2006 FORD TRANSIT ECO mode

1 General Information
1.1About This Manual........................6
1.1.1Introduction...........................................6
1.1.2Important Safety Instructions.............6
1.1.3Warnings, Cautions and Notes in This
Manual....................................................6
1.1.4How to Use This Manual.....................6
1.2Commercial and Legal Aspects...
7
1.2.1Terminology...........................................7
1.2.2Warranty on Ford Vehicles..................7
1.2.3Legal and Vehicle Type Approval....
7
1.2.4Alternative Type Approval....................7
1.2.5Legal Obligations and Liabilities..........7
1.2.6General Product Safety
Requirement..........................................7
1.2.7Product Liability.....................................8
1.2.8Restraints System................................8
1.2.9Drilling and Welding..............................8
1.2.10Minimum Requirements for Brake
system and Load Apportioning Valves
.................................................................8
1.2.11Road Safety...........................................8
1.3Contact Information.....................9
1.4Conversion Type.........................14
1.5Conversion Homologation.........23
1.6Electromagnetic Compatibility
(EMC)..........................................24
1.6.1Antenna Location...............................24
1.7Vehicle Duty Cycle Guidelines....25
1.7.1Conversion Affect on Fuel Economy
and Performance...............................25
1.7.2Vehicle Ride and Handling
Attributes.............................................25
1.8End of Life Vehicle (ELV)
Directive.....................................26
1.9Jacking.......................................27
1.10Lifting..........................................29
1.11Noise, Vibration and Harshness
(NVH)...........................................31
1.12Vehicle Transportation Aids and
Vehicle Storage..........................32
1.13Package and Ergonomics..........33
1.13.1General Component Package
Guidelines............................................33
1.13.2Driver Reach Zones...........................33
1.13.3Driver Field of View.............................33
1.13.4Conversion Affects on Parking Aids..
33
1.13.5Aids for Vehicle Entry and Exit..........33
1.14Package and
Ergonomics—Specifications......34
1.14.1Recommended Main Dimensions....
34
1.14.2Recommended Nominal Body
Lengths for Chassis Cab models....
36
1.14.3Front, Rear and Side Under-run
Protection............................................38
1.14.4Recommended Main Load Area
Dimensions for Bulkhead with
Depression Driver Side......................39
1.14.5Recommended Main Load Area
Dimensions for Bulkhead with Full
Depression..........................................40
1.14.6Recommended Main Load Area
Dimensions for Double Cab In Van
Bulkhead..............................................41
1.15Hardware—Specifications..........43
1.16Load Distribution—Specifications.
44
1.16.1Load Distribution Calculations - Driver
and Passenger Weight Distribution...
44
1.16.2Center of Gravity ...............................46
1.17Towing........................................54
1.17.1Towing Requirements.......................54
1.17.2Towing..................................................54
2 Chassis
2.1Suspension System....................57
2.2Front Suspension.......................58
2.2.1Springs and Spring Mounting...........58
2.3Rear Suspension........................59
2.3.1Springs and Spring Mounting...........59
2.3.2Rear Anti-Roll Bar...............................59
2.4Wheels and Tires........................60
2.4.1Wheel Clearance................................60
2.4.2Tire Manufacturers.............................60
2.4.3Spare wheel........................................60
2.4.4Painting Road Wheels.......................60
2.5Driveshaft....................................61
2.5.1Power Take Off....................................61
2.6Brake System.............................62
2.6.1General................................................62
2.6.2Kerb Mass Data..................................62
2.6.3Brake Hoses General........................62
2.7Parking Brake.............................63
2.7.1Relocated Parking Brake Lever.......63
2.8Hydraulic Brake Actuation.........64
2.8.1Load Apportioning Valves.................64
2.8.2Front and Rear Brakes......................64
2.9Anti-Lock Control - Stability
Assist..........................................65
3 Powertrain
3.1Engine.........................................66
3.1.1Engine Power Curves.......................66
3.2Engine Cooling............................75
3.2.1Auxiliary Heater Systems..................75
3.2.2Auxiliary Heater Installation...............76
3.2.3Air Flow Restrictions...........................76
3.3Accessory Drive.........................77
3.3.1Front End Accessory Drive 2.4l Diesel
and 2.3l Petrol.....................................77
3.3.2Front End Accessory Drive 2.2l
Diesel....................................................79
3.4Electronic Engine Controls.........81
3.5Clutch.........................................82
3.6Manual Transmission.................83
Table of Contents
3

1.6 Electromagnetic Compatibility (EMC)
The base vehicle has been tested and certified
to all relevant legislation relating to
Electromagnetic Compatibility. All retrofitted
equipment must also comply with the relevant
legislation.
