2020 Abarth 500 torque

ACTIVE SAFETY
SYSTEMS
The car has the following active safety
systems:
ABS (Anti-lock Braking System);
EBD (Electronic Brake force
Distribution);
DTC (Drag Torque Control);
ESC (Electronic Stability Control);
HH (Hill Holder);
ASR (Antislip Regulation);
PBA (Panic Brake Assist);
TTC (Torque Transfer 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
on all road surface conditions,
irrespective of the intensity of the
braking action, ensuring that the car
can be controlled even during
emergency braking thus 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 car 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
A slight pulsing of the brake pedal and
noise indicates the intervention of the
ABS: this is completely normal when
the system intervenes.
40) 41) 42) 43) 44) 45) 46) 47) 48)
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 these
conditions, the engine braking effect
could cause the drive wheels to slip,
resulting in a loss of car 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 car’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 car. 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
understeer or oversteer of the car.
Oversteer: occurs when the car is
turning more than it should according
to the angle of the steering wheel.
Understeer: occurs when the car is
turning less than it should according to
the angle of the steering wheel.
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 car is
in critical stability and grip conditions.
49) 50) 51) 52) 53) 54)
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HH (Hill Holder) SYSTEM
This is an integral part of the ESC
system and facilitates starting on
slopes, activating automatically in the
following cases:
uphill: car stationary on a road with a
gradient higher than 5%, engine
running, brake pressed and gearbox in
neutral or gear (other than reverse)
engaged;
downhill: car 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 required for starting is reached,
or in any case for a maximum of 2
seconds, allowing you to move your
right foot easily from the brake pedal to
the accelerator.
When the 2 seconds have elapsed,
without starting, the system is
automatically deactivated, gradually
releasing the braking pressure.
During this release stage, the typical
mechanical brake release noise can be
heard, indicating that the car is about
to move.
55) 56)
ASR (AntiSlip
Regulation) SYSTEM
This is an integral part of the ESC
system and automatically operates in
the event of one or both drive wheels
slipping, loss of grip on wet roads
(aquaplaning) and acceleration
on slippery, snowy or icy roads, etc.
Depending on the slipping conditions,
two different control systems are
activated:
if the slipping involves both drive
wheels, the ASR system intervenes,
reducing the power transmitted by the
engine;
if the slipping only involves one of
the drive wheels, it also intervenes
automatically, braking the wheel that is
slipping.
System intervention
This is indicated by theicon
appearing on the instrument panel, to
inform the driver that the car is in critical
stability and grip conditions.
Manual engagement/
disengagement
The ASR comes on automatically
whenever the engine is started. Whilst
driving, the ASR can be switched off
and subsequently switched on again by
pressing button 1fig. 51 (TTC). When
the system is not active, the LED on the
same button turns on and, on some
versions, a message appears on the
display. If the ASR is disengaged during
driving, this is automatically reactivated
at the following car starting.
When travelling on snowy roads with
snow chains, it may be helpful to turn
the ASR off: in fact, in these conditions,
the driving wheels skidding when
moving off gives you better traction.
57) 58) 59) 60) 61) 62)
PBA (Panic Brake
Assist) SYSTEM
The PBA system is designed to
improve the vehicle’s braking capacity
during emergency braking.
The system detects an emergency
braking by monitoring the speed and
strength with which the brake pedal
is pressed, thereby applying the optimal
brake pressure. This can reduce the
braking distance: the PBA system
therefore completes the ABS.
62
SAFETY

