2015 Ducati Multistrada 1200S Abs
2015 Ducati Multistrada 1200S Abs
2015 Ducati Multistrada 1200S Abs
Workshop Manual
MTS(E4).01 - General
Symbols - Abbreviations - References
Product specifications
Dangerous products - warnings
General maintenance instructions
General safety rules
MTS(E4).05 - Fairings
Rear-view mirrors
Refitting the headlight fairing
Removing the headlight fairing
Refitting the panel
Removing the panel
Fairings
Refitting the tank fairings
Removing the tank fairings
Refitting the front half-fairing
Removing the front half-fairing
Seat - tail guard and side body panels
Refitting the seat
Refitting side body panel and tail guard
Removing the side body panels and the tail guard
Removing the seat
Front mudguard - Belly pan
Refitting the belly pan
Removing the belly pan
Refitting the front mudguard
Removing the front mudguard
Rear mudguard - Splash guard
Refitting the splash guard
Removing the splash guard
Refitting the rear mudguard
Removing the rear mudguard
MTS(E4).07 - Chassis
Front wheel
Refitting the front wheel
Overhauling the front wheel
Removing the front wheel
Rear wheel
Refitting the rear wheel
Overhauling the rear wheel
Removing the rear wheel
Front brake control
Refitting the front brake system
Refitting the brake discs
Overhauling the front brake components
Removing the brake discs
Removing the front brake system
Maintenance operations
Refitting the front brake master cylinder
Removing the front brake master cylinder
Rear brake
Refitting the rear brake calliper
Refitting the rear brake disc
Removing the rear brake disc
Removing the rear brake calliper
Refitting the rear brake control
Disassembling the rear brake control
Removing the rear brake control
ABS system information
ABS system deactivation
ABS system operation information
Operating principle
ABS system components
Routing wiring harnesses/hoses
Refitting the ABS control unit
Removing the ABS control unit
Changing the rear phonic wheel sensor
Changing the front phonic wheel sensor
ABS component maintenance
Bleeding of the ABS hydraulic system
Adjusting the AIR-GAP of phonic wheel sensor
Handlebar unit: hand guard - rear.view mirrors - throttle control
Refitting the handlebar
Removing the handlebar
Reassembling the hand guards
Removing the hand guards
Refitting the rear-view mirrors
Removing the rear-view mirrors
Handlebar assembly: Throttle twistgrip
Refitting the throttle control
Removing the throttle control
Handlebar assembly: Hydraulic clutch control
Refitting the clutch slave cylinder
Removing the clutch slave cylinder
Refitting the clutch master cylinder assembly
Removing the clutch master cylinder assembly
Handlebar assembly: Hands free
Refitting the Hands Free
Removing Hands Free
Gear selector control
Refitting the gear change control
Disassembling the gear change control
Removing the gear change control
Fork - steering head: Front fork
Refitting the front fork
Overhauling the front fork
Removing the front fork
Fork - steering head: Steering assembly
Refitting the steering tube components
Removing the steering tube components
Steering angle adjustment
Adjusting the steering head bearing clearance
Rear shock absorber assembly
Refitting the rear suspension
Overhauling the rear shock absorber
Removing the rear shock absorber
Rear suspension system
Swinging arm
Refitting the rear swinging arm
Overhauling the rear swinging arm
Inspecting the swinging arm shaft
Removing the swinging arm
Refitting the rear wheel eccentric hub and rear wheel shaft
Removing the rear wheel eccentric hub and the rear wheel shaft
Final drive
Lubricating the chain
Washing the chain
Refitting the rear sprocket
Replacing the rear sprocket
Refitting the front sprocket
Removing the front sprocket
Inspection of the final drive
Footrest support
Refitting the footpegs
Removing the footpegs
Stands
Refitting the centre stand
Removing the centre stand
Refitting the side stand
Removing the side stand
Inspecting the frame
Refitting the light assembly
Refitting the side plates
Refitting the structural parts and frame
Removing the side panels
Removing the light assembly
Removing structural components and frame
Tail light - Number plate holder
Refitting the number plate holder
Removing the number plate holder
Electrical components compartment
Refitting the electric components compartment
Removing the electric components compartment
MTS(E4).08 - Fuel/Exhaust system
Fuel tank
Refitting the fuel tank
Refitting the fuel tank flange
Removing the fuel tank flange
Refitting the tank filler plug
Removing the tank filler plug
Removing the fuel tank
Airbox ?V throttle body
Refitting the airbox and throttle body
Removing the airbox and throttle body
Air intake
Refitting the secondary air system
Removing the secondary air system
Refitting the air filters
Removing the air filters
Exhaust system
Refitting the exhaust system
Removing the exhaust system
Refitting the silencer
Removing the silencer
Canister filter
Refitting the Canister filter
Removing the canister filter
Canister filter system
MTS(E4).09 - Engine
Removing - refitting the complete engine
Refitting the engine
Removing the engine
Lubrication system: Oil pump
Refitting the oil pump
Reassembling the oil pump
Disassembling the oil pump gear
Removing the oil pump
Lubrication system: Oil cooler
Refitting the lubrication system
Inspecting the oil cooler
Removing the lubrication system
Lubrication system: Oil breather reservoir
Refitting the oil breather reservoir
Removing the oil breather reservoir
Cooling system: Water tank
Refitting the water tank
Removing the water tank
Cooling system: Water radiator
Refitting the cooling system hoses and unions
Removing the cooling system hoses and unions
Fitting the radiator
Replacing the electric fan
Removing the radiator
Cooling system: Water pump
Refitting the water pump
Removing the water pump
Cylinder head assembly: Checks and adjustments
Checking the engine timing
Checking valve lift
Checking and adjusting the valve clearance
Cylinder head assembly: Timing system
Refitting the timing outer covers
Refitting the timing belts
Refitting the cylinder heads pulleys/idler pulleys
Refitting the tensioner pins
Refitting the timing layshaft pulley
Removing the timing layshaft pulleys
Removing the tensioner pins
Removing the cylinder head pulley/fixed tensioner
Removing the mobile tensioner/timing belt
Removing the timing belt covers
Cylinder head assembly: Camshafts
Refitting the camshafts
Check of the camshafts and supports
Removing the camshafts
Cylinder head assembly: Valves - rocker arms
Refitting the cylinder heads
Overhauling the cylinder head components
Refitting the valve rocker arms
Removing the valve rocker arms
Refitting the valves
Removing the valves
Removing the cylinder heads
Cylinder/piston assembly
Refitting the cylinder/piston assembly
Overhauling the cylinder/piston components
Removing the cylinder/piston assembly
Clutch assembly: Clutch
Refitting the clutch
Checking and overhauling the components
Removing the clutch
Description of the clutch assembly
Clutch assembly: Clutch cover
Refitting the clutch cover
Refitting the clutch cover
Disassembling the clutch cover
Removing the clutch cover
Clutch assembly: Primary drive gear
Refitting the primary drive gears and checking backlash
Removing the primary drive gears
Gearbox assembly: Linkages
Refitting the gearchange mechanism
Refitting the gear interlock plunger and ratchet
Disassembling gear interlock plunger and ratchet
Removing the gearchange mechanism
Gearbox assembly: Gearbox shafts
Reassembling the gearbox assembly
Reassembling the gearbox shafts
Inspecting the fork selector drum
Inspecting the gear selector forks
Overhauling the gearbox
Disassembling the gearbox shafts
Removing the gearbox assembly
Flywheel - generator
Refitting the flywheel/generator assembly
Overhauling the flywheel/generator assembly
Removing the flywheel/generator assembly
Refitting the generator cover
Reassembling the generator cover
Disassembling the generator cover
Removing the generator cover
Crankcase: Outer components
Refitting the starter motor
Removing the starter motor
Removing the starter motor idler gear
Refitting the timing gears
Removing the timing gears
Refitting the external components
Removing outer components
Crankcase: Casings
Closing the crankcase
Shimming the shafts
Reassembling the crankcase halves
Main bearings
Overhauling the crankcase halves
Separating the crankcase halves
Crankcase: connecting rod assembly
Refitting the connecting rod assembly
Reassembling the connecting rod assembly
Overhauling the connecting rod assembly
Disassembling the connecting rod assembly
Removing the connecting rod assembly
Symbols - Abbreviations - References
To allow quick and easy consultation, this manual uses graphic symbols to highlight situations in which maximum
care is required,
as well as practical advice or information. Pay attention to the meaning of the symbols since they
serve to avoid repeating
technical concepts or safety warnings throughout the text. The symbols should therefore
be seen as real "reminders". Please refer
to this page whenever in doubt as to their meaning.
The terms right-hand and left-hand refer to the motorcycle viewed from the riding position.
Warning
Failure to comply with these instructions may put you at risk, and could lead to severe injury or even death.
Important
Failure to follow the instructions in text marked with this symbol can lead to serious damage to the motorcycle and
its components.
Note
This symbol indicates additional useful information for the current operation.
Smaltimento
This symbol supplies information on the disposal of a substance/material.
Product specifications
Symbols in the diagram show the type of threadlocker, sealant or lubricant to be used at the points indicated. The
table below
shows the symbols used and the specifications of the various products.
Symbol Specifications Recommended
product
Engine oil (for characteristics see Fuel, lubricants and other fluids). SHELL Advance
4T Ultra
DOT 4 special hydraulic brake fluid. SHELL Advance
Brake DOT 4
SAE 80-90 gear oil or special products for chains with O rings. SHELL Advance
Chain or
Advance Teflon
Chain
Anti-freeze (nitride, amine and phosphate free) 30 to 40% + water. SHELL Advance
coolant or
Glycoshell
GREASE Multipurpose, medium fibre, lithium grease. SHELL Alvania
A R3
GREASE Molybdenum disulphide grease, high mechanical stress and high temperature SHELL Retinax
B resistant. HDX2
GREASE Bearing/joint grease for parts subject to prolonged mechanical stress. SHELL Retinax
C Temperature range: -10 to 110 °C. LX2
GREASE Protective grease, with anti-corrosive and waterproofing properties. SHELL Retinax
D HD2
GREASE Grease PANKL - PLB 05
E
GREASE Grease OPTIMOL -
F PASTE WHITE T
GREASE Grease PANKL - PLB07
G
GREASE Grease KLÜBER
H STABURAGS
NBU 30 PTM
GREASE Copper grease CUPRUM 320
I
LOCK 1 Low-strength threadlocker. Loctite 222
LOCK 2 Medium-strength threadlocker, compatible with oil. Loctite 243
LOCK 3 High-strength threadlocker for threaded parts. Loctite 270
LOCK 4 Surface sealant resistant to high mechanical stress and solvents. Resists high Loctite 510
temperatures (up to 200 °C) and pressures up
to 350 bar; fills gaps up to 0.4
mm.
LOCK 5 Permanent adhesive for freely sliding cylindrical couplings or threaded couplings Loctite 128455
on mechanical parts. High resistance to
mechanical stress and solvents.
Temperature range: 55 to 175 °C.
LOCK 6 Pipe sealant for pipes and medium to large fittings. For water and gases (except Loctite 577
oxygen). Maximum filling capacity: 0.40 mm
(diameter clearance).
LOCK 7 Instant adhesive for rubber and plastics with elastomer charged ethylic base. Loctite 480
LOCK 8 High-strength retaining compound for threaded parts, bearings, bushes, splines Loctite 601
and keys. Operating temperature range: 55
to 150 °C.
LOCK 9 Medium-strength threadlocker. Loctite 406
LOCK Product for metal parts to seal and lock freely sliding cylindrical couplings or Loctite 128443
10 threaded couplings. Resistant to high mechanical
stress and high temperature,
excellent resistance to solvents and chemical attack.
LOCK Medium-strength threadlocker. Loctite 401
11
LOCK Instant adhesive gel offering tensile/shear strength. Loctite 454 gel
12
DUCATI sealing compound. Three bond 1215
- Sealing
compound
Exhaust pipe sealing paste. Self-sealing paste hardens when heated and resists Holts Firegum
temperatures exceeding 1000 °C.
Spray used to protect electric systems. Eliminates moisture and condensation SHELL Advance
and provides excellent corrosion resistance.
Water repellent. Contact Cleaner
Dry lubricant, polymerising on contact with air. Molykote M55
Plus
Emulsion for lubrication of rubber. P 80
Protection lubricant emulsion. KLUBERPLUS S
06/100
Lubricant for mechanical elements Castor oil
Degreasing agent Deta Blu
Acronyms and abbreviations used in the Manual
ABS
Antilock Braking System
BBS
Black Box System
CAN
Controller Area Network
DDA
DUCATI Data Acquisition
DSS
DUCATI Skyhook Suspension
DSB
Dashboard
DTC
DUCATI Traction Control
HF
Hands Free
ECU
Engine Control Unit
LIN
Local Interconnect Network
Technological Dictionary
Riding Mode
The rider can choose from four different preset bike configurations (Riding Modes) and pick the one that best suits
his/her
riding style or ground conditions. The Riding Modes allow the user to instantly change the engine power
delivery (ENGINE),
the ABS settings, the DTC settings as well as, on "Sport" versions, the suspension settings
(DSS).
Available Riding Modes: Sport, Touring, Urban and Enduro.
Within every Riding Mode, the rider can customise any settings.
Useful tips
Ducati recommends you to follow the instructions below in order to prevent problems and obtain the best result:
- when diagnosing faults, primary consideration should always be given to what the customer reports about
motorcycle operation
since this information can highlight faults; your questions to the customer concerning
symptoms of the fault should be aimed
at clarifying the problem;
- diagnose the problem systematically and accurately before proceeding further. This manual provides the
theoretical background
for troubleshooting; this basis must be combined with personal experience and
attendance at periodic training courses held
by Ducati;
- repair work should be planned carefully in advance to prevent any unnecessary downtime, for example
obtaining the required
spare parts or preparing the necessary tools, etc.;
- limit the number of operations needed to access the part to be repaired. Note that the disassembly procedures
in this manual
describe the most efficient way to reach the part to be repaired.
- Always use top quality tools. When lifting the motorcycle, only use devices that fully comply with the relevant
European directives.
- When working on the motorcycle, always keep the tools within reach, ideally in the order required, and never
put them on the
motorcycle or in hard-to-reach or inaccessible places.
- The workplace must be kept clean and tidy at all times.
- Always replace gaskets, sealing rings and split pins with new parts.
- When loosening or tightening nuts or screws, always start with the largest or start from the centre; tighten
nuts and screws
to the specified torque working in a cross pattern.
- Always mark any parts and positions which might easily be confused upon reassembly.
- Use exclusively Ducati original spare parts and the recommended brands of lubricants.
- Use special tools where specified.
- Ducati Technical Bulletins often contain updated versions of the service procedures described in this manual.
Check the latest
Bulletins for details.
General safety rules
Carbon monoxide
When a maintenance operation must be performed with the engine running, make sure that the working area is
well-ventilated.
Never run the engine indoors.
Warning
Exhaust gases contain carbon monoxide, which is a poisonous gas that can cause unconsciousness or even death if
inhaled.
Run the engine outdoors or, if working indoors, use an exhaust gas extraction system.
Fuel
Always make sure the working area is well ventilated. Keep any sources of ignition, such as cigarettes, open
flames or sparks,
well away from working area and fuel storage area.
Warning
Fuel is highly flammable and can explode under certain conditions. Keep away from children.
Hot parts
Warning
The engine and exhaust parts become hot when the motorcycle engine is running and will stay hot for some time
after the engine
has been stopped. Wear heat-resistant gloves before handling these components or allow the
engine and exhaust system to cool
down before proceeding.
Warning
The exhaust system might be hot, even after engine is switched OFF; pay particular attention not to touch exhaust
system with
any body part and do not park the motorcycle next to inflammable material (wood, leaves etc.).
Warning
Wear suitable gloves to work with engine oil. Keep away from children.
Brake dust
Warning
Never clean the brake assembly using compressed air or a dry brush.
Brake fluid
Warning
Spilling brake fluid onto plastic, rubber or painted parts of the motorcycle may cause damages.
Protect these parts
with a clean shop cloth before proceeding to service the system. Keep away from children.
Coolant
Engine coolant contains ethylene glycol, which may ignite under particular conditions, producing invisible flames.
Although
the flames from burning ethylene glycol are not visible, they are still capable of causing severe burns.
Warning
Take care not to spill engine coolant on the exhaust system or engine parts. These parts may be hot and ignite the
coolant,
which will subsequently burn with invisible flames. Coolant (ethylene glycol) is irritant and poisonous
when ingested. Keep
away from children. Never remove the radiator cap when the engine is hot. The coolant is
under pressure and will cause severe
burns.
The cooling fan operates automatically: keep hands well clear and make sure your clothing does not snag on the
fan.
Battery
Warning
The battery gives off explosive gases; never cause sparks or allow naked flames and cigarettes near the battery.
When charging
the battery, ensure that the working area is properly ventilated.
Identification data
Each Ducati motorcycle is identified by two numbers, one for the frame and one for the engine.
Note
Please quote these numbers, which identify the motorcycle model, when ordering spare parts.
VERSION 1 2 3 4 5 6
Frame ZDM 12 BWWW # B ?????
VERSION 1 2 3
Engine version 2BW # ??????
1 Engine type
2 Model Year: F for 2015 models
3 Progressive production no.
Lights/Instrument panel
Reference Technical specifications
Headlight low beam lamp type LED
high beam lamp type 2xH11 (12V-55W)
Parking light Lamp type LED
Tail and stop light Lamp type LED (13.5 V- 4.2 W/1.5 W)
Front turn indicators Lamp type LED (9.8 V - 2.2 W)
Rear turn indicators Lamp type RY10W amber (halogen) (12V-10W)
Number plate light Lamp type C5W (12 V - 5 W)
Fuse box key
Fuse box (A) key
El. item Rat.
1 KEY EMS / ABS / IMU 5A
2 KEY DSB / BBS 15 A
3 KEY Lights 15 A
4 - -
5 KEY Accessories 10 A
6 +30 Hands Free 25 A
7 +30 Diagnosis / charge 7.5 A
Fuse box (B) key
El. item Rat.
1 +30 EMS LOAD RELAY 25 A
2 +30 FUEL PUMP RELAY 10 A
3 +30 Starter RELAY 7.5 A
4 +30 Instrument panel 10 A
5 +30 Black Box System (BBS) 10 A
6 +30 ABS UBMR 25 A
7 +30 ABS UBVR 15 A
Injection system
Make Type
Control unit BOSCH ME7921
Fuel system
Important
Do not use any additives in fuel or lubricants. Using them could result in severe damage of the engine and
motorcycle components.
Warning
The motorcycle is only compatible with fuel having a maximum content of ethanol of 10% (E10). Using fuel with
ethanol content
over 10% is forbidden. Using it could result in severe damage to the engine and motorcycle
components. Using fuel with ethanol
content over 10% will make the warranty null and void.
Make Type
Throttle body With oval cross-section, Ø 56 mm
Injectors per cylinder 1
Firing points per injector 10
Ignition system
Reference Technical specifications
Starting Type Electric starter motor 12 V - 0.7 kW
Spark plugs Make and type NGK MAR10A-J
Electrode gap 0.8±0.1 mm
Charging system/generator
Reference Technical specifications
Battery Voltage 12 V
Charge 10 Ah
Type Sealed-type, maintenance-free
Generator Denso Hi-Frequency
Capacity 12 V - 500 W
1500 rpm
Active voltage 27.5 V
Minimum voltage 25.2 V
Maximum voltage 33 V
2500 rpm
Active voltage 45 V
Minimum voltage 41.1 V
Maximum voltage 54.1 V
Hydraulic brakes
Reference Standard value Service limit
FRONT
Brake disc Type Semi-floating drilled dual disc
Braking surface material Steel
Disc diameter 330 mm
Brake calliper Make Brembo
Type M50
Calliper cylinder diameter 30
Pad friction material TT2182
Master cylinder Type PR 16/19
Master cylinder diameter 16 mm
REAR
Brake disc Type Fixed drilled disc
Thickness 5 mm 4.5 mm (min.)
Flange material steel
Diameter 265 mm
Brake calliper Make Brembo
Type PF 2X28
Calliper cylinder diameter 34 mm
Pad friction material TT 2181 FF
Master cylinder Type PS13
Master cylinder diameter 13 mm
Rear suspension
Reference Technical specifications
Type SACHS:
Progressive with electronically adjustable monoshock.
Shock absorber Stroke 59.5 mm
Wheel travel 170 mm
Rear wheel
Reference Standard value Service limit
Minimum tread depth In the most worn part 2 mm
Tyre pressure Cold 2.5 bar (rider only)
2.9 bar (with pillion rider and/or bags)
Swinging arm shaft runout On 100 mm 0.2 mm
Wheel rim runout Radial 0.8 mm 2 mm
Axial 0.5 mm 2 mm
Drive chain Make Regina
Type 136 ZRPB
Size 5/8" x 1/16"
No. of links 108
Front suspension
Reference Technical specifications
Type SACHS:
upside-down fork completely adjustable in rebound and compression, electronic control.
Travel on leg axis 170 mm
Fork S Version 252 ± 5 cc (active fork leg)
642 ± 5 cc (passive fork leg)
Front wheel
Reference Standard value Service limit
Minimum tread depth In the most worn part 2 mm
Tyre pressure Cold 2.5 bar (rider only)
2.5 bar (with pillion rider and/or bags)
Wheel shaft runout On 100 mm 0.2 mm
Wheel rim runout Radial 0.8 mm 2 mm
Axial 0.5 mm 2 mm
Cooling system
Reference Technical
specifications
Type Liquid-cooling with two closed-circuit radiators with twin bent radiator, twin fan
and mixing thermostat.
Coolant 2.5 litres
capacity
Thermostat Starts opening at 65 °C ±2 °C
Electric fan enabling 103 °C
Electric fan disabling 102 °C
Gearbox
Reference Standard value Service limit
Gearbox shafts End float 0.05÷0.20 mm
Selector drum End float 0.10÷0.40 mm
Gear selector fork Fork slider thickness 3.90÷4.00 mm
Fork–to-gear clearance 0.070÷0.285 mm 0.4 mm
Cylinder/piston
Reference Standard value Service limit
Cylinder nominal diameter 106 mm
Max. oval 0.010
Max. taper 0.015
Diameter 106.000 mm ÷ 106.010
Section A mm
Section B 106.010 mm ÷ 106.020
Section C mm
106.020 mm ÷ 106.030
mm
Piston-to-bore clearance 0.065 ÷ 0.085 mm
Piston Nominal diameter 106 mm
Diameter 105.905 mm ÷ 105.915
Section A mm
Section B 105.915 mm ÷ 105.925
Section C mm
105.925 mm ÷ 105.935
mm
Connecting rod Connecting-rod big-end 49 mm
diameter
Crankshaft class Connecting rod class Bearings colour
Big-end bearing pairings A A Yellow + BLUE
B A BLUE + BLUE
A B YELLOW +
B B YELLOW
YELLOW + BLUE
Big-end bearing-to-crankpin Crankpin selection Ø 42.014 mm/0÷0.016
clearance mm
Gudgeon pin–to-piston clearance 0.015 ÷ 0.024 mm
Nominal diameter Ø 20 mm
Piston Ø 20 mm / 0.020÷ 0.015
Gudgeon pin Ø 20 mm / 0 ÷ 0.004
Gudgeon pin-to-connecting rod 0.035 ÷ 0.049 mm
clearance
Crankshaft
Reference Standard value Service limit
Crankshaft Oval 0.005 mm
Taper 0.005 mm
Main journals alignment 0.01 mm on diameter
Timing system/valves
Reference With 1 mm valve clearance With 5 mm valve clearance
Timing diagram
Intake Opening - 22° ± 3° Opening - 59° ± 3°
B.T.D.C. B.T.D.C.
Closing 84° ± 3° A.T.D.C. Closing 44° ± 3° A.T.D.C.
Exhaust Opening - 80° ± 3° Opening - 40° ± 3°
B.B.D.C. B.B.D.C.
Closing -15° ± 3° A.T.D.C. Closing -59° ± 3° A.T.D.C.
Intake valve diameter 43.5 mm
Exhaust valve diameter 34.5 mm
Valve lift With 0 mm valve clearance Intake 12.2 mm
Exhaust 11.2 mm
Opening rocker arm - intake 0.13÷0.18 mm
Opening rocker arm - 0.13÷0.18 mm
exhaust
Closing rocker arm - intake 0.05÷0.10 mm
Closing rocker arm - 0.05÷0.10 mm
exhaust
Reference Assembly value (new belt) Recovery value (used belt)
Cold belt tension DDS
adjustment
New belt 90 ± 5 Hz (horizontal)
90±5 Hz (vertical)
Used belt 80±5 Hz (horizontal)
80±5 Hz (vertical)
Transmission
Reference Technical specifications
Clutch Wet type with multiple plates
Clutch Hydraulic
control
Gearbox 6 speed
Primary drive 33/61
Drive ratio 1.84
Final drive 15/40
Gearbox type With constant mesh spur gears, operated by a lever on the left side of the motorcycle
Transmission Gear ratios
1st 15/37
2nd 17/30
3rd 20/27
4th 22/24
5th 24/23
6th 25/22
Colours
Ducati Anniversary Red —
Primer Acriflex White L0040652 (Lechler)
Varnish Acriplast Red Stoner SF LMC06017 (Lechler)
Frame, Racing Black
Subframe, Mercury Gray
Rims, Glossy Black
Iceberg White —
Primer, Dual Primer White DS20052 (Lechler)
Clear coat Tixo Klarlack 96.230 (Lechler)
Frame, Racing Black
Subframe, Mercury Gray
Rims, Glossy Black
General
Reference Technical specifications
Motorcycle Total length 2200 mm
dimensions
Total width 980 mm
Max. width 1000 mm
Total height from 1350 mm (Plexiglas all down) to 1545 mm (Plexiglas all up)
Seat height 825 - 845 mm
Minimum 175 mm
ground
clearance
Front 427 mm
footpeg
height
Wheelbase 1529 mm
Frame Type ALS420 steel tubular trellis
Subframe Type Two aluminium gravity cast elements. Plus fibreglass-charged technopolymer bearing
element.
Steering 24°
head angle
Steering 40° RH/LH
angle
Trail 106 mm
Front SACHS:
suspension Hydraulic upside-down fork adjustable through electric inputs from the instrument
panel. Only the RH fork leg is equipped
with an external adjuster for setting the preload
of the inner spring
Leg diameter: 48 mm
Front wheel 170 mm
travel
Rear SACHS:
suspension Shock absorber adjustable in rebound, compression and with remote control of the
spring preload. Pivoted on the top of
the frame and on the bottom of the frame to a
light alloy swinging arm that rotates around the pivot.
The adjustment is performed by means of electric inputs from the instrument panel.
Suspension travel: 59.5mm
Rear wheel travel: 170mm
Front wheel Light alloy with three Y-shaped spokes
rim
Front wheel MT 3.50x17"
rim size
Front tyre 120/70 - ZR 17
size
Rear wheel Light alloy with three Y-shaped spokes
rim
Rear wheel MT 6.00x17"
rim size
Rear tyre 190/55 - ZR 17
size
Type of Radial tubeless tyres
tyres
Front brake Hydraulic, 2 callipers with ABS as a standard
Rear brake Hydraulic, 1 calliper with ABS as a standard
Engine Type Ducati Testastretta with DTV system, twin cylinder "L" type, 4 valves per cylinder.
Bore 106 mm
Stroke 67.9 mm
Displacement 1198.4 cu.cm
Compression 12.5±0.5:1
ratio
Timing Toothed belt type with two overhead camshafts, 4 valves per cylinder with DTV system
system
Lubrication Forced lubrication by pump with two cooling radiators
system
Oil pump Gear type, with bypass valve
type
Cooling Liquid cooling with thermostat
system
Air filter One filtering element in the air-box
Crankshaft One-piece
type
Dimensions
Fuel, lubricants and other fluids
Warning
Failure to observe weight limits could result in poor handling and impair the performance of your motorcycle, and
you may
lose control of the motorcycle.
Fuel, lubricants Type cu.
and other fluids dm(litres)
Fuel tank, Unleaded fuel with 95 RON fuel octane rating (at least) 20
including a For the US market, unleaded fuel with 90 (RON+MON)/2 fuel octane rating (at
reserve of 5 cu. least).
dm(litres)
Oil sump and Ducati recommends you use Shell Advance 4T Ultra 15W-50 oil. As an alternative it 4.10
filter is possible to use a motorcycle engine oil
having the same degree SAE 15W-50 and
meeting the following specifications JASO: MA2 and API: SM.
Front/rear brake SHELL - Advance Brake DOT 4 special hydraulic fluid
and clutch
circuits
Protectant for SHELL - Advance Contact Cleaner spray used to protect electric systems
electric contacts
Front fork SHELL - Advance Fork 7.5 or Donax TA 580 ± 5
g
660 ± 5
cc
Cooling circuit ENI Agip Permanent Spezial antifreeze (do not dilute, use pure) 2.3
(*) Value refers to the air column between oil free surface and sleeve end, with sleeve in fully lowered position and
without
spring and preload tube inside fork leg.
Important
Do not use any additives in fuel or lubricants. Using them could result in severe damage of the engine and
motorcycle components.
Warning
The motorcycle is only compatible with fuel having a maximum content of ethanol of 10% (E10). Using fuel with
ethanol content
over 10% is forbidden. Using it could result in severe damage to the engine and motorcycle
components. Using fuel with ethanol
content over 10% will make the warranty null and void.
Engine oil
A good quality engine oil has special properties. Use only a highly detergent engine oil with certified SE, SF or SG
or higher
service ratings as marked on the container.
SAE 15W-50 is an alphanumerical code identifying oil class based on viscosity: two figures with a W ("winter") in-
between;
the first figure indicates oil viscosity at low temperature; the second figure indicates its viscosity at high
temperature.
API (American standard) and JASO (Japanese standard) standards specify oil characteristics.
Frame tightening torque values
Part Thread (mm) Nm ±10% Notes
Tolerance
ACCESSORIES AND OUTFIT
Footpeg — pannier low. bracket retainer M6x1 10 GREASE B
Heat guard to pannier retainer M6x1 8
D-Air accelerometer bracket retainer M5x0.8 3
D-Air accelerometer bracket to fork bottom end retainer M5x0.8 5
STAND
Stand sensor retaining screw M6x1 5 pre-applied threadlocker
Stand retaining screw M8x1.5 18 GREASE B
Central stand retaining screw M18x1.5 50 pre-applied threadlocker
Spring retainer pin M6x1 10 LOCK 2
CHAIN - FRONT SPROCKET
Sprocket retaining nut M25x1.5 186 ± 5% GREASE B
Sprocket cover retaining screw M6x1 6 LOCK 2
LIGHTS
Headlight to front subframe retainer M5x0.8 5 LOCK 2
Tail light retaining screw M5x0.8 5
Rear turn indicator retaining screw M5x0.8 3 LOCK 2
Left rear-view mirror retaining screw M10x1.25 40
Right rear-view mirror retaining screw with left M10x1.25 40
threading
Front turn indicators on hand guards AF 3.5 0.45
Number plate light retaining screw 1.5
INSTRUMENT PANEL
Retainer on instrument panel Silent Block Manual
M5
Instrument panel retaining nut on panel M5 3
FRONT FORK
Steering head clamp retaining screws M6x1 10* GREASE B - Sequence: 1-
2-1
Screw retaining steering bearing ring nut on head M8x1.25 18* GREASE B
Screw securing handlebar stud bolt on head M10x1.25 45* LOCK 2
Bearing preload ring nut fastener M35x1 30* GREASE B - Sequence: 1-
2-1
Steering stop adjuster lock nut fastener M8x1.25 18
Bottom yoke terminal screws M8x1.25 16* GREASE B - Sequence: 1-
2-1
Handlebar U-bolt retaining screw M8x1.25 25* GREASE B - Sequence: 1-
2-3-4-3
Screw securing front brake hose guide to bottom yoke M6x1 10
SACHS bottom end clamp retaining screws 10* Sequence: 1-2-1
Screws retaining splash guard to bottom yoke M5x0.8 3 pre-applied threadlocker
special screw
Hands free control pin retaining screw M6x1 6 LOCK 2
Bottom yoke to accelerometer fastener M5x0.8 5
Accelerometer to bracket fastener M5x0.8 5
Accelerometer bracket to left fork bottom end fastener M5x0.8 5
Kahaba fork bottom end clamp retainer M8x1.25 19* GREASE B
LH accelerometer bracket to left fork bottom end M5x0.8 5
fastener
ELECTRICAL - ELECTRONIC SYSTEM
Hands-Free retainer M6x1 shear screw LOCK 2
Hands-Free antenna retainer AF4 1
Electrical components support front retaining screws M6x1 10
Rear vibration damping pads to compartment retaining M6x1 5
nuts
Battery bracket retaining screw M5x0.8 5
Front screw retaining starter contactor bracket to AF5 2
compartment
Screws retaining regulator bracket to compartment M6x1 5
Screws securing regulator to bracket M6x1 10
Bosch inertial platform on bracket retainer M6x1 6
Bosch inertial platform on compartment retainer AF4 1
Cable ring to compartment retainer AF4 1
Fuse support bracket fastener AF5 2
Seat lock cover to compartment bracket retainer AF4 1
Seat lock to glove compartment retaining nut M22x1.5 3
Retainer securing battery cables and starter motor to M6x1 4
starter contactor
Central vertical coil to bracket fastener M6x1 9
Central vertical coil to RH frame retainer M5x0.8 5
Horizontal coils to bracket fastener M6x1 9
Central horizontal coils to RH frame retainer M5x0.8 5
LH vertical coil to support bracket fastener M5x0.8 5
Temperature sensor to airbox cover fastener AF3 0.5
Temperature sensor to central conveyor fastener AF3 0.9
Map sensor to lower airbox support retainer AF5 2
Retainer securing horn to support bracket M8x1.25 22
Horn bracket to horizontal cylinder retainer M6x1 10
Power socket to glove compartment retainer M18x1 3
Rear brake STOP switch to support M8x1 5
Power socket to headlight fairing retainer M18x1 3
Starter motor cable retainer M6x1 5 GREASE D
Screw securing ground cable to crankcase M6x1 10
Knock sensor retaining screw M8x1 25
BRAKE SYSTEM: ABS
ABS control unit bracket retaining screws M6x1 5
Front calliper retainer M10x1.25 45* GREASE B
Rear calliper fastener M8x1.25 25* GREASE B
Brake master cylinder and stop sensor bracket to M6x1 10
footpeg holder plate retainer
Fluid reservoir to bracket fastener M5x0.8 2
Rear brake fluid reservoir support to subframe fastener M5x0.8 2
Front brake master cylinder clamp M6x1 10
Retainer securing front brake fluid reservoir to hand M5x0.8 2
guard
Rear brake hose guide to swinging arm fastener M6x1 5
Retainer securing ABS control unit to bracket M6x1 8
Front ABS sensor retainer M6x1 10
Rear ABS sensor retainer M6x1 10
Filler plug on ABS control unit retainer M12x1 32*
Two front calliper bleed screws, one front brake and M6x1 5.5
one rear brake
Front break plug screw retainer M4x0.7 0.7
Filler plug on control unit retainer M10x1 24.5*
Filler plug to front RH calliper Version S M10x1 24.5*
RH front calliper bleed retainer, base version M10x1 24.5*
Front LH calliper to union retainer M10x1 24.5*
Filler plug to front LH calliper Version S M10x1 24.5*
REAR SWINGING ARM
Upper sliding shoe and chain guard retaining screw M5x0.8 5 LOCK 2
Lower chain sliding shoe retaining screw M5x0.8 5 LOCK 2
Eccentric hub screw M12x1.25 35* GREASE B - Sequence: 1-
2-1
Swingarm shaft screw M15x1.25 72* GREASE B
Rear brake calliper holder plate locking pin M12x1.25 33* LOCK 8
Accelerometer to brake line protection fastener AF5 2.5
HANDLEBAR - CLUTCH CONTROL
Clutch master cylinder retaining screws M6x1 10 Sequence: 1(UP)-2-1
Screws retaining hand guard to master cylinder M6x1 10
Screws retaining hand guard to clamp M5x0.8 5
Screws retaining clutch slave cylinder to casing M6x1 10 Sequence: 1-2-3-1
Throttle control retaining screws M5x0.8 4.5
Clutch fluid reservoir retaining screw M5x0.8 2
Handlebar counterweight fastener M6x1 10
Right-hand heated handgrip fastener AF4 2.8 GREASE B
Lower to upper hand guard fastener AF 3.5 0.45
Filler plug to clutch slave cylinder retainer M10x1 24.5*
Clutch bleed on master cylinder retainer M6x1 5.5
REAR SUSPENSION
Rear shock absorber upper retaining screw M10x1.25 50* GREASE B
Rear shock absorber lower retaining screw M10x1.5 42* GREASE B
Screw securing Sachs preload adjuster to support M6x1 10
Angular sensor con-rod to swinging arm support sensor M6x1 5
retainer
Angular sensor to sensor plate retainer M5x0.8 3
Angular sensor plate to engine support retainer AF5 2
FRONT MUDGUARD
Screw securing mudguard to fork M6x1 5
Screw securing hose guide to mudguard M5x0.8 3
LIQUID COOLING
Radiator upper retaining screw M6x1 10
Screw securing cowling bracket on radiator on threaded M6x1 6
pin head
Radiator lower retaining screw M6x1 8
Expansion reservoir retaining screw M5x0.8 5
Tie on water pump hose fastener Ties/clamps 3
Expansion reservoir hose tie on radiator fastener Ties/clamps 1
Expansion reservoir hose tie on reservoir fastener Ties/clamps 1
Water hose clamp on radiator fastener Ties/clamps 3
Horizontal cylinder bleed tie Ties/clamps 1
Water bleeder cap on left casing Ties/clamps 15
FOOTPEGS AND LEVERS
Brake lever and gearbox on frame plate retaining M8x1.25 23 pre-applied threadlocker
screws
Brake lever spacer retaining screw M6x1 10
Screw securing gearbox lever on shaft M6x1 10 LOCK 1
Gearchange transmission rod joint retaining screws M6x1 10
Passenger footpeg holder retaining screws M8x1.25 24 pre-applied threadlocker
Brake lever rear lug pivot screw M6x1 5 LOCK 2
Brake lever adjuster screw nut M6x1 5
Brake master cylinder control rod nut M6x1 7.5
RH and LH footpeg holder plates to subframe retainer M10x1.5 42
LH footpeg holder plate to engine retainer M10x1.5 42
REAR MUDGUARD
Screw securing mudguard to swinging arm right side M5x0.8 5
Screw securing mudguard to swinging arm+brake hose M5x0.8 5
guide
Screw securing carbon mudguard to swinging M5x0.8 5
arm+hose guide (PP)
Screw securing carbon mudguard to swinging arm right M5x0.8 5
side (PP)
Screw securing splash guard to swinging arm M6x1 10 pre-applied threadlocker
FRONT WHEEL
Screw securing brake discs and phonic wheel to wheel M8x1.25 30* LOCK 2
rim
Wheel shaft retaining nut M25x1.25 63* GREASE B underhead and
Pin thread
Front wheel (angle) valve retaining nut M8x1.25 9 LOCK 2
REAR WHEEL
Screw securing phonic wheel to disc M5x0.8 5 pre-applied threadlocker
Brake disc retaining screw M8x1 27 pre-applied threadlocker
Right and left rear wheel retaining screw 230
Silentblock retaining nut M10x1 44 LOCK 2
Rear wheel valve retaining hexagon nut M8x1.25 9
FUEL TANK
Fuel tank plug retaining screw M5x0.8 4
Front block retaining screws M6x1 10
RH and LH plates to tank support retainer M6x1 5
Fuel sensor ring nut retainer 8
GAC retaining nuts M5x0.8 6
Tank support to engine special screw/nut retainer M6x1 5
Bracket to canister support retainer with blind nuts M6x1 5
Canister support to engine fastener M5x0.8 5
EXHAUST
Right and left con-rod to pre-silencer fastener M6x1 10
Right and left con-rod to footpeg holder fastener M6x1 10
CO plug G 1/8 25
Pre-silencer to vertical pipe retainer 18
Lambda sensor fastener M18x1.5 24.5
Motor support to subframe plate retainer M5x0.8 5
Retainer securing valve motor to support AF4 2
Bowden cable adjuster to exhaust retaining nut M6x1 2.5
Nut securing exhaust to vertical head M6x1 10
Nut securing exhaust to horizontal head M6x1 10
Heat guard nut tightening M6x1 5
Plastic heat guard to glove compartment retainer M5x0.8 5
Plastic heat guard to glove compartment retainer AF4 2
Silencer central cover to split tail pipe silencer retainer M5x0.8 5
Upper and lower cover to silencer fastener M5x0.8 5
Split tail pipe clamp retainer M8x1.25 22 GREASE B
Secondary air system actuator to airbox fastener AF5 2
RH silencer con-rod to subframe plate retainer M6x1 10
SEAT
High seat RH and LH aesthetic support retaining screws M5x0.8 4
High seat support retaining screws M5x0.8 4
Rider seat adjustment eccentric retaining screw M5x0.8 2
Passenger rider seat spacer retaining screw M5x0.8 2
Seat latch special retaining screw M6x1 8
FRAME
Frame-plate adjuster retaining screws M10x1.5 50* GREASE B
Frame to engine front retaining screw with special nut M12x1.5 60* GREASE B
Frame to engine rear retaining screw with special nut M2x1.5 60* GREASE B
Adjuster retainer M 20x1 80* GREASE B
Rear subframe RH and LH to crankcase lower retainer 10x1.25 42* LOCK 8
Rear junction plate retainer M6x1 10 LOCK 2
Side pannier plate to rear subframe retainer M6x1 10
RH and LH side panels to RH and LH rear subframe M5x0.8 5
special retaining screws
Subframe junction upper plate retainer M8x1.25 25* GREASE B
Glove compartment to rear subframe retainer M8x1.25 18
RH and LH retainer to rear subframe M5x0.8 2
Screw retaining front subframe to frame on steering M8x1.25 25
tube
Adjuster pre-tightening M20x1 0.6
Swinging arm pivot plug retainer M22x1.5 50
RH and LH heat guard to rear subframe plate retainer AF4 1
OIL COOLER
Fastener securing union to oil cooler M14x1.5 23 LOCK 1
Pipe to radiator union retainer M16x1.5 18* Lubricate with engine oil
Radiator upper retainer M6x1 5
Fastener securing pipe plate on casing M6x1 10 LOCK 2
Pressure switch fastener M14x1.5 19* Lubricate with engine oil
Temperature sensor fastener M8x1.25 9
AIR INLET/OIL BREATHER
Throttle body assembly to airbox fastener M5x0.8 5
Blow-by to airbox retainer AF5 3
Wiring cover to airbox fastener AF5 3
Upper to lower airbox retainer AF5 3
Airbox filter cover retainer AF5 3
Blow-by pipe clamp 2
Connector bracket fastener AF5 2
FUEL SYSTEM
Retainer securing funnels to throttle bodies M5x0.8 5
Bosch injector cap retainer M5x0.8 5
Airbox to intake manifolds retaining clamps 2.5
FAIRINGS
Headlight fairing to headlight retainer M5x0.8 3
Central conveyor to cover retainer AF5 2
Conveyor lower panel to upper cover retainer M5x0.8 2
Tank cover assembly to upper cover retainer M5x0.8 2
Tank cover to RH and LH conveyor retainer M5x0.8 2
Tank cover assembly to tank retainer M5x0.8 4
RH and LH panels to rear subframes retainer M5x0.8 5
RH and LH cowling structure retainer M5x0.8 2
Right and left cowling to radiator bracket fasteners M5x0.8 5
Right and left cowling bracket to radiator fastener M6x1 6
Screw securing thermoformed windscreen to support M5x0.8 3
Windscreen support block retainer AF 4.5 2
Sump guard RH bracket to crankcase fastener M6x1 10
Sump guard LH bracket to crankcase fastener M6x1 10
LH and central RH sump guard retainer M5x0.8 5
Right and left sump guard to brackets fastener M5x0.8 5
Sump guard to footpeg holder plate RH and LH M8x1.25 20
retainers
Sump guard on lower vibration damping pad fastener M8x1.25 24
Panel support to front subframe retainer M6x1 3
Front subframe to panel fixed support retainer M6x1 3
Rod to windscreen support fastener M10x1 2 LOCK 2
Windscreen support release retainer M5x0.8 3 LOCL 1
Engine tightening torque values
Thread Thread
Description Torque (Nm) Notes
length pitch
Head
VVT blanket plug M22x1 20 18 22
Fixed and mobile tensioner pin M20x1 50 45 55 LOCK 2 or TB1324
OCV oil filter plug M16x1 20 22.5 25 Motor Oil
Temperature sensor on water LOCK 4 - Hold insert while
M12x1.5 20 23 26
union tightening
Rocker arm shaft blanking plug M12x1.5 15 14 16 LOCK 2
Timing variator securing screw M11x1
Snug torque 20 Nm
Angular backlash manual check
Tightening 90 Nm
Angular backlash manual check
Nut for head/cylinder stud bolt M10x1.5
GREASE C on nut underhead and
Snug torque 20
on stud bolt thread
Preload torque 40 38 42
Tightening torque 60 57 63
Camshaft cap retaining screw M8x1.25 Apply engine oil
Preload torque 10 9 11
Tightening torque 22.5 21 25
Knock sensor M8x1.25 25 22.5 27.5
Exhaust manifold stud bolt M6x1 10 9 11 LOCK 5
OCV retainer M6x1 13.5 12.5 14.5
Horizontal head air breather union M6x1 2.5 2 3 LOCK 2
Secondary air cover retaining
M5x0.8 6 5 7
screw
Head cover retaining special stud
M6x1 10 9 11
bolt screw
Head cover retaining stud bolt
M6x1 10 9 11
special nut
Head cover retaining screw M6x1 10 9 11
Pick-up sensors to head cover
M6x1 8 7 9
retaining screw
Screw securing water unions to Pre-applied threadlocker on new
M5x1 6 5 7
head part - LOCK 2 for reuse
MAP sensor special screw M6x1 5 4 6
Vertical head air breather screw
M6x1 8 7 9 LOCK 2
with washer
Union for canister M6x1 5 4 6
Covers
Water intake union M30x1.5 25 23 27 LOCK 5
Water delivery union M22x1.5 25 23 27 LOCK 5
Wet clutch fluid filler cap M20x2.5 5 4.5 5.5
Pick-up inspection screw M12x1 15 13 17 LOCK 2
Water pump cover plug M10x1 15 13.5 16.5
Clutch recess blanking plug +
M10x1 11 10 12
washer
Water pump bearing retaining
M6x1 10 9 11
screw
Timing inspection cover screw M6x1 5 4.5 5.5
Alternator cover closing screw M6x1 13 12.5 14.5
Water pump cover closing screw M6x1 13 12.5 14.5
Water pump closing screw (blind
M6x1 13 12.5 14.5
hole)
Generator stator retaining screw M6x1 10 9 11 LOCK 2
Clutch cover closing screw M6x1 13 12.5 14.5
Radial pick-up retaining screw M6x1 10 9 11
Soundproofing panel retaining
M6x1 12 10 14
screw
Casing
Oil cartridge M16x1.5 11 10 12 Engine oil on seal
Nipple for oil cartridge M16x1.5 42 38 46 LOCK 2 or TB1324
Oil intake service hole plug M16x1.5 24 21 27 LOCK 5
Oil drain plug with magnet M12x1.5 20 18 22 TB1215
Clutch casing oil delivery channel
M10x1.5 15 13 17 LOCK 5
blanking plug
Clutch oil channel tapered plug M10x1 20 18 22 LOCK 5
Clutch casing inner oil channel
M10x1.5 15 13 17 LOCK 5
grub screw
Roller bearing bush hole blanking
M10x1.5 20 18 22 LOCK 2 or TB1324
tapered plug
Cylinder/head stud bolt M10x1.5 30 28 32 LOCK 2 or TB1324
Casing jointing screw in cylinder
M10x1.5
area
Preload torque 19 17 21 GREASE B on thread
Tightening torque 25 22 28
Casing central jointing screw +
M8x1.25
swinging arm shaft
Preload torque 19 17 21 GREASE B on thread
Tightening torque 25 22 28
Gear stopper lever retaining screw M8x1.25 18 16 20 LOCK 2 or TB1324
Special dowel for roller bearing
M8x1.25 16 15 17 LOCK 2 or TB1324
bush
Blow-by valve retaining screw M6x1 10 9 11
Secondary bearing (chain side)
M6x1 10 9 11 LOCK 2 or TB1324
stopper screw
Primary bearing (clutch side)
M6x1 10 9 11 LOCK 2 or TB1324
stopper screw
Casing jointing screw in idle gear
M6x1 10 9 11
shaft area
Casing outer jointing screw M6x1 10 9 11
Mesh filter cover TSPEI - TEF
M6x1 9 8 10
screws
Radial pick-up inspection screw M6x1 10 9 11
Oil channel service hole screw on
M6x1 5 4 6
chain casing
Blow-by valve upper shell screw M3x0.5 1.2 1 1.4 LOCK 5
Nut retaining oil adjustment screw
M8x1 10 9 11
to clutch
Oil squirter under piston retaining
M5x0.8 8 7 9 LOCK 2 or TB1324
screw
Electric starter
Starter motor inner retaining TCEI Pre-applied threadlocker on new
M6x1 10 9 11
- TCEIF screw part - LOCK2 for reuse
Starter motor outer retaining
M6x1 10 9 11
screw
Pre-applied threadlocker on new
Starter motor rear retaining screw M6x1 10 9 11
part - LOCK2 for reuse
Idle gear shaft retaining screw M6x1 10 9 11 LOCK 2 or TB1324
Connecting rods
Flywheel retaining nut M28x1.5
Tightening to torque 150 Nm
Loosen the nut LOCK 5
Tightening to torque 330 Nm
Primary sprocket retaining ring
M24x1 190 171 209 GREASE B
nut
Balancing plug M12x1.25 28 26 30
Connecting rod
Apply grease to the screws GREASE B
35 Nm to 50
Tightening
rpm
Pause and loosening by 360° 2 sec.
