194001924 - INTRODUCTION - ELECTRICAL CIRCUITS FOR INSTRUMENTS/GAUGES

MINI F.L.Ore.N.C.E. ELECTRICAL AND ELECTRONIC SYSTEM

General specifications

In conventional electrical systems, functions are activated with the aid of dedicated point-to-point linesThe increase in the number of electrical/electronic devices on board cars has given rise to heavier and more complex connections. This is partly due to the complexity of the functions implemented in the burgeoning number of electronic units - which also need to exchange data continually: all this makes new electrical systems more difficult to install and increases the complexity of fault diagnosis.Many problems have been overcome and new electrical systems have been optimised compared to conventional systems by using a network form of connection. This provides a more effective means of managing communication on the board the car and of transferring data between the various subsystems. Information is distributed via serial pathways (buses) that may take the form of: individual wires, twisted wire pairs or even optical fibres. Let us now take a look at the move from traditional systems to those known as multiplexing systems.Conventional solutionThe four control units illustrated below require a number (N) of wires for each input/output data item in order to perform their function. This multiplied the amount of cable required to the point that systems are made more complex (design and manufacture) and more voluminous (weight, bulk, cost). Some 40 kg of wiring looms are required that stretch for more than 2 km - and this figure could double every 10 years because even now a car could be equipped wiht 20 to 40 electronic control units (ECUs).
1 - Climate control management node2 - Engine management node3 - Engine temperature sensor (for engine management node)4 - Instrument panel node5 - Engine temperature sensor (for instrument panel warning light)6 - Engine cooling fan7 - Engine temperature bulbThe first step towards reducing the volume and complexity of wiring looms was to group several electronic functions in a single unit, therefore: LESS COMPONENTS = LESS WIRES.Examples of integationThe multifunction control unit manages the: central locking, electric windows, courtesy light timer, heated rear windscreen and heated, external rear view mirrors timer.
1 - Multifunction control unit2 - Central locking3 - Electric windows control unit4 - Centre courtesy light5 - Rear courtesy light6 - Heated rear windscreen / Heated door mirrorsThe itegration of the electrical/electronic functions in a single unit has made it possible to improve:- the management of current consumption;- the operation of the consumers because they are managed by a single control unit;- the search for faults by means of autodiagnosis of the control unit.This first stage made it possible to reduce the number of electronic units but not to reduce the volume of the cable looms to a sufficient extent.Multiplexing solutionThis solution makes it possible to reduce the volume of the cable looms and to considerably improve the transmission of information between various electronic units.These transmissions takes place via a BUS channel comprising 2 cables (the main one already used for the telephone, radio, television network, etc.).
A - B - C: NODES (CONTROL UNITS)D: MASTER CONTROL UNIT OR BODY COMPUTERA1 - A2, B1 - B2, C1 - C2: COMMUNICATION BUSIn addition to reducing and simplfying the wiring and improving communication between electronic units, the multiplexing solution also makes it possible to reduce the number of sensors (INFORMATION SHARING).
A - Conventional solutionB - Multiplexing solution1 - Climate control management node2 - Engine management node3 - Engine temperature sensor (for engine management node)4 - Instrument panel node5 - Engine temperature sensor (for instrument panel warning light)6 - Engine cooling fan7 - Engine temperature bulb8 - Instrument panel node9 - Climate control management node10 - Engine temperature information11 - Body Computer Node12 - Engine management node13 - Engine temperature sensor (for engine management node)In general terms, in order to transmit data via a multiplexing system we need to define the following:- (A) THE TRANSMISSION CHANNEL (electric wires, fibre optics, radio waves, etc.);- (B) THE TYPE OF SIGNAL (voltage, current, light, etc.);- (C) THE COMMUNICATION PROTOCOL (all the rules that allow management of analogue or digital transmission type, code type, address, transmission order, error detection etc.).On this model the transmission channel (A) comprises a pair of electrical wires and is known as BUS.The type of signal (B) is VOLTAGE and the communication protocol (C) is the CAN (Controller Area Network) developed by BOSCH.

