T318 TECHNICAL MANUAL

Release 3.00 (22/06/2020)

1 General Information .................................................................................................................................. 7
1.1 Releases ............................................................................................................................................. 7
1.1.1 Release list ................................................................................................................................. 7
1.2 Technical Contacts ............................................................................................................................. 8
1.2.1 Chassis ....................................................................................................................................... 8
1.2.2 Engine ........................................................................................................................................ 8
1.2.3 Gearbox ..................................................................................................................................... 9
1.2.4 Electronic ................................................................................................................................... 9
1.2.5 Tires ........................................................................................................................................... 9
1.2.6 Brakes ...................................................................................................................................... 10
1.2.7 Dampers................................................................................................................................... 10
1.2.8 Seat belts – Fire Extinguisher .................................................................................................. 10
1.3 General Agreement and Warranty .................................................................................................. 11
1.4 Overview .......................................................................................................................................... 12
1.5 General information ........................................................................................................................ 13
1.6 Mileage chart ................................................................................................................................... 15
2 Safety ....................................................................................................................................................... 18
2.1 Survival Cell...................................................................................................................................... 18
2.2 Extractable Seat ............................................................................................................................... 19
2.3 Driver Padding ................................................................................................................................. 20
2.4 Seat Belts ......................................................................................................................................... 20
2.5 Front Impact Structure .................................................................................................................... 21
2.5.1 Retention system adjustment ................................................................................................. 21
2.5.2 Front nose repair specification and procedure ....................................................................... 22
2.5.2.1 Applicable requirements ..................................................................................................... 22
2.5.2.2 Replacement procedure ...................................................................................................... 22
2.6 Rear Impact Structure ..................................................................................................................... 24
2.7 Side Impact Structure ...................................................................................................................... 24
2.8 Halo.................................................................................................................................................. 25
2.8.1 Installation procedure ............................................................................................................. 25
2.8.2 Disassembly procedure ........................................................................................................... 34
2.9 Steering Column .............................................................................................................................. 37
2.10 Wheel Tethers ................................................................................................................................. 37
2.11 Rear Crashbox Tethers..................................................................................................................... 37
2.12 Fire Extinguisher .............................................................................................................................. 38
2.13 Fuel Cell ........................................................................................................................................... 40
2.14 Rain Light ......................................................................................................................................... 40

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 2.14.1 Rain Light modes ..................................................................................................................... 40
2.15 Clutch Disengagement..................................................................................................................... 41
2.16 FIA Throttle Fail Safe........................................................................................................................ 41
3 Chassis ..................................................................................................................................................... 42
3.1 Workshop Tools ............................................................................................................................... 42
3.1.1 Front Jacking ............................................................................................................................ 42
3.1.2 Rear Jacking ............................................................................................................................. 43
3.2 Setup Tools ...................................................................................................................................... 44
3.2.1 Front references ...................................................................................................................... 44
3.2.2 Rear references ....................................................................................................................... 45
3.2.3 Wheel hub ............................................................................................................................... 46
3.3 Standard Set-up ............................................................................................................................... 47
3.3.1 Road Course Set-Up ................................................................................................................. 47
3.4 Weight and ballast ........................................................................................................................... 48
3.5 Controls and Display ........................................................................................................................ 52
3.5.1 Cockpit Controls ...................................................................................................................... 52
3.5.2 Steering Wheel Controls .......................................................................................................... 53
3.5.3 Steering Wheel Display ............................................................................................................ 54
3.5.3.1 Page #1: Driver page ............................................................................................................ 55
3.5.3.2 Page #2: Setting page .......................................................................................................... 56
3.5.3.3 Page #3: Logger page ........................................................................................................... 58
3.5.3.4 Page #4: Electric Power Distribution ................................................................................... 59
3.5.3.5 Page #5: Engine warmup ..................................................................................................... 60
3.5.3.6 Page #6: Gearbox page ........................................................................................................ 61
3.6 Driver installation ............................................................................................................................ 62
3.6.1 Steering Wheel Position .......................................................................................................... 62
3.6.2 Pedals....................................................................................................................................... 63
3.6.2.1 Brake pedal .......................................................................................................................... 64
3.6.2.2 Throttle pedal ...................................................................................................................... 65
3.6.2.3 Clutch pedal ......................................................................................................................... 66
3.6.2.4 Heel rest............................................................................................................................... 67
3.6.3 Brake Bias ................................................................................................................................ 68
4 Aerodynamic............................................................................................................................................ 69
4.1 General Notes .................................................................................................................................. 69
4.2 Front Wing Setting ........................................................................................................................... 70
4.3 Rear Wing Setting ............................................................................................................................ 71
4.4 Aerodynamic Reference Setup ........................................................................................................ 72
4.5 Ride Height Sensitivity ..................................................................................................................... 73

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 4.6 Wing Sensitivity ............................................................................................................................... 76
4.6.1 Wing Sensitivity, both the front flaps on, without gurney flap installed ................................ 77
4.6.2 Wing Sensitivity, both the front flaps on, with gurney flap (190mmx15mm) installed .......... 79
4.6.3 Wing Sensitivity, only lower front flaps on, without gurney flap installed ............................. 81
4.6.4 Wing Sensitivity, only lower front flaps on, with gurney flap (250mmx15mm) installed ....... 83
4.7 Diffuser ............................................................................................................................................ 85
5 Suspensions ............................................................................................................................................. 86
5.1 Measurement standard ................................................................................................................... 86
5.2 Geometry Adjustments ................................................................................................................... 87
5.2.1 Ride height adjustment ........................................................................................................... 87
5.2.2 Camber adjustment ................................................................................................................. 88
5.2.3 Toe adjustment........................................................................................................................ 88
5.2.4 Caster adjustment ................................................................................................................... 89
5.2.5 UMP adjustment...................................................................................................................... 90
5.3 Vertical stiffness .............................................................................................................................. 91
5.3.1 Front vertical stiffness ............................................................................................................. 91
5.3.2 Rear vertical stiffness .............................................................................................................. 91
5.4 Dampers .......................................................................................................................................... 92
5.5 Rolling stiffness ................................................................................................................................ 94
5.5.1 Front roll stiffness .................................................................................................................... 94
5.5.2 Rear roll stiffness ..................................................................................................................... 94
5.6 Suspension Geometry...................................................................................................................... 95
5.6.1 Front suspension geometry ..................................................................................................... 95
5.6.2 Rear suspension geometry ...................................................................................................... 96
5.6.2.1 Anti-effects .......................................................................................................................... 98
5.6.2.1.1 Front .............................................................................................................................. 98
5.6.2.1.2 Rear................................................................................................................................ 99
5.7 Suspension maintenance ............................................................................................................... 100
5.7.1 Upright Maintenance............................................................................................................. 100
5.7.2 Upright Disassembly .............................................................................................................. 101
5.7.3 Upright Assembly................................................................................................................... 105
6 Steering.................................................................................................................................................. 107
6.1 Steering Geometry ........................................................................................................................ 107
6.1.1 Standard ratio: 8 teeth pinion ............................................................................................... 107
6.1.2 Option ratio: 7 teeth pinion................................................................................................... 107
6.2 Steering maintenance.................................................................................................................... 108
7 Wheels and Tires ................................................................................................................................... 109
7.1 Wheels ........................................................................................................................................... 109

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 7.2 Tires ............................................................................................................................................... 110
7.2.1 Giti Tires ................................................................................................................................. 110
7.2.2 Pirelli ...................................................................................................................................... 111
7.2.2.1 Static measurements ......................................................................................................... 111
7.2.2.2 Dynamic measurements .................................................................................................... 112
7.2.2.3 Operating instructions ....................................................................................................... 112
7.2.2.4 Technical Limitations – F3 Regional................................................................................... 113
7.2.2.5 Static measurements ......................................................................................................... 113
7.2.2.6 Dynamic measurements 230/570-13x10.0J SLICK @ 1.4bar (20.5psi), CA 0.0° ................ 114
7.2.2.7 Static Radial Deflection 230/570-13x10.0J @ CA 0.0° SLICK ............................................. 115
7.2.2.8 Static Radial Deflection 230/570-13x10.0J @ CA 3.0° SLICK ............................................. 117
7.2.2.9 Dynamic measurements 300/590-13x12.0J SLICK @ 1.4bar (20.5psi), CA 0.0° ................ 119
7.2.2.10 Static Radial Deflection 300/590-13x12.0J @ CA 0.0° SLICK ......................................... 120
7.2.2.11 Static Radial Deflection 300/590-13x12.0J @ CA 3.0° SLICK ......................................... 122
7.2.3 Hankook ................................................................................................................................. 124
7.2.3.1 Tyre Characteristics (Static measurement) ....................................................................... 126
7.2.3.1.1 Dimension.................................................................................................................... 126
7.2.3.1.2 Static Radial Deflection (Kv) ........................................................................................ 127
7.2.3.2 Tyre Characteristics (Dynamic Measurement) .................................................................. 131
7.2.3.2.1 Dynamic measurements 230/560R13 F200(10J) Slick @ 1.5Bar, CA 0.0° ................... 131
7.2.3.2.2 Dynamic measurements 280/580R13 F200(12J) Slick @ 1.5Bar, CA 0.0° ................... 132
7.2.3.2.3 Dynamic measurements 230/560R13 Z217(10J) Rain @ 1.5Bar, CA 0.0° ................... 133
7.2.3.2.4 Dynamic measurements 230/560R13 Z217(10J) Rain @ 1.5Bar, CA 0.0° ................... 134
7.2.3.2.5 Dynamic measurements 280/580R13 Z217(12J) Rain @ 1.5Bar, CA 0.0° ................... 135
7.2.3.3 Operating Temperature..................................................................................................... 136
7.2.3.4 Tyre Care Information (Technical Limitations) .................................................................. 137
8 Brake system ......................................................................................................................................... 140
8.1 Technical notes .............................................................................................................................. 140
8.1.1 Balance bar ............................................................................................................................ 140
8.2 Brake system Setup ....................................................................................................................... 140
8.3 Brake system Bedding-in ............................................................................................................... 141
9 Cooling System ...................................................................................................................................... 142
10 Fuel system ........................................................................................................................................ 142
10.1 Fuel Tank........................................................................................................................................ 142
10.2 Fuel drain procedure ..................................................................................................................... 142
10.3 Fuel coupling.................................................................................................................................. 142
10.4 Fuel machine options .................................................................................................................... 143
11 Oil System .......................................................................................................................................... 144

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 11.1 Alfa Romeo Oil tank ....................................................................................................................... 144
11.2 Renault Oil tank ............................................................................................................................. 145
11.3 Toyota Oil tank .............................................................................................................................. 146
12 Electric system ................................................................................................................................... 147
12.1 Overview ........................................................................................................................................ 147
12.2 Main switch ................................................................................................................................... 148
12.3 Battery and Alternator .................................................................................................................. 149
12.3.1 Battery installation ................................................................................................................ 149
12.3.2 Jump battery .......................................................................................................................... 149
12.4 Powerbox ....................................................................................................................................... 150
12.4.1 Alfa Romeo configuration ...................................................................................................... 150
12.4.2 Renault configuration ............................................................................................................ 151
12.4.3 Toyota configuration ............................................................................................................. 151
12.5 Wiring loom ................................................................................................................................... 152
12.5.1 Radio plug .............................................................................................................................. 152
12.6 Sensors........................................................................................................................................... 153
12.7 Vref list........................................................................................................................................... 154
12.7.1 Alfa Romeo configuration VREF list ........................................................................................ 154
12.7.2 Renault configuration VREF list .............................................................................................. 154
13 Engine ................................................................................................................................................ 155
14 Transmission ...................................................................................................................................... 156
14.1 Ratio Chart ..................................................................................................................................... 156
14.1.1 Gear option 01 ....................................................................................................................... 157
14.1.2 Gear Option ........................................................................................................................... 158
14.2 Differential ..................................................................................................................................... 159
14.3 Lubrication ..................................................................................................................................... 160
14.4 Particular precautions ................................................................................................................... 160
14.5 Storage and use ............................................................................................................................. 160
14.5.1 Washing under pressure........................................................................................................ 160
14.6 Glue components .......................................................................................................................... 161
14.7 Special tools ................................................................................................................................... 161
14.8 Gear maintenance ......................................................................................................................... 162
14.8.1 Removal ................................................................................................................................. 162
14.8.2 Refitting ................................................................................................................................. 164
14.8.3 Selector fork adjustment ....................................................................................................... 165
14.9 Differential ..................................................................................................................................... 167
14.9.1 Removal ................................................................................................................................. 167
14.9.2 Dismantling the differential elements ................................................................................... 167

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 14.9.3 Refitting the differential elements ........................................................................................ 167
14.10 Crown-wheel replacement ........................................................................................................ 168
14.10.1 Secondary shaft ................................................................................................................. 168
14.10.2 Crown................................................................................................................................. 174
14.11 Exploded views .......................................................................................................................... 178
14.11.1 Layshaft.............................................................................................................................. 178
14.11.2 Mainshaft........................................................................................................................... 179
14.11.3 Barrel and forks ................................................................................................................. 180
14.11.4 Differential ......................................................................................................................... 181
14.11.5 Main case ........................................................................................................................... 182
14.11.6 Selection and reverse ........................................................................................................ 183
14.11.7 Oil pump ............................................................................................................................ 184
14.12 Rebuilding of the gearbox ......................................................................................................... 185
14.12.1 Sadev workshop rebuilding. .............................................................................................. 185
14.12.2 Private revision .................................................................................................................. 185
15 Shift system ....................................................................................................................................... 186
15.1 System Overview ........................................................................................................................... 186
15.1.1 Gearshift control.................................................................................................................... 186
15.1.2 ESA resting position ............................................................................................................... 187
15.1.3 ESA maintenance ................................................................................................................... 188
16 Electronic & Software ........................................................................................................................ 189
16.1 Electronic ....................................................................................................................................... 189
17 Annexes ............................................................................................................................................. 190
17.1 Tightening torque .......................................................................................................................... 190

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1 GENERAL INFORMATION

1.1 RELEASES
Modifications from previous release are in purple.

1.1.1 Release list

Version Release Date Author Notes

0.02 20/06/2018 Tatuus Startup version

1.00 03/07/2018 Tatuus First release

1.01 04/07/2018 Tatuus Minor updates

1.10 10/10/2018 Tatuus Gearbox maintenance

1.20 12/12/2018 Tatuus Halo installation, Aeromaps, Kinematic data, Gearbox torques

2.00 21/01/2019 Tatuus Engine options added

2.01 24/01/2019 Tatuus Pickup updates

2.10 10/02/2019 Tatuus Front/Rear suspensions update (UMP/anti-effects)

Differential info
2.20 01/03/2019 Tatuus Radio plug
Pirelli Data Booklet
Brake system info
2.30 05/04/2019 Tatuus Fuel machine option
Sensors
Mileage Chart update
Aerodynamic chapter update
Hankook Data Booklet
ESA chapter update
3.00 22/06/2020 Tatuus
FIA Throttle Fail Safe
Brake Bedding-in procedure
VREF list
Minor updates

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1.2 TECHNICAL CONTACTS
1.2.1 Chassis

Tatuus Racing SpA

Via G. Verga, 12
20863 Concorezzo (MB) - Italy
Tel: +39 039 6040828
Fax: +39 039 6041764
Web: www.tatuus.it

1.2.2 Engine

AUTOTECNICA ORECA
Via A. Bernardi, 3 Technopole du Circuit
26041 Casalmaggiore (CR) - Italy 58470 Magny-Cours
Contact: Giovanni Delfino France
Tel. +39 0375 40174 +33 (0) 3 86 21 08 00
Fax. +39 0375 40174 + 33 (0) 3 86 21 08 02

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1.2.3 Gearbox

SADEV
6 rue Grand’Montains
85110 Saint Prouant
Tel: +33 2 51 66 42 68
Fax: +332 51 66 49 60
@ : sadev@sadev-tm.com
Web: www.sadev-tm.com

1.2.4 Electronic

1.2.5 Tires

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1.2.6 Brakes

1.2.7 Dampers

1.2.8 Seat belts – Fire Extinguisher

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1.3 GENERAL AGREEMENT AND WARRANTY

Tatuus is proud of the quality, success and reputation of their products and is delighted that you have chosen
to use the T318 chassis.
The design of each chassis is the subject of much research and development, technical analysis and detailed
testing. However, as with all motorsport products, it is vital that they are correctly maintained and adjusted
for each individual circumstance. This manual is intended to ensure that you obtain the maximum perfor-
mance and reliability from this chassis.
We would stress that after each event or prolonged period of running (suggested to be 5’000km) the chassis
should be carefully inspected and stripped as appropriate.
This manual contains mileage recommendations for critical components detailed in section 1.6. If in doubt
please contact our Commercial Department who will advise you or, if necessary, put you in contact with one
of our engineers.

It is important to ensure that all adjustments and tolerances are as specified. The use of parts not supplied
by Tatuus will automatically invalidate any warranty or other liability which would normally be assumed by
Tatuus.

Your attention is drawn in particular to the following statement:

‘Goods intended for motorsport or any related application, or for product development, evaluation or exper-
imentation are supplied subject to the Customer recognizing that such goods may operate under extreme
loads and conditions and that it is the Customer’s responsibility to ensure that the goods are correctly in-
spected, adjusted and maintained at all times to suit the specific conditions in which they may be used.’

‘Lightweight and weight optimized components are supplied subject to warranty only against manufacturing
defects. It is possible that in certain conditions operating life may be reduced. Similarly, prototype, experi-
mental or components manufactured to the Customer’s design are supplied subject to warranty only against
manufacturing defects.

Furthermore, such components, by their very nature, are not warranted as to their suitability for use or per-
formance.’

‘Tatuus shall have no liability to the Customer (other than liability for death or personal injury resulting from
Tatuus’ negligence) for any loss or damage of any nature arising from any breach of any expressed or implied
warranty, term or condition of the contract or from any negligence or breach of statutory or other duty on
the part of Tatuus in connection with the performance or purported performance of or failure to perform
the contract other than as set out in this Condition. In no circumstances shall Tatuus be liable for any claims
for indirect or consequential injury or damage (including loss of profits) arising from any such matters.’

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1.4 OVERVIEW
FRONT TRACK 1575 mm
REAR TRACK 1530 mm
WHEELBASE 2900 mm
OVERALL LENGTH 4855 Max mm
OVERALL WIDTH 1850 Max mm
OVERALL HEIGHT 950 mm (from reference plane)

Composite Carbon fiber sandwich with Al/Nomex honeycomb,

CHASSIS
FIA F3/2019 (Ann.J Art.273) homologated
BODYWORK Carbon fiber
FRONT SUSPENSION Push-rod / twin damper / spring
REAR SUSPENSION Push-rod / twin damper / spring
SPRINGS Eibach 36mm
DAMPERS Koni
BRAKES Brembo
Giti
TIRES Hankook
Pirelli
WHEELS OZ Racing
Autotecnica Motori
ENGINE Renault Sport Oreca
Toyota
EXHAUST Aros
ELECTRONICS Magneti Marelli / Next Solution / Motec
GEARBOX SADEV SLR82
GEARSHIFT Magneti Marelli ESA
STEERING WHEEL Tatuus / Next Solution
BATTERY DEKA
FUEL CELL PREMIER FT5
SEAT BELTS Sabelt
FIRE EXTINGUISHER OMP

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1.5 GENERAL INFORMATION

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1.6 MILEAGE CHART

The following chart should be used to ensure that component life is not exceeded and premature failures are
prevented by regular inspection. Check and replace in accordance with the recommended distances below.
Mark all parts for mileage tracing purposes and note in build records.
All parts not included in the list require inspection after 20,000km. Visual inspection should identify any parts
with cracks, scratches, significant wear or corrosion.

NOTES: The table below is provided for guidance on the expected life of key components based on Tatuus’
experience of this product in similar applications, however no warranty is implied by figures stated above
and mileage targets are no substitute for testing and regular inspection of the chassis. Check all components
after any accident or abnormal usage. In doubt, replace the components.

For safety reasons, please contact immediately Tatuus if you discover premature wear or problems.

Many of the components stated above with a maximum 'typical' life of 20’000km may be found to perform
successfully for extended mileage however extended running above 20’000km is done at customer's risk.

Inspection [km] Limit [km]

Chassis
Survival cell 10’000 20’000
Front crashbox 10’000 20’000
Rear crashbox 10’000 20’000
Wheel tethers 12 months
Rear Crashbox tether 12 months
Nosebox studs 2’500 5’000
Engine studs 5’000 10’000
Floor stays 2’500 5’000
Brake pedal 2’500 5’000
Throttle pedal 5’000 10’000
Front suspension
Upright 5’000 10’000
Wheel bearing 5’000 10’000
Hubs 10’000 20’000
Hub bolts 2’500 5’000
Wheel spindle 5’000 10’000
Drive pegs 2’500 5’000
Wishbones 5’000 10’000
Push-rods 5’000 10’000
Suspension bracket 5’000 10’000
Front ackermann 2’500 5’000
Front anti-roll bar 2’500 5’000
Rocker assy 5’000 10’000

Steering
Steering/toe arms 5’000 10’000

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 Inspection [km] Limit [km]
Steering column 5’000 10’000
Steering rack 5’000 10’000
Rack/pinion 5’000 10’000
Ball joint 1’250 5’000
Rear suspension
Upright 5’000 10’000
Wheel bearing 5’000 10’000
Outer hub 10’000 20’000
Inner hub 5’000 10’000
Hub bolts 2’500 5’000
Wheel spindle 5’000 10’000
Drive pegs 2’500 5’000
Wishbones 5’000 10’000
Push-rods 5’000 10’000
Suspension bracket 10’000 20’000
Bottom forward bracket 5’000 10’000
Rear upright bracket 5’000 10’000
Rear anti-roll bar 2’500 5’000
Rocker assembly 5’000 10’000

Front Wing
Front wing 5’000 15’000
Front pillars 5’000 15’000
Rear wing
Front wing 5’000 15’000
Front pillars 5’000 10’000
Front endplates 5’000 15’000
Transmission
Wheel shaft 5’000 10’000
Slave cylinder (sealings) 5’000 10’000
Release bearing 5’000 10’000
Gearbox
Gearbox internals see SADEV
ESA 5’000 10’000
ESA rubber mounting 1’000 3’000
Brake system
Brake pedal 2’500 5’000
Brake balance bar 2’500 5’000
Master cylinders 5’000 10’000
Calipers 5’000 20’000
Disc bells 5’000 10’000
Brake discs 1’000 2’000
Oil lines 5’000 10’000
Cooling system

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 Inspection [km] Limit [km]
Radiators 5’000 10’000
Water tank cap 2’500 5’000
Pipelines 10’000 20’000
Exhaust
Tail pipe 3’000 6’000
Catalytic 2’500 5’000
Electrical system
Battery 5’000 10’000
Switch panel 5’000 10’000
Master switch 5’000 10’000
Marshall switches 5’000 10’000
Chassis loom 10’000 20’000
Gearbox loom 10’000 20’000
Powerbox 10’000 20’000
Steering wheel 5’000 10’000
GCU 10’000 20’000
Extinguisher system
Extinguisher bottle see expire date
Extinguisher mountings 5’000 10’000
Extinguisher pipelines 10’000 20’000
Extinguisher CU 5’000 10’000
Engine lubrication system
Oil lines 10’000 20’000
Tank filter cartridge 5’000 10’000
Fuel system
Fuel tank see expire date
Fuel pump 5’000 10’000
Fuel filter 2’500 5’000
Fuel hoses 10’000 20’000

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2 SAFETY
This chapter enlist the Homologated Safety Devices, these parts cannot be modified or repaired without the
approval of Tatuus.

