2020 FIAT TIPO 4DOORS torque

ACTIVE SAFETY
SYSTEMS
The vehicle has the following active
safety systems:
ABS (Anti-lock Braking System);
DTC (Drag Torque Control);
ESC (Electronic Stability Control);
TC (Traction Control);
PBA (Panic Brake Assist);
HHC (Hill Hold Control);
ERM (Electronic Rollover Mitigation);
TSC (Trailer Sway Control).
For the operation of the systems, see
the following description.
ABS (Anti-lock Braking
System)
This system, which is an integral part of
the braking system, prevents one or
more wheels from locking and slipping
in all road surface conditions,
irrespective of the intensity of the
braking action, ensuring that the vehicle
can be controlled even during
emergency braking and optimising
stopping distances.
The system intervenes during braking
when the wheels are about to lock,
typically in emergency braking or
low-grip conditions, when locking may
be more frequent.The system also improves control and
stability of the vehicle when braking on
a surface where the grip of the left and
right wheels varies, or on corners.
The Electronic Braking Force
Distribution (EBD) system completes
the system allowing the brake force to
be distributed between the front and
rear wheels.
System intervention
The driver can feel that the ABS system
has come into action because the
brake pedal pulsates slightly and the
system gets noisier: this is entirely
normal with the system operating.35) 36) 37) 38) 39) 40) 41)
DTC (Drag Torque
Control) SYSTEM
The system prevents the drive wheels
from possibly locking, which could
happen, for example, if the accelerator
pedal is released suddenly or in the
case of a sudden downshifting in
conditions of poor grip. In this
conditions, the engine braking effect
could cause the drive wheels to slip,
resulting in a loss of vehicle stability. In
these situations, the DTC system
intervenes, restoring torque to the
engine in order to conserve vehicle
stability and increase vehicle safety.
ESC (Electronic Stability
Control) SYSTEM
The ESC system improves the
directional control and stability of the
car in various driving conditions.
The ESC system corrects the vehicle’s
understeer and oversteer, distributing
the brake force on the wheels
appropriately. The torque supplied by
the engine can also be reduced in order
to maintain control of the vehicle.
The ESC system uses sensors installed
on the vehicle to determine the
trajectory that the driver intends to
follow and compares it with the
vehicle’s effective trajectory. When the
real trajectory deviates from the desired
trajectory, the ESC system intervenes to
counter the vehicle’s understeer or
oversteer.
Oversteer: occurs when the car is
turning more than it should according
to the angle of the steering wheel.
Understeer: occurs when the vehicle
is turning less than it should according
to the angle of the steering wheel.
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System intervention
The intervention of the system is
indicated by the flashing of the
warning light on the instrument
panel, to inform the driver that the
vehicle is in critical stability and grip
conditions.
42) 43) 44) 45) 46)
TC (Traction Control)
SYSTEM
The system automatically operates in
the event of slipping, loss of grip on wet
roads (aquaplaning) and acceleration on
slippery, snowy or icy roads, etc. on
one or more drive wheels. Depending
on the slipping conditions, two different
control systems are activated:
if the slipping involves both drive
wheels, the system intervenes, reducing
the power transmitted by the engine;
if the slipping only involves one of the
drive wheels, the BLD (Brake Limited
Differential) function is activated,
automatically braking the wheel which
is slipping (the behaviour of a
self-locking differential is simulated).
This will increase the engine torque
transferred to the wheel which isn't
slipping. This function remains active
even if the "Systems partially disabled"
and "Systems disabled" modes are
selected (see description in the
following pages).System intervention
The intervention of the system is
indicated by the flashing of the
warning light on the instrument
panel, to inform the driver that the
vehicle is in critical stability and grip
conditions.
47) 48) 49) 50) 51)
PBA (Panic Brake
Assist) SYSTEM
The PBA system is designed to improve
the vehicle’s braking capacity during
emergency braking.
The system detects emergency braking
by monitoring the speed and force with
which the brake pedal is pressed, and
consequently applies the optimal brake
pressure. This can reduce the braking
distance: the PBA system therefore
completes the ABS.
Maximum assistance from the PBA
system is obtained by pressing the
brake pedal very quickly. In addition, the
brake pedal should be pressed
continuously during braking, avoiding
intermittent presses, to get the most
out of the system. Do not reduce
pressure on the brake pedal until
braking is no longer necessary.
The PBA system is deactivated when
the brake pedal is released.
52) 53) 54)
HHC (Hill Hold Control)
SYSTEM
This is an integral part of the ESC
system and facilitates starting on
slopes, activating automatically in the
following cases:
uphill: vehicle stationary on a road
with a gradient higher than 5%, engine
running, brake pressed and
transmission in neutral or gear other
than reverse engaged;
downhill: vehicle stationary on a road
with a gradient higher than 5%, engine
running, brake pressed and reverse
gear engaged.
When setting off, the ESC system
control unit maintains the braking
pressure on the wheels until the engine
torque necessary for starting is
reached, or in any case for a maximum
of 2 seconds, allowing your right foot to
be moved easily from the brake pedal
to the accelerator.
When two seconds have elapsed,
without starting, the system is
automatically deactivated, gradually
releasing the braking pressure. During
this release stage it is possible to hear a
typical mechanical brake release noise,
indicating the imminent movement of
the car.
55) 56)
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SAFETY