Snug torque 20 Nm to 30
rpm
35 Nm to 10
Snug torque
rpm
65° ± 1° at
Tightening
14 rpm
Torque check 70 ± 113
Nm
Gear selector control
Gearbox drum positioning screw M16x1.5 30 27 33
Gearbox pawl screw M8x1.25 36 34 38 LOCK 2 or TB1324
Pawl positioner retaining nut M6x1 10 9 11
Gearbox pawl screw M6x1 16 15 17 LOCK 2 or TB1324
Gear sensor M12x1.25 12 11 13
Timing system
Timing layshaft belt roller ring nut M15x1 71 64 78 GREASE A
Camshaft gear nut M14x1 55 50 60 GREASE A
Fixed and mobile tensioner
M8x1.25 25 22 28 GREASE A
retaining nut
Pre-applied threadlocker on new
Plastic cover retaining screw M6x1 10 9 11
part - LOCK2 for reuse
Gearbox and clutch
FCC clutch drum nut M25x1.5 190 180 200 GREASE B
FCC wet clutch spring screw M6x1 10 9 11
Ignition
Spark plug M10x1 12 11 13
Pre-applied threadlocker on new
Rotor to flywheel retaining screw M5x0.8 13 11 15
part - LOCK2 for reuse
Oil pump
Oil pump retaining screw M8x1.25 26 23 29
Oil pump assembling screw M6x1 10 9 11
Oil pump retaining screw M6x1 10 9 11
Cylinders
Water delivery union M22x1.5 25 23 27 LOCK 5
Cooling circuit
Water circuit ties 2.5 2 3
Diagnosis special tools
PART NO. DESCRIPTION IMAGE
28620441A "PC HASP DDS2.0" wrench
979000252 DDS 2 (Ducati Diagnosis System 2.0)
979000253 Belt tensioning
979000254 Diagnosis and power supply cable
979000255 Diagnosis and power supply cable (CAN)
979000256 Power supply cable from DDS battery
Frame special tools
PART NO. DESCRIPTION IMAGE
80007.0139 Front wheel shaft wrench
88713.1058 Wrench to fit steering tube plug
88713.1062 Steering tube bearing installation tool
88713.1074 Swingarm shaft removal tool
88713.1515 Frame/engine support
88713.2409 Ball bearing installation tool
88713.2951 Rear wheel balancing tool
88713.3211 Eccentric hub adjusting wrench
88713.3396 Engine repair work bench
88713.3501 Tank level sensor plug tightening wrench
88713.3526 Frame ring nut wrench
Engine special tools
PART NO. DESCRIPTION IMAGE
88713.0869 Water pump front seal installation tool
88713.0870 Water pump front seal counter-washer installation tool
88713.1010 Exhaust gas suction fitting
88713.1749 Puller for driving pulley and cover
88713.1805 Driving pulley tightening tool
88713.1821 Tensioner pin wrench
88713.1832 Engine repair work bench
88713.1920 Tool to install O-rings on engine block stud bolts
88713.1994 Rocker arm shaft puller
88713.2011 Tool to block crankshaft at Top Dead Centre (TDC)
88713.2103 Bearing surface for head installation
88713.2442 Tool to install seal ring on valve guide
88713.2834 Snap ring installation tool
88713.2861 Seal installation tool
88713.2870 Con-rod guiding tool
88713.2877 Spark plug wrench
88713.2906 Oil cartridge wrench
88713.3219 Reaction tool for pulley tightening
88713.3334 Selector fork positioning plate
88713.3352 Clutch plate positioning tool
88713.3367 Flywheel wrench
88713.3406 Primary sprocket ring nut wrench
88713.3407 Bushing (gear sensor)
88713.3408 "F clutch housing reaction tool
88713.3417 Reaction wrench
88713.3497 Wrench to tension the belt mobile tensioner
88713.3521 Seal ring installation tool
88765.1000
88765.1005 Fork feeler gauges
88765.1006
88765.1298 Valve lower shim check spacer
88765.1623 Timing pulley positioning tool
88765.1657 Degree wheel holder tool
88713.4964 Cylinder head nut tightening tool
88713.4965 Camshaft O-ring installation tool
88713.4966 Pressure control nozzles
88713.4967 Lever to release the RH and LH switch block
88713.5009 TDC control tool
8876.1737 Camshaft locking tool
Vehicle pre-delivery
Bike pre-delivery
- Check of bike conformity with the purchase agreement (version, model, no aesthetics flaws)
- Check of accessory presence and their operation (if any according to the contract)
- Removal of the protective films from the instrument panel and reminding the Customer that the lens could be
stained if in
contact with oils/fuel
- Hands Free system: use of the keys (active black and passive red) and battery replacement procedure, Key-ON
and Key-OFF,
starting and stopping the engine, engaging and releasing the steering lock
- Pin Code: entering the personal code and emergency starting using the Pin Code (without keys)
- Buttons on the LH switch: high-beam flasher, high beam activation, turn indicator activation and deactivation,
horn activation,
Hazard button (simultaneous flashing of the 4 turn indicators) and relevant warning lights on the
instrument panel
- FULL LED cornering headlight operation (S version only)
- Supplementary LED lights: operation and relevant warning light on the instrument panel (if present)
- Heated handgrips: operation and relevant warning light on the instrument panel (if present)
- Riding mode (Sport-Touring-Urban-Enduro): operation and parameters connected to each Riding Mode
- Cruise Control: operation, enabling/disabling and relevant warning light on the instrument panel
- DTC (Ducati Traction Control): operation, setting to 8 levels + off customisable per each Riding Mode and
relevant warning
light on the instrument panel
- ABS (Antilock Braking System) with cornering function: operation, setting to 3 levels + off customisable per each
Riding
Mode and relevant warning light on the instrument panel
- DWC (Ducati Wheelie Control): operation, setting to 8 levels + off customisable per each Riding Mode and
relevant warning
light on the instrument panel
- DSS (Ducati Skyhook Suspension): operation, setting and variation per each Riding mode. Preload adjustment of
the rear monoshock
in accordance to vehicle load (S version only)
- DMS (Ducati Multimedia System): operation, pairing of the Bluetooth systems (smartphone, navigator, rider and
passenger
earphones), indication on the instrument panel of the missed calls, incoming calls, text
messages/emails and player function
- Adjustment of the windscreen height
- Showing the passenger seat opening location, removal of seats and adjustment of rider seat height
- Showing the location of the tool compartment with the relevant accessories, tyre repair kit and e pannier nipple
kit (if
not installed as accessories)
- Showing the power sockets (front and rear) and USB socket (compartment under the seat)
- Check of the presence and operation of the battery charge and maintainer socket
- Show the correct procedure of assembly/disassembly of side panniers and top-case, their opening and closing (if
present)
- Maintenance schedule (OIL SERVICE 1000, ANNUAL SERVICE/OILSERVICE and additional DESMO SERVICE
operations) with relevant
indications on instrument panel and importance of running-in period for the first 1000
km
- Presentation of the Service Manager with delivery of the business card and entry to the Service structure
- Give the Customer the 2 keys, the log-book, the supplied documents (Service Booklet, bike Use and
Maintenance, Emergency
Road Service) and the bike standard equipment (seat supports, front mudguard
extension, components removed to install the
accessories, accessory catalogue and advertising material)
Scheduled maintenance chart: operations to be carried out by the customer
List of operations and type of intervention km. x1000 1
[set mileage (km/mi) or time interval*]
mi. x1,000 0.6
Months 6
Check engine oil level •
Check brake and clutch fluid level •
Check tyre pressure and wear •
Check the drive chain tension and lubrication If necessary, contact dealer for adjustment •
Check brake pads. If necessary, contact your dealer to replace pads •
* Service operation to be carried out in accordance with the specified distance or time intervals (km, miles or
months), whichever
occurs first.
Operations to be carried out by the dealer
Warning
This scheduled maintenance chart is designed for a road use of the Multistrada. If it is used on the track, even if
not during
sport competitions, all parts of the motorcycle are more stressed so the routine maintenance operations
must be carried out
more frequently than indicated.
List of operations and type of intervention km x 1000 1 12 24 36 48 Time
Months
mi x 1000 0.6 7.5 15 22.5 30
Read the error memory with DDS 2.0 and check of Software version update on control • • • • • 12
units
Check the presence of any technical updates and recall campaigns • • • • • 12
Change engine oil and filter • • • • • 12
Clean the engine oil mesh filter assembly • -
Check and/or adjust valve clearance • • -
Change timing belts • • 60
Change the spark plug • • -
Change air filter • • -
Clean air filter • • -
Clean plugs with metal mesh filters on heads • • -
Check brake and clutch fluid level • • • • • 12
Change brake and clutch fluid 36
Check pad wear and brake discs. Change, if necessary • • • • • 12
Check tightening of the safety components (brake disc flange screws, brake calliper • • • • • 12
screws, front/rear wheel nuts, sprocket
and final drive sprocket nuts)
Check and lubricate the front and rear wheel shaft • • • • • 12
Check wheel hub bearings • • -
Check the drive chain tension and lubrication. • • • • • 12
Check final drive wear (chain, front and rear sprockets) and chain sliding shoes • • • • 12
Check the cush drive damper on rear sprocket • • -
Check steering bearings and lubricate, if necessary • • -
Visually check the front fork and rear shock absorber seals • • • • • 12
Change the front fork fluid • • -
Visually check the fuel lines • • • • 12
Check the freedom of movement and tightening of the side and central stand (if any) • • • • • 12
Check rubbing points, clearance, freedom of movement and positioning of hoses and • • • • • 12
electric wiring in view
Lubricate the levers at the handlebar and pedal controls • • • • 12
Check coolant level • • • • • 12
Change coolant 48
Check electric fan operation • • • • • 12
Check tyre pressure and wear • • • • • 12
Check the battery charge level • • • • • 12
Check idling • • • • • 12
Check the operation of the safety electrical devices (side stand sensor, front and rear • • • • • 12
brake switches, engine stop switch,
gear/neutral sensor)
Check the indicators and lighting • • • • • 12
Reset the Service indication through the DDS 2.0 • • • • • -
Road test of the motorcycle, testing the safety devices (ex. ABS and DTC) • • • • • 12
Softly clean the motorcycle • • • • • 12
Fill out the part dedicated to the Service, once carried out, in the Warranty Certificate • • • • • 12
Warning
This scheduled maintenance chart is designed for a road use of the Multistrada. If it is used on the track, even if
not during
sport competitions, all parts of the motorcycle are more stressed so the routine maintenance operations
must be carried out
more frequently than indicated.
Filling the clutch hydraulic circuit
Warning
Clutch fluid is corrosive and will damage paint. Avoid contact with eyes and skin. In case of accidental contact,
wash thoroughly
with water.
Fill the reservoir with specified fluid taken from an intact container.
Important
During the operation, fluid level must remain at a suitable level at all times. The end of the transparent plastic
hose must
remain immersed in the discharged fluid at all times.
Operate the clutch lever several times to fill the circuit and expel any air.
Pump with the bleeding tool and open the bleed valve (3) making sure that the level does not fall below the MIN
mark.
Repeat the last operation until the fluid flowing from the tube is completely free of air bubbles.
If you do not have a bleeding tool available, connect a transparent plastic tubing to the bleed valve (3) as outlined
in the
draining procedure.
Open the bleed valve by 1/4 of a turn and operate the clutch lever several times until the fluid flows out of the
bleed valve
(3).
Pull the lever fully and then loosen the bleed valve by at least 1/4 of a turn.
Wait for a few seconds; then release the lever gradually while simultaneously closing the bleed valve (3).
Important
Do not release the brake lever until the bleed valve has been fully tightened.
Repeat the bleeding operation until the fluid emerging from the plastic tube is free of air bubbles.
Block to a torque of 10 Nm ± 10% (Min. 9 Nm - Max. 11 Nm) the bleed valve (3) and install the protection cap.
Top up the fluid level to approximately 3 mm above the MIN mark of the reservoir.
Refit cover with membrane (1).
Draining the clutch hydraulic circuit
Warning
Clutch fluid is corrosive and will damage paint. Avoid contact with eyes and skin. In case of accidental contact,
wash thoroughly
with water.
Note
Follow the manufacturer's instructions when using a
commercial clutch bleeding tool.
Remove the cover (1) with the membrane from the clutch fluid reservoir (2).
Open the bleed valve and pump with the bleeding tool until no more fluid flows out.
If you do not have a bleeding tool available, attach a transparent plastic tubing to the bleed valve (3) and insert
the other
end of the tubing in a container for old clutch fluid placed on the floor.
Unscrew the bleed valve by 1/4 of a turn.
Operate the clutch lever until all the fluid has been drained.
To help fully drain the circuit, it is recommended to remove the clutch slave cylinder.
Undo the screws (4) and slide out the clutch slave cylinder (5).
Push the internal piston to force out all the fluid from inside the cap.
Warning
Clutch fluid is corrosive and will damage paint. Avoid contact with eyes and skin. In case of accidental contact,
wash thoroughly
with water.
Remove the cover (1) with the membrane from the clutch fluid reservoir (2).
Siphon the fluid from the reservoir (2).
Fill the reservoir (2) with new fluid up to the MAX mark.
Warning
Do not dispose of exhausted oil into the environment
Smaltimento
Do not dispose of the exhausted fluid into the environment; do not pour the product, either new or exhausted,
inside drains,
water courses or the soil. Collect and deliver waste to authorized collecting centres. Dispose of waste
in compliance with
the prevailing local and national standards.
European Waste Catalogue Codes recommended for waste disposal as indicated by Decision No 2001/118/EC: CER
13 02 05* (Mineral-based
non-chlorinated engine, gear and lubricating oils waste).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Operate the lever two or three times until the circuit is pressurised.
Hold the lever pulled towards the handgrip.
Attach a transparent plastic tubing to the bleed valve (3) and insert the other end of the tubing in a container
placed on
the floor.
Open the bleed valve (3) to allow fluid to flow out.
Warning
During the filling operation, always keep the fluid level above the MIN mark to avoid any air bubbles in the circuit.
Allow the fluid to flow from the bleed valve (3) until it changes colour.
Screw bleed valve (3) again, and tighten it to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm) and restore fluid
correct level
inside reservoir.
Adjusting the rear shock absorber
The rear shock absorber used on this motorcycle has rebound (return), compression and spring preload
adjustment.
When carrying a passenger and luggage, set the rear shock absorber spring to proper preload to improve
motorcycle handling
and keep safe clearance from the ground.
You may find that rebound damping needs adjusting as well.
The shock absorber is adjusted by electric impulses sent by the instrument panel to the adjusters inside the shock
absorber
body.
Warning
The shock absorber is filled with gas under pressure and may cause severe damage if taken apart by someone
who is unskilled.
Front fork adjustment
The front fork used on this motorcycle has rebound, compression and spring preload adjustment.
Put the motorcycle on the side stand and make sure it is stable.
Fork is adjusted by means of electric impulses output by the instrument panel to adjusters inside the legs.
Adjusting the position of the gearchange pedal and rear brake pedal
The position of the gear change and rear brake pedals in relation to the footpeg can be adjusted to suit the
preferred riding
position.
To adjust the position of the gearchange pedal, proceed as follows:
hold the linkage (1) and slacken the lock nuts (2) and (3).
Fit an open-end wrench to hexagonal element of linkage (1) and rotate until setting pedal in the desired position.
Tighten both lock nuts onto linkage.
Lever (1) disengages the clutch. It features a dial adjuster (2) for lever distance from the twistgrip on handlebar.
The lever distance can be adjusted through 10 clicks of the dial (2). Turn clockwise to increase lever distance.
Turn the adjuster counter clockwise to decrease lever distance.
When the clutch lever (1) is operated, drive from the engine to the gearbox and the drive wheel is disengaged.
Using the clutch
properly is essential to smooth riding, especially when moving OFF.
The same adjustment can be made also for front brake control (3).
Warning
Any adjustment of clutch and brake levers must only be carried out when the vehicle is stationary.
Checking rear brake pad wear and replacing brake pads
Warning
The following procedure applies to both vehicle versions.
Check through the slot between the two calliper halves, and make sure that at least 1 mm of the friction material
on pads
is visible.
Important
Change both pads even if just one of them is worn.
Working on the LH side, push the retaining pin (2) until it comes out completely.
Remove the brake pads (3) by pushing the calliper pistons fully inside their seats.
Fit the new pads.
Insert pin (2) and fix it by means of the safety split pin (1).
Operate the brake pedal repeatedly so that the pads firmly bed in against the disc thanks to the brake fluid
pressure.
Check that the fluid level inside reservoir (4) is between the MIN and MAX marks.
If this is not the case, unscrew the plug (5) of reservoir cover (4) and top up.
Warning
Do not dispose of brake pads into the environment.
Smaltimento
Do not dispose of waste into the environment. Collect and deliver waste to authorized collecting centres. Dispose
of waste
in compliance with the prevailing local and national standards. European Waste Catalogue Codes
recommended for waste disposal
as indicated by Decision No 2001/118/EC: CER 16 01 12 (Brake pads, other than
those mentioned under item 16 01 11).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Checking front brake pad wear and replacing brake pads
Warning
Brake fluid is corrosive and will damage paint. Avoid contact with eyes and skin. In case of accidental contact,
wash thoroughly
with water.
Important
On handing over the motorcycle after changing the brake pads,
inform the Customer that the front brake must be
used gently
for the first 100 km to allow the pads to bed in completely.
Check through the calliper slot and make sure that the friction material on pads (1) is visible.
Important
Change both pads even if just one of them is worn.
Undo the two retaining screws (2) of calliper (4) and recover spacers (3).
Remove the front calliper.
Note
Change pads that have a shiny or "vitrified" appearance.
Insert the calliper of the front disk and use the indicated product to lubricate the two screws (2).
Tighten the two screws (2) to a torque of 45 Nm ± 5%.
Operate the brake lever repeatedly so that the pads firmly bed in against the disc thanks to the brake fluid
pressure.
Check that the level in the master cylinder tank is not below the MIN mark.
If necessary, top up as follows.
Turn the handlebar so that the reservoir is levelled.
Remove the cover (5) with membrane from the front brake fluid reservoir (6) by loosening the screws (7).
Top-up with specified fluid until reaching the Max. mark.
Warning
Do not dispose of brake pads into the environment.
Smaltimento
Do not dispose of waste into the environment. Collect and deliver waste to authorized collecting centres. Dispose
of waste
in compliance with the prevailing local and national standards. European Waste Catalogue Codes
recommended for waste disposal
as indicated by Decision No 2001/118/EC: CER 16 01 12 (Brake pads, other than
those mentioned under item 16 01 11).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Adjusting the chain tension
Move the bike slowly so as to find the position where chain upper section is more tensioned.
Set the motorcycle on the side stand.
Measure chain tension at the centre of the lower section, with the motorcycle on the side stand: lower the chain by
pressing
down on it only with your finger, release it and measure the distance between the centre of the chain
pins and the aluminium
section of the swingarm.
It must be: A = 38 ÷ 40 mm.
To adjust the tension remove the rear splash guard (Removing the splash guard).
Slacken off the two screws (1) that secure the rear wheel hub to the swinging arm.
Note
To make the procedure clearer the rear wheel has been removed.
Using pin wrench (A) no. 88713.1038 inserting its tooth in the eccentric hub (2).
Rotate the eccentric hub (2) to obtain the correct chain tension.
Turn counter clockwise to tighten the chain; clockwise to loosen (from chain side view).
Important
An incorrectly tensioned chain will lead to early wear of the
transmission components.
If the screws (1) are removed, lubricate with specified grease underside and thread, then tighten the screws (1) to
a torque
of 35 Nm ± 5% proceeding with sequence 1-2-1.
Warning
Correct tightening of swinging arm screws (1) is critical to rider and passenger safety.
Refit the rear splash guard (Refitting the splash guard).
Adjusting the steering head bearing play
Excessive handlebar play or shaking fork in the steering head indicate that the play of the steering head bearings
requires
adjustment. Proceed as follows:
Loosen the clamp screw (1) that holds the steering tube to the steering head.
Slacken the clamp screws (2) securing the steering head to both fork legs.
Using the special tool (A) part no. 88713.1058 lock the ring nut (3) to a torque of 30 Nm ±5%.
Push the steering head against the ring nut (3) and tighten the screw (1) to a torque of 18 Nm ±5% and screws
(2) following
a (1-2-3) sequence to a torque of 10 Nm ±5%.
Changing the fluid in the rear brake system
Undo the screws (2) and remove the hose cover (3).
Release hose (4).
Unscrew the cover (6) of the rear brake fluid reservoir (7).
Fill the reservoir (7) with new oil up to the MAX mark.
Refit the membrane (without the plug) on the reservoir to avoid brake fluid splashes during the following
operations.
Warning
After draining the old fluid from the reservoir and while filling
the system, always keep the fluid level above the
MIN mark to
avoid any air bubbles in the circuit.
Note
If bleeding tool is not available, move back calliper pistons as well.
Repeat the above operations until finishing all the fluid contained inside package (approx. 250 cc).
Make sure that, with bleed valves duly closed, pressure is correctly developed through brake pedal.
Tighten bleed valves (10) to a torque of 12 Nm ± 10%.
Use a piece of paper towel and clean the hole of bleeder cap to remove any residues of fluid and then refit the
rubber cap.
Warning
Dispose of oil and/or filter cartridges in compliance with environmental protection regulations.
Smaltimento
Do not dispose of the exhausted fluid into the environment; do not pour the product, either new or exhausted,
inside drains,
water courses or the soil. Collect and deliver waste to authorized collecting centres. Dispose of waste
in compliance with
the prevailing local and national standards.
European Waste Catalogue Codes recommended for waste disposal as indicated by Decision No 2001/118/EC: CER
13 02 05* (Mineral-based
non-chlorinated engine, gear and lubricating oils waste).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Warning
The following procedure applies to both vehicle versions.
Warning
Brake fluid is corrosive and will damage paint. Avoid contact with eyes and skin. In case of accidental contact,
wash thoroughly
with water.
Remove the cover (1) with membrane from the front brake fluid reservoir (2) by undoing the screws (3).
Siphon the fluid from the reservoir (2).
Important
Refit the membrane (without the plug) on the reservoir to avoid brake fluid splashes during the following
operations.
Move the brake calliper pistons back: to do so, loosen screws (4) that retain the callipers on the fork bottom ends.
Take calliper pads apart and during this operation be careful with the fluid level, which must always be sucked out
each time
it flows back in the reservoir.
Once all pistons of both callipers are fully moved back and all the fluid in the reservoir has been sucked out,
connect a
transparent tube to the RH calliper bleed valve (5) and set the other end in a container placed on the
floor.
Fill the front brake fluid reservoir with new fluid up to the MAX mark.
Pull the lever to make a 20 - 30 mm stroke and keep the lever in this position using a non-elastic clamp until clear
brake
fluid (new) flows out.
Loosen the bleed valve of the LH calliper and then take the lever through the whole stroke to allow fluid to flow
out.
The lever is resting against the handgrip.
Tighten the bleed valve (5) to a torque of 12 Nm ± 10% and then release the lever.
Use a piece of paper towel and clean the hole of bleeder cap to remove any residues of fluid and then refit the
rubber cap.
Repeat the above operation until the old fluid flows out completely.
In particular, to completely eliminate any air possibly trapped at the highest point of the front brake master
cylinder, perform
the same procedure on the bleed valve (6).
Then, with the bleed valve definitely closed, repeatedly pull the lever until a pressure is detected in the brake
system.
Warning
After draining the old fluid from the reservoir and while filling
the system, always keep the fluid level above the
MIN mark to
avoid any air bubbles in the circuit.
Warning
Dispose of oil and/or filter cartridges in compliance with environmental protection regulations.
Smaltimento
Do not dispose of the exhausted fluid into the environment; do not pour the product, either new or exhausted,
inside drains,
water courses or the soil. Collect and deliver waste to authorized collecting centres. Dispose of waste
in compliance with
the prevailing local and national standards.
European Waste Catalogue Codes recommended for waste disposal as indicated by Decision No 2001/118/EC: CER
13 02 05* (Mineral-based
non-chlorinated engine, gear and lubricating oils waste).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
To complete the ABS system bleeding, after performing the standard bleeding of the just-described front braking
system and
after changing the rear brake circuit fluid, perform the procedure described in "Bleeding of the ABS
hydraulic system".
Change coolant
Warning
Make sure the engine is cold before proceeding. Attempting to change the coolant with the engine hot could lead
to burns from
hot coolant or scalding steam.
Place a container under the engine and set the motorcycle on its side stand.
Remove the water radiator plug.
Connect a clamp to the expansion reservoir/water radiator pipe.
This is to isolate the expansion reservoir preventing water from flowing out.
Wait several minutes for the coolant to fill all the internal passages.
Start the engine and wait for the coolant to reach 110 °C; run the engine for about 10 minutes.
Stop the engine and allow it to cool down so that all the air is expelled from the circuit.
Warning
Keep your hands, clothing and tools well clear of the radiator fan at all times; this fan starts automatically without
warning
and could cause serious injury or damage.
Important
Check the circuit for possible leaks.
Top up the coolant through the expansion reservoir filler to bring the level up to the MAX. mark.
Check the coolant level contained in the expansion reservoir, on the right-hand side of the vehicle at the intervals
specified
in the "Scheduled maintenance chart".
The correct level must be between the MAX and MIN marks on the reservoir.
If the level is low, top up with the recommended coolant.
Remove the filler plug (1) and top up with new coolant to the specified level.
Refit the plug (1).
For optimal operating conditions (coolant mixture starting to freeze at 20 °C), the recommended coolant should
be mixed with
water in the following percentages:
ANTIFREEZE: 35÷40% of the volume;
WATER: 65÷60% of the volume.
Important
Very hard water with a high mineral salt content can damage the engine.
Increase the amount of antifreeze to up to 55% volume in the case of very cold climates.
Important
Solutions with less than 30% of antifreeze will not provide sufficient protection against corrosion.
Warning
Do not dispose of coolant into the environment.
Smaltimento
Do not dispose of the waste into the environment; do not pour the product, either new or exhausted, inside drains,
water courses
or the soil. Collect and deliver waste to authorized collecting centres.
Dispose of waste in compliance with the prevailing local and national standards.
European Waste Catalogue Codes recommended for waste disposal as indicated by Decision No 2001/118/EC: CER
16 01 14* (Antifreeze
fluids containing dangerous substances).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Changing and cleaning the air filters
Remove the wiring cover (1) by loosening the two retaining screws (2).
Release the wiring from the airbox.
Loosen the four retaining screws (3) and remove cover (4).
Important
A clogged air filter will reduce air intake and engine
power, increase fuel consumption and cause a build up of
deposits on the spark plugs. Do not use the motorcycle without a filter as impurities in the
air could get into the
engine and cause damage.
Note
Do not dispose of replaced filters into the environment.
Smaltimento
If filtering element is replaced, do not dispose of waste into the environment. Collect and deliver waste to
authorized collecting
centres. Dispose of waste in compliance with the prevailing local and national standards.
European Waste Catalogue Codes recommended for waste disposal as indicated by Decision No 2001/118/EC: CER
15 02 02* (Absorbents,
filter materials (including oil filters not otherwise specified), wiping cloths, protective
clothing contaminated by dangerous
substances).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Remove the external timing belt covers (Removing the timing belt external covers).
Once the check has been carried out, refit filter (7), start (without tightening) screws (6), and refit the horizontal
timing
belt cover (8) on the horizontal piston-cylinder assembly.
Check the colour of the ceramic insulation around the central electrode: an even, light brown colour indicates the
engine
is in good condition and running at the right temperature.
Inspect the centre electrode for wear and check spark plug gap, which should be: 0.8 ÷ 0.1 mm.
Important
Check the gap between the central and side electrodes. Replace
the spark plug if measured value is different from
the specified
one or the spark plug shows clear signs of carbon deposits.
Warning
Do not use spark plugs with inadequate heat rating or
incorrect thread length.
The spark plug must be securely installed.
If a spark plug is loose, it can overheat and damage the
engine.
Slide out caps (1) of the horizontal head and cap (2) of the vertical head using tool no. 88713.2877.
Replace the spark plugs with new ones and tighten them to a torque of 12 Nm (Min. 11 Nm - Max. 13 Nm).
Warning
Do not dispose of waste components into the environment.
Smaltimento
Do not dispose of waste into the environment. Collect and deliver waste to authorized collecting centres. Dispose
of waste
in compliance with the prevailing local and national standards. European Waste Catalogue Codes
recommended for waste disposal
as indicated by Decision No 2001/118/EC: CER 16 01 22 (components not
otherwise specified).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Remove the external belt covers (Removing the timing belt external covers).
Remove the cylinder head covers (Removing the head covers).
Remove the timing belts (Removing the mobile tensioner/timing belt).
Working on the generator cover (1) loosen the screws (2) and remove cover (3).
For better clarity, some of the following figures show the engine removed from the frame.
Use tool no. 88765.1523 to rotate the crankshaft in the vehicle direction of travel (by looking the tool from the
front side, counter clockwise),
to bring the horizontal cylinder piston to the TDC.
In this condition, the check tool (A) no. 88713.5009 fitted on the timing layshaft pulley must perfectly match with
the crankcase holes.
If this is not the case, rotate the crankshaft until reaching the TDC again and try refitting the tool.
For this type of engine, there is just one TDC that allows performing a correct timing.
When the timing is correct, fit tool (B) no. 88713.2011 to block the crankshaft.
Check the variators alignment, i.e. they must be flush with the "head flat surface".
Fit the belt (7) as shown in the figure using a screwdriver to tension it.
If previously removed, fit the chain tensioner (8), washer (9) and tighten it by means of nut (10).
Do not tighten to torque.
Remove tool (C) part no. 88765.1737 and fit it on the horizontal head.
Check on the variators (11) that the references are aligned with the "head flat surface".
Fit the belt (12) in the horizontal head as shown in the figure using a screwdriver to tension it.
If previously removed, fit the chain tensioner (13), washer (14) and tighten it by means of nut (15).
Do not tighten to torque.
Remove the camshaft locking tool.
Check the horizontal head belt tension in the indicated point (D).
Tension the belt according to the values indicated in the table.
Reference Assembly Value Assembly Value
(new belt) (used belt)
Cold belt tension adjustment DDS 2 90 ± 5 Hz (horizontal) 80 ± 5 Hz (horizontal)
90 ± 5 Hz (vertical) 80 ± 5 Hz (vertical)
Check the vertical cylinder belt tension in the indicated point (E).
Tension the belt according to the values indicated in the table.
Reference Assembly Value Assembly Value
(new belt) (used belt)
Cold belt tension adjustment DDS 2 90 ± 5 Hz (horizontal) 80 ± 5 Hz (horizontal)
90 ± 5 Hz (vertical) 80 ± 5 Hz (vertical)
Note
With used belt we mean after the first heating up of the engine.
Note
For better clarity, some of the following figures show the engine removed from the frame.
Bring the horizontal cylinder to the TDC and proceed as described in chapter "Timing"
Then, all valves are closed and the camshafts are in rest position, i.e. free to rotate.
Using a feeler gauge, check the clearance between the closing rocker arm (C) sliding shoe and the highest point of
the camshaft
lobe (D).
The value must be within the prescribed ones.
VALVES CLOSING CLEARANCE (mm)
INTAKE 0.05 ÷ 0.10
EXHAUST 0.05 ÷ 0.10
If not, remove the closing shim (2), as described in paragraph "Removing the valves", and replace it with one of
suitable height to obtain the prescribed clearance.
Note
Opening rocker arm shims measuring 1.80 to 3.45 are available as spare parts: the size is punched on the shim.
Using a feeler gauge, check the clearance between the opening rocker arm (A) and the lowest point of the
camshaft lobe (B).
The value must be within the prescribed ones.
VALVES CLOSING CLEARANCE (mm)
INTAKE 0.13 ÷ 0.18
EXHAUST 0.13 ÷ 0.18
If not, remove the opening shim (1), as described in paragraph "Removing the valves", and replace it with one of
suitable height to obtain the prescribed clearance.
Note
Opening rocker arm shims measuring 1.80 to 3.45 are available as spare parts: the size is punched on the shim.
Bring the vertical cylinder to the TDC. Repeat the operations performed on the vertical head for the horizontal
head.
Changing the engine oil and filter cartridge
Note
This operation has to be carried out with hot engine (but turned off)
because the oil in these conditions is more
fluid and comes out faster and completely.
Warning
Dispose of oil and/or filter cartridges in compliance with environmental protection regulations.
Smaltimento
Do not dispose of the waste into the environment; do not pour the product, either new or exhausted, inside drains,
water courses
or the soil. Collect and deliver waste to authorized collecting centres. Dispose of waste in
compliance with the prevailing
local and national standards. European Waste Catalogue Codes recommended for
waste disposal as indicated by Decision No 2001/118/EC:
CER 13 02 05* (Mineral-based non-chlorinated engine,
gear and lubricating oils): CER 16 01 07* (Oil filters).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Remove any metal deposits from the end of the magnetic drain plug (1). Clean the thread of the drain plug and
apply the indicated
product. Refit the drain plug complete with gasket (A) to the sump.
Once the oil sump is completely empty, proceed as follows:
Remove the oil sump filter cartridge (2) using service tool part no. 88713.2906.
Important
Dispose of the used filter, do not re-use it.
Fit a new cartridge (2), using tool part no. 88713.2906 taking care to lubricate seal with engine oil.
Note
As an alternative, it is advisable to refill the filter cartridge with engine oil before fitting it: this enables the
recommended
oil level to be maintained without topping up.
Every two oil changes, clean the oil intake mesh filter.
Loosen the four screws (3) of the external cover (4) and remove it.
Remove the filtering element (5) and check the O-rings (6) and (7), and replace them if necessary.
Clean the filter with fuel and compressed air. Take care not to damage the mesh.
Position O-ring (7) on the crankcase and O-ring (6) on the mesh filter (5).
Refit the mesh filter (5).
Apply a bead of sealing compound to cover (7) as shown in the figure.
Remove the filler plug (8) and carry out refilling with the specified oil type up to reaching the notch that identifies
the
MAX level in the sight glass (9).
Ducati recommends you use Shell Advance 4T Ultra 15W-50 oil. As an alternative it is possible to use a motorcycle
engine oil
having the same degree SAE 15W-50 and meeting the following specifications JASO: MA2 and API: SM.
Refit the filler plug (8). Run the engine at idle speed for a few minutes.
Check that there are no oil leaks and that the engine oil pressure warning light on the instrument panel switches
off a few
seconds after starting up the engine. If not, stop the engine and trace the fault.
