2013 Seat Altea Freetrack torque

189
Intelligent technology
The ASR automatically switches on when the engine is started. If necessary,
it may be turned on or off pushing the button on the centre console.
When the ASR is switched off, the 
OFF
warning lamp will light up. The ASR
should normally be left on. Only in exceptional circumstances, when the
slipping of the wheels is required, should it be disconnected, for example
● With compact temporary spare wheel.
● When using the snow chains.
● When driving in deep snow or on loose surfaces
● When the vehicle is bogged-down, to free it by rocking.
The ASR should be switched on again as soon as possible.
WARNING
● Remember that not even the ASR can defy the laws of physics. This
should be kept in mind, particularly on slippery and wet roads and when
towing a trailer.
● Always adapt your driving style to suit the condition of the roads and
the traffic situation. The greater safety provided by the ASR should not
encourage you to run any risks.
CAUTION
● To ensure that the ASR works correctly, identical tyres should be fitted
on all four wheels. Any differences in the rolling radius of the tyres can
cause the system to reduce engine power when this is not desired.
● Any modifications made to the vehicle (for example, to the engine,
brake system, running gear or to the combination of wheels and tyres) may
affect the operation of the ABS and ASR. XDS*
Driveshaft differential
When taking a bend, the driveshaft differential mechanism allows the outer
wheel to turn at a higher speed than the inner wheel. In this way, the wheel
that is turning faster (outer wheel) receives less drive torque than the inner
wheel. This may mean that in certain situations the torque delivered to the
inner wheel is too high, causing the wheels to spin. On the other hand, the
outer wheel is receiving a lower drive torque than it could transmit. This
causes an overall loss of lateral grip on the front axle, resulting in under-
steer or “lengthening” of the trajectory.
By using the ESC sensors and signals, the XDS system is able to detect and
correct this effect.
Via the ESC, the XDS will brake the inside wheel and counter the excess
driving torque of that wheel. This means that the driver's desired trajectory
is much more precise,
The XDS system works in combination with the ESC and is always active,
even when the ASR traction control is disconnected.

Electronic Stability Control (ESC)*
General notes
The Electronic Stability Control increases the vehicle's stabil-
ity on the road. The Electronic Stability Control helps reduce the danger of skidding.
The Electronic Stability Control (ESC) includes the ABS, EDL, ASR and Steer-
ing manoeuvre recommendation systems. 
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

204Trailer towing
The attachment points for the towing bracket A
are on the lower part of the
vehicle.
The distance between the centre of the ball coupling and the ground should
never be lower than the indicated value, even with a fully loaded vehicle
and including the maximum drawbar load.
Elevation values for securing the towing bracket:
65 mm (minimum)
350 mm to 420 mm (fully laden vehicle)
344 mm
531 mm
1044 mm
1040 mm
Fitting a towing bracket
● Driving with a trailer involves an extra effort for the vehicle. Therefore,
before fitting a towing bracket, please contact a Technical Service to check
whether your cooling system needs modification.
● The legal requirements in your country must be observed (e.g. the fitting
of a separate control lamp).
● Certain vehicle components, e.g. the rear bumper, must be removed and
reinstalled. The towing bracket securing bolts must be tightened using a
torque wrench, and a power socket must be connected to the vehicle electri-
cal system. This requires specialised knowledge and tools.
● Figures in the illustration show the elevation value and the attachment
points which must be considered if you are retrofitting a towing bracket. B
CDEFG
WARNING
The towing brackets should be fitted at a specialised workshop.
● If the towing bracket is incorrectly installed, there is a serious danger
of accident.
● For your own safety, please observe the instructions provided by the
manufacturer of the towing bracket.
CAUTION
● If the power socket is incorrectly installed, this could cause damage to
the vehicle electrical system. 

245
Wheels and tyres
WARNING
● We recommend that you use only wheels and tyres which have been
approved by SEAT for your model. Failure to do so could impair vehicle
handling. Risk of accident.
● Avoid running the vehicle on tyres that are more than 6 years old. If
you have no alternative, you should drive slowly and with extra care at all
times.
● Never use old tyres or those with an unknown history of use.
● If wheel trims are retrofitted, you must ensure that the flow of air to
the brakes is not restricted. This could cause the brake system to over-
heat.
● All four wheels must be fitted with radial tyres of the same type, size
(rolling circumference) and the same tread pattern.
For the sake of the environment
Old tyres must be disposed of according to the laws in the country con-
cerned.
Note
● For technical reasons, it is not generally possible to use the wheels from
other vehicles. This can also apply to wheels of the same model. The use of
wheels or tyres which have not been approved by SEAT for use with your
model may invalidate the vehicle's type approval for use on public roads.
● If the spare tyre is not the same as the tyres that are mounted on the
vehicle (e.g. winter tyres) you should only use the spare tyre for a short peri-
od of time and drive with extra care. Refit the normal road wheel as soon as
possible. Wheel bolts
Wheel bolts must be tightened to the correct torque.
The design of wheel bolts is matched to the rims. If different wheel rims are
fitted, the correct wheel bolts with the right length and correctly shaped
bolt heads must be used. This ensures that wheels are fitted securely and
that the brake system functions correctly.
In certain circumstances, you should not use wheel bolts from a different
vehicle, even if it is the same model ⇒ page 217.
After the wheels have been changed, the tightening torque of the wheel
bolts should be checked as soon as possible with a torque wrench ⇒ 
.
The tightening torque for steel and alloy wheels is 120 Nm.
WARNING
If the wheel bolts are not tightened correctly, the wheel could become
loose while driving. Risk of accident.
● The wheel bolts must be clean and turn easily. Never apply grease or
oil to them.
● Use only wheel bolts which belong to the wheel.
● If the tightening torque of the wheel bolts is too low, they could loos-
en whilst the vehicle is in motion. Risk of accident! If the tightening tor-
que is too high, the wheel bolts and threads can be damaged.
CAUTION
The prescribed tightening torque for wheel bolts for steel and alloy wheels
is 120 Nm. 
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