In addition, 2-way radio communication and other
equipment with built in radio transmitters (for
example anti-theft alarms, tracking devices)
should only be fitted to the vehicle if they operate
within the listed frequency bands and do not
exceed the maximum transmission output power
specified below
Frequency Overview
Maximum Output
Power (W)
Frequency (MHz)
501-54
5068-87.5
50142-176
50220-225
50380-512
10806-940
101200-1400
101710-1885
101885-2025
1.6.1 Antenna Location
The antenna can be placed on the roof of the
vehicle with the exception of cellular phone car
kits which transmit power below 2W. Such low
power devices may also be installed at the
bottom of the A-pillar behind the trim or on the
front windscreen.
Installation must be performed by suitably
qualified personnel in accordance with the
equipment manufacturer's installation instructions
and comply with the ISO technical specification
ISO/TS 21609: Road Vehicles - Electromagnetic
Compatibility guidelines for the installation of after
market radio frequency transmitting equipment.
In addition, the following guidelines must be
followed during installation:
•Do not mount any transceiver, microphones,
speakers or any other item in the deployment
path of the airbag system.
•Do not attach antenna cables to any part of
the original vehicle wiring or fuel and brake
pipes.
•Antenna and power cables must be a
minimum of 100mm from any electronic
modules and airbags.
•Make sure that any additional power feed is
taken directly from the SVO fuse box (when
available) or a recommended connection
point.
•Power and ground cables should be of higher
current capacity that the protection fuse.
Ground feed must be taken directly to the
battery.
Post installation checks must be made for
disturbances from and to all electrical equipment
in the vehicle both in the standby and transmit
modes. Checks should be carried out with the
ignition ON, engine running and be followed by a
road test at various speeds.
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
1 General Information
24

Dimensions - not to exceed for Chassis Cab body Length
Long Wheel-
base 3954
Medium Wheel-
base 3504
Short Wheel-
base 3137
Wheelbase
Maximum allowable by territorial legislationMaximum recommended rear
overhang (requires self supporting
body or continuous sub frame).
A
252320731706Front outside of body to rear axle
- Single Cab
B
17091259-Front outside of body to rear axle
Double Cab
210021002100Maximum external body width
short mirror arms
C
230023002300Maximum external body width long
mirror arms
Maximum allowable by territorial legislation (We recom-
mend up to 2,4m over top of frame).
Maximum recommended external
body height (1) Rear Wheel Drive
(RWD) and Front Wheel Drive
(FWD)
D
25 minimumE
30 minimumF
Ensure local lighting legislation is maintainedG
Under run bar and towing couple legislation must be maintainedH
1.14.2 Recommended Nominal
Body Lengths for Chassis Cab
models
The following is the recommend method for
selecting best fit body lengths to suit the Chassis
Cab range, dependant on the load biases of the
conversion
Body lengths shown in the following charts are
given for guidance only, based on a minimum
specification chassis including driver, spare wheel
and full fuel. In the case of Uniformly Distributed
Load (UDL) figures the combined body and
payload Center of Gravity (CofG) is positioned
midway along the internal length of the body.
Body lengths are given as Nominal or Maximum.
Under most conditions the nominal body length
is recommended, maximum body length should
only be used when a nominal length body cannot
accommodate a specific load length requirement.
CAUTION: When considering
maximum length bodies, payload
latitude and flexibility will be reduced
as the available rear axle capacity
is used to the full. Non Uniformly
Distributed Load (UDL) loads that
are rearwards biased, should not be
used with maximum length bodies.
In order to achieve the largest load latitude
nominal (rearward biased) body lengths are the
primary recommendation. However recognizing
each body and its associated payload will have
an infinite number of CofG positions, in addition
to the large number of chassis specifications, it
is recommended that the chassis kerb weight
and plated weights are determined before a
weight distribution calculation is performed.
Chassis specification is assumed minimum with
base engine and drivetrain, any additional
equipment or alternative drivetrain's may reduce
the body length. It is recommended that physical
Chassis kerb weights are established to calculate
weight distribution when ever a body length
greater than nominal is considered.
Bodywork longer than the nominal dimension
may require a rear overhang extension with the
repositioning of the rear light bar and extension
electrical supply circuits. Body floor height may
require an increase in height to accommodate
angle of vision requirements for rear light and
license plate.