2.1 SURVIVAL CELL

The survival cell is the main safety and structural component of the car and it has been approved by the FIA,
great attention must be paid in checking for structural failure not later than two years after delivery from
Tatuus factory, and after each major accident. Chassis must be checked and repaired by a center authorized
by Tatuus.

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2.2 EXTRACTABLE SEAT
The seat must be removable without the need to cut any of the seat belts or remove the harness buckle.

The shoulder and lap belts must fall away over the seat edges as it is withdrawn and the crotch straps must
pass freely through the seat bottom hole or holes, which must be located in front of the driver's crotch.

Any seat liner must have the same holes as the seat shell, identical and perfectly aligned with them in order
to prevent the harness straps being trapped.
However, if the lap straps have to pass through holes in the seat, it is necessary to fit the car with a harness
having the buckle attached to a shoulder belt, given that the buckle will not pass between the driver's body
and the side of the seat.

Any seat made from foam must be covered with a non-flammable and non-combustible material.

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2.3 DRIVER PADDING
As per FIA regulation:

Rear area of headrest padding [14.6.2]

If necessary, and only for driver comfort, an additional piece of padding no greater than
10mm thick may be attached to this headrest provided it is made from the same material.

Side areas of headrest padding [14.6.3]

If necessary, and only for driver comfort, an additional piece of padding no greater than
20mm thick may be attached to this headrest provided it is made from the same material
which incorporates a low friction surface.

Leg padding [14.6.5]

The leg padding must cover the area […] 100mm behind the face of the rearmost pedal when
in the inoperative position.

Teams are therefore allowed to cut the padding according to driver installation.

2.4 SEAT BELTS

The straps must be securely fixed to the car and must comply with FIA standard 8853-2016.

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2.5 FRONT IMPACT STRUCTURE
The front impact is one of the major safety and structural component of the car and it has been approved by
the FIA, great attention must be paid in checking for structural failure not later than two years after delivery
from Tatuus factory, and after each major accident. The structure must be checked and repaired by a center
authorized by Tatuus.

2.5.1 Retention system adjustment

The retaining pins of the front impact structure must be properly set to ensure the correct installation.

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2.5.2 Front nose repair specification and procedure

2.5.2.1 Applicable requirements

The following procedure is applicable only when the damage is contained in the first 100mm from the nose
tip (715mm from the chassis bulkhead), all the other damages must be inspected by the manufacturer.

2.5.2.2 Replacement procedure

Spare nose tip is available as spare part, the reference code is 2401032

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 1. Trace a line parallel to the chassis bulkhead 700 mm from the bulkhead, you should find the line 15
mm from the old nose tip junction.
2. Cut off the nose tip forward the traced line.
3. Using sandpaper on the outer surface, reduce the thickness of the crashbox by about 1mm for a
length of 15-25 mm (red area).

4. Attention must be paid to sandpaper the outer surface; at the depth of 1 mm you should find the
resin between first and second ply.
5. Use sandpaper on the new nose tip inner surface to produce a rough surface that will match the
outer surface of the crashbox.
6. Spread specific resin 3M 9323 over the junction surface, carefully respect the percentage between
resin and catalyst:
7. 3M 9323 Mixing specification:

Resin Catalyst
Weight ratio 100 g 27 g
Volume ratio 100 g 31 g

8. Position the new nose tip cleaning the excess of resin; new nose tip can be hold in position with high
temperature tape.
9. Cure the assembly on the oven following the specific temperature cycle for 3M 9323: 2 hours at 60°C.

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2.6 REAR IMPACT STRUCTURE
The rear impact is one of the major safety and structural component of the car and it has been approved by
the FIA, great attention must be paid in checking for structural failure not later than two years after delivery
from Tatuus factory, and after each major accident. The structure must be checked and repaired by a center
authorized by Tatuus.

2.7 SIDE IMPACT STRUCTURE

The side impact is one of the major safety and structural component of the car and it has been approved by
the FIA, great attention must be paid in checking for structural failure not later than two years after delivery
from Tatuus factory, and after each major accident. The structure must be checked and repaired by a center
authorized by Tatuus.

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2.8 HALO
2.8.1 Installation procedure

General notes:

grey arrow: unscrew/screw but not tighten

green arrow: screw and tighten

When installing the HALO apply on the bolts some water and oxidation resistant grease. As example the
PETRONAS TUTELA Z2 grease is suitable for this purpose.

1. Insert the front fairing (24-01-043) on the HALO center bar

2. Install the front bracket on the HALO (24-01-010)

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 3. Fasten the HALO front fixing screw (24-01-017) and pin (24-01-016). Do not apply any tightening
torque.

24-01-016

24-01-017

4. Please note that the HALO front fixing screw (24-01-017) shall be on the left side and the HALO front
fixing pin (24-01-016) shall be on the right side.
5. Do not apply any tightening torque. Screw the HALO front fixing screw (24-01-017) until the screw’s
under-head gets in contact with the plane of the counterbore on the front bracket. At this point do
not apply any tightening torque but loose the HALO front fixing screw (24-01-017) one turn (coun-
terclockwise).

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 6. Place the assembly obtained at point 3 on the chassis.

7. Fasten the two shoulder bolts (24-01-033). Do not apply any tightening torque. Screw the bolts until
the screw’s underhead gets in contact with the plane of the counterbore on the HALO foot. At this
point do not apply any tightening torque but loose the bolt one turn (counterclockwise)

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 8. Fasten the two M12X55 bolts. Do not apply any tightening torque. Screw the bolts until the screw’s
underhead gets in contact with the plane of the counterbore on the HALO foot. At this point do not
apply any tightening torque but loose the bolt one turn (counterclockwise)

9. Fasten the two M12X30 bolts. Do not apply any tightening torque. Screw the bolts until the screw’s
underhead gets in contact with the plane of the counterbore on the HALO foot. At this point do not
apply any tightening torque but loose the bolt one turn (counterclockwise)

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 10. Fasten the four MS21250-08-08 bolts. Do not apply any tightening torque. Screw the bolts until the
screw’s underhead gets in contact with the plane of the counterbore on the front bracket. At this
point do not apply any tightening torque but loose the bolt one turn (counterclockwise)

11. Tighten the two shoulder bolts 24-01-033. Do not tighten to target value one bolt first and then the
other. Apply the tightening torque gradually, keeping the balance on the two bolts. Target value is
51Nm

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 12. Tighten the two M12X55 bolts. Do not tighten to target value one bolt first and then the other.
Apply the tightening torque gradually, keeping the balance on the two bolts. Target value is 51Nm

13. Tighten the two M12X30 bolts. Do not tighten to target value one bolt first and then the other.
Apply the tightening torque gradually, keeping the balance on the two bolts. Target value is 51Nm

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 14. Tighten the four MS21250-08-08 bolts. Do not tighten to target value one bolt first and then the
other. Apply the tightening torque gradually, keeping the balance on the four bolts. Target value is
51Nm

15. Double check the tightening torque on each bolt starting from the two shoulder bolts, then on the
M12 bolts and finally on the MS21250-08-08

16. Tighten the HALO front fixing screw (24-01-017)

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 17. Position the front fairing (24-01-043), and fix it with two button head bolts (UNI7380-TX-M5X10)

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2.8.2 Disassembly procedure

1. Lift the front fairing

2. Unscrew and remove the four MS21250-08-08 bolts. Do not unscrew one bolt first and then the
other. Loose the bolts gradually, keeping the balance on the four bolts

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 3. Unscrew and remove the M12X30 bolts. Do not unscrew one bolt first and then the other. Loose
the bolts gradually, keeping the balance on the two bolts

4. Unscrew and remove the M12X55 bolts. Do not unscrew one bolt first and then the other. Loose
the bolts gradually, keeping the balance on the two bolts

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 5. Unscrew and remove the two shoulder bolts (24-01-033). Do not unscrew one bolt first and then
the other. Loose the bolts gradually, keeping the balance on the two bolts

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2.9 STEERING COLUMN
The steering column has an integrated collapsible section ① to absorb impact energy. Extreme attention must
be paid on this part to avoid any damage or overload.

IMPORTANT: in case of impact the aluminum crashbox must be replaced and column carefully inspected.

2.10 WHEEL TETHERS

Cortex 6kJ (FIA 8864-2013 standard)

It is recommended to replace wheel tethers if:

• The cable has been on the car for more than 12 months
• Accident
• The cable has been damaged, i.e. the braid or tape have been damaged exposing the fiber
• The cable has been over-tensioned

2.11 REAR CRASHBOX TETHERS

Cortex 3kJ (FIA 8864-2013 standard)

It is recommended to replace wheel tethers if:

• The cable has been on the car for more than 12 months
• Accident
• The cable has been damaged, i.e. the braid or tape have been damaged exposing the fiber
• The cable has been over-tensioned

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2.12 FIRE EXTINGUISHER
Before every race, replace the battery in the electrical control. If the battery is dead, the system will not
activate.
Before every race, make sure that the needle on the bottle gauge is in the green zone. When the bottle gauge
needle is outside the green zone, the extinguishing system is drained and must be charged.

When the control box lever switch is in the OFF position, the extinguishing system is disabled. Check that the
switch is in the ON position before using the vehicle.
When the switch is set to ON the green LED ④ on the cockpit panel will turn ON.

Before connecting the control unit to the bottle, use a multimeter to check that:
• whit the lever switch on the control unit in the OFF position, when either of the activation buttons is
pressed the potential difference between the ends of the wires is about 7 - 8V
• with the lever switch on the control unit in the ON position, when either of the activation buttons is
pressed the potential difference between the ends of the wires is about 9V when neither of the activation
buttons are pressed the potential difference between the ends of the wires is 0V.

(PLEASE NOTE: after pushing either of the activation buttons, potential built up in the system needs to be dis-
charged before it gets back to zero. This can easily be achieved by touching the connectors).
Before connecting the cable to the valve, switch the control unit to OFF mode.
With the control unit switch in the OFF position, connect the bottle's explosive capsule.

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With the switch still in the OFF position, press one of the buttons and check that the LED turns on, thus indicating
that the system is connected correctly.

Activating devices:
• OMP Extinguisher box, installed behind the driver’s seat
• Cockpit panel: push-pull button #3. WARNING, once activated the button must be pulled to be rearmed.
• Marshall switch: located behind the main rollhoop. WARNING, once activated the unit must be rearmed
releasing the lock ①.

The LED verifies the functionality of the system and turns on ONLY when the extinguisher valve is connected to
the system. If the LED does not turn on after having connected the system, check the connections and/or try
replacing the battery.

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2.13 FUEL CELL
Premier FT5
Rubber bladders should be used for no more than 5 years after the date of manufacture, unless inspected and
recertified by the manufacturer for a period of up to another 2 years.

2.14 RAIN LIGHT

Tatuus 12x High intensity LED
A minimum of 85% of the LED’s must be operational at any time.

2.14.1 Rain Light modes

The rain light operates different modes according to car condition:

• Main switch ON: LED turning

• IGN ON + Engine OFF/Stall: 10Hz flashing
• Rain Light ON: 4Hz flashing
• Pit Limiter ON: 1.25Hz flashing

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2.15 CLUTCH DISENGAGEMENT

In case of a sudden stall, the car can still be moved following this procedure:
1. Press the clutch.
2. Turn the valve ①.
To avoid an improper/unwanted use, the valve ① is protected by a cover.
3. Release the clutch pedal (note: the pedal might remain pushed).
4. The car can be moved.

2.16 FIA THROTTLE FAIL SAFE

The car is equipped with a throttle fail safe algorithm, which, in case throttle and brake pedal are pressed at
the same time, overrides the throttle and cuts the engine.

Alfa Romeo Renault

Car Speed > 10 km/h > 10 km/h
Engine rpm > 2’000 rpm > 2’000 rpm
Brake Pressure
> 50 bar > 40 bar
(Front and/or Rear)
Throttle Pedal > 70 % > 70 %
Time > 150 ms > 150 ms

If Throttle Fail Safe strategy occurs, a full power cycle (Ign + Main) is needed to reset it and restart the engine.

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3 CHASSIS

3.1 WORKSHOP TOOLS

3.1.1 Front Jacking
The highlighted area is suitable to carry the weight of the car, the jack plate should fit as better as possible the
underwing surface.

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3.1.2 Rear Jacking
The highlighted jacking points are suitable to carry the weight of the car.

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3.2 SETUP TOOLS
Here below some views of the main reference points

3.2.1 Front references

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3.2.2 Rear references

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3.2.3 Wheel hub

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3.3 STANDARD SET-UP
Standard set-up sheet, refer to specific chapter for adjustment details:

3.3.1 Road Course Set-Up

FRONT REAR
Ride Height [mm] 20 35
Camber [deg] -3.5° -2.2°
GEOMETRY
Toe (Total) [deg] +20’ 0°
Rear Suspension position BE24
Springs [lb/in] 900 1300
Spring preload [Turn] 0.5 0.5
Anti-roll [mm] 22.5 12
SUSPENSIONS
Anti-roll blade M/M S/S
Damper bump [0 click: full closed] 4 4
Damper reb [0 click: full closed] 4 4
Wing position 28° (B4) 10° (A5)
AERO
Gurney [mm] -- --
Master cylinder [mm] 19.05 20.64
BRAKES
Diff Ramp on power 65°
GEAR/DIFF Diff Ramp off power 70°
Diff plates config 6
TIRES Tire pressure (hot) [bar] 1.5 1.5

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3.4 WEIGHT AND BALLAST

The T318 chassis has three locations for the ballast installation, the following drawings are a simple guideline:

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3.5 CONTROLS AND DISPLAY
3.5.1 Cockpit Controls

• [1] Main power switch:

▪ Position 1: master switch ON;
▪ Position 2: Ignition ON
• [2] Starter button (YELLOW): starter motor is cranking (note that this button will crank the starter in
any condition but the engine will fire up only if Ignition is ON);
• [3] Fire Extinguisher
• [4] Fire extinguisher status (green when armed)
• [5] ADR status
• [6] Communication Port (depending on ECU configuration)
• [7] ADR communication

All the switches are ON when HIGH.

4
2

5
7

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3.5.2 Steering Wheel Controls

5 1

2
6

7
3

8 4

• Button [1]: RADIO PTT, the button signal is forwarded to the radio plug (see wiring diagram for
pinout).
• Button [2]: ACKNOWLEDGE, when pressed all the alarms are skipped, critical alarms will persist. Long
pressure will reset chassis sensors (damper position, steering angle, accelerometers).
• Button [3]: Display PAGE, a single short push will scroll pages, pushing the button for longer than 0.5
sec will return to the driver’s page.
• Button [4]: START/KILL, only when IGN is ON this button act as a starter. When the engine is ON a
long pressure will kill the engine.
• Button [5]: PIT LIMITER, when pushed the ECU will set engine rev limiter to control pit-limited speed
(if wheel speeds are available).
• Button [6]: MARK, when pushed the ECU will register the input in the log file. Double click will acti-
vate fuel pump (for fuel drain purpose).
• Button [7]: RAIN Light, when pushed the ECU will activate the rain light, a blue flag will be active on
the left bottom corner of the dash.
• Button [8]: REVERSE, when pushed the REVERSE gear is requested to the shifter, it only acts when
the car is steady and clutch is pressed.

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3.5.3 Steering Wheel Display

7 1
2
6

5 3

• LED strip #1: Shift lights

• LED strip #1b: Blue LED are ON when pit limiter is engaged
• Alarm [2]: LOW Oil Pressure
• Alarm [3]: Hight Oil Temperature
• Alarm [4]: 3x RED LED will blink when a general alarm is on, the display will highlight the relevant
value and will show a text message
• Alarm [5]: Electric Fault
• Alarm [6]: HIGH Coolant Temperature

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3.5.3.1 Page #1: Driver page
The first page of the display shows the following values:

• Water Temperature
• Engine Oil Pressure
• Battery Voltage
• Oil Temperature
• Warning boxes (see chapter for details)

All the value boxes turn red when the value is over the maximum (alarm values are set by engine control), and
blue when the value is below the minimum, all the alarm messages can be skipped pushing AKN button.

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3.5.3.2 Page #2: Setting page

This page summarizes the parameters useful for the sensor setting.

• P Brake F: Front brake pressure [bar]

• P Brake R: Rear brake pressure [bar]
• Brake Bias: percentage of front brake pressure over total brake pressure (Front+Rear) [%]
• Steer Pot: absolute position of steering potentiometer [mV], it should be set @ 2500mV when the
steering wheel is straight
• TPS1 / TPS2: Throttle valve absolute position [mV]
• Pedal 1 / Pedal 2: Throttle pedal absolute position [mV], used to adjust pedal position before throt-
tle calibration process.
• Pedal: percentage of Throttle pedal
• Gear Pot: gear barrel absolute position [mV], the value must be
o Neutral: 930mV +/- 10mV
o 1 gear:
st
1250mV +/- 10mV
• ESAP: absolute actuator position [mV], the value must be between 0 and +/-30mV when actuator is
not operational.

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 • E-Throttle: throttle calibration messages

o Push Throttle Pedal to full throttle

o Release Throttle Pedal to rest position

o Wait for the Throttle Valve learning

o Throttle calibration process completed successfully

o Throttle calibration process NOT completed

o Power cycle the car: switch OFF and then ON the electric system

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3.5.3.3 Page #3: Logger page

This page contains the channels logged by the data systems and low to check the zero procedure.
all the channels are set to zero when ACK button is pressed longer than 1 second.

• FL Shock: Front Left damper position [mm]

• FR Shock: Front Right damper position [mm]
• RL Shock: Rear Left damper position [mm]
• RR Shock: Rear Right damper position [mm]
• FL Speed: Front Left wheel speed [km/h]
• FR Speed: Front Right wheel speed [km/h]
• Steer Angle: Steering wheel position [deg]
• Acc X: longitudinal acceleration [mg]
• Acc Y: lateral acceleration [mg]

All the listed channels except wheel speeds are set to zero when ACK button is pressed longer than 1 second.

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3.5.3.4 Page #4: Electric Power Distribution

This page shows the power system of the car, each box contains the current drained by the relevant line, the
boxes turn RED if the powerbox shut down the relevant line (i.e. short-circuit detected)

Refer to powerbox chapter (12.4) for line details.

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3.5.3.5 Page #5: Engine warmup

This page contains the engine parameters, it could be useful while starting and warming the engine.

• TCool: Engine Coolant Temperature [°C]

• Toil Engine: Engine Oil Temperature [°C]
• TFuel: NU
• TAir: Air Temperature[°C]
• LPFuel: Low pressure Fuel [bar] (if available from ECU)
• HPFuel: Low pressure Fuel [bar]
• Poil: Engine Oil Pressure [bar]
• PCranck: Engine Case Pressure [mbar] (if available from ECU)
• IGN Limiter: Ignition Limiter threshold [RPM] (if available from ECU)
• VBatt: Battery Voltage [V]
• RPM: Engine revs [RPM]

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3.5.3.6 Page #6: Gearbox page

This page contains the gearbox parameters, it could be useful while testing and warming the gearbox.

• Pad Dwn: Box turns green when paddle input is active

• Pad UP: Box turns green when paddle input is active
• Gear: Gear number [1 to 6]
• PClutch: Clutch Pressure [bar]
• ToilG: Gearbox Oil Temperature [°C] (if available)
• Gear Pot: Gear barrel absolute position [mV]
• ESAP: absolute actuator position [mV]
• VBatt: Battery Voltage [V]
• RPM: Engine revs [RPM]

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3.6 DRIVER INSTALLATION
3.6.1 Steering Wheel Position

The spacers ① allow the adjustment of the steering wheel depth, each spacer add 13mm and can be stack
up to two.

Different stack of ① requires different studs ② length. Check the Spare parts Catalogue for the options.

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3.6.2 Pedals

The three pedals may be placed independently, all of these are “standalone”.

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3.6.2.1 Brake pedal

Rest position adjustment: operating on the rod end ① the pedal plate can be moved

It is recommended to inspect and set the brake balance ③ in order that the adjustment stops ② are cor-
rectly in position and far from their contact.

It is recommended to replace the balance bar and the pedal base every 10’000 km.

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3.6.2.2 Throttle pedal

Rest position adjustment: operating on the bottom rod ends the pedal plate can be moved.

Stroke/full stroke: the stroke and the final position can be adjusted adding or removing shims ① on the
damper shaft.

The throttle potentiometer has to be checked after every pedal adjustment in order to respect the calibration
thresholds.
After every operation on the pedal the throttle learning must be repeated.

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3.6.2.3 Clutch pedal

Rest position adjustment: operating on the rod end the pedal plate can be moved.

Stroke/full stroke: the stroke and the final position can be adjusted operating on the bush ②, counter nut
① must then be locked.

The standard master cylinder for clutch actuation is a 5/8”, here below a guideline of theoretical strokes to
operate the clutch mechanism:

Master cylinder Slave cylinder Pedal “top”

displacement displacement displacement
[mm] [mm] [mm]
TM Clutch 12 2.5 45

Sachs Clutch (max) 20 4.0 72

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3.6.2.4 Heel rest

A heel rest can be bolted on the unused holes, here below a generic guideline.

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3.6.3 Brake Bias

The brake bias knob is located on the right-hand side of the driver seat.
Rotating clockwise will shift the brake balance towards front: with the standard master cylinders (Front =
19.05 mm, Rear = 20.68 mm) 1 complete turn give a +1.5% front balance.

1 turn CW = +1,5% FB

𝑃𝐵𝑟𝑎𝑘𝑒𝐹𝑅𝑂𝑁𝑇
Brake pressure (Front and Rear) and Brake Bias, defined as 𝑃𝐵𝑟𝑎𝑘𝑒𝐹𝑅𝑂𝑁𝑇 % = 𝑃𝐵𝑟𝑎𝑘𝑒 , can
𝐹𝑅𝑂𝑁𝑇 +𝑃𝐵𝑟𝑎𝑘𝑒𝑅𝐸𝐴𝑅
be checked on page 2 of the steering wheel.

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4 AERODYNAMIC

4.1 GENERAL NOTES

Downforce [SCz]: total downforce generated by the car, excluding wheel lift.
Drag [SCx]: total drag (including wheels) of the car resolved to the tire contact point.
Balance %F: percentage of the total downforce acting at the front contact patches.

All forces are reported as percentage from the datum point measurements (see chapter 4.4).

Aerodynamic loading is a function of atmospheric conditions:

• 5°C increase in ambient temperature from ISA conditions result in a 2.7% reduction in aerodynamic
forces.
• 10 mbar increase in air pressure from ISA conditions results in a 1% increase in aerodynamic forces.
• 50% increase in humidity from ISA conditions results in a 0.3% reduction in aerodynamic loading.

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4.2 FRONT WING SETTING
Front flap angle in the following tables is the angle between the tangent on the upper side of the front flap
assembly (both flaps on, without gurney flap, measured on the endplate side) and the reference plane.
As reference line for the tangent on the flap, the straight line on the upper side of the flap fishplate can be
used.

A B C D E
1 20° 25° 30° 35° 40°
2 21° 26° 31° 36° 41°
3 22° 27° 32° 37° 42°
4 23° 28° 33° 38°
5 24° 29° 34° 39°

FLAP INCIDENCE

PARALLEL TO REFERENCE PLANE

TATUUS recall that, by FIA Technical Regulation, the use of a gurney flap on the front wing 500mm central
part (FIA standard profile) is currently not allowed.

