VACUUM FLUORESCENT DIGITAL DASHBOARD
SERIES 3
NOW WITH
SOLID STATE SENSOR TECHNOLOGY
INSTALLATION AND OPERATION MANUAL
Please read this before beginning installation or wiring.
IMPORTANT NOTE!
This system has an odometer preset option that is only
available for the first 100 miles (160km) of operation. See odometer preset section
for instructions and setup information.
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WARNING
The vacuum fluorescent displays are made of glass and should be handled with care.
MOUNTING UNIVERSAL DISPLAY SYSTEMS WITH SUBPANELS
When mounting instrumentation systems mounted to an ABS subpanel, begin by
removing the subpanel from the aluminum. Cut an opening in the dash just smaller than the
outer dimensions of the aluminum panel. Remove all nuts and washers from the studs on the
back side of the panel and insert into the hole. Next, install four washers or clips and secure
with a nut on each. This is what holds the panel to the dashboard. Now, install a nut on each
stud and set the display panel in place over the studs. If the studs were bent slightly inward
from securing the aluminum panel, you may have to bend them outward to line up with the holes
on the ABS subpanel. Always lay the display panel aside when not in use to avoid accidentally
damaging the displays. Once aligned, secure it with an additional four nuts. Leave a gap of no
less than 1/8" between the display glass and the front lens material. Be careful not to compress
the glass against the front lens. Again, note that the displays are glass and should be handled
with care. Use extreme care around the glass evacuation tubes (small tubes at the bottom of
each display) as bumping them may cause breakage and render the display useless.
MOUNTING SYSTEMS WITH DISPLAYS MOUNTED TO ALUMINUM
When mounting year specific aluminum panel, cut an opening into the dashboard if
necessary and secure the entire panel with the instrumentation using the appropriate mounting
hardware. Some panels are set into the front of the dash while others are installed from the rear
of the dash. The exact mounting configuration will depend on what year car and panel you are
installing.
MOUNTING SINGLE LENS SYSTEMS
Your DAKOTA DIGITAL single lens system will come to you with a single plexiglass lens
and instrumentation that is mounted in an aluminum case. The lens and the instrumentation
have corresponding mounting holes. After you have affixed the mounting studs of your choice
to the backside of your dash, the lens piece should be slid over the studs followed by the display
system. The lens can be secured with either washers and nuts, or by a bead of RTV around the
back side of the lens and case. If RTV is used, the system will need to be held in place until it
has had time to cure. The lens should be tight against the aluminum display case.
Adjust the height of the panel so that the glass displays are 1/8" away from the front lens.
Applying a lock washer and nut to the studs behind the display panel, secure the display panel
to the bezel. If screws were provided with the panel, secure them through the display panel and
into the bezel. No additional holes should need to be drilled. All holes in the display systems
are pre-drilled at the factory.
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MOUNTING KITS INTO ORIGINAL DASHES
Some kits will include a separate mounting instruction sheet so please see that first for
system mounting instructions. Some systems will attach directly to the bezel, and others will
mount back into the instrument cans where the factory gauges where mounted. There are three
basic system mounting configurations read on to identify your system and how to mount it.
It may be necessary to trim or remove some plastic or bezel material depending on the system.
You may also need the following tools and materials to complete a system install depending on
the vehicle
• Screw drivers
• Nut drivers
• Side cutters
• Die grinder
• Cut off wheel
• Silicone / RTV
Complete Systems mounted in new bezel
If your system came from Dakota Digital with a new bezel, installation on the system
should be straight forward. Remove the factory gauges and bezel and install the new one.
Systems that have a glue-in lens (loose lens with no mounting holes in it)
If your system included a front lens separate from the displays and contains no mounting
holes, you have a glue-in lens system. The lens will be secured to the original bezel using RTV.
When installing the display system into the original bezel, several steps must be taken to
prepare the bezel. The first is to remove the cluster from the dashboard. Next, remove all
instrumentation from the bezel as well as the factory lens. You will generally be left with a bare
plastic or metal bezel. Remove any felt inserts from the back side of the bezel that sit between
the lens and the bezel.
Next, take the supplied lens, remove any masking that may be on it and with the lettering
facing the front of the dash, place it in the bezel. Lay a bead of RTV around the back side of the
lens to secure it in place. After the RTV has cured, the display panel is ready to be placed on
the bezel. If studs were supplied with the panel, screw them into the bezel and place a nut on
them before placing the display system on it.
