2013 SKODA ROOMSTER engine

MalfunctionFirst read and observe the introductory information and safety warn-
ings
on page 100.
Emergency programme
The transmission switches to the emergency programme if there is a fault in the
automatic gearbox system.
Indications of an activated emergency programme include the following:
› Only certain gears are selected.
› Reverse gear
R cannot be used.
› Shifting gears in Tiptronic mode is not possible.
Gearbox overheating
The gearbox may, for example, become too hot due to frequent repeated starting
or stop-and-go traffic. Overheating is indicated by the warning light » page 19, 
Clutches in the automatic gearbox are too hot .
Note
Visit a specialist workshop if the gearbox has switched to the emergency pro-
gramme.
Selector lever-emergency unlocking
Fig. 94
Selector lever-emergency un-
locking
First read and observe the introductory information and safety warn-
ings on page 100.
If the selector lever lock is defective or its power supply is interrupted (e.g. dis-
charged vehicle battery, faulty fuse), the selector lever can no longer be moved
out of position P in the normal manner, and the vehicle can no longer be driven.
The selector lever emergency unlocking procedure is as follows.›
Firmly apply the handbrake.
›
Carefully pull up the front left and right cover.
›
Pull up rear cover.
›
Use a finger to press the yellow plastic part in the direction of the ar-
row » Fig. 94 .
›
At the same time, press the locking button in the selector lever and move the
selector lever to N.
The selector lever will be locked once more if it is moved again to P.

Running in

Introduction
This chapter contains information on the following subjects:
New engine
103
New tyres
104
New brake pads
104
New engine
First read and observe the introductory information given on page 103.
The engine has to be run in during the first 1 500 kilometres.Up to 1 000 kilometres
›
Do not drive faster than 3/4 of the maximum speed of the gear in use, i.e. 3/4 of
the maximum permissible engine speed.
›
No full throttle.
›
Avoid high engine speeds.
›
Do not tow a trailer.
From 1 000 up to 1 500 kilometres
Gradually increase the power output of the engine up to the full speed of the
gear engaged, i.e. up to the maximum permissible engine speed.
The red scale on the rev counter indicates the range in which the system beginsto limit the engine speed. 
103Starting-off and Driving

During the first operating hours the engine has higher internal friction than lateruntil all of the moving parts have harmonized. The driving style which you adopt
during the first approx.1 500 kilometres plays a decisive part in the success of
running in your car.
Never drive at unnecessarily high engine speeds even after the running-in period. On vehicles fitted with a manual gearbox, at the very latest shift up into the nextgear when the red area is reached. Observe the recommended gear » page 13,
Recommended gear . Very high engine speeds when accelerating (accelerator) are
automatically restricted »
.
In vehicles with manual transmission, do not drive at unnecessarily low engine
speeds. Shift down a gear when the engine is no longer running smoothly. Ob-
serve the recommended gear » page 13, Recommended gear .
CAUTION
■
The engine is not protected from excessive engine revs caused by shifting
down at the wrong time. This can result in a sudden increase in revs beyond the
permissible maximum rpm and hence engine damage.■
Never rev up a cold engine when the vehicle is stationary or when driving in in-
dividual gears.
For the sake of the environment
Do not drive at unnecessarily high engine speeds. Shifting up sooner helps save
fuel, reduces engine noise and protects the environment.
New tyres
First read and observe the introductory information given on page 103.
New tyres must firstly be “run in” since they do not offer optimal grip at first.Therefore, drive especially carefully for the first 500 km or so.

New brake pads
First read and observe the introductory information given on page 103.
New brake pads do not initially provide optimal braking performance. They firstneed to be “run in”. Therefore, drive especially carefully for the first 200 km or so.

Economical driving and environmental sustainability
 Introduction
This chapter contains information on the following subjects:
Looking ahead
105
Economical gear changing.
105
Avoiding full throttle
105
Reducing idling
106
Avoiding short distances
106
Checking tyre pressure
106
Avoiding unnecessary ballast
106
Regular maintenance
107
Saving electrical energy
107
Environmental compatibility
107
The technical requirements for low fuel usage and economic efficiency of the ve-
hicle have already been built into the vehicle at the works. ŠKODA places a partic-
ular emphasis on minimising negative effects on the environment.
It is necessary to take note of the guidelines given in this chapter in order tomake best use of these characteristics and to maintain their effectiveness.
Fuel consumption, environmental pollution and the wear to the engine, brakes
and tyres depend essentially on the following three factors.
› Your personal driving style
› Operating conditions
› Technical requirements
The fuel economy by can be improved by 10 -15 % by always looking ahead and
driving in an economical way. 
104Driving

