT relays.
Remove the PTT motor cable from engine lower cover.
Remove the two STBD motor mounting bolts
4
.
Loosen the clamp bracket shaft nut
5
.
NOTE:
Complete removal of the clamp bracket shaft nut is not required.
Nut should be loosened as far as the end of the shaft threads only to facilitate removal of the PTT unit.
Remove the tilt pin
6
.
Loosen the PTT cylinder lower shaft nut 7 and remove the lower shaft bolt 8 .
POWER TRIM AND TILT 8-4
Slide the STBD clamp bracket fully outward to the right hand side.
Remove the PTT unit from between the clamp brackets.
DISASSEMBLY
NOTE:
Before disassembly, wash the PTT body with a stiff bristle brush and hot, soapy water to remove sand or dirt and dry the PTT body with compressed air.
Connect the PTT motor cable leads (G, Bl) to battery and operate PTT motor until tilt piston rod is at maximum stroke.
(full-tilt up position)
Place the lower mounting eye of the PTT cylinder in a vise.
Tighten the vise only enough to secure the PTT unit, do not over tighten.
NOTE:
To prevent damage to the PTT cylinder use wood blocks, vise jaw protectors, etc., between the vise jaws and PTT component before tightening vise.
Using special tool, unscrew the PTT cylinder head.
z 09944-08711 : PTT cylinder cap tool
8-5 POWER TRIM AND TILT
Pull the tilt rod / piston assembly
1
out of the cylinder body.
Remove the free piston from the cylinder body 2 .
Remove the PTT motor.
Note the position of drive joint
3
and O-ring
4
, before removing them.
(see page 8-10)
Unscrew the fill plug and drain PTT oil into suitable container.
Remove the manual release valve snap ring
5
, then unscrew the manual release valve
6
.
Remove the seal washer
7
.
Remove the main check valve
8 and spool valve
9
.
Disassembly of tilt rod / piston assembly
Unscrew the piston retaining nut from the bottom of the tilt rod and remove the washer.
Carefully retain and account for four shock valves, each composed of a spring, rod and ball.
Remove the piston assembly and PTT cylinder head from the tilt rod by sliding them down and off the rod end.
POWER TRIM AND TILT 8-6
CLEANING AND INSPECTING
Thoroughly wash all metal components with cleaning solvent and dry them with compressed air.
Arrange all components on a clean sheet of paper.
NOTE:
Do not lay PTT components out on a rag, as dirt or lint may be transferred to these items which may cause possible system operating problems.
Inspect tilt rod, replace if damaged or bent.
Inspect the surface of tilt rod for scores, grooves or roughness.
Slight roughness may be removed with fine emery paper.
A badly scored or grooved rod must be replaced.
8-7 POWER TRIM AND TILT
Inspect the PTT cap seal and O-ring.
Replace if cuts, nicks, or excessive wear is found.
NOTE:
It is recommended that the O-ring always be replaced once the tilt cylinder has been disassembled.
Inspect the shock valves (spring, rod and ball).
Replace if there are any signs of rust or pitting.
Inspect the cylinder bore for evidence of a rough or grooved surface.
Light honing may rectify slight surface roughness or scarring, but a deeply scarred surface will require replacement of the tilt cylinder.
Inspect all O-ring (manual release valve and main check valve).
Replace if nicked or cut.
REASSEMBLY
Assembly is reverse of disassembly with special attention to following steps.
B
• Do not reuse O-rings after removal, always use new
O-rings.
• Lubricate all components and O-rings with PTT fluid before assembly.
• Do not reuse PTT fluid, always refill with new fluid.
MAIN CHECK VALVE
Oil and install spool valve 1 and main check valve 2 .
Tighten the main check valve 2 to specified torque.
@ Main check valve plug : 20 N . m
(2.0 kg-m, 14.5 lb.-ft.)
MANUAL RELEASE VALVE
Oil and install the seal washer
1
and manual release valve
2
.
Tighten the valve to specified torque.
Install snap ring
3
.
@ Manual release valve : 1.7 N . m
(0.17 kg-m, 1.2 lb.-ft.)
TILT ROD
When tightening the piston retaining nut on the tilt rod piston, apply Thread lock 1342 to the threads.
Tighten the nut to specified torque.
h 99000-32050 : Thread Lock 1342
@
Piston retaining nut : 100 N . m (10 kg-m, 72 lb.-ft.)
POWER TRIM AND TILT 8-8
8-9 POWER TRIM AND TILT
Installing tilt rod / piston
Pour 100 ml of PTT fluid into cylinder.
Insert the free piston into cylinder and push it down to the bottom of the cylinder.
Pour PTT fluid into the cylinder until it is topped off.
Insert the tilt rod / piston into cylinder and thread the tilt cylinder head by hand until fully seated.
Free piston
Cylinder
Tighten the cylinder head to specified torque using special tool.
@ Tilt cylinder head : 44 N . m (4.5 kg-m, 32.5 lb.-ft.) z
09944-08711 : PTT cylinder cap tool
Top OFF
PTT MOTOR
See the PTT Motor Installation section on page 8-13.
AIR BLEEDING
See the AIR BLEEDING section on page 8-2.
PTT MOTOR
Removal
Remove the four (4) screws securing the PTT motor to the pump
& reservoir.
POWER TRIM AND TILT 8-10
Detach the PTT motor from pump & reservoir.
Note the position of drive joint
1
and O-ring
2
and remove them.
PTT motor Disassembly
For correct assembly, scribe an alignment mark on the field case and brush holder.
Remove the three (3) screws securing the field case to the brush holder.
Using a soft face hammer, gently tap the field case from side to side to unseat it from the brush holder.
Slide the field case upward and away from the brush holder.
Note the position of the O-ring encircling the brush holder.
Slide the armature free of the brushes.
2
1
3
4
5
1. Screw
2. Field case
3. Armature
4. O-ring
5. Brush holder
8-11 POWER TRIM AND TILT
Inspection
Armature and Commutator
Check for continuity between the commutator and the armature core / shaft.
Replace armature if continuity is indicated.
z
09930-99320 : Digital tester r
Tester range : (Continuity)
Check continuity between the adjacent commutator segments.
Replace armature if no continuity is indicated.
z z
Inspect the commutator surface.
If surface is gummy or dirty, clean with 400 grade emery paper.
Measure commutator outside diameter.
z
09900-20101 : Vernier calipers
Commutator outside diameter :
Standard 22 mm (0.87 in.)
Service limit 21 mm (0.83 in.)
If measurement exceeds service limit, replace armature.
Ensure that the mica (insulator) between the segments is undercut to specified depth.
Commutator undercut :
Standard 0.5 – 0.8 mm (0.02 – 0.03 in.)
Service limit 0.2 mm (0.008 in.)
If undercut is less than service limit, cut to specified depth.
NOTE:
Remove all particles of mica and metal using compressed air.
A
Wear safety grasses when using compressed air.
SEGMENT
1
1
Commutator undercut
MICA
Brushes
Check the length of each brush.
z
09900-20101 : Vernier calipers
Brush length :
Standard 9.8 mm (0.39 in.)
Service limit 4.8 mm (0.19 in.)
If brushes are worn down to the service limit, they must be replaced .
O-ring
Inspect the O-ring between the PTT motor and pump & reservoir. Replace if cuts, nicks or tears are found.
POWER TRIM AND TILT 8-12
Assembly
Assembly is reverse of disassembly with special attention to following steps.
When installing the armature, exercise care not to break the brushes.
8-13 POWER TRIM AND TILT
PTT Motor Installation
Installation is reverse of removal with special attention to following steps.
• Ensure that the drive joint 1 is aligned and firmly inserted into the gear pump assembly.
• Fit O-ring 2 to pump & reservoir.
• Check the level of PTT fluid contained in the pump & reservoir. If level is low, add recommended PTT fluid until level with mating surface of PTT motor.
• Ensure that the faces of the PTT motor and pump unit are free of dirt or debris.
When attaching the PTT motor to the pump & reservoir, ensure that the tip of armature shaft fits firmly into the drive joint.
• Tighten the four (4) screws to specified torque.
@ PTT motor screw : 6 N . m (0.6 kg-m, 4.3 lb.-ft.)
INSTALLATION
Installation is reverse of removal with special attention to following steps.
Lower tilt rod full down position.
Apply Water Resistant Grease to the tilt cylinder lower shaft
1 and lower shaft bushes
2
.
Install lower shaft and bushes into position in the lower eyelet.
l 99000-25160 : Water Resistant Grease
POWER TRIM AND TILT 8-14
Place the PTT unit in position between the clamp brackets.
Tighten the clamp bracket shaft nut to specified torque.
@ Clamp bracket shaft nut :
43 N . m (4.3 kg-m, 31.0 lb.-ft.)
Slide the PTT cylinder lower shaft bolt through the clamp bracket and lower shaft, then secure with the nut.
Apply Water Resistant Grease to tilt rod upper bushes
3
, then install bushs in tilt rod.
Operate the PTT motor to extend the PTT rod upward.
Align the tilt rod with the hole in the swivel bracket as the tilt rod extends.
l 99000-25160 : Water Resistant Grease
8-15 POWER TRIM AND TILT
Apply Water Resistant Grease to the PTT rod upper shaft
4
, then insert the shaft through the swivel bracket and tilt rod.
l 99000-25160 : Water Resistant Grease
Secure the upper shaft with the snap ring
5
.
Route the PTT motor cable in through the lower cover and connect the terminals to the PTT relays.
(Cable routing–see the WIRE / HOSE ROUTING section on page 10-2 to 10-6.)
POWER TRIM AND TILT 8-16
PTT MOTOR RELAY
Two methods can be used to test PTT relays.
Method 1.
Measure resistance between wiring leads of the relay.
z
09930-99320 : Digital tester t
Tester range : W (Resistance)
UP
DOWN
Tester probe connection
Red (+)
Light Blue
Pink
PTT relay solenoid coil resistance :
Standard 3.0 – 4.5 W
Black (–)
Black
Black
B
Lbl(P)
Method 2.
Connect the wiring leads of the relay to battery (12V) and check relay operation.
z
09930-99320 : Digital tester r
Tester range : (Continuity)
When there is continuity between terminals
1
«
2
«
3
, the unit is considered to be without defect.
With Black lead wire connected to the battery negative (–) terminal and Light blue or Pink lead wires are connected to battery positive (+) terminal there should be continuity between
2
«
3
«
4
.
With the lead wires disconnected from the battery there should be no continuity between
3
«
4
.
The relay is considered to be without defect if continuity test results are as stated above.
1
2
4
CONT
B
Lbl(P)
3
2
B
Lbl(P)
1
CONT
4 3
12V BAT.
8-17 POWER TRIM AND TILT
PTT SWITCH
Test continuity between the wires at each of the three switch positions.
z
09930-99320 : Digital tester r
Tester range : (Continuity)
“DN” side
depressed
“UP” side
depressed not depressed
Tester probe connection
Red (+) Black (–)
Pink
Gray
(White/Red)
Light Blue
Pink
Light Blue
Gray
(White/Red)
Gray
(White/Red)
Tester indicates
Continuity
Continuity
Infinity
P
(W/R)
Lbl
Gr
LBI
P
POWER TRIM AND TILT 8-18
OPERATION
The power trim and tilt system is operated by a “rocker” type switch (protected by a rubber thumb pad) on top of the remote control box handle.
When the switch is depressed, power is delivered to the electric motor via the relevant relay. The relay with the
Blue wire connected to the PTT pump is for trim/ tilt “up”, while the relay with the Green wire is for trim/tilt
“down”.
COMPONENTS
PTT motor PTT cylinder
Tilt rod
Check valve A
“DOWN” relief
valve
Check valve
B
Piston
Gear pump
Free piston
Oil reservoir
Spool valve
“DOWN” pressure
main check valve
Manual release valve
“UP” pressure main check valve
“UP” relief valve
8-19 POWER TRIM AND TILT
PRINCIPLES OF OPERATION
TRIM/TILT “UP” CIRCUIT
The electric motor is operating in a clockwise direction. Check valve
A
will open, allowing oil to flow from the reservoir to the pump. Oil flow from the pump enters the spool valve, moving it to the left, opening the “down” pressure main check valve and returning oil from the upper cylinder chamber (plus oil from the reservoir) to the pump. Pressure built up by the pump will then open the “up” pressure main check valve and oil will enter the lower cylinder chamber.
When trim motor stops, both the “DOWN” pressure main check valve and the “up” pressure main check valve will close to retain tilt/trim position.
When full trim/tilt “up” position is attained, sustained operation of the “up” relay will have no effect, as pump oil flow will be returned to the reservoir through the “up” relief valve.
Tilt rod
Upper cylinder chamber
Piston
PTT motor
Oil reservoir
Check valve
A
Gear pump
Lower cylinder chamber
Spool valve
“UP” pressure main check valve
“UP” relief valve
“DOWN” pressure main check valve
POWER TRIM AND TILT 8-20
TRIM/TILT “DOWN” CIRCUIT
The electric motor is operating in a counterclockwise direction. Check valve B will open, allowing oil to flow from the reservoir to the pump. Oil flow from the pump enters the spool valve, moving it to the right, thereby opening the “up” pressure main check valve. Oil from the lower cylinder chamber will go through the “up” pressure main check valve to the pump.
Pressure built up by the pump will open the “down” pressure main check valve and oil will enter the upper cylinder chamber. The piston will retract (move inward), which will tilt the outboard down. Oil in the lower cylinder chamber is returned to the pump through the “up” pressure main check valve.
When full “down” position is reached, continued operation of the “down” relay will have no effect, as pump oil flow will be returned to the reservoir through the “down” relief valve.
Upper cylinder chamber
Tilt rod
“DOWN” relief valve
Piston
Check valve
B
Gear pump
Spool valve
“UP” pressure main check valve
Lower cylinder chamber
Oil reservoir
“DOWN” pressure main check valve
8-21 POWER TRIM AND TILT
SHOCK ABSORBER CIRCUIT
( ) Shock valve
Should the lower unit strike an underwater object whilst in motion, the piston will rise abruptly, creating a sudden high impact pressure in the upper cylinder chamber. The shock valve will then open, allowing oil to flow into the area between the tilt ram piston and the free piston, thereby dampening (absorbing) the impact.
( ) Return valve
When the point of impact has passed, propeller thrust and motor weight will force the tilt ram piston back downwards. The oil from between the ram piston and the free piston is then expelled through the return valve before flowing into the upper cylinder chamber.
Upper cylinder chamber
Tilt rod
Shock valve
Return valve
Piston
Free piston
POWER TRIM AND TILT 8-22
MANUAL RELEASE CIRCUIT (MANUAL VALVE)
Operation:Turn manual valve maximum two (2) full turns counterclockwise.
When the manual valve is loosened, oil will flow unimpeded (without resistance) through the internal pump tubes, thereby facilitating manual tilting or lowering of the outboard. To hold the engine in a selected position, the manual valve must be closed again.
Tilt rod
: Tilt up
: Tilt down
Upper cylinder chamber
Piston
Lower cylinder chamber
“UP” pressure main check valve
Manual release valve
8-23 POWER TRIM AND TILT
THERMAL VALVE
The PTT system incorporates a thermal valve for protection of the internal components, should excessive downward force be exerted on the lower unit with the motor in a tilted position, or (in the case of an impact in reverse gear), the outboard clamp/swivel brackets and the boat transom.
Should the propeller strike an underwater object whilst in reverse gear, a build up of pressure will be induced in the lower cylinder chamber, whereby the outboard mounting bracket and/or the boat transom may sustain damage. To prevent this, the thermal valve will open to relieve the oil pressure, thereby softening the impact.
Internal PTT circuits are protected, as the thermal valve will open to reduce oil pressure (caused by either hot climate or abnormally heavy usage).
Tilt rod
Piston
Lower cylinder chamber
Thermal valve
LOWER UNIT
CONTENTS
REMOVAL & DISASSEMBLY ________________________________ 9-1
PINION BEARING _________________________________________ 9-5
INSPECTION _____________________________________________ 9-7
PROPELLER ....................................................................................................
9-7
GEARCASE .....................................................................................................
9-7
GEAR ...............................................................................................................
9-8
PROPELLER SHAFT COMPONENTS ...........................................................
9-8
PROPELLER SHAFT BEARING HOUSING ..................................................
9-8
SHIFT ROD AND SHIFT CAM ........................................................................
9-9
WATER PUMP AND RELATED ITEMS ..........................................................
9-9
DRIVESHAFT BEARING HOUSING ..............................................................
9-10
DRIVESHAFT ..................................................................................................
9-11
ASSEMBLY & INSTALLATION _______________________________ 9-12
TRIM TAB ________________________________________________ 9-22
LOWER UNIT GEARS-SHIMMING AND ADJUSTMENT ___________ 9-23
9
9-1 LOWER UNIT
REMOVAL & DISASSEMBLY
A
Always disconnect the battery cable, before removing lower unit.
To separate the clutch rod from the shift rod, loosen the clutch rod lock nut 1 , then unscrew the turnbuckle 2 .
Remove six(6) bolts
3 and separate gearcase
4 from driveshaft housing.
Place a drain pan under the oil drain plug.
Remove oil drain plug first
6 then oil level plug
5 and allow gear oil to drain.
Remove cotter pin
7 from propeller nut and remove propeller nut 8 .
Remove washer
9
, spacer
0
, propeller
A and stopper
B from the propeller shaft.
A
To prevent injury from propeller blades, wear gloves and place a block of wood between the anti - cavitation plate and the propeller blade tips to lock the propeller in place.
B
8
7
9
A
0
LOWER UNIT 9-2
Loosen the four(4) nuts
1
, then remove the water pump case
2 , impeller 3 , and pump under plate 4 .
Keep the impeller key
5 for reuse and discard the plate gasket.
Remove the two (2) bolts
1 securing the propeller shaft bearing housing to the gearcase.
Using special tools, draw out the propeller shaft bearing housing.
Remove the propeller shaft and bearing housing assembly.
z
09930-30102 : A Sliding hammer
09930-30161 :
B
Propeller shaft remover
Hold the pinion nut securely, then fit special tool to the driveshaft and loosen the pinion nut.
z
09921-29510 : Driveshaft holder z
A
B z
9-3 LOWER UNIT
To separate the bearing housing from the gearcase, use two
(2) 8mm bolts A as screw jacks, by alternately turning each one equally.
This will keep the housing level as it pushed off the gearcase.
Remove the pinion gear
1
.
Remove the forward gear
2
(with thrust washer
5
, back-up shim
4
and bearing
3
)
A
Lift out driveshaft
1
, driveshaft bearing housing
2
and shift rod assembly
3
.
Account for the seal
4
on the driveshaft bearing housing.
Remove the detent ball
1
, spring
2 and plate
3
.
Remove driveshaft
2 from driveshaft bearing housing
1
and take off shim
3
, thrust washer
4
and thrust bearing
5
.
Pull out the spring pin
6
, then remove the preload spring
7
.
3
2
1
Shift cam
Remove the spring collar
1 and two driveshaft thrust washers
2 from the gear case.
Slide the shift rod out of the shift rod guide.
Separate the shift cam
2 from the shift rod
3
by driving out the spring pin
1
.
Remove the lower shift rod guide
5
by driving out the spring pin
4
.
Remove the snap ring
6
and push shift rod guide
7
out of bearing housing.
Disassembly of propeller shaft components
Slide propeller shaft away from reverse gear 3 and bearing housing assembly
1
.
Account for the reverse gear back-up shim
2 and reverse gear thrust washer 4 .
To disassemble propeller shaft components, refer to the following :
(a) Pull the push rod
6
out of the propeller shaft.
(b) Remove the spring
7
from the clutch dog shifter.
LOWER UNIT 9-4
9-5 LOWER UNIT
(c) Use special tool to push the dog pin
8
out of the clutch dog shifter.
z
09922-89810 : Shift pin remover z
8
(d) Remove the clutch dog shifter
9
, push pin
0
, and return spring
A
from propeller shaft.
PINION BEARING
Removal & Installation Tools z
09951-59910 : Shaft (removal & installation)
1
09951-39914 : plate
2
01107-08408 : Bolt
3
09951-19430 : Attachment
4
09930-30102 : Sliding hammer
5
[REMOVAL]
1. Remove the water pump stud bolts a .
1
2
3 4
5 a
2. Place the attachment
4
inside the pinion bearing.
3. Insert the removal shaft 1 into attachment.
4. Thread sliding hammer 5 into top of removal shaft.
5. Put wood block under pinion bearing.
6. Drive the pinion bearing out by striking top of shaft with sliding hammer.
B
When removing the pinion bearing, use care to avoid damaging the gearcase.
4
LOWER UNIT 9-6
5
1
Pinion bearing
Wood block
[INSTALLATION]
B
Before installing bearing, ensure that inside of gear case is clean and free of debris.
7. Set the installer shaft
1
, plate
2
, attachment
4
and pinion bearing as shown.
8. Place the installer shaft (with pinion bearing on end of installer) into the gearcase.
9. Secure the plate
2
by tightening the bolts
3
.
10. Thread the sliding hammer
5
into the top of the installer shaft.
11. Drive the bearing down into position by gently striking the installer shaft until the coupler touches the plate.
2
4
5
1 3
Pinion bearing
9-7 LOWER UNIT
INSPECTION
NOTE:
If any component is worn excessively, cracked, defective or damaged in any way, it must be replaced.
NOTE:
Thoroughly wash all metal components with cleaning solvent and dry with compressed air.
A
Wear safety grasses when using compressed air.
PROPELLER
• Inspect the propeller for bent, chipped or broken blades.
Replace or repair propeller if in damaged condition.
• Inspect propeller bush splines. Replace or repair propeller if splines are worn or damaged.
• Inspect propeller bush for deterioration or slipping.
Replace if necessary.
GEARCASE
• Inspect the gearcase. Replace if cracked or damaged.
• Visually check the pinion bearing. Replace if pitted, noisy or rough.
NOTE:
If removal and replacement are required, see the “PINION
BEARING” section on page 9-5.
LOWER UNIT 9-8
GEAR
• Inspect forward, reverse and pinion gear teeth and engaging dogs.
Replace gears if damaged or worn.
• Inspect forward gear bearing. Replace bearing if pitted, noisy or rough.
PROPELLER SHAFT COMPONENTS
• Inspect push rod, replace if worn, broken, or tip is flattened.
• Inspect clutch dog shifter. Replace if chipped, worn or damaged.
• Inspect dog pin. Replace if bent or worn.
• Inspect propeller shaft / splines. Replace if worn, twisted or damaged.
• Check clutch return spring by measuring its free length.
If free length is not within specifications, replace the return spring.
Clutch return spring free length (L)
Standard : 62 mm (2.44 in.)
Service limit : 60 mm (2.36 in.)
PROPELLER SHAFT BEARING HOUSING
• Inspect housing. Replace if cracked or damaged.
• Inspect reverse gear bearing. Replace bearing if pitted, noisy or rough.
• Inspect bearing. Replace bearing if pitted, noisy or rough.
• Check condition of oil seal and O-ring.
Replace the seals if nicked, cut or worn.
( L )
9-9 LOWER UNIT
Replacing propeller shaft oil seal
1. Extract the seals with oil seal remover.
z
09913-50121 : Oil seal remover
2. Apply Water Resistant Grease to the inner circumference of the housing.
3. Using an oil seal installer, drive the two oil seals (one at a time ) into the propeller shaft bearing housing.
The lipped portion of the seal must face towards the propeller.
Apply Water Resistant Grease to the seal lips.
SHIFT ROD AND SHIFT CAM
• Inspect the “stepped” surfaces of the shift cam.
Replace if chipped, damaged or excessively worn.
• Inspect shift rod guide. Replace if pitted, stiff or corroded.
• Inspect O-ring. Replace if nicked, cut or torn.
• Inspect shift rod boot. Replace if cracked or damaged.
WATER PUMP AND RELATED ITEMS
• Inspect impeller. Replace if vanes are cut, torn or worn.
• Inspect pump case. Replace if cracked, distorted or corroded.
• Inspect under panel. Replace if cracked, distorted or corroded.
DRIVESHAFT BEARING HOUSING
• Inspect housing. Replace if cracked or damaged.
• Inspect bearing. Replace if pitted, noisy or rough.
• Check condition of oil seals. Replace if nicked, cut or worn.