Systems that mount into original cans with hardware (lens and systems screw together)
If the system came with the lens and system attached together, the compete assembly
should either mount into the original cans or secure directly to the bezel. Some systems may
come with a new can or housing over the back of the system that should make mounting very
apparent. If you have a version with a system and lens attached to ABS plastic, you will need to
secure these to the original cans or instrument housings.
First, remove the cluster from the dashboard. Next, remove all instrumentation from the
bezel as well as the factory lens. You should essentially be left with a bare bezel, possibly
reusing any clear lenses that were covering the factory gauges. If you have a system that came
in a new can or has an ABS subpanel that fits over the factory bezel, you can secure it back to
the bezel and re-install into the car.
If your system mounts into the cans, continue removing the stock gauges as well as other
lights and loose parts from the instrument cans as the display systems typically sit flat into the
can so everything must be removed. Once the cans are cleared, the system should fit into the
can and secure from the back of the can with screws. The ABS sub-panel should have some
mounting holes and supplied hardware for securing the system to the can. Once system is
secure, reattach cans to the bezel and re-install into the car.
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GAUGE SYSTEM FEATURES
Mileage readings
• Million mile odometer
• Two (A/B) re-settable trip mileage (0-9999.9)
• Re-settable service mileage (0-9999)
Performance readings
• High speed recall. This is reset at power up and can be manually reset.
• High rpm recall. This is reset at power up and can be manually reset.
• 0-60 mph (0-100kmh) time.
• ¼ mile time.
• ¼ mile end speed. This is reset when the ¼ mile time restarts.
Hour meter
• Resettable hours (0-999.9)
English/metric conversion
• Alternate speed can be displayed on message display.
Special tachometer displays
• On systems that do not have bar graph displays, a bar tach can be shown on the
message display.
• On systems that do not have a digital tachometer display, the rpm can be shown on the
message display or the tachometer reading can be switched onto the speed display.
Built-in Indicators
• Left/Right Turn signal indicators
• High Beam indicator
• Check Engine indicator
• Brake warning indicator
• 4x4 indicator
• Wait to Start indicator
• Cruise control indicator
• Gear position indicator which displays full gear word with use of Dakota Digital GSS-2000
(purchased separately)
Special outputs
• Shift output to activate external light
• Selectable 2000ppm or 4000ppm speed output for cruise or ECM
Demonstration mode
• Holding Switch 2 while turning on the key will start the system going through a preset
sequence of readings. To exit the demo mode, turn the key off. You may also wire up a
separate switch to power the gauges for demo mode without powering the entire vehicle.
Auxiliary gauge readings in tach message display with future expansion bus interface modules
(BIM)
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MESSAGE DISPLAYS
On systems with two message displays, Switch 1(SW1) will toggle between the speed
message displays and Switch 2(SW2) will toggle between the tach message displays.
On systems with one message display, SW1 will either switch from the tach message to
the speed message and then toggle to the next speed message with each press and release.
SW2 will switch from the speed message to the tach message and then toggle to the next tach
message with each press and release.
Speed message displays
ODOMTR
TRIP A
DESCRIPTION
.
odometer mileage (0-999,999)
trip A odometer mileage (0-9999.9)
trip B odometer mileage (0-9999.9)
TRIP B
SERVIC (when enabled)
0-60 T
miles since last service (0-9,999, or ---- when past due)
0-60 mph time in seconds (0-25.5)
HI SPD
high speed recall (0-255)
QUARTR
¼ mile time in seconds (0-25.5)
QT SPD
end of ¼ mile speed (0-255)
KPH xxx
kph conversion (or mph conversion if kph selected as primary unit)
NOTE: In normal operation you have to use switch 1 (SW1) to reset trip meters, service
counter, and the various performance timers. A press and hold will zero the current
reading, if it can be reset.
Tach Message displays
HI RPM
DESCRIPTION
high rpm recall (0-18,000)
.
HOURS
hours system has been on with tach signal (0-999.9)
bar tach readout on message display (0-8)
digital tach readout on message display
digital tach readout on speed display
BAR(on systems with no bar graph)
RPM(on systems with no digital tach)
TACH(on systems with no digital tach)
ENGINE
BRAKE
4W DRV
WAIT
check engine indicator
brake warning indicator
4 wheel drive indication
diesel wait to start indicator
gear shift position indicator
GEAR( with optional GSS-2000)
Future BIM modules
BIM messages will display on tach message display
NOTE: In normal operation you have to use switch 2 (SW2) to reset hour meter, and high
RPM recall. A press and hold will zero the current reading, if it can be reset. A press
hold will also clear warning messages such as ENGINE, BRAKE, etc.