After a few minutes, check that the oil level is the specified one; if necessary, restore the MAX. level.
Tighten screws (3) retaining external cover (4) to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
Refit the complete belly pan (Refitting the belly pan).
Check engine oil level
Check the engine oil level through the sight glass (1) on the right-hand side of the oil sump.
Stop the engine and allow a few minutes for the oil to settle to a steady level.
Oil level must be checked with the vehicle perfectly upright and the engine hot (but off).
Oil level must be between the MIN and MAX marks. Top up if the level is low.
Remove the filler plug (2) and top up with the recommended oil.
Ducati recommends you use Shell Advance 4T Ultra 15W-50 oil. As an alternative it is possible to use a motorcycle
engine oil
having the same degree SAE 15W-50 and meeting the following specifications JASO: MA2 and API: SM.
Refit the filler plug (2).
Refitting the headlight fairing
Apply specified threadlocker on rod (1) and start it on the windscreen support (2).
Tighten rod (1) to a torque of 2 Nm ± 10%.
Fit springs in stud-bolts (A).
Note
The washer sharp edge must be facing the windscreen support block.
Couple the windscreen support assembly (8) with the central panel (5) by inserting rod (1) in ball joint (6).
Apply the indicated threadlocker on the two screws (9).
Fit the windscreen support assembly (8) to the central panel (5) tightening screws (9) to a torque of 3 Nm ± 10%.
Fit washers (10) onto two screws (11).
Tighten the two screws (11) to a torque of 2 Nm ± 10%.
Fit two rubber plugs (12) in the indicated holes.
Insert plugs (13) in recesses (14).
Completely screw silent blocks (15) on instrument panel (16).
Fit toothed washers (17) on silent block (15) threaded pins.
Fit cover (16) on the windscreen support assembly / central panel (18) by tightening nuts (19) to a torque of 3
Nm ± 10%.
FITTING THE HEADLIGHT FAIRING
Fit the panel so as to engage retainer (3) in hook (4) on the headlight.
Engage pins (6) in seats (5).
Fix the headlight fairing to the headlight by means of two screws (2).
Tighten them to a torque of 3 Nm ± 10%.
Connect the immobilizer antenna by means of connector (1).
Removing the panel
Check that the two vibration damping pads (8) and the four clips (9) are present on the tank cover (7).
Fit gasket (10) on cover (7) so that ridge (A) engages in recess (B).
Apply the indicated lubricant on the gasket surface (10) in contact with the tank plug (11).
Fit the tank cover on the tank.
Fit the ten clips (12) in the points indicated in the figure.
Fix the tank cover by means of the upper screws (6) and lateral screws (5) with Nylon washer.
Tighten the screws to a torque of 4 Nm ± 10%.
Fit the side conveyor (4) by sliding it first forwards and then backwards so that tab (C) engages in slot (D) and U-
bolts
(E) in tabs (F).
Fix the side conveyor (4) by tightening screws (3) to a torque of 2 Nm ± 10%.
Fit the Hands free cover (1) by inserting the cover pins in the tank vibration damping pads and press on tabs (2)
until they
engage into seat.
U.S.A. VERSION
Removing the tank fairings
Remove the Hands Free cover (1) by pulling it upwards to release teeth (2).
U.S.A. VERSION
Loosen screws (3) and remove conveyor (4).
Repeat this operation on the other conveyor.
Loosen screws (5) from both sides of the tank cover (7).
Loosen the two upper screws (6).
Remove the tank cover (7) by sliding it upwards.
Refitting the front half-fairing
Position the central conveyor (11) inside the conveyor upper cover (B).
Fix it by tightening the four screws (14) to a torque of 2 Nm ± 10%.
Position the three clips (15) on the conveyor upper cover (B).
Connect the temperature sensor (10).
Position the conveyor upper cover (B) by inserting the two pins (16) in rubber elements (17).
Fix the conveyor upper cover (B) to the tank cover by means of screws (9) by fitting a plastic washer between the
screw and
the cover.
Tighten them to a torque of 2 Nm ± 10%.
Insert the lower panel (8) of conveyor (B) and fix it with screws (7).
Tighten screws (7) to a torque of 2 Nm ± 10%.
Side panels
Check the presence on the water radiator of the retaining brackets (18).
If not present, fix them by tightening screws (19) to a torque of 6 Nm ± 10%.
Fit the vibration damper (5).
Insert the threaded bushing (25) in the rear hole of the vibration damper (5).
Use the indicated product to lubricate the surface that will be against screw (4).
Tighten the screw (4) to a torque of 5 Nm ± 10%.
Start the remaining screws (3) and tighten them to a torque of 2 Nm ± 10%.
Side panels
The procedure below describes how to remove one side panel but it applies to both tabs.
Remove the two screws (1) securing the side panel (A).
Loosen the three screws (7) securing the conveyor (B) lower panel (8).
Fit the two pins (4) of seat (3) in the relevant housings (5) on vehicle frame.
Press seat (3) towards vehicle front and lock it.
Lubricate rear seat (2) pin (6) housing with indicated product. Fit rear seat (2) pin (7) in housing (8) on frame.
Push seat (2) down to lock pin (6) in seat lock.
Seat components and height adjustment
If previously removed, fit seat support (10) and tighten screws (9) to a torque of 4 Nm ± 10%.
Check for eccentric (13) presence, if it needs to be fitted, tighten screw (14) to a torque of 2 Nm ± 10%.
If seat height needs to be changed, it is possible to increase it by positioning the two shims (11).
After positioning them, fix them by tightening screws (12) to a torque of 4 Nm ± 10%.
In case of "lowered seat" configuration, spacer (B) must be installed on passenger seat.
Tighten the screws (A) to a torque of 2 Nm ± 10%.
Refitting side body panel and tail guard
Tail guard
Insert the retaining screws (6) and tighten them to 18 Nm ± 10% following the indicated sequence and applying
the specified
threadlocker.
Insert the lock block (5) and fix it with screws (4).
Make sure that pin (12) is present on the half-subframe; if not, insert screw (13) in rubber element (14) and
tighten it to
2 Nm ± 10%.
Fit the two special screws (15) and tighten them to a torque of 5 Nm ± 10%.
Position the side body panel (3) so that the two tabs (9) engage in the frame hooks (8).
At the same time, the two tabs (10) must engage under the tank cover (11).
Start screws (1) with the relevant washer (2) and tighten them to a torque of 5 Nm ± 10%.
Removing the side body panels and the tail guard
Loosen screws (1) securing side body panel (3) to the rear subframe, collecting washers (2).
Remove the side body panel by sliding it towards the vehicle rear side.
Tail guard
Undo the screws (4) and remove the seat lock block (5).
Loosen screws (6) that retain the tail guard.
Remove the tail guard (7) by prying in the indicated point.
Removing the seat
Insert key inside seat lock (1), and turn it clockwise until hook clicks.
To slide passenger seat (2) out of the front retainer, push it forward, lift it, and remove it.
To remove rider seat (3) from vehicle, pull it back, and lift it.
Refitting the belly pan
Fit the vibration dampers (6) and (7) with spacer (8).
Fit clip (9).
Fit the vibration dampers (10) and (11) with spacer (12).
Position the just assembled assembly and fix it by starting screw (2) on the lower LH footpeg holder plate and
screw (1) on
the LH sump guard support plate.
Start screw (5) on the silent block.
Fit the RH sump guard by starting screw (4) on the lower RH footpeg holder plate and screw (3) on the RH sump
guard support
plate.
Fix the RH sump guard (A) to the central sump guard (B) by starting screws (15).
Position the assembled sump guard and start screws (1) (2) (3) (4) and (5).
Tighten the screws to the following torque values:
Screws (4) and (2) to a torque of ± 20 Nm 10%;
Screws (3) and (1) to a torque of ± 5 Nm 10%;
Tighten the screw (5) to a torque of 24 Nm ± 10%.
Removing the belly pan
Loosen the two screws (1) and (2) on the vehicle left side.
Working on the vehicle lower side, loosen screws (3) and (4).
Undo the lower screw (5) and remove the belly pan.
Refitting the front mudguard
Warning
Do not ride the motorcycle without the front mudguard fitted to avoid the risk of the brake hoses fouling the wheel
when braking.
Refit sensors.
Refit sensor brackets (6) and secure them in place by tightening screws (5) to a torque of 5 Nm ± 10%.
Refit half mudguard (8) by tightening screws (7) to a torque of 3.5 Nm ± 10%.
During assembly, insert tabs (10) in the housing on front mudguard (2).
Make sure that semi-mudguard (8) profiles are aligned as shown in the figure.
NO FRONT MUDGUARD HALF KIT
Fit bracket (9) and fasten it by tightening screws (7) to a torque of 3.5 Nm ± 10%.
Removing the front mudguard
The following pictures show the front mudguard with installed mudguard half.
Loosen front mudguard (2) retaining screws (1), keeping the relevant nylon washers.
If previously disassembled, reassemble the chain guard (4) with rear splash guard (1) as shown in the figure.
Position the splash guard (1) with chain guard (4) on the swinging arm.
Apply the specified threadlocker to screws (2) and (3).
Start and tighten the retaining screws (2) and (3) to a torque of 10 Nm ± 10%.
Removing the splash guard
Remove the splash guard (1) with chain guard from the rear swinging arm by loosening screws (2) and (3).
Fit rear mudguard (2) on swinging arm and start screws (1), (3) and (4).
Tighten screws (1), (3) and (4) to a torque of 5 Nm ± 10%.
Removing the rear mudguard
Working on the vehicle RH side, loosen the screws (1) that retain the rear mudguard (2) to the swinging arm.
From the vehicle LH side, loosen screws (3) and (4) on the rear side.
Branch 10
Table 10A
POS. DESCRIPTION
1 Starter motor cable
2 Battery negative cable
3 Generator cable
Table 10B
POS. DESCRIPTION
4 Ground cable
Table 10C
POS. DESCRIPTION
4 Horizontal head spark plug
5 Horizontal head coils
Table 10D
POS. DESCRIPTION
6 Vertical head spark plug
7 Vertical head coils
"ROUTING OF WIRING ON FRAME"
Branch 9
Table 9A
POS. DESCRIPTION
1 USB cable
2 Alarm presetting cable
3 12V power outlet
4 Solenoid starter cable
Table 9B
POS. DESCRIPTION
5 Exhaust valve motor + rear accelerometer cable (FOR S VERSION, ONLY)
Table 9C
POS. DESCRIPTION
6 Rear shock absorber preload cable (FOR S VERSION, ONLY)
Table 9D
POS. DESCRIPTION
7 Rear speed sensor cable
8 Rear shock absorber regulator cable (FOR S VERSION, ONLY)
9 Gear sensor cable
Table 9E
POS. DESCRIPTION
6 Rear shock absorber preload cable (FOR S VERSION, ONLY)
10 Tail light cable
"ROUTING OF WIRING ON FRAME"
Branch 8
Table 8A
POS. DESCRIPTION
1 Vertical head knock sensor cable
2 Exhaust side vertical head timing regulator cable
"ROUTING OF WIRING ON FRAME"
Branch 7
Table 7A
POS. DESCRIPTION
1 ECU 1 cable
2 ECU 2 cable
Table 7B
POS. DESCRIPTION
3 Injector wiring cable
4 Horizontal solenoid valve cable
5 Vertical solenoid valve cable
6 Vertical head map sensor cable
Table 7C
POS. DESCRIPTION
7 Exhaust side vertical head timing regulator cable
8 Intake side vertical head timing regulator cable
9 Exhaust side vertical head timing check cable
10 Intake side vertical head timing check cable
"ROUTING OF WIRING ON FRAME"
Branch 6
Table 6A
POS. DESCRIPTION
1 Hands free cable
2 Airbox cable
3 Tank plug presetting cable
4 Ground jointing
"ROUTING OF WIRING ON FRAME"
Branch 5
Table 5A
POS. DESCRIPTION
1 Water temperature sensor cable
2 Pick-up cable
Table 5B
POS. DESCRIPTION
3 Vertical oxygen sensor cable
4 Side stand cable
"ROUTING OF WIRING ON FRAME"
Branch 4
TABLE 4A
POS. DESCRIPTION
1 RH switch cable
2 Front brake switch cable
3 Throttle control cable
4 Heated handgrip cable (IF ENABLED, ONLY)
5 Secondary air system valve cable
TABLE 4B
POS. DESCRIPTION
2 Front brake switch cable
3 Throttle control cable
4 Heated handgrip cable (IF ENABLED, ONLY)
6 Right turn indicator cable
"ROUTING OF WIRING ON FRAME"
Branch 3
Table 3A
POS. DESCRIPTION
1 Purge valve cable
Table 3B
POS. DESCRIPTION
2 ABS control unit cable
Table 3C
POS. DESCRIPTION
3 Horizontal head knock sensor cable
4 Intake side horizontal head timing regulator cable
5 Intake side horizontal head timing check cable
Table 3D
POS. DESCRIPTION
5 Intake side horizontal head timing check cable
6 Exhaust side horizontal head timing check cable
7 Exhaust side horizontal head timing regulator cable
Table 3E
POS. DESCRIPTION
8 Horn cable
9 Horizontal map sensor cable
Table 3F
POS. DESCRIPTION
10 Horizontal oxygen sensor cable
Table 3G
POS. DESCRIPTION
11 LH fan cable
Table 3H
POS. DESCRIPTION
12 RH fan cable
Table 2A
POS. DESCRIPTION
1 Front speed sensor cable
2 Front suspension cable (FOR S VERSION, ONLY)
3 Front wheel accelerometer cable (FOR S VERSION, ONLY)
4 Frame accelerometer cable (FOR S VERSION, ONLY)
5 Clutch switch cable
6 Heated handgrip cable (IF ENABLED, ONLY)
7 Turn indicator cable
Table 2B
POS. DESCRIPTION
1 Front speed sensor cable
3 Front wheel accelerometer cable (FOR S VERSION, ONLY)
4 Frame accelerometer cable (FOR S VERSION, ONLY)
Table 2C
POS. DESCRIPTION
2 Front suspension cable (FOR S VERSION, ONLY)
5 Clutch switch cable
6 Heated handgrip cable (IF ENABLED, ONLY)
7 Turn indicator cable
8 LH switch cable
Table 2D
POS. DESCRIPTION
9 Fuel pump cable
10 Bluetooth cable (IF ENABLED, ONLY)
"ROUTING OF WIRING ON FRAME"
Branch 1
TABLE 1A
POS. DESCRIPTION
1 Instrument panel
TABLE 1B
POS. DESCRIPTION
1 Instrument panel
2 Oil temperature sensor cable
3 Oil pressure switch cable
4 GPS presetting cable
5 Air temperature sensor cable
6 12V power outlet
TABLE 1C
POS. DESCRIPTION
5 Air temperature sensor cable
TABLE 1D
POS. DESCRIPTION
6 12V power outlet
TABLE 1E
POS. DESCRIPTION
2 Oil temperature sensor cable
3 Oil pressure switch cable
"ROUTING OF WIRING ON FRAME"
ROUTING OF WIRING ON FRAME
MAIN BRANCHES
MAIN WIRING POSITIONING
BRANCHES DESCRIPTION
Branch 1 Instrument panel
Oil temperature sensor cable
Oil pressure switch cable
GPS presetting cable
Air temperature sensor cable
12V power outlet
Branch 2 Front speed sensor cable
Front suspension cable (FOR S VERSION, ONLY)
Front wheel accelerometer cable (FOR S VERSION, ONLY)
Frame accelerometer cable (FOR S VERSION, ONLY)
Clutch switch cable
Heated handgrip cable (IF ENABLED, ONLY)
Turn indicator cable
Turn indicator cable
LH switch cable
Fuel pump cable
Bluetooth cable (IF ENABLED, ONLY)
Branch 3 Intake side purge valve cable
ABS control unit cable
Horizontal head knock sensor cable
Horizontal head timing regulator cable
Intake side horizontal head timing check cable
Exhaust side horizontal head timing check cable
Exhaust side horizontal head timing regulator cable
Horn cable
Horizontal map sensor cable
Horizontal oxygen sensor cable
LH fan cable
RH fan cable
Branch 4 RH switch cable
Front brake switch cable
Throttle control cable
Heated handgrip cable (IF ENABLED, ONLY)
Secondary air system valve cable
Right turn indicator cable
Branch 5 Vertical water temperature sensor cable
Pick-up cable
Oxygen sensor cable
Side stand cable
Branch 6 Hands free cable
Airbox cable
Tank plug presetting cable
Ground jointing
Branch 7 ECU 1 cable
ECU 2 cable
Injector wiring cable
Horizontal solenoid valve cable
Vertical solenoid valve cable
Vertical head map sensor cable
Exhaust side vertical head timing regulator cable
Intake side vertical head timing regulator cable
Exhaust side vertical head timing check cable
Intake side vertical head timing check cable
Branch 8 Vertical head knock sensor cable
Exhaust side vertical head timing regulator cable
Branch 9 USB cable
Alarm presetting cable
12V power outlet
Solenoid starter cable
Exhaust valve motor + rear accelerometer cable (FOR S VERSION, ONLY)
Rear shock absorber preload cable (FOR S VERSION, ONLY)
Rear speed sensor cable
Rear shock absorber regulator cable (FOR S VERSION, ONLY)
Gear sensor cable
Tail light cable
Branch 10 Starter motor cable
Battery negative cable
Generator cable
Ground cable
Horizontal head spark plug
Horizontal head coils
Vertical head spark plug
Vertical head coils
Key to wiring diagram
Riding Mode
The rider can choose from 4 different preset bike configurations (Riding Modes) and pick the one that best suits
his/her riding
style or ground conditions. The Riding Modes allow the user to instantly change the engine power
delivery (Power Mode) and
the ABS, DTC and DWC settings.
Available Riding Modes: Sport, Touring, Urban and Enduro. Within every Riding Mode, the rider can customise any
settings.
Power Mode
The Power Modes are the different engine maps the rider can select to change power level and delivery to suit
his/her own
riding style and surface conditions.
There are three Power Modes, one for each Riding Mode:
ABS
Antilock Braking System
BBS
Black Box System
CAN
Controller Area Network
LIN
Local Interconnect Network
DSB
Dashboard
DTC
DUCATI Traction Control
DWC
DUCATI Wheelie Control
ECU
Engine Control Unit
Rectifier-regulator
The rectifier/regulator consists of an aluminium casing containing the diodes that rectify the current produced by
the generator.
It also contains an electronic device that regulates the current supplied by the generator in
accordance with battery voltage.
If the battery is drained, the current has the value necessary to restore optimum
operating conditions of the battery itself.
While, if the battery is fully charged, the current value will be lower.
Important
Check the charging current by using the "DDS" diagnosis instrument.
To remove the regulator, see the procedure explained in chapter "Removing the electric components compartment”.
Important
Do not disconnect the battery cables when engine is running because this would cause irreparable damage to the
regulator.
To install the regulator on the vehicle, see the procedure explained in chapter "Refitting the electric components
compartment”.
Regulator fuse
The 30 A regulator fuse (2) is located inside solenoid starter (1), in the battery compartment, and protects the
electronic
regulator.
A blown fuse can be identified by breakage of the inner filament (B).
Important
Switch the ignition key to OFF before replacing the fuse to avoid possible short-circuits.
Warning
Never use a fuse with a rating other than the specified value. Failure to observe this rule may damage the electric
system
or even cause fire.
The generator used on the Multistrada 1200 has a rated power of 490W at 14V and consists of a fixed element
(stator/generator,
A), located in the generator cover and a mobile element (rotor/flywheel, B) fastened to the
crankshaft.
Rotor (B) is manufactured with strong permanent magnets and features a lot of pin pairs for each stator phase.
This allows
generating alternate voltage at a higher frequency compared to a standard generator. The result: at
low rpm it is possible
to generate higher current.
Important
Check the charging current by using the "DDS" diagnosis instrument.
To check the generator, measure the voltage at each end of the generator cable and check if it is compliant with
the value
indicated in the table (ambient temperature: 20 °C).
Attention
Before testing, disconnect the generator wiring from the electrical system when the ignition key is set to OFF.
Rpm Active voltage Minimum voltage Maximum voltage
1500 rpm 27.5 V 25.2 V 33 V
2500 rpm 45 V 41.1 V 54.1 V
Values significantly lower than those indicated above can be due to:
- partially demagnetised rotor;
- short-circuited windings.
In the above cases the whole generator assembly (rotor and stator) should be replaced.
If checks have a favourable outcome, reconnect the generator to the regulator with ignition key on OFF. Make sure
that no
cables are damaged or disconnected.
Position ground cable (4) and tighten screw (3) to a torque of 10 Nm ± 10%.
Warning
Before carrying out any operations on the battery, keep in mind the safety standards. When under charge,
batteries produce
explosive gases. Keep batteries away from heat sources, sparks or open flames.
Important
Never try to open the battery as it is sealed, it does not require maintenance operations or to be filled in with acid
or
other types of liquids. Consequently, it does not need any operation upon its installation on the vehicle.
Note
Always keep the battery clean. Apply grease around the battery terminals to prevent corrosion.
Warning
Never remove the valve cover located on top of the cover. If the block, cover or terminals are broken or if the
valve cover
has been tampered with, IT IS ABSOLUTELY NECESSARY TO REPLACE THE BATTERY.
Important
If the motorcycle is left unused for more than 30 days, remove the battery and store it in a safe, cool place.
Warning
The battery gives off explosive gases; never cause sparks or allow naked flames and cigarettes near the battery.
Check that
during the battery charge, the area ventilation is adequate and that the ambient temperature is lower
than 40 °C (104 °F).
Do not try to open the battery: it does not require to be filled with acid or other types of
fluids.
Always charge the battery before the first operation and after long storage periods – such as before selling the
vehicle.
Warning
Insulate the ground cable ends you just removed to prevent them from touching the motorcycle.
Loosen screw (1) and remove Black Box and battery support (2).
Undo the screw (3) and disconnect the ground cable (4).
Loosen screw (5) and remove battery/solenoid starter (6) and ABS positive (7) cable.
Topping up the electrolyte
Warning
Before carrying out any operations on the battery, keep in mind the safety standards (General safety rules). The
electrolyte
in the battery is corrosive and can cause burns if it comes into contact with the skin because it contains
sulphuric acid.
Wear gloves and, if necessary, protective clothing, a face-mask and goggles when adding
electrolyte. If the fluid comes into
contact with the skin, wash thoroughly with fresh water. If it comes into contact
with the eyes, wash thoroughly with water
for 15 minutes and consult an ophthalmologist. In the event of
accidental ingestion, drink large quantities of water or milk,
and continue with milk of magnesia, a beaten egg or
vegetable oil. Do not allow sparks, flames, cigarettes or any other heat
source to get near the battery, as it
produces explosive gases. When recharging or using the battery indoors, make sure that
the room is adequately
ventilated. Do not inhale the gases produced during recharging. KEEP OUT OF REACH OF CHILDREN.
Warning
Do not dispose of exhausted battery into the environment.
Smaltimento
Do not dispose of waste into the environment. Collect and deliver waste to authorized collecting centres. Dispose
of waste
in compliance with the prevailing local and national standards. European Waste Catalogue Codes
recommended for waste disposal
as indicated by Decision No 2001/118/EC: CER 16 06 01* (Lead batteries).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Place the battery on a flat surface. Remove the protective film (1).
Warning
Make sure that the electrolyte is of the specific type for your battery.
Remove the container with the electrolyte from the plastic bag.
Remove the cap strip (3) from the container (2).
Important
Keep the cap strip (3) to hand because it will be used later to plug the battery cells.
Warning
Do not peel or perforate the sealed areas.
Place the electrolyte container (2) upside down. Align the six sealed elements with the six filler holes on the
battery. Push
the container (2) downwards with sufficient force to break the seals and allow the fluid to flow out.
Note
Do not tilt the electrolyte container as this could interrupt the flow temporarily or even permanently.
Make sure that air bubbles emerge from all six filler holes.
Leave the container in this position for at least twenty minutes.
If no bubbles emerge from one of the holes, tap gently on the bottom of the respective container.
Important
Never move the container away from the battery. Do not cut or puncture the container.
Make sure that all the electrolyte has flowed out. Carefully extract the container (2) from the battery.
Fit the cap strip (3) previously removed from the electrolyte container (2) to the battery, and ensure the caps plug
off all
filler holes.
3 -12 Ah batteries: leave to stand for at least 30 min.
Over 12 Ah batteries: leave to stand for at least 1 hour.
Set the cap strip on the filler holes without securing it. Recharge the battery as described in the paragraph
"Recharging the battery".
Note
When using an automatic battery charger, ensure that the charger current (ampere) is equal to or higher than the
value of
the standard charging system (STD) indicated on the battery itself.
Press firmly downwards with both hands until the caps are firmly in place (do not use a hammer).
Warning
Do not dispose of the electrolyte container into the environment.
Smaltimento
Do not dispose of waste into the environment. Collect and deliver waste to authorized collecting centres. Dispose
of waste
in compliance with the prevailing local and national standards. European Waste Catalogue Codes
recommended for waste disposal
as indicated by Decision No 2001/118/EC: CER 15 01 10* (Packaging containing
residues of or contaminated by dangerous substances).
Note
It should be noted that the above-mentioned CER code is a general and non-binding provision, provided based on
product original
composition and intended use. The user is thus responsible for selecting the CER code most
suitable to the concerned product,
based on product real use and taking into account any alterations and/or
contaminations of the product, as well as any amendments
to the prevailing standard on waste disposal.
Recharging the battery
Refer to the label on the battery showing the inspection intervals in order to determine when to test the voltage.
Charge the battery if the open circuit voltage is lower than 12.8 V. Leaving the battery discharged for more than
one month
could damage it.
Check the battery charge with a voltmeter.
Always check the condition of the battery before recharging and 1 to 2 hours afterwards.
Warning
Pay careful attention to recharging times. Stop charging immediately if the battery becomes too hot to the touch.
Leave to
cool before resuming charging.
Type of charging Volt Ampere (A) Time (Hours)
Normal 12 1.2 5-10
The solenoid starter (1) is located inside the electrical component compartment.
Removal procedure
Undo the screws (4), taking care to collect the spring washers (5).
Remove the starter motor-solenoid starter cable (6) and the solenoid starter-battery cable (7).
Checking operation of the solenoid starter.
Apply 12 V (battery voltage) across the positive terminal and negative terminal of the connector.
With a multimeter connected between the two poles (threaded pins) of the solenoid starter, check for electric
continuity.
If there is no electric continuity, ensure that the terminals are not oxidised and apply water repellent spray.
Change the solenoid starter if the malfunction persists.
Refitting procedure
Lay down the starter motor-solenoid starter cable (6) and the solenoid starter-battery cable (7).
Start screws (4) with washers (5). Tighten screws (4) to the specified torque of 10 Nm ± 10%.
Refit protection cap (3).
Secure the solenoid starter inside its seat and connect connector.
Starter motor
Electric features:
12 V / 0.7 kW
The starter motor is highly compact and reliable, therefore rarely raises any operating issue.
In case of faults:
- ensure that the starter motor wiring terminal is properly tightened under the nut and shows no sign of oxidation;
- if the terminal is properly tightened and free from oxidation, remove the starter motor and test it under no-load
conditions
(no load applied to the shaft).
Warning
Secure the starter motor to a test bench, making sure not to damage the casing.
Warning
Use a fully charged 12 V battery for the test.
- Use battery-motor connection cables which are no longer than 70 cm and with the same cross-section as the
cable on the
vehicle itself;
- connect the negative terminal of the battery to an unpainted area of the starter motor casing and the positive
terminal
to its electrical terminal;
- the shaft of the starter motor should rotate freely and at a high speed.
Warning
Take care not to short-circuit the two cables connected to the battery.
Electric starting system
The electric starting system consists of a solenoid starter (1) and a starter motor (2).
Replacing the tail light bulbs
Position the vehicle with tyres inflated at the indicated pressure (“Front wheel" and "Rear wheel”) and a person
seating on the seat, perfectly perpendicular to his/her longitudinal axis.
Position the vehicle 10 metres from a wall or a screen.
On the wall or surface, draw a horizontal line at the same height from the ground as the centre of the headlight
and a vertical
line aligned with the longitudinal axis of the motorcycle.
Note
If possible, perform this check in dim light.
Switch on the low beam. The height of the upper limit between the dark area and the lit area must not be more
than 9/10 of
the height from the ground of the headlight centre.
Note
This is the procedure specified by Italian regulations for checking the maximum height of the light beam. Please
adapt said
procedure to the provisions in force in your own country.
This model features a full-LED headlight so, in case of failure, the whole headlight will have to be replaced
(Removing the headlight).
Headlight
This S version features a LED headlight so, in case of malfunction of a bulb, the whole headlight must be replaced.
Right-hand switch
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Left-hand switch
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Horn
ELECTRIC DIAGRAM
Checking the fuses
Electric components are protected by eleven fuses located in the two fuse boxes.
In each fuse box (A) and (B) there are three spare fuses.
The fuse boxes (A) and (B) are located in the electrical components compartment, under the seat.
Remove seat as described in paragraph "Removing the seat".
To expose the fuses, lift the box protective covers. Mounting position and ampere capacity are marked on box
cover.
Refer to the table below to identify the circuits protected by the various fuses and their ratings.
Fuse box (A) key
Pos El. item Rat.
1 KEY EMS / ABS / IMU 5A
2 KEY DSB / BBS 15 A
3 KEY Lights 15 A
4 - -
5 KEY Accessories 10 A
6 +30 Hands Free 25 A
7 +30 Diagnosis / charge 7.5 A
ELECTRIC DIAGRAM
Fuse box (B)
Fuse box (B) key
Pos El. item Rat.
1 +30 EMS LOAD RELAY 25 A
2 +30 FUEL PUMP RELAY 10 A
3 +30 Starter RELAY 7.5 A
4 +30 Instrument panel 10 A
5 +30 Black Box System (BBS) 10 A
6 +30 ABS UBMR 25 A
7 +30 ABS UBVR 15 A
MAIN FUSES
To reach the main fuses and the ABS fuses, remove the seat, as described in paragraph "Removing the seat".
The two main fuses (A) (one is the spare fuse) are located on solenoid starter (B).
Remove protection cap (C) of both fuses.
Main fuses key
Pos El. item Rat.
A Main fuse 30 A
A Spare 30 A
ELECTRIC DIAGRAM
Important
Before replacing a damaged fuse with a new one of the same rating, identify the cause of the problem.
Important
Switch the ignition key to OFF before replacing the fuse to avoid possible short-circuits.
Warning
Never use a fuse with a rating other than the specified value. Failure to observe this rule may damage the electric
system
or even cause fire.
Side stand switch
The side stand switch is located on the side stand ball joint and provides the side stand position information to the
control
unit.
The detected signal is output to the control unit, which shares it with the instrument panel.
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Air temperature sensor
The air temperature sensor (1), located on vehicle front part, detects the ambient temperature.
The detected signal is sent to the control unit, that shares it with the instrument panel; this allows performing map
corrections
if necessary.
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
After selecting the proper items on the DDS 2 menu, read the external air temperature value among the different
displayed
parameters and compare it with the actual value.
Change the sensor if reading is incorrect.
ELECTRIC DIAGRAM
Engine temperature sensor
The coolant temperature sensor (1) outputs the electric signal to the engine control unit, which shares it with the
instrument
panel through the CAN line.
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
After selecting the proper items on the menu, read the engine coolant temperature value among the different
displayed engine
parameters:
- with cold engine, the air temperature detected with the DDS 2 shall be similar to the coolant one;
- with hot engine and cooling fan just triggered, coolant temperature value shall be similar to the one required
for activating
the electric fan.
Should the outcomes of these tests be negative, replace the engine coolant temperature sensor.
Should the DDS 2 detect an error such as "coolant temperature sensor short circuit or open circuit" inside the
control unit
memory, check the electric system parts connecting sensor to control unit.
If this section of the electric system is not faulty (no open circuit, no short circuits, no short circuit to ground),
replace
the sensor.
ELECTRIC DIAGRAM
Clutch switch
To check operation of the front (1) STOP switch, use a multimeter: when the front brake lever is operated, there
must be electric
continuity between the terminals of the corresponding switch.
If these tests fail to produce positive results, the part in question must be replaced.
ELECTRIC DIAGRAM
Oil pressure sensor
The oil pressure sensor (pressure switch) (1) is located in the front of the oil cooler.
To test the operation of the engine oil pressure sensor (1), proceed as follows.
Use the diagnosis instrument DDS 2 to check that oil pressure in the engine lubrication circuit complies with the
specified
values.
If the engine oil pressure value is outside the specified range, check the lubrication circuit components and service
as necessary.
Switch on the instrument panel without starting the engine, disconnect the electrical terminal from the pressure
sensor and
connect it to ground:
- if the warning light does not illuminate, this means the sensor is defective and must be replaced;
- if the warning light illuminates, start the engine;
- if the warning light does not turn off, check the DDS 2 system by connecting to connector (A) located in the
electrical components
compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Gear/neutral sensor
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Rear stop switch
The rear STOP switch (1) is located inside the RH footpeg holder plate.
To check operation of the rear (1) STOP switch, use a multimeter: when the rear brake lever is operated, there
must be electric
continuity between the terminals of the corresponding switch.
ELECTRIC DIAGRAM
If these tests fail to produce positive results, the part in question must be replaced.
Front stop switch
The front STOP switch (1) is located on the front lever front side.
CONTROLS
To check operation of the front (1) STOP switch, use a multimeter: when the front brake lever is operated, there
must be electric
continuity between the terminals of the corresponding switch.
ELECTRIC DIAGRAM
If these tests fail to produce positive results, the part in question must be replaced.
Exhaust valve motor
To reach the exhaust valve motor, remove the RH side plate as described in chapter "Removing the side panels".
Release exhaust valve motor cable as described in chapter "Removing the exhaust system".
REMOVAL PROCEDURE
Remove the three screws (1) of exhaust valve motor support (2) collecting washers (3).
Position exhaust valve motor (6) inside its support (2). Fasten exhaust valve motor (6) using the two screws (4)
and positioning
the two washers (5) in-between.
Tighten the two screws (4) to a torque of 2 Nm ± 10%.
Fasten support (2) to the frame using the three screws (1) with washer (3).
Tighten the three screws to a torque of 5 Nm ± 10%.
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Solenoid valves
The LH and RH solenoid valves are located on the rear side of the radiator and improve the coolant cooling when
the temperature
is high.
The solenoid valve activation parameters are defined by the water temperature sensors and controlled by the
thermostat.
The operating parameters are indicated in chapter "Cooling system".
REMOVAL/REASSEMBLY
To work on the solenoid valves, move the radiator from the front side as described in chapters "Removing the
radiator" and "Refitting the radiator".
CONTROLS
With a multimeter connected between the two poles (threaded pins) of the solenoid starter, check for electric
continuity.
If there is no electric continuity, ensure that the terminals are not oxidised and apply water repellent spray.
Change the solenoid valve if the malfunction persists.
ELECTRIC DIAGRAM
Coils
The ignition coil increases the input voltage of the current alternator and brings the voltage to a value that allows
the
spark creation in the spark plug.
Four coils are fitted on the vehicle, two for the horizontal cylinder (1) and (2) and two for the vertical cylinder (3)
and
(4).
REMOVAL PROCEDURE
To reach the coils, remove front half-fairings "Removing the front half-fairing".
ELECTRIC CHECKS
PIN OUT Function
PIN 1 Control signal to negative
PIN 2 Positive to battery
DIAGNOSIS CHECKS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
The Multistrada 1200 S features three accelerometers located as follows: one on front mudguard, one on bottom
yoke and one
on vehicle back, mounted to frame/swinging arm.
REMOVAL PROCEDURE
Loosen the two screws (2), disconnect the connector as shown in chapter Routing of wiring on frame
Remove the sensor.
Rear sensor
Loosen screw (3) connecting sensor (4) to swinging arm (5).
Remove exhaust valve motor as shown in chapter "Removing the side panels".
REFITTING PROCEDURE
Fit front accelerometer cable (7) in the openings on rubber support (8).
Fit accelerometer (9) in support (8) aiming it so that the arrow is visible.
Fit the two bushings (10) in the holes of rubber support (8).
Fix sensor to bottom yoke using the two screws (2).
Rear sensor
Insert sensor (4) in its support and fix it with two screws (6).
Refit exhaust valve motor/position sensor as described in chapter "Refitting the side panels".
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Rear sensor
Bluetooth
The Bluetooth control unit in the vehicle electric system works as a "bridge" among different electronic devices.
REMOVAL PROCEDURE
For Bluetooth control unit removal and refitting, remove the instrument panel first "Removing the panel" and
"Refitting the panel".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Inertial Measurement Unit (IMU)
The signal is read by the ECU that will control the throttle valve consequently.
Warning
During the removal and refitting phase, do not turn the key on before the sensor is installed in its definitive
position.
This because upon Key-On the sensor checks the signal plausibility. If the sensor is not in its correct
position, it will
trigger a signal error that cannot be erased with the DDS 2.
For removal and refitting please refer to chapters "Removing the electric components compartment" and "Refitting the
electric components compartment".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Knock Sensor
To measure faulty engine vibrations, caused by irregular combustion, the Multistrada uses two piezoelectric knock
sensors
(1).
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Horizontal head
Vertical head
Accelerator Position System (APS)
The Acceleration Position Sensor (APS) (1) or throttle twistgrip sensor, is a potentiometer that generates an
electric input
sent to the control unit which receives information on:
To remove the APS, follow the instructions in chapter "Removing the throttle control".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Oxygen sensors
The oxygen sensor detects the presence of unburned fuel in the exhaust gases, processes the information sent to
the control
unit and allows keeping the mixture ratio (air kg/fuel kg) within the best efficiency range for the
catalytic converter.
The vehicle is provided with two lambda sensors, one per cylinder:
If necessary, reach the oxygen sensor connectors as described in chapter Routing of wiring on frame
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
The headlight is controlled by the Ducati Cornering light function that enhances road lighting in a bend.
The lighting increases by 1/8 in the direction of the bend with motorcycle inclination above 7° with respect to the
vertical
axis.
For removal and refitting please refer to chapters "Removing the light assembly" and "Refitting the light assembly".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Local Interconnect Network (LIN)
It is a serial communication between left-hand switch and instrument panel to manage the cruise control.
For removal and refitting please refer to chapters "Removing the handlebar" and "Refitting the handlebar".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
VIN CODE
The VIN code is an alphanumerical code with 17 characters that clearly identifies a vehicle (family, model, country,
serial
number, …).
This code can be stored in the instrument panel and read through the DDS 2 with suitable KWP2000 inputs.
When replacing one of the above control units, this information must be copied onto the new control unit using
DDS 2.
Anti-lock Braking System (ABS)
The cornering function has been added to the new ABS control unit (1). This has been possible thanks to the
interaction with
the inertial platform (IMU).
The necessary signals for correct operation are:
For removal and refitting please refer to chapters "Removing the ABS control unit" and "Refitting the ABS control unit".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
CAN line
This model utilises a CAN line (Controller Area Network) which has made it possible to greatly simplify the layout
of the
electrical system and consequently reduce its overall weight.
The CAN line is connected to two nodes: the instrument panel and the engine control unit. Thanks to this
communication line
no sensor doubles are required as sensor signals are shared by both electronic units. Sensors
are connected to closer electronic
unit (instrument panel or engine control unit), which sends the signals to the
network to be processed by the control units.
CAN line consists of two wires for digital signal transfer; they both carry precise and perfectly decipherable data.
The instrument
panel and the engine control unit, which are connected to the CAN line, are fitted with special
hardware which acknowledges
whether a pulse sequence includes pertaining data to be processed by the
computing unit.
Ducati Wheelie Control (DWC)
The signal is read by the ECU that will control the throttle valve consequently.
Warning
During the removal and refitting phase, do not turn the key on before the sensor is installed in its definitive
position.
This because upon Key-On the sensor checks the signal plausibility. If the sensor is not in its correct
position, it will
trigger a signal error that cannot be erased with the DDS 2.
For removal and refitting please refer to chapters "Removing the electric components compartment" and "Refitting the
electric components compartment".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Ducati Traction Control (DTC)
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
To remove and refit the speed sensors, refer to chapters "Replacing the front phonic wheel sensor" and "Replacing the
rear phonic wheel sensor"
ELECTRIC DIAGRAM
Front sensor
Rear sensor
Rpm sensor (pick-up)
The engine rpm sensor (1) is an inductive sensor that detects the teeth of a phonic wheel by means of an
alternate signal
proportional to the teeth passage speed.
The toothed pulley usually features "Xn teeth with a gap of two teeth" as reference for the first cylinder TDC.
Position 1: the pick-up sensor detects the "full area" (i.e. the tooth);
Position 2: the pick-up sensor detects the "empty area" (i.e. the gap between the teeth).
Note
Without rpm signal the engine does not start.
CONTROLS
The engine rpm sensor (pick-up sensor) is located on the engine right side, on the generator cover.
For removal, proceed as described in chapter "Removing the generator cover".
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
Throttle Position System (TPS)
The ETV (1) and (2) is the motor that controls throttle valve opening and closing and is located on the throttle
body.
In case of failure it is not possible to replace only the ETV, but it is necessary to replace the complete throttle
body.
Once replaced, reset the TPS as described in chapter "Throttle position potentiometer".
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
To remove and refit the ETV, refer to chapters "Removing the airbox and throttle body" and "Refitting the airbox and throttle
body".
Black Box System (BBS)
BBS (1) is an electronic unit connected to the CAN line, having the following functions:
- DSS;
- DTC/DWC;
- Fog lights (if enabled);
- D|Air (if enabled);
- Handgrip heating (if enabled);
- Alarm (if enabled).
In Signals:
OUT Signals:
To remove the BBS (1), remove the seat "Removing the seat", undo screw (2) and remove support (3).
Disconnect the connector (4).
REFITTING PROCEDURE
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
Map sensor
The Map sensor (Manifold Absolute Pressure) measures the air pressure to calculate the exact quantity of fuel to
be injected.
The control unit processes the intake air pressure value and the external temperature value to calculate the
quantity of intake
air in the cylinders and, based on the preset stoichiometric ratio, determines the correct
quantity of fuel to be delivered
to the injectors.
The air/fuel ratio is therefore always excellent.
