2013 Alfa Romeo Giulietta torque

ESC (Electronic Stability
Control) SYSTEMThis is an electronic system controlling car stability in the event of tyre
grip loss, helping to maintain directional control.
The system is capable of recognising potentially dangerous situations
in terms of the stability and intervenes automatically on the brakes in a
differentiated manner for the four wheels in order to provide a
stabilising torque.
The ESC system also includes the following systems:
❒Hill Holder
❒ASR
❒Brake Assist
❒MSR
❒CBC
❒“ELECTRONIC Q2” (“E-Q2”)
❒DST
❒RABSYSTEM ACTIVATIONThe ESC system switches on automatically when the engine is started
and cannot be switched off.SYSTEM INTERVENTIONIt is signalled by the flashing of theESCwarning light on the
instrument panel, to inform the driver that the car is in critical stability
and grip conditions.
HILL HOLDER SYSTEMThis system is an integral part of the ESC system and facilitates starting
on slopes.
It is automatically activated in the following conditions:
❒uphill: vehicle stationary on a road with a gradient higher than 5%,
engine running, brake pedal pressed and gearbox in neutral or
gear (other than reverse) engaged;
❒downhill: vehicle stationary on a road with a gradient higher than
5%, engine running, brake pedal pressed and reverse gear
engaged.
When setting off the ESC system control unit maintains the braking
pressure at the wheels until the engine torque required for departure is
reached or for approximately 2 seconds, allowing your right foot to
be moved easily from the brake pedal to the accelerator.
If the vehicle has not departed after this time, the system will deactivate
automatically by gradually releasing the brake force. A sound may
be heard during this stage: this indicates that the vehicle is about
to move off.
IMPORTANT The Hill Holder system is not a handbrake. Do not leave
the vehicle without having engaged the handbrake, switched off the
engine and engaged a gear.
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ASR (AntiSlip Regulation) SYSTEMIt is an integral part of the ESC system. It 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 intervenes
reducing the power transmitted by the engine;
❒if the slipping only involves one of the drive wheels, the ASR
intervenes automatically braking the wheel that is slipping.
For the correct operation of the ESC and ASR systems,
the tyres must be the same make and type on all
wheels, in perfect condition and, above all, of the type,
make and size recommended.The ESC system operates 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.Do not take unnecessary risks, even if your vehicle is
fitted with the ESC and ASR systems. Driving style must
always be adapted to road conditions, visibility and
traffic. The driver is always responsible for road safety.
BRAKE ASSIST(assistance during emergency braking)
The system, which cannot be turned off, recognises emergency braking
(on the basis of the brake pedal operating speed) and speeding up
the response of the braking system. The Brake Assist device is
deactivated if there is a ESC system failure.MSR SYSTEM(Motor Schleppmoment Regelung)
This system is an integral part of the ABS, that intervenes, if there is a
sudden downshifting, restoring torque to the engine, thereby
preventing excessive drive at the drive wheels which, especially in poor
grip conditions, could lead to a loss in stability of the car.CBC (Cornering Brake Control)
SYSTEMThis function improves the distribution of the braking pressure at the
four wheels (to fully exploit the grip available on the ground) when
braking on bends if the ABS intervenes. This improves stopping
distances and above all vehicle stability when cornering.“ELECTRONIC Q2” SYSTEM (“E-Q2”)The “Electronic Q2” system uses the braking system to create an effect
similar to a limited slip differential.
The front braking system, when accelerating around a curve, acts on
the inside wheel to increase the drive to the outside wheel (increased
load), dynamically and continuously distributing the torque between
the front drive wheels according to driving and road conditions.
The system, combined with MacPherson front suspension, allows
particularly effective and sports driving to be achieved.
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DST SYSTEM
(Dynamic Steering Torque)This function integrates Dual Pinion active steering into the operation of
ESC. For particular manoeuvres, the ESC system controls the steering
to actuate a steering torque and assist the driver in the best possible
way.
The system operates the brakes and steering in a coordinated manner
to increase the suspension and safety level of the car as a whole.
The steering provides additional torque on the steering wheel.RAB SYSTEM (Ready Alert Brakes)
(only with “Dynamic” mode
engaged)It is a function that achieves a pre-positioning of the brake pads (front
and rear) following a rapid release of the accelerator pedal to reduce
braking times, shortening stopping distances.
“Alfa DNA” SYSTEM
(Car dynamic control system)This device allows, using lever A fig. 82 (on the central tunnel), three
car response modes to be selected according to driving style and road
conditions:
❒d = Dynamic (sports driving mode);
❒n = Natural (mode for driving in normal conditions);
❒a = All Weather (mode for driving in poor grip conditions, such as
rain and snow).
The device also acts on the dynamic car control systems (engine,
steering, VDC system, instrument panel).
When lever A fig. 82 is moved to “d” position, the activation of
“Dynamic” mode is confirmed by a temporary variation in the
brightness (flashing) of the instrument panel.
fig. 82
A0K0072
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DST:braking standard control coordinated with ABS/ESC. Standard
control over lateral acceleration. Oversteering compensation
depending on the ESC/ASR intervention thresholds: a slight movement
on the steering wheel encourages the driver to carry out the most
appropriate manoeuvre.
Engine:prompter response + Overboost to maximise torque (for
versions/markets, where provided).
Electronic Q2:improves traction and reduces understeer in
acceleration while exiting curves.
RAB:by pre-positioning of the brake pads (front and rear) following a
rapid release of the accelerator pedal to reduce braking times, shorten
stopping distances and improve the brake pedal feeling.