Unnecessary actions
Avoid revving up when starting at traffic
lights or before stopping the engine.
The latter action, as well as
double-declutching, is unnecessary and
causes increased fuel consumption and
pollution.
Gear selection
Use a high gear when traffic and road
conditions allow it. Using a low gear for
faster acceleration will increase fuel
consumption. In the same way,
improper use of a high gear increases
consumption, emissions and engine
wear.
Max. speed
Fuel consumption considerably
increases as speed increases. Maintain
a constant speed, avoiding
unnecessary braking and acceleration,
which cost in terms of both fuel
consumption and emissions.
Acceleration
Accelerating violently severely affects
consumption and emissions:
acceleration should be gradual and
should not exceed the maximum
torque.CONDITIONS OF USE
Cold starting
Short journeys and frequent cold starts
do not allow the engine to reach
optimum operating temperature. This
results in a significant increase in
consumption levels (from +15 to +30%
on the urban cycle) and emissions.
Traffic and road conditions
High fuel consumption is caused by
heavy traffic, for instance when
travelling in a queue with frequent use
of low gears or in cities with many traffic
lights. Winding mountain roads and
rough road surfaces also adversely
affect consumption.
Stops in traffic
During prolonged hold-ups (e.g. level
crossings) switch off the engine.
REFUELLING THE
VEHICLE
124) 125) 126)
Before refuelling, make sure that the
fuel type is correct.
Also stop the engine before refuelling.
PETROL ENGINES
Only use 95 R.O.N. unleaded petrol (EN
228 specifications).
DIESEL ENGINES
49)
Only use Diesel for motor vehicles
(EN590 specification).
When using or parking the vehicle for a
long time in the mountains or cold
areas, it is advisable to refuel using
locally available Diesel. In this case, it is
also advisable to keep the tank over
50% full.
REFUELLING CAPACITY
To ensure that you fill the tank
completely, top up twice after the first
click of the fuel supply gun.
Further top-ups could cause faults in
the fuel feeding system.
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WARNING
124)Do not apply any object/plug to the
end of the filler which is not provided for
the car. The use of non-compliant
objects/plugs could cause a pressure
increase inside the tank, resulting in
dangerous situations.
125)Do not bring naked flames or lit
cigarettes near to the fuel filler: fire risk.
Keep your face away from the fuel filler to
prevent breathing in harmful vapours.
126)Do not use a mobile phone near the
refuelling pump: risk of fire.
127)Do not open the fuel system at high
pressure with the engine running. The
operation of the engine creates a high fuel
pressure. A jet of high-pressure fuel can
cause serious injury or death.
128)If the
AdBlue®
overheats for a
prolonged period inside the tank to over 50
°C (for example, due to direct solar
irradiation), the
AdBlue®
may decompose
and produce ammonia vapours. Ammonia
vapours have a pungent odour when the
cap of the
AdBlue®
tank is unscrewed,
therefore be careful not to inhale any
ammonia vapours in the tank outlet. In this
concentration, however, the ammonia
vapors are not harmful or dangerous to
health.
IMPORTANT
49)For diesel engines, only use diesel fuel
for motor vehicles in accordance with EN
590 European specifications. The use of
other products or mixtures may damage
the engine beyond repair and consequently
invalidate the warranty, due to the damage
caused. If you accidentally introduce other
types of fuel into the tank, do not start the
engine. Empty the tank. If the engine has
been run for even an extremely limited
amount of time, you must not only drain the
fuel tank, but the rest of the supply circuit
as well.
AdBlue®(UREA)
ADDITIVE FOR
DIESEL EMISSIONS
The car is equipped with an UREA
injection system and Selective Catalytic
Reduction to meet emission standards.
These two systems ensure compliance
with the diesel emissions requirements;
at the same, they ensure fuel-efficiency,
handling, torque and power. For
messages and system warnings, refer
to the "Warning lights and messages"
paragraph in the "Knowing the
instrument panel" chapter.
AdBlue®
(UREA) is a very stable
product with a long shelf life. Stored at
temperatures LOWER than 32 °C, it
has a shelf life of at least one year.
For more information on the
AdBlue®
liquid type, see the “Fluids and
lubricants” paragraph in the “Technical
specifications” chapter.
The car is provided with an automatic
AdBlue®
heating system when the
engine starts allowing the system to
work correctly at temperatures lower
than -11 °C.
IMPORTANT
AdBlue®
freezes at
temperatures lower than -11 °C.
124
STARTING AND DRIVING