CONTROLS
Check control unit correct operation with the DDS 2 diagnosis instrument connected to control unit diagnostic
socket (A),
which is positioned inside electrical components compartment; to reach it, remove the seat.
ELECTRIC DIAGRAM
H Map
V Map
REMOVAL/REASSEMBLY
To remove and refit the MAP sensor, refer to chapters "Removing the airbox and throttle body" and "Refitting the airbox
and throttle body".
Engine control unit (ECU)
These components are controlled according to the engine operation status detected by a set of sensors listed
below:
- APS;
- Gear sensor;
- Vertical and horizontal cylinder ETV;
- Vertical and horizontal cylinder lambda sensor;
- Pick-Up sensor;
- Vertical and horizontal cylinder Map Sensor;
- Vertical and horizontal cylinder knock sensor;
- Vertical and horizontal cylinder Timing sensor IN;
- Air T.;
- Engine T.;
- Side stand switch;
- Clutch switch;
- Brake switch;
- Oil T.
Important
The maps, which include spark advance values, injection times, crankshaft angle for injector closing and all
correction curves as a
function of temperature and atmospheric pressure values, are stored in the Flash Eprom of
the ECU. The above values are preset
by the Manufacturer after testing the motorcycle under different riding
conditions. These settings cannot be changed.
ELECTRIC DIAGRAM
ECU 1 connector
ECU 2 connector
To remove and refit the ECU, see the procedure described in chapter "Removing the airbox"
Restoring motorcycle operation via the PIN CODE
In case of key acknowledgement system or key malfunction, the instrument panel allows the user to enter his/her
own PIN code
to temporarily restore motorcycle operation.
If the PIN CODE function is active, the instrument panel activates the possibility to enter the release code within
"Menu
1" and displays the message INSERT PIN CODE with zero ("0") as first digit and a string of three dashes " -
- - - " under
it.
Entering the code:
1 Press button (4), only one digit indicating "0" turns green;
2 each time you press the button (2) the displayed number increases by one (+ 1) up to "9" and then starts
back from "0";
3 each time you press the button (1) the displayed number decreases by one (- 1) up to "1" and then starts
back from "0";
4 to confirm the number, press the button (4).
Repeat the procedures until you confirm all the 4 digits of the PIN CODE.
When you press button (4) to confirm the fourth and last digit:
- if the PIN code is not correct, the instrument panel displays WRONG for 3 seconds and then highlights the
string of four dashes
"- - - -" to allow you to try again. The number of possible attempts is determined by a
preset time-out of 2 minutes.
- if the PIN CODE is correct, the instrument panel shows CORRECT for 3 seconds, and then displays the
"standard screen".
Key duplication
When a customer needs spare keys, he/she shall contact a Ducati authorised service centre and bring all keys
he/she still
has.
The Ducati authorised service centre will program all new and old keys.
The Ducati authorised service centre may ask to the customer to prove to be the motorcycle owner.
The codes of the keys missing during the programming procedure will be erased to ensure that any lost key can
not start the
engine.
Replacing the battery in the active key
Note
The keys do not need to be reprogrammed after replacing the battery.
After separating the plastic shells, remove the battery protection sheath (2).
Remove battery (3) and install a new one.
Install the battery in place, paying attention to respect polarity: positive pole (+) must be facing up.
Important
Only use the required type of battery.
They contain the code used by the "Hands free" system for the Key-On, in different modes.
The active key (1) is the one that is normally used and has a button (A) that, when pressed, makes the metal part
exit (B).
The metal part returns inside the grip by pushing it in.
The active key contains a battery that must be replaced when the key and the battery symbols are displayed when
the instrument
panel is turned on.
Note
In this case, replace the battery as soon as possible.
When the charge level goes below a certain limit, the key can only work in passive mode, like the passive key: in
this case,
the instrument panel will not display any message.
Warning
Do not ride with the (active or passive) key inserted in the lock of the tank cap or in the seat lock as it could come
out
and represent a potential danger. Furthermore, if bumped, the key mechanism and the integrated circuit could
be damaged.
Also riding in poor weather conditions with the key inserted could cause damage to its integrated circuit.
Do not leave the key on the motorcycle when washing it as it could be damaged, not being watertight.
Immobilizer system
To increase protection against theft, motorcycle features an electronic engine locking system (IMMOBILIZER)
which is automatically
enabled upon every Key-Off.
The grip of each ignition key contains an electronic device that modulates the output signal from a special antenna
in the
headlight fairing when the ignition is switched On. The modulated signal is the "password", different upon
every Key-On, used
by the control unit to acknowledge the key. Engine can be started only after key
acknowledgement.
Light control
If engine is not started within 60 seconds since manual ignition, the low and/or high beam lights are turned OFF.
If the low beam and/or high beam was turned on before starting the engine (with the procedure described above),
the headlight
turns off automatically when starting the engine and will turn ON again when the engine has been
completely started.
Turn indicators
Turn indicators are automatically reset by the instrument panel.
To activate the left turn indicators, press button (10) in position (I); to activate the right turn indicators, press
button
(10) in position (L).
Turn indicators can be cancelled by pressing button (10) on LH switch.
If the turn indicator is not reset manually, the instrument panel will automatically switch it off after the motorcycle
has
travelled 500 m (0.3 miles) from when the turn indicator was activated. The counter for the distance travelled
for automatic
deactivation is only activated at speeds below 80 km/h (50 mph).
If the calculation of the distance for automatic deactivation is activated and then the motorcycle exceeds a speed
of 80 km/h
(50 mph), the calculation will be interrupted and will restart when the speed returns below the
indicated threshold.
Note
If user performs a Key-ON while the "Hazard" function is still active, the function will remain ON (temporary turn
indicator
control interruption is allowed during the instrument panel initial check routine).
Note
If there is a sudden interruption in the battery while the function is active, the instrument panel will disable the
function
when the voltage is restored.
Note
The "Hazard" function has higher priority compared to normal operation of the single turn indicators, this means
that, as
long as it is active, it will not be possible to activate the single right or left turn indicators.
This function allows pairing and/or deleting any paired Bluetooth devices.
To do this, you must enter the Setting Menu.
Select "BLUETOOTH" option, by pressing button (1) or (2). Once function is highlighted, press button (4).
You enter the "BLUETOOTH" menu, which is active only if the Bluetooth function is active.
The BLUETOOTH menu is not available if the player is active or when there is an incoming call, a call is in progress
or during
recall.
To carry out the pairing procedure, refer to "Pairing of a new device".
To delete any paired devices, refer to "Deleting a paired device".
Warning
Bluetooth Headset device manufacturers may incorporate certain changes within the standard protocols over the
course of the
lifecycle of the device (Smartphones and Earphones).
Warning
These changes are outside the control of Ducati and may result in Bluetooth Headset devices functionality
becoming impaired
(sharing Music, multimedia player, etc.) and may equally affect some types of Smartphones
(depending on supported Bluetooth
profiles). This is why Ducati cannot guarantee multimedia player proper
operation for:
- any earphones not coming with the "Ducati Kit part no. 981029498";
- any Smartphones not supporting the required Bluetooth profiles (even though paired to earphones coming
with the "Ducati Kit
part no. 981029498").
Warning
In case of interference or noise due to particular conditions of the external environment, the Ducati earphone kit
no. 981029498
also allows sharing the music being played directly from rider helmet to passenger helmet (for
further details please refer
to the manual of the earphones coming with the Ducati kit part no. 981029498).
When opening the BLUETOOTH menu for the first time, the first label highlighted by default will be "PAIRING".
The Pairing function is activated by pressing button (4): this runs a search for all Bluetooth devices present within
a certain
range. Device search symbol is activated and message "WAIT…" is displayed.
The pairing ends automatically when devices are detected within the range.
If Pairing is not successful, "PAIRING LOST. PLEASE EXIT" message will be displayed. Now you can only quit the
BLUETOOTH Setting
Menu, and then go back in to run a new Pairing procedure.
If Pairing is successful, as soon as Bluetooth devices are detected, their name is displayed in a list: up to 20
devices can
be displayed.
The list of devices found within the range during the Pairing stage does not include already paired devices, even if
their
Bluetooth connection is ON.
If two or more Bluetooth devices have the same name, the list of devices detected will include two or more labels
with the
same name.
If one of the devices detected has no name, it is not included in the list of devices detected.
During the search stage, user can:
To quit the Pairing stage, select EXIT and press button (4).
- 2 smartphones;
- 1 navigator;
- 1 rider helmet;
- 1 passenger helmet.
If at least 5 devices have already been paired and the user attempts to run the Pairing, the following message will
be displayed:
"MAX 5 DEVICES CAN BE ASSOCIATED" and "REFER TO USER MANUAL".
System automatically highlights DELETE indication for the first associated device and user can delete one or
several devices
(refer to Deleting associated devices) or quit the Bluetooth Setting Menu.
When device is associated and connected, the user will select the type of connected device, using buttons (1), (2)
and then
button (4) to confirm. Types of devices can be:
- Smartphone;
- Rider helmet;
- Passenger helmet;
- GPS navigation system.
Pairing deactivation takes place when quitting the Bluetooth Setting Menu or when no more Bluetooth devices are
present.
To pair a Smartphone, the pairing procedure with the Bluetooth control unit requires user to enter a code (0000),
which is
only necessary the first time the device is paired with the Bluetooth control unit.
In this case, the Instrument panel displays the PIN to be entered "INSERT PIN ON SMARTPHONE: 0000".
When user enters the PIN on the Smartphone, the device will be paired.
Note
If user does not complete the pairing procedure on the Navigator within 90 seconds, pairing screen on instrument
panel will
go out, and display will go back to Bluetooth Setting Menu main screen.
In case of pairing in progress, scrolling is activated 90 seconds after pairing start (if there were errors during
pairing)
during which system only allows selection of the flashing box around EXIT option to abort pairing, if
necessary:
- press UP/DOWN to highlight Exit in green (and press ENTER to quit the Bluetooth Setting Menu);
- press UP/DOWN to highlight Exit in white (in this case it is not possible to quit the Bluetooth Setting Menu).
After pairing, message WAIT will be replaced by the name of connected device. (system will scroll through its
complete name,
and then string is cut to the first characters).
This function allows you to change the units of measurement of the displayed values, regardless of the Country
configuration.
To manually set the units of measurement, you must enter the Setting Menu.
Select "UNIT SETTING" option, by pressing button (1) or (2). Once function is highlighted, press CONFIRM MENU
button (4).
You enter the "UNITS SETTING" menu.
When entering the function, the display shows on the left the list of values for which units of measurements can be
set:
- SPEED;
- TEMPERATURE;
- fuel consumption (CONSUMPTION);
- reset to automatic settings (DEFAULT).
To exit the menu and go back to previous page, select EXIT and press button (4).
The selected unit of measurement will be used by the instrument panel for the following indications:
The selected unit of measurement will be used by the instrument panel for the following indications:
When entering the function, available backlighting options are indicated on the left: DAY, NIGHT, AUTO, while
currently selected
option is indicated on the right.
Press buttons (1) and (2) to highlight the instrument panel backlighting options one by one: in particular, use
button (2)
to highlight the following item and button (1) to highlight the previous item. Once the desired
backlighting option is highlighted,
press button (4) to confirm. The instrument panel immediately activates the
option selected by the user and highlights the
corresponding name.
To exit the menu and go back to previous page, select EXIT and press button (4).
Select DAY (day mode) to permanently set display "white" background for improved readability - recommended in
conditions of
strong ambient light.
Select NIGHT (night mode) to permanently set display black background for dimmed visibility - recommended in
case of poor
ambient light and/or at night.
Select AUTO (automatic mode) to automatically adjust background colour according to ambient light (detected by
a sensor).
It will be "white" for better visibility with high ambient light and "black" for a dimmed visibility with low ambient
light.
Clock setting
Note
Every time the battery is disconnected, the clock is reset and must be set again by the user.
When entering the function, available settings are indicated on the left: HOUR, MINUTE, AM / PM, while set time is
indicated
on the right (e.g.: 10 : 30 a.m.).
Setting AM/PM
Select "AM/PM" option, by pressing button (1) or (2).
Once highlighted, press CONFIRM MENU button (4).
The value will start flashing.
Select AM or PM option, by pressing button (1) or (2) respectively.
Once you reach the value to be set, press button (4) and the set value will stop flashing.
To exit the menu and go back to previous page, select EXIT and press button (4).
Date setting
Important
Every time the battery is disconnected, the calendar date is reset and must be set again.
When entering the function, available settings are indicated on the left: YEAR, MONTH, DAY, while current date is
indicated
on the right (e.g.: 2012/01/27).
Year setting
Select "YEAR" option, by pressing button (1) or (2).
Once highlighted, press CONFIRM MENU button (4).
Year value starts flashing.
Press button (1) to decrease year value by 1 unit: 2099, 2098, ... 2000, 2099.
Press button (2) to increase year value by 1 unit: 2000, 2001, ... 2099, 2000.
Once you reach the value to be set, press button (4) and the set year will stop flashing.
Month setting
Select "MONTH" option, by pressing button (1) or (2).
Once option is highlighted, press button (4).
Month value starts flashing.
Press button (1) to decrease month value by 1 unit: 12, 11, ... 01, 12.
Press button (2) to increase month value by 1 unit: 01, 02, ... 12, 01.
Once you reach the value to be set, press button (4) and the set month will stop flashing.
Day setting
Select "DAY" option, by pressing button (1) or (2).
Once option is highlighted, press button (4).
Day value starts flashing.
Press button (1) to decrease day value by 1 unit: 31, 30, ... 01, 31.
Press button (2) to increase day value by 1 unit: 01, 02, ... 31, 01.
Once you reach the value to be set, press button (4) and the set day will stop flashing.
If date is not correct, the instrument panel will display "WRONG DATE" flashing for three seconds and then will
automatically
highlight EXIT, while date is indicated as "---- / -- / --" steady. It is still possible to set a new date.
To go back to previous page (setting menu page), press button (4) when EXIT is highlighted.
Changing the PIN CODE
To change the existing PIN CODE and activate a new one, you must open the Setting Menu.
Select "PIN CODE" option, by pressing button (1) or (2). Once function is highlighted, press button (4). You open
the "PIN
CODE" menu. When opening the function, the screen displays INSERT OLD PIN CODE and three dashes
"0 - - -", the first digit
"0" is highlighted in green.
Entering the "old" code:
1 Press button (4), only one digit indicating "0" turns green;
2 Each time you press the button (2) the displayed number increases by one (+ 1) up to "9" and then starts
back from "0";
3 Each time you press the button (1) the displayed number decreases by one (- 1) up to "1" and then starts
back from "0";
4 To confirm the number, press the button (4);
Repeat the procedures until you confirm all the 4 digits of the PIN CODE.
When you press button (4) to confirm the fourth and last digit:
- if the PIN is not correct, the instrument panel displays WRONG for 3 seconds and then highlights the string of
four dashes
"- - - -" for the OLD PIN to allow you to try again;
- if the PIN code is correct, the instrument panel displays CORRECT for 3 seconds, the screen displays INSERT
NEW PIN CODE and
four dashes "- - - -", the first of which is highlighted in green, for the user to enter the
new PIN CODE.
Entering the "new" code:
1 Press button (4), only one digit indicating "0" turns green;
2 Each time you press the button (2) the displayed number increases by one (+ 1) up to "9" and then starts
back from "0";
3 Each time you press the button (1) the displayed number decreases by one (- 1) up to "1" and then starts
back from "0";
4 To confirm the number, press the button (4)
Repeat the procedures until you confirm all the 4 digits of the PIN CODE.
When you press button (4) to confirm the fourth and last digit, the instrument panel highlights the message
MEMORY.
To save the new setting, hold button (4) for two seconds while the message MEMORY is highlighted in orange.
If storage is successful, MEMORIZED will be highlighted in green for two seconds, and then EXIT will be highlighted
in green.
If settings have not been saved, the instrument panel highlights again the string of four dashes "- - - -" of the
NEW PIN
to allow the rider to try again and enter a new code.
To exit the menu and go back to previous page, select EXIT and press button (4).
PIN CODE
This function allows the user to activate or modify the PIN CODE.
The PIN CODE is initially not present in the motorcycle, it must be activated by the user by entering his/her 4-digit
PIN
in the instrument panel, otherwise the motorcycle cannot be started temporarily in the case of a malfunction.
To activate this function, refer to "Activating the PIN CODE" procedure.
To change the PIN refer to "Changing the PIN CODE" procedure.
In order to temporarily start the motorcycle in case of malfunction, please refer to the Vehicle Overriding
procedure .
Warning
The motorcycle owner must activate (store) the PIN code; if there is already a stored PIN, contact an Authorised
Ducati Dealer
to have the function "reset". To perform this procedure, the Authorised Ducati Dealer may ask you
to demonstrate that you
are the owner of the motorcycle.
When entering the function, the display shows the message INSERT NEW PIN CODE followed by the first digit in
green and three
dashes "0 - - -".
Entering the code:
1 Press button (4), only one digit indicating "0" turns green;
2 Each time you press the button (2) the displayed number increases by one (+ 1) up to "9" and then starts
back from "0";
3 Each time you press the button (1) the displayed number decreases by one (- 1) up to "1" and then starts
back from "0";
4 To confirm the number, press the button (4);
Repeat the procedures until you confirm all the 4 digits of the PIN CODE.
When you press button (4) to confirm the fourth and last digit, the instrument panel highlights the message
MEMORY.
To save the new setting, hold button (4) for two seconds while the message MEMORY is highlighted in orange.
If storage is successful, MEMORIZED will be highlighted in green for 1 second, and then EXIT will be highlighted in
green.
Once the first PIN CODE is stored, this menu page is no longer available and is replaced by the page for changing
the PIN
CODE. The page for entering the very first PIN CODE is active and available again only in case the PIN
CODE function is reset
(but this is only possible at a DUCATI Authorised Service Centre).
Customising the Riding Mode: Reset to default settings (ALL DEFAULT)
This function allows restoring the default values set by Ducati for all the parameters associated to all riding modes.
To gain access to this function, enter the Setting Menu, use button (1) or (2) to select RIDING MODE and press
button (4).
Then use button (1) or (2) to select ALL DEFAULT and keep button (4) pressed for two seconds.
Note
If "ALL DEFAULT" option cannot be selected, it means that all parameters for all riding modes are already in the
"Default"
condition.
Customising the Riding Mode: Reset to default setting (DEFAULT)
This function allows restoring the default values set by Ducati for the parameters associated to a specific riding
mode.
You enter the Setting Menu. Select "RIDING MODE" option, by pressing button (1) or (2).
Once function is highlighted, press button (4). Enter the "RIDING MODE" menu.
Select the desired riding mode (SPORT, TOURING, URBAN or ENDURO) from the drop-down menu, by pressing
button (1) or (2). Once
the desired mode is highlighted, press button (4).
You open the selected riding mode customisation Menu.
Select DEFAULT option, by pressing button (1) or (2). Once desired parameter is highlighted, keep button (4)
pressed for two
seconds.
It will take three seconds to restore parameters, during which the display will show " WAIT... ”.
Once procedure is completed, "OK" will appear for two seconds to confirm that default parameters have been
restored and the
message EXIT will be highlighted.
To exit the menu and go back to previous page, select EXIT and press button (4).
Customising the Riding Mode: ABS setting
This function disables or sets ABS level for the selected riding mode. You enter the Setting Menu.
Select "RIDING MODE" option, by pressing button (1) or (2).
Once function is highlighted, press button (4).
Enter the "RIDING MODE" menu. Select the desired riding mode (SPORT, TOURING, URBAN or ENDURO) from the
drop-down menu, by
pressing button (1) or (2).
Once the desired mode is highlighted, press button (4). You open the selected riding mode customisation Menu.
Select the parameter
to be customised (ABS) from the drop-down menu, by pressing button (1) or (2). Once the
desired parameter is highlighted,
press button (4).
When entering the function, the currently set ABS level or status is indicated on the right (e.g.: OFF).
Customisation options are indicated on the central drop-down menu: levels 1 to 3 and status OFF.
Press buttons (1) and (2) to highlight the levels one by one: in particular, use button (1) to highlight the following
item
and button (2) to highlight the previous item.
Once the desired level is highlighted, press CONFIRM MENU button (4) to highlight MEMORY.
Once the desired new setting is highlighted, press button (4) to highlight MEMORY in orange.
To save the new setting, hold button (4) for two seconds while the message MEMORY is highlighted in orange.
If storage is successful, MEMORIZED will be highlighted in green for two seconds, set level or status will be
refreshed and
then EXIT will be highlighted in green.
To exit the menu and go back to previous page, select EXIT and press button (4).
Note
When you enable or disable the ABS through this function, i.e. toggling from disabled to enabled system or vice-
versa, the
procedure for activating or deactivating the ABS is carried out: the change of status of the ABS control
unit is not instantaneous,
it requires at least 6 seconds.
Customising the Riding Mode: DWC level setting
This function disables or sets DWC level for the selected riding mode.
You enter the Setting Menu. Select "RIDING MODE" option, by pressing button (1) or (2). Once function is
highlighted, press
button (4).
Enter the "RIDING MODE" menu. Select the desired riding mode (SPORT, TOURING, URBAN or ENDURO) from the
drop-down menu, by
pressing button (1) or (2). Once the desired mode is highlighted, press button (4).
You open the selected riding mode customisation Menu. Select the parameter to be customised (DWC) from the
drop-down menu,
by pressing button (1) or (2). Once the desired parameter is highlighted, press button (4).
If the DTC is disabled (set to OFF), the DWC parameter can not be changed and is forced to level OFF.
When entering the function, the currently set DWC level or status is indicated on the right (e.g.: ON LEVEL 01).
Customisation options are indicated on the central drop-down menu: levels 1 to 8 and status OFF.
Once the desired new setting is highlighted, press button (4) to highlight MEMORY in orange.
To save the new setting, hold button (4) for two seconds while the message MEMORY is highlighted in orange.
If storage is successful, MEMORIZED will be highlighted in green for two seconds, set level or status will be
refreshed and
then EXIT will be highlighted in green.
To exit the menu and go back to previous page, select EXIT and press button (4).
Customising the Riding Mode: DTC level setting
This function disables or sets DTC level for the selected riding mode.
You enter the Setting Menu. Select "RIDING MODE" option, by pressing button (1) or (2).
Once function is highlighted, press button (4).
Enter the "RIDING MODE" menu. Select the desired riding mode (SPORT, TOURING, URBAN or ENDURO) from the
drop-down menu, by
pressing button (1) or (2).
Once the desired mode is highlighted, press button (4).
You open the selected riding mode customisation Menu.
Select the parameter to be customised (DTC) from the drop-down menu, by pressing button (1) or (2).
Once the desired parameter is highlighted, press button (4).
When entering the function, the currently set DTC level or status is indicated on the right (e.g.: ON LEVEL 03).
Customisation options are indicated on the central drop-down menu: levels 1 to 8 and status OFF.
Once the desired new setting is highlighted, press button (4) to highlight MEMORY in orange.
To save the new setting, hold button (4) for two seconds while the message MEMORY is highlighted in orange.
If storage is successful, MEMORIZED will be highlighted in green for two seconds, set level or status will be
refreshed and
then EXIT will be highlighted in green.
To exit the menu and go back to previous page, select EXIT and press button (4).
Customising the Riding Mode: Engine setting
This function customises engine power associated with each riding mode.
You enter the Setting Menu. Select "RIDING MODE" option, by pressing button (1) or (2).
Once function is highlighted, press button (4). Enter the "RIDING MODE" menu.
Select the desired riding mode (SPORT, TOURING, URBAN or ENDURO) from the drop-down menu, by pressing
button (1) or (2). Once
the desired mode is highlighted, press button (4).
You open the selected riding mode customisation Menu.
Select the parameter to be customised (ENGINE) from the drop-down menu, by pressing button (1) or (2). Once
the desired parameter
is highlighted, press button (4).
When entering the function, currently set engine power is indicated on the right (e.g.: MEDIUM).
The central drop-down menu lists the available customisation options:
- HIGH
- MEDIUM
- LOW
Press buttons (1) and (2) to highlight the available power options one by one: in particular, use button (2) to
highlight
the following item and button (1) to highlight the previous item.
Once the desired power level is highlighted, press button (4) to highlight MEMORY in orange.
To save the new setting, hold button (4) for two seconds while the message MEMORY is highlighted in orange.
If storage is successful, MEMORIZED will be highlighted in green for two seconds, power level will be refreshed and
then EXIT
will be highlighted in green.
To exit the menu and go back to previous page, select EXIT and press button (4).
Customising the Riding Mode: Parameter storage
After changing a Riding Mode parameter (ENGINE, DTC, DWC and/or ABS), to make the change effective, it is
necessary to save
it before quitting the customisation menu.
It is possible to save the parameters set for each riding mode.
To save the parameter settings of a Riding Mode, it is necessary to gain access to the SETTING MENU, use buttons
(1) and (2)
to select the message "R.M." (Riding Mode) and press button (4). Then use buttons (1) and (2) to
select the riding mode to
change and press button (4). Then use buttons (1) and (2) to select "MEM" (flashing)
and keep button (4) pressed for 2 seconds;
then the display will show "WAIT" (for 2 other seconds) followed by
"MEM. OK" to confirm that the new parameters have been
memorised.
Any parameter change made is saved and remains in the memory also after a Battery-OFF. If you highlight "EXIT"
and press button
(4) you quit the sub-menu and go back to previous page.
Warning
Changes should only be made to the parameters by people who are experts in motorcycle set-up; if the
parameters are changed
accidentally, use the "DEFAULT" function to restore factory settings.
Customising the Riding Mode
The parameters that can be customised for every riding mode are the following:
- ENGINE
- DTC
- DWC
- ABS
- Setting motorcycle setup and relevant DSS semi-active suspension settings (front fork - rear shock absorber)
- rider
only
- rider with
luggage
- rider and
passenger
- rider and passenger with
luggage
- DEFAULT
Press buttons (1) and (2) to highlight the customisable parameters one by one: in particular, use button (1) to
highlight
the following item and button (2) to highlight the previous item.
After highlighting the required parameter, press button (4) to open the corresponding menu page.
Any parameter change made is saved and remains in the memory also after a Battery-OFF.
The riding parameters set by Ducati can be restored for each single riding mode through the DEFAULT Function.
If you highlight "EXIT" and press button (4) you quit the sub-menu and go back to previous page.
Warning
Changes should only be made to the parameters by people who are experts in motorcycle set-up; if the
parameters are changed
accidentally, use the "DEFAULT" function to restore factory settings.
If the DTC is disabled (set to OFF), the DWC parameter can not be changed and is forced to level OFF.
Setting MENU
This menu allows enabling, disabling and setting some motorcycle functions.
To enter the Setting Menu it is necessary to hold button (4) for two seconds, with Key-ON and motorcycle actual
speed ≤ (lower
than or equal to) 20 km/h (12 mph): within this menu, it is no longer possible to view any other
function.
The Setting MENU displays the following functions:
- RIDING MODE
- INFO MODE
- PIN CODE
- LAP
- BACK LIGHT
- DATA SET
- CLOCK SET
- UNIT SETTING
- BLUETOOTH (only if Bluetooth is active)
Important
For safety reasons, it is recommended to use this Menu with the motorcycle at a standstill.
Press buttons (1) and (2) to highlight the customisable parameters one by one: in particular, use button (2) to
highlight
the following item and button (1) to highlight the previous item.
After highlighting the required parameter, press button (4) to open the corresponding menu page.
If function is not available or temporarily disabled, the menu page can not be opened.
At the top of instrument panel display is a text indicating the menu and sub-menu path during navigation through
the setting
functions.
To quit the Setting Menu you shall highlight "EXIT" and press button (4).
Fog lights
The instrument panel activates the fog light warning light when the fog lights (option) are present and active.
In case of fog light fault, the DSB displays the flashing Fog Light warning light and turns on the Generic Error light.
Side stand warning
The instrument panel receives information on side stand status and if side stand is down/open, the icon "SIDE
STAND" is displayed
on a red background.
In case of Side stand sensor fault, the instrument panel will display the stand down/up indication with MIL light on.
If instrument panel does not receive side stand status, stand down/open "SIDE STAND" indication will flash to
indicate an
undefined status.
Error warnings
The instrument panel manages error warnings in order to allow the rider to identify any abnormal motorcycle
behaviour in real
time.
Upon Key-On, in case of errors, the instrument panel turns on the MIL light (B) (in case of errors directly
connected to the
engine control unit) or the Generic Error light (A) (in case of any other errors).
During normal operation, when an error is triggered, the instrument panel turns on the MIL light or the Generic
Error light
(A).
Warnings/Alarms
The instrument panel manages a number of warnings / alarms, aimed at giving useful information to the rider
during use.
Upon Key-On, if there are any active warnings, the instrument panel displays the present warnings.
During normal use, whenever a warning is triggered, the instrument panel automatically displays the warning.
Whenever a warning
is triggered, it is displayed for 10 seconds in a (well-visible icon) "large" size and then
continues being displayed in the
small size ("small" icon).
If several warnings are active, the corresponding icons will be displayed one after the other, each remaining on
display for
3 seconds.
Warning
If one or several warnings are triggered and, at the same time, the Generic Error light turns on, the small warning
icon is
not displayed on instrument panel until the Generic Error light stays on; warnings will only be displayed
within the first
10 seconds as a large-size icon.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Ice
This function warns the rider when there might be ice on the road, due to the low external temperature.
This warning turns on when temperature drops to 4°C (39°F) and turns off when temperature raises to 6°C
(43°F).
Warning
This warning does not eliminate the possibility of icy road areas even with temperatures above 4°C (39°F); when
ambient temperature
is "low", ride responsibly, especially on road areas not exposed to sunlight and/or on
bridges.
Note
In this case, Ducati recommends charging battery in the shortest delay using the special instrument as engine
could not be
started.
Note
In this case, Ducati recommends making sure that the active key is nearby (and that it was not lost) or that it
works properly.
Note
In this case, Ducati recommends changing battery in the shortest delay.
To change battery, refer to paragraph "Replacing the battery in the active key".
Warning
In this case, Ducati recommends to ride carefully and use this type of DTC (Ducati Traction Control) setting NOT
for road,
but for off-road use only.
ABS off-road setting (ABS ENDURO)
When this warning is activated, it is necessary to ride carefully because ABS setting in use is the one designed for
dirt
roads and only the front wheel braking is controlled by the system in this case.
This warning is activated whenever ABS level 01 is selected.
Warning
In this case, Ducati recommends to ride carefully and use this type of ABS setting NOT for road, but for off-road
use only.
Date setting
This function prompts the user to enter the date via the Setting Menu.
Note
In this case Ducati recommends to stop and enter the calendar date using the function "DATASET".
Warning
In this case, Ducati recommends switching vehicle off and on again (Key-Off / Key-On), keeping handlebar fully
turned. If
warning is still present (and steering does not "unlock"), contact a Ducati Authorised Service Centre.
OIL SERVICE or SERVICE DATE or DESMO SERVICE indication
When the service threshold is reached, the warning for the type of service required is triggered:
Required service warning is triggered and displayed in red until "Reset" by the Ducati authorised service centre,
during maintenance.
OIL SERVICE or SERVICE DATE or DESMO SERVICE countdown indication
After OIL SERVICE zero indication first reset (at 1,000 km - 600 mi), the instrument panel activates the following
indications
for 5 seconds upon Key-ON:
- the count of the mileage in kilometres (miles) remaining before the next OIL SERVICE (A) 1000 km (600 mi)
earlier than the
service threshold;
- the count of the days remaining before the next SERVICE DATE (B) 30 days earlier than the service threshold;
- the count of the mileage in kilometres (miles) remaining before the next DESMO SERVICE (C) 1000 km (600
mi) earlier than the
service threshold.
OIL SERVICE zero warning
The first service warning is the OIL SERVICE zero and is triggered as soon as the odometer reaches the first 1,000
km (600
mi). Warning is displayed until "Reset" by the Ducati authorised service centre, during maintenance.
Service indication (SERVICE)
This indication shows the user that the motorcycle is due for service and must be taken to a Ducati Authorised
Service Centre.
The service warning indication can be reset only by the Authorised Ducati Service Centre during servicing.
There are 3 types of scheduled maintenance interventions:
Multistrada 1200 is equipped with a system for maintaining the cruise speed: Ducati Cruise Control.
When SET button (see Fig 1) 7, is pressed, current speed is set as target cruise speed.
To confirm correct setting of cruise speed, the target speed is activated on the instrument panel for 5 seconds.
It is possible to increase or decrease set cruise speed, by pressing buttons (see Fig 1) 6 and (see Fig 1) 7,
respectively.
Every "click" corresponds to a speed increase or decrease of 1 Km/h.
The new set target speed is displayed in the coolant temperature box when system is reaching said speed.
When the new requested target speed has been reached for over 5 seconds the display will show the coolant
temperature again.
Press RES button (6) to resume previous SET speed, in case the Ducati Cruise Control was previously disabled.
Important
In case of a long DTC (Traction Control) event, the Cruise Control will automatically turn off.
Once the system is enabled, it is possible to set the current speed as the desired speed by pressing RES (see Fig 2)
6 or SET (see Fig 2) 7: press RES (see Fig 2) 6 if no target speed has been previously set.
In this case, the system saves the vehicle current speed and keeps it without the rider having to work on the
twistgrip: the
set speed is displayed on the instrument panel.
In stand-by mode, if you press RES (see Fig 2) 6 and a target speed has been previously set and the operating
conditions are met, the system starts working again and brings
the vehicle to the last set target speed.
It is possible to enable the Ducati Cruise Control only if the below conditions are met:
The Ducati Cruise Control system controls the vehicle speed only between 50 Km/h (30 mph) and 200 Km/h (125
mph).
Infotainment
Multistrada 1200 fits the Ducati Multimedia System (DMS) as standard, thanks to which the user can answer
phone calls, select
and listen to music tracks, and receive SMS notifications by means of the Bluetooth technology.
The instrument panel displays the Infotainment function status: Bluetooth activation and any connected devices
(smartphone,
earphones, navigator).
When the Bluetooth is active, the main screen displays the Bluetooth icon (A).
Moreover, in the FULL and CORE layouts, the Infotainment functions are visible within the dedicated menus (B).
In the TRACK and OFF ROAD layouts, the Infotainment functions are not visible on the instrument panel, but calls
can nevertheless
be answered/rejected/terminated using the function buttons.
Warning
All data concerning the Infotainment (Player, access to Contact List, Name of devices, etc.) are managed for use of
Western
character sets.
If Bluetooth is active, apart from the Bluetooth icon, also connected device indication is displayed, such as
smartphone,
rider and passenger helmet earphones, Ducati GPS navigator.
It is possible to connect up to a maximum of 4 devices.
Phone
Use the PHONE function:
Note
It is not possible to make a call by selecting the name/number from the contact list through the function buttons.
When there is an incoming call (B) the blue colour filling the rectangle is flashing; while, when you answer the call,
the
blue background stops flashing.
In the TRACK and OFF ROAD layouts, when there is an incoming call, the instrument panel will not display the
caller's name
or number. The rider will hear the ringing tone through Bluetooth earphones upon any incoming call.
If there is an incoming call while the Player (A) is active, the latter is paused throughout the phone call and will
resume
operation when call is over.
To answer the call, press button (2).
To terminate the call, keep button (1) pressed for 2 seconds.
If main screen is set to FULL or CORE layout, during 5 seconds after hang-up, the rectangle corresponding to the
Recall function
(C) is activated to allow the recall.
After this 5 second time, the rectangle for the recall function is disabled.
In TRACK and OFF ROAD layouts, no recall function is provided.
To activate the Recall function within the 5 seconds, press button (2).
In case of missed calls from the moment the smartphone is connected to the bike to the moment it is
disconnected, the missed
call symbol will be displayed. The number of missed calls is not displayed.
In case there is at least one SMS/MMS/EMAIL not read from the moment the smartphone is connected to the bike
to the moment
it is disconnected, the unread message symbol will be displayed. The number of unread messages
is not displayed.
Player
The Player can be activated only in URBAN or TOURING riding mode.
If at least one Smartphone device is connected (blue icon on main screen), Menu 1 in the FULL and CORE layouts
will include
PLAYER OFF option.
The Player is activated by pressing button (1) for 2 seconds.
On instrument panel, Menu 1 includes PLAYER ON option and the Player controls are activated. If the Player is
turned on, button
(1), button (2) and button (4) can only be used to control the PLAYER.
If the Player is ON, but instrument panel is not receiving track name, it pauses the track being played and the
message "NOT
AVAILABLE" is displayed within the track name box.
Important
The Player function can not be activated through Menu 1 when a call is incoming, in progress or in recall.
The Player can be cyclically set to pause/play by pressing button (4) for 2 seconds.
It is possible to skip to next track, pressing button (4): system will skip forward once every time button is pressed.
The player can be turned off by quitting the player control (pressing button (2) for 2 seconds) and then pressing
button (1)
for 2 seconds: under menu 1, item will be PLAYER OFF in place of "Player ON" within 3 seconds.
Press button (2) for 2 seconds to quit Player controls, although maintaining Player ON, in the current status.
F.A.Q.
1) Why don't I receive any notification of received e-mails?
E-mails are notified only if configured on the telephone source application. Check also that your phone supports
the MAP profile.
If so, the DUCATI MULTIMEDIA SYSTEM, during the pairing phase, will send an access request to such profile
which can be notified
to the user explicitly (depending on the operating system) by requesting access
authorisation to message notifications.
4) When I receive a call, the instrument panel displays the caller number but not the name (despite
being saved in the contact
list).
Check that the phone supports the PBAP profile.
If so, the DUCATI MULTIMEDIA SYSTEM, during the pairing phase, will send an access request to such profile
which can be notified
to the user explicitly (depending on the operating system) by requesting access
authorisation to the phone contact list.
5) By activating the Player through the instrument panel, music does not start.
The activation depends on the phone settings. In this case, after activating the Player through the instrument
panel, also
start the music application on your Smartphone.
LAP
The instrument panel displays the LAP function status (LAP recording on or off).
LAP message at top left-hand side is on if the LAP function is active, and is off if the LAP function is not active; the
same
message will flash in the recording stage.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Note
The heated handgrips are actually "on" (heating) only when engine is running.
Level selection with Heated Handgrips "on": When setting LOW, MED or HIGH level, the icons will have the
following background
colours (for both DAY and NIGHT backlighting options of the instrument panel):
Note
The heated handgrips with engine at idle (RPM <= 2000) are controlled by setting the temperature to "Low" even
though set
by user to "Medium" or "High"; as soon as engine revs up (RPM > 2000) the heat will increase and
reach the actual user-setting.
Note
In case of Battery-Off, upon the following Battery-On / Key-On, the Dashboard sets this function by default to
"OFF".
Note
This means that if heated handgrips are enabled and engine stops, the heating is "temporarily" disabled but the
ON indication
is still active. Heating will automatically turn on when engine is started again.
Note
Handgrip heating requires a high current draw which, at low engine rpm, might result in the battery getting soon
flat. If
the battery is not fully charged (voltage below 11.9 V) handgrip heating is disabled to ensure engine start-
up ability; it
will automatically activate again when battery voltage is above the specified value.
Ambient air temperature
The instrument panel displays the ambient temperature in the set unit of measurement (°C or °F), followed by the
set unit
of measurement, the message T AIR and the thermometer symbol. The temperature value is displayed
when ranging from -39 °C
to +125 °C (or -38 °F ÷ +257 °F). For any different temperature (below -39 °C (-38
°F) or above +125 °C (+257 °F)) a string
of three dashes " - - - " is steadily displayed, followed by the unit of
measurement.
If the air temperature sensor is in fault, the instrument panel will show three flashing dashes " - - - " as air
temperature
value, followed by the unit of measurement and the Generic Error light will turn on.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Note
When the motorcycle is stopped, the engine heat could influence the displayed temperature.
Average speed
The instrument panel calculates and displays the motorcycle average speed, the set unit of measurement and
SPEED AVG text.
The calculation considers the distance and time since TRIP1 was last reset.
The average speed value displayed is calculated by adding 5% so as to be consistent with motorcycle speed
indication.
Considering that the FULL and CORE layouts show the values for this function in a similar way to the TRACK
layout, the example
shown depicts the function in TRACK layout.
Note
It is possible to change the units of measurement of Speed (and distance travelled as well) from km/h (and km) to
mph (and
mi) through the SETTING MENU, using the UNITS SETTING function.
When TRIP1 is reset, the value is reset and the first value available is displayed 10 seconds after the reset.
During the first 10 seconds, when the value is not yet available, the display will show a string of three dashes " - -
- "
steadily as average speed.
The active calculation phase occurs when the engine is running even if the motorcycle is stopped (moments when
the motorcycle
is not moving and the engine is OFF are not considered).
Instantaneous fuel consumption
The instrument panel calculates and displays the motorcycle instantaneous fuel consumption, the set unit of
measurement and
CONS. text.
The calculation is made considering the quantity of fuel used and the distance travelled during the last second.
Value is
expressed in the set unit of measurement: litres / 100 km or mpg UK or mpg USA.
The active calculation phase only occurs when the engine is running and the motorcycle is moving (moments when
the motorcycle
is not moving when speed is equal to 0 and/or when the engine is OFF are not considered). When
the calculation is not made,
a string of three dashes is displayed " - - . - " steadily as instantaneous fuel
consumption.
Considering that the FULL and CORE layouts show the values for this function in a similar way to the TRACK
layout, the example
shown depicts the function in TRACK layout.
Note
It is possible to change the units of measurement of Speed (and distance travelled as well) from km/h (and km) to
mph (and
mi) through the SETTING MENU, using the UNITS SETTING function.
Average fuel consumption
The instrument panel calculates and displays the motorcycle average fuel consumption, the set unit of
measurement and CONS.
AVG.
The calculation is made considering the quantity of fuel used and the distance travelled since TRIP1 was last reset.
Considering that the FULL and CORE layouts show the values for this function in a similar way to the TRACK
layout, the example
shown depicts the function in TRACK layout.
Note
It is possible to change the units of measurement of Speed (and distance travelled as well) from km/h (and km) to
mph (and
mi) through the SETTING MENU, using the UNITS SETTING function.
When TRIP1 is reset, the value is reset and the first value available is displayed 10 seconds after the reset.
During the first 10 seconds, when the value is not yet available, the display will show a string of three dashes "- - .