Replacing driveshaft oil seal
1. Using bearing remover, draw the driveshaft bearing out of the driveshaft housing.
z
09923-74510 : Bearing remover
2. With the oil seal remover, draw the two oil seals out of the driveshaft bearing housing.
z
09913-50121 : Oil seal remover
3. Apply Water Resistant Grease to the inner circumference of the driveshaft bearing housing.
l 99000-25160 : Water Resistant Grease
4. Grease the inner lips of the seal.
With the lips facing away from driveshaft bearing, place seal in position and drive it into the bearing housing.
5. Place the driveshaft bearing in position and drive it into the bearing housing.
LOWER UNIT 9-10
Direction of water pump case
9-11 LOWER UNIT
DRIVESHAFT
Inspect driveshaft / splines. Replace if worn, twisted or damaged.
Inspect driveshaft bearing, replace if pitted, noisy or rough.
LOWER UNIT 9-12
ASSEMBLY & INSTALLATION
Assembly & Installation are reverse of disassembly with special attention to following steps.
G
F l 1
2 l 3 l 4
5
K
J
Oil seal
H
I
6
M
L
N
7
8
O
P
0
9
A
B
E
D
C k U
W
Y
Z k [
@
23 N . m
(2.3 kg-m, 16.6 lb.-ft.)
Q
R
S l
T j
V k
X
Z
Y
\
]
^ a
1
Dust boot
2 Shift rod guide
3 O-ring
4
O-ring
5 Circlip
6 Shift rod
7
Pin
8 Magnet set
9 Pin
0
Shift rod lower guide
A Pin
B Shift cam
C
Ball
D Spring
E Notch plate
F
Nut
G Turnbuckle
H Grommet
I
Water pump case
J Nut
K Lock washer
L Water pump impeller
M Key
N Pump case under panel
O Gasket
P Stud bolt
Q Driveshaft bearing housing
R Stud bolt
S Oil seal
T Bearing
U Seal ring
V Pin
W Pin
X Gear case
Y Screw
Z Water filter
[ Bolt w/washer
\ Screw
] Sub water filter
^ Bolt a Trim tab
9-13 LOWER UNIT
+ l
*
<
> ?
b c j d l g
@
55 N . m
(5.5 kg-m,
40.0 lb.-ft.) e h i j k j l
| } j
~ ;
{
:
, j j o f
/ @
.
l
17 N . m
(1.7 kg-m,
12.3 lb.-ft.) l m n l h
@
50 N . m
(5.0 kg-m,
36.2 lb.-ft.) z y x m
@
13 N . m
(1.3 kg-m,
9.5 lb.-ft.) n
X w p j q r j s t u v n m @
13 N . m
(1.3 kg-m, 9.5 lb.-ft.) b Shim c
Washer d Bearing e Driveshaft f
Spring pin g Pre-load spring h Washer i
Washer j
Spring collar k Pinion gear l Pinion nut m
Plug n Gasket o Pinion bearing p
F, gear bearing q Shim r Forward gear s
Thrust washer t Push rod u Push pin v
Clutch dog shifter w Dog pin x
Dog spring y Return spring z Propeller shaft
{
Thrust washer
| Reverse gear
} Shim
~
O-ring
; Bearing
: Propeller shaft bearing housing
,
Bearing
.
Oil seal
/ Bolt
+
Stopper
* Propeller
< Propeller Bush
>
Spacer
?
Washer
Nut
Pin
LOWER UNIT 9-14
B
• Make sure that all parts used in assembly are clean and lubricated.
• After assembly, check parts for tightness and smoothness of operation.
• Before final assembly, be absolutely certain that all gear contact, shim adjustments and tolerances are correct.
Failure to correctly adjust these areas will result in lower unit damage.
(See the “GEARS SHIMMING AND ADJUSTMENT” section on page 9-23)
SHIFT CAM AND SHIFT ROD
Apply Water Resistant Grease to the shift rod guide O-ring 2 ,
3 and the inside of the dust boot 4 .
Slide complete dust boot 4 and shift rod guide 1 into the drive shaft bearing housing, then secure it with the snap ring 5 .
4
1
2
3
5 l
Drive shaft bearing housing.
8
0
6
7
9
Attach lower shift rod guide
7
to shift rod
6
, then secure it with the pin
8
.
Attach shift cam
9
to shift rod, then insert pin
0
.
Slide the shift rod through shift rod guide.
9-15 LOWER UNIT
DETENT BALL
Insert the plate 1 , spring 2 and detent ball 3 into gearcase.
Shift cam
2
FORWARD GEAR
Place the forward gear bearing
3
and back-up shim
2
in position, then install forward gear
1
.
j 99000-22540 : Suzuki Outboard Motor Gear Oil
1
3
3
2 j
1
DRIVESHAFT THRUST WASHERS
Install the two driveshaft thrust washers
1
,
2
.
The lower washer( with the tab) is located as shown.
DRIVESHAFT SPRING COLLAR
Install the collar 3 on top of the two thrust washers.
PINION GEAR
Place pinion gear in gearcase.
DRIVESHAFT
Slide on the pre-load spring 1 and secure it with the pin 2 .
Assemble the thrust bearing
3
, washer
4
and pinion shim
5 to the driveshaft.
Lower the driveshaft assembly down into the gearcase until the bottom of shaft protrudes through center of pinion.
DRIVESHAFT BEARING HOUSING
Apply Water Resistant Grease to the driveshaft oil seal.
l 99000-25160 : Water Resistant Grease
Install the gearcase seal ring
1
into the groove on the driveshaft bearing housing.
Apply Suzuki Silicone Seal to gearcase and driveshaft bearing housing surfaces.
k 99000-31120 : Suzuki Silicone Seal
Install complete housing and shift rod assembly on gearcase.
NOTE:
Be sure the stepped section A of shift cam faces towards propeller shaft.
Also be sure the rear side of the shift cam (with detent notch ) is positioned over the detent ball 2 in the gearcase.
Shift cam
2
LOWER UNIT 9-16
A
9-17 LOWER UNIT
PINION NUT
Apply Thread Lock 1342 to the threads of the pinion nut before threading it onto the driveshaft.
Tighten nut to the specified torque.
@ Pinion nut : 50 N . m (5.0 kg-m, 36.2 lb.-ft.) h z
99000-32050 : Thread Lock 1342
09921-29510 : Drive shaft holder
CHECKING DRIVESHAFT THRUST PLAY
Before installing reverse gear, driveshaft thrust play should checked.
(See the “GEARS-SHIMMING AND ADJUSTMENT / CHECK-
ING DRIVESHAFT THRUST PLAY” section on page 9-26) z 09951-09510 : Gear adjusting gauge
PROPELLER SHAFT
Slide the clutch dog shifter
2
onto the propeller shaft
1
.
NOTE:
For correct installation the side of the clutch dog shifter which must face towards forward gear is marked with the letter “F”.
"
F
"
z
Insert the return spring
3
, push pin
4
and push rod
5
into propeller shaft.
Align the holes in the shifter dog and push pin. Depress the push rod and slide the dog pin 6 through both dog and push pin.
Install the dog pin retaining spring 7 , ensuring that it fits snuggly into the groove on the dog shifter.
PROPELLER SHAFT / BEARING HOUSING
Assemble the propeller shaft in the following sequence : forward thrust washer 5 , reverse thrust washer 1 , reverse gear
2
, reverse gear back-up shim
3
and propeller shaft housing
4 .
l j
99000-25160 : Water Resistant Grease
99000-22540 : Suzuki Outboard Motor Gear Oil
LOWER UNIT 9-18 l
Using special tools, install the propeller shaft and housing assembly in the gear case.
z
09922-59410 : Propeller shaft housing installer
09922-59420 : Housing Installer Handle
When the housing is fully seated, tighten both retaining bolts to the specified torque.
@ Bearing housing bolt : 17 N . m (1.7 kg-m, 12.3 lb.-ft.)
RECHECKING DRIVESHAFT THRUST PLAY
Recheck the driveshaft thrust play.
This should not be less than previously checked. If less, reduce the number / thickness of reverse gear back-up shims.
z 09951-09510 : Gear adjusting gauge z
@
9-19 LOWER UNIT
CHECKING PROPELLER SHAFT THRUST PLAY
See the “GEARS - SHIMMING AND ADJUSTMENT / CHECK-
ING PROPELLER SHAFT THRUST PLAY” section on page 9-
27.
z
LEAKAGE CHECK
To check for oil seal or o-ring leakage, use oil leakage tester.
Before leakage check, temporarily fasten the driveshaft bearing housing to gearcase using two bolts and nuts (placed through the two diagonally opposite gearcase mounting holes).
Apply the specified pressure through the oil level hole and rotate the drive and propeller shafts.
If pressure does not fall, sealing performance is correct.
z
09950-69511 : Oil leakage tester
09821-00004 : Air pump
Leakage test pressure : 100 kPa (1.0 kg/cm 2 , 14.2 psi)
NOTE:
Apply low initial pressure of 0.2 – 0.4 kg / cm 2 , (2.8 – 5.7 psi) first, then apply specified pressure.
B
Do not exceed pressure of 110 kPa (1.1kg/cm 2 , 15.6 psi) or damage to oil seals will result.
LOWER UNIT 9-20
WATER PUMP ( Impeller & Case )
Place the under panel gasket 1 and under panel 2 into position.
Insert the key 3 in the driveshaft and slide the impeller 4 onto driveshaft, ensuring that key and keyway are aligned.
Install the pump case
5
while rotating driveshaft clockwise to flex the impeller vanes in the correct direction.
Securely tighten the four (4) pump case nuts to the specified torque.
@ Pump case nut : 8 N . m (0.8 kg-m, 5.8 lb.-ft.)
PROPELLER INSTALLATION
Install propeller stopper
1
onto propeller shaft, then slide on the propeller
2
.
Fit spacer
3
, washer
4
and nut
5
, then tighten nut to specified torque.
Push cotter pin
6
through nut and shaft, then bend to secure.
l
@
99000-25160 : Water Resistant Grease
Propeller nut : 55 N . m (5.5 kg-m, 40.0 lb.-ft.)
1
6
2
3 4
5
9-21 LOWER UNIT
LOWER UNIT INSTALLATION
Insert dowel pins 1 .
Coat the driveshaft splines with Water Resistant Grease.
Apply a light coat of Suzuki Silicone Seal to mating surfaces of gearcase and driveshaft housing.
Slide the lower unit
2
into place, making sure that the top of the driveshaft engages properly with the crankshaft and that water tube locates in the water pump case outlet.
Apply Suzuki Silicone Seal to the retaining bolts
3
and tighten them to specified torque.
l k
@
99000-25160 : Water Resistant Grease
99000-31120 : Suzuki Silicone Seal
Gearcase bolt : 23 N . m (2.3 kg-m, 16.6 lb.-ft.)
NOTE:
Apply Suzuki Silicone Seal to the six (6) gearcase bolts.
GEAR OIL
Fill the gearcase with specified gear oil.
(See the “PERIODIC MAINTENANCE / GEAR OIL” section on page 2-5.) j 99000-22540 : Suzuki Outboard Motor Gear Oil
CLUTCH ADJUSTMENT
Connect clutch rod to shift rod as shown.
B
Make sure that chamfered edge of the turnbuckle faces downward to seat against the lower nut when tightened.
Adjustment step :
1. Shift the clutch lever from Neutral through Forward and Reverse to check that proper engagement of both gears is at an equal angle from Neutral.
• If Forward gear engages earlier (at a smaller angle) than
Reverse, the turnbuckle should be rotated clockwise until both gears engage with the same amount of clutch lever travel.
• If Reverse gear engages earlier than Forward, the turnbuckle should be rotated counterclockwise.
LOWER UNIT 9-22
Chamfered edge
2. Lock the lower nut securely against the turnbuckle when clutch lever adjustment is correct.
TRIM TAB
Adjusting
The trim tab counteracts or minimizes propeller torque “pull” felt through the steering system.
• To compensate for a veer to starboard, set trailing edge of tab to the right (as viewed from behind).
• To compensate for a veer to port, set trailing edge of tab to the left.
With a properly adjusted trim tab, steering will be neutral meaning there should be no tendency for the steering to “pull” to either port or starboard.
9-23 LOWER UNIT
LOWER UNIT GEARS- SHIMMING AND
ADJUSTMENT
If lower unit has been rebuilt or has had components replaced, shimming for correct gear contact and backlash will have to be adjusted to ensure smooth, reliable operation of gears.
Shim / Washer & Mounting position
Numerical index / item
Pinion gear back up shim
Forward gear back up shim
Forward gear thrust washer
Reverse gear thrust washer
Reverse gear back up shim
Available thickness
(mm)
0.5, 0.6, 0.7, 0.8, 0.9, 1.0
Design specification
Thickness
(mm)
1.0
0.5, 0.6, 0.7, 0.8, 0.9, 1.0
2.0, 2.2
1.8, 1.9, 2.0, 2.1, 2.2, 2.3
0.5, 0.6, 0.7, 0.8, 0.9, 1.0
1.0
2.0
2.0
1.0
FORWARD GEAR / PINION GEAR
Step to prior to adjustment
1. Correctly assemble driveshaft bearing housing, driveshaft, forward gear, pinion gear and related components (see page
9-14 to 9-17).
NOTE:
When installing forward gear back-up shim, choose shim thinner than design specification for calculating adjustment.
2. Tighten pinion nut to specified torque.
@ Pinion nut : 50 N . m (5.0 kg-m, 36.2 lb.-ft.)
3. Temporarily fasten the driveshaft bearing housing to the gearcase with two bolts and nuts.
Adjusting gear backlash
1. Screw gear adjusting gauge into the oil drain hole.
z
09951-09510 : Gear adjusting gauge
B
When adjusting gauge, align the gauge rod end to contact the gear tooth at the convex side (heel end).
Make sure the rod does not contact the adjacent tooth.
Rod end alignment is as illustrated in the figure.
2. Hold the driveshaft by hand, then gently rock forward gear back and forth by hand.
Read the backlash on the dial gauge.
Gear backlash : 0.1 – 0.2 mm (0.004 – 0.008 in.)
• If backlash is larger than specified, thickness of forward gear back-up shim must be increased.
• If backlash is smaller, back-up shim thickness must be decreased.
B
When measuring backlash, rotate forward gear back and forth very gently.
Do not force the gear beyond the point where the forward and pinion gears make contact.
Excessive movement may also result in breakage of the gauge rod.
Checking and adjusting tooth contact pattern
(Pinion and Forward gear )
Check tooth contact pattern by using the following procedure :
1. To assess tooth contact, apply a light coat of Prussian Blue on the convex surface of forward gear.
z
LOWER UNIT 9-24
2. Install propeller shaft and housing assembly (minus reverse gear and internal components).
3. Push propeller shaft inward and hold in position.
4. Using driveshaft holder tool, rotate the driveshaft 5 - 6 times.
z
09921-29510 : Driveshaft holder
9-25 LOWER UNIT
5. Carefully pull out propeller shaft and housing to check tooth contact pattern.
Concave side
Convex side
Heel
Tooth width
Tooth top
Tooth bottom
Toe
TOOTH
CONTACT
PATTERN
Optimum tooth contact
The optimum tooth contact is shown at right.
A shim adjustment may be necessary to obtain this contact pattern.
Optimum tooth contact approx. 1/3 of tooth width approx.
1 mm
HEEL
TOE
Convex side
EXAMPLE OF INCORRECT
Top side toe contact
Example(1)
Incorrect topside toe contact :
Correction measures :
• Decrease thickness of forward gear shim.
• Slightly increase pinion gear shim thickness.
B
Do not set tooth contact in this position (top side toe contact). Damage and chipping of forward and pinion gear may result.
Example(2)
Incorrect bottom side toe contact :
Correction measures :
• Increase thickness of forward gear shim.
• Slightly decrease pinion gear shim thickness.
B
Do not set tooth contact in this position (bottom side toe contact). Chipping of pinion gear may result.
HEEL
EXAMPLE OF INCORRECT
Bottom side toe contact
HEEL
TOE
TOE
LOWER UNIT 9-26
CHECKING DRIVESHAFT THRUST PLAY
After obtaining optimum tooth contact, driveshaft thrust play should be measured.
1. Affix gear adjusting gauge to driveshaft.
z 09951-09510 : Gear adjusting gauge
2. Slowly push driveshaft downward.
Read the maximum play. Designate this amount of play as
(A).
NOTE:
Driveshaft thrust play (A) must be known to adjust reverse gear shim.
RECHECKING DRIVESHAFT THRUST PLAY
( Reverse gear back-up shim adjustment )
1. After adjusting forward gear tooth contact pattern, correctly assemble propeller shaft, housing assembly, reverse gear and related components (see page 9-17 to 9-18).
2. Screw sliding hammer assembly onto propeller shaft and strike a few gentle outward taps.
z
09930-30161 : Propeller shaft remover –
B
09930-30102 : Sliding hammer –
A
3. Affix gear adjusting gauge to driveshaft.
z 09951-09510 : Gear adjusting gauge
4. Push shaft downward and read maximum play. Designate this measurement as play (B).
5. Compare play (B) to play (A)( page 9-26).
6. Reverse gear back-up shim adjustment is correct if (B) is equal to (A).
• If (B) is less than (A), reduce reverse gear back-up shim thickness.
z
A
B
9-27 LOWER UNIT
CHECKING PROPELLER SHAFT THRUST PLAY
After adjusting all gear positions, measure the propeller shaft thrust play. if not within the following specification, a shim adjustment is required.
Propeller shaft thrust play : 0.2 – 0.4 mm
(0.008 – 0.016 in.)
NOTE:
Maintain the forward gear thrust washer at standard thickness
(2.0 mm) and adjust only the reverse gear thrust washer with shim.
Measurement step :
1. Assemble gear adjusting gauge to the propeller shaft.
z
09951-09510 : Gear adjusting gauge
2. Push propeller shaft inward.
3. Hold shaft in and set dial gauge pointer to zero.
4. Slowly pull shaft outward and read the maximum thrust play on the dial.
• If measurement is more than specification, increase reverse gear thrust washer thickness.
• If measurement is less than specification, reduce reverse gear thrust washer thickness.
z
WIRE / HOSE ROUTING
CONTENTS
WIRING DIAGRAM _________________________________________ 10-1
WIRE ROUTING ___________________________________________ 10-2
FUEL / WATER HOSE ROUTING ______________________________ 10-7
10
10-1 WIRE / HOSE ROUTING
WIRING DIAGRAM
DF40T / DF50T
Clamp
Fix Ex. mani. temp.
sensor lead wire.
Ex-mani. temperature sensor
Clamp
Fix rectifier & regulator lead wire
Rectifier & regulator
ECM
ECM main relay
CKP sensor connector
Clamp
Fix battery charge coil lead wire.
30A Fuse
Communication connector / cap
PTT motor relay (UP)
PTT motor cable
PTT relay plate
PTT motor relay (DOWN)
PTT relay plate
Battery cable
Starter motor relay
Starter motor sub cable
Engine main wiring harness
Route engine main wiring harness under water hose.
10-3 WIRE / HOSE ROUTING
WIRE / HOSE ROUTING 10-4
10-5 WIRE / HOSE ROUTING
Starter motor
Tighten bolt with PTT relay ground wire, battery cable ground wire and harness ground wire.
Starter motor sub cable
IAC valve
IAT sensor grommet
IAT sensor
Wiring harness
Battery cable
Route battery cable on fuel hose
CMP sensor
Clamp
Clamp
CTP switch
Battery cable
Battery cable
Bolt
Ignition coil #1
Clamp
Ignition coil #2
Clamp
Ignition coil #3
PTT attachment
Trim sender
Clamp
Trim sender cable
Clamp
Bind the trim sender cable and PTT motor cable.
PTT motor cable
Fix PTT cable and trim sender lead to clamp bracket.
PTT switch
10-7 WIRE / HOSE ROUTING
FUEL / WATER HOSE ROUTING
B
• Do not over-bend (kink) or twist hoses when installing.
• When installing hose clips, position tabs to avoid contact with other parts.
• Check that hoses do not contact rods and levers during either engine operation or standstill.
• Extreme care should be taken not to cut, abrade or cause any other damage on hoses.
• Care should be taken not to cause hoses to be compressed excessively by any clamp when fitted.
High pressure fuel filter
Evaporation hose / Protector
(Vapor separator to flywheel cover)
Fuel hose / Protector
(Low fuel pump to vapor separator)
Clamp
Breather hose
Breather hose
Clamp
Vapor separator
Fuel hose
Water return hose
Fuel hose / Protector
(Fuel filter to Low fuel pump)
Fuel filter Fuel hose / Protector
(fuel connector to fuel filter)
Water hose (Engine holder to 3-way)
Water hose (Engine holder to vapor separator)
Pilot water hole
WIRE / HOSE ROUTING 10-8
10-9 WIRE / HOSE ROUTING
Fuel hose / Protector
(H fuel filter to 3-way joint)
High pressure fuel filter
Fuel hose
(H fuel filter to vapor separator)
MAP sensor
MAP sensor hose
Clamp
3-way joint
Throttle body
IAC hose
Gas filter
Vapor separator
Fuel hose / Protector
(3-way joint to vapor separator)
IAC hose
IAC valve
IAC valve silencer
Evaporation hose
MAP sensor
High pressure fuel filter
Clamp
Fuel hose / Protector
(Vapor separator to
low fuel pump)
Fuel hose / Protector
(H fuel filter to 3-way joint)
Clamp
3-way joint
Clamp
Water hose
(Vapor separator to 3-way)
Water hose
(Engine holder to vapor separator)
Fuel hose / Protector
(3-way joint to vapor
separator)
..•
(
•.• ... _ _ r-------.
DF40/S0 "KS" ('05) MODEL 1
DF40150 "K5" (2005) MODEL .
FOREWORD
This supplementary service manual describes the outline, technical data and servicing procedures for the "K5" (2005) models outboard motor.
Please read and thoroughly familiarize yourself with this information before using it for your service activities.
NOTE:
Use this supplement with the following service manual:
• DF40150 Service Manual (plno. 99500-87JO· -OlE)
CONTENTS
SPECIFICA TlONS (DF40TIDF40QHIDF50TIDF50TH) ........ __ . __ ............. 2
SPECIFICATIONS (DF50WTIDF50WQH) .............................................. 4
SERVICE DATA ...................................................................................... 6
TIGHTENING TORQUE ........................................................................ 13
OVER-REVOLUTION CAUTION SYSTEM ...................................... ____ 14
SAFETY RELA Y SYSTEM ................................................................... 14
FL YWHEEL MAGNETO AND CRANKSHAFT ............................... ____ .. 14
BA TTERY CHARGING SYSTEM ................................................... __ .. __ 15
ELECTRIC STARTER SYSTEM ........................................................... 17
ASSEMBL Y ........................................................................................... 31
REMOTE CONTROL BOX & REMOTE CONTROL WIRE .................. 34
CYLINDER HEAD ................................................................................. 35
UPPER OIL SEAL HOUSING ............................................................... 35
UPPER MOUNT .................................................................................... 36
LOWER MOUNT .................................................................... __ ............. 37
CLAMP BRACKET ....................... : ....................................................... 38
CLAMP BRACKET SHAFT .................................................................. 38
SWIVEL BRACKET BUSH ................................................................... 39
TILLER HANDLE ASSY ....................................................................... 39
PTT MOTOR RELA Y ............................................................................ 39
DRIVESHAFTIDRIVESHAFT BEARING HOUSING ....................... __ ... 41
WA TER PUMP CASE ........................................................................... 42
SHIFT ROD GUIDE ............................................................................... 42
GEARCASE MAGNET .......................................................................... 42
PROPELLER SHAFT BEARING .......................................................... 43
WIRING DIAGRAM ............................................................................... 44
WIRE ROUTING .................................................................................... 47
I
!
I
I
I
2 DF40/S0 "KS" ('OS) MODEL
SPECIFICATIONS (DF40T/DF40QH/DF50T/DF50TH)
Item
PRE-FIX
I
I
I
Unit
DF40T
Data
I DF40QH I DFSOT I DFSOTH
04001F OS001F
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
L
Weight
(without engine oil)
S
L
Transom height
S
L mm (in) mm (in) mm (in) mm (in) kg (Ibs) kg (Ibs) mm
(inch type) mm'
(inch type)
756 (29.8)
1 263 (49.7)
.