430 derivatives are fitted with a rear under-run
bar, modification of the rear overhang may
invalidate approvals, consult your local National
Sales Representative before considering
modification.
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
1 General Information
36

Explanation of terms used in body lengths
Nominal (Rearward Biased) Body Lengths- Recommended for best overall weight distri-
bution and payload latitude. Nominal (rearward biased) body lengths are recommended when tail-
lifts, rear mounted cranes, tow bars or rear mounted equipment are fitted. Nominal (rearward biased)
body lengths assume a typical back of cab to interface of body bulkhead dimension is 100mm
Nominal Uniformly Distributed Load (UDL) Body Lengths- is the maximum length of a
typical Float / Dropside body maintaining UDL loading without exceeding individual axle plating,
assuming no more than 100mm back of cab to internal face of body bulkhead dimension. However
specific non-standard applications, e.g. frame or body mounted equipment behind cab, or non UDL
loads may allow longer body lengths. These may be permissible providing the following are not
exceeded
- Individual axle plating.
- Maximum rear overhang greater that 50% of wheelbase.
- Body and payload combined CofG within a maximum 5% of wheelbase when rearwards of rear
axle centre line.
- Minimum variant front axle kerb mass.
Single Chassis Cab
Body Length (Internal)Drivetrain
Nominal
(UDL)
Nominal
(Rearward
Biased)
Rear AxleTransmissionWheelbaseModel
28002800Single Rear
Wheel
Front wheel Drive
/Rear Wheel Drive
Short Wheelbase300
36003200Dual rear WheelRear Wheel DriveMedium Wheel-
base
350
35003200Single Rear
Wheel
Rear Wheel Drive
35003200Single Rear
Wheel
Front Wheel Drive
3950*3650Dual rear WheelRear Wheel DriveLong Wheelbase
3950*3650Single Rear
Wheel
Rear Wheel Drive
3950*3650Single Rear
Wheel
Front Wheel Drive
44004000Dual rear WheelRear Wheel DriveExtended Frame
44004000Single Rear
Wheel
Rear Wheel Drive
42004000Single Rear
Wheel
Front Wheel Drive
30002850Dual rear WheelRear Wheel DriveLong Wheelbase430-(4.25t
GVM)30003000Dual rear WheelRear Wheel DriveExtended Frame
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
1 General Information
37

CAN-Bus System (Architecture)
Antilock Brake SystemKCentral Junction Box (Passenger Junction
Box)
A
Powertrain Control ModuleLVoice Recognition Module/Wireless
connection (blue tooth)
B
Steering Angle SensorMAudio Control Unit (Radio/CD)C*
Yaw Rate SensorNNavigation (Radio/CD)D*
Diagnostic ConnectorPRemote Keyless EntryE
Park Aid ModeQPassive Anti-Theft SystemF
Restraints Control ModuleRRain SensorG
Hybrid Electronic ClusterSBattery Backed Sounder (BBS)H
Interior Motion Sensing (IMS)J
* Either Audio Control Unit or Navigation
4.1.2 Central Junction Box (CJB)
WARNING: Unapproved and/or
incorrect connection to any of the
mating wiring can cause either the
associated systems to shut down
(overload protection), or permanent
damage to the Central Junction Box
itself.
Basic vehicle functions (for example: headlights,
front wipers) are available on all Central Junction
Boxes (CJBs). Increased vehicle features are
available on the mid- and high-level CJBs, as per
the following list:
Incremental FunctionalityCentral Junction Box (CJB)
6C1T-14A073-A_ (low)
(in addition to low level CJB)6C1T-14A073-B_ (mid)
Reverse CyclingRemote Keyless Entry
Slam LockingVIN Identification
Front Fog LightsPerimeter Alarm
Theatre Dimming (Interior Lights)Central and double Locking
Heated WindscreenZonal unlocking
Heated MirrorsAuto Locking on drive away
Rear WipersAuto Relocking on time out
Heated Rear Window(s)Crash Activated unlocking
Mis-locking feedback (audible
and visual)
(in addition to mid-level CJB)6C1T-14A073-C_ (high)
Ambient air temperature meas-
urement
Battery Backed Sounder (BBS)
Rain SensorInterior Motion Sensor (IMS)
Daytime Running LightsZonal opposite door relocking
AutolampsConfigurable unlocking
Fuel Pump Control (petrol only)CAT 1 Alarm (BBS, IMS & Rear
Glass Breakage)
Cruise control
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
4 Electrical
91

4.3 Charging System
4.3.1 General Information and
Specific Warnings
The Transit electrical system is a 12-Volt supply
with a negative earth return. The alternator and
battery equipment used as standard are
designed for normal operations with the type of
engine fitted. Higher capacity batteries are
available as standard production options and
special vehicle options. Before installing additional
electrical equipment check that the battery
capacity, harness load capability, and alternator
output are suitable for the extra load.