Maximum assistance of the PBA
system is obtained pressing the brake
pedal very quickly; in addition, the
brake pedal should be pressed
continuously during braking, avoiding
intermittent presses, to obtain benefits
from 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.
63) 64) 65) 66)
TTC (Torque Transfer
Control) SYSTEM
It is an integral part of the ESC system.
This system improves the transfer of
drive torque to the wheels,
guaranteeing safer and more sporty
driving, especially when cornering, far
more able to prevent understeer.
Switching the system on
The system is activated by pressing the
button in the dashboard 1 fig. 51.
Activation is signalled by the LED in the
TTC button lighting up.
WARNING
40)When the ABS intervenes and you feel
the brake pedal pulsating, do not reduce
the pressure, but hold it down firmly and
confidently; in doing so you will brake
in the shortest distance possible,
depending on the current road conditions.
41)To obtain the maximum efficiency of
the braking system, a bedding-in period of
about 500 km is needed: during this period
it is better to avoid sharp, repeated and
prolonged braking.
42)If the ABS system intervenes, this
indicates that the traction of the tyres on
the road is about to reach its limit. You
must slow down to a speed.
43)The ABS cannot overrule the natural
laws of physics, and cannot increase
the grip available according to the
condition of the road.44)The ABS cannot prevent accidents,
including those due to excessive speed on
corners, driving on low-grip surfaces or
aquaplaning.
45)The capability of the ABS must never
be tested irresponsibly and dangerously, in
such a way as to compromise personal
safety and the safety of others.
46)For the correct operation of the ABS,
the tyres must of necessity be the same
make and type on all wheels, in perfect
condition and, above all, of the prescribed
type and dimensions.
47)If the space-saver wheel (where
provided) is used, the ABS system keeps
operating. Always remember that the
space-saver wheel, being smaller than the
original wheel, provides less grip.
48)The ABS gets the most from the
available grip, but it cannot improve it; you
should therefore take every care when
driving on slippery surfaces and not take
unnecessary risks.
49)For the correct operation of the ESC
system, the tyres must necessarily be
of the same make and type on all wheels,
in perfect condition and, above all, of
the prescribed type and size.
50)The ESC functions even when the
space-saver wheel is being used. Always
remember that the space-saver wheel,
being smaller than the original wheel,
provides less grip.
51)ESC performance features must not
induce the driver to take unnecessary
or unfounded risks. Your driving style must
always be suited to the road conditions,
visibility and traffic. The driver is, in any
case, responsible for safe driving.
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STARTING THE CAR
NOTES
On starting, the system sets itself to
AUTO mode.
Using the 1, N, R buttons with the
brake pedal pressed, 1stgear, neutral
(N) or reverse (R) can be engaged.
Using the 1, N, R buttons without
pressing the brake pedal, the system
does not change gear.
The levers on the steering wheel will
not engage any gear, even with the
brake pedal pressed.
If the car is switched off with SPORT
or NORMAL modes active, the mode
previously set is kept when the engine
is restarted.
OPERATING MODE
The transmission can function in two
operating modes:
the first is manual (MANUAL). In this
mode the driver decides directly when
to shift, using the "+” fig. 78 lever on
the steering wheel to shift up, or the "–"
to shift down. If the request is accepted
by the system, when the gear change
is completed, the display shows the
new gear engaged.
the second, completely automatic
(AUTO), in which the system decides
when to change gear. A gear change
can be requested using the control
lever without having to deactivate this
mode: this function, known as “gear
suggestion”, suspends the automatic
mode for the time necessary to select
the gear requested by the driver.
22)
To turn automatic operation (AUTO) on,
press the A/M button on the gearbox
panel fig. 77; when it is on, the word
AUTO and the engaged gear are shown
on the display. When AUTO mode is
deactivated, the transmission passes to
MANUAL mode.
“Kick Down” function
The "Kick Down" function is also
available: if necessary (for example
when overtaking), pressing the
accelerator pedal fully over the
hardening point, the system downshifts
one or more gears (if the rpm allows
it) in order to provide suitable power
and torque for the acceleration
requested by the driver.
STARTING THE ENGINE
To start the engine press the brake
pedal: the system engages neutral (N)
automatically. When the starting
procedure is complete, you can hold
the brake pedal down and press the 1
or R buttons on the transmission panel
to engage 1
stor reverse (R) gear
respectively.
MOVING THE CAR
You may set off in the car in both 1st
gear and 2ndgear (advisable on road
surfaces with poor grip) and also in
reverse gear (R). The gears can only be
engaged by pressing the brake pedal.
Proceed as follows:
press the brake pedal;
press the 1 button on the gearbox
panel;
operate the “+” shift paddle while
holding down the brake pedal (only for
setting off in 2
ndgear);
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88
STARTING AND DRIVING

release the brake pedal and press
the accelerator pedal (quickly pressing
the pedal fully down and turning off
the ASR, if provided, results in a “lively”
departure).
Engaging reverse gear (R)
To engage reverse gear, press the R
button on the gearbox panel instead of
the 1 button.
Engaging neutral (N)
Press the (N) button to engage neutral.
Neutral (N) can only be engaged with
accelerator pedal released, regardless
of the brake pedal’s status (pressed
or not). In any case, pressing the brake
pedal is recommended.
ACOUSTIC SIGNAL
For safety reasons, there is a buzzer
warning when parking the car with the
gearbox in neutral (N) (the warning is
heard when the ignition key is turned to
the STOP position).
With the car stationary, the engine
running and (1
st), (2nd) or (R) engaged,
the system activates the buzzer and
automatically puts the transmission in
neutral (N) when:
the accelerator and/or brake pedal
are not operated for at least 3 minutes;
the brake pedal is pressed for longer
than 10 minutes;
the driver's door is opened and the
accelerator pedal or the brake pedal
are not operated for at least 1.5
seconds;
a fault has been detected in the
transmission.
PARKING THE CAR
To park safely, you must engage 1stor
reverse (R) gear, with your foot on
the brake pedal and, if there is a
gradient, operate the handbrake. Wait
until the indication of the gear engaged
disappears on the display before
releasing the brake pedal.
IMPORTANT NEVER leave the car with
the transmission in neutral (N).
IMPORTANT NOTES
With car stationary and gear
engaged, always keep the brake pedal
pressed until you decide to set off,
then release the brake and accelerate
gradually.
During prolonged stops with the
engine running, it is advisable to keep
the transmission in neutral (N).
In order to safeguard the efficiency
of the clutch, do not use the
accelerator to keep the car stationary
(e.g. when stopped on an incline); if the
clutch overheats it could be damaged.
Use the brake pedal or the handbrake
instead and use the accelerator pedal
only when you decide to set off.
Only use 2ndgear when you need
greater control for setting off on
surfaces with poor grip.
If you have to engage 1stgear with
reverse gear (R) engaged, or vice versa,
only do so when the car is completely
stationary and with the brake pedal
pressed.
Although it is strongly inadvisable, if
you are driving downhill and, for
unexpected reasons, you let the car
move forward with the transmission in
neutral (N), when there is a request
to engage a gear, depending on the
actual speed of the car, the system will
automatically engage the best gear
for the correct transmission of drive
torque to the wheels.
89