106.0 (234)
109.0 (240)
401 (15)
852 (33.5)
-
756 (29.8)
382 (15.0)
1 263 (49.7)
1 390 (54.7)
106.0 (234)
110.0 (243) 109.0 (240)
401 (15)
528 (20)
852 (33.5)
-
-
113.0 (249)
-
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control
Except E01
E01 kW (PS) r/min
I r/min
29.4 (40)
5200-5800
5600- 6 200
36.8 (50)
5900-6500
850 ± 50 (in-gear: approx. 850)
, mm (in)
I mm (in) cm' (cu in)
I
: 1
I NGK
!
,
I
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Water cooled
Wet sump by trochoid pump
Remote control
Electric
Twist grip
Remote control
I
Twist grip
DF40/50 "K5" ('05) MODEL 3
DF40T
Data
I
DF40QH
I
DF50T
.........
I
DP50TH·
FUEL&OIL
Fuel
Item Unit
Engine oil
Engine oil amounts
Gear oil
Gearcase oil amounts
BRACKET
Trim angle
!
I
L (US/Imp. qt) ml
(US/Imp. oz)
I
Suzuki highly recommends that you use alcohol-Iree unleaded gasoline with a minimum pump octane rating of 87 «R+M)/2 method) or 91 (Research method).
However, blends o( unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oillilter change
SUZUKI Outboard Motor Gear Oil
(SAE #90 hypoid gear oil)
610 (20.6/21.5)
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
,Gear ratio
'r~·
Drive line impact protection r~'"
Propeller
S: Aluminum propeller
S8: Stainless steel propeller
I Degrees
PTT system
PTT system
Manual trim and gas assisted tilt system
5
73
I
PTT system
PTT system
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.273)
Spline drive rubber hub
Blade x Diam. (in) x Pitch (in)
3
3
3
3
3 x 11-1/2 x 11-1/2 x x
9 (S900)
10 (SI000)
3 x 11-1/2
3 x 11-5/8 x x
11 (SI100)
12 (SI200)
3
3 x 11-1/2 x 13 (SI301, SS1300) x 11-3/8 x 14 (SI400, SS1400) x 11-114 x 15 (SI500) x 11-1/8 x 16 (SI600, SS1600) x 11 x 17 (S1700)
4 DF40/S0 "KS" (,OS) MODEL
SPECIFICATIONS (DF50WT/DF50WQH)
Data
Item Unit
PRE-FIX
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
L
Weight
(without engine oil)
I
I
UL
S
L
UL
Transom height
S
L
I
UL
I
PERFORMANCE
Maximum output
Recommended operating range
Idle speed i mm (in) mm (in) mm (in) mm (in) mm (in) kg (Ibs) kg (Ibs) kg (Ibs) mm
(inch type) mm
(inch type) mm
(inch type)
,
I
I
I kW (PS) r/min r/min
I
POWERHEAD
I
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control
DFSOWT
OS001F
756 (29.8)
1 263 (49.7)
106.0 (234)
109.0 (240)
112.0 (247)
401 (15)
382 (15.0)
1 390 (54.7)
1 517 (59.7)
528 (20)
655 (25)
DFSOWQH
OS001F
852 (33.5)
-
110.0 (243)
113.0 (249)
-
36.8 (50)
5900-6500
850 ± 50 (in-gear: approx. 850)
-
4-stroke DOHC mm (in) mm (in) em' (cu. in)
: 1
NGK
I
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
I DCPR6E
Full-transistorized ignition
!
Multi-point sequential electronic fuel injection
Through prop exhaust i
I
Water cooled
Wet sump by trochoid pump
Electric
I
Remote control i
Twist grip
DF40/S0 "KS" (,OS) MODEL S
FUEL&OIL
Fuel
Item
Engine oil
Engine oil amounts
Gear oil
Gearcase oil amounts
~~-~
BRACKET
Trim angle
Number of trim position i
Maximum tilt angle
LOWER UNIT
Ifl .
Transmission
--,
Reduction system
Gear ratio
Drive line impact protection
-';:-"
, yew,
I Degrees
S: Aluminum propeller
SS: Stainless steel propeller
Unit
DFSOWT
Data
DFSOWQH
L (US/Imp. qt)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 «R+M)/2
, method) or 91 (Research method).
I
However, blends of unleaded gasoline and alcohol WITh equiva-
I lent octane content may be used.
I
API classification SE. SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil
(SAE #90 hypoid gear oil) ml
(US/Imp. oz)
610 (20.6/21.5)
PTT system
PTT system I
73
Manual trim and gas assisted tilt system
5
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.273)
Spline drive rubber hub
Blade x Diam. (in) x Pitch (in)
3
3
3
X
X
X
11-1/2 x
11-1/2 X
9 (S900)
10 (S1000)
11-1/2
X
11 (S1100)
3 X
11-5/8
X
12 (S1200)
3
X 11-1/2 X
13 (S1301, SS1300)
3 X 11-3/8
X
14 (S1400, SS1400)
3 X 11-1/4 X 15 (S1500)
3
X
11-1/8
X
16 (S1600, SS1600)
3
X
11
X
17 (S1700)
6 DF40/S0 "KS" (,OS) MODEL
SERVICE DATA
Item Unit
DF40T/40QH
Data
I
DFSOT/SOTHISOWT/SOWQH
POWER HEAD
Recommended operating range
Idle speed
"Cylinder compression
Except E01
E01 rlmin rlmin kPa
I (kg/cm', psi)
I
"Cylinder compression max. difference between any other cylinders
"Engine oil pressure kPa
(kg/cm', psi) kPa
(kg/cm', psi)
Engine oil
Engine oil amounts
Thermostat operating temperature
L (US/lmp. qt)
'c
('F)
5200-5800
5900-6500
5600-6200.
850 ± 50 (in-gear: approx. 850)
1300-1600(13-16,185-228)
100(1.0,14)
300 - 380 (3.0 - 3.8,43 - 54) at 4 000 rlmin
(at normal operating temp.)
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
58 - 62 (136 - 144)
·gures shown are guidelines only, not absolute service limits.
ENGINE OIL PUMP
Radial clearance
Side clearance
Limit
Limit mm (in) mm (in)
0.31 (0.012)
0.15 (0.006)
8 DF40/50 "K5" ('05) MODEL
Item Unit
DF40T/40QH
Data
I
DF50T/50THl50WT/50WQH
VALVENALVE GUIDE
Valve diameter IN I
EX
I
IN STD I mm (in) mm (in) mm (in)
Tappet clearance
(Cold engine condition) EX STD
Valve seat angle
Valve guide to valve stem clearance
IN
. Valve guide inside diameter
I
EX
IN,
EX
Limit
STD
Valve guide protrusion
Valve stem outside
I diameter
IN,
EX
, STD
!
IN STD
EX STD
Valve stem end length IN,
EX
I Limit
Valve stem end deflection
IN Limit
EX Limit
IN
EX
STD limit
STD mm (in)
-
mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
Valve stem runout
Valve head radial runout
IN,
EX
,
IN,
EX
Valve head thickness
!
IN
Limit
Limit
STD I
I Limit mm (in) mm (in) mm (in) mm (in) mm (in) STD,
EX
I Limit mm (in)
Valve seat contact width
I
Valve spring free length
Valve spring tension
IN STD I
EX
STD
I
STD
I i
Limit
I
I
STD
I mm (in) mm (in) mm (in) mm (in)
N (kg, Ibs)
I Limit N (kg, Ibs)
Valve spring sequareness Limit mm (in)
24.6 (0.97)
21.5 (0.85)
0.18- 0.24 (0.007 - 0.009)
0.18 - 0.24 (0.007 - 0.009)
30°, 45'
15',45'
0.020 - 0.047 (0.0008 - 0.0019)
0.070 (0.0028)
0.045 - 0.072,JO.0018 - 0.0028)
0.090 (0.0035)
5.500 - 5.512 (0.2165 - 0.2170)
11.0 (0.43)
5.465 - 5.480 (0.2152 - 0.2157)
5.440 - 5.455 (0.2142 - 0.2148)
3.20 (0.126)
0.14 (0.006)
0.18 (0.007)
0.05 (0.002)
0.08 (0.003)
I
I i
I
I
97
1.0 (0.04)
0.7 (0.03)
1.15 (0.045)
0.5 (0.02)
1.80 - 2.20 (0.071 - 0.087)
1.65 - 2.05 (0.065 - 0.081)
33.1 (1.30)
31.8 (1.25)
113 (9.7- 11.3, 21.4 - 24.9) for 28.5 mm (1.12 in)
89 (8.9, 19.6) for 28.5 mm (1.12 in)
2.0 (0.08)
'.'
~
DF40/S0 "KS" ('05) MODEL 9
Item Unit i
I
CYLINDER/PISTON/PISTON RING
Cylinder distortion
Cylinder bore wear
I
Limit mm (in) i
Piston to cylinder clearance STD
Cylinder bore mm (in)
I
Limit I mm (in) I
I
STD mm (in)
I
Cylinder measuring position
Piston skirt diameter
I mm (in)
I
STD
I mm (in)
Piston measuring position
Limit i mm (in) mm (in)
Piston ring end gap
Piston ring free end gap
Piston ring to groove
ClEarance
STD mm (in)
1st
Limit mm (in)
I
I
I
2nd
STD mm (in)
Limit mm (in)
1st
I
STD mm (in)
Limit mm (in) mm (in) STD
I
2nd
Limit
I
STD
1st
I Limit mm (in) mm (in)
I
2nd
STD
Limit mm (in) mm (in) mm (in)
I
Piston ring groove width
1st STD
2nd
I
STD mm (in) mm (in)
Oil STD mm (in)
I,..
'on ring thickness 1st
I
STD
I mm (in)
I 2nd STD
Pin clearance In piston pin hole
Piston pin outside diameter
Piston pin hole diameter
Pin clearance in conrod small end
STD mm (in) mm (in)
I
Limit mm (in)
I
STD mm (in)
I
Limit I mm (in)
I
STD
I mm (in)
,
, Limit
I i mm (in)
'sm! mm (in)
: Limit mm (in)
Conrod small end bore I
STD: mm (in)
I
I
DF40T/40QH
Data t
DFSOT/SOTH/SOWT/SOWQH
0.060 (0.0024)
0.020 - 0.040 (0.0008 - 0.0016)
0.100 (0.0039)
71.000 - 71.020 (2.7953 - 2.7961)
50 (2.0) from cylinder top surface
70.970 -70.990 (2.7941 - 2.7949)
19 (0.7) from piston skirt end
0.100 (0.0039)
0.10-0.25 (0.004-0.010)
D.70 (0.028)
0.25 - 0.40 (0.010 - 0.016)
1.00 (0.039)
Approx. 7.5 (0.30)
6.0 (0.24)
Approx. 11.0 (0.43)
8.8 (0.35)
0.02 - 0.06 (0.001 0.002)
0.10 (0.004)
0.02 0.06 (0.001 - 0.002)
0.10 (0.004)
1.01 1.03 (0.040 - 0.041)
1.01 - 1.03 (0.040 - 0.041)
2.01 - 2.03 (0.079 - 0.080)
0.97 0.99 (0.038 - 0.039)
0.97 - 0.99 (0.038 - 0.039)
0.006 - 0.018 (0.0002 - 0.0007)
0.040 (0.0016)
17.996-18.000 (0.7085-0.7087)
17.980 (0.7079)
18.006 - 18.014 (0.7089 - 0.7092)
18.040 (0.7102)
0.003 - 0.015 (0.0001 - 0.0006)
0.050 (0.0020)
18.003-18.011 (0.7088-0.7091)
10 DF40/S0 "KS" ('OS) MODEL
Item
I
I Unit
I
CRANKSHAFT/CONROD
Conrad small end inside diameter
Conrad big end oil clearance
•
I STD mm (in)
STD mm (in)
Conrad big end inside diameter
Limit mm (in)
I
STO mm (in)
Crank pin outside diameter
STO mm (in)
Crank pin outside diameter
I difference
I
Limit mm (in)
(out of round and taper)
'Conrod bearing thickness i
STO mm (in)
Conrad big end side clearance
STD mm (in)
Conrad big end width
Crank pin width
Limit
STO
STO mm (in) mm (in) mm (in)
Crankshaft center journal r: !fV}ut
Limit mm (in)
Crankshaft journal oil dearance
. STO
Limit mm (in) mm (in)
Crankcase bearing holder inside diameter
. Crankshaft journal outside
! diameter
Crankshaft journal outside diameter difference
(out of round and taper)
Crankshaft bearing thickness
,~--
Crankshaft thrust play
STO mm (in)
STO mm (in)
Limit mm (in)
STD mm (in)
Crankshaft thrust bearing thickness
STO mm (in)
Limit mm (in) i i
I
STD
I mm (in)
•
I
I
,
I
I
!
LOWER UNIT
Design specification thickness for shim & washer.
Pinion gear back-up shim
Forward gear back-up shim
Forward gear thrust washer
Reverse gear thrust washer
Reverse gear back-up shim
I mm (in) mm (in) mm (in) mm (in) mm (in)
•
I
I
DF40T/40QH
Data i DFSOT/SOTHISOWT/SOWQH
18.003 - 18.011 (0.7088 - 0.7091)
0.020 - 0.040 (0.0008 - 0.0016)
0.065 (0.0026)
41.000 - 41.018 (1.6142 - 1.6149)
37.982 - 38.000 (1.4954 - 1.4961)
0.010 (,0.0004)
'.
1.486 - 1.502 (Q.0585 0.0591)
0.100 - 0.250 (0.0039 - 0.0098)
0.350 (0.0138)
21.950 - 22.000 (0.8642 - 0.8661)
22.100 - 22.200 (0.8700 - 0.8740)
0.04 (0.002)
0.020 - 0.040 (0.0008 - 0.0016)
0.065 (0.0026)
49.000-49.018 (1.9291-1.9298)
44.982 - 45.000 (1.7709 - 1.7717)
0.010 (0.0004)
1.999 - 2.015 (0.0787 - 0.0793)
0.11 - 0.31 (0.004 - 0.012)
0.35 (0.014)
2.470 - 2.520 (0.0972 - 0.0992)
1.0 (0.04)
1.0 (0.04)
2.0 (0.08)
2.0 (0.08)
1.0 (0.04)
1,_ fit4
DF40/50 "K5" ('05) MODEL 11
I
I
I
Item
I
Unit
I
ELECTRICAL
Ignition timing
I
Except E01
E01
Degrees
Over revolution limiter Except E01 ,
E01
CKP sensor resistance rlmin
CMP sensor resistance
Ignition coil resistance Primary
Qat 20 'C
Qat20'C
Qat20'C
Secondary kQ at 20 'C
Battery charge coil resistance Qat 20 'C
!
Battery charge coil output (12 V)
Standard spark plug Type
Gap
Fuse amp. rating
Watt
NGK mm (in)
A
Recommended battery capacity
(12 V)
; l.ii"l injector resistance
[lAC valve resistance
! iAT sensor/Cylinder temp. sensorl
Ex-man!. temp. sensor
(Thermistor characteristic)
ECM main relay resistance
Starter motor relay resistance
PTT motor relay resistance
Ah (kG)
Qat20 'C
Qat20'C kQ at 25 'C
Qat20'C
Qat20'C
Qat20 'C
STARTER MOTOR
Max. continuous time of use
Motor output
Brush length
Sec. kW
I
STD mm (in)
I
Limit mm (in)
.
Commutator undercut !
STD mm (in)
Commutator outside
L~~_~ameter
Commutator outside diameter difference
-
Pinion to ring gear gap
:
,
Limit i mm (in)
I
I
STD mm (in)
I Limit mm (in)
I
STD: mm (in)
I
I
Limit mm (in)
STD mm (in)
DF40T/40QH
Data
I
DF50T/50TH/50WT/50WQH
.
ATDC l ' - BTDC 27'
ATDC l ' - BTDC 19'
6500
6800
168-252
-
1.9 - 2,5
8,1-11.1
ATDC l ' - BTDC 24°
ATDC l ' - BTDC23"
6700
""',
' .
.. ..
0,56 - 0,84
216
DCPR6E
0,8 - 0,9 (0,031 - 0,035)
Main fuse: 30
70 (252) or larger
11.0 - 16.5
21.5 - 32.3
1.8 - 2.3
145-190
145-190
25-37
30
104
15.5 (0.61)
9.5 (0.37)
0,5 0.8 (0.02 - 0,03)
0.2 (0,01)
29.0 (1.14)
28.0 (1.10)
0.05 (0.002)
0040 (0,016)
3.0 - 5.0 (0.12 - 0.20)
.
12 DF40/50 "K5" ('05) MODEL
PTTMOTOR
Brush length
Commutator outside diameter
STD mm (in)
Limit mm (in)
I
STD I mm (in)
Limit
I mm (in)
9.8 (0.39)
4.8 (0.19)
22.0 (0.87)
21.0 (0.83)
SELF-DIAGNOSTIC SYSTEM INDICATION
When the abnormality occurs in a signal from sensor, switch, etc., the "CHECK ENGINE" lamp on the monitor-tachometer flashes (lights intermittently) according to the each code pattern with buzzer sounding.
PRIORITY FAILED ITEM i
CODE
, i
LAMP FLASHING PATTERN
FAIL-SAFE SYSTEM
ACTIVATING
1
I
MAP sensor 1 3-4 on off
2 CKP sensor 4-2 on off
3
4 lAC valve/By-pass air screw adjustment
I i
3-1 on
I off
2-4 on off
-.llJlJLJL NO
5 CTP switch
I
2-2 on off
~
NO
-------
6
7
Cylinder temp. sensor
IAT sensor i
1-4 on off
2-3 on off
--.-flJLJlJ1JL
YES
YES
8
9
10
. MAP sensor 2
(Sensor hose)
Rectifier & regulator i (Over-charging)
Exhaust manifold temp. sensor
3-2 on off
~
NO
1 - 1 on off
~
I
NO
:
I
1 - 5 Ion off
I
I
4-3
Ion
I off
~ YES
~f1J1JUlJlJL
NO 11
Fuel injector
I (Open circuit)
L.
NOTE:
• If more than two items fail at once, the self-diagnostic indication appears according to priority order.
The indication repeats three times .
• On the tiller handle (QH) model, alerts is signaled by a sound from the caution buzzer contained in the tiller handle.
DF40/50 "K5" ('05) MODEL 13
TIGHTENING TORQUE
Tightening Torque - Important Fasteners
ITEM
Cylinder head cover bolt
Cylinder head bolt
Crankcase bolt
Conrod cap nut
Camshaft housing bolt
Camshaft timing sprocket bolt
Timing chain guide bolt
I ntake manifold boltlnut
Oil pressure switch
Intake manifold fuel main gallery
Low pressure fuel pump bolt
Thermostat cover bolt
Flywheel bolt
I
Starter motor mounting bolt
Engine oil filter
Engine oil drain plug
Power unit mounting boltlnut
Driveshaft housing bolt
Upper mount nut
Upper mount cover bolt
Lower mount nut
Clamp bracket shaft nut r'
Water pump case nut
Gearcase bolt
Propeller shaft bearing housing bolt
Pinion nut
Propeller nut
Smm
-
6mm 3-way joint bolt
Upper! lower plug
-
I
I
I
10mm
10mm
12 mm
Smm
12 mm
22mm
6mm
Smm
8mm
I
12 mm
I lS mm
6mm
6mm
14 mm
6mm
Smm
-
12 mm
Smm
THREAD
DIAMETER'
! 6mm
I
10 mm
•
I Smm
N·m i 10
60
25
10mm 46
TIGHTENING TORQUE i kg-m
I
I
1.0
Ib-ft
I
7.0
6.0
2.5
4.6
43.5 lS.0
33.5
Smm
6mm
6mm
. 6mm
6mm
35
10
10
10
11
!
I
I
3.5
1.0
1.0
1.0
1.1
25.5
7.0
7.0
7.0
S.O
23
13
10
I
I
2.3
1.3
1.0
16.5
9.5
7.0
I
35
13
23
50
50
SO
23
10
10
170
10
23
14
80
43
S
23
17
I
•
50 i 55
I 3.5 i 1.0
1.0
I i
I
I 17.0
1.0
I 2.3
I
1.4
1.3
2.3
5.0
5.0
8.0
2.3 i i 8.0 i 4.3
0.8
2.3
I
1.7 i
5.0
5.5
I
I
I
25.5
36.0
58.0
16.5
58.0
31.0
6.0
16.5
12.5
36.0
40.0
7.0
7.0
123.0
7.0
16.5
10.0
9.5
16.5
36.0
14 DF40/50 "K5" ('05) MODEL
OVER-REVOLUTION CAUTION SYSTEM
Only for DF50
From the middle of 2004 year model, the over revolution limiter rpm have been changed from approx. 7 000 r/min to 6 700 r/min.
NOTE:
In accordance with this change, ECM has been changed.
SAFETY RELAY SYSTEM
Safety relay system is to avoid operating the starter motor when the engine is already operating.
The starter motor relay will only engage when the ignition switch is turned to the "START' position if the all of the following conditions are satisfied:
• Lock plate is attached to emergency stop switch.
• Neutral switch is in "ON" position.
• Engine is not already operating.
NOTE:
In accordance with this change, ECM has been changed.
FlYWHEEL MAGNETO AND CRANKSHAFT
• The flywheel bolt has been changed from M 16 to M 14.
• rile washer has been changed in inside diameter.
• In accordance with change of the flywheel bolt, tightening torque of flywheel bolt has been changed.
• The flywheel side of the crankshaft has been changed in machining.
U
~ li---M16..., M14
...
_-
-- --nm
(
~
M16..., M14
NOTE:
These modification have been carried out from the middle of 2004 year model.
OF40/S0 "KS" ('OS) MODEL 1S
• The flywheel magneto has been changed in shape.
• The key groove width in the flywheel magneto has been changed.
• The crankshaft key width has been changed.
• The flywheel side of the crankshaft has been changed in machining.
• The flywheel bolt has been changed in length.
~40mm->50mm
Bo~
5mm--t4mm
~r-
Key
I I
Crankshaft
BATTERY CHARGING SYSTEM
OUTLINE
The battery charging system circuit is illustrated below. it composed of the BATTERY CHARGE COIL, RECTIFIER & REGULATOR and BATTERY.
The three phase AC current generated from battery charge coil is converted by the rectifier & regulator into regulated DC current which is used to charge the battery.
To PTT switch ..... _W"'IR.:.:.....-,
30A Fuse
To main relay ....... -"w_+-_w"-+6
R
Starter motor
:----1
M .
'----+
I y y y
W
R R R
L
.-.:::==:TO starter motor relay
B
Alternator
Rectifier & regulator Battery l
~----------------------------------------------------~
16 DF40/50 "K5" ('05) MODEL
INSPECTION
BATTERY CHARGE COIL
Measure battery charge coil resistance.
,,'&it!
09930-99320: Digital tester
;W
Tester range: 0 (Resistance)
1. Disconnect battery charge coil leads from rectifier & regulator.
2. Measure resistance between leads in the combinations shown.
Battery charge coil resistance:
Terminal for tester probe connection Resista'nce
Yellow 1 to Yellow 2
Yellow 2 to Yellow 3
Yellow 3 to Yellow 1
0.56-0.840
I
If measurement exceeds specification, replace battery charge coil.
RECTIFIER & REGULATOR
.,'&ill 09930-99320: Digital tester l:.rJ1
Tester range: 0 (Resistance)
1 Disconnect all lead wires of rectifier & regulator.
2. Measure resistance between leads in the combinations shown.
NOTE:
The values given below are for a SUZUKI digital tester.
As thyristors, diodes, etc. are used inside this rectifier & regula- tor, the resistance values will differ when an ohmmeter other than SUZUKI digital tester is used.
Rectifier & regulator resistance:
Unit: MO
-
(/) l
~I u l
!I
A
I
I
~
CDI
CD
.Q
0
~ c.
~
CD
CD' f-I
B
C
D
E
I
I i
O.F
O.F
O.F
O.F
Tester probe
8
(Red)
B
,
I c I D I E
I
I
~I
O.F
0.64 - 0.96
I
0.64 - 0.96 i
0.64 - 0.96 I i
,
O.F
~
O.F
O.F
I
I i
I
~I
O.F
I i
O.F
O.F
O.F
~
O,F: Infinity
If measurement exceeds specification, replace rectifier & regulator.
/~¢J~
Yl Y'6 Y3
/1 o o
DF40/50 "K5" ('OS) MODEL 17
I r
!