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4.3 REAR WING SETTING
Rear flap angle in the following tables is the angle between the tangent on the upper side of the rear flap
(without gurney flap) and the reference plane:

A B C D
1 6° 11° 16° 21°
2 7° 12° 17° 22°
3 8° 13° 18° 23°
4 9° 14° 19° 24°
5 10° 15° 20° 25°
TATUUS recall that, by FIA Technical Regulation, the use of gurney flaps on any of the rear aerofoils is cur-
rently not allowed.

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4.4 AERODYNAMIC REFERENCE SETUP
Aerodynamic baseline setup (datum):

FRONT RIDE HEIGHT: 10 mm

REAR RIDE HEIGHT: 25 mm

STD
FRONT WING ASSY ANGLE:
(FIXED)
FRONT FLAPS ANGLE:
30° (C1)
(BOTH FLAPS ON, NO GURNEY FLAP)

REAR WING TOP ASSEMBLY ANGLE: 10° (A5)

Front Ride Height (FRH) is the distance between the ground and a point intersection of the Reference Plane
(5mm above the lower surface of the skid block when new, plane between the skid block and the wooden
plank) with a plane orthogonal to both the Reference Plane and the car symmetry plane passing on the Front
Wheel Centre Line.
Rear Ride Height (RRH) is the distance between the ground and a point intersection of the Reference Plane
(5mm above the lower surface of the skid block when new, plane between the skid block and the wooden
plank) with a plane orthogonal to both the Reference Plane and the car symmetry plane passing on the Rear
Wheel Centre Line.

The scan is referred to a car with the updated front wing pillars (pn. 2403037) and with Sidepod Louvered
Panels (pn. 2402077/078) installed with no blanking.

At the datum point aerodynamic coefficients will be:

𝑆𝐶𝑍 = 100%

𝑆𝐶𝑥 = 100%

𝑆𝐶𝑍 𝐹𝑅𝑂𝑁𝑇
%𝐹 = = 40%
𝑆𝐶𝑍 𝑇𝑂𝑇

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4.5 RIDE HEIGHT SENSITIVITY
The Ride Height Sensitivity is referred to a configuration with both the front flaps on, without gurney flap
installed.
The following tables report the percentage changes from the datum point resulting from the change of the
ride heights (FRH = Front Ride Height / RRH = Rear Ride Height):

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Release 3.00 (22/06/2020)
RRH →
%F
15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
FRH 5 -0.4% -0.2% +0.0% +0.2% +0.4% +0.6% +0.8% +1.0% +1.2% +1.4% +1.6% +1.8% +2.0% +2.2% +2.4% +2.6% +2.8% +3.0% +3.2% +3.4% +3.6% +3.8% +4.0% +4.2% +4.4% +4.6% +4.8% +5.0% +5.2% +5.4% +5.6%
↓ 6 -0.7% -0.5% -0.3% -0.1% +0.1% +0.3% +0.5% +0.7% +0.9% +1.1% +1.3% +1.5% +1.7% +1.9% +2.1% +2.3% +2.5% +2.7% +2.9% +3.1% +3.3% +3.5% +3.7% +3.9% +4.1% +4.3% +4.5% +4.7% +4.9% +5.1% +5.3%

7 -1.0% -0.8% -0.6% -0.4% -0.2% -0.0% +0.2% +0.4% +0.6% +0.8% +1.0% +1.2% +1.4% +1.6% +1.8% +2.0% +2.2% +2.4% +2.6% +2.7% +2.9% +3.1% +3.3% +3.5% +3.7% +3.9% +4.1% +4.3% +4.5% +4.7% +4.9%

8 -1.3% -1.1% -0.9% -0.7% -0.5% -0.3% -0.1% +0.1% +0.3% +0.5% +0.7% +0.8% +1.0% +1.2% +1.4% +1.6% +1.8% +2.0% +2.2% +2.4% +2.6% +2.8% +3.0% +3.2% +3.4% +3.6% +3.8% +4.0% +4.2% +4.4% +4.6%

9 -1.6% -1.4% -1.2% -1.0% -0.8% -0.7% -0.5% -0.3% -0.1% +0.1% +0.3% +0.5% +0.7% +0.9% +1.1% +1.3% +1.5% +1.7% +1.9% +2.1% +2.3% +2.5% +2.7% +2.9% +3.1% +3.3% +3.4% +3.6% +3.8% +4.0% +4.2%

10 -1.9% -1.7% -1.6% -1.4% -1.2% -1.0% -0.8% -0.6% -0.4% -0.2% 0.0% +0.2% +0.4% +0.6% +0.8% +1.0% +1.2% +1.4% +1.6% +1.7% +1.9% +2.1% +2.3% +2.5% +2.7% +2.9% +3.1% +3.3% +3.5% +3.7% +3.9%

11 -2.3% -2.1% -1.9% -1.7% -1.5% -1.3% -1.1% -0.9% -0.7% -0.5% -0.3% -0.1% +0.1% +0.3% +0.4% +0.6% +0.8% +1.0% +1.2% +1.4% +1.6% +1.8% +2.0% +2.2% +2.4% +2.6% +2.8% +3.0% +3.1% +3.3% +3.5%

12 -2.6% -2.4% -2.2% -2.0% -1.8% -1.6% -1.4% -1.2% -1.0% -0.8% -0.7% -0.5% -0.3% -0.1% +0.1% +0.3% +0.5% +0.7% +0.9% +1.1% +1.3% +1.5% +1.7% +1.8% +2.0% +2.2% +2.4% +2.6% +2.8% +3.0% +3.2%

13 -2.9% -2.7% -2.5% -2.3% -2.1% -1.9% -1.7% -1.5% -1.4% -1.2% -1.0% -0.8% -0.6% -0.4% -0.2% -0.0% +0.2% +0.4% +0.6% +0.7% +0.9% +1.1% +1.3% +1.5% +1.7% +1.9% +2.1% +2.3% +2.5% +2.7% +2.8%

14 -3.2% -3.0% -2.8% -2.6% -2.4% -2.3% -2.1% -1.9% -1.7% -1.5% -1.3% -1.1% -0.9% -0.7% -0.5% -0.4% -0.2% +0.0% +0.2% +0.4% +0.6% +0.8% +1.0% +1.2% +1.4% +1.6% +1.7% +1.9% +2.1% +2.3% +2.5%

15 -3.5% -3.3% -3.1% -2.9% -2.8% -2.6% -2.4% -2.2% -2.0% -1.8% -1.6% -1.4% -1.2% -1.1% -0.9% -0.7% -0.5% -0.3% -0.1% +0.1% +0.3% +0.5% +0.6% +0.8% +1.0% +1.2% +1.4% +1.6% +1.8% +2.0% +2.2%

Page 74
16 -3.8% -3.6% -3.5% -3.3% -3.1% -2.9% -2.7% -2.5% -2.3% -2.1% -2.0% -1.8% -1.6% -1.4% -1.2% -1.0% -0.8% -0.6% -0.4% -0.3% -0.1% +0.1% +0.3% +0.5% +0.7% +0.9% +1.1% +1.2% +1.4% +1.6% +1.8%

17 -4.1% -4.0% -3.8% -3.6% -3.4% -3.2% -3.0% -2.8% -2.6% -2.5% -2.3% -2.1% -1.9% -1.7% -1.5% -1.3% -1.2% -1.0% -0.8% -0.6% -0.4% -0.2% -0.0% +0.2% +0.3% +0.5% +0.7% +0.9% +1.1% +1.3% +1.5%

18 -4.5% -4.3% -4.1% -3.9% -3.7% -3.5% -3.3% -3.2% -3.0% -2.8% -2.6% -2.4% -2.2% -2.0% -1.9% -1.7% -1.5% -1.3% -1.1% -0.9% -0.7% -0.6% -0.4% -0.2% +0.0% +0.2% +0.4% +0.6% +0.7% +0.9% +1.1%

19 -4.8% -4.6% -4.4% -4.2% -4.0% -3.9% -3.7% -3.5% -3.3% -3.1% -2.9% -2.7% -2.6% -2.4% -2.2% -2.0% -1.8% -1.6% -1.4% -1.3% -1.1% -0.9% -0.7% -0.5% -0.3% -0.2% +0.0% +0.2% +0.4% +0.6% +0.8%

20 -5.1% -4.9% -4.7% -4.5% -4.4% -4.2% -4.0% -3.8% -3.6% -3.4% -3.3% -3.1% -2.9% -2.7% -2.5% -2.3% -2.1% -2.0% -1.8% -1.6% -1.4% -1.2% -1.0% -0.9% -0.7% -0.5% -0.3% -0.1% +0.1% +0.2% +0.4%

21 -5.4% -5.2% -5.0% -4.9% -4.7% -4.5% -4.3% -4.1% -3.9% -3.8% -3.6% -3.4% -3.2% -3.0% -2.8% -2.7% -2.5% -2.3% -2.1% -1.9% -1.7% -1.6% -1.4% -1.2% -1.0% -0.8% -0.6% -0.5% -0.3% -0.1% +0.1%

22 -5.7% -5.5% -5.4% -5.2% -5.0% -4.8% -4.6% -4.4% -4.3% -4.1% -3.9% -3.7% -3.5% -3.4% -3.2% -3.0% -2.8% -2.6% -2.4% -2.3% -2.1% -1.9% -1.7% -1.5% -1.4% -1.2% -1.0% -0.8% -0.6% -0.4% -0.3%

23 -6.0% -5.9% -5.7% -5.5% -5.3% -5.1% -4.9% -4.8% -4.6% -4.4% -4.2% -4.0% -3.9% -3.7% -3.5% -3.3% -3.1% -3.0% -2.8% -2.6% -2.4% -2.2% -2.1% -1.9% -1.7% -1.5% -1.3% -1.1% -1.0% -0.8% -0.6%

24 -6.4% -6.2% -6.0% -5.8% -5.6% -5.5% -5.3% -5.1% -4.9% -4.7% -4.6% -4.4% -4.2% -4.0% -3.8% -3.7% -3.5% -3.3% -3.1% -2.9% -2.8% -2.6% -2.4% -2.2% -2.0% -1.9% -1.7% -1.5% -1.3% -1.1% -1.0%

25 -6.7% -6.5% -6.3% -6.1% -5.9% -5.8% -5.6% -5.4% -5.2% -5.1% -4.9% -4.7% -4.5% -4.3% -4.2% -4.0% -3.8% -3.6% -3.4% -3.3% -3.1% -2.9% -2.7% -2.5% -2.4% -2.2% -2.0% -1.8% -1.7% -1.5% -1.3%
 RRH →
SCz
15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
FRH 5 103.2% 103.0% 102.9% 102.8% 102.7% 102.6% 102.5% 102.4% 102.3% 102.2% 102.1% 102.0% 101.9% 101.7% 101.6% 101.5% 101.4% 101.3% 101.2% 101.1% 101.0% 100.9% 100.8% 100.7% 100.6% 100.4% 100.3% 100.2% 100.1% 100.0% 99.9%
↓ 6 102.7% 102.6% 102.5% 102.4% 102.3% 102.2% 102.1% 102.0% 101.9% 101.8% 101.7% 101.6% 101.4% 101.3% 101.2% 101.1% 101.0% 100.9% 100.8% 100.7% 100.6% 100.5% 100.4% 100.3% 100.2% 100.1% 100.0% 99.9% 99.8% 99.7% 99.6%
7 102.2% 102.1% 102.0% 101.9% 101.8% 101.7% 101.6% 101.5% 101.4% 101.3% 101.2% 101.1% 101.0% 100.9% 100.8% 100.7% 100.6% 100.5% 100.4% 100.3% 100.2% 100.1% 100.0% 99.9% 99.8% 99.7% 99.6% 99.5% 99.4% 99.3% 99.2%
8 101.8% 101.7% 101.6% 101.5% 101.4% 101.3% 101.2% 101.1% 101.0% 100.9% 100.8% 100.7% 100.6% 100.5% 100.4% 100.3% 100.2% 100.2% 100.1% 100.0% 99.9% 99.8% 99.7% 99.6% 99.5% 99.4% 99.3% 99.2% 99.1% 99.0% 98.9%
9 101.3% 101.2% 101.2% 101.1% 101.0% 100.9% 100.8% 100.7% 100.6% 100.5% 100.4% 100.3% 100.2% 100.1% 100.0% 100.0% 99.9% 99.8% 99.7% 99.6% 99.5% 99.4% 99.3% 99.2% 99.1% 99.0% 98.9% 98.8% 98.8% 98.7% 98.6%

Release 3.00 (22/06/2020)

10 100.9% 100.8% 100.7% 100.6% 100.5% 100.4% 100.4% 100.3% 100.2% 100.1% 100.0% 99.9% 99.8% 99.7% 99.6% 99.6% 99.5% 99.4% 99.3% 99.2% 99.1% 99.0% 98.9% 98.9% 98.8% 98.7% 98.6% 98.5% 98.4% 98.3% 98.2%
11 100.4% 100.3% 100.3% 100.2% 100.1% 100.0% 99.9% 99.8% 99.8% 99.7% 99.6% 99.5% 99.4% 99.3% 99.2% 99.2% 99.1% 99.0% 98.9% 98.8% 98.7% 98.7% 98.6% 98.5% 98.4% 98.3% 98.2% 98.2% 98.1% 98.0% 97.9%
12 100.0% 99.9% 99.8% 99.7% 99.7% 99.6% 99.5% 99.4% 99.3% 99.3% 99.2% 99.1% 99.0% 98.9% 98.9% 98.8% 98.7% 98.6% 98.5% 98.4% 98.4% 98.3% 98.2% 98.1% 98.0% 98.0% 97.9% 97.8% 97.7% 97.6% 97.6%
13 99.5% 99.4% 99.4% 99.3% 99.2% 99.1% 99.1% 99.0% 98.9% 98.8% 98.8% 98.7% 98.6% 98.5% 98.5% 98.4% 98.3% 98.2% 98.1% 98.1% 98.0% 97.9% 97.8% 97.8% 97.7% 97.6% 97.5% 97.5% 97.4% 97.3% 97.2%
14 99.1% 99.0% 98.9% 98.9% 98.8% 98.7% 98.6% 98.6% 98.5% 98.4% 98.3% 98.3% 98.2% 98.1% 98.1% 98.0% 97.9% 97.8% 97.8% 97.7% 97.6% 97.6% 97.5% 97.4% 97.3% 97.3% 97.2% 97.1% 97.0% 97.0% 96.9%
15 98.6% 98.5% 98.5% 98.4% 98.3% 98.3% 98.2% 98.1% 98.1% 98.0% 97.9% 97.9% 97.8% 97.7% 97.7% 97.6% 97.5% 97.5% 97.4% 97.3% 97.2% 97.2% 97.1% 97.0% 97.0% 96.9% 96.8% 96.8% 96.7% 96.6% 96.6%
16 98.2% 98.1% 98.0% 98.0% 97.9% 97.8% 97.8% 97.7% 97.6% 97.6% 97.5% 97.5% 97.4% 97.3% 97.3% 97.2% 97.1% 97.1% 97.0% 96.9% 96.9% 96.8% 96.7% 96.7% 96.6% 96.6% 96.5% 96.4% 96.4% 96.3% 96.2%
17 97.7% 97.6% 97.6% 97.5% 97.5% 97.4% 97.3% 97.3% 97.2% 97.2% 97.1% 97.0% 97.0% 96.9% 96.9% 96.8% 96.7% 96.7% 96.6% 96.6% 96.5% 96.4% 96.4% 96.3% 96.3% 96.2% 96.1% 96.1% 96.0% 96.0% 95.9%
18 97.3% 97.2% 97.1% 97.1% 97.0% 97.0% 96.9% 96.9% 96.8% 96.7% 96.7% 96.6% 96.6% 96.5% 96.5% 96.4% 96.4% 96.3% 96.2% 96.2% 96.1% 96.1% 96.0% 96.0% 95.9% 95.8% 95.8% 95.7% 95.7% 95.6% 95.6%
19 96.8% 96.7% 96.7% 96.6% 96.6% 96.5% 96.5% 96.4% 96.4% 96.3% 96.3% 96.2% 96.2% 96.1% 96.1% 96.0% 96.0% 95.9% 95.9% 95.8% 95.8% 95.7% 95.7% 95.6% 95.5% 95.5% 95.4% 95.4% 95.3% 95.3% 95.2%
20 96.3% 96.3% 96.2% 96.2% 96.2% 96.1% 96.1% 96.0% 96.0% 95.9% 95.9% 95.8% 95.8% 95.7% 95.7% 95.6% 95.6% 95.5% 95.5% 95.4% 95.4% 95.3% 95.3% 95.2% 95.2% 95.1% 95.1% 95.0% 95.0% 94.9% 94.9%
21 95.9% 95.8% 95.8% 95.8% 95.7% 95.7% 95.6% 95.6% 95.5% 95.5% 95.4% 95.4% 95.4% 95.3% 95.3% 95.2% 95.2% 95.1% 95.1% 95.1% 95.0% 95.0% 94.9% 94.9% 94.8% 94.8% 94.7% 94.7% 94.7% 94.6% 94.6%
22 95.4% 95.4% 95.4% 95.3% 95.3% 95.2% 95.2% 95.2% 95.1% 95.1% 95.0% 95.0% 95.0% 94.9% 94.9% 94.8% 94.8% 94.8% 94.7% 94.7% 94.6% 94.6% 94.6% 94.5% 94.5% 94.4% 94.4% 94.4% 94.3% 94.3% 94.2%
23 95.0% 94.9% 94.9% 94.9% 94.8% 94.8% 94.8% 94.7% 94.7% 94.7% 94.6% 94.6% 94.6% 94.5% 94.5% 94.4% 94.4% 94.4% 94.3% 94.3% 94.3% 94.2% 94.2% 94.2% 94.1% 94.1% 94.0% 94.0% 94.0% 93.9% 93.9%
24 94.5% 94.5% 94.5% 94.4% 94.4% 94.4% 94.3% 94.3% 94.3% 94.2% 94.2% 94.2% 94.1% 94.1% 94.1% 94.0% 94.0% 94.0% 94.0% 93.9% 93.9% 93.9% 93.8% 93.8% 93.8% 93.7% 93.7% 93.7% 93.6% 93.6% 93.6%

25 94.1% 94.0% 94.0% 94.0% 94.0% 93.9% 93.9% 93.9% 93.9% 93.8% 93.8% 93.8% 93.7% 93.7% 93.7% 93.7% 93.6% 93.6% 93.6% 93.5% 93.5% 93.5% 93.5% 93.4% 93.4% 93.4% 93.3% 93.3% 93.3% 93.3% 93.2%

Page 75
RRH →
SCx
15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
FRH 5 98.6% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.8% 102.1% 102.4% 102.7% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.9% 106.2% 106.5% 106.8% 107.0% 107.3%
↓ 6 98.3% 98.6% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.8% 102.1% 102.4% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.9% 106.2% 106.5% 106.7% 107.0%
7 98.0% 98.3% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.8% 102.1% 102.4% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.9% 106.2% 106.4% 106.7%
8 97.7% 98.0% 98.3% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.8% 102.1% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.9% 106.1% 106.4%
9 97.4% 97.7% 98.0% 98.3% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.8% 102.1% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.8% 106.1%
10 97.1% 97.4% 97.7% 98.0% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.8% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.8%
11 96.8% 97.1% 97.4% 97.7% 98.0% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.5%
12 96.5% 96.8% 97.1% 97.4% 97.7% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.5% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.2%
13 96.2% 96.5% 96.8% 97.1% 97.4% 97.7% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.2% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 104.9%
14 95.9% 96.2% 96.5% 96.8% 97.1% 97.4% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.9% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.6%
15 95.6% 95.9% 96.2% 96.5% 96.8% 97.1% 97.4% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.3%
16 95.3% 95.6% 95.9% 96.2% 96.5% 96.8% 97.1% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.6% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.0%
17 95.0% 95.3% 95.6% 95.9% 96.2% 96.5% 96.8% 97.1% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.3% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.7%
18 94.7% 95.0% 95.3% 95.6% 95.9% 96.2% 96.5% 96.8% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5%
19 94.4% 94.7% 95.0% 95.3% 95.6% 95.9% 96.2% 96.5% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 100.0% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9% 103.2%
20 94.1% 94.4% 94.7% 95.0% 95.3% 95.6% 95.9% 96.2% 96.5% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.7% 99.9% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6% 102.9%
21 93.8% 94.1% 94.4% 94.7% 95.0% 95.3% 95.6% 95.9% 96.2% 96.4% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.4% 99.6% 99.9% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3% 102.6%
22 93.5% 93.8% 94.1% 94.4% 94.7% 95.0% 95.3% 95.6% 95.9% 96.2% 96.4% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.3% 99.6% 99.9% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0% 102.3%
23 93.2% 93.5% 93.8% 94.1% 94.4% 94.7% 95.0% 95.3% 95.6% 95.9% 96.1% 96.4% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.1% 99.3% 99.6% 99.9% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7% 102.0%
24 92.9% 93.2% 93.5% 93.8% 94.1% 94.4% 94.7% 95.0% 95.3% 95.6% 95.8% 96.1% 96.4% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.8% 99.0% 99.3% 99.6% 99.9% 100.2% 100.5% 100.8% 101.1% 101.4% 101.7%

25 92.6% 92.9% 93.2% 93.5% 93.8% 94.1% 94.4% 94.7% 95.0% 95.3% 95.6% 95.8% 96.1% 96.4% 96.7% 97.0% 97.3% 97.6% 97.9% 98.2% 98.5% 98.7% 99.0% 99.3% 99.6% 99.9% 100.2% 100.5% 100.8% 101.1% 101.4%
4.6 WING SENSITIVITY
The following table report the percentage changes from the datum point resulting from the change of flap
angles (FW = Front Wing Flap Angle / RW = Rear Wing Top Assembly Angle). The following tables are referred
to the “both the front flaps on, without gurney flap installed” maps.