-
" steadily as average fuel consumption. Value is expressed in the set unit of measurement (litres / 100 km or
mpg UK or mpg
USA).
The active calculation phase occurs when the engine is running and the motorcycle is stopped: (moments when
the motorcycle
is not moving and the engine is OFF are not considered).
Clock
- hh (hours) : mm (minutes);
- followed by a.m. (from 12:00 to 11:59) or p.m. (from 12:00 to 11:59).
In case of a power off (Battery Off), upon the following Key-On, the instrument panel displays 4 dashes " - - : - - "
steadily
and with flashing colon, until clock is set through the Setting Menu.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Trip time (TRIP TIME)
The instrument panel calculates and displays the trip time as hhh:mm followed by TRIP TIME. The calculation
considers the
time since TRIP1 was last reset. When TRIP1 is reset, this value is reset as well. The time count
active phase occurs when
the engine is running and the motorcycle is stopped (the time is automatically stopped
when the motorcycle is not moving and
the engine is OFF and restarts when the counting active phase starts
again).
When the reading exceeds 511:00 (511 hours and 00 minutes), the meter is reset and automatically starts
counting from 0 again.
Considering that the FULL and CORE layouts show the values for this function in a similar way to the TRACK
layout, the example
shown depicts the function in TRACK layout.
If you change the unit of measurement for an item connected to Speed (and distance) or Consumption or after a
Battery-OFF,
the trip time value will be automatically reset.
Note
If you change the unit of measurement for an item connected to Speed (and distance) or Consumption or after a
Battery-Off,
the trip time value will be automatically reset.
Residual range (RANGE)
This function displays the range according to the remaining fuel in the tank.
Information is indicated as RANGE, in the set unit of measurement.
If there is any function fault, the instrument panel will display three flashing dashes "- - -".
If the instrument panel is not receiving RANGE information, a string of three steady dashes "- - -" is displayed.
Note
If the instrument panel does not receive any information on the unit of measurement, the last unit of
measurement set is displayed
flashing.
The trip meter counts and displays the partial distance covered by the motorcycle with the set unit of
measurement (km or
mi).
The TRIP2 number (in km or miles) is displayed with the message TRIP2 and the indication of the unit of
measurement.
When the reading exceeds the maximum value of 9999.9 km or 9999.9 mi, distance travelled is reset and the
meter automatically
starts counting from 0 again.
While the trip meter is displayed, press button (1) for 2 seconds to reset TRIP 2.
The TRIP2 counter is automatically reset in case the system unit of measurement is changed manually or after a
Battery-OFF:
the counter will then start back from zero, considering the new units of measurement.
Considering that the FULL and CORE layouts show the values for this function in a similar way to the TRACK
layout, the example
shown depicts the function in TRACK layout.
Trip meter 1 (TRIP 1)
The trip meter counts and displays the partial distance covered by the motorcycle with the set unit of
measurement (km or
mi) and is used as a basis to calculate average fuel consumption, average speed and trip
time. The TRIP1 number (in km or
miles) is displayed with the message TRIP1 and the indication of the unit of
measurement.
When the reading exceeds the maximum value of 9999.9 km or 9999.9 mi, distance travelled is reset and the
meter automatically
starts counting from 0 again.
While the trip meter is displayed, press button (1) for 2 seconds to reset TRIP 1. When TRIP1 is reset, the average
fuel consumption,
average speed and trip time data are reset as well.
Considering that the FULL and CORE layouts show the values for this function in a similar way to the TRACK
layout, the example
shown depicts the function in TRACK layout.
The TRIP1 counter is automatically reset in case the system unit of measurement is changed manually or after a
Battery-OFF:
the counter will then start back from zero, considering the new units of measurement.
Odometer (TOT)
The odometer counts and displays the total distance covered by the motorcycle with the set unit of measurement
(km or mi).
The odometer number (in km or miles) is displayed with the message TOT and the indication of the unit of
measurement. When
the maximum value is reached (199999 km or 199999 mi) the instrument panel will
permanently display said value.
The odometer value is saved permanently and cannot be reset under any circumstances.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Note
If a string of flashing dashes " ----- " is displayed within odometer function, please contact a Ducati Dealer or
Authorised
Service Centre.
Odometer update
When replacing the Instrument Panel or the Black Box, restore the odometer value inside the replaced control unit
so as to
allow the correct displaying of the kilometres or miles covered by the vehicle.
Covered kilometres/miles must be restored by transferring the datum from the control unit still left inside vehicle
to the
new control unit just replaced.
This procedure must be carried out through the "DDS 2" instrument.
The instrument panel will continue displaying flashing dashes "_ _" instead of the odometer value until this
procedure is
carried out.
Once the procedure is completed, its positive outcome will be signalled by the odometer datum displayed on
instrument panel.
Menu Functions
For each of the four riding modes (SPORT, TOURING, URBAN and ENDURO) menu functions can be displayed in
one of the following
four layouts or modes:
- TRACK;
- FULL;
- CORE;
- OFF ROAD.
The instrument panel receives information about the engine temperature (already calculated in °C) and displays
the value in
the set unit of measurement (°C or °F), followed by the unit of measurement and the engine
temperature symbol.
The temperature display range goes from 40 °C to +120 °C (+104 °F ÷ +248 °F).
If reading is:
- <= (lower than or equal to) -40 °C (-40 °F), a string of flashing dashes " - - - " is displayed;
- within the range -39 °C (-38 °F) to +39 °C (+102 °F), "LO " is displayed steadily;
- within the range +40 °C (+104 °F) to +120 °C (+248 °F), the value is displayed steadily;
- >= (higher than or equal to) +121 °C (+250 °F), "HI" is displayed flashing.
If the coolant temperature sensor is in fault, a string of flashing dashes "- - -" is displayed with the set unit of
measurement
and the MIL light turns on.
If the instrument panel is not receiving coolant temperature value, a string of steady dashes "- - -" is displayed,
followed
by the unit of measurement.
Note
If the instrument panel does not receive any information on the unit of measurement, the last unit of
measurement set is displayed
flashing.
Fuel level
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Note
In case of fault or error of the fuel level sensor, no level marks will be displayed, the fuel pump symbol will be red
and
flashing, and the Generic Error warning light will be on.
Gear
The instrument panel receives information about the gear engaged and displays the corresponding value.
If a gear is engaged, the displayed value may range from 1 to 6, while if in neutral N is displayed.
A string of flashing dashes "--" is displayed if gear teach-in procedure has not been carried out yet, or if
instrument panel
is not receiving gear information.
If the gear sensor is in fault, a string of dashes "--" is displayed steady on.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
DWC
- if DWC is active, the "DWC" and the rectangle with the relevant intervention level number (1 to 8);
- if DWC is active, but system is in degraded operation due to a fault, DWC lettering, the DWC intervention level
number from
1 to 8 (flashing) and the relevant rectangle; also the DTC/DWC warning light starts flashing;
- if DWC is not active, DWC OFF warning;
- if system is in fault, DWC lettering and the intervention level number (1 to 8) in orange.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
If DWC is in fault or the Black Box is in fault, the instrument panel will display DWC Err and DTC/DWC warning
light will
be steady on.
Note
If DTC is set to OFF, DWC is also forced to OFF.
The Ducati Wheelie Control system (DWC) supervises control of wheelie movement and settings vary through
eight different levels
that are calibrated to offer a different prevention and reaction to wheelies. Each Riding Mode
features a pre-set intervention
level. Level eight indicates a setting that minimises motorcycle tendency to shift up
in a wheelie and maximises reaction
to the same, if it occurs. While level one is for expert riders and features a
lower wheelie control in terms of prevention
and less strong reaction to the same, if it occurs.
Warning
DWC is a rider aid that can be used both on the track and the road. The system is designed to make riding easier
and to enhance
safety, but in no way relieves the rider of the obligation to ride responsibly and maintain a high
standard of conduct in
accordance with traffic laws so as to avoid accident or force emergency maneuvers,
whether caused by his own errors or those
of other road users.
The rider must always be aware that active safety systems have a preventive function. The active elements help
the rider control
the motorcycle, making it as easy and safe to ride as possible. The presence of an active safety
system should not encourage
the rider to ride at speeds beyond the reasonable limits, not in accordance with the
road conditions, the laws of physics,
good riding standards and the requirements of the road traffic code.
The following table indicates the most suitable level of DWC intervention for the various riding types as well as the
default
settings in the "Riding Mode" that can be selected by the rider:
DWC USE DEFAULT
OFF The DWC is disabled. NO
1 HIGH Road use and track use for expert riders. The system allows NO
PERFORMANCE wheelies, but decreases the speed at which the front wheel lifts.
2 PERFORMANCE Road use and track use for expert riders. The system allows It is the default level
wheelies, but decreases the speed at which the front wheel lifts. for the "SPORT" Riding
Mode
3 SPORTIVE Track use and road use for expert riders. The system reduces the It is the default level
motorcycle's proneness to do wheelies and intervenes in
case of for the "TOURING"
wheelie. Riding Mode
4 SPORTIVE Track and road use for all kinds of riders. The system reduces the NO
motorcycle's proneness to do wheelies and intervenes in
case of
wheelie.
5 SAFE & Level for all kinds of riders. The system reduces the motorcycle's It is the default level
STABLE proneness to do wheelies and sensitively intervenes in
case of for the "URBAN"
wheelie. Riding Mode
6 SAFE & Level for all kinds of riders. The system reduces the motorcycle's NO
STABLE proneness to do wheelies and sensitively intervenes in
case of
wheelie.
7 HIGH SAFE & Level for all kinds of riders. The system reduces the motorcycle's NO
STABLE proneness to do wheelies and sensitively intervenes in
case of
wheelie.
8 HIGH SAFE & Level for all kinds of riders. The system reduces the motorcycle's NO
STABLE proneness to do wheelies to a minimum level and sensitively
intervenes in case of wheelie.
Warning
Excellent operation of the DWC system, for all available levels, is ensured only with the OE final drive ratio and
with OE
tires and/or with the ones recommended by Ducati. In particular, OE tires for this motorcycle are Pirelli
Scorpion Trail II
in the following sizes: 120/70ZR17 at the front, 190/55ZR17 at the rear. Using tires with different
size and characteristics
from the original tires may alter the operating characteristics of the system thus making it
unsafe. It is recommended not
to install tires of different size than the ones approved for your vehicle.
At level 8 the DWC system reduces the motorcycle's proneness to do wheelies to a minimum level and sensitively
intervenes
in case of wheelie. Between level 8 and level 1 there are further intermediate levels of intervention for
the DWC. Levels
1, 2 and 3 allow easier wheelies, but reduce their speed: these levels are recommended only for
track use and for expert riders
who can control wheelies on their own and exploit the system feature that reduces
the speed at which the front wheel tends
to lift.
The choice of the correct level mainly depends on the following parameters:
The motorcycle is equipped with ABS, the instrument panel indicates ABS status (on or off) by switching off, on or
flashing
the ABS warning light.
The instrument panel displays:
- if the ABS is active, the message "ABS" and the rectangle with the set intervention level number (1 to 3)
steady ON;
- if ABS is active, but system is in degraded operation due to a fault (no "cornering" feature"), ABS lettering,
the ABS intervention
level number, 1 to 8 (flashing) and the relevant rectangle; also the ABS warning light
starts flashing;
- if there is a fault in the system, the ABS lettering will flash.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
If ABS is disabled, the instrument panel will display ABS OFF indication and ABS light will be steady on.
Using the brakes correctly under adverse conditions is the hardest – and yet the most critical - skill to master for a
rider.
Braking is one of the most difficult and dangerous moments when riding a two wheeled motorcycle: the
possibility of falling
or having an accident during this difficult moment is statistically higher than any other
moment. A locked front wheel leads
to loss of traction and stability, resulting in loss of control.
The Anti-Lock Braking System (ABS) has been developed to enable riders to use the motorcycle braking force to
the fullest
possible amount in emergency braking or under poor pavement or adverse weather conditions. ABS is
an electro-hydraulic device
that controls the pressure in the brake circuit when the control unit, by processing
information from wheel sensors, determines
that one or both wheels are about to lock up. In this case, pressure
decrease in the brake circuit allows the wheel to carry
on turning, thereby preserving grip. After that, the control
unit restores the pressure in the brake circuit, to resume the
braking action. This cycle is repeated many times
until the problem is completely eliminated. Normally, the rider will perceive
ABS operation as a harder feel or a
pulsation of the brake lever and pedal.
The front and rear brakes do not use separate control systems: the ABS on this bike provides for an electronic
combined braking
action that also activates the rear brake system when the rider uses only the front brake. The
contrary is not true: the rear
brake control will not affect the front brake.
The Multistrada 1200 ABS also features a "cornering" function that widens ABS functionality to the conditions
where the motorcycle
is leaning over, thus controlling the front and rear brake systems depending on the vehicle
lean angle with the purpose of
preventing wheel lockup and slipping as much as possible, within the physical limits
allowed by the vehicle and by the road
conditions.
If desired, the system can be deactivated from the instrument panel, setting the level to OFF within the Riding
Mode for which
you wish to disable it.
Warning
Although combined braking is available (rear brake activation when rider uses only the front brake), using the two
brake controls
separately reduces the motorcycle braking power.
Never use the brake controls harshly or suddenly as you may cause rear wheel lift-up and lose control of the
motorcycle.
When riding in the rain or on slippery surfaces, braking will become less effective. Always use the brakes very
gently and
carefully when riding under these conditions. Any sudden manoeuvres may lead to loss of control.
When tackling long, high-gradient downhill road tracts, shift down gears to use engine braking. Apply one brake at
a time
and use brakes sparingly. Keeping the brakes applied all the time would cause the friction material to
overheat and reduce
braking power dangerously.
Underinflated and overinflated tyres reduce braking efficiency, handling accuracy and stability in a bend.
The following table indicates the most suitable level of ABS intervention for the various riding types as well as the
default
settings in the "Riding Mode" that can be selected by the rider:
ABS RIDING CHARACTERISTIC DEFAULT
MODE
OFF The ABS is disabled NO
1 OFF- This level is designed exclusively for off-road use, for expert riders (not It is the default
ROAD recommended for road use). ABS in this level only
controls the front wheel, and level for the
thus allows rear wheel lockup (thus helping braking efficiency on dirt roads). "ENDURO"
The system in this level does NOT control lift-up, there is NO front-to-rear Riding Mode
combined braking and the cornering feature is
NOT active.
2 SPORT This level is designed for road use, with good grip conditions. ABS in this level It is the default
controls both wheels, system creates pressure
also at the rear calliper when the level for the
rider uses only the front brake (combined braking) and the cornering function is "SPORT" Riding
active. Mode
In this level system does NOT control lift-up: this calibration focuses on braking
power and wheel lift-up should be managed
by the rider.
3 SAFE This level is designed for use in any riding conditions to provide a safe and It is the default
& consistent braking action. ABS in this level
controls both wheels, system creates level for the
STABLE pressure also at the rear calliper when the rider uses only the front brake "TOURING" and
(combined
braking), and the cornering function and lift-up control function are "URBAN" riding
active. modes.
Warning
Excellent operation of the ABS system, for all available levels, is ensured only with the OE brake system and with
OE tires
and/or with the ones recommended by Ducati. In particular, OE tires for this motorcycle are Pirelli
Scorpion Trail II in the
following sizes: 120/70ZR17 at the front, 190/55ZR17 at the rear. Using tires with different
size and characteristics from
the original tires may alter the operating characteristics of the system thus making it
unsafe. It is recommended not to install
tires of different size than the ones approved for your vehicle.
Selecting level 3, the ABS will ensure a very stable braking thanks to lift-up control and front-to-rear combined
braking,
and the motorcycle will keep a good alignment during the whole braking action. ABS level 3 features
active cornering function
which, with vehicle leaning over, prevents wheel lockup and slipping as much as possible,
within the physical limits allowed
by the vehicle and by the road conditions.
Selecting level 2, the ABS will privilege more and more the braking power rather than stability and lift-up control,
which
is disabled in level 2. Level 2 provides for the front-to-rear combined braking and the cornering function.
ABS level 1 is specific for off-road use and ABS is active only on the front wheel to help braking performance on
dirt roads.
In this level there is no lift-up control, neither front-to-rear combined braking, nor cornering function.
The choice of the correct level mainly depends on the following parameters:
1 The tyre/road grip (type of tyre, amount of tyre wear, the road/track surface, weather conditions, etc.).
2 The rider's experience and sensitivity: expert riders can tackle a lift-up in trying to reduce the stopping
distance to a
minimum, while less expert riders are recommended to use setting 3, that will help them
keeping the motorcycle more stable
even in emergency braking.
DTC
- if DTC is active, the "DTC" and the rectangle with the Traction Control intervention level number (1 to 8);
- if DTC is active, but system is in degraded operation due to a fault, DTC lettering, the DTC intervention level
number from
1 to 8 (flashing) and the relevant rectangle; also the DTC/DWC warning light starts flashing;
- if DTC is not active, DTC OFF warning;
- if system is in fault, DTC lettering and the intervention level number (1 to 8) in orange.
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
If DTC is in fault or the Black Box is in fault, the instrument panel will display "DTC" and “-” flashing and DTC/DWC
warning
light will be steady on.
Warning
DTC is a rider aid that can be used on the track, on the road and off road. The system is designed to make riding
easier and
to enhance safety, but in no way relieves the rider of the obligation to ride responsibly and maintain a
high standard of
conduct in accordance with traffic laws so as to avoid accident or force emergency maneuvers,
whether caused by his own errors
or those of other road users.
The rider must always be aware that active safety systems have a preventive function. The active elements help
the rider control
the motorcycle, making it as easy and safe to ride as possible. The presence of an active safety
system should not encourage
the rider to ride at speeds beyond the reasonable limits, not in accordance with the
road conditions, the laws of physics,
good riding standards and the requirements of the road traffic code.
The following table indicates the most suitable level of DTC intervention for the various riding modes as well as the
default
settings in the "Riding Modes" that can be selected by the rider.
DTC RIDING USE DEFAULT
MODE
OFF The DTC is disabled. NO
1 OFF-ROAD This level is designed exclusively for off-road use, for very expert riders (not NO
Professional recommended for road use). The DTC in this
mode allows considerable spinning
of the rear wheel. In this level, the system does NOT ensure a correct control of
traction
loss on asphalt.
2 OFF-ROAD This level is designed exclusively for off-road use, for not very expert riders (not It is the default
recommended for road use). In this
level, the system does NOT ensure a level for the
correct control of traction loss on asphalt. "ENDURO"
Riding Mode
3 SPORT / This level is designed for track use, with good grip conditions, for very expert NO
TRACK riders. In this mode, the DTC allows sideslipping.
4 SPORT This level is designed for both track and road use, with good grip conditions. It is the default
level for the
"SPORT" Riding
Mode
5 TOURING This level is designed for road use, with good grip conditions. It is the default
level for the
"TOURING"
Riding Mode
6 SAFE & This level is designed for use in any riding conditions, on the road with good It is the default
STABLE grip. level for the
"URBAN"
Riding Mode
7 RAIN This level is designed for road use, when surface is wet. NO
8 HEAVY This level is designed for road use, when surface is wet and very slippery. NO
RAIN
Warning
Excellent operation of the DTC system, for all available levels, is ensured only with the OE tires and/or with the
ones recommended
by Ducati. In particular, OE tires for this motorcycle are Pirelli Scorpion Trail II in the following
sizes: 120/70ZR17 at
the front, 190/55ZR17 at the rear. Using tires with different size and characteristics from
the original tires may alter the
operating characteristics of the system thus making it unsafe. It is recommended
not to install tires of different size than
the ones approved for your vehicle.
If level 8 is selected, the DTC will kick in at the slightest hint that the rear wheel is starting to spin. Between level
8 and level 1 there are other 6 intermediate levels. DTC intervention decreases regularly from level 8 to level 1.
Levels 1 and 2 were specifically designed for off-road use and do not ensure a correct control of traction loss on
asphalt.
With levels 3 and 4, DTC control unit allows both rear tyre spinning and sliding sideways when exiting a turn; we
recommend
using these levels only on track and to very experienced riders.
The choice of the correct level depends on 3 main variables:
1 The grip (type of tyre, amount of tyre wear, the road/track surface, weather conditions, etc.);
2 The characteristics of the path/circuit (bends all taken at similar speeds or at very different speeds);
3 The riding mode (whether the rider has a "smooth" or a "rough" style).
The Riding Mode can be selected from the instrument panel. Four preset riding modes are available: SPORT,
TOURING, URBAN and
ENDURO.
The selected and active riding mode is displayed on the top part of the instrument panel display, above the speed
indication,
in all four layouts.
Every Riding Mode contains the following parameters, set by Ducati or customised by the user through the setting
function
pages:
- a specific level of intervention for the DTC traction control (1, 2, 3, 4, 5, 6, 7, 8, OFF);
- a specific level of intervention for the DWC (1, 2, 3, 4, 5, 6, 7, 8, OFF);
- a specific ABS calibration (1, 2, 3, OFF);
- a specific engine power that will change throttle behaviour (HIGH, MEDIUM, LOW);
- a specific calibration of DSS suspensions (setup of front and rear suspensions and spring preload setup for the
rear shock
absorber).
A different standard screen layout (TRACK, FULL, CORE and OFF ROAD) is associated to every riding mode; it is
set by Ducati
or customised by the user from the setting functions; the layouts set by Ducati are associated to the
Riding modes as follows:
Warning
Ducati recommends changing the Riding mode when the motorcycle is stopped. If the riding mode is changed
while riding, be
very careful (it is recommended to change the Riding mode at a low speed).
- SPORT
- TOURING
- URBAN
- ENDURO
One of them will be marked to indicate the last memorised condition that is currently active.
For the marked Riding Mode, instrument panel displays information concerning some of the associated
parameters:
- engine power (ENGINE): ENGINE lettering followed by set engine power (HIGH, MEDIUM or LOW);
- ABS system: ABS lettering followed by the set calibration level (1, 2, 3) in case ABS is active or followed by
OFF in case
ABS is disabled.
- DTC system: DTC lettering followed by the set level (1, 2, 3, 4, 5, 6, 7, 8) in case DTC is active or followed by
OFF in case
DTC is disabled;
- DWC system: DWC lettering followed by the set level (1, 2, 3, 4, 5, 6, 7, 8) in case DWC is active or followed
by OFF in case
DWC is disabled;
- DSS front suspension: FRONT lettering followed by set compression and rebound for the fork;
- DSS rear suspension: REAR lettering followed by set compression and rebound for the rear shock absorber;
- rear shock absorber spring preload: PRE-LOAD lettering followed by set spring preload (from 01 to 24) for the
rear shock absorber.
Displayed information includes the values stored for each single Riding Mode. The stored settings may be the
factory ones
(Ducati default settings) or the ones customised by the owner. Any time CONFIRM MENU button (4)
is pressed, the selected riding
mode is highlighted together with the associated parameters A.
Once the desired riding mode A, is highlighted, confirm the selection by holding down the CONFIRM MENU button
(4) for 2 seconds:
the new riding mode selection is stored and the standard screen C, is displayed for the selected
riding mode.
Once the desired riding mode is highlighted, if the CONFIRM MENU button (4) is not pressed within 5 seconds, the
new riding
mode selection is not stored and the standard screen is displayed.
When system requests rider to confirm the riding mode change, the procedure will output an error if:
- the vehicle is stopped, the instrument panel only checks whether the throttle control is closed / open by
indicating CLOSE
THROTTLE if so;
- the vehicle is moving, the instrument panel checks whether the throttle control is open / closed or whether the
brakes are
pulled or not; the instrument panel may display CLOSE THROTTLE AND RELEASE BRAKES or
CLOSE THROTTLE or RELEASE BRAKES.
Warning
Ducati recommends changing the load mode when the motorcycle is stopped. If the load mode is changed while
riding, be very
careful (it is recommended to change the Riding mode at a low speed).
Every load setup is associated with a specific front fork rebound and compression damping, a specific rear shock
absorber
rebound and compression damping as well as a specific rear shock absorber spring preload.
Press button (2) for two seconds to activate the load mode function menu.
Every time user presses button (2), the instrument panel will highlight, within the motorcycle load mode menu,
one of the
four available options.
Once the required setup is highlighted, hold button (2) for two seconds to confirm: the motorcycle load mode will
be stored
and standard screen will be displayed, showing the just-selected load mode.
Once the desired load mode is highlighted, if the button (2) is not pressed within 5 seconds, the new load mode
selection
will not be stored and the standard screen will be displayed.
Example of operation: if load mode is changed from "rider only" to "rider with luggage", the change extent can
vary depending
on set riding mode: in fact, "rider with luggage" load mode could feature different settings
according to set riding mode,
SPORT, TOURING, URBAN or ENDURO.
Warning
Changing load mode could result in a different riding style; it is recommended to pay utmost attention when
changing load
mode wile riding (it is recommended to change load mode at low speed).
Motorcycle speed
The instrument panel receives information about the actual motorcycle speed (calculated in km/h) and displays the
value increased
by 5% and converted in the set unit of measurement (km/h or mph).
The max. displayed speed is 299 km/h (186 mph).
A string of dashes "- - -" is displayed with the set unit of measurement if:
- speed is equal to 299 km/h or 186 mph or if instrument panel is not receiving the speed value ("- - -" steady
ON);
- the rear speed sensor is in fault (flashing "- - -").
Considering that the FULL, CORE and OFF ROAD layouts show the values for this function in a similar to the TRACK
layout, the
example shown depicts the function in TRACK layout.
Note
If the instrument panel does not receive any information on the unit of measurement, the last unit of
measurement set is displayed
flashing.
Engine rpm indication (RPM)
The instrument panel receives the engine rpm information and displays it on the relevant bargraph (in TRACK,
FULL and OFF
ROAD display modes only). The information is displayed by the bargraph filling from the left to the
right according to the
engine rpm and with the enlargement of the numerical digit of the relevant miles (e.g., if
the RPM value is "8000" or higher,
number "8" is displayed bigger).
The range between 8500 and 10500 rpm (pre-warning area) is displayed in orange both for the bargraph filling
and for the indication
of value "10" (orange area).
The range between 10500 and 11000 rpm (warning area) is displayed in red both for the bargraph filling and for
the indication
of value "11" (red area).
TRACK layout indicates rpm in a different way compared to FULL and OFF ROAD layouts.
CORE layout does not provide for rpm indication.
When the threshold before the rpm limiter is reached, the corresponding warning lights will turn on.
Main functions
Additional information
- LAP
- Infotainment — Bluetooth
- Cruise Control
- Service indication (SERVICE)
- Warnings/Alarms
- Heated handgrip (optional)
- Riding mode customisation (RIDING MODE): this menu allows customisation of:
- Engine setting (ENGINE)
- DTC level setting (DTC)
- DWC level setting (DWC)
- ABS setting (ABS)
- Semi-active suspension setting (DSS)
- Reset to default settings (DEFAULT)
- Display mode setting (INFO MODE)
- PIN CODE (enter/change)
- LAP (view/delete/reset automatic settings)
- Display backlighting (BACK LIGHT)
- Date setting (DATE SET)
- Clock setting (CLOCK SET)
- Unit setting (Speed - Temperature - Fuel consumption) (UNIT SETTING)
- Bluetooth setting (pairing/deleting any paired devices)
- General information indication (INFO): Battery voltage — rpm digital indication — Bluetooth version
Parameter setting/displaying
Upon key-on, the instrument panel displays the DUCATI logo and switches on the LED warning lights in two steps
("initial check
routine").
After this routine, the instrument panel displays the main page in one of the available layouts (TRACK, FULL, CORE
and OFF
ROAD), depending on the one in use before last KEY-OFF.
During this first check stage, if the motorcycle speed exceeds 10 km/h (6 mph) (actual speed), the instrument
panel will stop:
- the display check routine and display the standard screen containing updated information;
- the warning light check routine and leave ON only the warning lights that are actually active at the moment.
The main screen can have four different layouts: TRACK, FULL, CORE and OFF ROAD.
Data displayed on the main screen for TRACK layout are as follows:
1 Motorcycle speed.
2 Odometer
3 Fuel level.
4 Engine Coolant temperature
5 Set Riding Mode.
6 ABS ON/OFF indication.
7 DTC level indication (ON) or DTC OFF indication.
8 DWC level indication or DWC off indication.
9 LOAD settings (motorcycle setup)
10 Gear indication.
11 Clock.
12 Rev counter
13 Menu 1 (Range, Trip 1, Trip 2, Trip time).
14 Menu 2 (Instant fuel consumption, Average fuel consumption, Average speed, Ambient air temperature, Lap
time - only if active).
15 Cruise Control indication.
16 Bluetooth indication
17 LAP indication (only if active).
Data displayed on the main screen for FULL layout are as follows:
1 Motorcycle speed.
2 Odometer
3 Fuel level.
4 Engine Coolant temperature
5 Set Riding Mode.
6 ABS ON/OFF indication.
7 DTC level indication (ON) or DTC OFF indication.
8 DWC level indication or DWC off indication.
9 LOAD settings (motorcycle setup)
10 Gear indication.
11 Clock.
12 Rev counter
13 Menu 1 (Range, Trip 1, Trip 2, Trip time).
14 Menu 2 (Instant fuel consumption, Average fuel consumption, Average speed, Ambient air temperature).
15 Cruise Control indication.
16 Bluetooth indication
17 Infotainment Menu — Connected devices / phone calls / sms
18 Infotainment Menu — Player (calls) / Phone (Recall)
19 Infotainment Menu — Player (volume / track selection)
20 LAP indication (only if active).
Data displayed on the main screen for CORE layout are as follows:
1 Motorcycle speed.
2 Odometer
3 Fuel level.
4 Engine Coolant temperature
5 Set Riding Mode.
6 ABS ON/OFF indication.
7 DTC level indication (ON) or DTC OFF indication.
8 DWC level indication or DWC off indication.
9 LOAD settings (motorcycle setup)
10 Gear indication.
11 Clock.
12 Menu 1 (Range, Trip 1, Trip 2, Trip time).
13 Menu 2 (Instant fuel consumption, Average fuel consumption, Average speed, Ambient air temperature).
14 Cruise Control indication.
15 Bluetooth indication
16 Infotainment Menu — Connected devices / phone calls / sms
17 Infotainment Menu — Player (calls) / Phone (Recall)
18 Infotainment Menu — Player (volume / track selection)
19 LAP indication (only if active).
Data displayed on the main screen for OFF ROAD layout are as follows:
1 Motorcycle speed.
2 Odometer
3 Fuel level.
4 Engine Coolant temperature
5 Set Riding Mode.
6 ABS ON/OFF indication.
7 DTC level indication (ON) or DTC OFF indication.
8 DWC level indication or DWC off indication.
9 LOAD settings (motorcycle setup)
10 Gear indication.
11 Clock.
12 Rev counter
13 TRIP MASTER.
14 Ambient air temperature (T AIR).
15 Cruise Control indication.
16 Bluetooth indication
17 Residual range (RANGE)
18 LAP indication (only if active).
From the main screen, with TRACK layout, press button (1) on LH switch to view Menu 1 information.
- RANGE;
- TRIP 1;
- TRIP 2;
- TRIP TIME.
From the main screen, with FULL layout, press button (1) on LH switch to view Menu 1 information.
- RANGE;
- TRIP 1;
- TRIP 2;
- TRIP TIME;
- PLAYER ON/OFF (active only with connected Smartphone).
Press button (2) on LH switch to view Menu 2 information.
From the main screen, with CORE layout, press button (1) on LH switch to view Menu 1 information.
- RANGE;
- TRIP 1;
- TRIP 2;
- TRIP FUEL (when function is active);
- PLAYER ON/OFF (active only with connected Smartphone).
In the 3 layouts (TRACK, FULL, CORE) the instrument panel stores Menu 1 and Menu 2 settings in use upon KEY-
OFF. On the following
KEY-ON, previously stored Menu 1 e Menu 2 pages are displayed.
In case of sudden and unexpected power OFF, the instrument panel displays the default settings for Menu 1 and
Menu 2 upon
the following KEY-ON; in particular:
When the standard screen of set layout is displayed, hold button (4) for 2 seconds, when actual motorcycle speed
is <= (lower
than or equal to) 20 km/h (12 mph), to enter the Setting menu, where you can set any function.
Important
You can enter the SETTING MENU only when the actual vehicle speed is lower than or equal to 12 mph (20 km/h).
If you are inside
the Setting MENU and the actual vehicle speed exceeds 12 mph (20 km/h), the instrument panel
automatically exits from this
Menu and displays the Standard Screen.
If the key is not acknowledged upon Key-ON and once the check routine is over, the following will happen:
- if the PIN CODE function is not active, the instrument panel skips the warning light check, displays the
standard screen with
an error warning and does not allow accessing the PIN CODE function of the Setting
Menu;
- if the PIN CODE function is active, the PIN CODE function page is displayed on the instrument panel, allowing
rider to enter
the release code.
Function buttons
1) UP CONTROL SWITCH
Button used to display and set instrument panel parameters with the position.
2) DOWN CONTROL SWITCH
Button used to display and set instrument panel parameters with the position .
3) HIGH-BEAM/FLASH BUTTON (FLASH) (see Fig )
The high-beam flash button may also be used for LAP functions.
4) CONFIRM MENU / SETTING MENU ENTRY BUTTON
Button used to confirm during MENU navigation.
5) CRUISE CONTROL BUTTON - ON/OFF
Button used to switch the Cruise Control function on/off.
1) TFT display.
2) NEUTRAL LIGHT N (GREEN).
Comes on when in neutral position.
3) CRUISE CONTROL LIGHT (GREEN).
Comes on to indicate operation of the Cruise Control.
4) HIGH BEAM LIGHT (BLUE).
It turns on to indicate that the high beam lights are on and when the flasher is activated.
5) FUEL WARNING LIGHT (AMBER YELLOW).
Comes on when fuel is low and there are about 4 litres of fuel left in the tank.
6) TURN INDICATOR LIGHTS (GREEN).
Illuminates and flashes when the turn indicator is in operation.
7) ENGINE OIL PRESSURE LIGHT (RED).
Comes on when engine oil pressure is too low. It must turn on at "KEY-ON", but must turn OFF a few seconds after
the engine
has started. It may shortly come on when the engine is hot, however, it should go out as the engine
revs up.
Important
If the ENGINE OIL light stays ON, stop the engine or it may suffer severe damage.
Speed below 5 Km/h (3 mph)
Light OFF Light flashing Light steady on
DTC/DWC DTC/DWC enabled but not yet functioning since DTC/DWC disabled and/or not
enabled and initialisation is in progress or functioning with degraded functioning due to a fault in the BBS
functioning performance control unit.
Speed above 5 Km/h (3 mph)
Light OFF Light flashing Light steady on
DTC/DWC DTC/DWC enabled but there is a fault in the system DTC/DWC disabled and/or not
enabled and causing degraded performance functioning due to a fault in the BBS
functioning control unit.
It turns on in the case of "engine" errors that in some cases will lock the engine.
Speed below 5 Km/h (3 mph)
Light OFF Light flashing Light steady on
- ABS enabled but not yet functioning since initialisation is ABS disabled and/or not functioning
in progress or there is a fault of the IMU control unit due to a fault in the ABS control unit
Speed above 5 Km/h (3 mph)
Light OFF Light flashing Light steady on
ABS enabled ABS enabled but a fault is detected by the IMU control ABS disabled and/or not functioning
and unit due to a fault in the ABS control unit
functioning
DTC
No intervention Light OFF
Spark advance cut Light steady ON
Injection cut Light steady ON
Over rev
No intervention Light OFF
First threshold (N RPM before the limiter kicks in) Light steady ON
Limiter Light ON flashing
Note
Each calibration of the Engine Control Unit may have a different setting for the thresholds that precede the rev
limiter and
the rev limiter itself.
Immobilizer
Key-ON status Light OFF
Key-OFF status Light ON flashing
Key-off status for over 1 hour Light OFF
Refitting the front wheel
When all the necessary inspections have been completed, refit the wheel as follows.
Check the central spacer (8) is present on the wheel, see (Overhauling the front wheel).
On the right side, lubricate seal (9) using the specified product.
From the left side, lubricate spacer (7) with the specified product.
Fit spacer (7) in the wheel.
Apply the recommended grease to the thread and underhead of screws (2) retaining calliper (1).
Fit the two spacers (A).
Pre-tighten the two screws (2) to a torque of 2 Nm ± 10%.
Pull the brake lever many times.
Hold the lever pulled towards the handgrip and simultaneously tighten the screws (2) to a torque of 45 Nm ± 5%.
Tighten the screws (5) on the vehicle right side to a torque of 10 Nm ± 5%, following a 1-2-1 sequence.
Tighten nut (3) to a torque of 63 Nm ± 5%.
Loosen screws (5) that have been previously tightened to torque.
Lower the motorcycle to the ground and push up and down the handlebars to load the suspension; so the fork
bottom ends will
become properly seated onto the wheel shaft.
Tighten the screws (5) on both sides to a torque of 10 Nm ± 5%, following a 1-2-1 sequence.
Overhauling the front wheel
Wheel bearings
Before checking the dimensions, check for wear on wheel hub bearings. Check for wear by hand after cleaning and
degreasing
the bearings in their seats.
Turn the internal ring and check that the internal balls move freely: any irregularity indicates deformations like
those indicated
in values "A" and "B".
An excessive wear can cause vibrations and instability of the vehicle and therefore it is necessary to replace them.
To remove the bearings and the sealing rings from the wheel hub follow the instructions below.
Position a drift (C) against the inner ring of the bearing (10).
Tap with a hammer until removing the bearing (10).
Apply the drift at different points to facilitate the removal.
Important
Once removed, the used bearings and sealing rings must not be refitted.
Before fitting new bearings, check that the seat is clean and free from scoring and damage.
Grease the bearing seat and then push the new bearing into its seat.
Using a tubular drift (D) that only bears on the outer ring of the bearing (10) to drive the latter fully into its seat.
Note
Wheels must be rebalanced after repair, maintenance and overhaul operations.
Check the wheel shaft (7) for straightness. Turn the shaft on a reference surface and measure maximum distortion
using a feeler
gauge.
Overhauling the wheel rim
After you have checked the bearings, check the rim as follows.
Visually inspect the rim for cracks, scoring and deformation: change the rim if damaged.
Insert the shaft in the wheel and position it on two fixed reference blocks.
Using a dial gauge, measure rim runout and out-of-round with respect to the shaft axis.
If the values measured are not within the tolerance limits, replace the wheel.
Removing the front wheel
Support the bike so that the wheel to be removed is raised from the ground.
Remove front brake callipers (1) by loosening the two screws (2) securing the calliper to the fork leg without
disconnecting
them from the hoses.
S Version
Fit the wheel shaft by matching holes (A) on the rear rim with pins (B) on the rear hub.
Install spacer (4), with the tapered surface facing the wheel, and washer (3).
Tighten the nut (2) to a torque of 230 Nm ± 10%, checking that the hole on the nut is aligned with one of those
on the wheel
shaft.
Fit the clip (1), fitting the end into one of the holes in the shaft, orienting it as shown in the figure.
In case of tyre replacement fit the counter-weights by respecting the values indicated in the figure.
Overhauling the rear wheel
Note
The service pin mentioned above allows fitting the wheel on the balancing machine.
Place the motorcycle on the rear service stand and engage the 1st gear.
Remove the circlip (1).
Using a suitable socket, loosen the wheel nut (2).
Fully unscrew the nut (2) and then slide out washer (3) and spacer (4).
Remove the rear wheel from the motorcycle.
Refitting the front brake system
Warning
The following procedure applies to both vehicle versions.
Upon the system refitting, pay attention to the orientation of the hose unions (11), (13) and (14).
Warning
If incorrectly positioned, hoses can affect brake operation and foul moving parts. Position the component as shown
in the
figure.
After having aimed the hose unions (11) on the front brake callipers (13) and (14), tighten special screws (8) and
(9) to
the torque of 23 Nm ±10%.
Insert the LH (13) and RH (14) brake callipers on the relevant discs.
Apply the specified grease to screws (12).
Start screws (12) to secure the callipers to the fork legs.
Operate the brake lever two or three times to pressurise the circuit so that the brake pads are brought into contact
with
the brake disc.
Hold the lever pulled towards the handgrip and simultaneously tighten the calliper screws (12) to a torque of 45
Nm ± 5%.
Refit the front brake hose protection (7) by starting and fitting screws (6) to a torque of 3.5 Nm ± 10%.
Position the front brake hose (4) on bracket (5).
Tighten screw (3) to a torque of 10 Nm ±5%.
If the speed sensor has been removed, it will be necessary to adjust the AIR-GAP.
There must be a gap between ABS sensor and phonic wheel of 1.3 mm to 1.9 mm. To check it, use a suitable
feeler gauge.
Tighten the sensor securing screw fully home every time you add or remove shims.
Once the shimming is completed, tighten the sensor retaining screw to a torque of 10 Nm ± 10%.
For the shimming, use two feeler gauges (A) of 0.2 mm and 0.5 mm.
Warning
Shim pack shall never exceed 3 mm.
Note
Perform the test in three points of the phonic wheel, at a distance of 120° one from the other.
Refit the front brake master cylinder (Refitting the front brake master cylinder).
Fill the front braking system (Changing the front brake system fluid).
Refitting the brake discs
Warning
The following procedure applies to both vehicle versions.
Before refitting the brake disc to the wheel, clean all contact surfaces thoroughly and apply the indicated
threadlocker on
the threads of retaining screws (1).
LEFT SIDE
RIGHT SIDE
Follow the same procedure performed for the LH disc, except for the indications regarding the phonic wheel.
Refit the wheel on the motorcycle (Refitting the front wheel).
Overhauling the front brake components
Important
The brake callipers manufacturer advises against servicing the brake callipers due to the safety critical nature of
this component.
Incorrect overhaul of this component could endanger rider safety.
Operations should be limited to replacement of the pads, fasteners and the bleed valve assembly.
The brake disc must be clean, without any signs of rust, oil, grease or dirt and no deep scoring.
To check the wear of the brake discs, follow the data detailed in Section "Hydraulic brakes".
Removing the brake discs
Warning
The following procedure applies to both vehicle versions.
The front brake discs consist of an inner carrier, which is mounted to the wheel, and an outer rotor. Both parts
must be replaced
together as a pair.
LEFT SIDE
RIGHT SIDE
Removing the front brake system
Warning
The following procedure applies to both vehicle versions.