I i
ELECTRIC STARTER SYSTEM
OUTLINE
The starting circuit consists of the battery, starting motor, ignition switch, neutral switch and related electrical wiring.
These components are connected electrically as shown in figure below.
STARTING SYSTEM CIRCUIT
In the circuit shown in figure below, the magnetic switch coils are magnetized when the ignition switch is closed (turn to "START').
The resulting plunger and pinion shift lever movement causes the pinion to engage the engine flywheel gear, the magnetic switch main contacts to close, and engine cranking to take place.
When the engine starts, the pinion over-running clutch protects the armature from excessive speed until the switch is opened, at which time the torsion spring causes the pinion to disengage.
,M,.gnetiic switch
Starter motor relay !
I
I
Holder in coil
Plunger
Shift lever
Ringgear~
R
Starter motor
B R
Pinion &
Over~running clutch
Main relay Battery
B, w
Fuse 30A w R
YIG
I
I
I
,----------------
I
.---------------1 B Ignition switch
I
I
I
1 ______ - - - - - - - - - - - - - - - - - - - - ______ 1
l ___________________ ----'
18 DF40/50 "K5" ('05) MODEL
STARTER ENGAGEMENT MECHANISM
A solenoid (electromagnetic force) type starter switch, utilizing a torsion spring and shift lever, engages the pinion gear to the flywheel.
When the ignition key is turned to "START", current flows through the switch winding creating an electromagnet pulling the plunger in.
The shift lever, attached to the plunger, then pushes the pinion up into engagement with the flywheel.
Plunger and shift lever movement also compresses the torsion spring, which applies pressure against the shift lever and pinion gear to maintain positive engagement.
Final plunger movement closes the starter switch contacts, which allows current to flow through the starter motor windings, rotating the starter motor armature, pinion gear and flywheel.
When the ignition key is released from start, current flow to the switch is shut off and electromagnetic force ceases. The torsion spring then pulls the plunger out, disengaging the pinion gear from the flywheel through the shift lever.
Movement of the plunger also opens the switch contacts, stopping current flow to the starter motor windings, shutting off the starter motor. ' en
Pinion
(2) Armature
@Magnet
@Torsion spring
@ Shift lever
@ Stationary cantact
CD
Movable contact
® Hold·in coil
®
Pull·in coil
®l
Plunger
® Ignition switch
© Battery
@Ringgear
DF40/50 "K5" ('05) MOOEL 19
TROUBLESHOOTING
NOTE:
Before troubleshooting the electric starter system, make sure of the following:
• Battery is fully charged.
• All cables/wires are securely connected.
• Shift is in "NEUTRAL" position. iCAUTION!
If any abnormality is found. immediately disconnect battery cables from battery.
I
Engine does not start.
I
I
Does engine turn over with continued cranking?
I
NO
I
. I
Does starter motor ro-
·1 tate?
! r-
NO
• Check battery for charging condition.
• Check battery terminals for connections and corrosion.
• Check main (30A) fuse/ case.
YES YES
YES
Check for starter relay
"Click" sound when turning ignition switch to
"START'.
Is there "Click" sound?
NO
• Check function of neu· tral switch.
• Check ignition switch function.
• Check starter motorrelay.
(See page 20)
• Check wiring system and connections between starter relay and ignition switch.
I
,I
·
Check pinion and over· running clutch. (See page 28)
• Check starter magnetic
SWitch. (See page 30)
! j
Does the flywheel rotate? i
No (or turns slowly)
YES
• Remove starter motor from engine.
I •
Does starter motor turn
I
I under no-load condi, tions by connecting battery ® terminal to "M"
I
I terminal of starter motor and battery 8 terminal
I to the starter motor body.
• Check battery for charging condition.
• Check battery terminals ,
I
I for connections and corrosion.
• The magnetic switch
I and I or connection is
, faulty.
I
Replace it.
I
NO
• Check the brush and brush holder. (See page
27)
• Check the armature coil.
(See page 27)
20 DF40/50 "K5" ('05) MODEL
STARTER MOTOR RELAY
INSPECTION iT'M. 09930-99320: Digital tester
~1iII
Tester range:
_""~
(Continuity)
(1) Disconnect relay from wire.
(2) Check continuity between terminal CD and C2l each time 12 V is applied. Connect positive (+) side to terminal @, and negative (-) side to terminal Q).
Relay function:
12 V power
Applied
Not applied
Continuity
Yes
No
I
CAUTION
I
Be careful not to touch 12 V power supply wires to each other or with other terminals.
"
ECMmain
12V
STARTER MOTOR
REMOVAL
Prior to removing Flywheel:
• Disconnect battery cables from battery.
1. Remove three bolts, two fastening bands and flywheel cover.
2. Remove a bolt and silencer cover.
3. Disconnect lead wire connector
CD
from lAC sensor.
4. Remove flame arrester ~.
5. Remove four bolts, silencer plate and silencer seal.
6. Remove two bolts, negative
8
battery cable, ground lead wire and motor band @.
22 DF40/50 "K5" ('05) MODEL
7. Using special tool, loosen flywheel bolt 2 - 3 turns.
'loot!
09930-48720: Flywheel holder
NOTE:
Do not remove flywheel bolt at this time.
This bolt prevents damage to the crankshaft when using flywheel remover tools.
8. Using special tools, loosen flywheel from crankshaft .
.,'OOt. 09930-39411: Flywheel remover
09930-39420: FlyWheel remover bolt
9. Remove flywheel bolt, washer and flywheel.
10. Remove three screws and battery charge coil.
11. Remove seven bolts, upper oil seal housing and starter motor.
12. Remove nut, positive @ battery cable @ and Red lead wire
':2).
13. Disconnect Red lead wire ®.
INSTALLATION
Installation is reverse order of removal with special attention to the following steps .
• Install starter motor and stator base, then tighten stator base mounting bolts securely.
8 mm 23 N·m (2.3 kg-m, 16.S Ib-ft)
6 mm 10 N·m (1.0 kg-m, 7.0 Ib-ft)
DISASSEMBLY
When overhauling starting motor, it is recommended that component parts be cleaned thoroughly.
However, the yoke assembly, armature coil, over-running clutch assembly, magnetic switch assembly, and rubber or plastic parts should not be washed in a degreasing tank or with a grease dissolving solvent. These parts should be cleaned with compressed air or wiped with clean cloth.
NOTE:
Before disassembling starting motor, be sure to put match
mArkr; at two locations (A and B) as shown in figure at right to avoid any possible component alignment mistakes.
DF40/S0 "KS" (,OS) MODEL 23
1. Remove nut
CD
from magnetic switch, then disconnect the connecting wire 12).
2. Remove two bolts @ securing magnetic switch.
3. Remove the magnetic switch @ and rubber packing ':ID.
24 DF40/S0 "KS" ('05) MODEL
4. Remove screws ®, long through bolts ([) and rear cover ®.
5. Remove thrust washer ® with screwdriver.
6. Pull the brush spring ®> up to separate the brush from the surface of the commutator, then remove the brush holder (jj).
7. Remove the yoke @ and armature ®.
8. Remove the center cover plate @.
9. Remove the planetary gears @ and internal gear Q9:.
I
1
1 O. Remove the center bracket @ (with shift lever @), pinion @ and pinion shaft @) from front housing @.
11. Remove the shift lever ,@) from pinion @.
12. Push the pinion stopper @ down, then remove stopper ring
~.
Remove the pinion stopper and pinion @.
A WARNING
Wear safety glasses when disassembling and assembling stopper ring.
NOTE:
Using a screw-driver, pry off the stopper ring.
13. Remove the E-ring @.
DF40/50 "K5" ('05) MODEL 25
,
1 i
:
:
1
14. Remove the pinion shaft ®, washers @ and rubber ring @ from center bracket.
26 DF40150 "K5" ('05) MODEL
INSPECTION AND SERVICING
Armature and Commutator
• Inspect the commutator surface.
If surface is gummy or dirty, clean with #500 grit emery paper
®.
• Measure commutator outside diameter.
IiitI
0990()'201 01: Vernier calipers
Commutator outside diameter:
Standard: 29.0 mm (1.14 in)
Service limit: 28.0 mm (1,10 in)
If measurement exceeds service limit, replace armature.
• Check that mica (insulator) between the segments is undercut to specified depth.
~ommutator undercut G):
Standard: 0.5 - 0.8 mm (0.02 - 0.03 in)
Service limit: 0.2 mm (0.01 in)
If measurement exceeds service limit, cut to specified depth.
NOTE:
Remove al/ particles of mica and metal using compressed air.
A WARNING
I
Wear safety glasses when using compressed air.
CD undercut
SEGMENT
• Check for continuity between the commutator and the armature core/shaft.
Replace armature if continuity is indicated. i1Volt 09930-99320: Digital tester
~
_0>_
(Continuity)
• Check for continuity between adjacent commutator segments.
Replace armature if no continuity is indicated. n'Sde.
09930-99320: Digital tester iiIJ
Tester range:
_0>_
(Continuity)
BRUSHES
Check the length of each brush.
:)9900-20101: Vernier calipers
Brush length:
Standard: 15.5 mm (0.61 in)
Service limit: 9.5 mm (0.37 in)
If brushes are worn down to the service limit, they must be replaced.
BRUSH HOLDER
• Check brush holder continuity .
• ,'§Olt 09930-99320: Digital tester
~
_0>_
(Continuity)
Brush holder continuity:
Tester probe connection Continuity r
Brush holder positive @ to Brush holder negative
8
Brush holder positive@ to Base plate (ground)
I
I
I i
No
No
Replace brush holder if the tester doesn't show the above.
DF40150 "K5" ('05) MODEL 27
28 DF40/50 "K5" ('05) MODEL
BRUSH SPRING
Inspect brush spring for wear, damage or other abnormal conditions,
Check the brush spring tension,
Replace if necessary,
Brush spring tension
Standard: 15 - 18 N (1.5 - 1.8 kg, 3.3 - 4.0 Ib)
SHIFT LEVER
Inspect shift lever for wear.
Replace if necessary.
PINION AND OVER-RUNNING CLUTCH
• Inspect pinion for wear, damage or other abnormal conditions,
Gheck that clutch locks up when turned in direction of drive and rotates smoothly in reverse direction,
Replace if necessary,
• Inspect spline teeth for wear or other damage.
Inspect pinion for smooth movement.
Replace if necessary.
GEAR
• Inspect planetary gears and internal gear for wear, damage or other abnormal conditions.
Replace if necessary. ee
(I
PINION SHAFT/PINION SHAFT BUSH
• Inspect pinion shaft for wear, damage or other abnormal conditions. Replace if necessary.
• Inspect pinion shaft bush for wear or other damage.
Replace if necessary.
FRONT HOUSING
• Inspect front housing for wear, damage or other abnormal conditions. RepJace if necessary.
• Inspect bush for wear or other damage.
Replace if necessary.
ARMATURE SHAFT BUSH
Inspect bush for wear or other damage.
R""!ace if necessary .
., l
:i
:1
1
:1 j l
~i
;i
.' jl
PLUNGER
Inspect plunger for wear or other damage.
"~ce if necessary.
DF40/50 "K5" ('05) MODEL 29
30 DF40/50 "K5" ('05) MODEL
MAGNETIC SWITCH
Push in plunger and release. The plunger should retum quickly to its original position.
Replace if necessary.
Pull-in coil Open circuit Test
IT'&iti 09930-99320: Digital tester
Check for continuity across magnetic switch "8" terminal and "M" terminal.
If no continuity exists, the coil is open and should be replaced.
1. plunger
Hold-in coil Open circuit Test
IT'&ili 09930-99320: Digital tester
,,,ster range: _""_ (Continuity)
Check for continuity across magnetic switch "8" terminal and coil case.
If no continuity exists, the coil is open and should be replaced.
Contact points Test
,iut! 09930-99320: Digital tester
~0'_
(Continuity)
Put the plunger on the under side and then push the magnetic switch down. At this time, check for continuity between terminal
US" and terminal I'M" .
Continuity indicates proper condition. If no continuity exists, replace the magnetic switch and/or plunger.
DF40/50 "KS" ('05) MODEl: 31
ASSEMBLY
Construction diagram
(j) Front housing
~Bolt
® Shift lever
@ Rubber packing
@ Torsion spring
@Plunger
(J) Spring
@Gasket
@ Magnetic switch
@ Pinion stopper ring
® Pinion stopper
@Pinion
@E-ring lID Thrust washer
@ Center bracket
-10 Thrusi'washer
@ Rubber ring
@ Pinion shaft
'W
Planetary gear
@ Internal gear
® Center cover plate
® Armature
@Voke
,29 Brush holder
@Spring
@ Thrustwasher
®
Reareover
@Screw
@ Through bolt
Assembly is reverse order of disassembly with special attention to the following steps.
To install the center bracket in the front housing, align the thread holes of front housing to holes of center bracket.
~-®
~
£--@l
Ir
II
[!l
5.5 N·m
@l
0.55 kg-m)
(
4.0Ib-ft
32 DF40/50 "K5" ('05) MODEL
Install the internal gear as shown in figure.
Install the center cover plate as shown in figure.
Install the brush holder as shown in figure.
I C~U]"jQI\j]
---------------------------------~
When installing armature, use care to avoid breaking brushes.
When installing the rubber packing, be sure the front housing boss properly fits into the rubber packing groove.
PERFORMANCE TEST
I CAUTION
I
Each test mllst be performed within 3 - S seconds to avoid coil damage from overheating.
A WARNING
When performing the following test, be sure to connect the battery and the starting motor with a lead wire of the same size as original equipment used there.
PULL-INIHOLD-IN TEST
Connect battery to magnetic switch as shown in figure .
• Check that plunger and pinion (over-running clutch) move outward.
If plunger and pinion don't move, replace magnetic switch.
NOTE:
Before testing, disconnect brush lead from terminal "M" .
• While connected as above with plunger out, disconnect negatiVe lead from terminal "M".
Check that plunger and pinion remain out. it plunger and pinion return inward, replace magnetic switch.
DF40/S0 "KS" (,OS) MODEL 33
PI UNGER AND PINION RETURN TEST
Disconnect negative lead from switch/motor body.
Check that plunger and pinion return inward.
If plunger and pinion don't return inward, replace magnetic switch.
34 DF401S0 "KS" ('05) MODEL
NO-LOAD PERFORMANCE TEST
" CAUTION
I
"II
Before performing following test, secure the starter
" motor to the test bench.
1. Connect battery and ammeter to starter motor as shown.
2. Check that starter rotates smoothly and steadily with pinion moving out. Check that ammeter indicates specified current.
No load current: Within 90 A at 11 V
REMOTE CONTROL BOX & REMOTE CONTROL WIRE
The remote control box and remote control wire have been changed. , lJF40T/50T
2004 MODEL
DF40T/50T
2005 MODEL
TRIM
~
G) Top-mount remote control box
:z
PIT switch extension wire
@ Ignition switch
@ Emergency stop switch
@ Ignition & stop switch panel
®
Caution buzzer
(J) Side-mount remote control box
@ Remote control wire
® Extension wire
® Remote control wire adapter
® Remote control wire adapter
DF40/50 "K5" ('05) MODEL 35
CYLINDER HEAD
2 protection anodes have been added to the cylinder head. In accordance with this change, the cylinder head has been changed in shape. cover
Cylinder
O-ring
UPPER OIL SEAL HOUSING
In accordance with change of the starter motor, the upper oil seal housing has been changed in shape.
Late
36 DF40/S0 "KS" ('OS) MODEL
UPPER MOUNT
The upper mount and related parts have been changed as follows:
• The upper mount bolt has been changed from M10 to M12.
• The inner tube of the upper mount has been changed in material and dimension.
• The through holes in the upper mount have been eliminated.
• The nut, washers and upper thrust stopper have been changed.
• The through holes in the steering bracket have been enlarged.
• The mount nut tightening torque has been changed to 80 N·m with.applying the thread lock.
~"i1
99000-32020: THREAD LOCK SUPER "13338"
6:Y.".
Upper mount bolt
(58.0Ib_tt)1
Nut
Washer
M10->M12
Upper mount
Steering bracket
~
~~---~"
~1 0.2
-.>
1'12.2
DF40/50 "K5" ('05) MODEL 37
LOWER MOUNT
The lower mount and related parts have been changed as follows:
• The lower mount bracket has been changed in shape.
• The inner tube of the lower mount has been changed in material.
• The lower mount bolt has been changed in shape.
• The washers have been changed.
• The mount nut tightening torque has been changed to 80 N·m with applying the thread lock.
~:H!
99000-32020: THREAD LOCK SUPER "13338"
(!J
Lower mount nut: 80 N·m (8.0 kg-m, 58.0 Ib-ft)
I
I rc),
Early
- -
,/0] r@o oWl
Late
View A
~
....... 11-Late
~
Lower mount bolt
14mm->19mm 6?~\~":
~SON'm ~~
S.O kgf-m)
(
5S.0 Ib-ft
~ ~wermount
Washer
Nut
38 DF40/S0 "KS" ('05) MODEL
CLAMP BRACKET
The washer for clamp bracket shaft nut has been changed to prevent loosing the nut.
In accordance with this change, the starboard clamp bracket has been changed in shape.
Clamp bracket washer o
Starboard clamp bracket
Late
CLAMP BRACKET SHAFT
The clamp bracket shaft has been changed in shape.
@
-
'--
r -
=
H c.....-
~
-
U
-
r--
H
Yellow paint
Blue paint
Late
DF40/S0 "KS" ('05) MODEL 39
SWIVEL BRACKET BUSH
The swivel bracket bush has been changed in shape.
~-
L
Hole (2 places) ___
-~ 0
If
..
I
it
•
.L
Slit (3 places) o
Late
TILLER HANDLE ASSY
The wire connector of the tiller handle assy has been changed to 16-pin connector.
PTT MOTOR RELAY
The PTT relays (for UP and for DOWN) have been incorporated and changed in shape.
PTT relay assy
Late
40 DF40/50 "K5" ('05) MODEL
In accordance with the change of PTT relay, the lead connector of PTT motor and lead grommet have been changed.
..
Late
PTT MOTOR RELAY
INSPECTION
1. Disconnect battery cable from battery.
2. Disconnect all cables/lead wires from PTT relay.
3. Check resistance between each two (2) lead wires.
51
09930-99320: Digital tester
Between "P" wire and "B" wire: 25 - 37 0
Between "Lbl" wire and "B" wire: 25 - 37 0
4. Connect "R" wire to positive e terminal, and black wire to negative
8
terminal of 12 V battery .
• CAlJTIOJij
Each operation test must be performed within 3 - 5 seconds to avoid overheat damage to the relay coil. p
5. Temporarily connect a jumper wire from the "P" lead wire to the battery positive e terminal, then check voltage between
"'Gl' wire and 1'8" wire.
IrULI 09930-99320: Digital tester
:i!lJ
Tester range: DCV
Between "G" wire and "B" wire: 12 V (Battery voltage)
6. Temporarily connect a jumper wire from the "Lbl" lead wire to the battery positive '3:: terminal, then check voltage between
"81" wire and "8" wire.
Between "BI" wire and "B" wire: 12 V (Battery voltage)
1.
Ij inspection in step 3 and/or step 5, 6 fails, replace PTT relay.
1. Jumper wire
,
Lbl p
B
R o
8 BATTERY
12V ffi : I r
!J
DF40/S0 "KS" ('OS) MODEL 41
DRIVESHAFT/DRIVESHAFT BEARING HOUSING
Effective Engine Number
DF40: From 04001 F-51 0001 to 04001 F-51 0209
DF50: From 05001F-510001 to 05001 F-51 0465
The driveshaft and related parts have been changed as follows:
• The pre-load spring, spring pin and washers have been eliminated.
• The oil groove in the driveshafi has been added.
• The flange of the driveshaft has been eliminated.
• The driveshafi thrust bearing has been changed to a taper-roller type.
• The driveshaft spring housing has been changed in shape.
• The driveshaft bearing housing has been changed in shape.
• The pinion gear back up shim has been changed in shape.
Effective Engine Number
DF40: 04001F-510210 and later
DF50: 05001 F-51 0466 and later
The driveshaft and related parts have been changed to the components for the 2004 year model.
2004 year model and from the middle of 200S year model
/Pinion gear back up shim
:0
Washer
~DriVeShaft thrust bearing
To the middle of 200S year model
/' P're-Ioad spring pin
t:'nt"!=Ac:?S
i i ;;;r;:;-t=)1
. , I housing
I
I
Driveshaft
I
I
I
I
I j = : i i M = g : ! I ;;;r;:;-t=):
T---..
Driveshaft bearing housing
42 DF40/50 "K5" ('05) MODEL
WATER PUMP CASE
The oil seal in the water pump case has been eliminated.
The water pump case has been changed in shape.
SHIFT ROD GUIDE
The number of shift rod guide O·ring has been changed from 2 pieces to 1 piece.
The shift rod guide has been changed in shape.
Late
Late
~
K-0.ring
Shift rod guide
GEARCASE MAGNET
The gearcase magnet has been changed in shape.
V
Gearcase magnet \
V
Gearcase magnet
Late
DF40/S0 "KS" ('05) MODEL 43
PROPELLER SHAFT BEARING
The number of propeller shaft bearing has been changed from 2 pieces to 1 piece.
2 pieces
•
10.5 mm
- +
• I It
10.5
1Pi~ mm
..
Late
44 DF40/50 "K5" ('05) MODEL
WIRING DIAGRAM
DF40T/DF50T/DF50WT (REMOTO CONTROL MODEL)
nil
Jli =II
IIIIIII~I
I~ i r
I ii
II
Ii
!
, '
'I ii j
Wi
, ,
'
DF50TH (TILLER HANDLE MODEL)
DF40/50 "K5" ('05) MODEL 45
••
t ~.
~ 1
0/1
~H!' g~55~~; i i i i
I
II i' i
,II
I I
I
Ii i
II II
,I
I
,
'
I
,
Ii
I
II' II
'::::
,
::::::::'
II I ')
I
!
,
'
Iii "i II
'I
46 DF401S0 "KS" ('05) MODEL
DF40QH/DF50QH/DF50WQH (TILLER HANDLE MODEL)
h~ h~h.IUm~
mmWmt
HBHB.Hh
hd!hi~!.q
... i~~~g;~~~~~~~ i ,
,
I
I
I
~®
Ii
I
I
I
,
II
I I
I
I
I
I I
I
, i
; i
!
!
,
'
, i
Exhaust manifold sensor
ECMmain
-I.Main~~rness-~lcHl
I ""'
p;)1111G±orl
7T777/ i; :
Joint connector
Main harness
PTT relay
Except for "QH" model
:e
::D m
-
::D o c:
-I
Z
G) c
j
3: o
C m r-
g
~
"l
~
~
MAP
MAP sensor hose/Protector
Oil pressuk: switch
Gas filter
€El
Neutral switch connector
~ c
~ in
C)
~
~
5l
3l: o c m r
_______ _____ c ________ c __ c
------------
~~"'-
Fix lead wires not to contact with flywheel magneto.
Fix engine wiring harness not to contact with oil filler cap.
-
MAP sensor MAP sensor bracket charge coil
Starter motor
Fix engine wiring harness not to contact with hose clip_
--'-"~'----'--'''''--"-----
Rectifier &
Exhaust manifold temp.
Fix engine wiring harness not to contact with clamp.
. sensor
Electric parts holder cover
CKP sensor
After installing flywheel magneto and securing nut with specified torque, check air gap between CKP sensor and retuctor bars on flywheel maaneto.J
Air gap: 0_75 mm (0.030 in)
C
"11
~
50 DF40/S0 "KS" ('05) MODEL
Starter motor
Grommet
IAT sensor
Battery cable
I±l
Route battery cable on fuel hose
CMP sensor
Position clip tabs
Inward (engine side)
CTP switch lAC valve cable 8
Ignition coil #1
Clamp coil #2
Clamp
Ignition coil #3
()
DF40/50 "K5" (,OS) MODEL 51
Grommet
PTI motor cable
Match taping of PTT cable to rrirn sender cable
PTI motor cable
Bind trim sender cable and
PTT motor cable.
Trim sender cable
PTT motor c':::::',
B
Less than
8mm
-=
~ r-:::.