Release 3.00 (22/06/2020) Page 76

 4.6.1

Release 3.00 (22/06/2020)

FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
∆ %F 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 -8.7% -7.6% -6.6% -5.6% -4.6% -3.6% -2.6% -1.6% -0.6% +0.4% +1.5% +2.5% +3.5% +4.5% +5.5% +6.5% +7.5% +8.5% +9.6% +10.6% +11.6% +12.6% +13.6%
↓ A2 7 -9.0% -8.0% -7.0% -6.0% -5.0% -4.0% -2.9% -1.9% -0.9% +0.1% +1.1% +2.1% +3.1% +4.1% +5.1% +6.1% +7.1% +8.2% +9.2% +10.2% +11.2% +12.2% +13.2%
A3 8 -9.3% -8.3% -7.3% -6.3% -5.3% -4.3% -3.3% -2.3% -1.3% -0.3% +0.7% +1.7% +2.7% +3.7% +4.8% +5.8% +6.8% +7.8% +8.8% +9.8% +10.8% +11.8% +12.8%
A4 9 -9.7% -8.7% -7.7% -6.7% -5.7% -4.7% -3.6% -2.6% -1.6% -0.6% +0.4% +1.4% +2.4% +3.4% +4.4% +5.4% +6.4% +7.4% +8.4% +9.4% +10.4% +11.4% +12.4%
A5 10 -10.0% -9.0% -8.0% -7.0% -6.0% -5.0% -4.0% -3.0% -2.0% -1.0% 0.0% +1.0% +2.0% +3.0% +4.0% +5.0% +6.0% +7.0% +8.0% +9.0% +10.0% +11.0% +12.0%
B1 11 -10.3% -9.3% -8.3% -7.3% -6.3% -5.4% -4.4% -3.4% -2.4% -1.4% -0.4% +0.6% +1.6% +2.6% +3.6% +4.6% +5.6% +6.6% +7.6% +8.6% +9.6% +10.6% +11.6%
B2 12 -10.7% -9.7% -8.7% -7.7% -6.7% -5.7% -4.7% -3.7% -2.7% -1.7% -0.7% +0.3% +1.3% +2.3% +3.2% +4.2% +5.2% +6.2% +7.2% +8.2% +9.2% +10.2% +11.2%
B3 13 -11.0% -10.0% -9.0% -8.0% -7.0% -6.1% -5.1% -4.1% -3.1% -2.1% -1.1% -0.1% +0.9% +1.9% +2.9% +3.9% +4.9% +5.8% +6.8% +7.8% +8.8% +9.8% +10.8%
B4 14 -11.3% -10.4% -9.4% -8.4% -7.4% -6.4% -5.4% -4.4% -3.4% -2.4% -1.5% -0.5% +0.5% +1.5% +2.5% +3.5% +4.5% +5.5% +6.4% +7.4% +8.4% +9.4% +10.4%

Page 77
B5 15 -11.7% -10.7% -9.7% -8.7% -7.7% -6.8% -5.8% -4.8% -3.8% -2.8% -1.8% -0.8% +0.1% +1.1% +2.1% +3.1% +4.1% +5.1% +6.1% +7.0% +8.0% +9.0% +10.0%
C1 16 -12.0% -11.0% -10.0% -9.1% -8.1% -7.1% -6.1% -5.1% -4.2% -3.2% -2.2% -1.2% -0.2% +0.8% +1.7% +2.7% +3.7% +4.7% +5.7% +6.6% +7.6% +8.6% +9.6%
C2 17 -12.3% -11.4% -10.4% -9.4% -8.4% -7.5% -6.5% -5.5% -4.5% -3.5% -2.6% -1.6% -0.6% +0.4% +1.4% +2.3% +3.3% +4.3% +5.3% +6.3% +7.2% +8.2% +9.2%
C3 18 -12.7% -11.7% -10.7% -9.8% -8.8% -7.8% -6.8% -5.8% -4.9% -3.9% -2.9% -1.9% -1.0% +0.0% +1.0% +2.0% +2.9% +3.9% +4.9% +5.9% +6.8% +7.8% +8.8%
C4 19 -13.0% -12.0% -11.1% -10.1% -9.1% -8.2% -7.2% -6.2% -5.2% -4.3% -3.3% -2.3% -1.3% -0.4% +0.6% +1.6% +2.6% +3.5% +4.5% +5.5% +6.4% +7.4% +8.4%
C5 20 -13.4% -12.4% -11.4% -10.4% -9.5% -8.5% -7.5% -6.6% -5.6% -4.6% -3.7% -2.7% -1.7% -0.7% +0.2% +1.2% +2.2% +3.1% +4.1% +5.1% +6.1% +7.0% +8.0%
D1 21 -13.7% -12.7% -11.8% -10.8% -9.8% -8.9% -7.9% -6.9% -5.9% -5.0% -4.0% -3.0% -2.1% -1.1% -0.1% +0.8% +1.8% +2.8% +3.7% +4.7% +5.7% +6.6% +7.6%
D2 22 -14.0% -13.1% -12.1% -11.1% -10.2% -9.2% -8.2% -7.3% -6.3% -5.3% -4.4% -3.4% -2.5% -1.5% -0.5% +0.4% +1.4% +2.4% +3.3% +4.3% +5.3% +6.2% +7.2%
D3 23 -14.4% -13.4% -12.4% -11.5% -10.5% -9.6% -8.6% -7.6% -6.7% -5.7% -4.7% -3.8% -2.8% -1.9% -0.9% +0.1% +1.0% +2.0% +2.9% +3.9% +4.9% +5.8% +6.8%
Wing Sensitivity, both the front flaps on, without gurney flap installed

D4 24 -14.7% -13.7% -12.8% -11.8% -10.9% -9.9% -8.9% -8.0% -7.0% -6.1% -5.1% -4.2% -3.2% -2.2% -1.3% -0.3% +0.6% +1.6% +2.6% +3.5% +4.5% +5.4% +6.4%
D5 25 -15.0% -14.1% -13.1% -12.2% -11.2% -10.3% -9.3% -8.3% -7.4% -6.4% -5.5% -4.5% -3.6% -2.6% -1.7% -0.7% +0.3% +1.2% +2.2% +3.1% +4.1% +5.0% +6.0%
 FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCz 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 93.5% 93.9% 94.3% 94.7% 95.0% 95.4% 95.8% 96.2% 96.5% 96.9% 97.3% 97.7% 98.0% 98.4% 98.8% 99.2% 99.6% 99.9% 100.3% 100.7% 101.1% 101.4% 101.8%
↓ A2 7 94.3% 94.6% 95.0% 95.4% 95.8% 96.1% 96.5% 96.9% 97.2% 97.6% 98.0% 98.3% 98.7% 99.1% 99.4% 99.8% 100.2% 100.6% 100.9% 101.3% 101.7% 102.0% 102.4%
A3 8 95.0% 95.4% 95.7% 96.1% 96.5% 96.8% 97.2% 97.6% 97.9% 98.3% 98.6% 99.0% 99.4% 99.7% 100.1% 100.5% 100.8% 101.2% 101.5% 101.9% 102.3% 102.6% 103.0%
A4 9 95.8% 96.1% 96.5% 96.8% 97.2% 97.5% 97.9% 98.3% 98.6% 99.0% 99.3% 99.7% 100.0% 100.4% 100.7% 101.1% 101.5% 101.8% 102.2% 102.5% 102.9% 103.2% 103.6%
A5 10 96.5% 96.9% 97.2% 97.6% 97.9% 98.3% 98.6% 99.0% 99.3% 99.7% 100.0% 100.3% 100.7% 101.0% 101.4% 101.7% 102.1% 102.4% 102.8% 103.1% 103.5% 103.8% 104.2%
B1 11 97.3% 97.6% 97.9% 98.3% 98.6% 99.0% 99.3% 99.6% 100.0% 100.3% 100.7% 101.0% 101.4% 101.7% 102.0% 102.4% 102.7% 103.1% 103.4% 103.8% 104.1% 104.4% 104.8%

Release 3.00 (22/06/2020)

B2 12 98.0% 98.3% 98.7% 99.0% 99.3% 99.7% 100.0% 100.3% 100.7% 101.0% 101.4% 101.7% 102.0% 102.4% 102.7% 103.0% 103.4% 103.7% 104.0% 104.4% 104.7% 105.0% 105.4%
B3 13 98.7% 99.1% 99.4% 99.7% 100.1% 100.4% 100.7% 101.0% 101.4% 101.7% 102.0% 102.4% 102.7% 103.0% 103.3% 103.7% 104.0% 104.3% 104.7% 105.0% 105.3% 105.6% 106.0%
B4 14 99.5% 99.8% 100.1% 100.5% 100.8% 101.1% 101.4% 101.7% 102.1% 102.4% 102.7% 103.0% 103.3% 103.7% 104.0% 104.3% 104.6% 105.0% 105.3% 105.6% 105.9% 106.2% 106.6%
B5 15 100.2% 100.5% 100.9% 101.2% 101.5% 101.8% 102.1% 102.4% 102.8% 103.1% 103.4% 103.7% 104.0% 104.3% 104.6% 105.0% 105.3% 105.6% 105.9% 106.2% 106.5%
Nonlinear 106.8% 107.2%
C1 16 101.0% 101.3% 101.6% 101.9% 102.2% 102.5% 102.8% 103.1% 103.4% 103.7% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.9% 106.2% 106.5% 106.8% 107.1% 107.4% 107.8%
C2 17 101.7% 102.0% 102.3% 102.6% 102.9% 103.2% 103.5% 103.8% 104.1% 104.4% 104.7% 105.0% 105.3% 105.6% 105.9% 106.2% 106.5% 106.8% 107.1% behaviour
107.4% 107.7% 108.0% 108.3%
C3 18 102.5% 102.8% 103.1% 103.3% 103.6% 103.9% 104.2% 104.5% 104.8% 105.1% 105.4% 105.7% 106.0% 106.3% 106.6% 106.9% 107.2% 107.5% 107.8% 108.1% 108.4% 108.6% 108.9%
C4 19 103.2% 103.5% 103.8% 104.1% 104.4% 104.6% 104.9% 105.2% 105.5% 105.8% 106.1% 106.4% 106.7% 106.9% 107.2% 107.5% 107.8% 108.1% 108.4% 108.7% 109.0% 109.3% 109.5%
C5 20 104.0% 104.2% 104.5% 104.8% 105.1% 105.4% 105.6% 105.9% 106.2% 106.5% 106.8% 107.0% 107.3% 107.6% 107.9% 108.2% 108.4% 108.7% 109.0% 109.3% 109.6% 109.9% 110.1%
D1 21 104.7% 105.0% 105.2% 105.5% 105.8% 106.1% 106.3% 106.6% 106.9% 107.2% 107.4% 107.7% 108.0% 108.3% 108.5% 108.8% 109.1% 109.4% 109.6% 109.9% 110.2% 110.5% 110.7%
D2 22 105.4% 105.7% 106.0% 106.2% 106.5% 106.8% 107.0% 107.3% 107.6% 107.8% 108.1% 108.4% 108.6% 108.9% 109.2% 109.5% 109.7% 110.0% 110.3% 110.5% 110.8% 111.1% 111.3%
D3 23 106.2% 106.4% 106.7% 107.0% 107.2% 107.5% 107.7% 108.0% 108.3% 108.5% 108.8% 109.1% 109.3% 109.6% 109.8% 110.1% 110.4% 110.6% 110.9% 111.1% 111.4% 111.7% 111.9%
D4 24 106.9% 107.2% 107.4% 107.7% 107.9% 108.2% 108.5% 108.7% 109.0% 109.2% 109.5% 109.7% 110.0% 110.2% 110.5% 110.7% 111.0% 111.2% 111.5% 111.7% 112.0% 112.3% 112.5%
D5 25 107.7% 107.9% 108.2% 108.4% 108.7% 108.9% 109.2% 109.4% 109.6% 109.9% 110.1% 110.4% 110.6% 110.9% 111.1% 111.4% 111.6% 111.9% 112.1% 112.4% 112.6% 112.9% 113.1%

FW →

Page 78
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCx 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 91.1% 91.7% 92.3% 92.8% 93.4% 94.0% 94.6% 95.1% 95.7% 96.3% 96.9% 97.4% 98.0% 98.6% 99.2% 99.7% 100.3% 100.9% 101.4% 102.0% 102.6% 103.2% 103.7%
↓ A2 7 92.0% 92.6% 93.1% 93.7% 94.3% 94.8% 95.4% 96.0% 96.5% 97.1% 97.6% 98.2% 98.8% 99.3% 99.9% 100.4% 101.0% 101.6% 102.1% 102.7% 103.3% 103.8% 104.4%
A3 8 92.9% 93.5% 94.0% 94.6% 95.1% 95.7% 96.2% 96.8% 97.3% 97.9% 98.4% 99.0% 99.5% 100.1% 100.6% 101.2% 101.7% 102.3% 102.8% 103.4% 103.9% 104.5% 105.0%
A4 9 93.8% 94.4% 94.9% 95.5% 96.0% 96.5% 97.1% 97.6% 98.1% 98.7% 99.2% 99.8% 100.3% 100.8% 101.4% 101.9% 102.4% 103.0% 103.5% 104.0% 104.6% 105.1% 105.7%
A5 10 94.8% 95.3% 95.8% 96.3% 96.9% 97.4% 97.9% 98.4% 99.0% 99.5% 100.0% 100.5% 101.0% 101.6% 102.1% 102.6% 103.1% 103.7% 104.2% 104.7% 105.2% 105.8% 106.3%
B1 11 95.7% 96.2% 96.7% 97.2% 97.7% 98.2% 98.7% 99.3% 99.8% 100.3% 100.8% 101.3% 101.8% 102.3% 102.8% 103.3% 103.9% 104.4% 104.9% 105.4% 105.9% 106.4% 106.9%
B2 12 96.6% 97.1% 97.6% 98.1% 98.6% 99.1% 99.6% 100.1% 100.6% 101.1% 101.6% 102.1% 102.6% 103.1% 103.6% 104.1% 104.6% 105.1% 105.6% 106.1% 106.6% 107.1% 107.6%
B3 13 97.5% 98.0% 98.5% 99.0% 99.4% 99.9% 100.4% 100.9% 101.4% 101.9% 102.4% 102.8% 103.3% 103.8% 104.3% 104.8% 105.3% 105.8% 106.3% 106.7% 107.2% 107.7% 108.2%
B4 14 98.4% 98.9% 99.4% 99.8% 100.3% 100.8% 101.2% 101.7% 102.2% 102.7% 103.1% 103.6% 104.1% 104.6% 105.0% 105.5% 106.0% 106.5% 106.9% 107.4% 107.9%
Nonlinear 108.4% 108.8%
B5 15 99.3% 99.8% 100.2% 100.7% 101.2% 101.6% 102.1% 102.5% 103.0% 103.5% 103.9% 104.4% 104.9% 105.3% 105.8% 106.2% 106.7% 107.2% 107.6% 108.1% 108.6% 109.0% 109.5%
C1 16 100.2% 100.7% 101.1% 101.6% 102.0% 102.5% 102.9% 103.4% 103.8% 104.3% 104.7% 105.2% 105.6% 106.1% 106.5% 107.0% 107.4% 107.9% 108.3% behaviour
108.8% 109.2% 109.7% 110.1%
C2 17 101.1% 101.6% 102.0% 102.4% 102.9% 103.3% 103.8% 104.2% 104.6% 105.1% 105.5% 105.9% 106.4% 106.8% 107.3% 107.7% 108.1% 108.6% 109.0% 109.4% 109.9% 110.3% 110.7%
C3 18 102.0% 102.5% 102.9% 103.3% 103.7% 104.2% 104.6% 105.0% 105.4% 105.9% 106.3% 106.7% 107.1% 107.6% 108.0% 108.4% 108.8% 109.3% 109.7% 110.1% 110.5% 111.0% 111.4%
C4 19 103.0% 103.4% 103.8% 104.2% 104.6% 105.0% 105.4% 105.8% 106.3% 106.7% 107.1% 107.5% 107.9% 108.3% 108.7% 109.1% 109.6% 110.0% 110.4% 110.8% 111.2% 111.6% 112.0%
C5 20 103.9% 104.3% 104.7% 105.1% 105.5% 105.9% 106.3% 106.7% 107.1% 107.5% 107.9% 108.3% 108.7% 109.1% 109.5% 109.9% 110.3% 110.7% 111.1% 111.5% 111.9% 112.3% 112.7%
D1 21 104.8% 105.2% 105.6% 105.9% 106.3% 106.7% 107.1% 107.5% 107.9% 108.3% 108.7% 109.0% 109.4% 109.8% 110.2% 110.6% 111.0% 111.4% 111.7% 112.1% 112.5% 112.9% 113.3%
D2 22 105.7% 106.1% 106.4% 106.8% 107.2% 107.6% 107.9% 108.3% 108.7% 109.1% 109.4% 109.8% 110.2% 110.6% 110.9% 111.3% 111.7% 112.1% 112.4% 112.8% 113.2% 113.6% 113.9%
D3 23 106.6% 107.0% 107.3% 107.7% 108.1% 108.4% 108.8% 109.1% 109.5% 109.9% 110.2% 110.6% 110.9% 111.3% 111.7% 112.0% 112.4% 112.8% 113.1% 113.5% 113.8% 114.2% 114.6%
D4 24 107.5% 107.9% 108.2% 108.6% 108.9% 109.3% 109.6% 110.0% 110.3% 110.7% 111.0% 111.4% 111.7% 112.1% 112.4% 112.8% 113.1% 113.5% 113.8% 114.2% 114.5% 114.9% 115.2%
D5 25 108.4% 108.8% 109.1% 109.4% 109.8% 110.1% 110.4% 110.8% 111.1% 111.5% 111.8% 112.1% 112.5% 112.8% 113.1% 113.5% 113.8% 114.2% 114.5% 114.8% 115.2% 115.5% 115.8%
 4.6.2

Release 3.00 (22/06/2020)

FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
∆ %F 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 -9.7% -8.5% -7.3% -6.1% -4.9% -3.7% -2.5% -1.3% -0.1% +1.1% +2.3% +3.5% +4.6% +5.8% +7.0% +8.2% +9.4% +10.6% +11.8% +13.0% +14.2% +15.4% +16.6%
↓ A2 7 -10.0% -8.8% -7.6% -6.4% -5.2% -4.1% -2.9% -1.7% -0.5% +0.7% +1.9% +3.1% +4.3% +5.5% +6.7% +7.8% +9.0% +10.2% +11.4% +12.6% +13.8% +15.0% +16.2%
A3 8 -10.3% -9.1% -8.0% -6.8% -5.6% -4.4% -3.2% -2.0% -0.8% +0.3% +1.5% +2.7% +3.9% +5.1% +6.3% +7.5% +8.6% +9.8% +11.0% +12.2% +13.4% +14.6% +15.8%
A4 9 -10.7% -9.5% -8.3% -7.1% -5.9% -4.8% -3.6% -2.4% -1.2% -0.0% +1.2% +2.3% +3.5% +4.7% +5.9% +7.1% +8.3% +9.4% +10.6% +11.8% +13.0% +14.2% +15.4%
A5 10 -11.0% -9.8% -8.6% -7.5% -6.3% -5.1% -3.9% -2.7% -1.6% -0.4% 0.8% +2.0% +3.2% +4.3% +5.5% +6.7% +7.9% +9.1% +10.2% +11.4% +12.6% +13.8% +15.0%
B1 11 -11.3% -10.2% -9.0% -7.8% -6.6% -5.5% -4.3% -3.1% -1.9% -0.7% +0.4% +1.6% +2.8% +4.0% +5.1% +6.3% +7.5% +8.7% +9.9% +11.0% +12.2% +13.4% +14.6%
B2 12 -11.7% -10.5% -9.3% -8.1% -7.0% -5.8% -4.6% -3.5% -2.3% -1.1% +0.1% +1.2% +2.4% +3.6% +4.8% +5.9% +7.1% +8.3% +9.5% +10.6% +11.8% +13.0% +14.2%
B3 13 -12.0% -10.8% -9.7% -8.5% -7.3% -6.2% -5.0% -3.8% -2.6% -1.5% -0.3% +0.9% +2.0% +3.2% +4.4% +5.6% +6.7% +7.9% +9.1% +10.2% +11.4% +12.6% +13.8%
B4 14 -12.3% -11.2% -10.0% -8.8% -7.7% -6.5% -5.3% -4.2% -3.0% -1.8% -0.7% +0.5% +1.7% +2.8% +4.0% +5.2% +6.3% +7.5% +8.7% +9.9% +11.0% +12.2% +13.4%

Page 79
B5 15 -12.7% -11.5% -10.3% -9.2% -8.0% -6.9% -5.7% -4.5% -3.4% -2.2% -1.0% +0.1% +1.3% +2.5% +3.6% +4.8% +6.0% +7.1% +8.3% +9.5% +10.6% +11.8% +13.0%
C1 16 -13.0% -11.8% -10.7% -9.5% -8.4% -7.2% -6.0% -4.9% -3.7% -2.6% -1.4% -0.2% +0.9% +2.1% +3.3% +4.4% +5.6% +6.7% +7.9% +9.1% +10.2% +11.4% +12.6%
C2 17 -13.3% -12.2% -11.0% -9.9% -8.7% -7.6% -6.4% -5.2% -4.1% -2.9% -1.8% -0.6% +0.6% +1.7% +2.9% +4.0% +5.2% +6.4% +7.5% +8.7% +9.8% +11.0% +12.2%
C3 18 -13.7% -12.5% -11.4% -10.2% -9.1% -7.9% -6.7% -5.6% -4.4% -3.3% -2.1% -1.0% +0.2% +1.3% +2.5% +3.7% +4.8% +6.0% +7.1% +8.3% +9.4% +10.6% +11.8%
C4 19 -14.0% -12.9% -11.7% -10.6% -9.4% -8.3% -7.1% -5.9% -4.8% -3.6% -2.5% -1.3% -0.2% +1.0% +2.1% +3.3% +4.4% +5.6% +6.7% +7.9% +9.0% +10.2% +11.4%
C5 20 -14.4% -13.2% -12.1% -10.9% -9.8% -8.6% -7.5% -6.3% -5.2% -4.0% -2.9% -1.7% -0.5% +0.6% +1.8% +2.9% +4.1% +5.2% +6.4% +7.5% +8.7% +9.8% +11.0%
D1 21 -14.7% -13.5% -12.4% -11.2% -10.1% -9.0% -7.8% -6.7% -5.5% -4.4% -3.2% -2.1% -0.9% +0.2% +1.4% +2.5% +3.7% +4.8% +6.0% +7.1% +8.3% +9.4% +10.5%
D2 22 -15.0% -13.9% -12.7% -11.6% -10.4% -9.3% -8.2% -7.0% -5.9% -4.7% -3.6% -2.4% -1.3% -0.1% +1.0% +2.1% +3.3% +4.4% +5.6% +6.7% +7.9% +9.0% +10.1%
D3 23 -15.4% -14.2% -13.1% -11.9% -10.8% -9.7% -8.5% -7.4% -6.2% -5.1% -3.9% -2.8% -1.7% -0.5% +0.6% +1.8% +2.9% +4.0% +5.2% +6.3% +7.5% +8.6% +9.7%
D4 24 -15.7% -14.6% -13.4% -12.3% -11.1% -10.0% -8.9% -7.7% -6.6% -5.4% -4.3% -3.2% -2.0% -0.9% +0.2% +1.4% +2.5% +3.7% +4.8% +5.9% +7.1% +8.2% +9.3%
D5 25 -16.0% -14.9% -13.8% -12.6% -11.5% -10.4% -9.2% -8.1% -6.9% -5.8% -4.7% -3.5% -2.4% -1.3% -0.1% +1.0% +2.1% +3.3% +4.4% +5.5% +6.7% +7.8% +8.9%
Wing Sensitivity, both the front flaps on, with gurney flap (190mmx15mm) installed
 FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCz 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 94.7% 95.1% 95.5% 95.9% 96.3% 96.7% 97.2% 97.6% 98.0% 98.4% 98.8% 99.2% 99.6% 100.0% 100.4% 100.9% 101.3% 101.7% 102.1% 102.5% 102.9% 103.3% 103.7%
↓ A2 7 95.4% 95.8% 96.2% 96.6% 97.0% 97.4% 97.9% 98.3% 98.7% 99.1% 99.5% 99.9% 100.3% 100.7% 101.1% 101.5% 101.9% 102.3% 102.7% 103.1% 103.5% 103.9% 104.3%
A3 8 96.2% 96.6% 97.0% 97.4% 97.8% 98.2% 98.6% 99.0% 99.4% 99.8% 100.1% 100.5% 100.9% 101.3% 101.7% 102.1% 102.5% 102.9% 103.3% 103.7% 104.1% 104.5% 104.9%
A4 9 96.9% 97.3% 97.7% 98.1% 98.5% 98.9% 99.3% 99.7% 100.0% 100.4% 100.8% 101.2% 101.6% 102.0% 102.4% 102.8% 103.2% 103.6% 104.0% 104.3% 104.7% 105.1% 105.5%
A5 10 97.7% 98.0% 98.4% 98.8% 99.2% 99.6% 100.0% 100.3% 100.7% 101.1% 101.5% 101.9% 102.3% 102.7% 103.0% 103.4% 103.8% 104.2% 104.6% 105.0% 105.3% 105.7% 106.1%

