3363709 - INTRODUCTION - BRAKING SYSTEM

PEDAL UNIT

SPECIFCATIONS

In line with standards of excellence, the Stilo is fitted with braking systems:

  • of high efficiency
  • of excellent modulation
  • of safety under all conditions.

The vehicle is also equipped with the most sophisticated electronic and mechanical assistance systems:

  • ABS: anti-lock brakes,
  • EBD: electronic brake force distribution between front and rear wheels,
  • ASR: traction control with intervention at the brakes and the engine,
  • MSR: reduction of engine braking torque when changing down a gear,
  • ESP: vehicle dynamic stability control,
  • EVA (with ASR): panic braking assistance,
  • HBA (with ESP): automatic increase in braking pressure during panic braking.
The system is the hydraulic power assisted type: it consists of two independent crossover circuits (each circuit acts on a front wheel and the diagonally opposed rear wheel) to ensure braking and stability even if one circuit should fail.

The entire range is fitted with:

  • disc brakes on all four wheels,
  • ventilated front disc brakes (on all engine types),
  • large diameter rear disc brakes (251x10 mm) with Bosch aluminium calipers with automatic clearance recovery (38 mm diameter piston).
  • ABS with EBD and ASR,
  • panic braking assistance (Brake Assist),
Given the difference in weight and power of the different engine types, the front braking system differs as follows:

Engine types: 1.2, 1.4 and 1.6:

  • 257 x 22 mm ventilated disc
  • ZOH Bosch brake calipers with 54 mm diameter piston,
  • brake pad surface 43 cm[sup2 ]

Engine types: 1,8, 1.9 JTD (80CV and 115CV):

  • 284 x 22 mm ventilated disc,
  • ZOH Bosch brake calipers with 54 mm diameter piston,
  • brake pad surface 52 cm[sup2 ]

Engine types: 1.9 JTD 16V and 2.4:

  • 281 x 26 mm ventilated disc,
  • ZOH Bosch brake calipers with 57 mm diameter piston,
  • brake pad surface 57 cm[sup2 ]

PEDAL UNIT

The pedal unit fitted on this vehicle consists of a mounting with an accelerator pedal made from a special plastic material with the brake and clutch pedals made of steel.

The pedal unit has a pedal/brake ratio linked to the diameter of the brake pump, different according to the engine types:

  • 1.2, 1.6 and JTD Versions: the ratio is equal to 3.2 linked to the 7/8'' pump,
  • 1.8 and 2.4 Versions: the ratio is equal to 3.4 linked to the 15/16'' pump,
The accelerator control is electronic for all versions.
A - Pedal unit for Selespeed gearboxB - Pedal unit for manual gearbox

BRAKE SERVO

A large diameter (10'') Bosch brake servo is fitted on the Stilo with an aluminium pump and increased travel to guarantee a good pedal travel reserve even in extreme overheating conditions due to intensive usage.

ABS

CONSTRUCTION FEATURES

The Stilo is fitted with an ABS/EBD brake control system.The ABS/EBD system is the Bosch 8.0, developed from the system formerly fitted to other cars and it is equipped with 4 active sensors and 4 channels.The ABS is fitted in parallel to the hydraulic brake system so that braking is still assured even if the ABS is faulty.Because the ABS incorporates EBD (Electronic Brakeforce Distribution), a rear load proportioning valve is not fitted.GENERAL VIEW
1 - ABS/EBD control unit2 - Front left wheel sensor3 - Front right wheel sensor4 - Rear right wheel sensor5 - Rear left wheel sensor6 - EBD warning light7 - ABS warning lightIn addition to the ABS EBD system, some Stilo vehicles may be fitted with a drive control system (ASR/MSR) or a vehicle stability control system (ESP).These two systems are a further development of the ABS 8.0 system featuring improved specifications.By means of its yaw and steering wheel angular position sensors, the EPS system is able to monitor whole car dynamics and increase active safety.

PINOUT

The control unit pin out is illustrated in the diagram below.
1. Earth2. +30 supply3. +30 supply4. Earth5. Connection with left front wheel sensor6. Connection with left rear wheel sensor7. N.C.8. Connection with right rear wheel sensor9. Connection with right front wheel sensor10. Connection with right front wheel sensor11. Diagnostic line K12. N.C.13. N.C.14. N.C.15. C CAN-L connection16. Connection with left front wheel sensor17. Connection with left rear wheel sensor18. Ignition-operated power supply +1519. Connection with right rear wheel sensor20. N.A. signal from brake pedal switch21. N.C.22. N.C.23. Connection with body computer node24. N.C.25. N.C.26. C CAN-H connection

A.S.R. control/regulation devices

From 06/03, the ASR function will be provided only in conjunction with the ESP, described below
GENERAL VIEW
2 - Engine management control unit2 - Front sensor left3 - Front sensor right4 - ASR off button5 - Rear sensor right6 - Rear sensor left7 - ASR warning light8 - EBD warning light9 - ABS warning light

SPECIFCATIONS

This system carries out all the normal anti-lock and brake distribution functions of the ABS 8.0 with EBD and also ensures the following:

  • Acceleration Slip Regulation (A.S.R.)
  • engine braking torque regulation (M.S.R.)
  • differential lock via action on the brakes (T.C.)
The functions are ensured by adjusting drive torque and applying a braking force to one or both drive wheels.The A.S.R. control unit calculates the slip of the drive wheels from the difference between the number of revs for the front and rear wheels detected by the ABS sensors.If one or both drive wheels tend to slip during acceleration, the control unit orders the engine control unit to reduce the torque transmitted by the engine to the wheels (through a decrease in the air flow rate implemented by closing the motorized throttle) and almost simultaneously brakes the wheel or wheels without the driver having to do anything.If the wheels tend to lock during hard deceleration, the ABS control unit requests the engine control unit to adjust engine braking toruqe to prevent car stability.The system can be cut out by activating a button located on the console.ASR/MSR intervention is indicated by the warning light on the dashboard flashing.Each time the vehicle is started up the ASR/MSR function is activated, even if the ignition has been turned off with the function deactivated.The system can be excluded by pressing the button on the tunnel. Exclusion is signalled by the warning light on the actual button coming on.
The ASR system is disabled if the ABS system is faulty.

