2011 Seat Ibiza 5D technical specifications

241
If and when
2. Connect one end of the red jump lead to the positive terminal
⇒ fig. 168 +
or ⇒ 
fig. 169 + of the vehicle with the flat bat-
tery A.
3. Connect the other end of the red jump lead to the positive ter-
minal +
in the vehicle providing assistance B.
4. On vehicles with no Start-Stop system , connect one end of the
black jump lead to the negative terminal -
in the vehicle pro-
viding assistance B ⇒ fig. 168.
5. On vehicles with the Start-Stop system , connect one end of the
black jump lead X
to a suitable ground terminal, to a solid
metal part bolted to the engine block or to the engine block it-
self ⇒ fig. 169.
6. Connect the other end of the black jump lead X
to a solid met-
al component bolted to the engine block or to the engine block
itself of the vehicle with the flat battery. Do not connect it to a
point near the battery A
.
7. Position the leads in such a way that they cannot come into contact with any moving parts in the engine compartment.
Starting
8. Start the engine of the vehicle with the boosting battery and let it run at idling speed.
9. Start the engine of the vehicle with the flat battery and wait one or two minutes until the engine is running.
Removing the jump leads
10. Before you remove the jump leads, switch off the headlights (if they are switched on). 11. Turn on the heater blower and heated rear window in the vehi-
cle with the flat battery. This helps minimise voltage peaks
which are generated when the leads are disconnected.
12. When the engine is running, disconnect the leads in reverse order to the details given above.
Connect the battery clamps so they have good metal-to-metal contact with
the battery terminals.
If the engine fails to start, switch off the starter after about 10 seconds and
try again after about half a minute.
WARNING
● Please note the safety warnings referring to working in the engine
compartment ⇒ page 194, Working in the engine compartment.
● The battery providing assistance must have the same voltage as the
flat battery (12V) and approximately the same capacity (see imprint on
battery). Failure to comply could result in an explosion.
● Never use jump leads when one of the batteries is frozen. Danger of
explosion! Even after the battery has thawed, battery acid could leak and
cause chemical burns. If a battery freezes, it should be replaced.
● Keep sparks, flames and lighted cigarettes away from batteries, dan-
ger of explosion. Failure to comply could result in an explosion.
● Observe the instructions provided by the manufacturer of the jump
leads.
● Do not connect the negative cable from the other vehicle directly to
the negative terminal of the flat battery. The gas emitted from the battery
could be ignited by sparks. Danger of explosion.
● Do not attach the negative cable from the other vehicle to parts of the
fuel system or to the brake line. 
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243
If and when
Towing and tow-starting
Tow-starting*
The use of jump leads is preferable to tow-starting.
We recommend that you do not tow-start your vehicle. Jump-start-
ing is preferable ⇒ page 240.
However, if your vehicle has to be tow-started:
– Engage the 2nd or the 3rd gear.
– Keep the clutch pressed down.
– Switch the ignition on.
– Once both vehicles are moving, release the clutch.
– As soon as the engine starts, press the clutch and move the
gear lever into neutral. This helps to prevent driving into the
towing vehicle.
WARNING
The risk of accidents is high when tow-starting. The vehicle being towed
can easily collide with the towing vehicle.
CAUTION
When tow-starting, fuel could enter the catalytic converter and damage it. Comments
Please observe the following points if you use a tow-rope:
Notes for the driver of the towing vehicle
–
Drive slowly at first until the tow-rope is taut. Then accelerate
gradually.
– Begin and change gears cautiously. If you are driving an auto-
matic vehicle, accelerate gently.
– Remember that the brake servo and power steering are not
working in the vehicle you are towing. Brake sooner than nor-
mal and pressing the pedal gently.
Notes for the driver of the towed vehicle
– Ensure that the tow-rope remains taut at all times when towing.
Tow-rope or tow-bar
It is easier and safer to tow a vehicle with a tow-bar. You should only use a
tow-rope if you do not have a tow-bar.
A tow-rope should be slightly elastic to reduce the loading on both vehicles.
It is advisable to use a tow-rope made of synthetic fibre or similarly elastic
material.
Attach the tow-rope or the tow-bar only to the towing eyes provided or a
towing bracket.
Driving style
Towing requires some experience, especially when using a tow-rope. Both
drivers should be familiar with the technique required for towing. Inexper-
ienced drivers should not attempt to tow. 
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

245
If and when
Rear towing eye
Fig. 171 Rear towing
ring
There is a towing eye at the rear on the right below the rear bumper. 
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

246Description of specifications
Technical Specifications
Description of specifications
Important information
Important
The information in the vehicle documentation always has
precedence. All technical specifications provided in this manual are valid for the stand-
ard model in Spain. The vehicle data card included in the Maintenance Pro-
gramme or the vehicle registration documents shows which engine is instal-
led in the vehicle.
The figures may be different depending on if additional equipment is fitted,
for different models, for special vehicles and for other countries.
Abbreviations used in the Technical Specifications section
AbbreviationMeaningkWKilowatt, engine power measurement.
PSPferdestärke (horsepower), formerly used to denote en-
gine 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.CO 2Carbon dioxide
AbbreviationMeaning
CNCetane number, indication of the diesel combustion pow-
er.
RONResearch octane number, indication of the knock resist-
ance of petrol.