Release 3.00 (22/06/2020)

B1 11 98.4% 98.8% 99.2% 99.5% 99.9% 100.3% 100.7% 101.0% 101.4% 101.8% 102.2% 102.6% 102.9% 103.3% 103.7% 104.1% 104.4% 104.8% 105.2% 105.6% 105.9% 106.3% 106.7%
B2 12 99.1% 99.5% 99.9% 100.3% 100.6% 101.0% 101.4% 101.7% 102.1% 102.5% 102.9% 103.2% 103.6% 104.0% 104.3% 104.7% 105.1% 105.4% 105.8% 106.2% 106.6% 106.9% 107.3%
B3 13 99.9% 100.3% 100.6% 101.0% 101.3% 101.7% 102.1% 102.4% 102.8% 103.2% 103.5% 103.9% 104.3% 104.6% 105.0% 105.3% 105.7% 106.1% 106.4% 106.8% 107.2% 107.5% 107.9%
B4 14 100.6% 101.0% 101.4% 101.7% 102.1% 102.4% 102.8% 103.1% 103.5% 103.8% 104.2% 104.6% 104.9% 105.3% 105.6% 106.0% 106.3% 106.7% 107.1% 107.4% 107.8% 108.1% 108.5%
B5 15 101.4% 101.7% 102.1% 102.4% 102.8% 103.1% 103.5% 103.8% 104.2% 104.5% 104.9% 105.2% 105.6% 105.9% 106.3% 106.6% 107.0% 107.3% 107.7% 108.0% 108.4%
Nonlinear 108.7% 109.1%
C1 16 102.1% 102.5% 102.8% 103.2% 103.5% 103.8% 104.2% 104.5% 104.9% 105.2% 105.6% 105.9% 106.2% 106.6% 106.9% 107.3% 107.6% 108.0% 108.3% 108.6% 109.0% 109.3% 109.7%
C2 17 102.9% 103.2% 103.5% 103.9% 104.2% 104.6% 104.9% 105.2% 105.6% 105.9% 106.2% 106.6% 106.9% 107.2% 107.6% 107.9% 108.3% 108.6% 108.9% behaviour
109.3% 109.6% 109.9% 110.3%
C3 18 103.6% 103.9% 104.3% 104.6% 104.9% 105.3% 105.6% 105.9% 106.3% 106.6% 106.9% 107.2% 107.6% 107.9% 108.2% 108.6% 108.9% 109.2% 109.5% 109.9% 110.2% 110.5% 110.9%
C4 19 104.4% 104.7% 105.0% 105.3% 105.6% 106.0% 106.3% 106.6% 106.9% 107.3% 107.6% 107.9% 108.2% 108.6% 108.9% 109.2% 109.5% 109.8% 110.2% 110.5% 110.8% 111.1% 111.5%
C5 20 105.1% 105.4% 105.7% 106.1% 106.4% 106.7% 107.0% 107.3% 107.6% 107.9% 108.3% 108.6% 108.9% 109.2% 109.5% 109.8% 110.2% 110.5% 110.8% 111.1% 111.4% 111.7% 112.1%
D1 21 105.8% 106.2% 106.5% 106.8% 107.1% 107.4% 107.7% 108.0% 108.3% 108.6% 108.9% 109.2% 109.6% 109.9% 110.2% 110.5% 110.8% 111.1% 111.4% 111.7% 112.0% 112.3% 112.6%
D2 22 106.6% 106.9% 107.2% 107.5% 107.8% 108.1% 108.4% 108.7% 109.0% 109.3% 109.6% 109.9% 110.2% 110.5% 110.8% 111.1% 111.4% 111.7% 112.0% 112.3% 112.6% 112.9% 113.2%
D3 23 107.3% 107.6% 107.9% 108.2% 108.5% 108.8% 109.1% 109.4% 109.7% 110.0% 110.3% 110.6% 110.9% 111.2% 111.5% 111.8% 112.1% 112.4% 112.7% 112.9% 113.2% 113.5% 113.8%
D4 24 108.1% 108.4% 108.7% 108.9% 109.2% 109.5% 109.8% 110.1% 110.4% 110.7% 111.0% 111.3% 111.5% 111.8% 112.1% 112.4% 112.7% 113.0% 113.3% 113.6% 113.9% 114.1% 114.4%
D5 25 108.8% 109.1% 109.4% 109.7% 110.0% 110.2% 110.5% 110.8% 111.1% 111.4% 111.6% 111.9% 112.2% 112.5% 112.8% 113.1% 113.3% 113.6% 113.9% 114.2% 114.5% 114.7% 115.0%

FW →

Page 80
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCx 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 91.7% 92.3% 92.9% 93.5% 94.0% 94.6% 95.2% 95.8% 96.4% 97.0% 97.6% 98.1% 98.7% 99.3% 99.9% 100.5% 101.1% 101.6% 102.2% 102.8% 103.4% 104.0% 104.6%
↓ A2 7 92.6% 93.2% 93.8% 94.3% 94.9% 95.5% 96.1% 96.6% 97.2% 97.8% 98.3% 98.9% 99.5% 100.1% 100.6% 101.2% 101.8% 102.3% 102.9% 103.5% 104.1% 104.6% 105.2%
A3 8 93.5% 94.1% 94.6% 95.2% 95.8% 96.3% 96.9% 97.4% 98.0% 98.6% 99.1% 99.7% 100.2% 100.8% 101.4% 101.9% 102.5% 103.0% 103.6% 104.2% 104.7% 105.3% 105.8%
A4 9 94.4% 95.0% 95.5% 96.1% 96.6% 97.2% 97.7% 98.3% 98.8% 99.4% 99.9% 100.5% 101.0% 101.6% 102.1% 102.7% 103.2% 103.7% 104.3% 104.8% 105.4% 105.9% 106.5%
A5 10 95.4% 95.9% 96.4% 97.0% 97.5% 98.0% 98.6% 99.1% 99.6% 100.2% 100.7% 101.2% 101.8% 102.3% 102.8% 103.4% 103.9% 104.4% 105.0% 105.5% 106.0% 106.6% 107.1%
B1 11 96.3% 96.8% 97.3% 97.8% 98.4% 98.9% 99.4% 99.9% 100.4% 101.0% 101.5% 102.0% 102.5% 103.1% 103.6% 104.1% 104.6% 105.1% 105.7% 106.2% 106.7% 107.2% 107.8%
B2 12 97.2% 97.7% 98.2% 98.7% 99.2% 99.7% 100.2% 100.7% 101.3% 101.8% 102.3% 102.8% 103.3% 103.8% 104.3% 104.8% 105.3% 105.8% 106.4% 106.9% 107.4% 107.9% 108.4%
B3 13 98.1% 98.6% 99.1% 99.6% 100.1% 100.6% 101.1% 101.6% 102.1% 102.6% 103.1% 103.6% 104.1% 104.6% 105.0% 105.5% 106.0% 106.5% 107.0% 107.5% 108.0% 108.5% 109.0%
B4 14 99.0% 99.5% 100.0% 100.5% 100.9% 101.4% 101.9% 102.4% 102.9% 103.4% 103.8% 104.3% 104.8% 105.3% 105.8% 106.3% 106.8% 107.2% 107.7% 108.2% 108.7%
Nonlinear 109.2% 109.7%
B5 15 99.9% 100.4% 100.9% 101.3% 101.8% 102.3% 102.7% 103.2% 103.7% 104.2% 104.6% 105.1% 105.6% 106.0% 106.5% 107.0% 107.5% 107.9% 108.4% 108.9% 109.4% 109.8% 110.3%
C1 16 100.8% 101.3% 101.7% 102.2% 102.7% 103.1% 103.6% 104.0% 104.5% 105.0% 105.4% 105.9% 106.3% 106.8% 107.3% 107.7% 108.2% 108.6% 109.1% behaviour
109.6% 110.0% 110.5% 110.9%
C2 17 101.7% 102.2% 102.6% 103.1% 103.5% 104.0% 104.4% 104.9% 105.3% 105.8% 106.2% 106.7% 107.1% 107.5% 108.0% 108.4% 108.9% 109.3% 109.8% 110.2% 110.7% 111.1% 111.6%
C3 18 102.6% 103.1% 103.5% 103.9% 104.4% 104.8% 105.3% 105.7% 106.1% 106.6% 107.0% 107.4% 107.9% 108.3% 108.7% 109.2% 109.6% 110.0% 110.5% 110.9% 111.3% 111.8% 112.2%
C4 19 103.6% 104.0% 104.4% 104.8% 105.2% 105.7% 106.1% 106.5% 106.9% 107.4% 107.8% 108.2% 108.6% 109.0% 109.5% 109.9% 110.3% 110.7% 111.2% 111.6% 112.0% 112.4% 112.8%
C5 20 104.5% 104.9% 105.3% 105.7% 106.1% 106.5% 106.9% 107.3% 107.7% 108.2% 108.6% 109.0% 109.4% 109.8% 110.2% 110.6% 111.0% 111.4% 111.8% 112.3% 112.7% 113.1% 113.5%
D1 21 105.4% 105.8% 106.2% 106.6% 107.0% 107.4% 107.8% 108.2% 108.6% 109.0% 109.4% 109.7% 110.1% 110.5% 110.9% 111.3% 111.7% 112.1% 112.5% 112.9% 113.3% 113.7% 114.1%
D2 22 106.3% 106.7% 107.1% 107.4% 107.8% 108.2% 108.6% 109.0% 109.4% 109.8% 110.1% 110.5% 110.9% 111.3% 111.7% 112.1% 112.4% 112.8% 113.2% 113.6% 114.0% 114.4% 114.8%
D3 23 107.2% 107.6% 107.9% 108.3% 108.7% 109.1% 109.4% 109.8% 110.2% 110.6% 110.9% 111.3% 111.7% 112.0% 112.4% 112.8% 113.2% 113.5% 113.9% 114.3% 114.7% 115.0% 115.4%
D4 24 108.1% 108.5% 108.8% 109.2% 109.6% 109.9% 110.3% 110.6% 111.0% 111.4% 111.7% 112.1% 112.4% 112.8% 113.2% 113.5% 113.9% 114.2% 114.6% 115.0% 115.3% 115.7% 116.0%
D5 25 109.0% 109.4% 109.7% 110.1% 110.4% 110.8% 111.1% 111.5% 111.8% 112.2% 112.5% 112.8% 113.2% 113.5% 113.9% 114.2% 114.6% 114.9% 115.3% 115.6% 116.0% 116.3% 116.7%
 4.6.3

Release 3.00 (22/06/2020)

FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
∆ %F 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 -18.4% -17.6% -16.8% -16.0% -15.3% -14.5% -13.7% -12.9% -12.1% -11.3% -10.5% -9.7% -8.9% -8.1% -7.3% -6.5% -5.7% -5.0% -4.2% -3.4% -2.6% -1.8% -1.0%
↓ A2 7 -18.8% -18.0% -17.2% -16.4% -15.6% -14.8% -14.0% -13.2% -12.4% -11.7% -10.9% -10.1% -9.3% -8.5% -7.7% -6.9% -6.1% -5.3% -4.6% -3.8% -3.0% -2.2% -1.4%
A3 8 -19.1% -18.3% -17.5% -16.7% -15.9% -15.2% -14.4% -13.6% -12.8% -12.0% -11.2% -10.4% -9.7% -8.9% -8.1% -7.3% -6.5% -5.7% -4.9% -4.2% -3.4% -2.6% -1.8%
A4 9 -19.4% -18.6% -17.9% -17.1% -16.3% -15.5% -14.7% -13.9% -13.2% -12.4% -11.6% -10.8% -10.0% -9.2% -8.5% -7.7% -6.9% -6.1% -5.3% -4.5% -3.8% -3.0% -2.2%
A5 10 -19.8% -19.0% -18.2% -17.4% -16.6% -15.9% -15.1% -14.3% -13.5% -12.7% -12.0% -11.2% -10.4% -9.6% -8.8% -8.1% -7.3% -6.5% -5.7% -4.9% -4.2% -3.4% -2.6%
B1 11 -20.1% -19.3% -18.5% -17.8% -17.0% -16.2% -15.4% -14.7% -13.9% -13.1% -12.3% -11.5% -10.8% -10.0% -9.2% -8.4% -7.7% -6.9% -6.1% -5.3% -4.6% -3.8% -3.0%
B2 12 -20.4% -19.7% -18.9% -18.1% -17.3% -16.6% -15.8% -15.0% -14.2% -13.5% -12.7% -11.9% -11.1% -10.4% -9.6% -8.8% -8.0% -7.3% -6.5% -5.7% -5.0% -4.2% -3.4%
B3 13 -20.8% -20.0% -19.2% -18.5% -17.7% -16.9% -16.1% -15.4% -14.6% -13.8% -13.1% -12.3% -11.5% -10.7% -10.0% -9.2% -8.4% -7.7% -6.9% -6.1% -5.3% -4.6% -3.8%
B4 14 -21.1% -20.3% -19.6% -18.8% -18.0% -17.3% -16.5% -15.7% -15.0% -14.2% -13.4% -12.7% -11.9% -11.1% -10.3% -9.6% -8.8% -8.0% -7.3% -6.5% -5.7% -5.0% -4.2%

Page 81
B5 15 -21.4% -20.7% -19.9% -19.1% -18.4% -17.6% -16.8% -16.1% -15.3% -14.6% -13.8% -13.0% -12.3% -11.5% -10.7% -10.0% -9.2% -8.4% -7.7% -6.9% -6.1% -5.4% -4.6%
C1 16 -21.8% -21.0% -20.2% -19.5% -18.7% -18.0% -17.2% -16.4% -15.7% -14.9% -14.2% -13.4% -12.6% -11.9% -11.1% -10.3% -9.6% -8.8% -8.1% -7.3% -6.5% -5.8% -5.0%
C2 17 -22.1% -21.3% -20.6% -19.8% -19.1% -18.3% -17.6% -16.8% -16.0% -15.3% -14.5% -13.8% -13.0% -12.2% -11.5% -10.7% -10.0% -9.2% -8.4% -7.7% -6.9% -6.2% -5.4%
C3 18 -22.4% -21.7% -20.9% -20.2% -19.4% -18.7% -17.9% -17.1% -16.4% -15.6% -14.9% -14.1% -13.4% -12.6% -11.9% -11.1% -10.3% -9.6% -8.8% -8.1% -7.3% -6.6% -5.8%
C4 19 -22.8% -22.0% -21.3% -20.5% -19.8% -19.0% -18.3% -17.5% -16.8% -16.0% -15.2% -14.5% -13.7% -13.0% -12.2% -11.5% -10.7% -10.0% -9.2% -8.5% -7.7% -7.0% -6.2%
C5 20 -23.1% -22.4% -21.6% -20.9% -20.1% -19.4% -18.6% -17.9% -17.1% -16.4% -15.6% -14.9% -14.1% -13.4% -12.6% -11.9% -11.1% -10.4% -9.6% -8.9% -8.1% -7.4% -6.6%
D1 21 -23.4% -22.7% -22.0% -21.2% -20.5% -19.7% -19.0% -18.2% -17.5% -16.7% -16.0% -15.2% -14.5% -13.7% -13.0% -12.2% -11.5% -10.7% -10.0% -9.3% -8.5% -7.8% -7.0%
D2 22 -23.8% -23.0% -22.3% -21.5% -20.8% -20.1% -19.3% -18.6% -17.8% -17.1% -16.3% -15.6% -14.9% -14.1% -13.4% -12.6% -11.9% -11.1% -10.4% -9.6% -8.9% -8.2% -7.4%
D3 23 -24.1% -23.4% -22.6% -21.9% -21.2% -20.4% -19.7% -18.9% -18.2% -17.4% -16.7% -16.0% -15.2% -14.5% -13.7% -13.0% -12.3% -11.5% -10.8% -10.0% -9.3% -8.6% -7.8%
Wing Sensitivity, only lower front flaps on, without gurney flap installed

D4 24 -24.5% -23.7% -23.0% -22.2% -21.5% -20.8% -20.0% -19.3% -18.5% -17.8% -17.1% -16.3% -15.6% -14.9% -14.1% -13.4% -12.6% -11.9% -11.2% -10.4% -9.7% -9.0% -8.2%
D5 25 -24.8% -24.1% -23.3% -22.6% -21.8% -21.1% -20.4% -19.6% -18.9% -18.2% -17.4% -16.7% -16.0% -15.2% -14.5% -13.8% -13.0% -12.3% -11.6% -10.8% -10.1% -9.4% -8.6%
 FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCz 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 85.3% 85.5% 85.8% 86.0% 86.3% 86.5% 86.8% 87.0% 87.3% 87.5% 87.8% 88.0% 88.3% 88.5% 88.8% 89.0% 89.3% 89.6% 89.8% 90.1% 90.3% 90.6% 90.8%
↓ A2 7 86.0% 86.3% 86.5% 86.8% 87.0% 87.3% 87.5% 87.7% 88.0% 88.2% 88.5% 88.7% 89.0% 89.2% 89.4% 89.7% 89.9% 90.2% 90.4% 90.7% 90.9% 91.2% 91.4%
A3 8 86.8% 87.0% 87.3% 87.5% 87.7% 88.0% 88.2% 88.4% 88.7% 88.9% 89.1% 89.4% 89.6% 89.9% 90.1% 90.3% 90.6% 90.8% 91.0% 91.3% 91.5% 91.8% 92.0%
A4 9 87.5% 87.8% 88.0% 88.2% 88.4% 88.7% 88.9% 89.1% 89.4% 89.6% 89.8% 90.1% 90.3% 90.5% 90.7% 91.0% 91.2% 91.4% 91.7% 91.9% 92.1% 92.4% 92.6%
A5 10 88.3% 88.5% 88.7% 88.9% 89.2% 89.4% 89.6% 89.8% 90.1% 90.3% 90.5% 90.7% 90.9% 91.2% 91.4% 91.6% 91.8% 92.1% 92.3% 92.5% 92.7% 93.0% 93.2%
B1 11 89.0% 89.2% 89.4% 89.7% 89.9% 90.1% 90.3% 90.5% 90.7% 91.0% 91.2% 91.4% 91.6% 91.8% 92.0% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.6% 93.8%

Release 3.00 (22/06/2020)

B2 12 89.8% 90.0% 90.2% 90.4% 90.6% 90.8% 91.0% 91.2% 91.4% 91.6% 91.9% 92.1% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 94.0% 94.2% 94.4%
B3 13 90.5% 90.7% 90.9% 91.1% 91.3% 91.5% 91.7% 91.9% 92.1% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 93.9% 94.2% 94.4% 94.6% 94.8% 95.0%
B4 14 91.2% 91.4% 91.6% 91.8% 92.0% 92.2% 92.4% 92.6% 92.8% 93.0% 93.2% 93.4% 93.6% 93.8% 94.0% 94.2% 94.4% 94.6% 94.8% 95.0% 95.2% 95.4% 95.6%
B5 15 92.0% 92.2% 92.4% 92.6% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 93.9% 94.1% 94.3% 94.4% 94.6% 94.8% 95.0% 95.2% 95.4% 95.6% 95.8% 96.0% 96.2%
C1 16 92.7% 92.9% 93.1% 93.3% 93.5% 93.6% 93.8% 94.0% 94.2% 94.4% 94.6% 94.7% 94.9% 95.1% 95.3% 95.5% 95.7% 95.8% 96.0% 96.2% 96.4% 96.6% 96.7%
C2 17 93.5% 93.7% 93.8% 94.0% 94.2% 94.4% 94.5% 94.7% 94.9% 95.1% 95.2% 95.4% 95.6% 95.8% 95.9% 96.1% 96.3% 96.5% 96.6% 96.8% 97.0% 97.2% 97.3%
C3 18 94.2% 94.4% 94.6% 94.7% 94.9% 95.1% 95.2% 95.4% 95.6% 95.7% 95.9% 96.1% 96.2% 96.4% 96.6% 96.8% 96.9% 97.1% 97.3% 97.4% 97.6% 97.8% 97.9%
C4 19 95.0% 95.1% 95.3% 95.5% 95.6% 95.8% 95.9% 96.1% 96.3% 96.4% 96.6% 96.7% 96.9% 97.1% 97.2% 97.4% 97.6% 97.7% 97.9% 98.0% 98.2% 98.4% 98.5%
C5 20 95.7% 95.9% 96.0% 96.2% 96.3% 96.5% 96.6% 96.8% 97.0% 97.1% 97.3% 97.4% 97.6% 97.7% 97.9% 98.0% 98.2% 98.3% 98.5% 98.7% 98.8% 99.0% 99.1%
D1 21 96.5% 96.6% 96.8% 96.9% 97.0% 97.2% 97.3% 97.5% 97.6% 97.8% 97.9% 98.1% 98.2% 98.4% 98.5% 98.7% 98.8% 99.0% 99.1% 99.3% 99.4% 99.6% 99.7%
D2 22 97.2% 97.3% 97.5% 97.6% 97.8% 97.9% 98.0% 98.2% 98.3% 98.5% 98.6% 98.8% 98.9% 99.0% 99.2% 99.3% 99.5% 99.6% 99.7% 99.9% 100.0% 100.2% 100.3%
D3 23 97.9% 98.1% 98.2% 98.3% 98.5% 98.6% 98.8% 98.9% 99.0% 99.2% 99.3% 99.4% 99.6% 99.7% 99.8% 100.0% 100.1% 100.2% 100.4% 100.5% 100.6% 100.8% 100.9%
D4 24 98.7% 98.8% 98.9% 99.1% 99.2% 99.3% 99.5% 99.6% 99.7% 99.8% 100.0% 100.1% 100.2% 100.4% 100.5% 100.6% 100.7% 100.9% 101.0% 101.1% 101.2% 101.4% 101.5%
D5 25 99.4% 99.6% 99.7% 99.8% 99.9% 100.0% 100.2% 100.3% 100.4% 100.5% 100.6% 100.8% 100.9% 101.0% 101.1% 101.2% 101.4% 101.5% 101.6% 101.7% 101.9% 102.0% 102.1%

