3022524 - 5530B battery and leads

COMPOSITION

The current generation system consists of:

• the alternator;
• the battery;
• the recharging warning light in the instrument panel;
• the ignition switch for the system connections.

BATTERY

The main features of batteries used on new models are the mounting plates made from active materials produced through the calcium lead production technology which has replaced the older antimony- lead type.This involves a mechanical stretching process for a continuous lead band to reach the final productio of a grille covered in lead oxides for the positive poles and metallic lead only for the negative poles, instead of the use of casting machines to produce grilles for fusion.The use of a material such as lead-calcium-tin alloy guarantees a considerable reduction in the electrolysis during the operation of the accumulator (dissociation of the water into its components of hydrogen and oxygen) where the gases can escape resulting in reduced evaporation of the actual water with a drastic reduction in the maintenance required for this type of battery.1 - Cover 2 - Cap edge 3 - Positive plate 4 - Negative plate 5 - Separator 6 - Bridges 7 - Electrolyte 8 - Water gauge 9 - Negative pole 10 - Monobloc 11 - Maximum electrolyte level 12- Minimum electrolyte level 13 - Dipstick 14 - Cap

Battery electrical specifications:

• Lead accumulator, low maintenance type.
• Cover: EURODIN with ramp type sealing elements on cover; press-fit caps (one cap per element) with protection system against fluid penetration from the outside. Gas evacuation through caps with gas/liquid separation system
• Cover seal: heat welding.
• Attachment to the base: joined on four sides.
• Poles: lead bushes produced through cold-pressing with sealing labyrinth in the press-work area on the cover.
• Electrolyte level check: through the openings in the caps in the cover, checking the consistency between the indicator (dipstick) and the electrolyte level. The dipstick indicates the max. level allowed, therefore the electrolyte should just come into contact with the lower end of the dipstick. The min. level is reached when the electrolyte exceeds the top end of the separators and/or plates by 10 mm.
• Water gauge for checking min. electrolyte level and battery charge.
• No. of plates: 6 positive + 5 negative.
• Alloy grille: lead-calcium-tin.
• Separator thickness: 1.15 mm.
• Plate thickness: positive 1.80 mm; negative 1.60
• Electrolyte density: 1280 ± 10 g/dm3 at 25° C with battery 100% charged.

Electrolyte density at 25° Celsius:

• 1280 g/litre 100 % of charge
• 1240 g/litre 75 % of charge
• 1200 g/litre 50 % of charge
• 1160 g/litre 25 % of charge
• 1120 g/litre drained
• 1110 g/litre totally drained.

Control system

This battery has an indicator for checking the battery which is a water gauge which makes it possible to qualitatively monitor the level of the electrolyte and the battery charge; this also allows the Customer to initially check the efficiency of the battery. this also allows the Customer to initially check the efficiency of the battery. This device consists of a transparent plexiglas cylinder: one end contains an indicator fixed to the battery cover; on the other end there is a drip tray, made from an acid-resistant material, drilled in such a way to allow the battery electrolyte to come into contact with a green coloured ball which is housed in the drip tray and can slide along a plane inclined towards the centre of the area of the cylinder.

Water gauge

Two types of information are provided;

• electrolyte level;
• battery charge.

1 - Cylinder 2 - Indicator 3 - Drip tray 4 - BallOperation The operating principle of this device is based on the contact between the drip tray and the battery fluid.The ball has been designed in such a way that, at a given electrolyte density value, it rises along an inclined plane and reaches the transparent surface of the indicator, colouring the centre of this area green: CONDITION 1.When the density of the electrolyte decreases (battery run down), the ball moves from the centre and the light is subject to refraction to the extent that the colour in the centre of the indicator darkens: CONDITION 2.When the fluid no longer bathes the cylinder casing, the ball descends completely and the area in the centre appears even lighter: CONDITION 3.1 - Condition 1 2 - Condition 2 3 - Condition 3To sum up, the colour of the indicator reflects the state of the battery charge as set out in the table below.

	CONDITION 1	CONDITION 2	CONDITION 3
Information visible	Dark colour with green area in the centre	Dark colour with green area in the centre	Light, bright colour
Electrolyte level	Correct	Correct	Below minimum
State of charge	from 55% to 100%	Battery discharged	Indeterminate
Action to undertake	No action	Recharge the battery	Top up electrolyte with distilled water

This device:

• does not give readings concerning a possible internal short circuit;
• the density of the electrolyte varies with the temperature;
• a prolonged stop could halt the mixing process of the reagents and thereby lead to a measurement which could refer to the surface layers only.
• if the electrolyte level is low then there are no reliable readings.