When necessary, you can engage
1stgear, reverse (R) or neutral (N) with
the engine off, the key at AVV and
the brake pressed. In this case, it is
advisable to change allowing at least 5
seconds to elapse between one gear
change and the next to safeguard
the operation of the hydraulic system
and the pump in particular.
Fully and quickly depressing the
accelerator pedal activates a function
that allows a "lively" departure.
For starting uphill, accelerating
gradually but fully immediately after
having released the handbrake or the
brake pedal allows the engine to greatly
increase the rpm and tackle the
steepest gradients with more torque to
the wheels.
WARNING
22)Using the levers incorrectly (levers
pushed towards the dashboard) could
break them.
SPORT FUNCTION
When the SPORT button 1 fig. 79 is
pressed, the sports driving setting
is turned on giving greater
responsiveness during acceleration, an
increase in drive torque and more
precise steering with greater effort
required on the steering wheel.
When this function is on, the word
SPORT 1 fig. 80 is lit up in the display
and the instrument panel shows a
dedicated screen.
Press the button again to turn the
function off and restore the normal
driving setting.
IMPORTANT When the SPORT button
is pressed, the function is activated
about 5 seconds later.IMPORTANT During acceleration, when
the SPORT function is used, the
steering may shudder, which is typical
of a sports setting.
NOTE For vehicles equipped with an
Akrapovic exhaust system, a
considerable increase in engine sound
can be heard when the SPORT mode is
activated. This is caused by opening
the valve located in the Akrapovic
exhaust, which improves performance.
79AB0A0351C
80AB0A0360C
90
STARTING AND DRIVING

ENGINE
(For markets where provided)
GENERAL INFORMATION1.4 TB PETROL ABARTH 135
HP1.4 TB PETROL ABARTH 145
HP1.4 TB PETROL ABARTH 160
HP
Engine code 312A1000 312B4000 312B4000
Cycle Otto Otto Otto
Number and position of cylinders 4 in line 4 in line 4 in line
Piston bore and stroke (mm) 72 × 84 72 × 84 72 × 84
Total displacement (cm
3) 1368 1368 1368
Compression ratio 9.8 : 1 9.8 : 1 9.8 : 1
Maximum power (EC) (kW) 99 107 118
Maximum power (EEC) (HP) 135 145 160
corresponding engine speed
(rpm)5500 5500 5500
Maximum torque (EEC) (Nm)
180
(**)/ 206(***)180(**)/ 210(***)210(**)/ 230(***)
corresponding engine speed
(rpm)2000
2000(**)/ 3000(***)2000(**)/ 3000(***)
Spark plugs NGK IKR9F8 NGK IKR9F8 NGK IKR9F8
FuelUnleaded petrol 95 RON (EN 228
specification)Unleaded petrol 95 RON or 98
RON (Specification EN 228)Unleaded petrol 95 RON or 98
RON (Specification EN 228)
(**) NORMAL
(***) SPORT
136
TECHNICAL DATA

GENERAL
INFORMATION1.4 TB PETROL
ABARTH 163 HP1.4 TB PETROL
ABARTH 165 HP1.4 TB PETROL
ABARTH 180 HP(*)1.4 TB PETROL
ABARTH 180 HP
Engine code 312B6000 312B3000 312B3000 312A3000
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 72×84 72×84
Total displacement (cm
3) 1368 1368 1368 1368
Compression ratio 9.0 : 1 9.0 : 1 9.0 : 1 9.0 : 1
Maximum power (EC)
(kW)120
(****)121(****)132(****)132(****)
Maximum power (EEC)
(HP)163(****)165(****)180(****)180(****)
corresponding engine
speed (rpm)5500 5500 5500 5500
Maximum torque (EEC)
(Nm)210
(**)/ 230(***)210(**)/ 230(***)230(**)/ 250(***)230(**)/ 250(***)
corresponding engine
speed (rpm)2000(**)/ 3000(***)2000(**)/ 3000(***)2000(**)/ 3000(***)2000(**)/ 3000(***)
Spark plugs NGK IKR9F8 NGK IKR9F8 NGK IKR9F8 NGK IKR9F8
FuelUnleaded petrol 95 RON
or 98 RON (Specification
EN 228)Unleaded petrol 95 RON
or 98 RON (Specification
EN 228)Unleaded petrol 95 RON
or 98 RON (Specification
EN 228)Unleaded petrol 95 RON
or 98 RON (Specification
EN 228)
(*) Kit (for versions/markets, where provided)
(****) Result obtained using 98 RON unleaded petrol
(**) NORMAL
(***) SPORT
137