2006 FORD TRANSIT Body And Equipment Mounting Section Manual

Roof-Mounted Position Light - Front
The lights operate in conjunction with the normal
position lights, driven by Central Junction Box
outputs (Left Hand: pin C2-28; Right Hand: pin
C2-20).
The roof marker lights are fitted as standard to
chassis cab vehicles, except those ordered for
camper use; on cab-van-floor vehicles, there is
a connector located in the area of the A-pillar
above the sun visor on the left and right hand
sides, that will provide the appropriate signals.
To get access the roof trim needs to be
disassembled. Each connector is capable of
supplying a 5W load.
NOTE: The feed for Roof marker lights must
NOT be taken from the side-marker and
end-outline lights signal.
Roof-Mounted front Position Light
Connector
DescriptionItem
Position Light FrontPin 1

Connector Location for Roof-Mounted Front Position Lights
See also Adding Connectors, Terminals and
Wiring
Fog Light Connector
Connectors are already part of the wiring if the
vehicle is medium or high spec. (for example with
electrical side mirrors). The main light switch will
need to be changed for one that includes this
feature. (There are switches with and without
front fog light function).
Connecting to Lighting - Question
and Answers
1.Chassis cab end outline marker lights,
recommended circuit and max amperage –
see lighting load table. There is NO
Ford-released harness for this, as the
end-outline marker lights normally form part
of the float.
2.Van & cab roof mounted rear lamp cluster
turn indicators, recommended circuit and max
amperage – at present there is an SVO
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harness that provides roof-mounted rear turn
indicators, powered via relays. This should be
used in conjunction with SVO fusebox.
3.Chassis cab LED rear lamp cluster
replacement recommendations, especially
turn indicator relay implications – see lighting
load table. Generally the use of LED equivalent
lighting systems reduces the electrical load on
the vehicle; however, special care needs to
be taken with respect to any change to or
addition of turn indicator lights. Depending on
the current requirements of the LED(s)
compared to the bulb it is replacing, a ballast
resistor may be required, if not already
integrated into the LED lamp assembly.
Without this, bulb outage detection for turn
indicators will be affected, which is a legal
requirement.
Additional turn indicators must be powered
through relays (max 300mA), driven by existing
turn lights. The maximum load that the Central
Junction Box can drive is 3 x 21W per side (front,
rear and CAT 6 turn indicators); but even if the
vehicle is not fitted with the CAT 6 lights, the feeds
for these should not be used as the Central
Junction Box would need reconfiguring, which
could have safety as well as functional
implications.
4.Special Vehicle Option beacon switch: wiring
locations, circuit diagrams and max amperage
– see Special Vehicle Option fuse box
schematic (max current is 15A); there is
provision for the Special Vehicle Option beacon
switch in an empty switch location on the
instrument panel.
5.Rear loom connector detail location and supply
details for retro-fit loom extension for
example:- when extending a medium wheel
base, long wheel base or extended frame
overhang, what connectors do they use to
make a plug and play loom extension? – for
chassis cab vehicles, there is an Special
Vehicle Option extension loom for rear lamps
(part number 6C1V-14408-A*). There is not, at
present, a similar loom for Van, Bus and
Kombi's, although the appropriate mating
connector is now tooled, so this would be
possible.
Miscellaneous Systems
Handbrake on - Cluster Warning Light -
Unless the vehicle is specified with options that
drive the handbrake warning light (for example
ESP, Australia market), the components making
up this system are not fitted. We do not
recommend installation of this feature as an
aftermarket addition. There are several reasons
for this:
1.Not all circuits carry the requisite wire as a give
away:
•The wires might be part of the main vehicle
harness (14401) even if not used – for example
camper vehicles are normally ordered with
power mirrors, and the wires will be present
as a give-away.
•The seat pedestal harness (14K076), however,
is vehicle specific – if the handbrake is not part
of the specification, it will not be present or
give-away. This harness would need to be
changed to the compatible part that also
includes the handbrake warning light circuit.