Page 82
FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCx 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 89.0% 89.3% 89.5% 89.7% 90.0% 90.2% 90.4% 90.7% 90.9% 91.1% 91.4% 91.6% 91.8% 92.1% 92.3% 92.5% 92.8% 93.0% 93.2% 93.5% 93.7% 93.9% 94.2%
↓ A2 7 89.9% 90.2% 90.4% 90.6% 90.8% 91.0% 91.3% 91.5% 91.7% 91.9% 92.1% 92.4% 92.6% 92.8% 93.0% 93.2% 93.5% 93.7% 93.9% 94.1% 94.4% 94.6% 94.8%
A3 8 90.8% 91.1% 91.3% 91.5% 91.7% 91.9% 92.1% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.6% 93.8% 94.0% 94.2% 94.4% 94.6% 94.8% 95.0% 95.2% 95.4%
A4 9 91.8% 91.9% 92.1% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 93.9% 94.1% 94.3% 94.5% 94.7% 94.9% 95.1% 95.3% 95.5% 95.7% 95.9% 96.1%
A5 10 92.7% 92.8% 93.0% 93.2% 93.4% 93.6% 93.8% 93.9% 94.1% 94.3% 94.5% 94.7% 94.9% 95.1% 95.2% 95.4% 95.6% 95.8% 96.0% 96.2% 96.3% 96.5% 96.7%
B1 11 93.6% 93.7% 93.9% 94.1% 94.3% 94.4% 94.6% 94.8% 94.9% 95.1% 95.3% 95.5% 95.6% 95.8% 96.0% 96.1% 96.3% 96.5% 96.7% 96.8% 97.0% 97.2% 97.3%
B2 12 94.5% 94.6% 94.8% 95.0% 95.1% 95.3% 95.4% 95.6% 95.8% 95.9% 96.1% 96.2% 96.4% 96.5% 96.7% 96.9% 97.0% 97.2% 97.3% 97.5% 97.7% 97.8% 98.0%
B3 13 95.4% 95.5% 95.7% 95.8% 96.0% 96.1% 96.3% 96.4% 96.6% 96.7% 96.9% 97.0% 97.2% 97.3% 97.4% 97.6% 97.7% 97.9% 98.0% 98.2% 98.3% 98.5% 98.6%
B4 14 96.3% 96.4% 96.6% 96.7% 96.8% 97.0% 97.1% 97.2% 97.4% 97.5% 97.6% 97.8% 97.9% 98.0% 98.2% 98.3% 98.4% 98.6% 98.7% 98.8% 99.0% 99.1% 99.2%
B5 15 97.2% 97.3% 97.5% 97.6% 97.7% 97.8% 97.9% 98.1% 98.2% 98.3% 98.4% 98.6% 98.7% 98.8% 98.9% 99.0% 99.2% 99.3% 99.4% 99.5% 99.6% 99.8% 99.9%
C1 16 98.1% 98.2% 98.4% 98.5% 98.6% 98.7% 98.8% 98.9% 99.0% 99.1% 99.2% 99.3% 99.4% 99.5% 99.7% 99.8% 99.9% 100.0% 100.1% 100.2% 100.3% 100.4% 100.5%
C2 17 99.0% 99.1% 99.2% 99.3% 99.4% 99.5% 99.6% 99.7% 99.8% 99.9% 100.0% 100.1% 100.2% 100.3% 100.4% 100.5% 100.6% 100.7% 100.8% 100.9% 101.0% 101.1% 101.2%
C3 18 100.0% 100.0% 100.1% 100.2% 100.3% 100.4% 100.5% 100.5% 100.6% 100.7% 100.8% 100.9% 101.0% 101.0% 101.1% 101.2% 101.3% 101.4% 101.5% 101.5% 101.6% 101.7% 101.8%
C4 19 100.9% 100.9% 101.0% 101.1% 101.2% 101.2% 101.3% 101.4% 101.4% 101.5% 101.6% 101.6% 101.7% 101.8% 101.9% 101.9% 102.0% 102.1% 102.1% 102.2% 102.3% 102.4% 102.4%
C5 20 101.8% 101.8% 101.9% 102.0% 102.0% 102.1% 102.1% 102.2% 102.2% 102.3% 102.4% 102.4% 102.5% 102.5% 102.6% 102.7% 102.7% 102.8% 102.8% 102.9% 103.0% 103.0% 103.1%
D1 21 102.7% 102.7% 102.8% 102.8% 102.9% 102.9% 103.0% 103.0% 103.1% 103.1% 103.2% 103.2% 103.2% 103.3% 103.3% 103.4% 103.4% 103.5% 103.5% 103.6% 103.6% 103.7% 103.7%
D2 22 103.6% 103.6% 103.7% 103.7% 103.7% 103.8% 103.8% 103.8% 103.9% 103.9% 103.9% 104.0% 104.0% 104.0% 104.1% 104.1% 104.1% 104.2% 104.2% 104.2% 104.3% 104.3% 104.3%
D3 23 104.5% 104.5% 104.6% 104.6% 104.6% 104.6% 104.6% 104.7% 104.7% 104.7% 104.7% 104.7% 104.8% 104.8% 104.8% 104.8% 104.9% 104.9% 104.9% 104.9% 104.9% 105.0% 105.0%
D4 24 105.4% 105.4% 105.4% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.5% 105.6% 105.6% 105.6% 105.6% 105.6% 105.6% 105.6% 105.6%
D5 25 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3% 106.3%
 4.6.4

Release 3.00 (22/06/2020)

FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
∆ %F 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 -15.2% -14.4% -13.7% -13.0% -12.3% -11.6% -10.8% -10.1% -9.4% -8.7% -7.9% -7.2% -6.5% -5.8% -5.1% -4.3% -3.6% -2.9% -2.2% -1.4% -0.7% +0.0% +0.7%
↓ A2 7 -15.5% -14.8% -14.1% -13.3% -12.6% -11.9% -11.2% -10.5% -9.7% -9.0% -8.3% -7.6% -6.9% -6.1% -5.4% -4.7% -4.0% -3.3% -2.6% -1.8% -1.1% -0.4% +0.3%
A3 8 -15.8% -15.1% -14.4% -13.7% -13.0% -12.3% -11.5% -10.8% -10.1% -9.4% -8.7% -8.0% -7.2% -6.5% -5.8% -5.1% -4.4% -3.7% -2.9% -2.2% -1.5% -0.8% -0.1%
A4 9 -16.2% -15.5% -14.7% -14.0% -13.3% -12.6% -11.9% -11.2% -10.5% -9.7% -9.0% -8.3% -7.6% -6.9% -6.2% -5.5% -4.8% -4.0% -3.3% -2.6% -1.9% -1.2% -0.5%
A5 10 -16.5% -15.8% -15.1% -14.4% -13.7% -13.0% -12.2% -11.5% -10.8% -10.1% -9.4% -8.7% -8.0% -7.3% -6.6% -5.9% -5.1% -4.4% -3.7% -3.0% -2.3% -1.6% -0.9%
B1 11 -16.8% -16.1% -15.4% -14.7% -14.0% -13.3% -12.6% -11.9% -11.2% -10.5% -9.8% -9.1% -8.4% -7.6% -6.9% -6.2% -5.5% -4.8% -4.1% -3.4% -2.7% -2.0% -1.3%
B2 12 -17.2% -16.5% -15.8% -15.1% -14.4% -13.7% -12.9% -12.2% -11.5% -10.8% -10.1% -9.4% -8.7% -8.0% -7.3% -6.6% -5.9% -5.2% -4.5% -3.8% -3.1% -2.4% -1.7%
B3 13 -17.5% -16.8% -16.1% -15.4% -14.7% -14.0% -13.3% -12.6% -11.9% -11.2% -10.5% -9.8% -9.1% -8.4% -7.7% -7.0% -6.3% -5.6% -4.9% -4.2% -3.5% -2.8% -2.1%
B4 14 -17.8% -17.1% -16.4% -15.7% -15.0% -14.4% -13.7% -13.0% -12.3% -11.6% -10.9% -10.2% -9.5% -8.8% -8.1% -7.4% -6.7% -6.0% -5.3% -4.6% -3.9% -3.2% -2.5%

Page 83
B5 15 -18.2% -17.5% -16.8% -16.1% -15.4% -14.7% -14.0% -13.3% -12.6% -11.9% -11.2% -10.5% -9.8% -9.1% -8.4% -7.8% -7.1% -6.4% -5.7% -5.0% -4.3% -3.6% -2.9%
C1 16 -18.5% -17.8% -17.1% -16.4% -15.7% -15.1% -14.4% -13.7% -13.0% -12.3% -11.6% -10.9% -10.2% -9.5% -8.8% -8.1% -7.4% -6.7% -6.1% -5.4% -4.7% -4.0% -3.3%
C2 17 -18.8% -18.2% -17.5% -16.8% -16.1% -15.4% -14.7% -14.0% -13.3% -12.6% -12.0% -11.3% -10.6% -9.9% -9.2% -8.5% -7.8% -7.1% -6.4% -5.8% -5.1% -4.4% -3.7%
C3 18 -19.2% -18.5% -17.8% -17.1% -16.4% -15.8% -15.1% -14.4% -13.7% -13.0% -12.3% -11.6% -10.9% -10.3% -9.6% -8.9% -8.2% -7.5% -6.8% -6.1% -5.5% -4.8% -4.1%
C4 19 -19.5% -18.8% -18.1% -17.5% -16.8% -16.1% -15.4% -14.7% -14.1% -13.4% -12.7% -12.0% -11.3% -10.6% -10.0% -9.3% -8.6% -7.9% -7.2% -6.5% -5.9% -5.2% -4.5%
C5 20 -19.9% -19.2% -18.5% -17.8% -17.1% -16.5% -15.8% -15.1% -14.4% -13.7% -13.1% -12.4% -11.7% -11.0% -10.3% -9.7% -9.0% -8.3% -7.6% -6.9% -6.2% -5.6% -4.9%
D1 21 -20.2% -19.5% -18.8% -18.2% -17.5% -16.8% -16.1% -15.4% -14.8% -14.1% -13.4% -12.7% -12.1% -11.4% -10.7% -10.0% -9.4% -8.7% -8.0% -7.3% -6.6% -6.0% -5.3%
D2 22 -20.5% -19.8% -19.2% -18.5% -17.8% -17.2% -16.5% -15.8% -15.1% -14.5% -13.8% -13.1% -12.4% -11.8% -11.1% -10.4% -9.7% -9.1% -8.4% -7.7% -7.0% -6.4% -5.7%
D3 23 -20.9% -20.2% -19.5% -18.8% -18.2% -17.5% -16.8% -16.2% -15.5% -14.8% -14.1% -13.5% -12.8% -12.1% -11.5% -10.8% -10.1% -9.4% -8.8% -8.1% -7.4% -6.8% -6.1%
D4 24 -21.2% -20.5% -19.9% -19.2% -18.5% -17.9% -17.2% -16.5% -15.8% -15.2% -14.5% -13.8% -13.2% -12.5% -11.8% -11.2% -10.5% -9.8% -9.2% -8.5% -7.8% -7.2% -6.5%
D5 25 -21.5% -20.9% -20.2% -19.5% -18.9% -18.2% -17.5% -16.9% -16.2% -15.5% -14.9% -14.2% -13.5% -12.9% -12.2% -11.6% -10.9% -10.2% -9.6% -8.9% -8.2% -7.6% -6.9%
Wing Sensitivity, only lower front flaps on, with gurney flap (250mmx15mm) installed
 FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCz 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 88.5% 88.7% 88.9% 89.1% 89.4% 89.6% 89.8% 90.0% 90.2% 90.5% 90.7% 90.9% 91.1% 91.4% 91.6% 91.8% 92.0% 92.3% 92.5% 92.7% 92.9% 93.1% 93.4%
↓ A2 7 89.2% 89.4% 89.6% 89.9% 90.1% 90.3% 90.5% 90.7% 90.9% 91.2% 91.4% 91.6% 91.8% 92.0% 92.2% 92.5% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 94.0%
A3 8 90.0% 90.2% 90.4% 90.6% 90.8% 91.0% 91.2% 91.4% 91.6% 91.8% 92.0% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 93.9% 94.1% 94.3% 94.6%
A4 9 90.7% 90.9% 91.1% 91.3% 91.5% 91.7% 91.9% 92.1% 92.3% 92.5% 92.7% 92.9% 93.1% 93.3% 93.5% 93.7% 93.9% 94.1% 94.3% 94.5% 94.7% 94.9% 95.2%
A5 10 91.4% 91.6% 91.8% 92.0% 92.2% 92.4% 92.6% 92.8% 93.0% 93.2% 93.4% 93.6% 93.8% 94.0% 94.2% 94.4% 94.6% 94.8% 95.0% 95.2% 95.4% 95.6% 95.7%
B1 11 92.2% 92.4% 92.6% 92.8% 92.9% 93.1% 93.3% 93.5% 93.7% 93.9% 94.1% 94.3% 94.5% 94.6% 94.8% 95.0% 95.2% 95.4% 95.6% 95.8% 96.0% 96.2% 96.3%

Release 3.00 (22/06/2020)

B2 12 92.9% 93.1% 93.3% 93.5% 93.7% 93.8% 94.0% 94.2% 94.4% 94.6% 94.8% 94.9% 95.1% 95.3% 95.5% 95.7% 95.8% 96.0% 96.2% 96.4% 96.6% 96.8% 96.9%
B3 13 93.7% 93.9% 94.0% 94.2% 94.4% 94.6% 94.7% 94.9% 95.1% 95.3% 95.4% 95.6% 95.8% 96.0% 96.1% 96.3% 96.5% 96.7% 96.8% 97.0% 97.2% 97.4% 97.5%
B4 14 94.4% 94.6% 94.8% 94.9% 95.1% 95.3% 95.4% 95.6% 95.8% 95.9% 96.1% 96.3% 96.4% 96.6% 96.8% 96.9% 97.1% 97.3% 97.5% 97.6% 97.8% 98.0% 98.1%
B5 15 95.2% 95.3% 95.5% 95.7% 95.8% 96.0% 96.1% 96.3% 96.5% 96.6% 96.8% 96.9% 97.1% 97.3% 97.4% 97.6% 97.7% 97.9% 98.1% 98.2% 98.4% 98.6% 98.7%
C1 16 95.9% 96.1% 96.2% 96.4% 96.5% 96.7% 96.8% 97.0% 97.1% 97.3% 97.5% 97.6% 97.8% 97.9% 98.1% 98.2% 98.4% 98.5% 98.7% 98.8% 99.0% 99.2% 99.3%
C2 17 96.7% 96.8% 97.0% 97.1% 97.2% 97.4% 97.5% 97.7% 97.8% 98.0% 98.1% 98.3% 98.4% 98.6% 98.7% 98.9% 99.0% 99.2% 99.3% 99.5% 99.6% 99.8% 99.9%
C3 18 97.4% 97.5% 97.7% 97.8% 98.0% 98.1% 98.2% 98.4% 98.5% 98.7% 98.8% 99.0% 99.1% 99.2% 99.4% 99.5% 99.7% 99.8% 99.9% 100.1% 100.2% 100.4% 100.5%
C4 19 98.1% 98.3% 98.4% 98.5% 98.7% 98.8% 98.9% 99.1% 99.2% 99.4% 99.5% 99.6% 99.8% 99.9% 100.0% 100.2% 100.3% 100.4% 100.6% 100.7% 100.8% 101.0% 101.1%
C5 20 98.9% 99.0% 99.1% 99.3% 99.4% 99.5% 99.7% 99.8% 99.9% 100.0% 100.2% 100.3% 100.4% 100.5% 100.7% 100.8% 100.9% 101.1% 101.2% 101.3% 101.4% 101.6% 101.7%
D1 21 99.6% 99.8% 99.9% 100.0% 100.1% 100.2% 100.4% 100.5% 100.6% 100.7% 100.8% 101.0% 101.1% 101.2% 101.3% 101.4% 101.6% 101.7% 101.8% 101.9% 102.0% 102.2% 102.3%
D2 22 100.4% 100.5% 100.6% 100.7% 100.8% 100.9% 101.1% 101.2% 101.3% 101.4% 101.5% 101.6% 101.7% 101.9% 102.0% 102.1% 102.2% 102.3% 102.4% 102.5% 102.7% 102.8% 102.9%
D3 23 101.1% 101.2% 101.3% 101.4% 101.5% 101.7% 101.8% 101.9% 102.0% 102.1% 102.2% 102.3% 102.4% 102.5% 102.6% 102.7% 102.8% 102.9% 103.0% 103.2% 103.3% 103.4% 103.5%
D4 24 101.9% 102.0% 102.1% 102.2% 102.3% 102.4% 102.5% 102.6% 102.7% 102.8% 102.9% 103.0% 103.1% 103.2% 103.3% 103.4% 103.5% 103.6% 103.7% 103.8% 103.9% 104.0% 104.1%
D5 25 102.6% 102.7% 102.8% 102.9% 103.0% 103.1% 103.2% 103.3% 103.4% 103.4% 103.5% 103.6% 103.7% 103.8% 103.9% 104.0% 104.1% 104.2% 104.3% 104.4% 104.5% 104.6% 104.7%

Page 84
FW →
A1 A2 A3 A4 A5 B1 B2 B3 B4 B5 C1 C2 C3 C4 C5 D1 D2 D3 D4 D5 E1 E2 E3
SCx 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
RW A1 6 89.8% 90.0% 90.3% 90.5% 90.8% 91.1% 91.3% 91.6% 91.8% 92.1% 92.4% 92.6% 92.9% 93.1% 93.4% 93.7% 93.9% 94.2% 94.4% 94.7% 95.0% 95.2% 95.5%
↓ A2 7 90.7% 90.9% 91.2% 91.4% 91.7% 91.9% 92.2% 92.4% 92.6% 92.9% 93.1% 93.4% 93.6% 93.9% 94.1% 94.4% 94.6% 94.9% 95.1% 95.4% 95.6% 95.9% 96.1%
A3 8 91.6% 91.8% 92.0% 92.3% 92.5% 92.8% 93.0% 93.2% 93.5% 93.7% 93.9% 94.2% 94.4% 94.6% 94.9% 95.1% 95.3% 95.6% 95.8% 96.0% 96.3% 96.5% 96.7%
A4 9 92.5% 92.7% 92.9% 93.2% 93.4% 93.6% 93.8% 94.0% 94.3% 94.5% 94.7% 94.9% 95.2% 95.4% 95.6% 95.8% 96.0% 96.3% 96.5% 96.7% 96.9% 97.2% 97.4%
A5 10 93.4% 93.6% 93.8% 94.0% 94.2% 94.5% 94.7% 94.9% 95.1% 95.3% 95.5% 95.7% 95.9% 96.1% 96.3% 96.5% 96.8% 97.0% 97.2% 97.4% 97.6% 97.8% 98.0%
B1 11 94.3% 94.5% 94.7% 94.9% 95.1% 95.3% 95.5% 95.7% 95.9% 96.1% 96.3% 96.5% 96.7% 96.9% 97.1% 97.3% 97.5% 97.7% 97.9% 98.1% 98.3% 98.5% 98.7%
B2 12 95.2% 95.4% 95.6% 95.8% 96.0% 96.1% 96.3% 96.5% 96.7% 96.9% 97.1% 97.3% 97.4% 97.6% 97.8% 98.0% 98.2% 98.4% 98.6% 98.7% 98.9% 99.1% 99.3%
B3 13 96.1% 96.3% 96.5% 96.7% 96.8% 97.0% 97.2% 97.3% 97.5% 97.7% 97.9% 98.0% 98.2% 98.4% 98.5% 98.7% 98.9% 99.1% 99.2% 99.4% 99.6% 99.8% 99.9%
B4 14 97.0% 97.2% 97.4% 97.5% 97.7% 97.8% 98.0% 98.2% 98.3% 98.5% 98.6% 98.8% 99.0% 99.1% 99.3% 99.4% 99.6% 99.8% 99.9% 100.1% 100.2% 100.4% 100.6%
B5 15 98.0% 98.1% 98.3% 98.4% 98.5% 98.7% 98.8% 99.0% 99.1% 99.3% 99.4% 99.6% 99.7% 99.9% 100.0% 100.2% 100.3% 100.5% 100.6% 100.8% 100.9% 101.1% 101.2%
C1 16 98.9% 99.0% 99.1% 99.3% 99.4% 99.5% 99.7% 99.8% 99.9% 100.1% 100.2% 100.4% 100.5% 100.6% 100.8% 100.9% 101.0% 101.2% 101.3% 101.4% 101.6% 101.7% 101.8%
C2 17 99.8% 99.9% 100.0% 100.1% 100.3% 100.4% 100.5% 100.6% 100.8% 100.9% 101.0% 101.1% 101.3% 101.4% 101.5% 101.6% 101.7% 101.9% 102.0% 102.1% 102.2% 102.4% 102.5%
C3 18 100.7% 100.8% 100.9% 101.0% 101.1% 101.2% 101.4% 101.5% 101.6% 101.7% 101.8% 101.9% 102.0% 102.1% 102.2% 102.3% 102.5% 102.6% 102.7% 102.8% 102.9% 103.0% 103.1%
C4 19 101.6% 101.7% 101.8% 101.9% 102.0% 102.1% 102.2% 102.3% 102.4% 102.5% 102.6% 102.7% 102.8% 102.9% 103.0% 103.1% 103.2% 103.3% 103.4% 103.5% 103.6% 103.6% 103.7%
C5 20 102.5% 102.6% 102.7% 102.8% 102.9% 102.9% 103.0% 103.1% 103.2% 103.3% 103.4% 103.5% 103.5% 103.6% 103.7% 103.8% 103.9% 104.0% 104.0% 104.1% 104.2% 104.3% 104.4%
D1 21 103.4% 103.5% 103.6% 103.6% 103.7% 103.8% 103.9% 103.9% 104.0% 104.1% 104.2% 104.2% 104.3% 104.4% 104.4% 104.5% 104.6% 104.7% 104.7% 104.8% 104.9% 104.9% 105.0%
D2 22 104.3% 104.4% 104.5% 104.5% 104.6% 104.6% 104.7% 104.8% 104.8% 104.9% 104.9% 105.0% 105.1% 105.1% 105.2% 105.2% 105.3% 105.4% 105.4% 105.5% 105.5% 105.6% 105.7%
D3 23 105.3% 105.3% 105.3% 105.4% 105.4% 105.5% 105.5% 105.6% 105.6% 105.7% 105.7% 105.8% 105.8% 105.9% 105.9% 106.0% 106.0% 106.1% 106.1% 106.2% 106.2% 106.2% 106.3%
D4 24 106.2% 106.2% 106.2% 106.3% 106.3% 106.3% 106.4% 106.4% 106.4% 106.5% 106.5% 106.5% 106.6% 106.6% 106.7% 106.7% 106.7% 106.8% 106.8% 106.8% 106.9% 106.9% 106.9%
D5 25 107.1% 107.1% 107.1% 107.1% 107.2% 107.2% 107.2% 107.2% 107.3% 107.3% 107.3% 107.3% 107.3% 107.4% 107.4% 107.4% 107.4% 107.5% 107.5% 107.5% 107.5% 107.5% 107.6%
4.7 DIFFUSER
Due to different tires sizes between Championships, the tires cut-out on the diffuser can differ from one
Championship to other. Check that the cut-out follows the Championship rules, a jig will be available at the
Tatuus' and Championship Organizer’s truck.

In case of damages to the spat fins (pn. 2402017003/004), spares are available. The spare must be bonded
to the diffuser following the position shown below, referring to the Rear Wheel axis and the underfloor ex-
ternal side:

TATUUS discourages to refer to the tire cut-out side as its shape is depending on the Championship.

Release 3.00 (22/06/2020) Page 85

5 SUSPENSIONS

5.1 MEASUREMENT STANDARD

REFERENCE PLANE: it is the plane where skid block and wooden plank are in contact, the skid block is then
the only suspended part of the car sitting below this plane.
RIDE HEIGHT: it is measured at the intersection between the vertical plane passing through the axle and the
vehicle center line. Zero when reference plane is coincident with ground, positive change when the car is
raised.
TOE: Zero when wheels are parallel, positive change when toe-out.
CAMBER: Zero when wheels are vertical, positive change when the top of the wheel is outward
CASTOR: Zero when steering axis is vertical, positive change when the contact patch is behind the intersec-
tion of steering axis and ground.