251
If and when
– Place the wheel with the defective tyre in the luggage compart-
ment and secure it.
– Check the tyre pressure of the newly fitted tyre as soon as pos-
sible.
– Have the tightening torque of the wheel bolts checked as soon
as possible with a torque wrench. The prescribed torque must
be 120 Nm.
Note
● If you notice that the wheel bolts are corroded and difficult to turn when
changing a wheel, they must be replaced before having the wheel bolt tight-
ening torque checked.
● For safety reasons, drive at moderate speeds until the wheel bolt tight-
ening torque has been checked. Wheel trims
The wheel trims must be removed to gain access to the
wheel bolts.
Fig. 169 Changing a
wheel: Removing a hub
cap
Removing
– Insert the extraction hook from the tools into the designated
ring, located in one of the bolt hole covers of the wheel cover
⇒ Fig. 169.
– Pull off the hub cap. 
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

277
Description of specifications
Technical Specifications
Description of specifications Important information
Important
The information in your vehicle's official documents always
take precedence over the information in the current instruc-
tion manual. All technical specifications provided in this documentation are valid for the
standard model in Spain. The vehicle data card included in the Inspection
and Maintenance Plan in the vehicle documentation shows which engine is
installed in the vehicle.
The figures may be different depending whether additional equipment is fit-
ted, for different models, for special vehicles and for other countries.
Abbreviations used in the Technical Specifications section
Abbrevia- tionMeaning
kWKilowatt, engine power measurement.
PSPferdestärke (horsepower), formerly used to denote engine
power.
rpmRevolutions per minute - engine speed.NmNewton metres, unit of engine torque.l/100 kmFuel consumption in litres per 100 km.g/kmCarbon dioxide emissions in grams per km travelled.CO2Carbon dioxide
Abbrevia-
tionMeaning
CNCetane number, indication of the diesel combustion power.
RONResearch octane number, indication of the knock resistance
of petrol.
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

282Technical specifications
Petrol engine 2.0 155 kW (211 PS) Front-wheel drive
Engine specifications
Power output in kW (PS) rpm 155 (211)/ 5300-6200
Maximum torque in Nm at rpm 280/ 1700 - 5200
No. of cylinders/capacity in cm3
4/ 1984
Fuel Super 95 RON / Regular 91 RON a)
a)
With a slight power loss
Performance Maximum speed in km/h (mph) 220
Acceleration from 0-80 km/h (0-50 mph) in sec. 5,5
Acceleration from 0-100 km/h (0-60 mph) in sec. 7,7
Weights
Gross vehicle weight in kg 2150
Weight in running order (with driver) in kg 1606
Gross front axle weight in kg 1115
Gross rear axle weight in kg 1055
Permitted roof load in kg 75
Trailer weight
Trailer without brakes in kg 750
Trailer with brakes, gradients up to 8% in kg 1650
Trailer with brakes, gradients up to 12% in kg 1400


283
Technical specifications
Petrol engine 2.0 155 kW (211 PS) All-wheel drive
Engine specifications Power output in kW (PS) rpm 155 (211)/5300-6200
Maximum torque in Nm at rpm 280/ 1700 - 5200
No. of cylinders/capacity in cm3
4/ 1984
Fuel Super 95 RON / Regular 91 RON a)
a)
With a slight power loss
Performance Maximum speed in km/h (mph) 218
Acceleration from 0-80 km/h (0-50 mph) in sec. 5,3
Acceleration from 0-100 km/h (0-60 mph) in sec. 7,6
Weights
Gross vehicle weight in kg 2205
Weight in running order (with driver) in kg 1661
Gross front axle weight in kg 1140
Gross rear axle weight in kg 1085
Permitted roof load in kg 75
Trailer weight
Trailer without brakes in kg 750
Trailer with brakes, gradients up to 8% in kg 1650
Trailer with brakes, gradients up to 12% in kg 1650

Safety FirstOperating InstructionsPractical TipsTechnical Specifications

284Technical specifications
Diesel engine 1.6 TDI CR 77 kW (105 PS) DPF with/without Start-Stop
Engine specifications
Power output in kW (PS) rpm 77 (105)/ 4400
Maximum torque in Nm at rpm 250/ 1500 - 2500
No. of cylinders/capacity in cm3
4/ 1598
Fuel Min, diesel acc. to DIN EN 590 51 CN
Performance
Maximum speed in km/h (mph) 177
Acceleration from 0-80 km/h (0-50 mph) in sec. 8,3
Acceleration from 0-100 km/h (0-60 mph) in sec. 12,6
Weights
Gross vehicle weight in kg 2049
Weight in running order (with driver) in kg 1505
Gross front axle weight in kg 1045
Gross rear axle weight in kg 1035
Permitted roof load in kg 75
Trailer weight
Trailer without brakes in kg 740
Trailer with brakes, gradients up to 8% in kg 1500
Trailer with brakes, gradients up to 12% in kg 1400