Fuel consumption is also be influenced by external factors which are beyond the
driver's control. Consumption increases during the winter or under difficult condi-
tions, on poor roads, etc.
Fuel consumption can vary considerably from the manufacturer's data, as a result
of outside temperatures, the weather and driving style.
The optimal engine speed should be maintained when accelerating, to avoid a
high fuel consumption and resonance of the vehicle.
CAUTION
All the speed and engine revolution figures apply only when the engine is at its
normal operating temperature.
Looking ahead
First read and observe the introductory information and safety warn-
ings
on page 104.
A vehicle's highest fuel consumption occurs when accelerating, therefore unnec-
essary accelerating and braking should be avoided. If looking ahead when driving, less braking and consequently less accelerating are required.
If possible, let your vehicle coast to a stop, or use the engine brake, if you can see that the next set of traffic lights is on red, for example.

Economical gear changing.
Fig. 95
Principle sketch: Fuel consump-
tion in litres/100 km depending
on the selected gearFirst read and observe the introductory information and safety warn-
ings on page 104.
Shifting up early saves on fuel.
Manual gearbox › Drive no more than about one length of your vehicle in first gear.
› Shift up into the next gear at approximately 2000 rpm.
An effective way of achieving good fuel economy is to shift up early. Observe the
recommended gear » page 13, Recommended gear .
A suitably selected gear can have an effect on fuel consumption » Fig. 95.
Automatic gearbox › Slowly
apply the accelerator pedal. However, do not depress it as far as the
kickdown position » page 102.
› An economic driving programme is automatically selected if the accelerator ped-
al is only depressed slowly.

Avoiding full throttle
Fig. 96
Principle sketch: Fuel consump-
tion in litres/100 km. and speed
in km/h.
First read and observe the introductory information and safety warn- ings on page 104.
Driving more slowly saves fuel.
Sensitive use of the accelerator will not only significantly reduce fuel consump-
tion but also positively influence environmental pollution and wear of your vehi-
cle.
The maximum speed of your vehicle should, as far possible, never be used. Fuel
consumption, pollutant emissions and vehicle noises increase disproportionally at
high speeds. 

105Starting-off and Driving

The graph » Fig. 96 shows the ratio of fuel consumption to the speed of your ve-
hicle. Fuel consumption will be halved if you drive at only three-quarters of the
possible top speed of your vehicle.
Reducing idling
First read and observe the introductory information and safety warn-
ings
on page 104.
Idling also costs fuel.
In vehicles not equipped with the START-STOP system, turn off the engine when
in a traffic jam, at a level crossing or traffic lights with longer wait times.
Even after just 30 - 40 seconds you will have saved more fuel than that is needed
when you start the engine up again.
If an engine is only idling it takes much longer for it to reach its normal operating
temperature. Wear-and-tear and pollutant emissions, though, are particularly
high in the warming-up phase. Therefore, start driving as soon as the engine has
started, In this case high engine speeds should be avoided.

Avoiding short distances
Fig. 97
Principle sketch: Fuel consump-
tion in l/100 km at different tem-
peratures
First read and observe the introductory information and safety warn- ings on page 104.
Short distances result in an above-average high fuel consumption. We therefore recommend avoiding distances of less than 4 km if the engine is cold.
A cold engine consumes the most fuel immediately after the start. Fuel consump-
tion drops to 10 litres/100 km after just 1 kilometre. The consumption stabilises once the engine and catalytic converter have reached their operating tempera-
ture.
An important factor in this connection is also the ambient temperature. The
graph » Fig. 97 shows the different levels of fuel consumption after driving a cer-
tain distance at a temperature of +20 °C and a temperature of -10 °C.
The vehicle has a higher fuel consumption in winter than in summer.
Checking tyre pressure
First read and observe the introductory information and safety warn-
ings
on page 104.
Tyres which are correctly inflated save fuel.
Always ensure the tyre inflation pressure is correct. If the pressure is too low, the
tyres will have to overcome a higher rolling resistance. This will not only increase
fuel consumption but also tyre wear and the driving behaviour will worsen.
Always check the tyre inflation pressure when the tyres are cold.

Avoiding unnecessary ballast
First read and observe the introductory information and safety warn-
ings
on page 104.
Transporting ballast costs fuel.
Each kilogramme of weight increases the fuel consumption. Therefore we recom-
mend to carry no unnecessary weight.
It is particularly in town traffic, when one is accelerating quite often, that the ve-
hicle weight will have a significant effect upon the fuel consumption. A rule of
thumb here is that an increase in weight of 100 kilograms will cause an increase
in fuel consumption of about 1 litre/100 kilometres.
At a speed of 100 - 120 km/h, a vehicle fitted with a roof rack cross member with-out a load will use about 10 % more fuel than normal due to the increased aero- dynamic drag.