COMPOSITION

The system consists of:

  • an electronic control unit built into the hydraulic control unit
  • a hydraulic control unit which modulates the braking pressure acting on the brakes by means of twelve solenoids regardless of the driver''s actions
  • four ACTIVE sensors
  • special wiring.

OPERATION

Principles of operation

The system processes the signals coming from the active sensors, the brake light switch and the button for switching the A.S.R. function on/off.It continually compares the speed of wheels on the same side of the car (Front right with Rear right - Front left with Rear left) and causes the ASR to cut in when a speed difference in excess of 2-6 km/h (cut-in threshold) is detected between wheels on the same side. The control unit turns on the MSR function when it detects an excessive difference between the front and rear axles because the front wheels tend to slow down too much compared to the rear wheels.The ABS/ASR control unit communicates continuously with the engine control unit via the C-CAN line.The ASR function is active under all car speed conditions. Braking action is cut out after 80 km/h.
1 - A.B.S./A.S.R. control unit2 - Engine management control unit3 - Wheel rpm sensors (active)4 - Brake pedal switch5 - A.S.R. on/off button6 - A.S.R. on/off LED7 - Motorised throttle body8 - Ignition system (advance adjustment)8 - Ignition system (advance adjustment)10 - Brake calipers11 - Body Computer

Operating strategies

Drive wheel slippageIntervention - intervention times in road conditions with good grip (asphalt)Torque reduction by the engine control unit by altering ignition advance - 6/100 s after the skid threshold is exceeded;Further torque reduction by reducing throttle opening (by the engine control unit with motorized throttle body) - after 15/100 s.Hydraulic system intervention (braking force on drive wheel) - after 2/10 s.Operation under conditions of poor gripThe system is able to detect this situation by comparing drive wheel acceleration with torque transmitted by the engine (engine load via engine control unit).The system performs in the same way as when both drive wheels are in road conditions with good grip (asphalt) and the cut in thresholds are at the lower limit.Only one drive wheel slippingintervention-intervention timeTorque reduction by the engine control unit by altering ignition advances - 6/100 s after the threshold is exceeded.Further torque reduction by reducing throttle opening (by the engine control unit with motorized throttle body) - after 15/100 s.Effect on hydraulic system, braking action is exerted on the slipping wheel to give the differential a resistive force on the side with poor grip (T.C.).This resistive force allows the differential to transmit an equal torque with good grip.One wheel slipping on a bend with good grip (asphalt).The system detects the presence of a bend from the rear wheel speed (drawn).It implements the same intervention procedures described for when only one drive wheel is slipping; the cut-in thresholds are increased to the upper limit. The torque reduction is applied gradually.One wheel slipping on a bend with poor grip (snow or ice).It implements the same intervention procedures described for when only one drive wheel is slipping; the cut-in thresholds are increased to the lower limit. The torque reduction is accentuated (to ensure good car lateral containment).
Under A.S.R. operating conditions, when the control unit simultaneously receives a signal from the brake light switch, the system ceases to act on the brakes. The torque reduction part remains active.
With the brake lights switch activated, but with maximum braking pressure (e.g. tip of heel, defective switch, etc.), if the system detects a speed difference between the front and rear wheels which implies the operation of the A.S.R., only torque reduction is implemented. Brake intervention is excluded.

Modulating braking torque with engine decelerating

Car instability during deceleration with poor gripThe system recognises the condition from engine load, front and rear wheel speed and brake pedal sensor. In this case, drive torque is increased when the engine control unit cuts in to open the motorised throttle. This overcomes the natural instability of the car due to the engine braking torque with poor grip.

Cutting out the asr/mrs system

The ABS and EBD functions remain active if the system is cut out using a button on the panel, as it advisable if the cars are on certain surfaces (deep snow, deep mud, deep sand or gravel), or with chains on the drive wheels.

ASR de-activation/activation button

Deactivates the ASR/MSR system and comes with indicator LEDs.The button is built into the central panel
1 - Led2 - ASR deactivation button

Asr/msr system failure

If the ABS system is faulty, the ASR system is also disabled. The ASR system is cut out with the following faults:

  • engine C-CAN message errors
  • C-CAN bus error
The control unit activates warning lights on the control panel and button when these anomalies occur.

The ASR warning light strategy is as follows:

  • with the A.S.R. on, the warning light in the dashboard is off and the LED on the button is off;
  • with the ASR operating, the warning light on the dashboard is intermittent and the LED on the button is off
  • with the ASR off, the warning light on the control panel is on, the warning light on the button is on and a message is displayed on the DOT matrix to indicate that the ASR is not activated
  • when the ASR is faulty, the panel and button warning lights are on and an anomaly message is displayed on the DOT matrix.
The warning lights are governed by the ABS control unit by means of a C-CAN network as with the ABS with EBD.

Hydraulic system operation

The hydraulic unit on the version with A.S.R. has 4 additional solenoid valves.The inlet solenoid valve (normally closed), when activated, can receive the additional quantity of fluid required to increase the pressure and brake the wheel/s.The operating solenoid valve (norm
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