2.The handbrake switch (part number
2F2T-15852-A*) together with its short jumper
harness (6C1T-15K857-A*) would need to be
obtained and fitted.
3.The handbrake warning light is in all clusters,
but unless the vehicle config. parameter
“parking brake switch” is set, the Central
Junction Box will not read this input, and hence
NO CAN message sent to the cluster.
Reconfiguration can only be done at a Ford
Dealer.
NOTE: If a vehicle already has a handbrake
warning light in the cluster, or one is installed as
per the Ford design, it is not possible to utilize the
wire from the handbrake switch as part of an
interlock circuit (this is a pull up resistor input that
provides a wetting current of 20mA – anything in
excess of this, for example through additional
circuitry, will almost certainly damage the Central
Junction Box). If there is no handbrake switch
installed, it would be possible to add one and
utilize this as part of a separate circuit, up to a
maximum current of 500mA through the switch.
Reverse Sensors (Rear Park Aid
Module)- The factory-fit option is a CAN-based
system, but for Van, Bus, and Kombi vehicles
only. Stand-alone systems can be installed (for
example for chassis cab conversions), but would
need to utilize the PTA line of the radio if muting
is required.
Fuel Fired Heater (FFH)- Add FFH: wiring is
only present (give-away) in certain harnesses.
There was an aftermarket kit available for this
system on current Transit, which could probably
be “updated” to suit V347/8.
Fuel Fired Heater (FFH) - Programmable
FFH: this utilizes a timer/control module mounted
to the Instrument Panel, which necessitates
having the correct Instrument Panel harness
fitted. Retrofit of this would be a difficult.
For both systems, the appropriate 6C1T-14K132
harness would be required (suffix -A* for
Programmable FFH, and suffix –B* for Add FFH).
Central Locking
Locking is controlled by the Central Junction Box
module. There is current sensing on certain
locking circuit pins as part of the security system
– if these are tampered with, locking cannot be
guaranteed.
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However, it is possible to add an additional lock(s)
– see also the section covering the ‘third button
on key fob’ – but only by utilizing relays (the
electric locks are operated by surface mounted
relays in the Central Junction Box – these are
only capable of powering one lock each, in
addition to which the output of these devices is
current-sensed to check it is within minimum and
maximum limits: I) to verify operation, and ii) as
part of the security system). For camper vehicles,
the Central Junction Box is configured for a
chassis cab vehicle.
Depending on functionality required, the pins
used will emulate the basic locking/unlocking
operation of an existing door. Note, however,
that any additional locks will not be covered by
the vehicle alarm or operate Central Junction
Box controlled lighting, etc. It would be necessary
to splice into either the Central Junction Box
connector or the in-line connector for the door
jumper harness. The coil of the relay (max.
300mA) should be added across the relevant
pin and ground (i.e. one relay for lock all, one
relay for driver door unlock etc.)
The use of Ford Transit lock mechanisms is
strongly recommended as the Central Junction
Box is designed to drive these latches for the
correct amount of time.
Function14A631 in-line
Passenger Side
14A631 in-line Drive
Side
Central Junc-
tion Box
Driver door unlock-6C2-7
Passenger door unlock (on
chassis Cab / Cab-Van Floor
only
6-C2-8
Deadlock all55C2-23
Lock all88C2-24
Locking Configurations- The following list
details specific locking scenarios that have been
noted by customers:
1.Raid locking or drive away locking for taxi and
parcel van usage – this is a configurable
parameter in the Central Junction Box (Ford
Dealerships can set this).
2.Slam locking – this is a configurable parameter
in Central Junction Box (marketing want to
sell this as an option, therefore dealerships
can only switch off this feature, but not switch
on).
3.N1 lock reconfiguration into M2 locking, i.e. no
deadlocks – this can be reconfigured to be
central-locking only by a Ford Dealer (via
Dealership hotline).