106Driving

Regular maintenanceFirst read and observe the introductory information and safety warn-
ings
on page 104.
A poorly tuned engine uses an unnecessarily high amount of fuel.
By having your vehicle regularly maintained by a specialist garage, you create theconditions needed for economical driving. The maintenance state of your vehicle has a positive effect on traffic safety and value retention
A poorly tuned engine can result in a fuel consumption which is 10 % higher than normal.
Check the oil level at regular intervals, e.g. when filling up. Oil consumption is de-
pendent to a considerable extent on the load and speed of the engine. Oil con-
sumption could be as high as 0.5 litres/1 000 km depending on your style of driv-
ing.
It is quite normal that a new engine has a higher oil consumption at first, and rea- ches its lowest level only after a certain running in time. The oil consumption of anew vehicle can therefore only be correctly assessed after driving about5 000 km.
For the sake of the environment
■ Additional improvements to the fuel economy can be made by using synthetic
high-lubricity oils.■
Regularly check the ground under the vehicle. Have your vehicle inspected by a
specialist garage if you find any stains caused by oil or other fluids on the ground.
Note
We recommend that your vehicle be serviced on a regular basis by a ŠKODA serv- ice partner.
Saving electrical energy
First read and observe the introductory information and safety warn-ings
on page 104.
When the engine is running, the alternator generates and supplies electrical pow- er. If more electrical components of the electrical system are switched on, more
fuel is needed to operate the alternator. We therefore recommend switching off
electrical components if these are no longer required.

Environmental compatibility
First read and observe the introductory information and safety warn-ings
on page 104.
Environmental protection has played a major role in the design, material selection
and production of your new ŠKODA. Particular emphasis has been placed on the
following points.
Design measures › Joints designed to be easily detached.
› Simplified disassembly due to the modular structure system.
› Improved purity of different classes of materials.
› Identification of all plastic parts in accordance with VDA Recommendation 260.
› Reduced fuel consumption and exhaust emission CO
2.
› Minimum fuel leakage during accidents.
› Reduced noise.
Choice of materials › Extensive use of recyclable material.
› Air conditioning filled with CFC-free refrigerant.
› No cadmium.
› No asbestos.
› Reduction in the “vaporisation” of plastics.
Manufacture › Solvent-free cavity protection.
› Solvent-free protection of the vehicle for transportation from the production
plant to the customer.
› The use of solvent-free adhesives.
› No CFCs used in the production process.
› Without use of mercury.
› Use of water-soluble paints.

107Starting-off and Driving

Trade-in and recycling of old cars
ŠKODA meets the requirements of the brand and its products with regard to pro-
tecting the environment and the preserving resources. All new ŠKODA vehicles
can be utilized up to 95 % and always 1)
be returned.
In a lot of countries sufficient trade-in networks have been created, where you can trade-in your vehicle. After you trade-in your vehicle, you will receive a confir-
mation stating the recycling in accordance with environmental regulations.
Note
You can find more detailed information about the trade-in and recycling of old
cars from a specialist garage.
Avoiding damage to your vehicle
 Introduction
This chapter contains information on the following subjects:
General information
108
Driving through water on streets
108
General information
First read and observe the introductory information given on page 108.
Pay attention to low-slung parts of the vehicle, such as the spoiler and exhaust,particularly in the following situations.
› When driving on poorly maintained roads and paths.
› When driving over kerbs.
› When driving on steep ramps, etc.
Particular attention is required for vehicles with sport suspension and when the vehicle is fully laden.

Driving through water on streetsFig. 98
Driving through water
First read and observe the introductory information given on page 108.
The following instructions must be observed if vehicle damage is to be avoided
when driving through water (e.g. flooded roads).
›
Determine the depth of the water before driving through it.
The water level must not reach above the web of the lower beam » Fig. 98.
›
Do not drive any faster than at a walking speed.
At a higher speed, a water wave can form in front of the vehicle, which can cause
water to penetrate into the engine's air intake system or other parts of the vehi- cle.
›
Never stop in the water, do not reverse and do not switch the engine off.
›
Deactivate the START-STOP system before driving through water » page 115,
START-STOP .
WARNING■
Driving through water, mud, sludge etc. can impair the braking power and
extend the braking distance – risk of accident!■
Avoid abrupt and sudden braking immediately after water crossings.
■
After driving through bodies of water, the brakes must be cleaned and dried
as soon as possible by intermittent braking. Only apply the brakes for the pur-
pose of drying and cleaning the brake discs if the traffic conditions permit this.
Do not place any other road users in jeopardy. 