Drain the front braking system (Changing the front brake system fluid).
Remove the front brake master cylinder (Removing the hydraulic front brake master cylinder).
Undo the screw (3) and slide the front brake hose (4) from the hose grommet (5) on the bottom yoke.
Loosen screws (7) and remove the front brake hose protection (6).
Undo the special screws (8) and (9) from both callipers and collect the seals (10).
Remove the front brake callipers from hoses (4) and (11).
Loosen the two retaining screws (12) securing the left front brake calliper (13) to the fork leg.
Repeat the operation for the right brake calliper (14).
Maintenance operations
Warning
Brake fluid is corrosive and will damage paint. Avoid contact with eyes and skin. In case of accidental contact,
wash thoroughly
with water.
For all maintenance operations (wear check and replacement of brake pads and brake fluids, etc.) see section
(Maintenance
operations).
Refitting the front brake master cylinder
Reposition the front brake master cylinder assembly (3) on the handlebar by inserting pin (B) in the relevant seat
(C) of
the handlebar.
Position U-bolt (6) on the handlebar by starting the screws (5) as shown in the figure.
Tighten the fastening screws (5) to the specified torque of 10 Nm ± 10% following the sequence 1-2-1 starting
from the upper
screw.
Connect the front brake switch connector (A) to the main wiring harness.
Position the hose (4) and sealing washers (2) on the master cylinder unit (3) and secure with the special screw
(1), without
tightening.
Tighten the special screw (1) to a torque of 23 Nm ± 10%.
Warning
An incorrectly positioned hose can cause system faults and interfere with moving parts.
For the positioning of the hose (4) and retaining ties, see Section "Routing wiring/hoses".
Warning
The brake master cylinder manufacturer advises against servicing the brake master cylinder due to the safety
critical nature
of this component. Incorrect overhaul can endanger rider and passenger safety. Maintenance
operations on these units are limited
to replacement of the following parts: control lever, fluid reservoir assembly
and relative fasteners and master cylinder
fasteners.
Drain the braking system (Changing the front brake system fluid).
Remove the rear-view mirrors (Removing the rear-view mirrors).
Remove the tank filler plug cover (Removing the tank fairings).
Disconnect the front brake switch connector (A) from the main wiring harness.
Undo the special screw (1), collecting the sealing washers (2) to release the front brake master cylinder unit (3)
from hose
(4).
Undo the screws (5) securing the U-bolt (6), and then remove the front brake master cylinder assembly from the
handlebar.
Refitting the rear brake calliper
If the brake lines (2) are replaced or if one of the rear brake system components has been removed, make sure
that the hose
unions on the master cylinder and the calliper are correctly positioned.
Warning
If incorrectly positioned, hoses can affect brake operation and foul moving parts. Position the component as shown
in the
figure.
Remember to fit the copper gaskets (3) to the hose end union when reconnecting the brake line to the brake
calliper (5).
After having aimed the hose union, tighten special screw (1) to the torque of 23 Nm ±10%.
If the speed sensor (6) is removed, fit it to the calliper holder plate (9) with the spacer (8), and tighten the screw
(7)
to a torque of 10 Nm ± 10%.
If calliper holder plate (9) has been removed, refer to Section "Refitting the rear wheel eccentric hub and rear wheel
shaft" to refit it.
Insert the rear brake calliper (5) on the brake disk, aligning it with the holes of calliper holder plate (9).
Apply the indicated grease on screws (4) and tighten them to 25 Nm ± 5%.
If the speed sensor has been removed, it will be necessary to adjust the AIR-GAP.
There must be a gap between ABS sensor and phonic wheel of 1.3 mm to 1.9 mm. To check it, use a suitable
feeler gauge.
Tighten securing screw (7) fully home on sensor (6) every time you add or remove shims.
Once the shimming is completed, tighten the sensor retaining screw to a torque of 10 Nm ± 10%.
For the shimming, use two feeler gauges (A) of 0.2 mm and 0.5 mm.
Warning
Shim pack shall never exceed 3 mm.
Note
Perform the test in three points of the phonic wheel, at a distance of 120° one from the other.
Refitting the front brake disc
Position disc (2) on the flange and fix it with screws (1) after applying the indicated threadlocker.
Position the phonic wheel (4), apply the indicated threadlocker and fix using screws (3).
Warning
The following procedure applies to both vehicle versions.
Important
The brake calliper manufacturer advises against servicing the brake calliper or master cylinder due to the safety
critical
nature of this component. Incorrect overhaul can endanger rider and passenger safety.
Before removing the concerned parts, you must first carry out the following operations:
Drain the rear braking circuit (Changing the rear brake system fluid).
Undo and remove the special screw (1) securing the hose (2) to the rear brake calliper and the corresponding
seals (3).
Remove the hose (2).
Undo the two fastening screws (4) securing the rear brake calliper (5) to the calliper holder bracket, and remove
the brake
calliper (5).
If it is necessary to remove the calliper holder plate (9), refer to Section "Removing the rear wheel eccentric hub and
the rear wheel shaft".
To replace the brake pads follow instructions in the paragraph "Checking brake pad wear and replacing rear brake pads".
To remove the speed sensor (6), undo the fastening screw (7) paying attention to the spacer defining the airgap
(8).
Make sure that bushing (10) is set in the relevant seat of the rear brake lever (7).
Bushing (10) must be at the same distance from the external edges of rear brake lever seat (7).
Apply the indicated grease on the inner surface of the bush (10) and threadlocker on the shaft (6).
Install O-ring (9) onto shaft (6).
Insert shaft (6) on brake control lever (7), fit the other O-ring (9) and washer (11).
Reconnect the hose (14), locating the seals (15) on both sides of the hose end union, and secure it with the
special screw
(12) and securing hose (16) with hose clip (13).
Tighten the special screw (12) to a torque of 23 Nm ± 10%.
Note
Pay particular attention to the hose routing and hose coupling on the rear brake master cylinder.
The brake master cylinder is supplied only as a complete unit; internal components cannot be replaced.
If the bush (10) inside the brake pedal (7) needs to be replaced, grease the external surface and fit the new bush
using a
press to insert it. The bush must be placed at the indicated value.
After performing an operation on the rear brake control, check the brake pedal position following the instructions
detailed
in Section "Adjusting the position of the gear pedal and rear brake pedal".
Removing the rear brake control
Warning
The brake master cylinder manufacturer advises against servicing the brake master cylinder due to the safety
critical nature
of this component. Incorrect overhaul can endanger rider and passenger safety. Maintenance
operations on these units are limited
to replacement of the following parts: control lever, fluid reservoir assembly
and relative fasteners and master cylinder
fasteners.
Drain the rear braking system (Changing the front brake system fluid).
ABS (Antilock Braking System) intervention can be customised and possibly disabled.
To set and disable the ABS, refer to "ABS system operation information".
ABS system operation information
The ABS control unit diagnosis will check the system main component operation by analysing the system software
and hardware.
The ABS control unit then communicates any error detected on the CAN line to be validated in the
engine or BBS control unit
according to whether the error is linked with an emission-relevant component.
From the model menus of the DDS2.0 diagnosis software, select MULTISTRADA family, then model MULTISTRADA
1200 S/T, and then
select a model from model year 15 on. The Global Scan functions will be automatically started
by the diagnosis software; connect
the instrument to the CAN diagnosis socket on the bike. To find the connector
position, refer to the displayed image.
Wait for the correct configuration to be loaded and, when requested, switch the vehicle to key-on state.
Tester communicates to the different control units present on bike, ABS control unit included; wait for the scan to
be completed.
Among the displayed information a "dot" icon is shown: based on its colour, it refers to validated errors inside the
different
control units.
In particular, if errors are stored, icon will be yellow or if errors are currently present, icon will be red, while if no
errors are present, icon will be green. The "dot" will be grey if the control unit is not detected by the diagnosis
instrument,
i.e. it does not respond to requests with the diagnosis protocol.
The MULTISTRADA 1200 Model Year 15 is the first Ducati bike compliant with the EURO 4 emission standard.
Please be reminded
that the presence of any actual errors may have to be acknowledged by starting the engine.
In case of component checks or
replacements, we recommend reading the errors only after a first engine start and
stop.
To make a deeper analysis of the ABS control unit, select ABS control unit and SELF-DIAGNOSIS or, as an
alternative, make
a double selection on the same item with your mouse.
Once in this configuration, a number of parameters and states of the ABS control unit and information concerning
the control
unit itself may be selected and displayed.
The INFO menu allows reading the software version loaded on the control unit as well as other information.
Two further columns dedicated to the ABS control unit have been added to the Global Scan function providing the
following
information in case of IMU sensor and BBS, ABS component replacement:
- BBS setting (indicates the setting of the BBS: Standard or Pikes Peak);
- ABS setting (indicates the setting of the ABS: Standard or Pikes Peak);
- ABS EOL mode (indicates whether the test of IMU sensor correct installation has been performed or not).
The spare ABS control unit has not default setting; it acquires the setting of the BBS control unit upon first key-on
after
its installation. In case of ABS setting errors it is possible to reset the self-learnt ABS setting using the
specific function
in the ABS diagnosis: "ABS setting reset".
To change the BBS setting, which is possible only on hardware for the MULTISTRADA 1200 version, it is possible to
use the
function "BBS set version". This function is to be used in the initialisation operations of the spare BBS
control unit to
change its setting from Standard to Pikes Peak and vice versa.
In case of replacement of the ABS control unit with a spare one, it is necessary to check the correct installation of
the
IMU sensor. Otherwise the ABS warning light will blink also when exceeding 5 km/h to indicate the system
degraded operation.
In this condition, the "ABS cornering" function remains disabled until the activation "IMU
sensor correct installation check"
is performed successfully.
To check the IMU sensor correct installation after replacing the ABS control unit, start the activation "IMU sensor
correct
installation check" in the ABS diagnosis section, following the displayed instructions on how to position the
bike during
the check.
The same activation is recommended after replacing the IMU sensor with a spare one. In this case it is possible to
force the
ABS in EOL mode using the setting "Setting the ABS in EOL mode" and then it will be possible to perform
the activation "IMU
sensor correct installation check".
When a spare part is installed it is necessary to copy the VIN from the other bike control units to the ABS control
unit,
which is possible using the setting "VIN writing" in the ABS diagnosis section.
Before reading the errors we recommend starting and stopping the engine to ensure the acknowledgement of any
actual errors
upon validation phase.
In this section the tester function provides the user with information concerning the error list in the ABS control
unit memory,
indicating if errors are stored or current. A new error status is available and indicated with a red dot
and the message [waiting
for acknowledgement]; these errors are still active and so the MIL light is OFF and will
be turned ON upon engine start.
The following codes are given after a short description of the diagnosis type: MEM, indicating that the error has
been stored
previously by the ABS control unit but has not been detected in the current test session. ATT,
indicating that the error is
current and has been detected during the current test session.
While ATT indicates that the error has been found during the current test session, it does not necessarily indicate
that the
error is actually active at the time of indication. For example: disconnecting the front wheel speed sensor
causes the code
ATT to be displayed after the error description, but the code continues to be displayed even once
the cause of its activation
has been eliminated by reconnecting the sensor, as the ABS will only check sensor
operation again after the next key-off/key-on
cycle. As a result, always perform a key-on/key-off cycle after any
work on the ABS system, interrupting and re-establishing
communication between the diagnostic instrument and
the ABS control unit before checking the updated ABS error list again.
The abbreviations for all the errors displayed are given as follows:
Error Errors Description
code
C1033 Front Speed Sensor Error Front wheel sensor signal Open circuit/short circuit to
GND/short circuit to Uz of front wheel speed sensor
C1034 Front speed sensor signal - Plausibility Front speed sensor fault - Plausibility
C1031 Rear Speed Sensor Error Rear wheel sensor signal Open circuit/short circuit to
GND/short circuit to Uz of rear wheel speed sensor
C1032 Rear speed sensor signal - Plausibility Rear speed sensor fault - Plausibility
C1024 Plausibility of difference between front and Front and rear wheel speed difference
rear wheel speeds
C1072 Rear USV valve fault Rear USV valve fault
C1334 ABS control unit [Error in EEPROM during ABS control unit [Error in EEPROM during coded variant
coded variant reading] reading]
U2924 ABS control unit [wrong coded variant] ABS control unit [wrong coded variant]
C1335 ABS control unit [wrong variant] ABS control unit [wrong variant]
C1077 Mismatching front braking system pressure Mismatching front braking system pressure
C1078 Mismatching rear braking system pressure Mismatching rear braking system pressure
U0121 CAN communication problem with ABS CAN communication problem with ABS [ABS_Data02 message
[ABS_Data02 message timeout] timeout]
U0415 CAN communication problem with ABS CAN communication problem with ABS [ABS_Data02 message
[ABS_Data02 message checksum] checksum]
The Anti-Lock Braking System (ABS) has been developed to enable riders to use the motorcycle braking force to
the fullest
possible amount in emergency braking or under poor pavement or adverse weather conditions. ABS is
an electro-hydraulic device
that controls the pressure in the brake circuit when the control unit, by processing
information from wheel sensors, determines
that one or both wheels are about to lock up. In this case, pressure
decrease in the brake circuit allows the wheel to carry
on turning, thereby preserving grip. After that, the control
unit restores the pressure in the brake circuit, to resume the
braking action. This cycle is repeated many times
until the problem is completely eliminated. The system can modulate pressure
at the calliper through a set of
solenoid valves which first prevent any further increase of hydraulic pressure (EV valve
closing), and then make
the pressure decrease (AV valve opening). When the wheel begins to turn again in response to the
diminished
braking force applied and its speed reaches the reference value, the AV release valve will be closed.
Simultaneously,
the EV inlet valve is reopened, restoring normal operation of the brake system.
Normally, the rider will perceive ABS operation as a harder feel or a pulsation of the brake lever and pedal. The
front and
rear brakes use separate control systems.
The Ducati ABS functionality is disabled at vehicle speeds lower than 5 km/h.
The Multistrada 1200 is provided with further functions compared to the standard ABS as outlined below:
- "ABS cornering" function that widens ABS functionality to the conditions where the motorcycle is leaning over,
thus controlling
the front and rear brake systems depending on the vehicle lean angle with the purpose of
preventing wheel lockup and slipping
as much as possible, within the physical limits allowed by the vehicle and by
the road conditions. The ABS system limits the
braking gradient and pressure at the calliper upon the first braking
besides the standard ABS mode with pressure reduction
and increase at the calliper to prevent the wheel from
blocking.
- braking force distribution only from the front to the rear wheel allowing to restore the bike track alignment
during the
braking. By means of the ABS valve activation, the pressure on the front calliper is released and thanks
to the dedicated
valves called USV and HSV and the ABS pump the pressure is increased at the rear calliper.
- anti lift-up function that improves the feeling during strong braking especially on the front wheel.
These functions are divided into 3 different levels, each associated with a Riding Mode.
According to the selected level, some of the just described functions will be disabled. Refer to the owner's manual
of the
Multistrada 1200 for further details.
If desired, the ABS system can be deactivated from the instrument panel, setting the level to OFF within the Riding
Mode for
which you wish to disable it.
The hydraulic component of the ABS system consists of a primary circuit (from the cylinder to the control unit and
from the
control unit to the calliper) and a secondary circuit (completely within the control unit). Please find below
the ABS system
hydraulic diagram.
A Rear brake master cylinder
B Front brake master cylinder
1A Rear brake calliper inlet valve
1B Front brake calliper inlet valve
2A Rear brake calliper exhaust valve
2B Front brake calliper exhaust valve
3 Master cylinder
4 Little tanks
5A Rear calliper
5B Left front calliper
6B Right front calliper
7 Pressure transducer
Table Position Description
A-F 1 ABS control unit
A-B-C-D-E-F 2 Hose from front calliper to ABS control unit
A-B-C-E-F 3 Hose from front master cylinder to ABS control unit
A-F 4 Hose from rear master cylinder to ABS control unit
A-F-G-H 5 Hose from rear calliper to ABS control unit
C-D 6 Front RH brake calliper hose — Front LH brake calliper hose
D 7 Front speed sensor
F-G-H 8 Rear speed sensor
TABLE A
TABLE B
TABLE C
TABLE D
TABLE E
TABLE F
TABLE G
TABLE H
Refitting the ABS control unit
Refit the ABS control unit (2) by tightening screw (14) to a torque of 5 Nm ± 10%.
Hoses (9), (10), (11) and (12) must be secured in place using new sealing washers (13) on unions.
Tighten screws (5), (6), (7) and (8) to a torque of 23 Nm ± 10%.
Disconnect ABS control unit (2) connector (1), lift unit from the vehicle.
Loosen the special screws (5), (6), (7) and (8) that retain hoses (9), (10), (11) and (12), and remove seals (13).
Warning
Whenever removed, seals must be replaced by new ones on refitting.
Loosen screw (4) and remove the ABS control unit (2).
Important
Do not open the ABS control unit: if faulty, replace it.
Should it be necessary to replace one or several hoses, refer to "Routing wiring harnesses / hoses".
Changing the rear phonic wheel sensor
Warning
The following procedure applies to both vehicle versions.
Disconnect connector (1) of rear ABS sensor (2) from main wiring.
Open all the ties that retain the rear ABS sensor cable (2).
Fasten the sensor to the calliper holder plate by tightening screw (8) to a torque of 8 Nm ± 10%.
Reposition the speed sensor cable (2) as described in chapter "Routing wiring harnesses / hoses".
Position the rear swinging arm "cable cover" (6) and fix by tightening screws (5) and (7) to a torque of 5 Nm ±
10%.
Fix cable ring (4) by tightening screw (3) to a torque of 5 Nm ± 10%.
Connect the connector (1).
Refit the rear mudguard (Refitting the rear mudguard).
Refit the rider seat (Refitting the seat).
Changing the front phonic wheel sensor
Warning
The following procedure applies to both vehicle versions.
Disconnect front ABS sensor (1) connector (A) from main wiring.
Undo the retaining screw (2), and remove front ABS sensor (1) with calibrated gasket (3), sliding cable out from
cable grommet
(4).
Before refitting, make sure that contact parts between front ABS sensor (1) and its seat are free of damage and
perfectly
clean.
Fit the new front ABS sensor (1) on its seat inserting the screw (2).
Check air gap between front ABS sensor (1) and front phonic wheel (6) as explained under Section "Adjusting the
AIR-GAP of phonic wheel sensor.".
If brake controls feel "spongy" due to the presence of air bubbles in the system, bleed as usual, as described in
Section
"Changing the front brake system fluid" and "Changing the rear brake system fluid".
Before bleeding a brake master cylinder, move back the calliper pistons to let any air build-up in the ABS control
unit flow
into the master cylinder.
Purge must be carried out by means of the corresponding unions (A) placed on the callipers and the brake master
cylinders.
S Version
Important
Do not undo the special screws securing the pipe unions on the ABS hydraulic control unit, unless control unit
replacement
is necessary.
Important
If the ABS hydraulic control unit has been replaced, it will be supplied with the secondary circuit already filled with
fluid.
Control unit must thus be assembled and the system filled and drained as a traditional system.
Important
Should it prove difficult to bleed the braking system, it is possible to use a dedicated activation to operate the
pump and
the ABS outlet valves to facilitate the ABS secondary circuit bleed which would be otherwise impossible
following a standard
procedure.
DEDICATED PROCEDURE
Still with DDS 2.0 start the second stage of the activation function that opens the rear outlet valve (AV) for 5
seconds.
During this time, open and close repeatedly the bleed valve (A) of the rear calliper.
Warning
The following procedure applies to both vehicle versions.
(For front as well as rear sensor) In each case of maintenance that foresees:
It is necessary to check the air-gap between the speed sensor and the phonic wheel, once the components are
refitted.
For this purpose, use a feeler gauge to check the air-gap; then, carry out 3 measures of the air-gap, one every
120° of wheel
turn.
There must be a gap between ABS sensor and phonic wheel of 1.3 mm to 1.9 mm. To check it, use a suitable
feeler gauge.
FRONT
Tighten securing screw (2) fully home on sensor (1) every time you add or remove shims.
REAR
Tighten securing screw (7) fully home on sensor (6) every time you add or remove shims.
Once the shimming is completed, tighten the sensor retaining screw to a torque of 10 Nm ± 10%.
For the shimming, use two feeler gauges (A) of 0.2 mm and 0.5 mm.
Warning
Shim pack shall never exceed 3 mm.
Note
Perform the test in three points of the phonic wheel, at a distance of 120° one from the other.
Following is the procedure to refit the LH switch. The same procedure applies also to the RH switch. Position
support (3)
by inserting the pin in the hole on handlebar (12).
Fit switch (2) fully home on support (3).
Check that the switch is actually blocked.
Reconnect the connector.
LH HANDGRIP
Connect connector (7) to the main wiring located in the connector support (B).
Tighten screws (9) to a torque of 2.8 Nm ± 10%.
RH HANDGRIP
For the RH handgrip, refer to chapter "Refitting the throttle control".
Connect connector (7) located on support (B).
Refit the front brake control (Refitting the front brake master cylinder).
Refit the clutch hydraulic control (Refitting the clutch hydraulic control).
Refit the hand guards (Refitting the hand guards).
Removing the handlebar
Heated handgrips
LH HANDGRIP
Release the main wiring handgrips by disconnecting connector (7) located on the vehicle left side in the connector
support
(B).
Remove the two protection plugs (8) and loosen the two retaining screws (9).
Slide the heated handgrip out of the handlebar.
RH HANDGRIP
Undo and remove the screws (10) securing the upper U-bolt (11).
Remove the upper U-bolt (11) that retains the handlebar.
Remove the handlebar (12) from its seat on the steering head.
Remove the steering head (Removing the steering tube components).
Undo the screws (13), remove the lower U-bolt (14) and recover washers (15).
Reassembling the hand guards
Important
Pay attention to the different threading: the left rear-view mirror has a left threading.
Removing the rear-view mirrors
Important
Pay attention to the different threading: the left rear-view mirror has a left threading.
Refitting the throttle control
Position the throttle control on the handlebar by inserting the reference pin in the relevant seat.
Disconnect the throttle control cable (3) from the main wiring harness.
Loosen the screws (4) and remove the throttle control (5) from the handlebar.
Refitting the clutch slave cylinder
If the clutch pushrod (7) must be replaced, it is necessary to replace also the two O-rings (8).
Lubricate with the indicated product and reposition the clutch pushrod (7) with the two O-rings (8).
Position the anti-rotation pin (10) so as to align it with holes (A) as shown in the figure.
Note
To bring the clutch slave cylinder internal surface near the casing cover as evenly as possible, screw and tighten
the retaining
screws alternatively in steps.
Removing the clutch slave cylinder
Warning
The clutch slave cylinder manufacturer advises against servicing the slave cylinder due to the safety critical nature
of this
component.
Incorrect overhaul can endanger rider and passenger safety.
The replacement operations that can be performed on the slave cylinder regard the bleeding unit, the seal and the
complete
piston.
If the clutch pushrod (7) must be replaced, it is necessary to replace also the two O-rings (8).
Lubricate with the indicated product and reposition the clutch pushrod (7) with the two O-rings (8).
Position the anti-rotation pin (10) so as to align it with holes (A) as shown in the figure.
In the picture below the rod is not in the correct position, yet.
Fix the clutch slave cylinder (2) by starting screws (1). Tighten screws (1) to a torque of 10 Nm ± 10%, by in the
1 - 2 - 3 - 1 sequence.
Note
To bring the clutch slave cylinder internal surface near the casing cover as evenly as possible, screw and tighten
the retaining
screws alternatively in steps.
Component (B)
Refitting the clutch master cylinder assembly
Fit the clutch master cylinder assembly (3) on the LH handlebar by inserting centring pin (A) in hole (B) of the
clutch master
cylinder control.
Couple clamp (6) with the clutch master cylinder control and fix them with screws (5). Tighten the fastening
screws (5) to
the specified torque of 10 Nm ± 10% following the sequence 1-2-1 starting from the upper screw.
Position the hose (4) and sealing washers (2) on the master cylinder unit (3) and secure with the special screw
(1), without
tightening.
Warning
An incorrectly positioned hose can cause system faults and interfere with moving parts.
For the positioning of the clutch hose (4) and retaining clips, refer to "Refitting the clutch slave cylinder".
Tighten the special screw (1) to a torque of 23 Nm ± 10%.
Removing the clutch master cylinder assembly
Warning
The brake master cylinder manufacturer advises against servicing the brake master cylinder due to the safety
critical nature
of this component. Incorrect overhaul can endanger rider and passenger safety. Maintenance
operations on these units are limited
to replacement of the following parts: control lever, fluid reservoir assembly
and relative fasteners and master cylinder
fasteners.
Unscrew the special screw (1) recovering the sealing washers (2), to release the clutch master cylinder unit (3)
from the
clutch control pipe (4).
Undo the screws (5) securing the U-bolt (6), and then remove the clutch brake master cylinder assembly from the
handlebar.
Refitting the Hands Free
For reassembling, follow the removal procedure in the reverse order. In particular, apply specified threadlocker to
screws
(2) and tighten them to a torque of 15 Nm ± 10%.
To position the wiring, refer to Section "Routing of wiring on frame".
Removing Hands Free
Disconnect the Hands-free system wiring (A) from the main wiring.
If the electronic tank plug kit is installed, it will be necessary to disconnect the tank plug wiring (B).
Remove the clamp shown in the picture.
Loosen screws (2) and remove the Hands-free system (1) from the frame.
Refitting the gear change control
Fit lever (7) on gear transmission rod assembly (8), starting screw (9).
Tighten screw (9) to a torque of 10 Nm ±10%.
Fit the gear change unit inserting the lever (7) on the gear control pin, apply threadlocker on the screw (6) and
insert it
on the lever (7).
Tighten screw (6) to a torque of 10 Nm ±10%.
Disassembling the gear change control
If the bush (5) inside the pedal (2) needs replacing, grease the external surface and drive the new bush into place
using
a press. The bush must be seated 2 mm below the outer face of the pedal.
Warning
After working on the gear change control, check the position of the gear pedal.
To adjust the gear pedal position, follow the instructions under Section "Adjusting the position of the gear and rear brake
pedals.".
Removing the gear change control
Loosen and remove the pin (1) securing the gear pedal (2), and collect the O-rings (3), the washer (4) and bush
(5).
Undo and remove the screw (6) securing the gear lever (7) to the gearbox shaft.
Remove the lever (7) complete with the gear control assembly.
Note
Mark the position of lever with respect to the gear selector shaft.
To remove lever (7) from gear transmission rod assembly (8), loosen screw (9) then slide out lever (7).
Refitting the front fork
Refit the fork legs setting them at the indicated height to the bottom yoke.
S Version
Warning
The difference in height between the two fork legs must be no greater than 0.1 mm.
Position fork legs (5) and (6) on bottom yoke (4) and steering head (3).
Fasten fork legs by tightening screws (1) to 10 Nm ±5% and screws (2) to 16 Nm ±5% retaining bottom yoke (4)
and steering
head (3): tighten screws (2) in a 1-2-1 sequence starting from the top.
Tighten one leg at a time.
Important
If the screws were removed upon disassembly, smear their threads with the specified grease before tightening.
Refit any parts removed from the frame.
Warning
Do not use the motorcycle when front mudguard is not in place since this part supports the brake lines and avoids
that they
interfere with the wheel under braking.
Overhauling the front fork
Release the spring preload by rotating the adjustment nut counter clockwise.
Warning
Write down the number of performed rotations so as to tighten the nut by the same number of rotations upon
reassembly.
Slide the following components out of the outer sleeve (1A) in the following sequence:
Warning
With this movement, the fluid is pressurised and drained out of the fork leg.
Aim the fluid inside a vessel and avoid contact.
Removing the LH leg
Lock with a vice the fork leg on outer sleeve (1) using tool no. 88713.4302.
Loosen the screw (9) fastening top cover (10) on upper plug (3).
Slide the upper cover (10) and rubber block (11) out of the fork cable.
Loosen the fork top plug (3B) using tool no. 88713.4303.
Loosen the upper plug (3B) while holding lock nut (2B) with a wrench.
Loosen ring nut (12) while holding with tool no. 88713.4303 the plug upper part.
Loosen the lower part (13) of the plug from its upper part (14) while holding with tool no. 88713.4303 the plug
upper part.
Slide out the plug upper part (14) from the bottom part (13).
Loosen ring nut (12) from the plug bottom part (13) and slide it out.
Slide out spring (8B) from outer sleeve (1B).
Put the fork leg upside down to let oil flow out.
Work several times on the damper rod (7) to let the oil completely flow out.
Warning
With this movement, the fluid is pressurised and drained out of the fork leg.
Aim the fluid inside a vessel and avoid contact.
Replacing the oil seals and dust seals
Block in a vice the fork leg on the bottom end and slide out spring (15) that retains the dust seal and the latter
(16).
Warning
During this operation pay attention not to damage the outer sleeve edge.
Remove the circlip (17). Slide out fork leg (19) from fork leg (1).
Remove the oil seal (18) from leg (19).
Fit the new oil seal (20) and dust seal (21) on fork leg (19) and fit the outer sleeve (1) in the fork leg (19).
Fix the new oil seal (21) to the outer sleeve using tool no. 88713.3204.
Fit the circlip (17), fix the new dust seal (20) to the outer sleeve using tool no. 88713.3204.
Refit the spring (15) that retains the dust seal.
Important
Lubricate the sliding edges with grease for seals or fork fluid during the refitting procedure.
Refitting the right fork
Fill in the fork by positioning it vertically and pouring oil OJ RACING SPECIAL FORK Sae 3.6 at 100 - 14.4 at 40°,
quantity
660 cc ± 5 cc for the RH leg;
Attention
The amount of fluid affects the behaviour of the fork at the end of its compression travel. A high fluid level
increases the
compression load, a low level decreases it.
Insert in the outer sleeve (1A) in the following sequence the spring (8A), the washer (6), the cap (5) trying to pull
the
damper rod (7) upwards.
Insert the preload tube (4) paying attention to keep the damper rod (7) as lifted as possible to fit a wrench on the
nut.
Insert the upper plug (3A).
Tighten the upper plug (3A) on the damper rod while holding lock nut (2A) with a wrench.
Tighten the top plug to the outer sleeve using tool no. 88713.4303 to a torque of 20 Nm ± 10%.
Important
Repeat the number of rotations performed during the disassembly procedure.
Refitting the left fork
Fill in the fork by positioning it vertically and pouring oil OJ RACING SPECIAL FORK Sae 3.6 at 100° at 40° 14.4,
quantity
239 cc ± 5 cc for the left leg.
Attention
The amount of fluid affects the behaviour of the fork at the end of its compression travel. A high fluid level
increases the
compression load, a low level decreases it.
Fit spring (8B) inside the outer sleeve (1B), fit ring nut (12) and screw it to the plug bottom part (13) and the plug
top
part (14), by routing the fork cable inside the fitted components.
Screw the lower part (13) of the plug fully on its upper part (14) while holding with tool no. 88713.4303 the
upper part.
Screw ring nut (12) to the plug bottom part (13), bringing the ring nut fully home on the upper part (14).
Hold with tool no. 88713.4303 the plug upper part during the operation.
Tighten the upper plug (3B) on the damper rod while holding lock nut (2B) with a wrench.
Tighten the top plug (3B) to the outer sleeve (1B) using tool no. 88713.4303 to a torque of 20 Nm ± 10%.
Fit the upper cover (10) and rubber block (11) by routing the cable inside the components.
Tighten the screw (9) fastening top cover (10) on upper plug (3B).
Removing the front fork
Before removing this part, it is first necessary to remove the following parts:
Remove the front brake callipers (Removing the front brake system).
Remove the front mudguard (Removing the front mudguard).
Remove the front wheel (Removing the front wheel).
Remove the front half-fairings (Removing the front half-fairing).
Loosen the screws (1) securing the fork legs to the steering head (3).
Loosen the screws (2) securing the fork legs to the bottom yoke (4).
Withdraw the fork legs (5) and (6) downwards in order to carry out all the necessary overhaul operations.
Refitting the steering tube components
Important
The steering tube bearings are identical but in no case may their components be swapped during refitting.
Clean all contact surfaces and lubricate with the recommended grease.
To fit the outer rings (8) of bearings (6) to the steering tube, use tool (D) no. 88713.1062;
Proceed as follows:
Insert the sealing ring (5) (with the rim facing upwards) and the inner ring (A) of the bottom bearing (6) onto the
steering
shaft after heating it for about 10 minutes to 120 °C.
Insert drift (E) part no. 88713.1072. Push the inner ring (A) on the sealing ring (5), manually pushing for at least
10-15 seconds.
Lubricate the inner ring (A) with the recommended grease. Fit the ball race (B) on the steering shaft with the
smaller diameter
of the cage facing upwards, and grease the ball race. Insert the steering shaft into the steering
tube, and push it in until
it is axially seated
Fit the bottom yoke assembly to frame.
Grease the ball race (B) and fit it to the upper outer ring (8) of the frame.
Fit the inner ring (A) of the upper bearing (6) to the steering head, with the larger diameter side of the race facing
upwards.
Install the sealing ring (5) with the flat side facing upwards.
Tighten the adjuster ring nut (3) by hand until it seats against the sealing ring (5).
Fit on ring nut (3) the special bush (C) part no. 88713.1058 and fit the torque wrench on it.
Apply recommended threadlocker on thread and tighten adjuster ring nut (3) to 35 Nm ±5%.
Fit the steering head (2) on the ring nut (3), aligning the fork leg seats with the corresponding seats on the
bottom yoke.
Refit the fork legs. Apply recommended grease to the screw (1).
Tighten screw (1) on steering head to a torque of 18 Nm ±5%.
If previously removed, position splash guard (13) onto bottom yoke (7), and secure it in place by starting screws
(14) with
the specified threadlocker, then tighten them to a torque of 3 Nm ± 10%.
Refit the front brake callipers (Refitting the front brake system).
Fill the braking system (Changing the front brake system fluid).
Removing the steering tube components
Drain the braking system (Changing the front brake system fluid).
Remove the front brake callipers (Removing the front brake system).
Remove fork legs (Removing the front fork).
Warning
All parts fitted to the steering head and bottom yoke, including wiring and hoses, can remain on the motorcycle
provided they
do not hinder the following operations.
Loosen the screw (1) securing the steering head (2) to the ring nut (3).
Remove the steering head (2).
With tool (C) part no. 88713.1058 loosen the ring nut (3) and unscrew it from the steering shaft.
Slide the sealing ring (5), the inner ring (A) and the ball race (B) of the upper bearing (7) off the steering shaft.
Remove the bottom yoke (7) complete with the steering shaft from the frame tube.
Remove the ball race (B) of the lower bearing (6).
The inner ring (A) of the lower bearing (6) and the sealing ring (5) will remain on the steering shaft.
Using a universal puller (see figure), remove the inner ring (A) from the steering shaft, taking care not to damage
the seat.
Important
The removed seals and bearings shall not be reused and must be replaced with similar new components.
Using a suitable punch, remove the outer bearing races (8) from the steering tube. Proceed with extreme care to
avoid damaging
the seats.
Adjust steering bearing clearance as explained under Section "Adjusting the steering head bearing clearance".
If the problems found are not solved, check the wear of steering bearings (1) and replace them, if necessary, as
described
in paragraph "Removing the steering tube components".
Refitting the rear suspension
Reposition the preload tube (2) and fix it with bracket (1).
Important
For any problem concerning the shock absorber operation, contact a SACHS authorised service centre.
Removing the rear shock absorber
The rear suspension system uses a hydraulic monoshock absorber that is completely adjustable.
The shock absorber can be adjusted both in rebound by means of adjuster (1) and in compression by means of
adjuster (2) located
under plug (3).
It is possible to adjust the spring preload through knob (4).
Refitting the rear swinging arm
Chain guard
Apply indicated threadlocker on screws (10), position chain guard (11) and fix it by tightening screws (10) to a
torque of
5 Nm ± 10%
Note
For a correct installation, first position the chain sliding shoe and then the chain guard.
Lower chain sliding shoe
Fit the lower sliding shoe (8) on swinging arm (9) as shown in the figure. Apply threadlocker on the three screws
(7) and
tighten them to a torque of 5 Nm ± 10%.
Check the bearing (14) movement: they must move freely without faulty frictions or noise.
If they have to be replaced, proceed as follows:
use a suitable puller to remove the external seal ring (15) of bearings (14), the internal seal ring (15) and snap
ring (16).
Fit a new snap ring (16) using a suitable drift.
Using the same tool insert the snap ring set (15) of bearings (14).
Lubricate the bearings (14) on both sides using the indicated product.
- fit shim (6), 1.8 thick on engine both sides and insert the swingarm shaft;
- set the left side of the swinging arm on the engine and use a feeler gauge or calibrated to check the play on
the engine opposite
side, value (X).
Example:
Measured play Left-hand side shims Right-hand side shims
0.10 - no.1 shim (0.10 mm)
0.20 no.1 shim (0.10 mm) no.1 shim (0.10 mm)
0.50 no.1 shim (0.20 mm) no.1 shim (0.20 mm) + no.1 shim (0.1 mm)
Important
The shims with greater size have to be fitted on the swinging arm right-hand side. The thinner shim must always
be in contact
with the swinging arm.
Important
Do not fit shims with size equal to 0.1 on the left side.
Warning
The maximum value of the set of shims on the left must be 2 mm (1.8 + 0.2 max.). The maximum swinging arm
rear end play is
within 1 mm.
Warning
The maximum swinging arm rear end play is within 1 mm.
Inspecting the swinging arm shaft
Before refitting the swinging arm shaft (14), check it carefully for distortion.
Turn the shaft on a reference surface and measure distortion using a feeler gauge (Rear wheel).
Removing the swinging arm
Before removing the concerned parts, you must first carry out the following operations:
Loosen the two screws (5) that retain the swingarm shaft.
Using tool no. 88713.1074, fully extract the swinging arm shaft. Pay attention to the two spacers (6): upon
reassembly it
will be necessary to calculate the end float (Overhauling the swinging arm).
Remove the swinging arm.
Lower chain sliding shoe
Undo the screws (7) to remove the lower chain sliding shoe (8) from the swinging arm (9).
Chain guard
Undo the screws (10) to remove the chain guard (11) from the swinging arm (9).
Refitting the rear wheel eccentric hub and rear wheel shaft
Apply an even coating of the recommended grease in the areas (A) of the shaft (3).
Insert the rear wheel shaft (3) in the hub.
Ensure the wheel shaft (3) is seated in the hub.
Fit the inner ring (2) on the wheel shaft (3).
Insert the inner ring (2) in the hub.
Apply recommended grease to screws (A) and tighten to 35 Nm ±5% in the 1-2-1 sequence.
Refit the rear brake calliper (Refitting the rear brake calliper).
Refit the rear sprocket (Refitting the rear sprocket).
Refit the rear wheel (Refitting the rear wheel).
Refit the exhaust silencers (Refitting the silencer).
Before removing the concerned parts, you must first carry out the following operations:
Slide out the eccentric hub (9) from swinging arm chain side.
Warning
The rear hub is very important for vehicle dynamic safety; it is available as a single spare part since you must not
service
its internal parts.
Lubricating the chain
Check the cush drive dampers (7) condition and, if necessary, replace them by removing them from the flange.
Apply the recommended grease to the outer diameter of rear sprocket holder flange (4).
Fit rear sprocket flange (4) onto rear sprocket (5), engaging cush drive damper pins (7).
Apply recommended threadlocker to the nut thread (8).
Start nuts on cush drive damper pins threaded end (7).
Tighten the nuts (8) to a torque of 44 Nm ± 10%, following a cross pattern.
Check for wear as described under Section "Inspection of the final drive".
To refit the nut (2), follow the specifications for the wheel locking nut, in Section "Refitting the rear wheel".
Replacing the rear sprocket
Check that the splines of the gearbox secondary shaft and the sprocket are in perfect condition.
Fit the front sprocket (5) on the gearbox secondary shaft, orienting it as shown. Fit lockwasher (4).
After having applied the indicated threadlocker, tighten the nut (3) to a torque of 186 Nm ± 5%.
Bend the washer (4) over the nut.
Fit the chain and close it using the tool (X) no. 88713.1344, which was used to open the chain.
The tool consists of a holder (A), a punch (B), body (C) and two wrenches (D) and (E) and a plate holder (F).
Connect the two ends of the chain with the external link, and manually fit the plate onto the pins.
Warning
Lubricate the pins abundantly; try to avoid touching them with your hands.
Undo the screws (2), and remove the chain cover (1).
Slacken the chain (Adjusting the chain tension).
Important
The O-ring must be renewed upon removal.
Inspection of the final drive
To check the final drive wear, visually check the front sprocket (1) and the rear sprocket (2).
If the teeth are worn as shown in the figure (dotted line), the final drive must be replaced.
Important
Make sure that the rear sprocket, front sprocket and chain are all replaced together as a set.
Refitting the footpegs
Note
The refitting of the front RH footpeg is described in detail; the LH footpeg can be removed following the same
procedure.
Position spring (4) so that the end (A) rests on the footpeg (3).
Position footpeg (3) inserting the end (C) of spring (4) in the hole (D) of the frame plate.
Fit pin (2) as shown.
Lock pin using circlip (1).
Refitting the rear footpegs
Note
Refitting of the rear RH footpeg is described in detail; the LH footpeg can be removed following the same
procedure.
Insert spring stopper (12) into the hole (A) of the rear footpeg holder plate (6) as shown.
If necessary, smear pin (B) retaining spring (12) with recommended grease in order to keep it in the correct
position.
Insert the spring (10) into the special hole of the footpeg (3).
Fit the ball (11) on the spring (10).
Fit the footpeg (3) to rear RH footpeg holder plate (6) fitting pin (9), positioning parts as shown.
Fasten pin using circlip (8).
If previously removed, refit the footpeg rubber block (7).
Apply the recommended threadlocker to the screws (5).
Position passenger rear footpeg holder plate (6) on frame and tighten screws (5) to a torque of 24 Nm ± 10 %.
Removing the footpegs
Note
Removing of the rear RH footpeg is described in detail; the LH footpeg can be removed following the same
procedure.
Loosen screws (5) and remove the RH rear footpeg plate (6) from the frame.
If necessary, remove the rubber cap (7).
Remove the circlip (8) thereby releasing the pin (9).