~
ViewB
View A
Prepared by
SUZUKI MOTOR CORPORATION
Marine & Power Products Division
September, 2004
Manual No.9950l-87J40-01E
Printed in Japan
52
Printed in Japan
K6, K7
TK
OUTBOARD MOTOR
For 2006 and 2007 models
SUPPLEMENTARY SERVICE MANUAL
9 9 5 0 1 - 8 7 J 5 0 - 0 1 E
DF40/50 “K6” (2006) MODEL
DF40/50 “K6” (’06) MODEL 1
FOREWORD
This supplementary service manual describes the outline, technical data and servicing procedures for the “K6” (2006) models outboard motor.
Please read and throughly familiarize yourself with this information before using it for your service activities.
NOTE:
• Use this supplement with the following service manual:
DF40/50 Service Manual (P/no, 99500-87J0 • -01E)
• This Supplementary Service Manual describes the modification as for 2006 Model and also the modifications made in half way of production on 2006 Model.
CONTENTS
SPECIFICATIONS (DF40T/DF40QH/DF50T/DF50TH) ........................ 2
SPECIFICATIONS (DF50WT/DF50WQH) ............................................ 4
SERVICE DATA .................................................................................... 6
PERIODIC MAINTENANCE SCHEDULE ............................................. 13
ECM ....................................................................................................... 14
FUEL FILTER ........................................................................................ 14
IAC HOSE ............................................................................................. 14
INTAKE MANIFOLD ............................................................................. 15
PISTON ................................................................................................. 16
WATER PUMP CASE UNDER GASKET ............................................. 16
WIRING DIAGRAM ............................................................................... 17
FUEL HOSE ROUTING ........................................................................ 20
2 DF40/50 “K6” (’06) MODEL
SPECIFICATIONS (DF40T/DF40QH/DF50T/DF50TH)
Item
PRE-FIX
Unit
DF40T
04001F
DF40QH
Data
DF50T
05001F
DF50TH
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
L
Weight
(without engine oil)
S
L
Transom height
S
L mm (in) mm (in) mm (in) mm (in) kg (lbs) kg (lbs) mm
(inch type) mm
(inch type)
756 (29.8)
1 263 (49.7)
106.0 (234)
109.0 (240)
401 (15)
852 (33.5) 756 (29.8)
382 (15.0)
— 1 263 (49.7)
1 390 (54.7)
— 106.0 (234)
110.0 (243) 109.0 (240)
— 401 (15)
852 (33.5)
—
—
113.0 (249)
—
528 (20)
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
Except E01
E01 kW (PS) r/min r/min
29.4 (40)
5 200 – 5 800
5 600 – 6 200
36.8 (50)
5 900 – 6 500
850 ± 50 (in-gear: approx. 850)
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control mm (in) mm (in) cm 3 (cu in)
: 1
NGK
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Remote control
Water cooled
Wet sump by trochoid pump
Electric
Twist grip
Remote control
Twist grip
DF40/50 “K6” (’06) MODEL 3
FUEL & OIL
Fuel
Item
Engine oil
Engine oil amounts
Gear oil
Gearcase oil amounts
BRACKET
Trim angle
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
Gear ratio
Drive line impact protection
Propeller
S: Aluminum propeller
SS: Stainless steel propeller
Unit
DF40T DF40QH
Data
DF50T DF50TH
L (US/lmp. qt)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 ((R+M)/2 method) or 91 (Research method).
However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil
(SAE #90 hypoid gear oil) ml
(US/lmp. oz)
610 (20.6/21.5)
Degrees
PTT system
PTT system
Manual trim and gas assisted tilt system
5
73
PTT system
PTT system
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.273)
Spline drive rubber hub
Blade × Diam. (in) × Pitch (in)
3 × 11-1/2 × 9 (S900)
3 × 11-1/2 × 10 (S1000)
3 × 11-1/2 × 11 (S1100)
3 × 11-5/8 × 12 (S1200)
3 × 11-1/2 × 13 (S1301, SS1300)
3 × 11-3/8 × 14 (S1400, SS1400)
3 × 11-1/4 × 15 (S1500)
3 × 11-1/8 × 16 (S1600, SS1600)
3 × 11 × 17 (S1700)
4 DF40/50 “K6” (’06) MODEL
SPECIFICATIONS (DF50WT/DF50WQH)
Unit Item
PRE-FIX
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
L
Weight
(without engine oil)
X
S
L
X
Transom height
S
L
X mm (in) mm (in) mm (in) mm (in) mm (in) kg (lbs) kg (lbs) kg (lbs) mm
(inch type) mm
(inch type) mm
(inch type)
DF50WT
05001F
756 (29.8)
1 263 (49.7)
106.0 (234)
109.0 (240)
112.0 (247)
401 (15)
Data
382 (15.0)
1 390 (54.7)
1 517 (59.7)
528 (20)
655 (25)
DF50WQH
05001F
852 (33.5)
—
—
110.0 (243)
113.0 (249)
—
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control kW (PS) r/min r/min mm (in) mm (in) cm 3 (cu. in)
: 1
NGK
36.8 (50)
5 900 – 6 500
850 ± 50 (in-gear: approx. 850)
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Water cooled
Wet sump by trochoid pump
Electric
Remote control Twist grip
DF40/50 “K6” (’06) MODEL 5
FUEL & OIL
Fuel
Item
Engine oil
Engine oil amounts
Gear oil
Gearcase oil amounts
BRACKET
Trim angle
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
Gear ratio
Drive line impact protection
Propeller
S: Aluminum propeller
SS: Stainless steel propeller
Unit
DF50WT
Data
DF50WQH
L (US/lmp. qt)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 ((R+M)/2 method) or 91 (Research method).
However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil
(SAE #90 hypoid gear oil) ml
(US/lmp. oz)
610 (20.6/21.5)
Degrees
PTT system
PTT system
73
Manual trim and gas assisted tilt system
5
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.273)
Spline drive rubber hub
Blade × Diam. (in) × Pitch (in)
3 × 11-1/2 × 9 (S900)
3 × 11-1/2 × 10 (S1000)
3 × 11-1/2 × 11 (S1100)
3 × 11-5/8 × 12 (S1200)
3 × 11-1/2 × 13 (S1301, SS1300)
3 × 11-3/8 × 14 (S1400, SS1400)
3 × 11-1/4 × 15 (S1500)
3 × 11-1/8 × 16 (S1600, SS1600)
3 × 11 × 17 (S1700)
6 DF40/50 “K6” (’06) MODEL
SERVICE DATA
Data
Item Unit
DF40 DF50
POWERHEAD
Recommended operating range
Idle speed
**Cylinder compression
Except E01
E01 r/min
5 200 – 5 800
5 900 – 6 500
5 600 – 6 200
850 ± 50 (in-gear: approx. 850) r/min kPa
(kg/cm 2 , psi)
1 300 – 1 600 (13 – 16, 185 – 228)
**Cylinder compression max.
difference between any other
cylinders
**Engine oil pressure kPa
(kg/cm 2 , psi)
100 (1.0, 14)
Engine oil
Engine oil amounts kPa
(kg/cm 2 , psi)
L (US/lmp. qt)
300 – 380 (3.0 – 3.8, 43 – 54) at 4 000 r/min
(at normal operating temp.)
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
58 – 62 (136 – 144) Thermostat operating temperature °C (°F)
** Figures shown are guidelines only, not absolute service limits.
ENGINE OIL PUMP
Radial clearance
Side clearance
Limit
Limit mm (in) mm (in)
0.31 (0.012)
0.15 (0.006)
DF40/50 “K6” (’06) MODEL 7
Data
Item Unit
DF40 DF50
CYLINDER HEAD/CAMSHAFT
Limit Cylinder head distortion
Manifold seating faces distortion
Cam height
Limit
STD
IN
Limit
Camshaft journal oil clearance
Camshaft journal
(housing) inside diameter
STD
EX
Limit
STD
Limit
Top,
2nd,
3rd,
4th
STD
Limit
Camshaft journal outside diameter
Top,
2nd,
3rd,
4th
STD
Limit
Limit Camshaft runout
Cylinder head bore to tappet clearance
STD
Limit
Tappet outer diameter
Cylinder head bore
STD
STD mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
0.05 (0.002)
0.10 (0.004)
*37.530 – 37.690
(1.4776 – 1.4839)
*37.430 (1.4736)
37.740 – 37.900
(1.4858 – 1.4921)
38.230 – 38.390
(1.5051 – 1.5114)
38.130 (1.5012)
37.740 – 37.900
(1.4858 – 1.4921)
37.640 (1.4819) 37.640 (1.4819)
0.045 – 0.087 (0.0018 – 0.0034)
0.120 (0.0047)
23.000 – 23.021 (0.9055 – 0.9063)
23.171 (0.9122)
22.934 – 22.955 (0.9029 – 0.9037)
22.784 (0.8970)
0.10 (0.004)
0.025 – 0.062 (0.0010 – 0.0024)
0.150 (0.0059)
26.959 – 26.975 (1.0614 – 1.0620)
27.000 – 27.021 (1.0630 – 1.0638)
* On DF40 designated for EU market (E01), specifications of cam height are the same as the
specifications for DF50.
8 DF40/50 “K6” (’06) MODEL
Item Unit
VALVE/VALVE GUIDE
Valve diameter IN
EX
IN STD
Tappet clearance
(Cold engine condition)
EX STD
Valve seat angle
Valve guide to valve stem clearance
Valve guide inside diameter
Valve guide protrusion
Valve stem outside diameter
IN
EX
STD
IN
EX
Limit
STD
Limit
IN,
EX
IN,
EX
STD
STD
IN STD
EX STD
Valve stem end length IN,
EX
Valve stem end deflection
IN
Limit
Limit
EX Limit
Valve stem runout
Valve head radial runout
IN,
EX
IN,
EX
Limit
Limit
Valve head thickness
IN
EX
STD
Limit
STD
Limit
Valve seat contact width
IN STD
Valve spring free length
EX STD
STD
Valve spring tension
Valve spring sequareness
Limit
STD
Limit
Limit mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
N (kg, lbs)
N (kg, lbs) mm (in) mm (in) mm (in) mm (in) mm (in)
—
— mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
DF40
Data
DF50
24.6 (0.97)
21.5 (0.85)
0.18 – 0.24 (0.007 – 0.009)
0.18 – 0.24 (0.007 – 0.009)
30°, 45°
15°, 45°
0.020 – 0.047 (0.0008 – 0.0019)
0.070 (0.0028)
0.045 – 0.072 (0.0018 – 0.0028)
0.090 (0.0035)
5.500 – 5.512 (0.2165 – 0.2170)
11.0 (0.43)
5.465 – 5.480 (0.2152 – 0.2157)
5.440 – 5.455 (0.2142 – 0.2148)
3.20 (0.126)
0.14 (0.006)
0.18 (0.007)
0.05 (0.002)
0.08 (0.003)
1.0 (0.04)
0.7 (0.03)
1.15 (0.045)
0.5 (0.02)
1.80 – 2.20 (0.071 – 0.087)
1.65 – 2.05 (0.065 – 0.081)
33.1 (1.30)
31.8 (1.25)
97 – 113 (9.7 – 11.3, 21.4 – 24.9) for 28.5 mm (1.12 in)
89 (8.9, 19.6) for 28.5 mm (1.12 in)
2.0 (0.08)
Item Unit
CYLINDER/PISTON/PISTON RING
Cylinder distortion Limit
Piston to cylinder clearance STD
Cylinder bore
Cylinder measuring position
Limit
STD
STD Piston skirt diameter
Piston measuring position
Cylinder bore wear
Piston ring end gap
1st
Piston ring free end gap
2nd
1st
Limit
STD
Limit
STD
Limit
STD
Piston ring to groove clearance
2nd
1st
Limit
STD
Limit
STD
Limit
Piston ring groove width
STD
2nd
Limit
1st STD
2nd STD
Oil STD
Piston ring thickness 1st STD
2nd STD
Pin clearance in piston pin hole
STD
Limit
Piston pin outside diameter STD
Limit
Piston pin hole diameter STD
Limit
Pin clearance in conrod small end
Conrod small end bore
STD
Limit
STD mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
DF40/50 “K6” (’06) MODEL 9
Data
DF40 DF50
0.060 (0.0024)
0.020 – 0.040 (0.0008 – 0.0016)
0.100 (0.0039)
71.000 – 71.020 (2.7953 – 2.7961)
50 (2.0) from cylinder top surface
70.970 – 70.990 (2.7941 – 2.7949)
19 (0.7) from piston skirt end
0.100 (0.0039)
0.10 – 0.25 (0.004 – 0.010)
0.70 (0.028)
0.25 – 0.40 (0.010 – 0.016)
1.00 (0.039)
Approx. 7.5 (0.30)
6.0 (0.24)
Approx. 11.0 (0.43)
8.8 (0.35)
0.02 – 0.06 (0.001 – 0.002)
0.10 (0.004)
0.02 – 0.06 (0.001 – 0.002)
0.10 (0.004)
1.01 – 1.03 (0.040 – 0.041)
1.01 – 1.03 (0.040 – 0.041)
2.01 – 2.03 (0.079 – 0.080)
0.97 – 0.99 (0.038 – 0.039)
0.97 – 0.99 (0.038 – 0.039)
0.006 – 0.018 (0.0002 – 0.0007)
0.040 (0.0016)
17.996 – 18.000 (0.7085 – 0.7087)
17.980 (0.7079)
18.006 – 18.014 (0.7089 – 0.7092)
18.040 (0.7102)
0.003 – 0.015 (0.0001 – 0.0006)
0.050 (0.0020)
18.003 – 18.011 (0.7088 – 0.7091)
10 DF40/50 “K6” (’06) MODEL
Item Unit
CRANKSHAFT/CONROD
Conrod small end inside diameter
STD
Conrod big end oil clearance STD
Limit
Conrod big end inside diameter
STD
Crank pin outside diameter STD
Crank pin outside diameter difference
(out-of-round and taper)
Limit
Conrod bearing thickness
Conrod big end side clearance
Conrod big end width
Crank pin width
Crankshaft center journal runout
Crankshaft journal oil clearance
STD
STD
Limit
STD
STD
Limit
STD
Limit
Crankcase bearing holder inside diameter
Crankshaft journal outside diameter
Crankshaft journal outside diameter difference
(out-of-round and taper)
Crankshaft bearing thickness
Crankshaft thrust play
STD
STD
Limit
STD
STD
Limit
Crankshaft thrust bearing thickness
STD mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
LOWER UNIT
Design specification thickness for shim & washer.
Pinion gear back-up shim
Forward gear back-up shim
Forward gear thrust washer
Reverse gear thrust washer
Reverse gear back-up shim mm (in) mm (in) mm (in) mm (in) mm (in)
Data
DF40 DF50
18.003 – 18.011 (0.7088 – 0.7091)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
41.000 – 41.018 (1.6142 – 1.6149)
37.982 – 38.000 (1.4954 – 1.4961)
0.010 (0.0004)
1.486 – 1.502 (0.0585 – 0.0591)
0.100 – 0.250 (0.0039 – 0.0098)
0.350 (0.0138)
21.950 – 22.000 (0.8642 – 0.8661)
22.100 – 22.200 (0.8700 – 0.8740)
0.04 (0.002)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
49.000 – 49.018 (1.9291 – 1.9298)
44.982 – 45.000 (1.7709 – 1.7717)
0.010 (0.0004)
1.999 – 2.015 (0.0787 – 0.0793)
0.11 – 0.31 (0.004 – 0.012)
0.35 (0.014)
2.470 – 2.520 (0.0972 – 0.0992)
1.0 (0.04)
1.0 (0.04)
2.0 (0.08)
2.0 (0.08)
1.0 (0.04)
DF40/50 “K6” (’06) MODEL 11
Item Unit
ELECTRICAL
Ignition timing Except E01
E01
Degrees
Over revolution limiter Except E01 r/min
E01
CKP sensor resistance
CMP sensor resistance
Ignition coil resistance Primary
Ω
at 20 °C
Ω
at 20 °C
Ω
at 20 °C
Secondary k
Ω
at 20 °C
Battery charge coil resistance
Ω
at 20 °C
Battery charge coil output (12 V) Watt
Standard spark plug Type
Gap
Fuse amp. rating
Recommended battery capacity
(12 V)
Fuel injector resistance
IAC valve resistance
IAT sensor/Cylinder temp. sensor/
Ex-mani. temp. sensor
(Thermistor characteristic)
ECM main relay resistance
Starter motor relay resistance
PTT motor relay resistance k
Ω
Ω
Ω
at 25 °C
Ω
Ω
Ω
NGK mm (in)
A
Ah (kC)
at 20 °C
at 20 °C
at 20 °C
at 20 °C
at 20 °C
STARTER MOTOR
Max. continuous time of use
Motor output
Brush length
Commutator undercut
Commutator outside diameter
Commutator outside diameter difference
Pinion to ring gear gap
STD
Limit
STD
Limit
STD
Limit
STD
Limit
STD
Sec.
kW mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
DF40
Data
30
1.4
15.5 (0.61)
9.5 (0.37)
0.5 – 0.8 (0.02 – 0.03)
0.2 (0.01)
29.0 (1.14)
28.0 (1.10)
0.05 (0.002)
0.40 (0.016)
3.0 – 5.0 (0.12 – 0.20)
DF50
ATDC 1° – BTDC 27°
ATDC 1° – BTDC 19°
6 500
6 800
168 – 252
—
1.9 – 2.5
8.1 – 11.1
0.56 – 0.84
ATDC 1° – BTDC 24°
ATDC 1° – BTDC 23°
6 700
216
DCPR6E
0.8 – 0.9 (0.031 – 0.035)
Main fuse: 30
70 (252) or larger
11.0 – 16.5
21.5 – 32.3
1.8 – 2.3
145 – 190
145 – 190
25 – 37
12 DF40/50 “K6” (’06) MODEL
PTT MOTOR
Brush length
Commutator outside diameter
STD
Limit
STD
Limit mm (in) mm (in) mm (in) mm (in)
9.8 (0.39)
4.8 (0.19)
22.0 (0.87)
21.0 (0.83)
SELF-DIAGNOSTIC SYSTEM INDICATION
When the abnormality occurs in a signal from sensor, switch, etc., the “CHECK ENGINE” lamp on the monitor-tachometer flashes (lights intermittently) according to the each code pattern with buzzer sounding.
PRIORITY FAILED ITEM CODE LAMP FLASHING PATTERN
FAIL-SAFE SYSTEM
ACTIVATING
1 MAP sensor 1 3 – 4 on off
YES
2
3
CKP sensor
IAC valve/By-pass air screw adjustment
4 – 2 on off
3 – 1 on off
YES
NO
4
5
CMP sensor
CTP switch
2 – 4 on off
2 – 2 on off
YES
NO
6 Cylinder temp. sensor 1 – 4 on off
YES
7 IAT sensor 2 – 3 on off
YES
8
9
10
11
MAP sensor 2
(Sensor hose)
Rectifier & regulator
(Over-charging)
Exhaust manifold temp.
sensor
Fuel injector
(Open circuit)
3 – 2
1 – 1
1 – 5
4 – 3 on off on off on off on off
NO
NO
YES
NO
NOTE:
• If more than two items fail at once, the self-diagnostic indication appears according to priority order.
The indication repeats three times.
• On the tiller handle (QH and TH) model, alerts is signaled by a sound from the caution buzzer contained in the tiller handle.
DF40/50 “K6” (’06) MODEL 13
PERIODIC MAINTENANCE SCHEDULE
The chart below lists the recommended intervals for all the required periodic service work necessary to keep the motor operating at peak performance and economy.
Maintenance intervals should be judged by number of hours or months, whichever comes first.
NOTE:
More frequent servicing should be performed on outboard motors that are used under severe conditions.
PERIODIC MAINTENANCE CHART
Item to be serviced
Spark plug
Interval Initial 20 hrs. or 1 month
—
I
Breather hose & Fuel line
Engine oil
Gear oil
Lubrication
Anodes & Bonding wires
Battery
Fuel mixture check
(O
2
feedback)
Engine oil filter
R
R
—
—
—
Every 50 hrs. or 3 months
I
I
—
—
I
Every 100 hrs. or 6 months
— I
I I
Replace every 2 years.
R
R
I
I
I
Perform every 2 years.
Low pressure fuel filter
High pressure fuel filter
Ignition timing
Idle speed
Tappet clearance
Water pump
Water pump impeller
Propeller nut & pin
Bolt & Nuts
R
—
—
I
—
—
—
I
T
—
I
—
I
Replace every 400 hours or 2 years.
Replace every 1000 hours.
—
—
—
—
—
—
—
—
—
—
—
—
I
T
I: Inspect and clean, adjust, lubricate or replace, if necessary T: Tighten R: Replace
Every 200 hrs. or 12 months
R
I
R
R
R
I
I
I
I
I
I
I
I
R
I
T
* The maintenance interval of tappet clearance has been changed.
Inspect initially after 20 hours (1 month) and every 200 hours (12 months).
Inspect every 200 hours (12 months).
14 DF40/50 “K6” (’06) MODEL
ECM
The ECM has been changed in program.
FUEL FILTER
A new style fuel filter will be used that provides a drain feature.
This new filter requires several new components shown below and a new mounting bracket to retain the filter onto the outboard.
Inspect the fuel filter regularly.
If any water and impurities exists in the fuel filter, remove the drain cap and drain the water and impurities.
Fuel filter
Fuel filter bracket
Fuel filter
Clip
Drain cap
Fuel fiter clamp
Fuel filter bracket
IAC HOSE
The inhalation location of air of IAC was changed from silencer case to atmospherer.
The IAC hose has been changed in length and routing.
The silencer cap, IAC hose clamp, hose clamp and clamp bolt have also been added.
Silencer cap
IAC hose
IAC valve silencer
IAC hose
IAC valve silencer
DF40/50 “K6” (’06) MODEL 15
IAC HOSE ROUTING
IAC hose clamp
Clamp bolt
ECM
Hose clamp
IAC hose
IAC hose clamp
INTAKE MANIFOLD
The intake manifold has been changed in shape and the plug and gasket have been eliminated.
Plug
Gasket
16 DF40/50 “K6” (’06) MODEL
PISTON
The alumite treatment has newly been added to the 1st ring groove on the piston.
The location of the 1st ring groove has also been changed.
WATER PUMP CASE UNDER GASKET
The water pump case under gasket has been changed in shape.
Thickness of gasket has been changed from 0.5 mm to 0.6 mm.