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5.2 GEOMETRY ADJUSTMENTS

5.2.1 Ride height adjustment

Front ride height is increased adding the shims ① into the front push-rod, the following tables represents
the available size and its respective effect:

Ride height adjustment Front Ride Height change Rear Ride Height change

+1mm +2.7mm +3.2mm

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5.2.2 Camber adjustment
Front camber is set changing the shims stack between Ackermann and upright:

Camber adjust-
Front Rear
ment
Camber change Camber change Toe Change

+1 mm +0.43 deg (+25’) +0.31 deg (+18’) +0.55 deg (+33’)

5.2.3 Toe adjustment

Toe can be adjusted by the steering arm length

Toe adjustment Front Rear

Total Toe Change Total Toe Change

+1 turn +1.18 deg (+1°10’) +2.59 deg (+1°35’)

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5.2.4 Caster adjustment

The apparent caster is measured on the top of the front upright (when steer angle is zero), measuring an
angle of 0° (parallel) to the reference plane equals to 10° of caster angle.

Caster adjustment Front Rear

Caster Change

+1turn +0.90 deg (+54’)

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5.2.5 UMP adjustment

The front pushrod is directly installed on the upright, its pick-up point can be adjusted longitudinally resulting
in a different weight transfer as function of the steering angle.
The farthest the point is from steer axis the higher will be the weight transfer and by consequence the steer-
ing effort.
The following diagrams summarize the possible configuration and the distance pickup to steering axis.

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5.3 VERTICAL STIFFNESS
5.3.1 Front vertical stiffness
The table below resumes stiffness options available and relevant stiffness at the wheel:

Spring stiffness [lb/in] 700 900 1100 1300

Ground stiffness [daN/mm] 12.0 15.4 18.9 22.3

Motion ratio (wheel/damper): 1.02

Springs can be preloaded acting on the damper/spring platform, the pitch of the thread is 2mm.

5.3.2 Rear vertical stiffness

The table below resumes stiffness options available:

Spring stiffness [lb/in] 700 900 1100 1300

Ground stiffness [daN/mm] 8.5 11.0 13.4 15.9

Motion ratio (wheel/damper): 1.21

Springs can be preloaded acting on the damper/spring platform, the pitch of the thread is 2mm.

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5.4 DAMPERS

The standard damper is the KONI 2812, full open length is 320mm and maximum stroke is 44mm.

Rotating the adjustment discs, located in the window of the top eye, adjust the damping. You only need a
steel pin adjustment tool of 1.5mm diameter. The adjusters are marked with letters that are visible on the
alloy top eye, with a ‘B’ for bump and an ‘R’ for rebound next to the corresponding disc.
The bump and rebound discs are also recognizable at their color. The bump disc is colored black and the
rebound discs is colored red. Rotate the discs according to the markings on the top eye.
The adjusters have 8 distinct stops (clicks), each of which marks an adjustment position.
There is a total of 8 adjustment positions from minimum to maximum adjustment.
The minimum position is referred to as position 1 and the maximum adjustment position as position 8.
The adjusters have a positive stop at the minimum and maximum position.
Never use excessive force while adjusting.

Front reference: 2812 030 769

Front valving:

Bump cartridge: 71 60 21 967 0

Rebound cartridge: 71 60 22 938 0

Mainvalve: 71 60 25 974 0

Pgas: 15 bar

Rear reference: 2812 030 932

Rear valving:

Bump cartridge: 71 60 21 932 0

Rebound cartridge: 71 60 22 932 0

Mainvalve: 71 60 25 140 0

Pgas: 15 bar

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 Front
250,0

200,0

150,0

100,0

50,0
[ daN ]

0,0
0 50 100 150 200 250 300
-50,0

-100,0

-150,0

-200,0

-250,0
[ mm/s ]

RMIN [daN] RMAX [daN] BMIN [daN] BMAX [daN]

Rear
250,0

200,0

150,0

100,0

50,0
[ daN ]

0,0
0 50 100 150 200 250 300
-50,0

-100,0

-150,0

-200,0

-250,0
[ mm/s ]

RMIN [daN] RMAX [daN] BMIN [daN] BMAX [daN]

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5.5 ROLLING STIFFNESS
5.5.1 Front roll stiffness
The motion ratio of the front anti-roll bar is:

Blade length [mm] 100 90 80

Anti-rollbar/ Chassis [°/°] 12.8 14.2 15.9

The ratio represents the torsion angle of the antiroll bar resulting from a roll of 1° on the chassis.

The following table summarizes anti-roll bar options available:

Rollbar diameter [mm] 18.7 22.5

Blade length [mm] 100 90 80 100 90 80
ARbar Torsion stiffness [daN*mm/°] 7300 11700
Roll stiffness (@ ground) [daN*m/deg] 1200 1470 1852 1920 2370 2990

5.5.2 Rear roll stiffness

The motion ratio of the front anti-roll bar is:

Blade length [mm] 80 70 60

Anti-rollbar/ Chassis [°/°] 14.6 16.7 19.4

The ratio represents the torsion angle of the antiroll bar resulting from a roll of 1° on the chassis.

The following table summarizes anti-roll bar options available:

Rollbar diameter [mm] 10.0 12.0

Blade length [mm] 80 70 60 80 70 60
ARbar Torsion stiffness [daN*mm/°] 850 1765
Roll stiffness (@ ground) [daN*m/deg] 182 240 320 377 490 665

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5.6 SUSPENSION GEOMETRY
5.6.1 Front suspension geometry
The origin is located at the intersection of front wheel axle and reference plane, the coordinate of the contact
point is then below the reference plane by a value of Rd-Zn where Rd is the Rolling Radius of the tire and Zn
is the z coordinate of point N.

X Y Z
A -50.0 179.4 269
B -6.9 663.9 225
C 300.0 196.2 271
D -50.0 179.4 440
E 19.5 626.6 375
F 300.0 196.2 429
S -85.1 683.3 354
T -130.0 195.0 422
H 0.0 775.6 262
L 0.0 787.5 Rd-ZN
N 0.0 787.5 262
U 383.6 80.0 567
V 83.8 81.0 566
P 80.0 163.0 525
Q 80.0 140.3 480
M 45.1 160.6 526
W 2.1 651.2 276
X -185.0 95.0 450
Y -185.0 0.0 450
Z -185.0 95.0 550

Release 3.00 (22/06/2020) Page 95

 R 51.3 96.5 559

5.6.2 Rear suspension geometry

Pickup nomenclature according to the following image

The vertical step between pickup point is 12.5mm, standard configuration BE-24.
The following table summarize the pickup point coordinates of the standard configuration (BE-24), the origin
is located at the intersection of rear wheel axle and reference plane, the coordinate of the contact point is
then below the reference plane by a value of Rd-Zn where Rd is the Rolling Radius of the tire and Zn is the z
coordinate of point N.

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 ALFA RENAULT
X Y Z X Y Z
A -450.0 170.0 164.9 -450.0 170.0 159.9
B -40.3 694.8 158.3 -40.3 694.8 153.3
C -86.0 119.4 159.3 -86.0 119.4 154.3
D -280.4 163.3 301.4 -280.4 163.3 296.4
E -15.0 626.3 331.8 -15.0 626.3 326.8
F 34.0 108.0 306.4 34.0 108.0 301.4
S 75.0 659.8 246.8 75.0 659.8 241.8
T 78.0 101.0 232.5 78.0 101.0 227.5
H 0.0 750.3 234.6 0.0 750.3 229.6
L 0.0 765.0 Rd-ZN 0.0 765.0 Rd-ZN
N 0.0 765.0 235.0 0.0 765.0 230.0
U -435.0 106.0 389.7 -435.0 106.0 384.7
V -144.0 52.9 386.6 -144.0 52.9 381.6
P -130.0 145.1 353.5 -130.0 145.1 348.5
Q -137.0 112.4 259.3 -137.0 112.4 254.3
M -92.2 141.4 352.0 -92.2 141.4 347.0
W -53.1 607.6 187.1 -53.1 607.6 182.1
X 94.0 100.0 286.0 94.0 100.0 281.0
Y 94.0 0.0 286.0 94.0 0.0 281.0
Z 106.2 100.0 354.9 106.2 100.0 349.9

Release 3.00 (22/06/2020) Page 97

 R -105.8 76.6 375.5 -105.8 76.6 370.5

5.6.2.1 Anti-effects

The following tables shows the anti-effects of the vehicle, they show the relevant numbers for the following
setting:

Front wheel hub: 262mm over reference plane

Rear wheel hub: 235mm over reference plane
Brake bias: 55% Front

5.6.2.1.1 Front

Camber derivative
Pick Up position RC Height [mm] Anti-dive [%]
[°/10mm]
STD -27 -0.20 37%

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5.6.2.1.2 Rear

Camber derivative
Pick Up position RC Height [mm] Anti-squat [%] Anti-lift [%]
[°/10mm]
AD13 58.48 0.13 1% 31%
AD14 19.39 0.07 20% 63%
AD23 63.40 0.14 -19% -5%
AD24 24.06 0.07 0% 28%
AE13 75.47 0.21 18% 10%
AE14 62.16 0.25 -2% 88%
AE23 80.53 0.22 -2% -25%
AE24 41.54 0.15 17% 8%
BD13 61.47 0.15 -18% 52%
BD14 22.52 0.08 1% 84%
BD23 66.41 0.16 -38% 18%
BD24 27.22 0.09 -19% 50%
BE13 78.27 0.22 0% 32%
BE14 39.67 0.15 19% 64%
BE23 83.39 0.23 -21% -3%
BE24 44.55 0.16 -2% 30%
BF13 94.66 0.29 17% 13%
BF14 56.38 0.22 36% 45%
BF23 99.94 0.30 -5% -22%
BF24 61.44 0.23 15% 10%
CE13 81.08 0.23 -19% 54%
CE14 42.62 0.16 0% 85%
CE23 86.22 0.24 -40% 19%
CE24 30.33 0.10 -37% 72%
CF13 97.33 0.30 -2% 34%
CF14 59.19 0.24 18% 66%
CF23 102.63 0.31 -23% 0%
CF24 64.26 0.24 -3% 32%

Release 3.00 (22/06/2020) Page 99

5.7 SUSPENSION MAINTENANCE
5.7.1 Upright Maintenance
WARNING: while undoing toe and bottom brackets of the rear upright the technicians should be careful not
undoing the studs (item ⑥, ⑦).

In order to reduce the wear at the link with the lower wishbone, a modification of the rear upright has been
developed:
The upgrade consists in the installation of a bush ②.

This upgrade has been implemented in the produc-

1 tion parts.

2 To upgrade an old spec rear upright please contact

TATUUS, as the teams are not allowed to make this
modification on their own.

Release 3.00 (22/06/2020) Page 100

5.7.2 Upright Disassembly
The upright can be disassembled for inspection:

1. Remove the secure ring [f].

2. Apply unlock spray.

3. Using the special tool [e] (pn. 2491011, available on Spare Part Catalogue), unscrew and remove the
ring nut [d].

Release 3.00 (22/06/2020) Page 101

 4. Press the hub out. Is suggested to do this operation with a hydraulic press. Pictures below shows the
procedure using a TATUUS’ special tool available upon request.
To avoid buckling and misalignment problems the procedure should be done with the pins as short
as possible in the very first phase of stroke. Once the first part of extraction stroke switch to longer
pins and complete the extraction. Different lengths of the pins should be used during the extraction.
Do not heat the upright assembly before removing the hub. Cooling the hub (only the hub) before
pressing out, i.e. filling it with dry ice, could make the extraction easier.

Pay attention to the

length of the pins

Release 3.00 (22/06/2020) Page 102

 5. For the final phase of the extraction remove the hub with a drift punch through the 4mm holes [A].

6. Remove the bearing retention ring (a).

Release 3.00 (22/06/2020) Page 103

 7. Heat the upright and bearing subassembly up to about 120°C.
8. Once heated, use the machined slot [B] to press out the bearing acting on the outer bearing ring.

Release 3.00 (22/06/2020) Page 104

5.7.3 Upright Assembly
Here below the reassembling procedure:
1. Heat the upright to about 120°C and cool the bearing to about -20°C.
2. Put the bearing into the housing acting on the outer race (a press can make the procedure quicker,
maximizing the temperature difference effect).
3. Fit the external rim [a], then tight the 6x M5 screws (8 Nm, Loctite 243).

4. Heat the upright and bearing subassembly to about 120°C and cool the hub to about -20°C.
5. Put the hub in the upright. Use a press to make the procedure quicker, maximizing the temperature
difference effect. Act on the bearing internal ring, reacting on the hub pegs flange, paying high at-
tention to the correct alignment of the components.

Release 3.00 (22/06/2020) Page 105

 6. Fit the ring nut [d]
7. Using the special tool [e] (pn. 2491011, available on Spare Parts List) tight the ring nut to 500Nm.

8. Fit the secure ring nut [f] and the M4 screws [g] (4Nm, Loctite 222)

Release 3.00 (22/06/2020) Page 106

6 STEERING

6.1 STEERING GEOMETRY

6.1.1 Standard ratio: 8 teeth pinion

Steering ratio: 11.9°/°

6.1.2 Option ratio: 7 teeth pinion

Steering ratio: 14.0°/°

Release 3.00 (22/06/2020) Page 107

6.2 STEERING MAINTENANCE

Installation drawings: please not the orientation of the front joint assembly:

Release 3.00 (22/06/2020) Page 108

7 WHEELS AND TIRES

7.1 WHEELS
Front wheels: 10.0 inches
Rear wheels: 12.0 inches

Wheel nut tightening torque: 250 Nm

Release 3.00 (22/06/2020) Page 109

7.2 TIRES

7.2.1 Giti Tires

Release 3.00 (22/06/2020) Page 110

7.2.2 Pirelli

7.2.2.1 Static measurements

The static measurements within this book are provided for each combination of tyre-rim size. Geometric
measurements are taken with the tyre fitted on a rim, inflated to 1.4bar/20.3 Psi

D [mm] Circumference length along the middle tread line of the tyre;
C [mm] Max width maximum width of the tyre;
Cb [mm] Tread width width of the tread.

A full characterization of deflection vs. vertical load at different pressures is given; measurements are taken
at three different camber levels (0°,-2.0° and -3.0°) for slick tyres.

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7.2.2.2 Dynamic measurements
Tyre dynamic characterization describes changes in dimensions due to speed and vertical load. All measure-
ments are made without any applied camber (0°) with the tyre inflated to 1.4bar/ 20.3 Psi

Loaded radius LR [mm] distance between the wheel center and the ground;
Rolling radius RR [mm] the length travelled by the tyre for each wheel's revolution divided by 2p.

7.2.2.3 Operating instructions

Before each run

Pressures:
• The tyre pressure must always be over the declared minimum running pressure defined within this
book.

After each run

Temperatures
• the offset in measured garage bulk temperature between the inside and outside of the tyre should
not exceed 20°C for optimum tyre performance
• the offset in measured garage bulk temperatures between front and rear axle should not exceed
25°C for optimum tyre performance

Pressures
• the measured garage pressure should be as close as possible to the hot target value stated within
this book
• Dry air is recommended to inflate tyres to avoid sudden changes in pressure due to humidity.
• all pressure limitations (cold and hot) stated in this book will be monitored during each event, and
modified if deemed necessary.

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7.2.2.4 Technical Limitations – F3 Regional

Tyre Inflation Pressure

Minimum Inflation Pressure Front 14.5 PSI
Minimum Inflation Pressure Rear 13.5 PSI
Hot Pressure Target (Both Axles) 20.5 PSI

Car Setup Parameters

Maximum Static Camber Front Qualifying: -4.75° / Race: -4.25
Maximum Static Camber Rear Qualifying: -3.0°

NOTE
Please remember that not complying with the technical prescriptions will expose the product to excessive
levels of mechanical stress, which could affect the integrity of the product.

To avoid any damage to the tyres caused by air leaks, we recommend the following:
• use metal valves bodies instead of rubber ones;
• check the fixing of the valves and their seal frequently;
• check the valve core;
• use metal valve caps with integral rubber o-ring seal.

7.2.2.5 Static measurements

Slick Tyres
Nominal Weight Max Width (C) Circumference Tread Width (Cb)
Size & Fitment
(kilograms) (mm) (πD) (mm) (mm)
250/570-13
6.2 284 1794 230
13”x10J
300/590-13
8.6 385 1860 300
13”x12J

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7.2.2.6 Dynamic measurements 230/570-13x10.0J SLICK @ 1.4bar (20.5psi), CA 0.0°

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7.2.2.7 Static Radial Deflection 230/570-13x10.0J @ CA 0.0° SLICK

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7.2.2.8 Static Radial Deflection 230/570-13x10.0J @ CA 3.0° SLICK

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7.2.2.9 Dynamic measurements 300/590-13x12.0J SLICK @ 1.4bar (20.5psi), CA 0.0°

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7.2.2.10 Static Radial Deflection 300/590-13x12.0J @ CA 0.0° SLICK

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7.2.2.11 Static Radial Deflection 300/590-13x12.0J @ CA 3.0° SLICK

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7.2.3 Hankook

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7.2.3.1 Tyre Characteristics (Static measurement)

7.2.3.1.1 Dimension

- The rim width shall be selected/used within the range recommended for each tire size.
- The outer diameter of the tyre shall be measured with no load applied under the appropriate pres-
sure conditions, based on the recommended rim size.

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7.2.3.1.2 Static Radial Deflection (Kv)

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7.2.3.2 Tyre Characteristics (Dynamic Measurement)
Tire dynamic characteristics are dimensional changes due to speed and vertical load.
Loaded Radius (DLR) : Distance between wheel center and ground (Unit: mm)

7.2.3.2.1 Dynamic measurements 230/560R13 F200(10J) Slick @ 1.5Bar, CA 0.0°

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7.2.3.2.2 Dynamic measurements 280/580R13 F200(12J) Slick @ 1.5Bar, CA 0.0°

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7.2.3.2.3 Dynamic measurements 230/560R13 Z217(10J) Rain @ 1.5Bar, CA 0.0°

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7.2.3.2.4 Dynamic measurements 230/560R13 Z217(10J) Rain @ 1.5Bar, CA 0.0°

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7.2.3.2.5 Dynamic measurements 280/580R13 Z217(12J) Rain @ 1.5Bar, CA 0.0°

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7.2.3.3 Operating Temperature
After driving, the temperature difference between the Inside and the outside of the tire must be between 20
degrees, and the temperature difference between the front and rear wheels must also be between 20 de-
grees.

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7.2.3.4 Tyre Care Information (Technical Limitations)
- The value of the Camber used shall not exceed (Front -4.0°, Rear -3.0°) (Purpose: To secure Safety
margin)
- The initial pressure shall be maintained at least1.0bar. (Purpose: To secure Safety margin)
- Dry air is recommended to avoid sudden pressure changes caused by humidity when inflating the
inside of the tire.
- Set the Recommended (1.4~1.5bar) air pressure to the conditions of using.

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8 BRAKE SYSTEM

8.1 TECHNICAL NOTES

8.1.1 Balance bar

Rotating the brake bias knob clockwise will shift the brake balance towards front by 1.5% per complete turn.

8.2 BRAKE SYSTEM SETUP

Master cylinder suggested configuration:

FRONT DIA REAR DIA

Standard 19.05 mm 20.64mm

The following table shows the front brake balance when the balance bar is set at the mid adjustment (master cylin-
ders have the same distance from trunnion):

REAR
5/8” (15.88mm) 3/4” (19.05mm) 13/16” (20.64mm)
FRONT

5/8” (15.88mm) 50% 59% 63%

3/4” (19.05mm) DO NOT USE 50% 54%

13/16” (20.64mm) DO NOT USE DO NOT USE 50%

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8.3 BRAKE SYSTEM BEDDING-IN
The brake bedding-in procedure is a process of repeatedly and quickly heating and cooling the brakes, in a
way that the pad deposits a uniform layer of its material on the disk surface and to evenly remove the thin
anti-corrosion coating of the disk.
Correct bedding-in procedure is necessary not only for optimum performance of the system, but also to avoid
onset of judder (vibration felt through brake and steering).

Brake bedding-in process:

1. Check the disc before use, in particular its surface conditions. To avoid contamination during bed-
ding, if needed, cleaning of the disk surface with sandpaper above FEPA 600, brake cleaner or similar
is possible.
2. In order to prevent unpredictable heat transfer on disc surface, and resultant thermal deformation
(cracks, vibrations) the bedding should be achieved by application of groups of constant pressure
stops (for a total of about 30 stops) with gradual increasing of the initial speed (and total brake en-
ergy).
These braking must be done far from the tyre adhesion limit (50÷60% of the max race pedal pressure)
in order to achieve a corresponding gradual increase of torque and temperature to the brake system
and promote a regular third layer deposit. Between the stops let the system to cool down to avoid
overheating. During this phase the friction coefficient starts high and then decreases to the stabiliza-
tion level, so in the first phase avoid too hard braking to avoid overheating.
3. Toward the end of the bedding the disc surface is become completely and uniformly settled and the
friction efficiency optimized, so at this point no risk of uneven heat distribution and distortion should
exist. After the constant braking pressure and the subsequent layer formation (step 2) a series of 4÷5
high deceleration stops are desirable in order to set up the layer and guarantee a correct functioning.

Be aware that incorrectly bedded brakes can reduce the controllability and the lifetime of the pads and discs.
The maximum braking performance can only be achieved by correctly bedded brake parts.

This procedure should be performed on a safe part of the circuit, away from traffic, as you have to be able to
repeatedly stop quickly.

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9 COOLING SYSTEM
Cooling system pressure: 1.8 bar.

Colling system volume: 7.5lt (approx.)

10 FUEL SYSTEM

10.1 FUEL TANK

Fuel tank capacity: 60lt

It is recommended to protect the outer surfaces of the fuel bladder from scratching over carbon fibers,
cutomers are invited to protect the carbon surfaces that are in contact with the bladder with PVC tape (i.e.
Permacel) or Neoprene foam Sheet.

10.2 FUEL DRAIN PROCEDURE

Refer to chapter 3.5.2
• Button [6]: MARK, when pushed the ECU will register the input in the log file. Double click will acti-
vate fuel pump (for fuel drain purpose).

10.3 FUEL COUPLING

The feeding line to the engine is equipped with a safety dry-break:
Staubli SPT08.3655/L/JV
SPT08.7655/L/JV

The fuel tank port is equipped with a dry break

• Filling Port: Staubli N00916298 (on board)
• Mating Port:
o Staubli N009 161 98 (fuel bottle)
o Staubli SPT12.1658/L/JV (fuel machine)

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10.4 FUEL MACHINE OPTIONS
An optional system can be installed to have a breather valve dry coupled, refer to page 24D of the spare part
catalogue.

The breathing line to the tank is equipped with a safety dry-break Staubli SPT08.7655/L/JV, the mating port
(machine side) have to be SPT08.3655/L/JV.

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11 OIL SYSTEM

11.1 ALFA ROMEO OIL TANK

The oil tank is located within the gearbox bellhousing, some oil may overflow into the catch tank, regularly
drain and clean it to optimize oil level.

We recommend to respect the following procedure in order to have a consistent level measurement:

• Turn on the engine;

• Warm up temperatures (oil at 80°C);
• Run the engine for 30 second at 3000rpm;
• Turn off the engine;
• Measure the oil level: from the filler plug plate the oil level should be 180mm.

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11.2 RENAULT OIL TANK
The oil tank is located within the gearbox bellhousing, some oil may overflow into the catch tank, regularly
drain and clean it to optimize oil level.

We recommend to respect the following procedure in order to have a consistent level measurement:

• Turn on the engine;

• Warm up temperatures (oil at 80°C);
• Run the engine for 10 second at 3000rpm;
• Turn off the engine;
• Measure the oil level: from the filler plug plate the oil level should be 180mm.