ENGINE
175)
Versions 1.4 16V 95 HP E6 1.4 16V 95 HP E4 1.6 E.Torq E6(*)1.6 E.Torq E4(*)
Engine code 843A1000 843A1000 55268036 55268036
Cycle Otto Otto Otto Otto
Number and position of
cylinders4 in line 4 in line 4 in line 4 in line
Piston bore and stroke
(mm)72 × 84 72 × 84 77 × 85.8 77 × 85.8
Total displacement (cm³) 1368 1368 1598 1598
Compression ratio 11 : 1 11 : 1 11 : 1 11 : 1
Maximum power (EC)
(kW)
(**)70 70 81 81
corresponding engine
speed (rpm)6000 6000 5500 5500
Maximum torque (EEC)
(Nm)127 127 152 152
corresponding engine
speed (rpm)4500 4500 4500 4500
Spark plugsNGK - DCPR7E-N-10 or
BOSCH - YR7DEUNGK - DCPR7E-N-10 or
BOSCH - YR7DEUNGK - ZKR7B1 - 10 NGK - ZKR7B1-10
FuelUnleaded petrol
95 R.O.N.
(EN228 specifications)Unleaded petrol
95 R.O.N.
(EN228 specifications)Unleaded petrol
95 R.O.N.
(EN228 specifications)Unleaded petrol
95 R.O.N.
(EN228 specifications)
(*) Where fitted
(**) Figures obtained using 95 RON unleaded petrol or higher.
189

Versions 1.4 T-jet 120 HP LPG E6(*)
Engine code940B7000
CycleOtto
Number and position of cylinders 4 in line
Piston bore and stroke (mm) 72 × 84
Total displacement (cm³)1368
Compression ratio9.8 : 1
Maximum power (EC) (kW)88
corresponding engine speed (rpm) 5000
Maximum torque (EEC) (Nm)215
corresponding engine speed (rpm) 2500
Spark plugsNGK IKR9J8
Fuel95 RON unleaded petrol (EN 228 specification) / LPG for vehicle
engines (EN589 specification)
(*) For versions/markets where provided
190
TECHNICAL DATA

Versions1.3 Multijet 95 HP
E6/E6ECO1.3 Multijet 95HP
E5(*)1.6 Multijet 120 HP
E61.6 Multijet 115 HP
E6(**)
Engine code 55266963 199B1000 55260384 55260384
Cycle Diesel Diesel Diesel Diesel
Number and position of cylinders 4 in line 4 in line 4 in line 4 in line
Piston bore and stroke (mm) 69.6 × 82 69.6 × 82 79.5 × 80.5 79.5 × 80.5
Total displacement (cm³) 1248 1248 1598 1598
Compression ratio 16.8 : 1 16.8 : 1 16.5 : 1 16.5 : 1
Maximum power (EC) (kW) 70 70 88 84.4
corresponding engine speed (rpm) 3750 4000 3750 3750
Maximum torque (EEC) (Nm) 200 200 320 320
corresponding engine speed (rpm) 1500 1500 1750 1750
FuelDiesel for motor
vehicles
(EN590 Specification)Diesel for motor
vehicles
(EN590 Specification)Diesel for motor
vehicles
(EN590 Specification)Diesel for motor
vehicles
(EN590 Specification)
(*) For versions/markets where provided
(**) Version for specific markets
WARNING
175)Modifications or repairs to the supply system that are not carried out correctly or do not take the system technical specifications into
account can cause malfunctions leading to the risk of fire.
191