4 mm
14 mm
WIRING DIAGRAM
DF40T/DF50T/DF50WT (REMOTE CONTROL MODEL)
R/G R/G R/G R/G R/G
B B
R/G R/G R/G
B B
R/G R/G R/G
BUZZER RESET
DF40/50 “K6” (’06) MODEL 17
Bl Bl Bl
W W
R R
B/W B/W B/W
B B
B B Lg/W Lg/W
B/W B/W B/W
W/R W/R W/R
P P
Lbl Lbl
P P
W/R W/R W/R
Lbl Lbl
Y Y
B/G B/G B/G
O/Y O/Y O/Y
Gr Gr Gr
B B
R R
R R
R R
R R
B B
R R
Gr Gr Gr
Y/B Y/B
O O
G/W G/W
Bl/R Bl/R
G/W
Bl/R
P/W P/W
Br Br Br
Bl/B Bl/B Bl/B
G/Y G/Y G/Y
Lg/B Lg/B
Bl/W
Lg/B
Bl/W
Dg Dg Dg
B/W B/W B/W
B/R B/R B/R
Lg/R Lg/R Lg/R
P/B P/B
W W
R R
Bl Bl
B
B
B
B
R/B R/B R/B
Lg/W Lg/W Lg/W
O/G O/G O/G
V/W V/W
Bl Bl
G G
B
B
B
B
O O
B/W B/W B/W
O/B O/B O/B
B/Y B/Y
R/W R/W R/W
Y Y
B/G B/G B/G
O/Y O/Y O/Y
B/R B/R B/R
Gr Gr Gr
B B
R R
B/W B/W
W/Y W/Y
B/W
W/Y
B B
W/Y W/Y W/Y
B B
Gr Gr Gr
Gr Gr Gr
W W
W W
P/B P/B
Y/G Y/G
R R
R R
Dg Dg Dg
Y
Y
Y
Y
Y Y
B B
W W
18 DF40/50 “K6” (’06) MODEL
DF50TH (TILLER HANDLE MODEL)
Bl Bl
W W
R R
B/W B/W
B
B
B
B
B/W B/W
Lg/W Lg/W
W/R W/R
P P
Lbl Lbl
P P
W/R W/R
Lbl Lbl
Y Y
B/G B/G
O/Y O/Y
B B
Gr Gr
R R
R R
R
R
R
R
B B
R R
Gr Gr W W
Gr Gr
Gr Gr
O O
Br Br
Gr Gr
Gr Gr
O O
W W
R R
Bl Bl
B
B
B
B
R/B R/B
Lg/W Lg/W
O/G O/G
V/W V/W
Br Br
Bl/B
G/Y
Bl/B
G/Y
P/W P/W
O O
Y/B Y/B
Gr Gr
G/W
Bl/R
G/W
Bl/R
Lg/B
Bl/W
Lg/B
Bl/W
B/R B/R
Lg/R
B/W
Lg/R
B/W
Dg Dg
P/B P/B
Bl Bl
G G
B
B
O
B
O
B
B/W B/W
O/B O/B
B/Y B/Y
R/W R/W
Y Y
B/G B/G
O/Y O/Y
B/R B/R
Gr Gr
B B
R R
B B
Gr Gr
W
W
W
W
Gr Gr
P/B P/B
R R
R R
Y/G Y/G
Dg Dg
W W
Y
Y
Y
B
Y
Y
Y
B
DF40QH/DF50QH/DF50WQH (TILLER HANDLE MODEL)
DF40/50 “K6” (’06) MODEL 19
Bl Bl
W W
R R
B/W B/W
B
B
B
B
B/W B/W
Lg/W Lg/W
Y Y
B/G B/G
O/Y O/Y
B B
Gr Gr
R R
R R
R R
B B
R R
W W
Gr Gr
Gr Gr
O O
Br Br
Gr Gr
Gr Gr
O O
W W
R R
Bl Bl
B
B
B
B
R/B R/B
Lg/W Lg/W
O/G O/G
V/W V/W
O O
Y/B Y/B
Gr Gr
G/W
Bl/R
G/W
Bl/R
P/W
Bl/W
P/W
Bl/W
Br Br
Bl/B
G/Y
Bl/B
G/Y
Lg/B
B/W
Lg/B
B/W
Dg Dg
B/R B/R
Lg/R Lg/R
Bl Bl
G G
B
B
O
B
O
B
B/W B/W
O/B O/B
B/Y B/Y
R/W R/W
P/B P/B
Y Y
B/G B/G
O/Y O/Y
B/R B/R
Gr Gr
B B
R R
Gr Gr
W
W
W
W
Gr Gr
P/B P/B
Y/G Y/G
R R
R R
Dg Dg
W W
Y
Y
Y
B
Y
Y
Y
B
20 DF40/50 “K6” (’06) MODEL
FUEL HOSE ROUTING
Clamp
Breather hose
Water return hose
Fuel hose/Protector
(Fuel filter to
L·fuel pump)
Fuel filter
Water hose
(3-way joint to
Pilot water hole)
Fuel hose
(Pump to separator)
Evaporation hose
Fuel filter
IAC hose
Hose clamp
Clamp
Water hose (Engine holder to 3-way joint)
Water hose (Engine holder to Vapor separator)
Fuel hose
(Vapor separator to H·fuel filter
Clamp
High pressure fuel filter
Evaporation hose
(3-way to fuel filter)
Fuel hose/Protector
(Low fuel pump to vapor separator)
Clamp
Low pressure fuel pump
Fuel hose/Protector
(3-way joint to vapor separator)
Water hose
(3-way to vapor separator)
Water hose
(Engine holder to vapor separator)
High pressure fuel filter
Fuel hose/Protector
(H filter to 3-way joint)
Clamp
3-way joint
Fuel hose/Protector
(3-way to vapor separator)
DF40/50 “K6” (’06) MODEL 21
Low pressure fuel pump
Fuel filter
Fuel hose/Protector
(Fuel filter to low fuel pump)
3-way
Water hose
(3-way to pilot water hole)
22 DF40/50 “K6” (’06) MODEL
Fuel hose/Protector
(H·fuel filter to 3-way joint)
High pressure fuel filter
Fuel hose
(H·fuel filter to vapor separator)
MAP sensor
MAP sensor hose
Throttle body
3-way joint
IAC hose
Gas filter
Vapor separator
Fuel hose/Protector
(3-way joint to vapor separator)
Map sensor
IAC valve
IAC valve silencer
High pressure fuel filter
Clamp
Fuel hose/Protector
(Vapor separator to
low fuel pump)
Fuel hose/Protector
(H·fuel filter to
3-way joint)
3-way joint
Clamp
Water hose
(Vapor separator to 3-way)
Water hose
(Engine holder to vapor separator)
Fuel hose/Protector
(3-way joint to vapor separator)
DF40/50 “K7” (2007) MODEL
DF40/50 “K7” (’07) MODEL 1
FOREWORD
This supplementary service manual describes the outline, technical data and servicing procedures for the “K7” (2007) models outboard motor.
Please read and throughly familiarize yourself with this information before using it for your service activities.
NOTE:
• Use this supplement with the following service manual:
DF40/50 Service Manual (P/no, 99500-87J0 • -01E)
• This Supplementary Service Manual describes the modification as for 2007 Model and also the modifications made in half way of production on 2007 Model.
CONTENTS
SPECIFICATIONS (DF40T/DF40QH/DF50T/DF50TH) ........................ 2
SPECIFICATIONS (DF50WT/DF50WQH) ............................................ 4
SERVICE DATA .................................................................................... 6
TIGHTENING TORQUE ......................................................................... 13
PERIODIC MAINTENANCE SCHEDULE ............................................. 14
ECM ....................................................................................................... 15
SILENCER ............................................................................................ 15
TILLER HANDLE (DF40QH, DF50QH AND DF50WQH) ..................... 16
CLUTCH SHAFT ARM AND CLUTCH SHAFT SIDE ARM ................. 18
DETENT SPRING AND SHIFT CAM .................................................... 18
CLUTCH DOG SHIFTER AND RETURN SPRING ............................... 18
ENGINE SIDE COVER .......................................................................... 19
2 DF40/50 “K7” (’07) MODEL
SPECIFICATIONS (DF40T/DF40QH/DF50T/DF50TH)
Item
PRE-FIX
Unit
DF40T
04001F
DF40QH
Data
DF50T
05001F
DF50TH
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
L
Weight
(without engine oil)
S
L
Transom height
S
L mm (in) mm (in) mm (in) mm (in) kg (lbs) kg (lbs) mm
(inch type) mm
(inch type)
756 (29.8)
1 263 (49.7)
106.0 (234)
109.0 (240)
401 (15)
852 (33.5) 756 (29.8)
382 (15.0)
— 1 263 (49.7)
1 390 (54.7)
— 106.0 (234)
110.0 (243) 109.0 (240)
— 401 (15)
852 (33.5)
—
—
113.0 (249)
—
528 (20)
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
Except E01
E01 kW (PS) r/min r/min
29.4 (40)
5 200 – 5 800
5 600 – 6 200
36.8 (50)
5 900 – 6 500
850 ± 50 (in-gear: approx. 850)
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control mm (in) mm (in) cm 3 (cu in)
: 1
NGK
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Remote control
Water cooled
Wet sump by trochoid pump
Electric
Twist grip
Remote control
Twist grip
DF40/50 “K7” (’07) MODEL 3
FUEL & OIL
Fuel
Item
Engine oil
Engine oil amounts
Gear oil
Gearcase oil amounts
BRACKET
Trim angle
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
Gear ratio
Drive line impact protection
Propeller
S: Aluminum propeller
SS: Stainless steel propeller
Unit
DF40T DF40QH
Data
DF50T DF50TH
L (US/lmp. qt)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 ((R+M)/2 method) or 91 (Research method).
However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil
(SAE #90 hypoid gear oil) ml
(US/lmp. oz)
610 (20.6/21.5)
Degrees
PTT system
PTT system
Manual trim and gas assisted tilt system
5
73
PTT system
PTT system
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.273)
Spline drive rubber hub
Blade × Diam. (in) × Pitch (in)
3 × 11-1/2 × 9 (S900)
3 × 11-1/2 × 10 (S1000)
3 × 11-1/2 × 11 (S1100)
3 × 11-5/8 × 12 (S1200)
3 × 11-1/2 × 13 (S1301, SS1300)
3 × 11-3/8 × 14 (S1400, SS1400)
3 × 11-1/4 × 15 (S1500)
3 × 11-1/8 × 16 (S1600, SS1600)
3 × 11 × 17 (S1700)
4 DF40/50 “K7” (’07) MODEL
SPECIFICATIONS (DF50WT/DF50WQH)
Unit Item
PRE-FIX
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
L
Weight
(without engine oil)
X
S
L
X
Transom height
S
L
X mm (in) mm (in) mm (in) mm (in) mm (in) kg (lbs) kg (lbs) kg (lbs) mm
(inch type) mm
(inch type) mm
(inch type)
DF50WT
05001F
756 (29.8)
1 263 (49.7)
106.0 (234)
109.0 (240)
112.0 (247)
401 (15)
Data
382 (15.0)
1 390 (54.7)
1 517 (59.7)
528 (20)
655 (25)
DF50WQH
05001F
852 (33.5)
—
—
110.0 (243)
113.0 (249)
—
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control kW (PS) r/min r/min mm (in) mm (in) cm 3 (cu. in)
: 1
NGK
36.8 (50)
5 900 – 6 500
850 ± 50 (in-gear: approx. 850)
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Water cooled
Wet sump by trochoid pump
Electric
Remote control Twist grip
DF40/50 “K7” (’07) MODEL 5
FUEL & OIL
Fuel
Item
Engine oil
Engine oil amounts
Gear oil
Gearcase oil amounts
BRACKET
Trim angle
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
Gear ratio
Drive line impact protection
Propeller
S: Aluminum propeller
SS: Stainless steel propeller
Unit
DF50WT
Data
DF50WQH
L (US/lmp. qt)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 ((R+M)/2 method) or 91 (Research method).
However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil
(SAE #90 hypoid gear oil) ml
(US/lmp. oz)
610 (20.6/21.5)
Degrees
PTT system
PTT system
73
Manual trim and gas assisted tilt system
5
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.273)
Spline drive rubber hub
Blade × Diam. (in) × Pitch (in)
3 × 11-1/2 × 9 (S900)
3 × 11-1/2 × 10 (S1000)
3 × 11-1/2 × 11 (S1100)
3 × 11-5/8 × 12 (S1200)
3 × 11-1/2 × 13 (S1301, SS1300)
3 × 11-3/8 × 14 (S1400, SS1400)
3 × 11-1/4 × 15 (S1500)
3 × 11-1/8 × 16 (S1600, SS1600)
3 × 11 × 17 (S1700)
6 DF40/50 “K7” (’07) MODEL
SERVICE DATA
Data
Item Unit
DF40 DF50
POWERHEAD
Recommended operating range
Idle speed
**Cylinder compression
Except E01
E01 r/min
5 200 – 5 800
5 900 – 6 500
5 600 – 6 200
850 ± 50 (in-gear: approx. 850) r/min kPa
(kg/cm 2 , psi)
1 300 – 1 600 (13 – 16, 185 – 228)
**Cylinder compression max.
difference between any other
cylinders
**Engine oil pressure kPa
(kg/cm 2 , psi)
100 (1.0, 14)
Engine oil
Engine oil amounts kPa
(kg/cm 2 , psi)
L (US/lmp. qt)
300 – 380 (3.0 – 3.8, 43 – 54) at 4 000 r/min
(at normal operating temp.)
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
58 – 62 (136 – 144) Thermostat operating temperature °C (°F)
** Figures shown are guidelines only, not absolute service limits.
ENGINE OIL PUMP
Radial clearance
Side clearance
Limit
Limit mm (in) mm (in)
0.31 (0.012)
0.15 (0.006)
DF40/50 “K7” (’07) MODEL 7
Data
Item Unit
DF40 DF50
CYLINDER HEAD/CAMSHAFT
Limit Cylinder head distortion
Manifold seating faces distortion
Cam height
Limit
STD
IN
Limit
Camshaft journal oil clearance
Camshaft journal
(housing) inside diameter
STD
EX
Limit
STD
Limit
Top,
2nd,
3rd,
4th
STD
Limit
Camshaft journal outside diameter
Top,
2nd,
3rd,
4th
STD
Limit
Limit Camshaft runout
Cylinder head bore to tappet clearance
STD
Limit
Tappet outer diameter
Cylinder head bore
STD
STD mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
0.05 (0.002)
0.10 (0.004)
*37.530 – 37.690
(1.4776 – 1.4839)
*37.430 (1.4736)
37.740 – 37.900
(1.4858 – 1.4921)
38.230 – 38.390
(1.5051 – 1.5114)
38.130 (1.5012)
37.740 – 37.900
(1.4858 – 1.4921)
37.640 (1.4819) 37.640 (1.4819)
0.045 – 0.087 (0.0018 – 0.0034)
0.120 (0.0047)
23.000 – 23.021 (0.9055 – 0.9063)
23.171 (0.9122)
22.934 – 22.955 (0.9029 – 0.9037)
22.784 (0.8970)
0.10 (0.004)
0.025 – 0.062 (0.0010 – 0.0024)
0.150 (0.0059)
26.959 – 26.975 (1.0614 – 1.0620)
27.000 – 27.021 (1.0630 – 1.0638)
* On DF40 designated for EU market (E01), specifications of cam height are the same as the
specifications for DF50.
8 DF40/50 “K7” (’07) MODEL
Item Unit
VALVE/VALVE GUIDE
Valve diameter IN
EX
IN STD
Tappet clearance
(Cold engine condition)
EX STD
Valve seat angle
Valve guide to valve stem clearance
Valve guide inside diameter
Valve guide protrusion
Valve stem outside diameter
IN
EX
STD
IN
EX
Limit
STD
Limit
IN,
EX
IN,
EX
STD
STD
IN STD
EX STD
Valve stem end length IN,
EX
Valve stem end deflection
IN
Limit
Limit
EX Limit
Valve stem runout
Valve head radial runout
IN,
EX
IN,
EX
Limit
Limit
Valve head thickness
IN
EX
STD
Limit
STD
Limit
Valve seat contact width
IN STD
Valve spring free length
EX STD
STD
Valve spring tension
Valve spring sequareness
Limit
STD
Limit
Limit mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
N (kg, lbs)
N (kg, lbs) mm (in) mm (in) mm (in) mm (in) mm (in)
—
— mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
DF40
Data
DF50
24.6 (0.97)
21.5 (0.85)
0.18 – 0.24 (0.007 – 0.009)
0.18 – 0.24 (0.007 – 0.009)
30°, 45°
15°, 45°
0.020 – 0.047 (0.0008 – 0.0019)
0.070 (0.0028)
0.045 – 0.072 (0.0018 – 0.0028)
0.090 (0.0035)
5.500 – 5.512 (0.2165 – 0.2170)
11.0 (0.43)
5.465 – 5.480 (0.2152 – 0.2157)
5.440 – 5.455 (0.2142 – 0.2148)
3.20 (0.126)
0.14 (0.006)
0.18 (0.007)
0.05 (0.002)
0.08 (0.003)
1.0 (0.04)
0.7 (0.03)
1.15 (0.045)
0.5 (0.02)
1.80 – 2.20 (0.071 – 0.087)
1.65 – 2.05 (0.065 – 0.081)
33.1 (1.30)
31.8 (1.25)
97 – 113 (9.7 – 11.3, 21.4 – 24.9) for 28.5 mm (1.12 in)
89 (8.9, 19.6) for 28.5 mm (1.12 in)
2.0 (0.08)
Item Unit
CYLINDER/PISTON/PISTON RING
Cylinder distortion Limit
Piston to cylinder clearance STD
Cylinder bore
Cylinder measuring position
Limit
STD
STD Piston skirt diameter
Piston measuring position
Cylinder bore wear
Piston ring end gap
1st
Piston ring free end gap
2nd
1st
Limit
STD
Limit
STD
Limit
STD
Piston ring to groove clearance
2nd
1st
Limit
STD
Limit
STD
Limit
Piston ring groove width
STD
2nd
Limit
1st STD
2nd STD
Oil STD
Piston ring thickness 1st STD
2nd STD
Pin clearance in piston pin hole
STD
Limit
Piston pin outside diameter STD
Limit
Piston pin hole diameter STD
Limit
Pin clearance in conrod small end
Conrod small end bore
STD
Limit
STD mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
DF40/50 “K7” (’07) MODEL 9
Data
DF40 DF50
0.060 (0.0024)
0.020 – 0.040 (0.0008 – 0.0016)
0.100 (0.0039)
71.000 – 71.020 (2.7953 – 2.7961)
50 (2.0) from cylinder top surface
70.970 – 70.990 (2.7941 – 2.7949)
19 (0.7) from piston skirt end
0.100 (0.0039)
0.10 – 0.25 (0.004 – 0.010)
0.70 (0.028)
0.25 – 0.40 (0.010 – 0.016)
1.00 (0.039)
Approx. 7.5 (0.30)
6.0 (0.24)
Approx. 11.0 (0.43)
8.8 (0.35)
0.02 – 0.06 (0.001 – 0.002)
0.10 (0.004)
0.02 – 0.06 (0.001 – 0.002)
0.10 (0.004)
1.01 – 1.03 (0.040 – 0.041)
1.01 – 1.03 (0.040 – 0.041)
2.01 – 2.03 (0.079 – 0.080)
0.97 – 0.99 (0.038 – 0.039)
0.97 – 0.99 (0.038 – 0.039)
0.006 – 0.018 (0.0002 – 0.0007)
0.040 (0.0016)
17.996 – 18.000 (0.7085 – 0.7087)
17.980 (0.7079)
18.006 – 18.014 (0.7089 – 0.7092)
18.040 (0.7102)
0.003 – 0.015 (0.0001 – 0.0006)
0.050 (0.0020)
18.003 – 18.011 (0.7088 – 0.7091)
10 DF40/50 “K7” (’07) MODEL
Item Unit
CRANKSHAFT/CONROD
Conrod small end inside diameter
STD
Conrod big end oil clearance STD
Limit
Conrod big end inside diameter
STD
Crank pin outside diameter STD
Crank pin outside diameter difference
(out-of-round and taper)
Limit
Conrod bearing thickness
Conrod big end side clearance
Conrod big end width
Crank pin width
Crankshaft center journal runout
Crankshaft journal oil clearance
STD
STD
Limit
STD
STD
Limit
STD
Limit
Crankcase bearing holder inside diameter
Crankshaft journal outside diameter
Crankshaft journal outside diameter difference
(out-of-round and taper)
Crankshaft bearing thickness
Crankshaft thrust play
STD
STD
Limit
STD
STD
Limit
Crankshaft thrust bearing thickness
STD mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
LOWER UNIT
Design specification thickness for shim & washer.
Pinion gear back-up shim
Forward gear back-up shim
Forward gear thrust washer
Reverse gear thrust washer
Reverse gear back-up shim mm (in) mm (in) mm (in) mm (in) mm (in)
Data
DF40 DF50
18.003 – 18.011 (0.7088 – 0.7091)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
41.000 – 41.018 (1.6142 – 1.6149)
37.982 – 38.000 (1.4954 – 1.4961)
0.010 (0.0004)
1.486 – 1.502 (0.0585 – 0.0591)
0.100 – 0.250 (0.0039 – 0.0098)
0.350 (0.0138)
21.950 – 22.000 (0.8642 – 0.8661)
22.100 – 22.200 (0.8700 – 0.8740)
0.04 (0.002)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
49.000 – 49.018 (1.9291 – 1.9298)
44.982 – 45.000 (1.7709 – 1.7717)
0.010 (0.0004)
1.999 – 2.015 (0.0787 – 0.0793)
0.11 – 0.31 (0.004 – 0.012)
0.35 (0.014)
2.470 – 2.520 (0.0972 – 0.0992)
1.0 (0.04)
1.0 (0.04)
2.0 (0.08)
2.0 (0.08)
1.0 (0.04)
DF40/50 “K7” (’07) MODEL 11
Item Unit
ELECTRICAL
Ignition timing Except E01
E01
Degrees
Over revolution limiter Except E01 r/min
E01
CKP sensor resistance
CMP sensor resistance
Ignition coil resistance Primary
Ω
at 20 °C
Ω
at 20 °C
Ω
at 20 °C
Secondary k
Ω
at 20 °C
Battery charge coil resistance
Ω
at 20 °C
Battery charge coil output (12 V) Watt
Standard spark plug Type
Gap
Fuse amp. rating
Recommended battery capacity
(12 V)
Fuel injector resistance
IAC valve resistance
IAT sensor/Cylinder temp. sensor/
Ex-mani. temp. sensor
(Thermistor characteristic)
ECM main relay resistance
Starter motor relay resistance
PTT motor relay resistance k
Ω
Ω
Ω
at 25 °C
Ω
Ω
Ω
NGK mm (in)
A
Ah (kC)
at 20 °C
at 20 °C
at 20 °C
at 20 °C
at 20 °C
STARTER MOTOR
Max. continuous time of use
Motor output
Brush length
Commutator undercut
Commutator outside diameter
Commutator outside diameter difference
Pinion to ring gear gap
STD
Limit
STD
Limit
STD
Limit
STD
Limit
STD
Sec.
kW mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in) mm (in)
DF40
Data
30
1.4
15.5 (0.61)
9.5 (0.37)
0.5 – 0.8 (0.02 – 0.03)
0.2 (0.01)
29.0 (1.14)
28.0 (1.10)
0.05 (0.002)
0.40 (0.016)
3.0 – 5.0 (0.12 – 0.20)
DF50
ATDC 1° – BTDC 27°
ATDC 1° – BTDC 19°
6 500
6 800
168 – 252
—
1.9 – 2.5
8.1 – 11.1
0.56 – 0.84
ATDC 1° – BTDC 24°
ATDC 1° – BTDC 23°
6 700
216
DCPR6E
0.8 – 0.9 (0.031 – 0.035)
Main fuse: 30
70 (252) or larger
11.0 – 16.5
21.5 – 32.3
1.8 – 2.3
145 – 190
145 – 190
25 – 37
12 DF40/50 “K7” (’07) MODEL
PTT MOTOR
Brush length
Commutator outside diameter
STD
Limit
STD
Limit mm (in) mm (in) mm (in) mm (in)
9.8 (0.39)
4.8 (0.19)
22.0 (0.87)
21.0 (0.83)
SELF-DIAGNOSTIC SYSTEM INDICATION
When the abnormality occurs in a signal from sensor, switch, etc., the “CHECK ENGINE” lamp on the monitor-tachometer flashes (lights intermittently) according to the each code pattern with buzzer sounding.
PRIORITY FAILED ITEM CODE LAMP FLASHING PATTERN
FAIL-SAFE SYSTEM
ACTIVATING
1 MAP sensor 1 3 – 4 on off
YES
2
3
CKP sensor
IAC valve/By-pass air screw adjustment
4 – 2 on off
3 – 1 on off
YES
NO
4
5
CMP sensor
CTP switch
2 – 4 on off
2 – 2 on off
YES
NO
6 Cylinder temp. sensor 1 – 4 on off
YES
7 IAT sensor 2 – 3 on off
YES
8
9
10
11
MAP sensor 2
(Sensor hose)
Rectifier & regulator
(Over-charging)
Exhaust manifold temp.
sensor
Fuel injector
(Open circuit)
3 – 2
1 – 1
1 – 5
4 – 3 on off on off on off on off
NO
NO
YES
NO
NOTE:
• If more than two items fail at once, the self-diagnostic indication appears according to priority order.
The indication repeats three times.
• On the tiller handle (QH and TH) model, alerts is signaled by a sound from the caution buzzer contained in the tiller handle.