247
Description of specifications
Vehicle identification data
The most important information is given on the identifica-
tion plate and the vehicle data sticker.
Fig. 172 Vehicle data
sticker (luggage compart-
ment)
Vehicles for certain export countries do not have an identification plate.
Identification plate
The identification plate is located on the left rib inside the engine compart-
ment.
Vehicle identification number
The vehicle identification number (chassis number) can be read from out-
side the vehicle through a viewer in the windscreen. This is located on the left-hand side of the vehicle in the lower area of the windscreen. It is also
located on the right hand side of the engine compartment.
Vehicle data
The data sticker is placed on the inside of the spare wheel well, in the lug-
gage compartment and on the rear cover of the Maintenance Programme.
The following information is provided on the vehicle data sticker:
⇒ fig. 172
Production control number
Vehicle identification number (chassis number)
Model code number
Model designation / engine power output
Engine and gearbox code letters
Paintwork number / interior trim code
Optional equipment codes
Consumption values
CO 2 emissions values
At the end of the data sticker, in points 8 and 9, you can see the consump-
tion and emission information.
Information on consumption and emissions 1)
Urban consumption (l/100 km)
Urban CO 2 emissions (g/km)
Extra-urban consumption (l/100 km)
Extra-urban CO 2 emissions (g/km)
Combined consumption (l/100 km)
Combined CO 2 emissions (g/km)

1
23456789
A
B
C
1)
The values are not valid for certain countries. In such cases, the fields are marked with “X”.
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

249
Description of specifications
Drawbar load
The maximum permitted drawbar load on the ball joint of the towing bracket
must not exceed 75 kg.
In the interest of road safety, we recommend that you always tow approach-
ing the maximum drawbar load. The response of the trailer on the road will
be poor if the drawbar load is too small.
If the maximum permissible drawbar load cannot be met (e.g. with small,
empty and light-weight single axle trailers or tandem axle trailers with a
wheelbase of less than 1 metre), a minimum of 4% of the actual trailer
weight is legally required for the drawbar load.
WARNING
● For safety reasons, do not exceed the 80 km/h limit. This is also valid
in countries where higher speeds are permitted.
● Never exceed the maximum trailer weights or the drawbar load. If the
permissible axle load or the permissible total weight is exceeded, the
driving characteristics of the vehicle may change, leading to accidents,
injuries and damage to the vehicle.

Wheels
Tyre pressure, snow chains, wheel bolts
Tyre pressures
The sticker with the tyre pressure values can be found on the inside of the
tank flap. The tyre pressure values given there are for cold tyres. The slightly
raised pressures of warm tyres must not be reduced. ⇒ 
Snow chains
Snow chains may be fitted only to the front wheels, and only for the follow-
ing tyres:
175/70R14
185/60R15Chains with links not exceeding 15 mm (including the chain
closure)
215/45R16Chains with links not exceeding 9 mm (including the chain
closure)
215/40R17Chains with links not exceeding 7 mm (including the chain
closure)
Wheel bolts
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
● Check the tyre pressure at least once per month. Checking the tyre
pressure is very important. If the tyre pressure is too high or too low,
there is an increased danger of accidents, particularly at high speeds.
● If the torque of the wheel bolts is too low, they could loosen while the
vehicle is in motion. Risk of accident! If the tightening torque is too high,
the wheel bolts and threads can be damaged.
Note
We recommend that you ask your Authorised Service Centre for information
about appropriate wheel, tyre and snow chain size. 
Safety FirstOperating InstructionsPractical TipsTechnical Specifications

250Technical specifications
Technical specifications
Checking fluid levels
From time to time, the levels of the different fluids in the ve-
hicle must be checked. Never fill with incorrect fluids, other-
wise serious damage to the engine may be caused.
Fig. 173 Diagram for the
location of the various el-
ements
Fig. 174 For vehicles
with the battery in the
luggage compartment.
Coolant expansion tank
Engine oil dipstick
Engine oil filler cap
Brake fluid reservoir
Vehicle battery
Windscreen washer fluid container
The checking and refilling of service fluids are carried out on the compo-
nents mentioned above. These operations are described in the ⇒ page 194.
Overview
You will find further explanations, instructions and restrictions on the tech-
nical specifications as of ⇒ page 246.
Note
The layout of parts may vary depending on the engine. 
1
23456

251
Technical specifications
Petrol engine 1.2 44 kW (60 PS)
Engine specifications Power output in kW (PS) rpm 44 (60)/ 5200
Maximum torque in Nm at rpm 108/ 3000
No. of cylinders/capacity in cm3
3/ 1198
Fuel Super 95 RON a)
/Normal 91 RON b)
a)
Research Octane Number = Anti-detonation rating of the petrol.
b) Slight power loss.
Performance Maximum speed in km/h 155
Acceleration from 0-80 km/h in sec. 10,3
Acceleration from 0-100 km/h in sec. 15,9
Weights
Gross vehicle weight in kg 1500
Weight in running order (with driver) in kg 1049
Gross front axle weight in kg 810
Gross rear axle weight in kg 780
Permitted roof load in kg 75
Trailer weight
Trailer without brakes 520
Trailer with brakes, gradients up to 8% 1000
Trailer with brakes, gradients up to 12% 800
Engine oil capacity
Approximate engine oil capacity with oil filter change 2.75 litres

Safety FirstOperating InstructionsPractical TipsTechnical Specifications