The battery capacity and charge available from
the alternator must be adequate to ensure
engine cranking in unfavorable climatic conditions
but excessive battery capacity could damage
the starter motor.
The Transit utilizes multiplexed vehicle electronics
- it is recommended that the appropriate Ford
proprietary accessory systems are used.
Inappropriate or incorrect connection of
additional equipment could cause mis-operation,
or damage to the vehicle, and so invalidate any
warranty.
Additional connection points are provided
specifically for customer use (except M1 and M2
Bus), and are located on the outside of the
driver's seat base.
Do not jump-start the vehicle directly from the
battery. Use designated jump-start points. Refer
to the owners literature.
4.3.2 Power Management
Settings
There are four Power Management Settings
available:
•Factory
•Transport
•Normal
•Crash
Factory and Transport modes are only active
with ignition off; with ignition on, the vehicle
operates with full functionality. When in Transport
mode, the interior lights, clocks, and power
locking and alarms (where fitted) do not work.
It is possible to switch from Transport Mode to
Normal Mode without the use of any ancillary
equipment, but not vice versa. To change mode,
the brake pedal must be depressed five times,
and the hazard warning switch operated twice
(in any combination) within 10 seconds.
WARNING: It is not possible to return
the transport setting without using
the vehicle's diagnostics.
At the end of production, the vehicle is
configured to the transport setting to minimize
power consumption. As part of the Pre Delivery
Inspection process at the Ford dealership, the
vehicle is reconfigured to normal operation.
4.3.3 Electrical Conversions
Operator requirements for additional and
specialised electrical equipment varies. The
vehicle converter/modifier must, therefore,
consider the following points when designing the
installation:
•Legality and regulatory conformity of the base
vehicle.
•Drive-ability and serviceability of the base
vehicle.
•The effect of regulations governing the
proposed conversion including National
Legislation in the country of sale.
•The method of integrating the circuit into the
base vehicle.
•No additional circuits are to be run alongside
the electrical circuits (shown in blue in the
figure below) associated with the
Management System (shown in green in the
figure below), due to the possible Electro
Motive Force (EMF) effect on the circuits.
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
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95

Pull-in us actuvated within 70 ms of switching to
key position II
Pull-out is activated when switching to key
position I, or 0, and in key position II when no
engine run signal is sensed within 120 secs.
It is not possible to change state within 500 ms.
Removal of the Battery Disconnect
Switch (on twin battery models) and
wiring of batteries in parallel for high
current applications.
For vehicles equipped with a twin battery system,
wiring of the two batteries in parallel is not
recommended. If higher current is required,
680Ah batteries can be fitted (or a deep cycle
battery in lieu of the non-start relevant battery
only). Where a single passenger seat is fitted,
further batteries (1 or 2) can be installed in the
pedestal and added in parallel to the
non-start-relevant battery, although due
consideration then needs to be given to
increased current availability in the event of a
short circuit. Additional batteries should not be
installed under a passenger bench seat.
if this requirement is imperative, it would be
possible to disconnect the battery disconnect
switch and put the start-relevant and
non-start-relevant batteries in parallel using a
shorting bar (available from the Ford Delerships,
part number 6C1T-14A439-A*). There is one
important consideration when replacing the
battery disconnect switch with a shorting bar:
•Where the vehicle is configured for
twin-battery operation, the Central Junction
Box will detect if the battery disconnect switch
is missing (or has been removed), or the
mating connector short-circuited, and although
the vehicle will be functional, Diagnostic
Trouble Codes will be generated that will
flag-up during service. Hence if a shorting bar
is fitted, the vehicle needs to be reconfigured
(via the Dealership and Dealership Hotline).