To sump up the approximation of the measurement is around 15% (battery charge indicator calibration = 70% ± 15%).As a result of this reading error, it is necessary to check the battery charge more accurately in a Service Situation.

Cap

In low maintenance type batteries with lead-calcium-tin elements the seal is guaranteed by the press-fit caps with an anti-penetration system with a gas evacuation device through the actual caps.

The caps which allow the escape of the gases produced in the battery prevent the leakage of liquid. The cap consists of:

• The cap casing: it acts as to prevent liquids escaping, but allows gas to escape through special openings.
• The labyrinth: it prevents the particles which are released during the operation of the battery from obstructing the special diaphragm.
• The semi-pervious diaphragm: thanks to a special layer of PTFE (poly-tetra-fluoro-ethylene) it prevents the escape of liquid, allowing the gases which are produced during the normal operation of the battery to pass through.

1 - Cap casing 2 - Labyrinth 3 - Diaphragm

Battery technical specifications

The table summarizes the main battery technical data.

BATTERY	1.6 ECO	1.6 120 CV	2.0
VOLTAGE	12V	12V	12V
CAPACITY	50 Ah	50 Ah	60 Ah
INTENSITY	250 A	250 A	320 A

Battery discharge in rest conditions

Correct battery dimensions for model / trim level have been calculated to take into account power uptake when the ignition is switched off.This absorption should not exceed 0.6 mA for each Ah of battery capacity; this is to ensure that, if the vehicle has been left for one month with all the consumers not controlled by the ignition switched on, residual battery capacity is half of nominal capacity, i.e. enough charge is left to start up the engine under normal environmental temperature conditions.The table below gives several examples.

Battery	Max. absorption
32 Ah	19 mA
40 Ah	24 mA
50 Ah	30 mA
60 Ah	36 mA
70 Ah	42 mA

Checking/topping up battery fluid level

Undo the caps on the battery cover or remove the cap edges (2) and remove the caps which are a press-fit in each individual cell.In the Max Level maximum condition (11), the electrolyte should barely come into contact with the lower end of the dipstick (3), positioned inside the battery and visible through the openings in the cover in each cell producing the so-called 'meniscus effect'.In the Min Level minimum condition (12), the electrolyte should exceed the upper part of the partitions and/or the plates by around 10 mm.1 - Cover 2 - Cap edge 11 - Maximum electrolyte level 12- Minimum electrolyte level 13 - Dipstick 14 - CapTo check this condition, immerse a clean stick, made from a non metallic material (e.g. wood, glass, plastic), into the electrolyte until it touches the top of the partitions and/or plates, measuring the height of the electrolyte.It remains understood that, in order to measure the level of the electrolyte, the battery should be positioned on an even surface and all the cells should be visible from above; if this is not the case, or if this is impossible, the battery should be removed from its housing in the vehicle.The operations of checking the electrolyte level and, if necessary, topping it up through the individual battery cell openings, should not be carried out by the Customer, but by trained Network personnel as part of the Planned Maintenance Programme every 20,000 km.

CONTROL UNIT ON BATTERY (CBA)

It connects the battery terminal to the lead for the starter motor and to the first level power fuses.On the basic version it protects the power supply for the engine compartment control unit (CVM) and the dashboard control unit (CPL).In the complete configuration it also protects the power supply for the Selespeed electro-hydraulic pump and the air conditioning additional heater (PTC2) (Diesel version).The battery control unit is designed to work alongside an automatic battery disconnected device in series to the battery terminal. This device, operate by the AIR BAG control unit (CAB), via two wires, interrupts the power supply for the starting/recharging lead (not fitted on the 937 model).1 - Fuse carrier casing 2 - Control unit fixing bolts 3 - Positive battery terminal 4 - Fuse (F71) 5 - Fuse (F72) 6 - Fuse (F73) 7 - Fuse (F70) 8 - Battery lead isolator (not fitted).

No.	CODE	Fuses on control unit (CBA)	Amperage
4	F71	for dashboard control unit (CPL)	70A
5	F72	for PTC2 heater (JTD version)	50A
6	F73	for ignition switch	30A
7	F70	for engine compartment control unit (CVM)	125A/150A

1 - Cover covering/protecting junction unit 2 - Retaining mounting 3 - Bolts fixing control unit to batteryWhen the retaining mounting B is fitted in the battery housing, tighten the two self-threaded bolts 3 and then fasten the collar to the positive battery terminal.