The activation of the Dynamic mode is also shown by the change in the
instrument panel lighting that, after decreasing, reaches the highest
luminosity and then returns to the previously set values.Disengagement
To deactivate “Dynamic” mode and return to “Natural”, repeat the
same movement of the lever within the same times. In this case, the LED
corresponding to “Natural” mode will light up and the words “Natural
on” will appear on the reconfigurable multifunction display (see fig.
86).
ENGAGEMENT/DISENGAGEMENT OF
“All Weather” MODEEngagement
Move lever A fig. 82 downwards (to the letter “a”) and hold in this
position for 0.5 seconds until the corresponding LED lights up or the
word “All Weather” appears on the display (see fig. 87).
ESC and ASR: intervention thresholds for top safety and car control
even in the event of critical road conditions (e.g. in case of rain, snow,
etc.).
Steering wheel tuning:maximum comfort.
fig. 85
A0K1510
fig. 86
A0K1059
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Climate control system
Using the climate control system will increase consumption: use the air
vents when the external temperature allows it.
Devices for aerodynamic control
The use of non-certified devices for aerodynamic control may adversely
affect air drag and fuel consumption.DRIVING STYLEStarting
Do not warm up the engine at low or high revs when the vehicle is
stationary; this causes the engine to warm up more slowly, thereby
increasing fuel consumption and emissions. It is therefore advisable to
move off immediately, slowly, avoiding high speeds: in this way the
engine will warm up more quickly.
Unnecessary actions
Avoid revving up when at traffic lights or before switching off the
engine. The latter action, like double-declutching, is unnecessary and
causes increased fuel consumption and pollution.
Gear selection
Use a higher gear when traffic and road conditions allow it. Using a
low gear for faster acceleration will increase consumption. In the same
way improper use of a high gear increases consumption, emissions
and engine wear.Maximum speed
Fuel consumption considerably increases as speed increases. Keep
your speed as even as possible, avoiding unnecessary braking and
acceleration which cause excessive fuel consumption and increased
emissions.
Acceleration
Accelerating violently severely affects consumption and emissions:
acceleration should be gradual and should not exceed the maximum
torque.
CONDITIONS OF USECold starting
Short distances and frequent cold start-ups will prevent the engine from
reaching optimal running 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 large towns
with many traffic lights. Winding mountain roads and rough road
surfaces also adversely affect consumption.
Stops in traffic
During prolonged stops (e.g. level crossings) switch the engine off.
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ENGINEGENERAL INFORMATION
1.4 Turbo Petrol 105 HP
(*)
1.4 Turbo petrol 115/120 HP
Engine code 940B1000940A6000
(*)
198A4000
Cycle Otto Otto
Number and arrangement of cylinders 4 in line 4 in line
Piston diameter and travel (mm) 72.0 x 84.0 72.0 x 84.0
Total displacement (cm³) 1368 1368
Compression ratio 9,8 9,8
Maximum power (EC) (kW) 77
85
(*)
/88
Maximum power (EC) (HP) 105
115
(*)
/ 120
corresponding engine speed (rpm) 5000 5000
Maximum torque (EC) (Nm) 206 206
Maximum torque (EC) (kgm) 21 21
corresponding engine speed (rpm) 2000 1750
Spark plugs NGK IKR9F8 NGK IKR9F8
FuelUnleaded petrol 95 RON
(EN 228 Specification)Unleaded petrol 95 RON
(EN 228 Specification)
(*) For versions/markets, where provided
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GENERAL INFORMATION 1.4 Turbo MultiAir 1750 Turbo Petrol
Engine code940A2000
940A1000
955A8000
(*)
Cycle Otto Otto
Number and arrangement of cylinders 4 in line 4 in line
Piston diameter and travel (mm) 72.0 x 84.0 83.0 x 80.5
Total displacement (cm³) 1368 1742
Compression ratio 9,8 9,8
Maximum power (EC) (kW) 125
120
(*)
172,5
Maximum power (EC) (HP) 170
163
(*)
235
corresponding engine speed (rpm) 5500
5500
(*)
5500
NATURAL DYNAMIC NATURAL DYNAMIC
Maximum torque (EC) (Nm) 230 250 300 340
Maximum torque (EC) (kgm) 23,4 25,4 30,5 34,6
corresponding engine speed (rpm) 2250 2500 4500 1900
Spark plugs NGK IKR9F8 NGK ILKAR7D6G
FuelUnleaded petrol 95 RON or 98 RON
(EN 228 specification)Unleaded petrol 95 RON or 98 RON
(EN 228 specification)
(*) For versions/markets, where provided
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GENERAL INFORMATION 1.6 JTD
M
2.0 JTD
M170 HP
Type code 940A3000 940A4000
Cycle Diesel Diesel
Number and arrangement of cylinders 4 in line 4 in line
Piston diameter and travel (mm) 79.5 x 80.5 83 x 90.4
Total displacement (cm³) 1598 1956
Compression ratio 16,5 16,5
Maximum power (EEC) (kW) 77 125
Maximum power (EEC) (HP) 105 170
corresponding engine speed (rpm) 4000 4000
NATURAL DYNAMIC NATURAL DYNAMIC
Max torque (EEC) (Nm) 280 320 320 350
Maximum torque (EEC) (kgm) 28,5 32,5 32,5 35,6
corresponding engine speed (rpm) 1500 1750 1500 1750
Spark plugs – –
FuelDiesel for motor vehicles
(EN 590 specification)Diesel for motor vehicles
(EN 590 specification)
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