DF40/50 “K7” (’07) MODEL 13
TIGHTENING TORQUE
Tightening torque – Important fasteners
Cylinder head cover bolt
Cylinder head bolt
Crankcase bolt
ITEM
Conrod cap nut
Camshaft housing bolt
Camshaft timing sprocket bolt
Timing chain guide bolt
Intake manifold bolt/nut
Oil pressure switch
Intake manifold fuel main gallery
Low pressure fuel pump bolt
Thermostat cover bolt
Flywheel bolt
Starter motor mounting bolt
Engine oil filter
Engine oil drain plug
Power unit mounting bolt/nut
Driveshaft housing bolt
Upper mount nut
Upper mount cover bolt
Lower mount nut
Clamp bracket shaft nut
*Tiller handle mounting stud bolt
*Tiller handle mounting lock nut
Tiller handle pivot bolt
Tiller handle pivot nut
Water pump case nut
Gearcase bolt
Propeller shaft bearing housing bolt
Pinion nut
Propeller nut
3-way joint bolt
Upper/ lower plug
THREAD
DIAMETER
6 mm
10 mm
8 mm
10 mm
8 mm
6 mm
6 mm
6 mm
6 mm
8 mm
—
6 mm
—
8 mm
12 mm
22 mm
10 mm
10 mm
10 mm
10 mm
6 mm
8 mm
8 mm
12 mm
18 mm
6 mm
6 mm
14 mm
6 mm
8 mm
—
12 mm
8 mm
10 mm
10 mm
12 mm
17
50
55
45
8
23
23
80
43
25
50
*25
50
50
80
14
13
23
10
10
170
10
23
* Tightening torque has been changed from the 2007 year model.
N·m
TIGHTENING TORQUE kg-m Ib-ft
35
10
10
10
10
60
25
46
11
23
13
10
3.5
1.0
1.0
1.0
1.0
6.0
2.5
4.6
1.1
2.3
1.3
1.0
7.0
43.5
18.0
33.5
25.5
7.0
7.0
7.0
8.0
16.5
9.5
7.0
35 3.5
25.5
4.5
0.8
2.3
1.7
5.0
5.5
2.3
8.0
4.3
25
5.0
*2.5
1.4
1.3
2.3
5.0
5.0
8.0
1.0
1.0
17.0
1.0
2.3
32.5
6.0
16.5
12.5
36.0
40.0
16.5
58.0
31.0
18.0
36.0
*18.0
7.0
7.0
123.0
7.0
16.5
10.0
9.5
16.5
36.0
36.0
58.0
14 DF40/50 “K7” (’07) MODEL
PERIODIC MAINTENANCE SCHEDULE
The chart below lists the recommended intervals for all the required periodic service work necessary to keep the motor operating at peak performance and economy.
Maintenance intervals should be judged by number of hours or months, whichever comes first.
NOTE:
More frequent servicing should be performed on outboard motors that are used under severe conditions.
PERIODIC MAINTENANCE CHART
Item to be serviced
Spark plug
Interval Initial 20 hrs. or 1 month
—
I
Breather hose & Fuel line
Engine oil
Gear oil
Lubrication
Anodes & Bonding wires
Battery
Engine oil filter
Low pressure fuel filter
High pressure fuel filter
Ignition timing
Idle speed
Tappet clearance
Water pump
Water pump impeller
Propeller nut & pin
Bolt & Nuts
R
R
—
—
—
R
—
—
I
—
—
—
I
T
Every 50 hrs. or 3 months
Every 100 hrs. or 6 months
— I
I I
Replace every 2 years.
I
I
—
—
I
I
R
R
I
—
I
—
I I
Replace every 400 hours or 2 years.
Replace every 1000 hours.
— —
—
—
—
—
—
—
—
—
—
—
I
T
Every 200 hrs. or 12 months
R
I
R
R
R
I
I
I
I
I
I
I
R
I
I
T
I: Inspect and clean, adjust, lubricate or replace, if necessary T: Tighten R: Replace
* The fuel mixture check (O
2
feedback) has been abolished.
In accordance with this change, the item of “Fuel mixture check (O
2
feedback)” was deleted.
ECM
The warning memory condition program on ECM has been changed.
DF40/50 “K7” (’07) MODEL 15
SILENCER
The silencer, silencer seal, flame arrester, bolt and washer have been changed in shape.
The number of washer has been changed from 2 to 1.
The clamp has been added.
6.5 mm 13.0 mm
9 mm 8 mm
25 mm 20 mm
Washer
View of A
Silencer
Flame arrester
A
Bolt
Early
Clamp added
Silencer seal
16 DF40/50 “K7” (’07) MODEL
TILLER HANDLE (DF40QH, DF50QH AND DF50WQH)
TILLER HANDLE BRACKET
The tiller handle bracket has been changed in shape and related parts.
Install the spring washers with direction as shown in figure.
Tiller handle pivot bolt
25 N.m
(2.5 kg-m, 18.0 lb-ft)
Direction of spring washers
Spring washer
Spacer
Tiller handle bracket
Washer
Bush
Washer
Lock nut Washer
50 N.m
(5.0 kg-m, 36.0 lb-ft)
Tiller handle pivot nut
45 N.m
(4.5 kg-m, 32.5 lb-ft)
No change
Stud bolt
25 N.m
(2.5 kg-m, 18.0 lb-ft)
Installation
1. Install the tiller handle bracket and related parts in position.
NOTE:
• Apply the thread lock to the tiller handle pivot bolt.
!
99000-32050: THREAD LOCK “1342”
• Apply the water resistant grease to the bush.
"
99000-25160: SUZUKI WATER RESISTANT GREASE
2. The tiller handle pivot bolt is tightened first to the specified torque.
#
25 N·m (2.5 kg-m, 18.0 lb-ft)
3. Then the tiller handle pivot nut is tightened to the specified torque.
#
45 N·m (4.5 kg-m, 32.5 lb-ft)
Installation on steering bracket
#
Tiller handle mounting stud bolt: 25 N·m (2.5 kg-m, 18.0 lb-ft)
#
Tiller handle mounting lock nut: 50 N·m (5.0 kg-m, 36 lb-ft)
Stud bolt
Lock nut
Washer
DF40/50 “K7” (’07) MODEL 17
Tiller handle
Tiller handle bracket
View of A
Clamp
Steering bracket
A
TILLER HANDLE
The method of fixing the clutch cable and the throttle cable changed.
The clutch cable and throttle cable are fixed with the cable bracket.
Clutch shift cable
A
Cable bracket
View of A
A
Throttle cable
18 DF40/50 “K7” (’07) MODEL
CLUTCH SHAFT ARM AND CLUTCH SHAFT SIDE ARM
The clutch shaft arm and clutch shaft side arm have been changed in shape.
The screw has been changed to bolt.
Screw Bolt
Screw Bolt
Clutch shaft arm
4 mm 6 mm
Clutch shaft side arm
DETENT SPRING AND SHIFT CAM
The free length of detent spring has been changed.
Two detent notches at forward and reverse positions are added to the shift cam.
Shift cam
11 mm 14 mm
Detent spring
CLUTCH DOG SHIFTER AND RETURN SPRING
The width of clutch dog shifter has been changed.
The free length of return spring has been changed.
Return spring free length
Standard: 57.0 mm (2.24 in)
Service limit: 55.0 mm (2.17 in)
30 mm 28 mm
62 mm 57 mm
Clutch dog shifter
Return spring
ENGINE SIDE COVER
The side covers and securing screws have been changed in shape.
25 mm 14 mm
30 mm 35 mm marked portion
7.2 mm 6.2 mm 7.0 mm
15 mm
Starboard side cover
21 mm
5.7 mm
DF40/50 “K7” (’07) MODEL 19
Port side cover
!"
!
##
Printed in Japan
K6, K7
TK
OUTBOARD MOTOR
For 2006 and 2007 models
SUPPLEMENTARY SERVICE MANUAL
9 9 5 0 1 - 8 7 J 5 0 - 0 1 E
Printed in Japan
TK
OUTBOARD MOTOR
99501-87J00-01E
FORWARD
This supplementary service manual describes the outline, technical data and servicing procedures for the DF40QH/DF50QH outboard motor.
Please read and thoroughly familiarize yourself with this information before using it for your service activities.
NOTE:
Use this supplement with the following service manual:
DF40/50 Service Manual ( P/no, 99500-87J00-01E)
CONTENTS
GENERAL INFORMATION ___________________________________________ 1
WARNING / CAUTION / NOTE ............................................................................ 1
GENERAL PRECAUTIONS ..................................................................................... 1
SPECIFICATIONS __________________________________________________ 3
SERVICE DATA ____________________________________________________ 5
TIGHTENING TORQUE ______________________________________________ 11
SPECIAL TOOLS ___________________________________________________ 13
MATERIALS REQUIRED _____________________________________________ 16
WIRING DIAGRAM _________________________________________________ 17
ENGINE CONTROL SYSTEM _________________________________________ 18
Caution / Diagnostic System .................................................................................... 18
Engine speed control during shifting .......................................................................... 19
Checking engine total operating hours ....................................................................... 19
MID UNIT _________________________________________________________ 20
TILLER HANDLE ................................................................................................... 20
REMOVAL ........................................................................................................ 20
DISASSEMBLY ................................................................................................. 21
ASSEMBLY ...................................................................................................... 24
INSTALLATION ................................................................................................. 25
TILT AID SYSTEM ................................................................................................. 30
REMOVAL ........................................................................................................ 30
INSPECTION .................................................................................................... 31
INSTALLATION ................................................................................................. 32
SYMBOL
Listed in the table below are the symbols indicating instructions and other important information necessary for proper servicing. Please note the definition for each symbol. You will find these symbols used throughout this manual. Refer back to this table if you are not sure of any symbol(s) meanings.
SYMBOL
@ o
DEFINITION
Torque control required.
Data beside it indicates specified torque.
Apply oil. Use engine oil unless otherwise specified.
j
Apply SUZUKI OUTBOARD
MOTOR GEAR OIL.
v
Apply SUZUKI SUPER GREASE “A”.
l
Apply SUZUKI WATER
RESISTANT GREASE.
a
Apply SUZUKI BOND “1104”.
b
Apply SUZUKI BOND “1207B”.
SYMBOL h
DEFINITION
Apply THREAD LOCK “1342”.
g s t r q z
Apply THREAD LOCK SUPER
“1333B”.
Measure in DC voltage range.
Measure in resistance range.
Measure in continuity test range.
Use peak voltmeter
“Stevens CD-77”.
Use special tool.
k
Apply SUZUKI SILICONE SEAL.
DF40QH / DF50QH 1
GENERAL INFORMATION
WARNING/CAUTION/NOTE
Please read this manual and follow its instructions carefully. To emphasize special information, the symbol and the words WARNING, CAUTION and NOTE have special meanings. Pay special attention to the messages highlighted by these signal words.
A
Indicates a potential hazard that could result in death or injury.
B
Indicates a potential hazard that could result in motor damage.
NOTE:
Indicates special information to make maintenance easier or instructions clearer.
Please note, however, that the warnings and cautions contained in this manual cannot possibly cover all potential hazards relating to the servicing, or lack of servicing, of the outboard motor. In addition to the
WARNING and CAUTION stated, you must also use good judgement and observe basic mechanical safety principles.
GENERAL PRECAUTIONS
A
• Proper service and repair procedures are important for the safety of the service mechanic and the safety and reliability of the outboard motor.
• To avoid eye injury, always wear protective goggles when filing metals, working on a grinder, or doing other work, which could cause flying material particles.
• When 2 or more persons work together, pay attention to the safety of each other.
• When it is necessary to run the outboard motor indoors, make sure that exhaust gas is vented outdoors.
• When testing an outboard motor in the water and on a boat, ensure that the necessary safety equipment is on board. Such equipment includes : flotation aids for each person, fire extinguisher, distress signals, anchor, paddles, bilge pump, first-aid kit, emergency starter rope, etc.
• When working with toxic or flammable materials, make sure that the area you work in is well-ventilated and that you follow all of the material manufacturer’s instructions.
• Never use gasoline as a cleaning solvent.
• To avoid getting burned, do not touch the engine, engine oil or exhaust system during or shortly after engine operation.
• Oil can be hazardous. Children and pets may be harmed from contact with oil. Keep new and used oil away from children and pets. To minimize your exposure to oil, wear a long sleeve shirt and moisture-proof gloves (such as dishwashing gloves) when changing oil. If oil contacts your skin, wash thoroughly with soap and water. Launder any clothing or rags if wet with oil. Recycle or properly dispose of used oil.
• After servicing fuel, oil/engine cooling system and exhaust system, check all lines and fittings related to the system for leaks.
• Carefully adhere to the battery handling instructions laid out by the battery supplier.
2 DF40QH / DF50QH
B
• If parts replacement is necessary, replace the parts with Suzuki Genuine Parts or their equivalent.
• When removing parts that are to be reused, keep them arranged in an orderly manner so that they may be reinstalled in the proper order and orientation.
• Be sure to use special tools when instructed.
• Make sure that all parts used in assembly are clean and also lubricated when specified.
• When use of a certain type of lubricant, bond, or sealant is specified, be sure to use the specified type.
• When removing the battery, disconnect the negative cable first and then the positive cable.
When reconnecting the battery, connect the positive cable first and then the negative cable.
• When performing service to electrical parts, if the service procedures do not require using battery power, disconnect the negative cable at the battery.
• Tighten cylinder head and case bolts and nuts, beginning with larger diameter and ending with smaller diameter, Always tighten from inside to outside diagonally, to the specified tightening torque.
• Whenever you remove oil seals, gaskets, packing, O-rings, locking washers, locking nuts, cotter pins, circlips, and certain other parts as specified, always replace them with new.
Also, before installing these new parts, be sure to remove any left over material from the mating surfaces.
• Never reuse a circlip. When installing a new circlip, take care not to expand the end gap larger than required to slip the circlip over the shaft. After installing a circlip, always ensure that it is completely seated in its groove and securely fitted.
• Use a torque wrench to tighten fasteners to the torque values when specified.
Remove grease or oil from screw / bolt threads unless a lubricant is specified.
• After assembly, check parts for tightness and operation.
• To protect the environment, do not unlawfully dispose of used motor oil, other fluids, and batteries.
• To protect the Earth’s natural resources, properly dispose of used motor parts.
SPECIFICATIONS
Item Unit
PRE-FIX
DIMENSIONS & WEIGHT
Overall length (front to back)
Overall width (side to side)
Overall height S
Weight
(without engine oil)
Transom height
L
S
L
S
L mm (in.) mm (in.) mm (in.) mm (in.) kg (Ib.) kg (Ib.) mm (in. type) mm (in. type)
PERFORMANCE
Maximum output
Recommended operating range
Idle speed
POWERHEAD
Engine type
Number of cylinders
Bore
Stroke
Total displacement
Compression ratio
Spark plug
Ignition system
Fuel supply system
Exhaust system
Cooling system
Lubrication system
Starting system
Throttle control kW (PS) r/min r/min mm (in.) mm (in.) cm 3 (cu in.)
: 1
NGK
DF40QH / DF50QH 3
Data
DF40QH
04001F
DF50QH
05001F
852 (33.5)
382 (15.0)
1263 (49.7)
1390 (54.7)
107 (236)
110 (243)
401 (15)
528 (20)
29.4 (40) 36.8 (50)
5900 – 6500 5200 – 5800
850 ± 50 (in-gear: approx. 850±50)
4-stroke DOHC
3
71.0 (2.80)
68.6 (2.70)
815 (49.7)
10
DCPR6E
Full-transistorized ignition
Multi-point sequential electronic fuel injection
Through prop exhaust
Water cooled
Wet sump by trochoid pump
Electric
Twist grip
4 DF40QH / DF50QH
Data
Item Unit
DF40QH DF50QH
FUEL & OIL
Fuel
Engine oil
Engine oil amounts
Gear oil
Gearcase oil capacity
BRACKET
Trim angle
Number of trim position
Maximum tilt angle
LOWER UNIT
Reversing system
Transmission
Reduction system
Gear ratio
Drive line impact protection
Propeller
S : Aluminum propeller
SS : Stainless steel propeller
L (US/Imp. qt) ml (US/Imp. oz)
Suzuki highly recommends that you use alcohol-free unleaded gasoline with a minimum pump octane rating of 87 ( R + M
2 method) or 91
(Research method). However, blends of unleaded gasoline and alcohol with equivalent octane content may be used.
API classification SE, SF, SG, SH, SJ
Viscosity rating 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
SUZUKI Outboard Motor Gear Oil (SAE #90 hypoid gear oil)
610 (20.6/21.5)
Adjustable degree
Manual Trim and Gas Assisted Tilt System
5
73
Gear
Forward-Neutral-Reverse
Bevel gear
11 : 25 (2.27)
Spline drive rubber hub
Blade × Diam. (in.) × Pitch (in.)
3 × 111 /
2
× 9 (S900)
3 × 111 /
2
× 10 (S1000)
3 × 111 /
2
× 11 (S1100)
3 × 115 /
8
× 12 (S1200)
3 × 111 /
2
× 13 (S1301, SS1300)
3 × 113 /
8
× 14 (S1400, SS1400)
3 × 111 /
4
× 15 (S1500)
3 × 111 /
8
× 16 (S1600, SS1600)
3 × 11 × 17 (S1700)
These specifications are subject to change without notice.
DF40QH / DF50QH 5
SERVICE DATA
Data
Item Unit
DF40QH DF50QH
POWERHEAD
Recommended operating range
Idle speed
**Cylinder compression
**Cylinder compression max.
difference between any two cylinders r/min r/min kPa (kg/cm 2 . psi) kPa (kg/cm 2 . psi)
**Engine oil pressure kPa (kg/cm 2 . psi)
Engine oil
Engine oil amounts
L (US/Imp. qt)
Thermostat operating temperature
°C (°F)
** Figures shown are guidelines only, not absolute service limits.
5200 – 5800 5900 – 6500
850 ± 50 (in-gear: approx.850±50)
1300 – 1600 (13 – 16, 185 – 228)
100 (1.0, 14)
295 – 373 (3.0 – 3.8, 42 – 54) at 4000 r/min
(at normal operating temp.)
API classification SE, SF, SG, SH, SJ
Viscosity rating SAE 10W-40
2.2 (2.3/1.9) : Oil change only
2.4 (2.5/2.1) : Oil filter change
48 – 52 (126 – 134)
6 DF40QH / DF50QH
Item Unit
ENGINE OIL PUMP
Radial clearance
Side clearance
Limit
Limit mm (in.) mm (in.)
CYLINDER HEAD / CAMSHAFT
Cylinder head distortion Limit mm (in.)
Manifold seating faces distortion
Limit
Cam height
Camshaft journal oil clearance
IN
EX
Top,
Camshaft journal
(housing) inside diameter
2nd,
3rd,
4th
Top,
Camshaft journal outside diameter
2nd,
3rd,
4th
Camshaft runout
STD
Limit
STD
Limit
Cylinder head bore to tappet clearance
Limit
STD
Limit
STD
Limit
STD
Limit
STD
Limit
Tappet outer diameter
Cylinder head bore
STD
STD mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
DF40QH
Data
0.31 (0.0122 in.)
0.15 (0.0059 in.)
DF50QH
0.05 (0.002)
0.10 (0.004)
37.530–37.690 (1.4776–1.4839) 38.230–38.390 (1.5051–1.5114)
37.430 (1.4736) 38.130 (1.5012)
37.740–37.900 (1.4858–1.4921) 37.740–37.900 (1.4858–1.4921)
37.640 (1.4819) 37.640 (1.4819)
0.045 – 0.087 (0.0018 – 0.0034)
0.12 (0.0047)
23.000 – 23.021 (0.9055 – 0.9063)
23.171 (0.9122)
22.934 – 22.955 (0.9029 – 0.9037)
22.784 (0.8970)
0.10 (0.004)
0.025 – 0.062 (0.0010 – 0.0024)
0.150 (0.0059)
26.959 – 26.975 (1.0614 – 1.0620)
27.000 – 27.021 (1.0630 – 1.0638)
Item
VALVE / VALVE GUIDE
Valve diameter
Tappet clearance
(Cold engine condition)
Valve seat angle
IN
EX
IN
EX
Valve guide to valve stem clearance
IN
EX
IN
EX
STD
STD
STD
Limit
STD
Limit
Valve guide inside
IN,EX diameter
STD
Valve guide protrusion
IN,EX
Valve stem outside diameter
IN
EX
STD
STD
STD
Valve stem end length
IN,EX Limit
Valve stem end deflection
IN Limit
EX
Valve stem runout IN,EX
Limit
Limit
Valve head radial runout
IN,EX Limit
Valve head thickness
Valve seat contact width
Valve spring free length
IN
EX
IN
EX
Valve spring tension
STD
Limit
STD
Limit
STD
STD
STD
Limit
STD
Limit
Valve spring squareness
Limit
Unit mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
N (kg, Ibs)
N (kg, Ibs) mm (in.)
DF40QH / DF50QH 7
Data
DF40QH DF50QH
24.6 (0.9685)
21.5 (0.8465)
0.18 – 0.24 (0.007 – 0.009)
0.18 – 0.24 (0.007 – 0.009)
30 ° , 45 °
15 ° , 45 °
0.020 – 0.047 (0.0008 – 0.0019)
0.070 (0.0028)
0.045 – 0.072 (0.0018 – 0.0028)
0.090 (0.0035)
5.500 – 5.512 (0.2165 – 0.2170)
11 (0.4331)
5.465 – 5.480 (0.2152 – 0.2157)
5.440 – 5.455 (0.2142 – 0.2148)
3.2 (0.1260)
0.14 (0.0055)
0.18 (0.0071)
0.05 (0.0020)
0.08 (0.0031)
1.0 (0.0394)
0.7 (0.0276)
1.15 (0.0453)
0.5 (0.0197)
1.80 – 2.20 (0.0709 – 0.0866)
1.65 – 2.05 (0.0650 – 0.0984)
33.13 (1.3043)
31.80 (1.2520)
95 – 111 (9.7–11.3, 21.4–24.9) for 28.5 mm (1.12 in.)
88 (8.9, 19.6) for 28.5 mm (1.12 in.)
2.0 (0.079)
8 DF40QH / DF50QH
Item Unit
CYLINDER / PISTON / PISTON RING
Cylinder distortion
Piston to cylinder clearance
Cylinder bore
Limit
STD
Limit
STD
Cylinder measuring position
Piston skirt diameter STD
Piston measuring position
Cylinder bore wear Limit
Piston ring end gap
1st
2nd
STD
Limit
STD
Limit
Piston ring free end gap
Piston ring to groove clearance
1st
2nd
1st
2nd
STD
Limit
STD
Limit
STD
Limit
STD
Limit
Piston ring groove width
Piston ring thickness
1st
2nd
Oil
1st
2nd
STD
STD
STD
STD
STD mm (in.) mm (in.) mm (in.) mm (in) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
Pin clearance in piston pin hole
Piston pin outside diameter
Piston pin hole diameter
Pin clearance in conrod small end
STD
Limit
STD
Limit
STD
Limit
STD
Limit mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
Conrod small end bore
STD mm (in.)
Data
DF40QH DF50QH
0.06 (0.0024)
0.020 – 0.040 (0.0008 – 0.0016)
0.100 (0.0039)
71.000 – 71.020 (2.7953 – 2.7961)
50 (1.969) from cylinder top surface
70.970 – 70.990 (2.7941 – 2.7949)
19 (0.748) from piston skirt end.
0.10 (0.039)
0.10 – 0.25 (0.0039 – 0.0098)
0.70 (0.0276)
0.25 – 0.40 (0.0098 – 0.0157)
1.00 (0.0394)
Approx. 7.5 (0.2953)
6 (0.2362)
Approx. 11 (0.4330)
8.8 (0.3465)
0.020 – 0.060 (0.0008 – 0.0024)
0.10 (0.0039)
0.020 – 0.060 (0.0008 – 0.0024)
0.10 (0.0039)
1.01 – 1.03 (0.0398 – 0.0406)
1.01 – 1.03 (0.0398 – 0.0406)
1.51 – 1.53 (0.0594 – 0.0602)
0.97 – 0.99 (0.0382 – 0.0390)
0.97 – 0.99 (0.0382 – 0.0390)
0.006 – 0.018 (0.0002 – 0.0007)
0.040 (0.0016)
17.966 – 18.000 (0.7085 – 0.7087)
17.980 (0.7079)
18.006 – 18.014 (0.7089 – 0.7092)
18.040 (0.7102)
0.003 – 0.015 (0.0001 – 0.0006)
0.05 (0.002)
18.003 – 18.011 (0.7088 – 0.7091)
Item Unit
CRANKSHAFT / CONROD
Conrod small end inside diameter
STD mm (in.)
Conrod big end oil clearance
STD
Limit mm (in.) mm (in.)
Conrod big end inside diameter
STD mm (in.)
Crank pin outside diameter
STD mm (in.)