Mini F.L.Ore.N.C.E. SYSTEM STRUCTURE

General specifications

The Mini F.L.Ore.N.C.E. structure for this model manages some of the vehicle''s electrical equipment, controlling the bodywork functions directly (control of access, visibility, on board information, comfort, etc.).To improve the system, the structure follows the regional topological approach: each control unit (electronic or electromechanical) is located in a centre of gravity position in relation to the functions managed.This allows the power and signal distribution system to be minimised. This is also made possible through extensive use of serial communication networks that allow us to overcome problems of space-saving, reliability, weight and cost.The structure consists of three CAN communication networks which connect nodes belonging to the three different areas (vehicle dynamic control, on board information and bodywork functions) and a certain number of complementary serial lines.Power is distributed via the junction units and/or fuse boxes connected to control elements (relays and static actuators) to ensure maximum electrical protection and minimum complexity of the wiring. All wiring looms have been made modular by changing the way functions are distributed inside the connectors and replacing welds with short-circuiting joints. The structure of the wiring has been designed to simplify the fitting through the reduction in the number of sections, the reduction in lengths and the elimination of critical crossovers and has also been designed to encourage the production of all cable looms in a modular manner (through the composition of subassemblies) with the aim of producing the most simple in line sequencing of the wiring on the Fiat Auto production lines.The possibility of using the most up to date automatic wiring construction equipment has also been taken into account.The system (e.g.: door wiring, dashboard wiring) can potentially be adapted for automatic wiring production systems.The architecture developed is compatible with various user interface solutions (control arrangement, information allocation and display method).The electrical protection (fuses) and the relays are grouped together in the power distribution junction units located in the engine compartment and the dashboard. These junction units also act as connections for the various wiring and electrical distribution.Modular systemWiringTo allow the construction for subassemblies (electrical functions) and to facilitate the possible automatic production, all welding (splice) and couplings with minted terminals has been avoided; even if this restricts the advantages of automatic production, soldering or minting can be used for coupligns that do not interconnect different assemblies. To produce a minimum number of wiring families, each circuit has a section coupling that should maintain the same position inside the coupling, irrespective of the trim level; the position and the type of the coupling on the vehicle should also not depend on the trim level (high or low).ComponentsTo safeguard the modular nature of the wiring the inlets/outlets for each junction unit should not differ according to the trim level/engine type, the position of the connector or the cable/terminal/connector interface.

System structure

The electrical/electronic system has the following classification:- Fuse/relay box;- Electronic compnents;- User control modules;- Electrical/electronic interfaces with non Fiat Auto systems.Fuse/relay boxThe components for this model are listed in the table:
Identification codeDescription
CBABattery control unit
CPLDashboard control unit
CVBBoot comparment control unit
CVMEngine compartment junction unit
Electronic compnentsThe Mini F.L.Ore.N.C.E. structure, in its most complete configuration for this model, comprises the elements listed in the table below.
Identification codeDescription
CAVVolumetric Alarm Control Unit
CDCCD-Changer
CSAAnti-theft Alarm Control Unit
DSPHi-fi / Bose audio amplifier
NBCBody Computer Node
NBSSteering Lock Node
NITInfo Telematic Node
NPGDriver''s door node
NPPPassenger Door Node
NQSInstrument Panel Node
NRRRadio Receiver Node
NSPParking Sensor Node
NVBLuggage compartment node
NVOSteering wheel Node
NTRTeg Reader Node
User control moduleThe Mini F.L.Ore.N.C.E structure on this model incorporates the user controls inside the switch carrier modules. The latter, together with the rest of the controls, are listed in the table below:
Identification codeDescription
CAPElectric Window Controls on passenger front/rear Doors
CEMHazard warning lights control
CLABrake Lights Control
PCSLeft Control Panel
DEVSteering column switch unit control module
IFRSwitch on Clutch
PCPControl Panel on driver''s front Door
PCTControl Panel on Tunnel
Electrical/electronic interfaces with non fiat auto systemsThe Fiat Auto obligations relating to the interfaces for these systems are given in the table below.
An interface refers to the method of exchanging information with the vehicle''s electrical system (CAN, serial, discrete).
Identification codeDescription
CPDRight Headlamp Control Unit
CPRHeater Plugs Control Unit
CPSLeft Headlamp Control Unit
CRSAdditional Heater Control Unit
CSPRain/dusk Sensor Control Unit
CTASun Roof Control Unit
NABAir Bag Node
NAGDriver Position Node
NAPPassenger Position Node
NASSteering Angle sensor Node
NCAAutomatic Transmission Node
NCLClimate Control Node
NCMEngine Management Node
NFRBraking System Node
NGEElectrohydraulic Steering Node
NSCGearbox Selector Node
NYLLateral Yaw sensor Node (slewing sensor)

Structure of the networks

The most extensive structure consists of:-2 CAN communication NETWORKS which connect NODES belonging to two different areas: one for the dynamic control of the vehicle and one for the so-called "bodywork" functions;- a W SERIAL LINE for immobilizer recovery;- different K SERIAL LINES for the fault diagnosis of several NODES/CONTROL UNITS;- a serial line known as A - BUS.
NODES are all the electrical/electronic devices and control units that contain a specific interface (NETWORK INTERFACE) that allow data, information and signals travelling via the CANs to be transmitted and received.
The table below contains all the elements (nodes/control units/devices) that make up the Mini F.L.Ore.N.C.E. structure in its most complete configuration.Mini f.l.ore.n.c.e. structure components
Identification codeDescription
CAVVolumetric Alarm Control Unit
CDCCD-Changer
CPLDashboard control unit
CPDRight Headlamp Control Unit
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