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Pins to control Additional Door Locks
DescriptionItem
Driver door unlockPin 7
Passenger door unlock (Chassis Cab)Pin 8
Deadlock allPin
23
lock allPin
24
FordTransit 2006.5 (April 2006–)
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Third Button on Key Fob

Pin 12 Controlled by Third Button on the Key Fob
DescriptionItem
Key Fob SignalPin
12
Pin 12 on connector C2 of the Central Junction
Box is controlled by the third button on the key
fob – please refer to Figure E84730. This provides
a 1 second 12V pulse when pressed once, and
if pressed again within 3 seconds, a further 12V
pulse for ¼ second. (This second pulse is
basically an emulation of the double locking
system). This signal can be used for a variety of
converter applications, subject to load required.
This feature is only available on Chassis
Cab and Cab-Van Floor vehicles, and
Campers (but not Van, Bus or Kombi or Double
Chassis Cab) vehicles that have a high level
Central Junction Box, part number
6C1T-14A073-C*. Pin C2-12 is part of the circuit
protected by a 15A fuse (F78).
NOTE: There are no micro switches, no current
sensing, or any alarm system functionality
associated with this pin, or any lockset driven by
it.
See also Adding Connectors, Terminals and
Wiring.
4.14.9 Engine RPM (Revs Per
Minute) Speed Controller
System Overview
This feature relates to the new generation Transit
launched in 2006 & is available on all diesel
variants.
This feature enables the engine in the vehicle to
be run at elevated RPM speeds. The power from
the engine can then be used to drive ancillary
equipment. The ancillary equipment may be
powered either via a Front End Accessory Drive
(FEAD) layout (in a similar fashion to the AC
compressor), or via a Power Take Off (PTO)
layout by installing a secondary gearbox between
the output shaft of the vehicles primary
transmission & the rear axle with the secondary
gearbox transmitting power either to the rear
wheels during normal driving or redirecting power
to the ancillary equipment.
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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
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Main Electrical Loom Location (green / white loop)
The loom is loosely taped in this location, so the
green/white loop should be easy to extract. See
Figure E88703
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Resistance Ladder

Resistance Ladder Circuit
DescriptionItem
To Green / White Wire1
Stop Engine2
RPM 1 on / off or Variable Control 'Idle'3
RPM 2 on / off or Variable Control 'Negative (-)'4
RPM 3 on / off or Variable Control 'Positive (+)'5
RPM control Armed or Increased Idle on / off6
The resistance ladder circuit acts as a potential
divider. The PCM has an internal reference
voltage of 5 volts. Current passes through an
internal 320 ohm resistor (not shown above) prior
to passing through the resistance ladder. There
is also a (second) 220 nF capacitor internally
within the PCM between the 320 ohm resistor &
ground (not shown above) & this is to reduce
EMC effects.
With all the switches open there a total resistance
in the green/white loop of approx 4330 ohms &
this corresponds to normal driving operation (as
does short circuit – the condition prior to the loop
being cut).
Starting from the right of the diagram, when the
key switch is closed only 2110 ohms is in the
circuit & the PCM software recognizes this as the
RPM mode being armed & ready for operation
(Key switch closed = on, open = off). A key switch
is recommended in this position for a couple of
reasons:
•If the control box is located externally on the
vehicle, the requirement for a key avoids any
passers by being able to put the vehicle into
RPM Speed Control mode by simply pressing
a button.
•Using a key switch where the key can be
removed in either the ‘on’ or ‘off’ condition
could be used as an aid to anti theft. If the
operator uses a key to put the vehicle into
RPM Speed control mode & then removes the
key, then the vehicle cannot quickly & easily
be taken out of RPM speed control mode. If
a foot pedal is pressed while in either the 3
speed or variable speed modes, the vehicles
engine will stall & therefore the vehicle can not
easily be driven away & stolen.
When in 3 speed mode pressing any of the
middle 3 switches (with the feature armed) results
in the engine RPM jumping to the corresponding
RPM value held in memory (defaults of 1100, 1600
or 2030rpm) for the 3 switch positions. A second
consecutive press of the same button returns to
normal idle.
When in variable speed mode the same 3 buttons
act as ramp up, ramp down & return to idle
selections respectively.
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