Slide out pin (9) from footpeg holder plate (6), holding the footpeg (3) and making sure that the ball (11) and the
spring
(10) are not released.
Slide out footpeg (3) from its seat and collect spring (10) and ball (11).
Remove the spring stopper (12).
Refitting the centre stand
Insert pins (3) from both the left and the right side.
Tighten the two pins to a torque of 50 Nm ± 10%.
The picture shows only the left pin.
Disconnect connector (A) of the stand switch (1) from the main wiring.
Undo the two fastening screws (2) of the side stand support plate (3) to the engine and remove the complete side
stand.
Disassembling the side stand
Undo the retaining screw (4) and remove the side stand switch (1).
Release stand return springs (5) and (6) disengaging them from retainers (B) and (C).
Unscrew the pin (7) securing the side stand to the bracket and remove side stand (8) and nut (9).
Inspecting the side stand
Fit the side stand to the plate and check that there is no excessive clearance. Ensure that the ends of the side
stand are
not bent with respect to the shank.
A side stand which shows signs of cracking must be replaced immediately.
Check switch (1) operation.
Refitting the light assembly
Position the light assembly support (1) onto steering tube, and lock it in place by starting screws (5).
Tighten screws (5) to a torque of 25 Nm ± 10%.
Lay wiring front branch on headlight support (1), and position cable ring.
Secure wiring in place using clamps (4).
Then fix the rear grab handle (Refitting the side body panels and the tail guard).
Refit the subframe lower bracket (3) and tighten the screws (4) to a torque of 10 Nm ± 10%.
Refit the number plate holder (Refitting the number plate holder).
Refit the rear wheel (Refitting the rear wheel).
Reconnect the rear brake sensor.
Refit the rear footpegs (Refitting the rear footpegs).
Refit the sump guard (Refitting the sump guard).
Refit the side stand (Refitting the side stand).
Refit the gear shift (Refitting the gear shift).
Refit the exhaust silencer (Refitting the exhaust silencer).
Refit the side body panels (Refitting the side body panels and the tail guard).
Refit the seats (Refitting the seat).
Refitting the structural parts and frame
Check that on frame (1) there are clips (2), elements (3) and adjusters (4).
Apply the indicated grease on the threads of adjusters (4) and ring nuts (5).
Manually screw the adjusters.
When refitting frame, engine and rear plates, respect the following screw tightening sequence to the relevant
torque, by alternating
screws on the left and on the right side of the vehicle.
POSITION DESCRIPTION TORQUE PRODUCT
1 Frame special screw 60 Nm ± 10% -
2 Frame special machined screw 60 Nm ± 10% -
3 Frame lower retaining screw 40 Nm ± 10% LOCK 2
4 Shock absorber bracket retaining side screw 25 Nm ± 10% GREASE B
5 Shock absorber bracket retaining side screw 25 Nm ± 10% GREASE B
6 Rear shock absorber lower retaining screw 42 Nm ± 10% GREASE B on thread and
underhead
7 Rear shock absorber upper retaining screw 42 Nm ± 10% GREASE B
8 Shock absorber bracket retaining front 25 Nm ± 10% -
screw
9 Adjuster screw Manually, fully -
home
10 Adjuster ring nut 80 Nm ± 10% -
11 Adjuster blanking plug 50 Nm ± 10% -
12 Swinging arm pivot plug 50 Nm ± 10% -
Apply three drops of adhesive in the RH and LH plugs at 120° one from the other.
Remember to point the arrows (B) as shown in the figure.
Remove the rear subframe lower bracket (3) by loosening the screws (4).
From both sides of the vehicle loosen screw (5) and the swingarm shaft plug (6).
Loosen screw (7), plug (8) of the adjuster, and from the vehicle right side the two screws (9) retaining the shock
absorber
upper bracket.
Remove the front screw (10) that retains the shock absorber upper bracket (11).
Loosen ring nut (12) of the adjuster.
Loosen screws (3) and remove the front headlight assembly (2) from the front headlight assembly unit (1).
Remove ties (4) and release the whole wiring from the headlight support (1).
Loosen screws (5) and remove the complete headlight assembly support (1).
Removing structural components and frame
Before carrying out dimensional checks on the frame, remove all the fitted superstructures, referring to the
removal procedures
outlined in the relevant sections of this manual.
The rear subframe is a structural component of the frame.
Both serve to support motorcycle superstructures and must therefore be in perfect condition.
Make sure that clips (9) and (10) are present on number plate holder (6).
Fit the three rubber elements (11) in the number plate holder cover (8) and position the wiring (12).
Insert the cable ring (13).
Fit the two turn indicators (14) and the wiring as shown in the figure:
A) Left turn indicator;
B) Right turn indicator;
C) Number plate light;
D) Tail light.
Connect the tail light and fix it by means of screws (16) with washer (15).
Fix the number plate holder (6) to cover (8) by means of screws (17).
Fit the number plate holder plate (18) by tightening screws (19).
USA version
For this version, fit also cat's eye (20) with brackets (21) in the number plate holder.
Insert the number plate holder assembly (5) in the rear subframe and fix it with screws (4).
Connect the connector (3).
Refit the ignition relay (2) and the battery (1).
Remove the battery (1) as described in paragraph "Battery" and the starter relay (2).
Release the wiring from any tie and disconnect the tail light connector (3).
Loosen the four upper retaining screws (4) of the number plate holder and the two lower ones.
Remove the number plate holder (5).
Refitting the electric components compartment
Position the heat guard sheet (9), insert three screws (10) and washer (11).
Fit on screws (10) the plastic heat guard (12) with washer (13).
Tighten the heat guard sheet (9) with plastic heat guard (12) by means of nuts (15) and washer (14).
Fit the two rubber elements (16) with spacer (17) in the compartment front part.
Insert the fuse support (18) and fix it with screws (19).
Tighten the two screws (20) securing voltage regulator (21).
Fit washer (22) and tighten with nut (23).
Fit the two vibration damping pads (24), block them with the two nuts (23) and washers (22).
Fit the lock in the suitable seat (25) of the electrical components compartment by engaging the lock tabs in the
relevant
recesses.
Fit plate (26) by engaging lock tabs (A) and (B) in the recesses.
Fix the lock by starting nut (27).
Tighten the nut to the specified torque.
Insert latch cable (28) and position its bracket (29) and fix it with screws (30).
Installing the heat guard on the compartment
Position the heat guard and fix to the bottom part of the electrical components compartment by means of the two
screws (31).
In the upper part, fix the heat guard with the two screws (32).
Fitting supports and hose clips
Position supports (33) and cable rings (34) and fix them with screws (35).
Position the remote control switch support (36) and fix it with the screw (37). Route the latch cable as shown in
the figure.
Position the electrical components compartment (8) inside the rear frame.
Fix the electrical components compartment (8) with screws (6) and washer (7) and with screws (4) in the bottom
part.
Fit the inertial platform (4).
Fix it on the vibration damping pads (39) by tightening screws (38) to a torque of 10 Nm ± 10%.
Reposition relays (3) and the fuse boxes (2).
Route the wiring as indicated in chapter "Routing the electric wirings".
Reposition tank (8) on the frame by fitting the two forks on support (9).
Fix the tank by means of screws (7). Check for the presence of the lower (14) and upper (13) blocks and spacer
(12).
Connect the two breather pipes (10) and (11) to the tank plug.
Reconnect the fuel pump connector (4) and hose (6).
Grip and press flange (A) to insert hose (6).
Reconnect the fuel level connector (3) and reposition the clips (1).
Refit the tank fairings (Refitting the tank fairings).
Refit the side body panels (Refitting the side body panels).
Refit the seat (Refitting the seat).
Make sure that pump area (A) and gasket (4) are perfectly clean.
Fit gasket (4) fully home on the pump (1) as shown in the figure.
Lubricate the gasket (4) with the indicated product and fit it in the fuel tank (2).
Position the pump locking flange (5) on pump (1), centring notch (B) on rib (C).
Block the pump locking flange (5) by tightening nuts (3).
Fuel level sensor
To remove flange (1) from tank (2), loosen the retaining nuts (3).
Note
The flange is supplied as a spare part complete with the fuel pump and pressure regulator: the entire flange
assembly must
be replaced in the event of malfunction.
Duly grease the new sealing washer (4) and its seat on tank.
Position the complete filler cap (2) paying attention to fit the two breather hoses (3) in the relevant seats.
Start and tighten the six securing screws (1) to a torque of 4 Nm ± 10%.
Removing the tank filler plug
Loosen and remove the six securing screws of the tank plug (1).
Remove the complete plug (2) paying attention to recover the two breather pipes (3).
Collect the seal (4).
Removing the fuel tank
Remove tank (8) from the vehicle by sliding it out of support (9).
To do this, first push it forwards and after removing the support (9) lift it vertically.
Refitting the airbox and throttle body
Working on both intake manifolds, ensure that O-rings (26) and (27) are installed on injectors (23).
Apply the indicated grease on the O-rings (26) and (27) of injectors (23), thoroughly avoiding to leave any
product residue
on injector surface and using the quantity of product strictly necessary to carry out the following
assembly operations.
Insert injector (23) onto fuel pipe unit union (28).
Important
To avoid damaging the O-rings, drive the injector fully home on the throttle body, keeping it in line with its seat.
Holding the unions (29) pressed down on the injectors, start and tighten screws (30) fully home.
Tighten the retaining screw (30) to a torque of 5 Nm ± 10% ensuring that during this operation the teeth
highlighted in the
figure remain in the indicated position.
Secure the union with clip (31).
If previously removed, fit the intake funnel (32) on the throttle body (33).
Fix the intake funnel (32) with the two screws (33).
Check that the two O-rings (34) on the sleeve are not worn out or damaged. Replace them if necessary.
Fit the throttle body on the airbox and fix the latter with screws (24).
Reconnect the connectors of injectors (12) and of the ETV motor (10) and (11).
Reconnect the fuel pipe (23).
Position the upper airbox (22).
Start screws (21) retaining the upper airbox (22). Pay attention to the two washers (35) of the fuel pipe and cable
passages.
Tighten screws (21) to the specified torque.
REFITTING THE AIR FILTER
If previously removed, fix the connector bracket (36) and tighten screw (37).
Position the horizontal MAP sensor (38) and fix it using the screw (39) with the relevant spacer.
If previously removed, position the vertical MAP sensor (40) and fix it using the screw (41) with the relevant
spacer.
Fit the breather hose (42) and tighten clip (43).
Use the indicated product to lubricate the O-ring and fit it fully home in the airbox.
Insert the union hose (44) for the secondary air system actuator.
Fix it with clamp (45).
Position the airbox on the heads.
Tighten clamp (14) that keeps the airbox against the horizontal cylinder head (15).
Tighten clamp (16) that keeps the airbox against the vertical cylinder head (17).
Connect the two ETV connectors (10) and (11), the injection connector (12) and the vertical map sensor (13).
Engage the control unit in the pins.
Connect the control unit (9).
Loosen the two retaining screws (1) of the Blow-by tank (2).
Disconnect the two ETV connectors (10) and (11), the injection connector (12) and the vertical and horizontal map
sensor (13).
Loosen clamp (14) that keeps the airbox against the horizontal cylinder head (15).
Loosen clamp (16) that keeps the airbox against the vertical cylinder head (17).
Remove the airbox.
Disconnect the connectors of injectors (12) and of the ETV motor (10) and (11).
Loosen the retaining screw to remove the injectors (23).
Working on the opposite side, loosen the eight retaining screws (24) and remove the two throttle bodies (25).
Refitting the secondary air system
Note
Remove cloth from the secondary air system duct on head cover.
Warning
Do not invert the positions of the covers and components of the two valves of the secondary air system. Refer to
the reference
notches present on the secondary air system valve cover and on head cover.
If disassembled, refit secondary air system valves (10) applying the same procedure for both of them.
Working on the vertical head, fit the retaining clamp (8) of the secondary air system pipe (9).
Tighten the retaining clamp (8).
Working on the horizontal head, fit the retaining clamp (5) of the secondary air system pipe (6).
Tighten the retaining clamp (5).
Working on the horizontal head, remove the retaining clamp (5) of the secondary air system pipe (6).
Slide the secondary air system pipe (6) out of the horizontal head (7).
Working on the vertical head, remove the retaining clamp (8) of the secondary air system pipe (9).
Slide the secondary air system pipe (9) out of the vertical head (10).
Slide out of the vehicle the secondary air actuator (2) with the two pipes (6) and (9).
Disassembly
If necessary, disassemble secondary air system valves (10) applying the same procedure for both heads.
Loosen the two screws (11) and slide out cover (12), reed valve (13) and spark arrestor (14) in this order.
Note
block off the secondary air system duct on head cover with a clean cloth so as to avoid any impurities from
entering the duct.
Refitting the air filter
Fit the horizontal exhaust pipe (1) on the horizontal cylinder with the gasket (15).
Note
The gasket convex side must be facing outwards.
If previously removed, tighten the horizontal lambda sensor (16) to the torque of 24.5 Nm ± 10%.
Fit the vertical exhaust pipe (2) on the horizontal cylinder with the gasket (15).
Note
The gasket convex side must be facing outwards.
Fit catalytic converter (3) and fix it to the frame with screw (12).
Tighten the screw (12) to a torque of 10 Nm ± 10%.
Position the retaining spring (10).
If previously removed, insert plugs (18), copper washers (19), start plugs in the vertical and horizontal head
exhaust manifolds
and tighten them to 25 Nm ± 10%.
Refit the lateral plates.
Refit the exhaust silencer (Refitting the exhaust silencer).
Refit the sump guard (Refitting the sump guard).
Removing the exhaust system
Turn the pulley (4) of the exhaust valve to facilitate the control cable exit (5).
Slide out from the pulley (4) the control cable (5).
Loosen nut (6).
Release control cable (5) from plate (7).
Disconnect the horizontal exhaust lambda sensor (8).
Note
For clarity reasons, the figure shows the engine removed from the frame.
Working on the vehicle left side, loosen and remove screw (12).
Slide out the catalytic converter (3) from the exhaust pipes.
Working on the horizontal cylinder, loosen and remove the three retaining nuts (13).
Remove the horizontal exhaust pipe (1) by recovering the gasket.
Working on the vertical cylinder, loosen and remove the three retaining nuts (14).
Remove the vertical exhaust pipe (2) by recovering the gasket.
Refitting the silencer
Check that on the upper pipe cover (5) there is clip (11)
Fit on silencer (7) the upper pipe cover (5) and the lower pipe cover (6).
Fix the two covers by tightening screws (10) to a torque of 5 Nm ± 10%.
Fit the central cover (4) and fix it with the screws (9) and (8).
Tighten screws (8) to a torque of 5 Nm ± 10%.
Position pipe (11) on the vertical head and fix it with clip (10).
Position pipe (9) on the horizontal head and fix it with clip (8).
Fit canister filter (5) from the top. It must be fitted into plate (7) guides (6).
Reconnect pipes (1) and (2) and fix them with clamps (3) and (4).
Position the canister support (13) and fix it with the three retaining screws (12).
Removing the canister filter
Disconnect pipes (1) and (2) by removing clamps (3) and (4).
Remove canister filter (5) by sliding it upwards on the plate (7) guides (6).
Work on the horizontal head and remove clip (8) and disconnect pipe (9).
Work on the vertical head and remove clip (10) and disconnect pipe (11).
REMOVING THE CANISTER FILTER SUPPORT
Remove the three retaining screws (12) and remove the canister support (13).
Canister filter system
The canister filter is a system that collects the fuel vapour released by the fuel tank. This filter is positioned along
the
tank breather tube and must keep the fuel vapours when the vehicle is not moving.
To maintain the efficiency of the active carbons, the system is active while the engine is ON. The vacuum
generated in the
intake manifolds makes fresh air flow through the canister filter and clean it.
The vapours generated while riding are conveyed to the intake system. To prevent the mixture from getting too
rich, the pipe
has a purge valve that is opened and closed according to the riding conditions.
In this condition the vapours released by the tank by means of pipe (1) are conveyed in the canister filter (2). The
Purge
valve (3) remains closed.
The filtered air comes out of pipe (6).
In this condition air flows in pipe (1) to ventilate the tank. The Purge valve (3) is open and so the fuel vapours
coming
from the canister (2) are sucked by pipes (4) and (5).
Fresh air from outside enters into pipe (6).
In this condition air flows in pipe (1) to ventilate the tank. The Purge valve (3) is closed and so there is no passage
of
fuel vapours in pipes (4) and (5).
Fresh air from outside enters into pipe (6).
Refitting the engine
Position the engine in the frame and fix it as described in chapter "Refitting the structural parts and frame".
Remove the retaining screws/pins (1), (2) and (3) and the adjuster (11).
If removed, apply specific threadlocker on the bush (7) and screw it in the crankcase half, observing the value (A)
of 1 mm
± 0.2%.
Position the reference bushes (6) and the O-rings (4) and (5) according to the casing lubrication channels.
Position the complete oil pump (3) on the casing, fit the relevant washers (A) and (B) and tighten screws (1) to 26
Nm (Min.
23 Nm - Max. 29 Nm) and screw (2) to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
Check the gear clearance with the front sprocket by fixing a dial gauge (A), equipped with the appropriate stylus,
to the
crankcase half.
Position the dial gauge stylus on one tooth of oil pump gear and set the gauge to zero in this position.
Move the gear slightly to measure the backlash; take four readings in diametrically opposed positions of the gear.
The clearance should be 0.10 mm.
Check that the spring (8) and key (6) are present on the pump.
Fit the pump drive gear (7) on to the oil pump and secure it by installing the circlip (6) in its groove.
Insert by-pass valve (5), spring (4) in the pump and tighten plug (3) to a torque of 17 Nm (Min. 15 Nm - Max. 19
Nm) by applying
medium-strength threadlocker.
Disassembling the oil pump gear
Hold the oil pump (1) in a vice taking care not to damage the drive gear (2).
Warning
Make sure that vice jaws are faced with soft material.
Remove the plug (3) and extract the spring (4) and by-pass valve (5).
Drain the system (Changing the engine oil and filter cartridge).
Remove the RH belly pan (Removing the belly pan).
Remove the clutch cover (Removing the clutch cover).
Loosen and remove screws (1) and (2) that retain the complete pump and collect the relevant washers (A) and
(B).
Remove the oil pump assembly (3) and extract the O-rings (4) and (5) from the crankcase half together with two
centring bushes
(6).
Refitting the lubrication system
Note
Before fitting the hoses check the presence of O-rings and lubricate them with the indicated oil.
If nipples (8) have been removed from the cooler, fit a washer (9) on each nipple (8) and apply specified
threadlocker on
the cooler side threads.
Important
The gasket must be positioned with the sharp edge facing the cooler.
After applying the indicated threadlocker, start nipples (8) on the oil cooler and tighten them to 23 Nm ± 10%
while holding
the hex nuts (10).
Attach the hoses ends (5) to the cooler nipples (8) and finger-tighten the nuts (11) fully home.
Tighten the nuts (11) to a torque of 18 Nm ± 5% while holding the nipple hex nuts.
Check the presence of vibration damping pads (12) on both sides of the cooler.
Fit the oil cooler by inserting it first in the headlight support pin (B).
Fit spacer (7) and screw (6) and tighten it to a torque of 6 Nm ± 10%.
Position pipes (5) as shown in the figure.
C) delivery
D) return
Insert the pipes in the crankcase half.
Position plate (4). Apply the specified threadlocker and tighten screw (3) to a torque of 10 Nm ± 10%.
If previously removed, position oil pressure switch (1) with washer (2) on the cooler and tighten sensor (1) to a
torque of
19 Nm ± 10%.
Connect the oil pressure switch (1) to main wiring.
Fill the system (Changing the engine oil and filter cartridge).
Refit the front half-fairings (Refitting the front half-fairing).
Refit the belly pan unit (Refitting the belly pan).
Inspecting the oil cooler
Disconnect the oil pressure switch (1) from the main wiring and remove washer (2).
Undo screw (3) of plate (4) and slide the latter out.
Slide crankcase half pipes (5) out having care not to damage the O-rings.
Upon disassembly, make sure not to lose the O-rings (A) that guarantee the coupling sealing.
Loosen and remove screw (6) with spacer (7) that retains the radiator to the headlight support.
Remove the radiator from the headlight support by sliding it out of pin (B).
Refitting the oil breather reservoir
Insert pipe (4) in tank (2) by matching tooth (A) inside the pipe with recess (B) of union (C).
Insert pipe (5) with clamp (1) and pipe (2) with clamp (1) in tank (4).
Note
If it proves hard to fit the tubes in the relevant unions, it is recommended to use RUBBER LUBRICANT, and apply
some on the
unions.
Loosen clamp (1) and slide hose (2) out of the radiator.
If previously removed, refit valve (8) as shown in the figure, by tightening the clamps to a torque of 2.5 Nm ±
10%
Install an O-ring (17) in the seat of the vertical head union (16) and one in horizontal head union seat (13).
Fix union (13) on the horizontal head with screws (12) with specified threadlocker and tighten them to a torque of
6 Nm (Min.
5 Nm - Max. 7 Nm).
Fix union (16) on the vertical head with screws (15) with specified threadlocker and tighten them to a torque of 6
Nm (Min.
5 Nm - Max. 7 Nm).
If previously removed, fit water temperature sensor (18) on union (13) and tighten it to a torque of 23 Nm (Min.
20 - Max.
26).
Working on the horizontal head, fit the canister/horn support bracket (10) and fix it with screws (11).
Fit the spark plug cap (9).
Position the pump pipe (2) to the vertical cylinder and tighten the two clips (6) to a torque of 3 Nm ± 10%.
Position the pump pipe (1) to the horizontal cylinder and tighten the two clips (6) to a torque of 3 Nm ± 10%.
Repeat the operation with the pump (5) from the water radiator to the pump.
Working on the horizontal head, insert pipe (4) from the horizontal head to the radiator and tighten clip (6) to a
torque
of 3 Nm ± 10%.
Tighten clip (6) with horizontal head bleed screw to a torque of 1 Nm ± 10%.
Position vertical head to water radiator pipe (3) and pump to water radiator pipe (1) by tightening clips (6) to a
torque
of 3 Nm ± 10%.
Fill the cooling system (Changing the coolant).
Refit the half-fairings (Refitting the tank fairings).
Refit the front half-fairings (Refitting the front half-fairing).
Position the vertical and horizontal head clamps as shown in the figure.
Removing the cooling system hoses and unions
Loosen clamps (6) retaining the water radiator (7) hose (1) to the pump and the fixing clamps of the
radiator/thermostat hose
(4) to the thermostat.
Loosen clamps (6) retaining pipe (4) and the thermostat unit (8).
Loosen the clamps (6) that retain the pipe (5) that goes from the radiator to the pump and clamps (6) and pipe
(1) that goes
from the pump to the vertical cylinder.
Loosen clamps (6) retaining pipe (2) and the vertical cylinder water pump.
Loosen the clamps (6) to remove the valve (8) from the pipes (3) and (4).
Working on the horizontal head, remove the spark plug cylinder head (9).
Undo the screws (11) and remove the horn/canister support bracket (10).
Undo the screws (12) and remove the water union (13) and recover clip (14).
Working on the vertical head, undo the screws (15) and remove the water union (16) and recover clip (17).
Important
Periodically check the connection unions for leaks. Hoses that are cracked, swollen, or hardened due to dry sleeves
should
be replaced.
Fitting the radiator
Check for the presence of vibration damping pads (10) and support (11) on the radiator brackets (4).
Insert pipe (B) between water tank and water radiator on the inlet of the radiator plug with clamp (A) and tighten
the latter
to a torque of 1 Nm ± 10%.
Fill the cooling system (Changing the coolant).
Refit the half-fairings (Refitting the tank fairings).
Refit the front half-fairings (Refitting the front half-fairing).
Replacing the electric fan
Undo the electric fan three retaining screws (7) and remove the electric fan (8) from the radiator. Repeat the
operation for
the second solenoid valve (9). Upon reassembly tighten screws (7).
Removing the radiator
Loosen clamps (1) of water pipes (2) and (3) and slide them out of the radiator unions (4).
Loosen clamp (A) that connects the water tank and the radiator and slide out pipe (B).
Loosen the screw (5) with spacer (6) securing the water radiator to the frame RH side.
Loosen the screws (5) with spacer (6) securing the radiator to the frame LH side.
Disconnect the main wiring connections, the RH solenoid valve (C) and the LH solenoid valve (D).
Remove water radiator (4) from the vehicle by disengaging it from pin (E).
Inspecting the water radiator
Visually inspect the cooler. Replace it at any sign of damage or leaks. Check also that the air flow through the
radiator
fins are not obstructed by leaves, insects, mud, etc.
Important
Excessive coolant temperature can be caused by a partial obstruction of the radiator fins.
Use the indicated grease to lubricate the seat of the crankcase (A).
Fit spacer (15) so that the chamfered edge is facing downwards.
Position bearings (13) and (12) fully home.
Fit the impeller shaft (6) by lubricating washer (9) and positioning it as shown in the figure.
Bring the washer fully home.
Warning
While fitting the washer, pay attention not to pinch the rubber seal on the impeller edge.
Working on the opposite side, tighten the impeller (6) by means of the snap ring (7).
Apply the indicated threadlocker on the screws (10).
Fit the two screws (10) with the washers (11), and tighten to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
Apply an even bead of sealing compound on the generator cover by respecting the shown path.
Tighten the screws (1) and (2) to a torque of 13.5 Nm (Min. 12.5 Nm - Max. 14.5 Nm), respecting the sequence
shown in the
figure.
Pay attention to the screws as they are not all the same:
screws (1) M6x32 mm
screws (2) M6x30 mm
If previously removed, fit plug (16) with the washer (17) and tighten it to a torque of 15 Nm (Min. 13.5 – Max
16.5).
Removing the water pump
Note
For clarity, the figures show the engine removed from the frame.
Loosen and remove screws (1), (2) and (16) with the relevant washer securing the water pump cover (3) to the
generator cover
(4).
Remove the water pump cover (3) and collect centring bushings (5).
Clean the pump housing from any coolant scale. Check the bearing wear by turning the impeller shaft (6); in case
of excessive
clearance, it is necessary to replace them as follows.
Remove the snap ring (7) from the impeller shaft (9).
Slide off the impeller (6) with the sealing ring (9) from the outside.
Collect the ceramic washer and the seal ring union (14).
Undo and remove the screws (10) with the washer (11).
Working from the impeller side, use a suitable drift to press on the inner ring of end bearing (12) until it can be
extracted
from the cover.
Use the same technique to remove the other bearing (13).
Remove the inner spacer (15).
Check the condition of the mechanical seal components (9) and of the counter-washer (14): there should be no
signs of deformation,
cracking, or excessive wear. In case of damage, both components must be replaced.
Checking the engine timing
Set the engine to the condition described for the operation under (Checking and adjusting the valve clearance),
indicated before.
Install tool no. 88713.2087 (1) in the spark plug bore to determine the piston TDC, the gauges (2) on tool no.
88765.1723 and the timing check tool of
degree wheel (3) no. 88713.0123 with graduated disk.
Check that the opening valve clearance is zero when the camshafts are in rest position by fitting a feeler gauge, of
suitable
thickness, between the upper rocker arm and the opening shim.
Check that in this condition the camshaft can rotate. If it moves stiffly, use a thinner feeler gauge.
In this condition, with the piston of the horizontal cylinder at TDC with the valves fully closed as confirmed by the
reading
on the gauge, set the gauges (2) to zero.
Tension the belts according to the value specified in paragraph "Checking and adjusting timing belt tension".
Turn the degree wheel (3) counter clockwise until the gauge dial (2), on the exhaust side, shows a lift of 1 mm.
Check that the value of the angular displacement read on the degree wheel (3) is the specified one.
REFERENCE ASSEMBLY VALUE CHECKING CLEARANCE
Valve lift With 1 mm valve clearance
Intake Opening - 22° ± 3° B.T.D.C.
Closing 84° ± 3° A.T.D.C.
Exhaust Opening 80° ± 3° B.B.D.C.
Closing 15° ± 3° A.B.D.C.
Continue to rotate in the same direction until you obtain a lift of 1 mm on the intake side.
Check the angular value on the degree wheel.
Continue to rotate until you obtain an intake valve lift of 1 mm on the gauge (2), during closure of the valve for
the compression
stroke.
Check the angular displacement value with the specified one.
Remove the installed tools to check timing. Then tension the belts to the prescribed operation value.
REFERENCE ASSEMBLY VALUE (new belt) ASSEMBLY VALUE (used belt)
Cold belt tension adjustment DDS 2 90 ± 5 Hz (horizontal) 80 ± 5 Hz (horizontal)
90 ± 5 Hz (vertical) 80 ± 5 Hz (vertical)
In case of values different from the specified ones, repeat the timing procedure.
Set the engine to the TDC condition described for the operation under "Checking and adjusting the valve clearance",
indicated before.
Place tool (1) part no. 88765.1723 on the cylinder head: the part marked "A" should be on the intake side and the
part marked
"S" should be on the exhaust side.
Seat the tool (1) and tighten the screws (2).
Set the opening valve clearance to zero when the camshafts are in rest position by fitting a feeler gauge, of
suitable thickness,
between the upper rocker arm and the opening shim.
Lock the dial gauge into the support seat with mark "A" and position fork probe against the face of the closing
shim.
Set the dial gauge to zero when the valve is fully closed.
Rotate the intake camshaft so as to allow the intake valves to lift fully.
Check on the dial gauge that the measured value corresponds to the prescribed one (Timing system/valves).
REFERENCE VALUES ASSEMBLY VALUE CHECKING CLEARANCE
Valve lift With 0 mm valve clearance Intake 12.2 mm Exhaust 11.2 mm
Opening rocker arm - intake 0.13 ± 0.18 mm 0.10 ± 0.25 mm
Opening rocker arm – exhaust 0.13 ± 0.18 mm 0.10 ± 0.25 mm
Closing rocker arm – intake 0.05 ± 0.10 mm 0.05 ± 0.15 mm
Closing rocker arm - exhaust 0.05 ± 0.10 mm 0.05 ± 0.15 mm
Refit the components by carrying out the same operations indicated in paragraph (Checking and adjusting the valve
clearance), previously described.
Note
For better clarity, some of the following figures show the engine removed from the frame.
Bring the horizontal cylinder to the TDC and proceed as described in chapter "Timing"
Then, all valves are closed and the camshafts are in rest position, i.e. free to rotate.
Using a feeler gauge, check the clearance between the closing rocker arm (C) sliding shoe and the highest point of
the camshaft
lobe (D).
The value must be within the prescribed ones.
VALVES CLOSING CLEARANCE (mm)
INTAKE 0.05 ÷ 0.10
EXHAUST 0.05 ÷ 0.10
If not, remove the closing shim (2), as described in paragraph "Removing the valves", and replace it with one of
suitable height to obtain the prescribed clearance.
Note
Opening rocker arm shims measuring 1.80 to 3.45 are available as spare parts: the size is punched on the shim.
Using a feeler gauge, check the clearance between the opening rocker arm (A) and the lowest point of the
camshaft lobe (B).
The value must be within the prescribed ones.
VALVES CLOSING CLEARANCE (mm)
INTAKE 0.13 ÷ 0.18
EXHAUST 0.13 ÷ 0.18
If not, remove the opening shim (1), as described in paragraph "Removing the valves", and replace it with one of
suitable height to obtain the prescribed clearance.
Note
Opening rocker arm shims measuring 1.80 to 3.45 are available as spare parts: the size is punched on the shim.
Bring the vertical cylinder to the TDC. Repeat the operations performed on the vertical head for the horizontal
head.
Refitting the timing outer covers
Remove the external belt covers (Removing the timing belt external covers).
Remove the cylinder head covers (Removing the head covers).
Remove the timing belts (Removing the mobile tensioner/timing belt).
Working on the generator cover (1) loosen the screws (2) and remove cover (3).
For better clarity, some of the following figures show the engine removed from the frame.
Use tool no. 88765.1523 to rotate the crankshaft in the vehicle direction of travel (by looking the tool from the
front side, counter clockwise),
to bring the horizontal cylinder piston to the TDC.
In this condition, the check tool (A) no. 88713.5009 fitted on the timing layshaft pulley must perfectly match with
the crankcase holes.
If this is not the case, rotate the crankshaft until reaching the TDC again and try refitting the tool.
For this type of engine, there is just one TDC that allows performing a correct timing.
When the timing is correct, fit tool (B) no. 88713.2011 to block the crankshaft.
Check the variators alignment, i.e. they must be flush with the "head flat surface".
Fit the belt (7) as shown in the figure using a screwdriver to tension it.
If previously removed, fit the chain tensioner (8), washer (9) and tighten it by means of nut (10).
Do not tighten to torque.
Remove tool (C) part no. 88765.1737 and fit it on the horizontal head.
Check on the variators (11) that the references are aligned with the "head flat surface".
Fit the belt (12) in the horizontal head as shown in the figure using a screwdriver to tension it.
If previously removed, fit the chain tensioner (13), washer (14) and tighten it by means of nut (15).
Do not tighten to torque.
Remove the camshaft locking tool.
Check the horizontal head belt tension in the indicated point (D).
Tension the belt according to the values indicated in the table.
Reference Assembly Value Assembly Value
(new belt) (used belt)
Cold belt tension adjustment DDS 2 90 ± 5 Hz (horizontal) 80 ± 5 Hz (horizontal)
90 ± 5 Hz (vertical) 80 ± 5 Hz (vertical)
Check the vertical cylinder belt tension in the indicated point (E).
Tension the belt according to the values indicated in the table.
Reference Assembly Value Assembly Value
(new belt) (used belt)
Cold belt tension adjustment DDS 2 90 ± 5 Hz (horizontal) 80 ± 5 Hz (horizontal)
90 ± 5 Hz (vertical) 80 ± 5 Hz (vertical)
Note
With used belt we mean after the first heating up of the engine.
Check the pulleys of the intake side "IN" and of the exhaust side "EX".
Fixed tensioner
Apply the indicated product and insert the fixed tensioners (3) with relevant bearing and washers (2), in the head
pins and
tighten nuts (1) to a torque of 25 Nm (Min. 22 Nm - Max. 28 Nm).
Refitting the tensioner pins
To fit the snap ring (7) in the timing layshaft seat, use the tool no. 88713.2834.
Install the inner spacer (6) on the timing layshaft, taking care to match the key notch.
Fit the first key (4) on the timing layshaft.
Important
To prevent the ring nuts from loosening and consequent serious engine damage, always use new self-locking ring
nuts on all
the timing belt rollers.
Block with tool (A) no. 88713.1805 the rotation of the belt rollers and tighten to 71 Nm (Min. 64 Nm - Max. 78
Nm) the self-locking
ring nut using the insert supplied with the wrench and a torque wrench.
Removing the timing layshaft pulleys
Block with tool (A) no. 88713.1805 the rotation of the driving belt rollers on the crankcase.
If this operation is carried out with the engine installed in the frame, hold the driving pulleys against rotation using
tool
no. 88713.2011 mounted on the generator cover.
Remove the ring nut (1), the spacer (2) and the outer pulley (3).
Remove the first key (4) from the timing layshaft.
Remove the spacer (5) and the inner pulley (3).
Remove the inner spacer (6) and second key (4) on the timing layshaft.
It is now possible to remove the snap ring (7) on the timing layshaft.
Removing the tensioner pins
Use tool part no. 88713.1821 to remove tensioner pins (1) from the heads.
Removing the cylinder head pulley/fixed tensioner
Note
The procedure below refers to one head but it applies to both coils.
Loosen the nut (1), recover washer (2) and slide out tensioner pulley (3).
Loosen the nut (1) and remove the washer (2) and the mobile tensioner (3) from the pin (4) on the cylinder head.
Remove the timing belt (5) from the piston-cylinder assy.
Important
If the belts are to be re-used, mark the direction of rotation with an arrow and also mark the piston-cylinder assy
they belong
to.
For clarity, the figures show the engine removed from the frame.
Undo the fixing screws (1) of the upper external cover (2) and remove it from the vertical piston-cylinder assy.
If the stud bolts (13) were removed, apply the recommended threadlocker to the short end of the stud bolts (13),
i.e. the
side that is to be screwed into the cylinder head.
Tighten stud bolts (13) to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
Check that the camshafts (marked "VA" and "VS" for the vertical head and "OS" and "OA" for the horizontal head)
are clean
and in good condition.
If the camshafts are not new, use emery cloth to remove signs of wear on the cam and support surfaces, working
on a flat surface.
Check that plugs (14) are present on the camshafts (15) and (16).
Apply engine oil to the thread and underhead of screws (9). Start screws (9).
Pre-tighten screws (9) to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
Pre-tighten one support at a time, working in the sequence 1-2-3-4-5-6-7-8.
Then tighten screws to a torque of 22.5 Nm (Min. 21 Nm - Max. 25 Nm).
Tighten one support at a time, working in the sequence 1-2-3-4-5-6-7-8.
Turn the camshafts by hand to check that they rotate freely.
Check valve lift as explained in chapter (Checking valve lift).
Sealing rings
Important
Always fit new sealing rings upon reassembly.
Using the drift no. 88713.4965 provided with the tool and a mallet drive the sealing rings into their seats.
When correctly installed, the sealing ring (17) should be flush with the bevel of the cylinder head.
To distinguish the two heads, check that the secondary air valve is outwards as shown in the figure.
Locate cover (6) on the cylinder head, aligning it with the four fixing holes.
Start screws (3) and (4) with O-rings (5).
Tighten the screws (3) and (4) to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm), respecting the indicated
sequence.
Check the cam contact surfaces for scratches, grooves, steps and waving.
Worn cams are frequently the cause of poor timing, which leads to loss of engine power.
Place the camshaft between two opposite centres and check the run-out on the areas indicated using two dial
gauges.
Service limit: 0.1 mm.
Visually inspect the camshaft tracks for scoring and abnormal wear. If any of the above defects are found, the
camshaft should
be replaced.
If you find scoring or excessive wear, check the operation of the engine lubrication circuit.
Removing the camshafts
Slide clamp out and disconnect the secondary air system pipe (2).
Undo and remove the screws (3) and (4) and the O-rings (5) from the cylinder head covers.
Remove the cylinder head cover (6).
Remove the gaskets (7) and (8).
Removing the camshafts
Warning
To prevent oil leaks in the contact area between cylinders and crankcase, each time the head is removed, cylinder
and piston
must be removed as well to clean the mating faces of crankcase and cylinder and restore the worn
gaskets and O-rings and apply
again sealing compound.
Before fitting the head, check that the gasket (E) is fitted on the mating surface between head and cylinder.
Lower the cylinder head carefully over the stud bolts. Take care not to damage the threads.
Fit the special washers (2) and polygonal nuts (1) onto the cylinder head stud bolts.
Screw the polygonal nuts (1) on the stud bolts following a cross pattern using tool no. 88713.2676 together with
a torque wrench.
Apply a snug torque of 20 Nm to nuts (1);
pre-tighten to a torque of 40 Nm (Min. 38 Nm - Max. 48 Nm);
and tighten to a torque of 60 Nm (Min. 57 Nm - Max. 63 Nm).
Refit the cooling system hoses (Refitting cooling system hoses and unions).
Refit the timing belts and covers (Refitting the cylinder head pulleys/fixed tensioners).
Refit the engine in the frame (Refitting the engine).
Overhauling the cylinder head components
Remove any carbon deposits from the combustion chamber and its ducts.
Remove any scale from the coolant ducts.
Check for cracking and inspect the sealing surfaces for scoring, steps or other damage.
Check that the cylinder mating surfaces of the cylinder head are free of carbon deposits and scale.
If this is not the case, spread diamond lapping paste (6 to 12 micron thickness) on a reference surface and slide
the cylinder
head on the surface as shown in the figure until a flat surface is obtained.
Important
Since it is absolutely necessary that the machining is extremely precise, we recommend having it performed by
operators specialised
in grinding operations.
Visually check the contact surface between the valve and its seat on the head. There must be no pitting or cracks.
Check that the outer diameter of the valve seat contact surface.
Standard: exhaust
Standard: intake
"Minor" damage can be repaired by grinding with special α (1) and β (2) single-blade grinders.
Grind the valves and check the seal.
Valve Grinder
α β
Intake 60° 45°
Exhaust 60° 45°
Remove the least possible quantity of material from the seat.
If the valve seats are excessively damaged, fit oversize seats. Replacement seats are available with 0.03 and
0.06 mm oversized
outside diameters.
Warning
Check that there are no leaks by filling the intake and exhaust pipes with a suitable product. In case of leaks,
check the
repair quality with Prussian blue.
Important
When you change the valve seats, change the valve guides as well.
Valve
Intake (CA)
Exhaust (CS)
S
D
It is advisable to lap the radius between the intake valve seats and the intake ducts (F = before; G = after).
Valve guides
Check the internal surface of the valve guides: there should be no signs of deformation or cracking.
The clearance upon fitting must be: maximum detected value - minimum detected value = 0.028÷0.013 mm.
Change the valve guides when the ovality exceeds permissible limit or the valve stem clearance is outside the
tolerance range.
When you change the valve guide, you must also change the valve.
Valve guides as spare parts are available with outside diameter oversized by 0.03, 0.06 and 0.09 mm.
Check that the stem and the valve seat contact surface are in good condition.
There must be no pitting, cracks, deformations or signs of wear.
Warning
The valves cannot be ground.
- Check the valve stem for buckling. Place it on a "V" reference and measure deformation with a dial gauge.
Use Prussian blue or a mixture of minium and oil to check that the contact surface (W) between valve and seat is
1.4 to 1.6 mm
(1.05 to 1.35 mm when new).
Grind the seat if the dimension measured is greater than the above limit.
Checking the valve seal
After grinding the seats it is important to check the seal between valve face and seat: if the seat contact area (S)
on the
valve is wider than the 45° band (W) this could lead to poor sealing.
Checking the rocker arms
Check the rocker arm conditions: they must feature no scratches or breakage.
Note
The closing rocker arms are longer than the opening ones.
Fit the opening rocker arm shafts (7) using suitable tools.
Note
Always install the closing rocker arms on the exhaust side before those on the intake side.
Warning
Take care not to damage the shoe of the closing rocker arm with the intake spring during assembly.
Fit the closing rocker arm shafts (3) using suitable tools.
Locate the closing rocker arm (4) and drive the shaft (3) home.