1)
Subject to fulfilment of the national legal requirements.
108Driving

CAUTION■When driving through water, some parts of the vehicle such as the engine,
gearbox, chassis or electrics can be severely damaged.■
Oncoming vehicles can generate water waves which can exceed the permissible
water level for your vehicle.
■
Potholes, mud or rocks can be hidden under the water making it difficult or im-
possible to drive through the body of water.
■
Do not drive through salt water. The salt can lead to corrosion. Any vehicle parts
that have come into contact with salt water must be rinsed immediately with
fresh water.
Note
After driving through water, we recommend having the vehicle checked by a spe-
cialist garage.
Driving abroad
 Introduction
This chapter contains information on the following subjects:
Unleaded petrol
109
Headlights
109
In certain countries, it may be possible that the ŠKODA service partner network is
limited or has not been established. This is the reason why procuring certain
spare parts may be somewhat complicated and specialist garages may only be
able to make limited repairs.

Unleaded petrol
First read and observe the introductory information given on page 109.
A vehicle fitted with a petrol engine must always be refuelled with unleaded pet-
rol » page 158 , Unleaded petrol . Information regarding the locations of filling
stations that offer unleaded petrol is, for example, provided by the automobile
associations.

Headlights
First read and observe the introductory information given on page 109.
The low beam of your headlights is set asymmetrically. It illuminates the side of
the road on which the vehicle is being driven to a greater extent.
When driving in countries in which the traffic drives on the other side of the road
than in your home country, the asymmetrical low beam may dazzle oncoming
drivers. In order to avoid this, the headlights must be adjusted at a specialist ga-
rage.
Note
You can find out more information on adjusting the headlights at a specialist ga-
rage.
109Starting-off and Driving

Assist systems
Brake assist systems
Introduction
This chapter contains information on the following subjects:
Electronic Stability Control (ESC)
110
Antilock Braking System (ABS)
111
Traction Control System (ASR)
111
Electronic Differential Lock (EDL)
111WARNING■ A lack of fuel can cause irregular engine running or cause the engine to shut
down. The brake assist systems would then fail to function – risk of accident!■
Adjust the speed and driving style to the current visibility, weather, road and
traffic conditions. The increased safety provided by the brake assist systems
must not tempt you to take safety risks – risk of accident!
■
In the event of an ABS fault, visit a specialist garage immediately. Adjust
your style of driving according to the damage to the ABS, as you will not know
the exact extent of the damage or the extent to which this is limiting the
braking efficiency.
CAUTION
■ All four wheels must be fitted with the same tyres approved by the manufactur-
er to ensure the brake assist systems operate correctly.■
Changes to the vehicle (e.g. to the engine, brakes, chassis) can influence the
functionality of the brake assist systems » page 146, Services, modifications and
technical alterations .
■
If a fault occurs in the ABS system, the ESC, TCS and EDL will also fail to work.
An ABS fault is indicated with the warning light  » page 24 .

Electronic Stability Control (ESC)
First read and observe the introductory information and safety warn-
ings
on page 110.
The ESC system helps improve control of the vehicle in situations where it is be-
ing operated at its dynamic limits, such as a sudden change to the direction of
travel. Depending on the road surface conditions, the risk of skidding is reduced,
thereby improving the vehicle's driving stability .
The ESC system is automatically activated each time the ignition is switched on.
The direction which the driver wishes to take is determined based on the steering angle and the speed of the vehicle and is constantly compared with the actual
behaviour of the vehicle. In the event of deviations, such as the car beginning to
skid, the ESC system will automatically brake the appropriate wheel.
During an intervention of the system, the warning light 
flashes in the instru-
ment cluster.
The following systems are integrated into the electronic stabilisation control
(ESC) :
› Antilock brake system (ABS),
› Traction control (TCS),
› Electronic Differential Lock (EDL)
› Hydraulic Brake Assist (HBA)
› Hill Hold Control (HHC).
The ESC system cannot be deactivated. The 
» Fig. 99 on page 111 button can
only be used to deactivate the TCS. The 
warning light comes on in the instru-
ment cluster when the TCS is deactivated.
In the event of an ESC fault, the ESC warning light illuminates in the instrumentcluster 
» page 23 .
Hydraulic Brake Assist (HBA)
HBA increases the braking effect and helps to shorten the braking distance.
The HBA is activated by very quick operation of the brake pedal. In order to ach-
ieve the shortest possible braking distance, the brake pedal must be applied firm-
ly until the vehicle has come to a standstill.
The HBA function is automatically switched off when the brake pedal is released. The ABS is activated faster and more effectively with the intervention of the HBA. 
110Driving