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11.3 TOYOTA OIL TANK
The oil tank is located within the gearbox bellhousing, some oil may overflow into the catch tank, regularly
drain and clean it to optimize oil level.

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12 ELECTRIC SYSTEM

12.1 OVERVIEW
The wiring loom is split in four main parts:

• Chassis harness
• Engine harness
• Gearbox harness
• GCC/EGA harness

The power system (+12V) includes

• Battery: installed in the cockpit behind driver seat

• Main switch: electrically operated, located on the battery carrier
• Generator: installed on the engine
• Powerbox: current distribution is provided to the vehicle by a 9 lines power distribution module
• Starter: direct power connection
• ESA (gear actuator): fused power connection

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12.2 MAIN SWITCH
The master switch is actuated by the cockpit panel and emergency switches, connection schematics:

A: +12V Generator, +12V Chassis loom ring;

B: +12V Battery, Main switch coil supply;
C: chassis loom connector.

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12.3 BATTERY AND ALTERNATOR
Battery is a crucial component interacting with engine and gearbox management systems always pay atten-
tion to its charge level especially if you are running reset procedures.

NOTE: running engine at low revs will not charge battery!

NOTE: if the battery power is low high current consumptions (like a gearshift actuation/recharge) can result
in an engine stall, keeping higher revs and generator in charge will fix this occurrence.

12.3.1 Battery installation

It is recommended to apply a minimum of 5mm of padding, below and on the top of the battery case, and a
2mm padding per side in order to protect the battery from excessive vibration.
The padding also protects the battery casing from getting damaged. It is recommended using closed cell
neoprene.
It is also important that when strapping the battery in place, the padding is not excessively compressed, as
this would minimize its effect.
We also recommend that the battery cables are fully supported so they do not add any extra stress onto the
battery terminals. If they are too short, the engines movement when revved will be transferred through the
cable to the battery. If the cables are too long, they may have weigh enough and move when accelerating,
braking or cornering, adding extra stress to the battery terminals.

A battery, which has been damaged due to vibration, will show a good open circuit voltage (12.8v or more),
but when loaded, the voltage drops to zero. The battery casing usually also shows signs of wear on the casing.
It is also important that when attaching cables to the battery terminals, that the retaining nut is tightened to
4Nm and no higher.

12.3.2 Jump battery

It is suggested the use of a jump battery during the engine crank, the jump battery must be plugged in only
when the main switch is ON.
The rear wing pillar has a double thread suitable for the Anderson SB50 plug.

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12.4 POWERBOX
The PSD9 powerbox manages the current distribution on the power lines listed on the following paragraphs.

User devices connected to customer available connections (AUX ports) must not exceed 5A in total and 2A
per power supply pin.

WARNING: Do not disconnect the powerbox connection when power is ON!

Diagnostic and functional information are available in the logger system, see chapter for details.

12.4.1 Alfa Romeo configuration

Log name
Line # User list
(name on Steering Wheel)

PSD_Fuel
1 Fuel pump
(Fuel)
Rain Light
PSD_FED
2 ADR
(Federation)
Transponder
ECU
PSD_CU_LP
3 GCC
(LP Elec)
Dashboard
Lambda
PSD_Engine
4 Turbo Valves
(Engine)
Engine Valves
PSD_AUX Beacon
5
(Aux) AUX ports

PSD_Coils
6 Engine coils
(Coils)

PSD_CU_HP Throttle valve

7
(HP Elec) GDI Injection

PSD_Starter
8 Engine starter
(Starter 1)

PSD_Starter
9 Engine Starter (redundant)
(Starter 2)

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12.4.2 Renault configuration

Log name
Line # User list
(name on Steering Wheel)

PSD_Fuel
1 Fuel pump
(Fuel)
Rain Light
PSD_FED
2 ADR
(Federation)
Transponder
PSD_CU_HP (1/2) Throttle valve
3 GDI Injection
(HP Elec)
ECU
PSD_CU_HP (2/2) GCC
4
(LP Elec) Dashboard

PSD_AUX Beacon
5
(Aux) AUX ports

PSD_Coils
6 Engine coils
(Coils)
Lambda
PSD_Engine
7 Turbo Valves
(Engine)
Engine Valves
PSD_Starter
8 Engine starter
(Starter 1)

PSD_Starter
9 Engine Starter (redundant)
(Starter 2)

12.4.3 Toyota configuration

The electric system of the Toyota engine version does not use the standard powerbox, please refer to engine
management support.

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12.5 WIRING LOOM
Refer to pdf files for electrical schematics.

12.5.1 Radio plug

A radio connector is provided in the chassis wiring, it provides a 12V power and repeat the switch of the
steering wheel on pins #2/#3.
Mating connector DTM04-4P.

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12.6 SENSORS

The T318 chassis is delivered with the following chassis sensors:

• Pedal position sensor: twin way contactless rotary sensor.
• Brake pressure sensors: 100bar pressure sensor.
• Clutch pressure sensors: 100bar pressure sensor.
• Steering position sensor: contactless rotary sensor.
• Damper displacement sensors: 50mm linear potentiometer
• Front wheel speed sensors
• Gear position sensor: contactless rotary sensor.
• Gear actuator sensor: contactless rotary sensor.
• Paddle shift position sensor: hall effect position sensors

Further available options are:

• ADR: wiring loom compatible with EMM units (Micro ADR), plug available behind the driver’s back.
• External accelerometer: CoG installed two axis accelerometers. Plug available behind the driver’s
back.
• GPS unit: GPS 10Hz unit compatible with Magneti Marelli data logger, standard and high gain anten-
nas available. Plug available at the front end of the chassis, antenna to be installed on the front
damper deck below the Kevlar patch of the damper cover.
• Video system: AIM video system configured compatible with the Magneti Marelli data stream, the
system is supplied with a junction loom to be connected to the plug CAN AUX behind driver’s seat.

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12.7 VREF LIST

12.7.1 Alfa Romeo configuration VREF list

VREF 1 VREF 2 VREF 3 VREF 4

Front Brake Pressure Throttle Pedal (B) Throttle Pedal (A) Front Left Damper Pos.
Rear Brake Pressure DBW Oil Pressure Front Right Damper Pos.
Steering Position SMOT Rail Pressure Rear Left Damper Pos.
Gear Position Cam IN Cranckase Pressure Rear Right Damper Pos.
Clutch Pressure Cam EX p/T fuel Accelerometer
Manifold Pressure
Turbo Pressure

12.7.2 Renault configuration VREF list

VREF 1 VREF 2 VREF 3 VREF 4

Rail-P E-WasteGate Accelerometer F Brake-P
Throttle P/2-2 FL Damper R Brake-P
Oil-P P/2-1 T/2-1 FR Damper Steering Pos
Pedal A Gear-Pos RL Damper Baro-P
Pedal B Clutch-P RR Damper N-Turbo
CRANK
CAM IN
CAM EX

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13 ENGINE
For any technical information contact the engine tuners.

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14 TRANSMISSION

14.1 RATIO CHART

Here below the ratio options:

Final drive
Ref.
Secondary shaft 9

Crown wheel 30

Reverse gear
Primary shaft 14
Idler 22
Secondary shaft 47

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14.1.1 Gear option 01

Gear Ratio
16/36 2.25
16/25 1.56
22/27 1.23
31/32 1.03
21/19 0.90
29/24 0.83

SLR82
7000

6500

6000

5500
RPM

5000

4500

4000

3500

3000
0,0 50,0 100,0 150,0 200,0 250,0 300,0
Speed [km/h]

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14.1.2 Gear Option

Gear Ratio
16/36 2.25
16/25 1.56
23/29 1.26
26/28 1.08
26/25 0.96
23/20 0.87

SLR82_SHORT
7000

6500

6000

5500
RPM

5000

4500

4000

3500

3000
0,0 50,0 100,0 150,0 200,0 250,0 300,0
Speed [km/h]

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14.2 DIFFERENTIAL

ZF type self-locking differential with triple friction discs and pressing plates with ramps acting symmetrically or not,
for driving or braking condition.

The following table summarize the options available with the first equipment ramp set:

Pn. F19103191
Coast Power
70° (std) 65° (std)
65° 70°
70° 80°
80° 70°

The preload is applied by a belleville washer pn. F1910313 and its carrier spacer F1910307-4.4 available in
three different thicknesses:

• F1910307-4.2
• F1910307-4.3
• F1910307-4.4

Note: An approximate reduction of the preload about 15% will be noticed after the first 60 kilometres.

Note: The cold measured preload (workshop) is approximately 15% higher than that measured hot.

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14.3 LUBRICATION
Oil capacity: 1.8 L + cooler circuit

1rst drain Drain frequency Viscosity

After a 50Km running-in Each meeting 75W140

14.4 PARTICULAR PRECAUTIONS

No additives should be added to the oil. The resulting consequences are not in any circumstances covered by
SADEV.
When topping up the rear differential oil, do not mix any other oil with that already in the box.

14.5 STORAGE AND USE

Be particularly careful with any bottles which are open when used:
Close the bottle again properly after use to prevent the introduction of water or dirt.
Store bottles horizontally, protected from severe weather.
Do not store bottles close to a washing station.
Do not decant the oil into larger containers.

14.5.1 Washing under pressure

When the rear differential is removed, seal all openings correctly to prevent the ingress of water into the
rear differential.

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14.6 GLUE COMPONENTS
Glue components and tightening torque are shown in the 3D exploded view, refer to paragraph 14.11.

WARNING:
Glue components have been chosen during tests sessions. Only ‘Loctite’ brand components must be used.
Sadev can’t ensure consequences of false glue component choice.

14.7 SPECIAL TOOLS

IMAGE PN. DESCRIPTION

FOUT9047007 Anti-splay plate

FOUT9047005 Fork adjustment tool

FOUT1910300
Compression tool mechanism
FOUT1910001

FOUT9004606 Preload adjustment tool

FOUT9004604 Preload adjustment tool

CHc M6x70 Bolt

FOUT9045201 Tool for shaft nut

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14.8 GEAR MAINTENANCE
14.8.1 Removal

• Drain gearbox through lower drain plug.

• Loose the 10x Simmonds nuts M8 retaining the cover plate.
• Remove the cover plate.

• Remove the axis of fork, circlips and nuts stopping then engage 2nd gears manually.

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 • Assemble the anti-splay plate. (FOUT9047007)

• Loose the 2x nuts (primary and secondary) with the screwing socket FOUT9045201
• Remove the anti-splay plate.
• Remove the parts one by one noting the direction of initial assembly.

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14.8.2 Refitting

• Clean and check condition of parts.

• Lightly lubricate the forks and the needle roller bearing cages using gearbox oil.
• Replace gears one after the other in the reverse order from removal. For new gears, put the refer-
ence of the gears of the primary shaft towards the operator.
• Engage 2nd gear to prevent gearbox turning.
• Assemble the anti-splay plate. (FOUT9047007)
• Clean and degrease threads on shafts and screws, then use copper grease.
• Screw primary shaft bolt and secondary shaft nut to torques: 18 daN.m
• Reinstall the splined washers & the circlips.
• Replace forks in initial locations.
• Assemble the cover plate while making turn shaft to ensure that the gear of the pump is engaged.
• Tighten the Simmonds nuts with 2.5 daN.m

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14.8.3 Selector fork adjustment

Each time gears are dismantled check the fork tuning: after tightening the secondary shaft nut, install the
fork adjustment tool (FOUT9047005).

Engage all the gears in order to check that shifting is working well and forks do not push the dog ring on its
gear wheel.
Make this check turning by hand the dog ring and its relevant gear.

(For example, engage the 3rd gear, then check that there is not excessive friction between the 3rd to 4th dog
ring and the 3rd gear ratio).

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If excessive friction is found during checking, note which gear is concerned and follow this procedure:
• Disassemble the gears and change the gear cluster shim:
o Replace the shim with a thinner one if Reverse, 1st, 3rd, 5th gears are concerned
o Otherwise replace the shim with a thicker one.
• Reassemble the gears and check again until the friction disappears.

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14.9 DIFFERENTIAL

14.9.1 Removal
• Disconnect potentiometer.
• Drain the box through the lower drain plug.
• Remove differential housing.
• Extract the differential assembly.

14.9.2 Dismantling the differential elements

• Compress the differential using the adapter (FOUT1910300), the compression washer
(FOUT1910001) and the bolt CHC M6x70.
• Remove the circlips (1) situated in front of the differential lid, then remove the adapter and the com-
pression washer (FOUT1910300 & FOUT1910001).
• Remove one by one all the components inside the differential noting their direction and the order in
which they are assembled.

M6x70 Chc bolt

FOUT1910300

FOUT1910001

14.9.3 Refitting the differential elements

• Clean and degrease the parts, check their wear and replace them if necessary.
• Lubricate with gearbox oil and put one by one the components inside the differential case, respecting
the direction and the order noted during the disassembly.
• Compress the differential with tools FOUT1910300 et FOUT1910001 and reassembly the circlip [1].

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14.10 CROWN-WHEEL REPLACEMENT

14.10.1 Secondary shaft

• Drain the box through the lower drain plug.
• Remove primary shaft and secondary shaft (see paragraph 14.8.1).
• Remove differential housing (see paragraph 14.9.1).

• Using a mallet, remove the secondary shaft and the NU207 flange.

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 • Remove the 6x M8 bolts, heating them. Clean the threads used for the NU207 flange.
• Use a bearing extractor to remove the NU207 roller bearing.
• Remove the QJ207 bearing (pushing with one of the internal races of the bearing)
• Remove the O-ring seal (1).

• Check their wear (replace if necessary).

• Clean the housing of the bearings.

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In the main housing, two dimensions are marked (as shown on the picture), note the smallest (usually around
137.25): this is dimension “A“.

On a flat plane, pile both the new bearings, and note their combined height: this is dimension ”B”.
AD = assembly dimension, this assembly dimension is printed on the secondary shaft (theoretical measure
99.64).

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The thickness “C” of the secondary shaft shim (2) is calculated as follows:

C = A – AD - B
Assemble the shim being the closest (F1910205) to the calculated thickness “C” on the secondary shaft.
Press fit the inner race of the NU207 bearing on the secondary shaft.

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In the casing:
• Set in place a new O-ring on (1) the chamfer of the gear casing located on the housing of the QJ207
bearing.
• Press fit the 4-point contact bearing QJ207
• Fit the NU207 bearing (2) in the casing.
• Place the NU207 flange on the housing, add some Loctite 270 on the M8 bolts and tighten them to
2.5 daN.m.
• Fit the shaft through the bearings using a mallet to set it in place.
• Refit the gears. Do not close the gearbox, do not fit the nut locking washer and the circlips immedi-
ately.

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14.10.2 Crown

NOTE: In the described procedure, the differential case is supposed to be empty. Press remove both bearings
on the differential case (1).

• Unscrew and remove the 8x M10 bolts of the crown by heating them.
• Remove the crown from the differential.
• Degrease the differential case and check it carefully (bearing contact patch, splines, etc). Change it if
excessive wear or damage are observed.
• Degrease the new crown.
• Fit the new crown on the differential case. Put some Loctite 648 on new 8x M10 bolts and tighten
them to 9 daN.m.
• Press fit the bearings (change them if damaged during disassembly) on the differential case carefully
position them on the dedicated surfaces of the case.

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In the main housing, two dimensions are marked (as indicated on picture), note the highest (around 170.75).
This is dimension “X”.

Measure the highest distance between the external races of the bearings assembled on the differential case
and note it: this is dimension “Y “

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The combined thickness of both crown positioning shims (2a and 2b) is calculated as follows:

Z = X + 0.1 – Y

Fit inside the main housing the differential case and the two crown positioning shims. The shims must be put
between the main housing and each of the 2 bearings (refer to following view). At the first attempt, use two
shims of similar thicknesses.

NOTE: The total thickness of both crown positioning shims must always be as close as possible of the calcu-
lated dimension Z.

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Measure the clearance between the teeth of the final drive pinion and crown. Take 5 to 8 measurements on
multiple turns of the secondary shaft. The average value must be included between 0.01mm and 0.06mm.

• If it is lower than 0.01mm: replace the crown side shim (2a) by the next thinner shim available, and
replace the opposite shim by the next thicker shim available (2b).
• If it is higher than 0.06mm: replace the crown side shim (2a) by the next thicker shim available, and
replace the opposite shim by the next thinner shim available (2b).

Repeat the procedure until getting into the allowed clearance interval.

Unscrew and remove the 10x M10 bolts of the differential cap, glue them with Loctite 243, and tighten them
at 5.5 daN.m

Change the O-ring seal of the seal plate. Then fit the seal plate on the gearbox housings.

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14.11 EXPLODED VIEWS
Refer to spare catalogue for part numbers

14.11.1 Layshaft

Torque
Item Part number Description Glue
(DaN m)
3a F9047105 Shaft plug 518
12 F9046206 M35x1.25 nut 18

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14.11.2 Mainshaft

Torque
Item Part number Description Glue
(DaN m)
2c F1910210 Secondary shaft nut 18
2f 0301077 M8x20 Cl.12.9 Chc bolt 270 2.5

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14.11.3 Barrel and forks

Torque
Item Part number Description Glue
(DaN m)
1 0301516 CHC M6x18 cl12.9 bolt 243 1.5
7 0301373 CHc M7x16 cl10.9 ZN bolt 243 2.2
11 F0059021 Selector shouldered bolt 243 2.5
14 0301138 CHc M5x12 cl10.9 ZN bolt 222 0.8
15 0301394 CHc M5x 10 ZN Cl 8.8 bolt 222 0.8
21 0101004 Bearing 6004 518
25 0101050 Bearing 6005 518
31a F0077120 Fork pin 648
32a F0077120 Fork pin 648

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14.11.4 Differential

Torque
Item Part number Description Glue
(DaN m)
16c F1910323 M10x100 Ig.16 Cl.12.9 H bolt 648 9

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14.11.5 Main case

Torque
Item Part number Description Glue
(DaN m)
1 0499005 M10x1.25 Simmonds nut 5.5
3 F1910022 Machined M10x30 bolt 243 5.5
3a 0301525 M10x30 CHc bolt 243 5.5
4i F9001922 Centering pin 648
4j F9047008 Gearbox closing plate stud 648
4p F9047031 Differential housing stud (long) 648
4q F9047030 Differential housing stud (short) 648
7a F1404429 Centering pin 648
7b 1202029 PAP 1005 P11 bushing 648
8 0499003 M8x1,25 Simmonds nut 243 2.5

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14.11.6 Selection and reverse

Torque
Item Part number Description Glue
(DaN m)
10 0106001 HK1816 bearing 648
12 0301007 M6x20 cl 10.9 CHc bolt 270 1.6
13 F1910419 Reverse gear axle 12847
14a 0106021 HK2016 bearing 648

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14.11.7 Oil pump

Torque
Item Part number Description Glue
(DaN m)
5b 0301422 M6x16 CHc bolt 243 1.5
5c 0301385 M6x20 CHc bolt 243 1.5

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14.12 REBUILDING OF THE GEARBOX
14.12.1 Sadev workshop rebuilding.

The gearboxes are delivered sealed and numbered.

The absence of Sadev's seal imposes a careful attitude in the event of minor or major problem to us, and
applies to complete reserve of our share if necessary.

Return gear boxes to revision:

At the time of the return of the gearboxes in our buildings, a certain procedure of delivery has to be re-
spected, so that our intervention can be total and practical (casing 'closed' for passage to the bench).

We must receive the complete product as described below:

• Release bearing in place
• Lubrication inlet and outlet closed by appropriate plugs (Goodridge, SpeedFlow…)
• Gear box drained and cleaned
• Drain plug and drain plug seal in place
• Differential in place
• A card specifying the kilometers since the last service

The absence of elements can be specified on the card, but in case of doubt, the material will be sent back re-
equipped.

Administrative procedure:

• Send a request for service to SADEV sales department

• Forward the material and its card (description above) in our workshops
• Approve the estimate presented by SADEV sales department
• Approximately 2 to 3 weeks of delivery time must be considered

14.12.2 Private revision

After sale parts for customers who want to proceed a revision by themselves, are delivered only by SADEV
sales service.

SADEV IS NOT RESPONSIBLE FOR ANY DAMAGE FOLLOWING A REVISION NOT EXECUTED IN A SADEV AGREED
TECHNICAL SERVICE (LIST ON DEMAND).

As every mechanical part which is dedicated for racing, there is not warranty at all from our side.

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15 SHIFT SYSTEM

15.1 SYSTEM OVERVIEW

The T318 is equipped with a semi-automatic shift system, here below a quick overview:

• GCU (Gear Control Unit): embedded in the ECU.

• GCC (Gearshift Current Controller): Magneti Marelli SRG-140/GCC, this unit manage the actuator
(ESA) control
• ESA (Electric Shift Actuator): Magneti Marelli ESA, this unit driven by the GCC (Magneti Marelli) per-
form the physical shift, ESA is a position-controlled unit, refer to the chapter 15.1.3 for its setting and
maintenance.

15.1.1 Gearshift control

The semi-automatic gearshift is controlled by several parameters of the vehicle, critical sensors are:

• Paddle sensors
• RPM
• Throttle position
• Barrel position
• Clutch pressure sensor
• REV button

Upshift
• 1st to 6th gear: right paddle
• N to 1st gear: Clutch pressure + right paddle
• R to N: Clutch pressure + right paddle

Downshift
• 6th to 1st gear: left paddle (if over-revs threshold is respected)
• 1st to N: simultaneous left + right paddle
• N to R: (car steady) Clutch pressure + REV button

The downshift is allowed only if the lower gear (to be engaged) will not results in an overrevs, if an overrev
is expected the shift will be skipped and driver has to repeat the request.

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15.1.2 ESA resting position
On Page 6 of the steering wheel display the parameter ESAP shows the rest position of the gear actuator,
the rest position should be within a range of 30mV.

A suggested length for the ESA resting position is shown below:

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15.1.3 ESA maintenance

It is reminded to check regularly the AV mounting of the ESA:

The rubber ring (pn. ORN4036) should be inspected each 1’000 km and must be replaced before 3’000 km.

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16 ELECTRONIC & SOFTWARE

16.1 ELECTRONIC
Refer to engine builder docs.

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17 ANNEXES

17.1 TIGHTENING TORQUE

8.8 grade 10.9 grade

Thread Pitch Torque Torque Torque Torque
[mm] [mm] [Nm] [Lbs ft] [Nm] [Lbs ft]
3 0,5 1,2 0,92 1,8 1,3
4 0,7 2,8 2,08 4,0 2,9
5 0,8 5,8 4,26 8,1 6,0
6 1 9,7 7,13 13,6 10,0
8 1,25 23,7 17,45 33,3 24,5
8 1 26,4 19,50 37,2 27,4
10 1,5 47,0 34,70 66,2 48,8
10 1,25 51,4 37,91 72,3 53,3
12 1,75 81,0 59,72 113,9 84,0
12 1,25 93,4 68,90 131,4 96,9
14 2 129,9 95,85 182,7 134,8
14 1,5 146,9 108,34 206,6 152,3
16 2 206,5 152,30 290,4 214,2
16 1,5 229,0 168,90 322,0 237,5

Grade 5 Grade 8
Thread Pitch Torque Torque
[Inch] [TPI] [Lbs-ft] [Lbs-ft]
1/4 28 7 10
5/16 24 14 20
3/8 24 25 35
7/16 20 40 55
1/2 20 60 85
9/16 18 85 120
5/8 18 120 170

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