Follow the same procedure to refit the closing rocker arms.
If not installed before, lift the opening rocker arms (4) and insert the opening shim as described in chapter
"Refitting the valves".
Refit the camshafts (Refitting the camshafts) and check the valve opening clearance (Checking and adjusting the valve
clearance).
Insert the gaskets (2) on the plugs (1), orienting them (preferably) with the square edge side (T) facing the
cylinder head.
Apply the recommended threadlocker on the plug (1) threads: apply the product on the first two plug threads,
spreading it
for the half circumference (about 180°).
Tighten the plugs to a torque of 15 Nm (Min. 14 Nm - Max. 16 Nm).
Note
After tightening, remove any excessive sealant.
Refit the camshaft supports and the head covers (Refitting the camshafts).
Refit the timing pulleys (Refitting the cylinder head pulleys/fixed tensioners).
Connect the caps to the coils.
Connect the secondary air pipe (Refitting the secondary air system).
Refit the complete head (Fitting the complete heads).
Removing the valve rocker arms
Remove the heads from the cylinder (Removing the engine heads).
Remove the camshafts (Removing the camshafts).
The procedure below refers to one head but it applies to both coils.
Use suitable tools to slide out shafts (3) of the opening rocker arms (4) both on intake and exhaust side.
Follow the same procedure to remove the opening rocker arms (4) on the intake and exhaust side.
Using the pawl of the rocker arm spring tensioning kit no. 88713.2069, slide springs (6) out of the closing rocker
arms (5).
Withdraw the shafts (7) of the closing rocker arms on the exhaust and intake sides.
Remove the closing rocker arms (5), the springs (6) with the spacers (8).
Refitting the valves
Carefully clean the two intake valve seats (A) and the two exhaust valve seats (B).
Lubricate the stems of the two intake valves (5) and the two exhaust valve stems (4) with engine oil.
Fit the valves in their seats on cylinder head, fully home.
If previously removed, fit the seal rings before installing the valves.
Lubricate the rings with indicated product, then use tool no. 88713.2442 to drive the four seal rings (6) in the
relevant
valve guide seats.
Important
Pay attention not to lubricate the ring seats.
Note
Position the seal ring as shown in the figure.
Fit the closing rocker arms as described in chapter (Refitting the rocker arms).
Insert closing shims (2) in the valve stem.
Insert the two split rings (3) in the valve seat.
Using suitable tools, quickly push the closing rocker arm to bring the shim (2) into seat.
Fit the opening shims (1).
Repeat the same procedure for the other valves.
Removing the valves
Remove the opening shim (1) from the valve using a pair of pliers.
Lower the closing shim (2) and remove the split rings (3) using a magnet screwdriver.
Withdraw the exhaust and intake valves (4) and (5) from underhead of the cylinder head.
Use tool part no. 88713.2676, undo the nuts (1) on the cylinder head stud bolts.
If new parts are used, it is necessary to match cylinders and pistons of the same selection see chapter "Overhauling
the cylinder/piston components".
Note
If the pistons have been separated from their cylinders, before reassembling these components, position the
piston ring gaps at 120°
from one another (the markings must always face the piston crown).
Using a universal tool, gently insert the piston in the cylinder (lubricate the cylinder inner side with engine oil
before
inserting the piston).
Remove any deposits and degrease the contact surfaces of the crankcase half and the cylinders. Check that on the
engine block
there is the cylinder centring dowel (B) O-ring (C).
Bring the con-rod small end to the TDC and insert cylinder (4) on the stud bolts.
Match the con-rod small end with the hole for the piston gudgeon pin hole.
Insert gudgeon pin (9) must slide smoothly in the connecting rod small end bush and in the piston.
Close the crankcase opening with a cloth to prevent foreign objects from falling inside and then fit the snap ring
(8) as
shown in the figure.
Important
Always fit new circlips upon reassembly.
Push the cylinder (4) down until it seats against the crankcase.
Refit bushings (7) and O-ring (11).
Fit the cylinder head gasket (6) over the stud bolts.
The side marked with the part number must be facing the cylinder head.
Note
The shape of the gasket prevents incorrect fitting, provided that the fluid flow holes are aligned with those on the
cylinder.
Repeat the procedure for the other cylinder and refit the cylinder heads (Refitting the cylinder head assemblies).
In case they have been removed, apply prescribed threadlocker to unions (5) and tighten them to a torque of 25
Nm (Min. 23
Nm - Max. 27 Nm).
Fit hoses (2) and (3), and tighten the clips (1) to a torque of 2.5 Nm (Min. 2 Nm - Max. 3 Nm).
Refit the belts and their external covers (Refitting the timing belt external covers).
Refit the cooling system hoses (Refitting cooling system hoses and unions).
Refit the engine in the frame (Refitting the engine).
Overhauling the cylinder/piston components
Check that the walls of the cylinder are perfectly smooth. Measure the cylinder diameter at 50 mm from the top
face and determine
the size class to which it belongs in accordance with the values specified in
Sect. Cylinder/piston. Repeat measurement of
the diameter at three heights A (10 mm from the upper surface), B
(50 mm from the upper surface) and C (100 mm from the upper
surface) and in two directions at 90° between
them; check that the measurements of taper and ovality fall within the range
specified in Sect. Cylinder/piston.
In order for the liner to be conforming, the following conditions must be true:
ØA<ØB<ØC
Ø C – Ø A = 0.015
In the event of damage or excessive wear the cylinder must be replaced as it has a silicon carbide coating (which
provides
the cylinder walls with excellent anti-friction and anti-wear properties) and therefore cannot be ground.
The cylinders are
marked with letters (stamped between the two oil return ways) indicating their size class.
Always match cylinders with pistons from the same size class.
Overhauling the piston
Clean the piston crown and piston ring grooves, removing any carbon deposits.
Visually inspect the piston and check its dimensions carefully: there must be no signs of scuffing, scoring, cracks,
or other
damage.
The piston diameter must be measured at 7.5 mm up from the bottom of the skirt and in perpendicular direction
to the gudgeon
pin axis.
The pistons must always be replaced as a pair.
The pistons are marked with a letter (punched into the piston crown) that indicates the size class to which they
belong.
Always match piston with cylinder from the same size class.
For the correct values refer to chapter "Cylinder/piston".
Overhauling the gudgeon pins
Gudgeon pins must be perfectly smooth without signs of scoring, steps, or blueing due to overheating. The well-
lubricated
gudgeon pin must slide smoothly inside the piston without stiffness.
For the coupling clearance values with the piston and the connecting rod, see chapter "Cylinder/Piston".
If a new gudgeon pin is fitted, you must also change the connecting rod small end bush.
Overhauling the piston rings
The piston rings must not show any signs of scuffing or scoring. Spare pistons are supplied complete with piston
rings and
gudgeon pin.
Checking the piston ring-grooves clearance
The maximum permissible wear limit is 0.15 mm for the top ring (1st ring "S") and 0.10 mm for the others (2nd
ring "T" and
oil scraper ring "R").
The piston rings must always be fitted with markings (M) facing upwards.
First ring (S).
Second ring (T).
Insert the piston ring 50 mm from the top face of the cylinder; make sure that the ring is positioned perfectly
square to
the cylinder axis by checking with a gauge at several points around the ring that the top surface of the
ring is 50 mm from
the cylinder top face.
Measure the piston ring gap (A):
Distance (A) mm Wear limit
Upper piston ring 0.2 to 0.4 0.8
Intermediate piston ring 0.3 to 0.5 0.8
Oil scraper ring 0.2 to 0.7 1.0
Removing the cylinder/piston assembly
Loosen the clips (1) and remove the hoses (2) and (3) from the cylinders (4) and from the generator cover.
Remove the cylinder head gasket (6) from the piston-cylinder assy.
Remove the bushes (7).
Use tool (B) part no. 88765.1657 to bring the piston of the horizontal cylinder near the TDC.
Carefully lift the cylinder (4) off the crankcase, keeping it vertical. If necessary, rock the cylinder slightly using
both
hands or tap its base gently with a rubber mallet. Continue to lift the cylinder until you can access the
gudgeon pin (8).
Since insertion of piston in the cylinder is a difficult operation to perform at the time of reassembly, remove the
piston
together with the barrel as described below.
Stuff the crankcase opening with a rag or soft paper to prevent foreign material from falling inside.
Remove the snap ring (8) from the gudgeon pin on the clutch side.
Working from the opposite side, drive out the gudgeon pin sufficiently to release the connecting rod.
Important
Mark the pistons to show from which cylinder they were removed:
V= Vertical - O= Horizontal.
Refitting the clutch
Apply the indicated grease to the thread of the gearbox primary shaft and the mating surface of nut (9), and fit it
over Belleville
washer (10).
Block the clutch drum using tool (F) part no. 88713.3408 and tighten the retaining nut (9) to a torque of 190 Nm
(Min. 180 Nm - Max. 200 Nm).
Insert the control pin (6) in the bearing (7) and the latter in the gearbox primary shaft.
Place the pusher plate (4) on the centring tool (G) part no. 88713.3352.
Fit the pressure plate (4).
Insert a friction plate (E) in the clutch housing (F) and measure the clearance (S) with a feeler gauge.
Clearance "S" must not exceed 0.6 mm.
If it does, replace the plates and, if necessary, the clutch housing.
The clutch plates must not show any signs of blackening, grooves or deformation.
Measure the thickness of the friction plates; it should not be less than 2.6 mm.
Important
The total thickness of the plates pack must not be less than 46.1 mm.
Place the plate on a flat surface and check the amount of deformation with a feeler gauge.
Max. flatness error: 0.2 mm.
Overhauling the pressure plate
Check bearing (7) conditions: replace the bearing if the play is excessive.
Check the contact surface of the last friction plate; if extremely scored, polish it in the same manner as described
previously
for the cylinder head surface (Overhauling the cylinder head components).
Check the condition of the spring guide seats (G) of pusher plate (4) and of snap rings (5).
Note
For clarity, the figures show the engine removed from the frame.
Undo the fixing screws (1) and remove the ring (2) and the springs (3) from the pusher plate (4).
Slide out pusher plate (4) taking care not to damage snap rings (5).
Remove the clutch control pin (6) and bearing (7).
Block clutch drum (8) using the tool part no. 88713.3408 and loosen retaining nut (9).
Remove Belleville washer (10) and remove clutch plates (11) from the clutch housing.
Slide out the clutch drum (8).
Slide out the spacer (12).
The clutch has the important function to immediately disconnect the gearbox primary shaft from the crankshaft.
Working on clutch lever (1) the master cylinder (2) is pressurized and pushes on the control rod (3). Therefore the
pusher
plate (4) is moved and detaches the driven plates from the driving ones.
The clutch consists of a housing (5) that rotates freely on the primary shaft (6).
Inside the clutch housing there the driving plates (7) and the driven plates (8).
The driving clutch plates move together with housing (5) and crankshaft (10) by means of gear (9).
While the driven plates move together with the clutch hub (11) that is fixed to the gearbox shaft (6).
The entire system is moved by the pressure on the hub springs.
Working on the clutch lever, thanks to the pusher plate mechanism, the clutch will be detached and the plates will
rotate
freely with no connection to housing and hub.
This will allow the detachment of crankshaft and gearbox shaft.
The following is a list of possible causes of clutch malfunction.
If the bush has been replaced, fully seat the new bush (11) in the slot in the cover using a suitable drift and a
press.
Lubricate the sealing ring (10) with indicated product, refit the new part (10) in the clutch cover, positioning it so
that
the side without a spring is facing the circlip (8).
Before fitting, check that the edges of the circlip groove show no sign of burrs which might otherwise damage the
sealing
ring.
Then fit the shim (9) and the circlip (8).
In order for the sealing ring (10) to perform correctly, it must have an assembly clearance that allows the circlip
(8) to
rotate.
Position the soundproofing panel (7) inside the clutch cover as shown in the figure.
Position the internal cover (6) on panel (7).
Apply the recommended threadlocker to the screws (5).
Tighten the retaining screw (5) to a torque of 8 Nm (Min. 7 Nm - Max. 9 Nm).
Disassembling the clutch cover
Remove the plug (1) and the relevant O-ring (2) from the cover, the plug (3) and its seal (4).
Drain the engine oil (Changing the engine oil and filter cartridge).
Remove the belly pan unit (Removing the belly pan).
Loosen the fastening screws (2), (3) and (4) on the clutch cover (1).
Tap around the edge of the cover with a plastic mallet to detach it from the crankcase half.
Remove the clutch cover (1) paying attention to the centring bush (5) and O-ring (6).
Check the condition of the centring bush (5) and replace if deformed.
Refitting the primary drive gears and checking backlash
Fully degrease the crankshaft splined end and the corresponding spline on the primary drive gear.
Position spacer (D) on the crankshaft.
Fit the driving gear (B) onto the crankshaft with the oil pump drive sprocket facing the crankcase.
Temporarily secure the gear with the washer (4) and ring nut (3).
If fitting a new primary driving gear (B), check the backlash.
To check the backlash, temporarily fit the clutch housing (1) complete with the primary driven gear (A) on the
gearbox primary
shaft. Fix a dial gauge to the crankcase, positioning the stylus against a gear tooth. Turn the
driven gear (A) to mesh the
teeth and check that backlash ranges between 0.05 and 0.07 mm.
Repeat the check at 16 different points of the driven gear.
If the measured values are outside the tolerance limits, try changing the position of driven gear (A) on the primary
shaft,
leaving the driving gear (B) on the crankshaft. If the backlash is still outside the tolerance limits, replace the
complete
primary drive gear (1).
After having checked the backlash, apply bush (F) part no. 88713.3406 on a torque wrench, lock sprocket (B)
with holding tool (E) part no. 88713.3417.
Position washer (4) and ring nut (3). Using the suitable tool (U), tighten ring nut (3) to a torque of 190 Nm (Min.
171 Nm
- Max. 209 Nm).
Refit the oil pump (C) and check the backlash between the oil pump gear and primary drive gear on the crankshaft
(Refitting the oil pump).
Thoroughly degrease the mating surfaces of the clutch housing (1). Fit the spacer (2) onto the primary shaft. Fit
the clutch
housing (1) along with the driven gear (A).
Refit the clutch unit (Refitting the clutch).
Refit the clutch cover (Refitting the clutch cover).
Refit the belly pan unit (Refitting the belly pan).
Fill the engine with oil (Changing the engine oil and filter cartridge).
Removing the primary drive gears
Drain the engine oil (Changing the engine oil and filter cartridge).
Remove the belly pan unit (Removing the belly pan).
Remove the clutch cover (Removing the clutch cover).
Remove the clutch unit (Removing the clutch).
Withdraw the clutch housing (1) complete with driven gear of the primary drive gear (A).
Lock the primary sprocket (B) with holding tool (E) part no. 88713.3417 and loosen the threaded ring nut (3)
that locks the sprocket, using bush (F) part no. 88713.3406.
Remove the ring nut (3) and the lock washer (4).
Remove the complete primary drive driving gear (B) using a commercial puller and placing a brass or aluminium
pad between
crankshaft and puller screw.
Visually inspect the gear selector fork (5) for wear, particularly around the area where it contacts the selector
drum.
Insert the screws (1) and (2) with the spacer (4).
Temporarily fit gearchange lever (or a service lever) and engine sprocket and shift to neutral gear.
Place tool (A) part no. 88713.3334 inserting the clutch rod (E) into the tool hole, block the pin (F) of the tool in
the gear pawl pressing with the hand in
the point (G) (pawl stroke stop plate) towards the right, as shown in
photo.
In this position tighten the screw (1) to a torque of 36 Nm (Min. 34 Nm - Max. 38 Nm) and the screw (2) to a
torque of 16
Nm (Min. 15 Nm - Max. 17 Nm).
Refit the flywheel/generator assembly and the generator cover (Refitting the flywheel/generator assembly).
Refit the pump-water radiator hose (Refitting cooling system hoses and unions).
Refit the pump-cylinder hoses (Refitting the cylinder/piston assembly).
Refill the cooling system (Changing the coolant).
Refit the clutch slave cylinder (Refitting the clutch slave cylinder).
Refit the front sprocket cover (Refitting the front sprocket cover).
Fill the system with engine oil (Changing the engine oil and filter cartridge).
Refit the sump guard unit (Refitting the sump guard).
Refitting the gear interlock plunger and ratchet
On the special screw (5), fit the gear ratchet (6), orienting it as shown in the figure, the washer (7) with the
square edge
side (D) facing the clutch-side crankcase half, and the spring (8), positioning it so that the hook end
(A) is facing the
gear ratchet.
Locate the hook (A) of the spring on the gear ratchet as shown in the figure.
Apply threadlocker to the screw thread.
Start the screw in the crankcase half.
Position end (B) of the spring so that it rests against rib (C) of the crankcase half, as shown in the figure.
Tighten screw (5) to a torque of 18 Nm (Min. 16 Nm - Max. 20 Nm).
Manually move the gear ratchet to check for proper spring operation.
Grease and then fit the ball (4), spring (3), and seal (2) to the gear interlock plunger (1).
Tighten the gear interlock plunger to a torque of 30 Nm (Min. 27 Nm - Max. 33 Nm).
Refit the clutch unit (Refitting the clutch).
Refit the clutch cover (Refitting the clutch cover).
Fill the system with engine oil (Changing the engine oil and filter cartridge).
Refit the sump guard unit (Refitting the sump guard).
Disassembling gear interlock plunger and ratchet
Undo the interlock plunger screw (1) and remove the seal (2), the spring (3) and the ball (4).
Undo the clutch-side crankcase half screw (5) and remove the ratchet (6), the washer (7) and the spring (8).
Removing the gearchange mechanism
Undo and remove the fixing screws (1) and (2) of the complete gearchange mechanism (3) and collect the spacer
(4).
Remove the gearchange mechanism complete with the shaft, spring, and plate.
Reassembling the gearbox assembly
To refit the gearbox components follow the procedure under chapter, "Closing the crankcase", relating to the
reassembly of
the engine crankcase.
As a final practical test, ensure that with the gearbox in neutral the front coupling dogs (A) of sliding gears (B) are
equidistant
on both sides with respect to the corresponding coupling dogs on the fixed gears (C).
Check also that there is always a small amount of clearance between fork (D) and relative groove (E) on sliding
gear (B) when
engaging the gears.
The figure shows all the parts to be reassembled on the gearbox primary shaft (17), with the calculated end shim
(18) (Reassembling the crankcase halves).
The figure shows all the parts to be reassembled on the gearbox secondary shaft (1), with the calculated end shim
(2) (Reassembling the crankcase halves).
Reassemble the gears on the gearbox shafts by reversing the disassembly procedure.
Take particular care when installing the idler gears.
The assembly of the 3rd (12) and 4th (9) speed gears and the relative fixing components on the secondary shaft is
given as an example.
Fit the snap ring (7), checking that it is fully inserted into its groove on the shaft.
Push the snap ring into position with a suitable size tubular drift.
Slide the splined washer (8) over the shaft until it locates against the snap ring you have just fitted.
To fit the roller bearing cage (10) onto the shaft, first lubricate it with plenty of grease (of recommended type) and
then
open it slightly to make it easier to slide on to the shaft.
Fit the 3th speed gear (12).
Install the splined washer (8) on the gear.
Fit another roller bearing cage (10) using the method already described.
Fit the 4th speed gear (9).
Fit another three-pointed washer (8) and another snap ring (7) into the shaft. Push it inside its seat using the
previously
used drift.
Inspecting the fork selector drum
Use a gauge to measure the clearance between fork pin and the groove on the selector drum.
If the service limit has been exceeded, determine which part must be replaced by comparing these dimensions
with those of
new components (Gearbox).
Also check the wear on the drum support pins; these must not show any signs of scoring, burrs, or deformation.
Turn the drum in the crankcase to establish the extent of radial play. If play is excessive, change whichever part is
most
worn.
Inspecting the gear selector forks
Visually inspect the gear selector forks. Bent forks must be replaced as they may lead to difficulties in gear
changing or
may suddenly disengage when under load.
Use a feeler gauge to check the clearance of each fork in its gear groove.
If the service limit has been exceeded, check whether or not it is necessary to replace the gear or the fork by
referring
to the limits specified for each part (Gearbox).
Overhauling the gearbox
Check the condition of the front coupling dogs of the gears. They must be in perfect condition and with no sign of
wear on
the edges of the teeth.
The idler gears must rotate freely on their shafts.
When refitting, make sure the circlips are correctly positioned.
Check the needle roller bearings for wear.
The threads and splines of the shafts must be in perfect condition.
Also check that the component parts of the gear selector mechanism are in good condition.
Engage the gears and check that the gearchange mechanism does not stick (selector fork-gear groove, and fork
pin-desmodromic
drum groove) due to incorrect end float.
Restore the correct end float by shimming the gearbox shafts and the selector drum with suitable shims.
For the total gearbox shaft and selector drum end clearance values, refer to Chapter "Gearbox".
Disassembling the gearbox shafts
Place the shaft in a vice in such a way to facilitate the disassembly operations.
Important
Take care not to invert the shim position upon reassembly: this would potentially lead to jamming when using the
gear selector
control, making it necessary to reopen the crankcase.
Withdraw the first speed driven gear (3) with the roller cage (4) and the shim (5).
Remove the snap ring (7) and withdraw the splined washer (8) and the second speed driven gear (14).
Withdraw the roller cage (10) and the shim (15). All the components have thus been removed from gearbox
secondary shaft.
Disassembling the gearbox primary shaft
Important
Take care to avoid damaging the surface of the shaft while removing the snap ring.
Remove the snap ring (7) and the splined washer (8).
Remove the sixth speed driving gear (20) with its roller cage (10).
Remove the splined washer (8) and the snap ring (7).
Withdraw the third and fourth speed driving gear (21).
Remove the snap ring (7) and the splined washer (8).
Slide out the fifth speed driving gear (22) with the relevant roller bearing cage (10) and the shim (15). All the
components
have thus been removed from gearbox primary shaft (17).
Removing the gearbox assembly
Remove the gear selector drum (4) taking care not to invert the fitted shims (5) and (6).
Once removed, it is possible to replace the special rollers (7).
Fit gear (9) so that the reference point is centred on the references of the timing gear (10).
Note
Check that, in this position, the horizontal cylinder piston is at top dead centre.
Fit the roller bearing cage (7) in bushing (8) by applying the specified grease on the washer.
Install the roller bearing cage / bushing assembly on the crankshaft.
Thoroughly clean the shaft and nut threads and ensure they move freely.
Heat up the flywheel to 100° ± 5°.
Install the flywheel assembly (6) with the gear (7), aligning the notches as shown in the photo.
Block the flywheel rotation with the suitable tool no. 88713.3367.
Fit washer (5).
Fit the rotor on the shaft and tighten it to 150 Nm.
Wait for the flywheel to cool down.
Completely loosen the nut that was tightened before and apply the product on the first 4/5 threads.
Tighten nut (4) to 300 Nm.
Thoroughly clean any residues of threadlocker on the top of the nut.
Overhauling the flywheel/generator assembly
Inspect the inner part of generator rotor (1) for signs of damage.
Check that the starter clutch is working properly and that the roller races do not show signs of wear or damage of
any kind.
Disassemble the unit if you find faulty operation.
Unscrew the screws (2) and remove the generator rotor (1) from the flywheel.
Fit starter clutch (5) on flange (6) taking starter clutch edge (A) fully home on flange.
Important
The edge of the starter clutch must be on the side where the flange has the chamfer.
Insert the flange with starter clutch in the flywheel (4) so that the holes are concentric.
Insert rotor (3) on flywheel (4) and apply the indicated threadlocker.
Tighten the screws (2) to a torque of 13 Nm (Min. 11 Nm – Max: 15 Nm), respecting the indicated sequence.
Use engine oil to lubricate the driven gear race as shown in the figure. Fit the driven gear on the starter clutch,
ensuring
it is properly seated.
Note
To help insertion, turn the driven gear in the direction indicated by the green arrow.
Hold the flywheel (1) with one hand and check that the driven gear can rotate freely in the direction of the green
arrow but
not in the direction of the red arrow.
If either of these two conditions is not met, this means that the starter clutch has not been fitted correctly.
Removing the flywheel/generator assembly
Remove any scale and grease from the mating surfaces of the left-hand crankcase half and the generator cover.
Fit the two centring bushes (9).
Spread a continuous uniform bead of DUCATI sealing compound on the cover mating surface, and around the
holes for the screws
and bushes.
Grease the crankshaft and the gearchange lever shaft ends to facilitate installation of the cover and to prevent the
sealing
ring (7) from being damaged, if already installed in the cover.
While positioning the cover on the crankcase half, slightly turn the timing layshaft belt rollers to facilitate insertion
of the pump control shaft.
If necessary, insert a new seal ring as follows:
Fit tool (A) part no. 88713.3394 on the gearbox driving shaft.
Lubricate with the indicated product the oil seal (4) and orient the spring inwards.
Fit the oil seal fully home with tool (B) 88713.3394.
Remove the tools.
If previously removed, install stator (2) on the generator cover by means of the three screws (1).
Apply the indicated threadlocker on screws (1) and tighten them to 10 Nm (Min. 9 – Max. 11).
Loosen screws (1) that retain stator (2), remove the cable ring (3) and stator (2).
The generator cover is fitted with a bearing (4), held in place by the circlip (5), which is located on the end of the
crankshaft.
Remove the circlip (5) with suitable pliers.
Remove the bearing (4) using a universal puller.
Removing the generator cover
Note
This operation is described for an engine removed from the frame since all reassembly procedures are easier with
the engine
on the bench.
Disconnect the generator cable connector from the main wiring (A).
Undo the two retaining screws (1) of cover (2) over the end of the crankshaft and collect the gasket.
Loosen the fastening screws (3), (4) and (5) on the generator cover (6).
Fix service tool no. 88713.1749 to the holes left vacant by the screws (1) you have just removed.
Turn the tool shaft slowly to separate the cover (6) from the LH crankcase half.
There is a sealing ring (10) on the cover in correspondence with the gearchange lever shaft that may be damaged
when removing
the generator cover.
Always check the condition of this sealing ring and replace it if damaged.
Refitting the starter motor
Visually check the gasket (5) for wear and replace it if necessary.
Important
Fill the protection cap with protective grease before fitting it on the starter motor.
Removing the starter motor
Slide out the transmission pin (1) with gear (2) and washer (3).
Warning
Be careful when performing this operation since the washer could fall inside the crankcase halves.
At this point, it is possible to remove the starter motor as described under chapter Starter motor.
Refitting the timing gears
Before reassembling the removed parts, check timing gears for wear. Change, if necessary.
Important
The timing gears must always be replaced as a pair.
When fitting the timing gear (4) align reference (A) to the cover hole (B).
The timing gear (4) should be aligned with the driving gear (1).
This condition is met when the reference on gear (1) is between the two references of the timing gear (4).
To fit the driving gear (1) refer to chapter "Refitting the flywheel/generator assembly".
Note
Check that, in this position, the horizontal cylinder piston is at top dead centre.
On completion of the refitting operations, check that washer (2) is staked against nut (3) in such a way to prevent
the nut
from working loose.
Refit the flywheel/generator assembly and the generator cover (Refitting the flywheel/generator assembly).
Refit the pump-water radiator hose (Refitting cooling system hoses and unions).
Refit the pump-cylinder hoses (Refitting the cylinder/piston assembly).
Refill the cooling system (Changing the coolant).
Refit the front sprocket cover (Refitting the front sprocket cover).
Fill the system with engine oil (Changing the engine oil and filter cartridge).
Refit the belly pan unit (Refitting the belly pan).
Removing the timing gears
After removing the driving gear (1), straighten the washer (2) and loosen nut (3) using a pin to lock the timing
gear (4)
rotation.
Position the knock sensor (14) on the head as shown in the figure and fix it by starting screw (15).
Tighten the screw (15) to a torque of 25 Nm (Min. 22.5 - Max. 27.5).
Make sure that the O-rings (13) are fitted on the crankcase.
Fit the engine sensor (10) in its seat in the crankcase half.
Start the screw (11) with the washer (12) and tighten to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
If the oil breather valve (2) has been disassembled, reassemble it tightening the three screws (18) to a torque of
1Nm±10%.
Check the condition of O-rings (2) and replace if necessary.
Install the oil vapour breather valve (1) in the crankcase along with O-rings (2), previously lubricated.
Tighten screw (1) to a torque of 10 Nm (Min. 9 Nm - Max. 11 Nm).
Position the by-pass spring (5) on the nipple (4) and apply the recommended threadlocker to the end of the nipple
to be screwed
in the crankcase half.
Screw oil filter cartridge fitting (4) fully into the crankcase half, positioning the spring in the seat between the two
notches
(A).
Tighten the nipple to a torque of 42 Nm (Min. 38 Nm - Max. 46 Nm).
Fit the seal (15) on the oil drain plug (16).
Position the seal so that the side with the square edge (B) is facing the chain side crankcase half.
Clean the plug thread, apply a bead of Ducati sealing compound along the plug thread spreading it by the entire
circumference
(360°).
Screw the drain plug (16) with seal (15) to a torque of 6 Nm (Min. 5 Nm - Max. 7 Nm).
Note
After tightening, remove any excessive sealant.
Refit the gearbox neutral position sensor (4) with tool part no. 88713.3407.
Refit the mesh filter (A) (Changing the engine oil and filter cartridge).
Check the condition of the O-rings (17) of the stud bolts (9) and replace them if necessary.
Use tool (C) part no. 88713.1920, to fit the O-rings (17) in the suitable seats (D) of stud bolts (9).
Now fit the stud bolts (9) on the crankcase halves, applying sealant on the thread and tightening to a torque of 30
Nm (Min.
28 Nm - Max. 32 Nm).
Use the appropriate commercial tool for this operation.
If previously removed, apply recommended threadlocker on dowel (18), tighten to a torque of 15 Nm (Min. 13.5
Nm - Max. 16.5
Nm), fit the seal (19) on the service plug (20): the seal must be positioned so that the square
edge faces the clutch-side
crankcase half.
Apply the specified threadlocker on the plug thread (20), insert it in the crankcase half and tighten to a torque of
15 Nm
(Min. 13 Nm - Max. 17 Nm).
Refit the mesh filter (Changing the engine oil and filter cartridge).
Refit the oil pump (Refitting the oil pump).
Refit the clutch unit (Refitting the clutch).
Refit the clutch cover (Refitting the clutch cover).
Refit the starter motor (Refitting the starter motor).
Refit the generator assembly and the generator side cover (Refitting the flywheel/generator assembly).
Refit the complete cylinder/piston assembly (Refitting the cylinder/piston assembly).
Refit the complete cylinder head assembly (Reassembling the cylinder head).
Refit the camshaft assembly (Refitting the camshafts).
Refit the timing system components (Refitting the cylinder head pulleys/fixed tensioners).
Refit the engine in the frame (Refitting the engine).
Removing outer components
Undo the screw (1) and remove the oil breather valve (2) with the O-rings (3) from the engine.
Check the condition of O-rings (3) and replace them if necessary.
Unscrew and remove the oil filter support nipple (4) and remove also by-pass spring (5).
Remove the mesh filter (A) from the clutch-side crankcase half.
Remove the cylinder head stud bolts (9) with the aid of the appropriate tool.
To remove the engine sensor (10), undo the screw (11) and collect the washer (12).
Check the condition of O-rings (13) and replace them if necessary.
If previously removed, apply threadlocker on dowel (14), tighten to a torque of 20 Nm (Min. 18 Nm - Max. 22
Nm).
During this operation, respect the indicated value (A): 1 ± 0.2 mm.
If previously removed, apply recommended threadlocker to the plug (15) and tighten to a torque of 24 Nm (Min.
21 Nm - Max.
27 Nm).
If previously removed, fit the lubrication valves (12).
Install the O-ring (13) in its seat in the crankcase half.
Apply the indicated threadlocker on screw (11).
Tighten screw (11) to a torque of 8 Nm (Min. 7 Nm - Max. 9 Nm).
Repeat the operations described above with the other valve.
Note
The following images show the already assembled crankcase.
Make sure that the two centring bushes (A) are correctly fitted on the crankcase.
Fit the gearbox shafts (7), the gearbox drum (8) and the timing layshaft (10) following the procedure described
below.
Shim the gearbox shafts (7) as described in "Shimming the shafts" and fit them.
Drive the two shafts into seat using a mallet.
Check the shaft movement.
Lubricate the crankshaft (9) with the indicated product in the areas shown in the figure.
Fit the two spacers (B) with the chamfered side facing the crankshaft.
Fit the crankshaft with spacers in the crankcase half bearing.
Position the connecting rods matching the corresponding seats of the cylinders.
Important
Make sure that the connecting rods are correctly positioned in the relevant cylinder seats. Incorrect positioning of
the connecting
rods at this stage will inevitably lead to the need to re-open the crankcase halves.
Fit the O-ring (19) after having lubricated it with the indicated product.
Apply a uniform and continuous bead of DUCATI sealing compound to the mating surfaces of the crankcase halves,
going around
all the holes as shown in the figure.
Install the timing layshaft (2) in the needle roller bearing on the clutch-side crankcase half.
To avoid damaging the sealing ring on the timing layshaft, protect the threaded end of the shaft with the special
protective
cap (D) part no. 88713.3520.
Fit the snap ring (1) in the groove on the shaft and remove the protective cap.
Bring the two crankcase halves together, tapping if necessary with a rubber mallet on the shafts, if necessary.
Fix the two crankcases by means of screws (3), (4), (5) and (6) following the described procedure:
All screws must be lubricated with the specified product.
Position and start the screws (3) and (4) by pre-tightening them to 19 Nm (min. 17 – Max. 21), respecting the
indicated sequence.
Position and start the screws (3) by pre-tightening them to 19 Nm (min. 17 – Max. 21), respecting the indicated
sequence.
Tighten the screws (3) to a torque of 25 Nm (Min. 22 - Max. 28), respecting the indicated sequence.
Tighten the screws (3) and (4) to a torque of 25 Nm (Min. 22 - Max. 28), respecting the indicated sequence.
Tighten screws (5) and (6) to a torque of 10 Nm (Min. 9 – Max. 11), respecting the indicated sequence.
Insert the guide of tool (C) part no. 88700.5685 on the gearbox secondary shaft bearing (7).
Fit the O-ring (20) on the guide with spacer (21) duly lubricated with the indicated product and push the O-ring
into seat.
Remove tool (C).
Refit the mesh filter (Changing the engine oil and filter cartridge).
Refit the oil pump (Refitting the oil pump).
Refit the clutch unit (Refitting the clutch).
Refit the clutch cover (Refitting the clutch cover).
Refit the starter motor (Refitting the starter motor).
Refit the generator assembly and the generator side cover (Refitting the flywheel/generator assembly).
Refit the complete cylinder/piston assembly (Refitting the cylinder/piston assembly).
Refit the camshaft assembly (Refitting the camshafts).
Refit the timing system components (Refitting the cylinder head pulleys/fixed tensioners).
Fit the engine on the frame (Refitting the engine).
Shimming the shafts
Position Clutch side (mm) Chain side (mm)
Gearbox primary shaft (1) — 1.6
Position Clutch side (mm) Chain side (mm)
Gearbox secondary shaft (2) 3.15 —
Gearbox selector drum shims
Position Clutch side (mm) Chain side (mm)
Gear shift drum (3) 1.0 0.9
Reassembling the crankcase halves
To better identify the position of each component, the casing has been divided into four areas:
Note
Bearings do not have a specific mounting position (except main bearings), however it is good practice to install the
bearings
so that the written side is facing inwards.
Insert bearing (14) with the marks facing up. Fit tab (17) in the groove on the crankcase.
Fit the two spacers (16) and the two screws (14) with the indicated threadlocker.
Tighten the screws (2) to a torque of 10 Nm (Min. 9 - Max. 11)
SECONDARY SHAFT BEARING (18)
Apply indicated grease on the bearing needles (18). Fit ring (19) in bearing (18) with the marks facing up.
TIMING LAYSHAFT BEARING (20)
Fit bearing (20) and fix it with snap ring (21).
Clutch side, external part (Side D)
Note
The picture shows the needle roller bearings on the flywheel side but the reference value is the same.
Fit the sealing ring (23).
REMOVAL PROCEDURE
Note
Fit all bearings ensuring that the side with marks faces upwards and is fully home on the bush.
REFITTING PROCEDURE
To refit the bearing (A), insert the roller bearing (1) so that the side with "marks" faces outwards and is fully home
on
the bush (2).
Make sure that groove (B) is fully visible.
Install the snap ring (3) into the groove (B), locking the roller bearing (1) into the bush (2).
Make sure that opening (C) is in a diagonally opposed position of machining (D) of bush (2).
Heat up the crankcase half to a temperature between 95 °C and 110 °C.
Once the desired temperature is reached, drive the bearing assembly (A) fully inside the crankcase half.
Pay attention during this operation that reference (E) that indicates the centre of bush (2) slot is aligned with hole
(F)
of the locking dowel.
To better identify the position of each component, the casing has been divided into four areas:
Undo the two retaining screws (15) and recover spacers (16).
Remove bearing (14) and tab (17).
SECONDARY SHAFT BEARING (18)
Remove the internal ring (19).
Remove the bearing (18).
TIMING LAYSHAFT BEARING (20)
To better identify the position of each component, the casing has been divided into four areas:
Use two screwdrivers to remove the snap ring (1) from the timing layshaft (2) on the clutch-side crankcase half
(Side D).
Warning
Take care to avoid scoring the surface of the shaft while removing the snap ring.
Working on the generator side of the casing (Side A) and the clutch side (Side D) loosen the screws (3), (4), (5)
and (6).
Reuse the generator cover or a service cover with puller part no. 88713.1749 fitted.
Secure cover to crankcase half with some of the original screws and begin separation by turning the central pin of
the tool.
Tap the end of the gearbox secondary shaft with a plastic mallet to separate the crankcase halves.
Note
Take care not to lose the shim washers on the shafts and on the selector drum.
Working on the crankcase half internal side (Side B) remove the gearbox shafts (7) and the gear selection drum
(8) from the crankcase halves as described in section "Removing the gearbox assembly".
Drive out the crankshaft (9) using a plastic mallet, taking care not to lose the snap ring.
Remove the timing layshaft (10).
Loosen screw (11), remove the lubrication valve (12) and collect the O-ring (13).
Refitting the connecting rod assembly
Install the connecting rod assembly in the crankcase half, carry out the shimming and crankcase half reassembly
procedure
as described in section "Closing the crankcase".
Important
Make sure that the connecting rods are correctly positioned in the relevant cylinder seats. Incorrect positioning of
the connecting
rods at this stage will inevitably lead to the need to re-open the crankcase halves.
Before coupling the crankshaft with the con-rods, check the conditions of the crankshaft (Overhauling the connecting
rod assembly), thoroughly clean the crank pin (7) and lubricate it with the indicated product.
Before installing the bearing in the con-rod it is necessary to check the crankshaft and con-rod classes.
There are two classes:
(A) according to the con-rod and crankshaft weight;
(B) according to the geometric tolerances.
Connecting rod
Crankshaft
Bearings
Each class corresponds to a certain colour on the bearings highlighted on the edge (as shown in the figure).
Connecting rod class Crankshaft class Bearings colour
A A YELLOW/BLUE
A B YELLOW/YELLOW
B A BLUE/BLUE
B B YELLOW/BLUE
Con-rod weight class Crankshaft weight class Weight
After checking and choosing the bearing type (2) lubricate it with the indicated product and insert it in con-rod (3).
While inserting it, pay attention that shell tooth (C) matches with seat (D) of the con-rod shank and the other shell
with
seat (F) of the con-rod cap.
Check that the centring dowels (E) are present.
Fit the connecting rods on the crankshaft, in the same position in which they were removed.
Insert the connecting rods in the crankshaft, so that the centring pins (E) face the internal side of the crankshaft.
Join the connecting rod cap with the corresponding connecting rod shank, ensuring that the progressive number
stamped on the
two pieces is the same, as shown in the figure.
Important
Check that the progressive numbers of a connecting rod are consistent with the selection of the other connecting
rod.
Fill the recommended grease into the two ends of the hole to lubricate threads and underside of the new screws
(4) and the
thread of the shaft.
Warning
The grease utilised is irritant in contact with the skin; wear protective gloves.
Important
Lubrication of con-rod bolts is essential to obtain the correct coupling and to prevent breakage of the parts.
Following are the overhaul operations that can be performed on the connecting rod assembly:
The clearance between gudgeon pin (1) and con-rod (2) must be within the following range: 0.035 ÷ 0.049 mm.
If the gudgeon pin is conforming, replace bushing (3) of the con-rod small end.
To remove the worn bush, use a suitable punch and a press.
When installing the new bushing (3) align its concentric holes with the holes of the con-rod (2).
Check for parallelism error measured at 100 mm from the connecting rod longitudinal axis: it must be H-h lower
than 0.02 mm;
change the con-rod if it is not so.
3) Checking the con-rod big end bearings
Check that the con-rod big end bearings are free from burrs or evident signs of machining.
The connecting rod is supplied in two size classes A and B relative to the big end diameter as punch marked on the
side of
the cap and two weight classes 1 and 2.
Connecting rod class Crankshaft class Bearings colour
A A YELLOW/BLUE
A B YELLOW/YELLOW
B A BLUE/BLUE
B B YELLOW/BLUE
For their replacement, refer to chapter "Reassembling the connecting rod assembly".
The main bearing and big end journals should not be scored or grooved; the threads, keyways, and slots must be
in good condition.
Check for fretting or burrs in the fillet between journal and shoulder.
Fillet radius: 3mm.
Use a micrometer to measure oval and taper of the crank pin. Measure oval and taper in several different
directions.
Use a dial gauge to measure the alignment of the main journals by positioning the crankshaft between two
centres.
Loosen all crankshaft plugs (4) and (5), heating the crankshaft, if necessary, to remove the sealant applied at the
time of
assembly.
Clean all the oilways using suitable diameter metal brushes and then blow with compressed air to remove any
residues that
have accumulated and are restricting the oil flow.
Apply recommended threadlocker to the threads of plugs (4) and (5), and refit them.
Tighten all plugs to a torque of 13 Nm (Min. 11 Nm - Max. 15 Nm).
Loosen the screws (1) and separate the connecting rods from the crankshaft.
Important
Take care not to mix up components of different connecting rods and maintain the original orientation.
Removing the connecting rod assembly