Single to Dual Battery Conversion
For vehicles equipped with a single battery, it is
possible to upgrade to a twin battery system -
the connector for the battery disconnect switch
is present on all vehicles. In addition to
reconfiguring the vehicle for twin battery
operation (at a Dealership), the following battery
cables and components are required:
DescriptionPart Number
start relevant battery negative to vehicle ground point cable (right hand)
replaces C_ part
6C1T-14301-A_
start relevant battery negative to vehicle ground point cable (lefthand)
replaces D_ part
6C1T-14301-E_
start relevant battery negative to non-start relevant battery negative cable6C1T-14280-E_
pre-fuse box bus bar to non-start-relevant battery positive cable6C1T-14300-D_
Battery disconnect switch6C1T-10B728-A_
If a requirement exists (camper conversions for
example), it may be viable to order vehicles
installed with a single battery, a battery disconnect
switch, and a kit of harnesses – detailed above –
to be fitted by the installer.
Where required, e.g. for camper conversions,
gas-sealed battery boxes (with exterior venting)
are available. Ford part numbers:
6C1T-10N669-A_ (lefthand); 6C1T-10N669-B_
(right hand); 6C1T-10N725-A_ (lid).
The battery disconnect switch isolates the
auxiliary battery/batteries from the rest of the
base vehicle electrical system when the engine
is stopped.
The battery disconnect switch, together with
associated wiring and hardware, can be fitted as
part of an accessory kit (available from your local
Ford dealer) in the pre-fuse box.
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
4 Electrical
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NOTE: A power take off layout can only be
implemented on vehicles fitted with an ABS
braking system. Manual braking systems employ
a transmission speed sensor to determine vehicle
speed & the RPM speed control software
contains vehicle speed restrictions which prohibit
RPM speed control operation if vehicle speed is
detected above very low levels (approx 2.5 mph).
A vehicle fitted with an ABS braking system
derives vehicle speed via the vehicles wheel
speed sensors, so the transmission can operate
normally without effecting RPM speed control
operation.
3 Modes of Operation
There are 3 principle modes in which this feature
can operate, they are:
1.3 speed mode – this provides the end user a
choice of up to 3 preset RPM values to select
from. The end user cannot easily override
these values so there is minimal risk of damage
to ancillary equipment due to it being run at
speeds it was not designed for. Very limited
vehicle speed is allowable while in this mode
(up to 2.5mph approx)
2.Variable speed mode – this provides the end
user with RPM speed ramp up & down
buttons. The end user is free to select RPM
values between 1300-3000rpm in 25rpm
steps. A single press results in a 25 rpm jump.
If a ramp button is held depressed by the end
user then the rate of change is 250rpm/sec.
Very limited vehicle speed is allowable while in
this mode (up to 2.5mph approx)
3.Idle up speed – this mode allows the engines
normal idle to be increased to any value (in 25
rpm steps) in the range 900-1200rpm. There
is not a vehicle speed restriction in this mode
as the intended use is to raise the engine idle
to reduce the likelihood of engine stall when
ancillary equipment is being run from the
engine during normal drive operations. Eg
refrigerator units used to keep the cargo bay
cool.
NOTE: Items 1) & 2) will be available from Nov
2006, while item 3) should be available from Jan
2007. Any latest generation diesel Transit can be
updated to include item 3) Idle up speed with a
simple calibration update once it becomes
available.
System Availability
This feature is built into the latest Powertrain
Control Module (PCM) software on all diesel
engine variants.
By default the feature is not enabled unless the
vehicle is specifically ordered with the feature
from the factory.
Vehicles which have not been ordered with this
feature may have the feature enabled at a dealer
via the IDS diagnostics system. The dealer should
charge for this service.
How to control this feature
A loop of wire (green/white) is provided in the
main electrical loom to permit control of the RPM
Speed Control software. Cutting this loop will
provide two wires to connect a control box to the
PCM.
The control box needs to switch resistors into the
circuit across the two green/white wires which
formally formed the loop prior to being cut. This
sort of circuit is known as a resistance ladder. The
PCM software monitors the green/white wire
circuit & when certain resistances are detected
they are interpreted as various inputs which
control the feature. The switch box can be
located where it’s ideally required for the vehicle
conversion in question, rather than having to be
mounted on the Instrument Panel (IP). If the
converter chooses to locate the switch box in a
location which is subject to an adverse
environment then the converter should design
the switch box to withstand with these conditions.
How to locate the green/white loop
The main electrical loom enters the vehicle cab
from the engine bay on the left hand side of the
vehicle via a large diameter hole in the engine bay
/ cabin bulkhead. This hole is just above the left
hand front suspension turret. See following Figure
E88307
FordTransit 2006.5 (April 2006–)
Date of Publication: 12/2006
4 Electrical
158