Crank pin outside diameter difference
(out of round and taper)
Limit
Conrod bearing thickness
STD
Conrod big end side clearance
Conrod big end width
Crank pin width
STD
Limit
STD
STD
Crankshaft center journal runout
Limit
Crankshaft journal oil clearance
STD
Limit
Crankcase bearing holder inside diameter
STD
Crankshaft journal outside diameter
Crankshaft journal outside diameter difference
(out of round and taper)
Crankshaft bearing thickness
STD
Limit
STD
Crankshaft thrust play
Crankshaft thrust bearing thickness
STD
Limit
STD mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
DF40QH
Data
DF40QH / DF50QH 9
DF50QH
18.003 – 18.011 (0.7088 – 0.7091)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
41.000 – 41.018 (1.6142 – 1.6149)
37.982 – 38.000 (1.4954 – 1.4961)
0.010 (0.0004)
1.486 – 1.502 (0.0585 – 0.0591)
0.100 – 0.250 (0.0039 – 0.0098)
0.350 (0.0138)
21.950 – 22.000 (0.8642 – 0.8661)
22.100 – 22.200 (0.8700 – 0.8740)
0.04 (0.0016)
0.020 – 0.040 (0.0008 – 0.0016)
0.065 (0.0026)
49.000 – 49.018 (1.9291 – 1.9298)
44.982 – 45.000 (1.7709 – 1.7717)
0.01 (0.0004)
1.999 – 2.015 (0.0787 – 0.0793)
0.11 – 0.31 (0.0043 – 0.0122)
0.35 (0.0138)
2.470 – 2.520 (0.0972 – 0.0992)
10 DF40QH / DF50QH
Item Unit
ELECTRICAL
Ignition timing
Over revolution limiter
CKP sensor resistance
CMP sensor resistance
Ignition coil resistance Primary
Secondary
Battery charge coil resistance
Battery charge coil output (12V)
Standard spark plug Type
Gap
Degrees at r/min r/min
W
W
W k W at 20°C at 20°C at 20°C at 20°C
W at 20°C
Watt
NGK mm (in.)
Fuse amp. rating A
Recommended battery capacity (12V)
Fuel injector resistance
IAC valve resistance
IAT sensor/Cylinder temp. sensor
/ Ex-mani. temp. sensor
(Thermistor characteristic)
ECM main relay resistance
Starter motor relay resistance k W at 25°C
Ah (kC)
W
W
W
W at 20°C at 20°C at 20°C at 20°C
DF40QH
Data
DF50QH
BTDC 0° – BTDC 32°
6500
BTDC 0° – BTDC 25°
7000
168 – 252
——
1.9 – 2.5
8.1 – 11.1
0.56 – 0.84
216
DCPR 6E
0.9 – 1.0 (0.035 – 0.039)
Main fuse : 30
Fuel pump fuse : 15
70 (252) or larger
11.0 – 16.5
21.5 – 32.3
1.8 – 2.3
80 – 120
3.5 – 5.1
STARTER MOTOR
Max. continuous time of use
Motor output
Brush length STD
Limit
STD
Commutator undercut
Limit
STD
Commutator outside diameter
Limit
STD
Commutator outside diameter difference
Limit
Pinion to ring gear gap STD
Sec kW mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.) mm (in.)
30
0.9
17.0 (0.67)
10.0 (0.39)
0.5 – 0.8 (0.02 – 0.03)
0.2 (0.008)
33.0 (1.30)
32.0 (1.26)
0.05 (0.002)
0.40 (0.016)
3.0 – 5.0 (0.12 – 0.20)
DF40QH / DF50QH 11
TIGHTENING TORQUE
Tightening Torque – Important Fasteners
Cylinder head cover bolt
Cylinder head bolt
Crankcase bolt
ITEM
THREAD
DIAMETER
6 mm
10 mm
8 mm
10 mm
8 mm Conrod cap nut
Camshaft housing bolt
Camshaft timing sprocket bolt
Timing chain guide bolt
Intake manifold bolt / nut 6 mm
8 mm
Oil pressure switch
Intake manifold fuel main gallery 3-way joint bolt
Upper/lower plug
Low pressure fuel pump bolt
Thermostat cover bolt
Flywheel bolt
Starter motor mounting bolt
Engine oil filter
Engine oil drain plug
Power unit mounting bolt/nut
Driveshaft housing bolt
Upper mount nut
Upper mount cover bolt
Lower mount nut
Clamp bracket shaft nut
Tiller handle mounting bolt
Tiller handle pivot bolt/nut
Water pump case nut
Gearcase bolt
Propeller shaft bearing housing bolt
Pinion nut
Propeller nut
Front
Rear
6 mm
6 mm
6 mm
16 mm
8 mm
12 mm
22 mm
10 mm
10 mm
6 mm
8 mm
8 mm
12 mm
8 mm
10 mm
10 mm
10 mm
8 mm
12 mm
18 mm
23
60
40
43
23
50
50
40
35
10
10
200
23
14
13
50
45
8
23
17
50
55
11
23
13
10
35
10
10
10
N . m
10
59
25
53
TIGHTENING TORQUE
2.3
6.0
4.0
4.3
2.3
5.0
5.0
4.0
3.5
1.0
1.0
20.0
2.3
1.4
1.3
5.0
4.5
0.8
2.3
1.7
5.0
5.5
1.1
2.3
1.3
1.0
3.5
1.0
1.0
1.0
kg-m
1.0
6.0
2.5
5.3
16.5
36.0
36.0
30.0
16.6
43.5
29.0
31.0
25.3
7.0
7.0
145
16.5
10.0
9.5
36.0
32.5
5.8
16.6
12.3
36.2
40.0
25.3
7.2
7.2
7.2
7.9
16.5
9.5
7.2
Ib.-ft.
7.2
43.4
18.1
38.3
12 DF40QH / DF50QH
Tightening torque – general bolt
NOTE:
These values are only applicable when torque for a general bolt is not listed in the “Important Fasteners” table.
TYPE OF BOLT
(Conventional or “4” marked bolt)
(Stainless steel bolt)
(7 marked or marked bolt)
THREAD
DIAMETER
5 mm
6 mm
8 mm
10 mm
5 mm
6 mm
8 mm
10 mm
5 mm
6 mm
8 mm
10 mm
N . m
TIGHTENING TORQUE kg-m Ib.-ft.
2 – 4
4 – 7
10 – 16
0.2 – 0.4
0.4 – 0.7
1.0 – 1.6
1.5 – 3.0
3.0 – 5.0
7.0 – 11.5
22 – 35
2 – 4
6 – 10
15 – 20
34 – 41
3 – 6
8 – 12
18 – 28
40 – 60
2.3 – 3.5
0.2 – 0.4
0.6 – 1.0
0.8 – 1.2
16.0 – 25.5
1.5 – 3.0
4.5 – 7.0
1.5 – 2.0
11.0 – 14.5
3.4 – 4.1
24.5 – 29.5
0.3 – 0.6
2.0 – 4.5
6.0 – 8.5
1.8 – 2.8
13.0 – 20.0
4.0 – 6.0
29.0 – 43.5
SPECIAL TOOLS
1.
2.
4.
DF40QH / DF50QH 13
3.
09821-00004
Air pump Assy
5.
(A)
(B)
09900-00410
Hexagon wrench set
6.
09900-00411
Hexagon socket
(included in 09900-00410)
7.
09900-00413 (5 mm)
09900-00414 (6 mm)
Hexagon bit
(included in 09900-00410)
8.
(A) 09900-06107
(B) 09900-06108
Snap ring pliers
9.
09900-20101 (150 mm)
09900-20102 (200 mm)
Vernier calipers
10.
09900-20202
Micrometer (25 – 50 mm)
11.
09900-20203
Micrometer (50 – 75 mm)
12.
09900-20205
Micrometer (0 – 25 mm)
13.
09900-20508
Cylinder gauge set
(40 – 80 mm)
14.
09900-20701
Magnetic stand
17.
09900-20803
Thickness gauge
18.
09900-20605
Dial calipers (10 – 34 mm)
15.
09900-20606
Dial gauge
16.
09900-21304
Steel “V” block set
19.
09900-22302
(0.051 – 0.125 mm)
09900-22301
(0.025 – 0.076 mm)
Plastigauge
20.
09900-26006
Engine tachometer
21.
(1) 09912-58441
Fuel pressure gauge
(2) 09912-58431
Fuel pressure hose
(3) 09912-58490
3-way joint & hose
(2)
09900-28403
Hydrometer
(3)
(1)
09921-29510
Driveshaft holder
22.
09913-50121
Oil seal remover
09919-16010
Deep socket wrench
23.
09914-79410
Test wheel
14 DF40QH / DF50QH
24.
25.
09915-47340
Oil filter wrench
28.
26.
27.
09915-64510
Compression gauge
09915-63210
Adaptor
29.
09915-77310
Oil pressure gauge
30.
09915-78211
Oil pressure gauge adapter
31.
09916-10910
Valve lapper
32.
09916-14510
Valve lifter
33.
09916-14910
Valve lifter attachment
34.
09916-24450
Solid pilot (N-100-5.52)
35.
09916-24440
Handle adaptor
(N-503-1)
36.
09916-24980
Handle (N-503)
37.
09916-20630
Valve seat cutter
(Neway 126)
38.
09916-20620
Valve seat cutter
(Neway 122)
39.
09916-20610
Valve seat cutter
(Neway 121)
40.
09916-34550
Valve guide reamer
( f 5.5 mm)
41.
09916-34542
Valve guide reamer handle
42.
09916-37320
Valve guide reamer
( f 10.5 mm)
43.
09916-44310
Valve guide remover
44.
09916-84511
Tweezers
09916-57330
Valve guide installer
45.
09916-67010
Tappet holder
46.
09916-77310
Piston ring compressor
47.
(A) (B)
09917-47910
Vacuum pump gauge
09917-87010
Valve guide installer attachment
(A) 09922-59410
Propeller shaft housing
installer
(B) 09922-59420
Housing installer handle
DF40QH / DF50QH 15
51.
48.
49.
50.
09922-89810
Shift lock pin remover
52.
09930-30161
Propeller shaft remover
53.
09930-30102
Sliding hammer
54.
09930-39411
Flywheel rotor remover
55.
09930-39420
Rotor remover bolt
56.
09930-48720
Flywheel holder
57.
09930-76420
Timing light
58.
09930-89240
4-pin connector test cord
59.
09930-89260
Injector test cord A
60.
09930-89910
4-pin connector test cord
61.
09930-89920
6-pin connector test cord
62.
09930-89930
8-pin connector test cord
63.
09930-89940
12-pin connector test cord
64.
09930-99320
Digital tester
65.
09932-79910
Diagnostic harness
66.
(A)
(B)
09940-44120
Air pressure gauge
67.
09940-44130
Attachment
68.
(B)
(A)
(C)
(D)
09944-08711
PTT cylinder cap tool
Pinion bearing installer and remover
(A) 09951-59910
Pinion bearing installer
shaft
(B) 01107-08408
Bolt
(C) 09951-39914
Pinion bearing plate
(D) 09951-19430
Attachment
(A) 09950-69511
Gearcase oil leakage tester
(B) 09821-00004
Air pump
69.
(A)
(B)
(A) 18213-74F00
O
2
sensor
(B) 18498-99E40
Protector
09951-09510
Gear adjusting gauge
70.
09930-88720
H.T cord adapter
16 DF40QH / DF50QH
71.
72.
73 .
99954-53008-820*
Digital voltmeter
99954-53873*
Stevens CD-77
Peak reading voltmeter
NOTE:
* Marked part No. is in U.S. market only.
99954-53883*
Gear oil filler
MATERIALS REQUIRED
SUZUKI OUTBOARD
MOTOR GEAR OIL
SUZUKI SUPER
GREASE “A”
WATER RESISTANT
GREASE
SUZUKI SILICONE
SEAL
99000-22540
(400 ml × 24 pcs.)
SUZUKI BOND “1104”
*99000-25030
99000-25010
(500 g)
SUZUKI BOND “1207B”
99000-25160
(250 g)
THREAD LOCK “1342”
99000-31120
(50 g)
4-Stroke Motor Oil
99000-31030
(100 g)
* 99104-33140
99000-31140
(100 g)
NOTE:
* Marked part No. is in U.S. market only.
99000-32050
(50 g)
API : SE, SF, SG, SH, SJ
SAE : 10W-40
WIRING DIAGRAM
DF40QH / DF50QH
DF40QH / DF50QH 17
ECM
(ENGINE CONTROL MODULE)
18 DF40QH / DF50QH
ENGINE CONTROL SYSTEM
The engine control systems such as ignition and fuel injection are basically the same as DF40/50T model specification except for the following:
Caution / Diagnostic System
Caution and Diagnostic system operator alert signals are audio only on QH models. Alerts will be signaled by a sound sequence from the caution buzzer contained in the tiller handle.
When any caution system is activated, the diagnostic code buzzer sound sequence for that caution will be the same as that of a T- specification model.
Refer to the illustration for the QH model buzzer sound sequence (ON/OFF pattern) of caution and diagnostic signals.
Buzzer ON/OFF pattern
A. Caution signal
ON
OFF
1.5 sec. 7 sec.
1.5 sec. 7 sec.
B. Diagnostic signals
[EX] : Code 2–3
• When engine is at stop and Ign. Key is turned ON
1.3 sec.
1.3 sec.
ON
OFF
0.2 sec.
3 sec. 0.2 sec.
• During engine operation
4.8 sec.
4.8 sec.
ON
OFF
0.2 sec.
0.2 sec.
5 sec.
NOTE:
The buzzer cancellation feature found on T-specification Models is not available on QH models. Due to this features removal, the ignition switch and the function of the orange lead extending from ECM to the ignition switch is different between
T and QH specifications.
QH models
O
Gr from ECM
O
Gr
Gr
B
G
W
Gr
Br
Ignition switch
T models from ECM
O
B
G
W
Gr
Br
O
Ignition switch
Engine speed control during shifting
On QH-specification models, a special safety feature to control engine speed during shifting has been added. This feature fixes the upper limit of engine speed during shifting to a preset value of 1500 r/min.
[ Operation ]
If the CTP switch is “OFF” and engine speed at the moment of shifting (neutral switch turns “OFF” ) is above the rpm limit of
1500 r/min, engine speed will automatically be lowered to approximately 1500 r/min.
Once this feature is engaged, engine speed will be regulated to remain at the fixed 1500 r/min limit until the feature is cancelled.
[ Cancellation ]
The engine speed control feature will be canceled if any one of the following conditions is satisfied:
• Throttle is returned to and remains at full close (CTP switch
“ON”) for at least one second.
• Engine speed is lowered below the control speed (1500 r/ min) and remains there for at least for two seconds.
Checking engine total operating hours
As a monitor-tachometer gauge is not supplied with QH models, engine total operating hours must be checked using SDS and a personal computer or by temporarily connecting a DF model monitor-tachometer.
DF40QH / DF50QH 19
20 DF40QH / DF50QH
MID UNIT
TILLER HANDLE
Functions
The tiller handle is equipped with the following centralized component parts necessary for proper operation and handling.
1
Ignition switch
3 Shift lever
2
4
Emergency stop switch
Throttle control grip
5 Throttle friction adjust knob
REMOVAL
1.
Remove the rigging port grommet 1 from front panel.
Remove both lower side covers.
3
1 2
4
5
2.
Remove snap pin
2
, washer
3
and throttle cable connector
4
from throttle control arm.
Unthread connector from throttle cable.
3.
Remove snap pin
5
, washer
6
and shift cable connector
7
from clutch control lever.
Unthread connector from shift cable.
4.
Remove cable stopper 8 from between cables.
8
5.
Disconnect handle wire harness connector
9
from engine wiring harness.
6.
Remove nut
0
and washer
A
.
Loosen and remove the handle pivot bolt B .
Remove tiller handle assembly.
Account for three washers and spring.
7.
Remove the seals
C
and connector lock nuts
D
from throttle / shift cables.
Slide rigging port grommet
1
off.
DISASSEMBLY
Remove six (6) screws
1
and take off tiller handle lower cover
2
.
Disconnect emergency stop switch lead connector
3
.
Remove E-ring 4 and throttle cable 5 from throttle link 8 .
Remove shift cable 6 from clutch link 7 in the same manner.
DF40QH / DF50QH 21
Remove screw
9
, handle grip
0
.
22 DF40QH / DF50QH
Drive out handle rod stopper pin
A
, then pull out rod stopper
B , spring C and handle rod bush D .
Loosen handle grip adjuster
E
.
Remove screws F and handle rod plate G .
Remove the two screws
H
securing the throttle link
I
to tiller handle housing, then remove throttle link
I
and handle rod assembly
J
.
Remove the bolt K securing the shift lever.
Separate the shift lever
L by installing 8mm bolt a
in shift lever as shown in figure.
Using a hammer, tap on bolt head until the shift lever separates, then remove 8mm bolt.
Remove the two bolts
M
securing the clutch link
N
to tiller handle housing, then remove clutch link and spacer O .
DF40QH / DF50QH 23
24 DF40QH / DF50QH
ASSEMBLY
Assembly is reverse order of disassembly.
When reassembling tiller handle, refer to the construction diagram below .
9
11
10
32
31
1
25
28
13
12
2
14
15
16
17
18
20
21
6
19
23
22
30
30
29
33
27
26
23
25
5
24
3
4
8
7
1.Tiller handle housing
2.Handle grip
3.Lower cover
4.Screw
5.Cable grommet
6.Switch cover
7.Emergency switch
8.Lock plate
9.Ignition switch
10.Handle wire harness
11.Grommet, Handle wire
12.Screw
13.Washer
14.Handle rod stopper
15.Spring
16.Bush
17.Pin
18.Handle rod
19.Handle grip adjuster
20.Plate
21.Screw
22.Throttle link
23.Screw
24.Throttle cable
25. E-ring
26.Bolt
27.Spacer,shift link
28.Shift cable
29.Shift link
30.Bolt
31.Bush
32.Shift lever
33.Buzzer
INSTALLATION
Installation is reverse order of removal with special attention to the following steps.
Tiller handle assembly
• Install three (3) nylon bushes 1 into tiller handle mounting hole and set tiller handle
2
on handle bracket.
• Place three (3) washers 3 and spring 4 into position.
Insert handle pivot bolt 5 .
Coat pivot bolt threads with thread lock and tighten pivot bolt to specified torque.
@
Handle pivot bolt: 45 N.m (4.5 kg-m, 32.5 lb.-ft.) h 99000-32050: Thread Lock 1342
• Install washer
6
, nut
7
and tighten nut to specified torque.
@ Handle pivot nut: 45 N.m (4.5 kg-m, 32.5 lb.-ft.)
Handle wire harness
Route the handle wire harness 1 as shown in figure.
Connect handle wire harness connector to engine wiring harness 2 .
DF40QH / DF50QH 25
26 DF40QH / DF50QH
Throttle / Shift cable installation
• Installation
(1) Insert shift cable and throttle cable through the rigging port grommet
1
as shown in figure.
Install the seals 2 and connector lock nut 3 on both cables.
(2) Secure the shift cable
4
and throttle cable
6
in the cable holder
5
by fitting groove on the cable into slots of holder.
(3) Push the cable stopper 7 into the clearance between both cables until the stopper is fixed on the cable holder.
(4) Screw cable connector
8
,
9
onto both cables.
DF40QH / DF50QH 27
• Adjustment
Shift cable to clutch control lever
(a) Place shift lever and clutch control lever a in the neutral position.
(b) Push the cable connector
8
and shift cable
4
in the direction shown by the arrow
H
to remove all play in the cable.
(c) While pressing against the cable and connector, adjust the connector 8 to align with pivot pin 0 on the clutch control lever.
(d) When aligned, press the connector 8 (flat side of connector towards the clutch control lever) over the pivot pin 0 .
(e) Install the washer
A
and snap pin
B
, then tighten the cable lock nut
C
against the connector to maintain adjustment.
(f) Make sure that both forward and reverse gears can be engaged with the same angle of shift lever travel from “NEUTRAL” position.
View X
x
Tiller handle model
Remote control model
D
PIVOT PIN POSITION
28 DF40QH / DF50QH
Throttle cable to throttle control arm
(A) Set the throttle grip to the fully closed position.
(B) Make sure that the throttle lever is fully closed
(CTP switch
G
must be in “ON”, pushed-in, position).
(C) Push the cable connector 9 and throttle cable in the direction shown by the arrow H to remove all play in the cable.
(D) While pressing against the cable and connector, adjust the connector 9 to align with the pivot pin E on the throttle control arm
D
.
(E) When aligned , press the connector 9 (flat side of connector towards the throttle control arm) over the pivot pin
E
.
(F) Install the washer A and snap pin B , then tighten the cable lock nut C against the connector to maintain adjustment.
B
Cable connectors must be threaded at least 8mm
( 0.3 in.) onto cable.
DF40QH / DF50QH 29
Rigging port grommet
• Install both side lower covers and rigging port grommet 1 .
• Push the cable seal tube 2 into the clearance between shift / throttle cable
3
/
4
and rigging port grommet.
Harness/Cable routing
• Fix handle wire harness with clamp a as shown at right.
• Bind shift and throttle cable with spiral tube b
as shown at right.
a b
30 DF40QH / DF50QH
TILT AID SYSTEM
The DF40QH/50QH models are equipped with a tilt aid cylinder assembly located between the PORT and STBD clamp brackets.
This mechanism helps decrease the manual effort required to tilt the motor. The nitrogen gas sealed in the cylinder expands as the cylinder rod extends, thereby assisting the manual tilting process.
This unit contains high pressure gas and it must not be disassembled, punctured, incinerated or exposed to heat.
REMOVAL
Tilt engine fully up and lower the manual tilt lock levers
1
.
During the following procedure, firmly secure the engine and support its weight. (see right)
Remove the snap ring
2
and push tilt cylinder upper shaft pin
3
out.
Remove the two STBD motor mounting bolts
4
.
Loosen the clamp bracket shaft nut 5 .
NOTE:
Complete removal of the clamp bracket shaft nut is not required.
Nut should only be loosened as far as the end of the shaft threads to facilitate removal of the tilt aid gas cylinder.
Remove the tilt pin 6 .
Loosen the tilt aid gas cylinder lower shaft nut 7 and remove the lower shaft bolt
8
.
Slide the STBD clamp bracket
9
fully outward to the right hand side.
Remove the tilt aid gas cylinder
0
from between the clamp brackets.
INSPECTION
NOTE:
If any component is found to be excessively worn, cracked, defective or damaged in any way, it must be replaced.
Tilt aid gas cylinder
Check tilt aid gas cylinder.
If cracks, defects or other damage is found, replace the cylinder assembly complete.
DF40QH / DF50QH 31
32 DF40QH / DF50QH
Bushings
Check all bushings.
If excessive wear or other damage is found, replace bushing.
If bushing fit is loose when installing, replace bushing.
INSTALLATION
Installation is reverse order of removal with special attention to following steps.
43 N.m
(4.3 kgf.m)
3
2
6
5
1
5
4
6
11 10
7
12
13
9
9
1. Tilt aid gas cylinder
2. Release lever
3. Rubber, release lever
4. Cylinder upper shaft
5. Bush
6. Snap ring
7. Gas cylinder lower shaft
8. Bolt
9. Bush
10. Washer
11. Nut
12. Bolt
13. Nut
8
Release lever
Install release lever by aligning with punch mark a of release lever and punch mark b of shaft as shown in figure.
Tighten lever bolt securely.
Tilt aid gas cylinder
Apply grease to each bush, cylinder lower shaft and cylinder upper shaft.
Install bushes
1
,
2
and cylinder lower shaft
3
.
l
99000-25160 : Suzuki Water Resistant Grease
Place the tilt aid gas cylinder in position between the clamp brackets.
Tighten clamp bracket shaft nut to specified torque.
z Clamp bracket shaft nut:
43 N.m (4.3 kg-m, 31.0 lb.-ft.)
Slide the cylinder lower shaft bolt through the clamp bracket and lower shaft, then secure with the nut.
1
Lower shaft bolt
2
Nut
Align the cylinder upper eyelet with the hole in the swivel bracket, then insert the upper shaft through the swivel bracket and gas cylinder.
Secure the upper shaft with the snap ring.
1 Upper shaft
2 Snap ring
DF40QH / DF50QH 33
Prepared by
Marine & Power Products Division
1 st Ed. January, 1999
Manual No.99501-87J00-01E
Printed in Japan
36
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Key Features
- 4-cylinder, 4-stroke engine
- 40 horsepower
- Fuel-efficient
- Easy to operate and maintain
- Perfect for a variety of boating applications