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CONTROL BOX MOUNTING
Once the display panel is in place, mount the control box within reach of the ribbon cable
on the display panel (approximately 3 feet). Pick a mounting location that will allow you access
to wire all of the inputs on the control box. Double sided tape, hook and loop fasteners, or
screws in the two tabs on the case work fine for securing the control box under the dash.
When selecting a mounting location, avoid placing the control module next to, or
just opposite of the firewall, from ignition components, ie: Ignition coil, HEI, etc. Ignition
components can emit tremendous amounts of electric noise, affecting the operation of
electrical components.
Wiring the control box into the vehicle
While the control box contains several connections, the wiring is straightforward.
Depending on how many auxiliary functions you want displayed, not every terminal will be used
in most applications. Below we describe the function of each terminal, what they do, and how to
wire them.
FUEL LEVEL SENSOR GROUND OUTPUT
FUEL LEVEL SENSOR INPUT
FUEL -
FUEL SND
FUEL +
FUEL LEVEL SENSOR POWER OUTPUT
OIL PRESSURE SENSOR GROUND OUTPUT
OIL PRESSURE SENSOR INPUT
OIL -
TO DISPLAY SYSTEM
CONNECTOR
OIL SND
OIL +
OIL PRESSURE SENSORPOWER OUTPUT
WATER TEMPERATURE SENSOR GROUND OUTPUT
WATER TEMPERATURE SENSOR INPUT
WTR -
WTR SND
NIGHT DIMMING ADJUSTMENT GROUND OUTPUT
NIGHT DIMMING ADJUSTMENT INPUT
ADJ -
ADJ SND
SPEED SELECT SWITCH INPUT SW1
TACH SELECT SWITCH INPUT SW2
SW1 (-)
SW2 (-)
2000 PPM SPEED SIGNAL OUTPUT
VEHICLE SPEED SENSOR GROUND OUTPUT
VEHICLE SPEED SENSOR SIGNAL INPUT
VEHICLE SPEED SENSOR POWER OUTPUT
SPD OUT
SPD -
CHECK ENG (-)
BRAKE (-)
HIGH (+)
CHECK ENGINE INDICATOR INPUT
BRAKE SYSTEM/PARKING BRAKE WARNING INPUT
HIGH BEAM INDICATOR INPUT
SPD SND
SPD +
LEFT TURN SIGNAL INDICATOR INPUT
RIGHT TURN SIGNAL INDICATOR INPUT
4 WHEEL DRIVE INDICATOR INPUT
LEFT (+)
NIGHT DIMMING INPUT
RPM WARNING/SHIFT OUTPUT
TACHOMETER INPUT
DIM (+)
WARN
RIGHT (+)
4x4 (-)
TACH
1-WIRE GEAR INDICATOR INPUT (FROM GSS UNIT)
GEAR (1 WIRE)
WAIT (+)
+12 VOLT ACCESSORY POWER INPUT
MAIN CHASSIS GROUND INPUT
POWER
GROUND
WAIT TO START INDICATOR INPUT
CRUISE ENGAGED INDICATOR INPUT
CRUISE (-)
STATUS LED
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PARKING BRAKE
SWITCH
ECU/ECM
check engine
output
HIGH BEAM
WIRE
DISPLAY PANEL
4x4
transfer case
switch
DAKOTA DIGITAL
GSS UNIT
LEFT TURN
RIGHT TURN
SIGNAL WIRE
SIGNAL WIRE
RIBBON CABLE
1-Wire output
BIM
CONNECTION
ONLY!
Optional
Glow Plug Relay
or
Wait to start output
DISPLAY
Cruise Control
Engage Output
STRIPE
RIBBON CABLE
AUX.
I/O
SERIES III
VFD CONTROL BOX
605-332-6513
STATUS LED
Additional ground wire to fuel
sensor body or mounting screw.
Connect to main
chassis ground
+12V KEY ON POWER
(fused 5 - 20 AMP max)
EXSISTING
FUEL LEVEL
SENSOR
ECU/ECM
or Ignition Box
(tach output)
-
+
PRESSURE SENSOR
SEN-03-8
0-100 PSI
Tail Light
Connect to tail light circuit
dash will dim when termianl has +12V
Ignition Coil
(negative side)
Light or Buzzer
(4 Watts or less)
ECU/ECM
Speed Output
TEMP SENSOR
SEN-04-5
100-300 F
SPEED OUT
(2k or 4k PPM)
DIM-1
Relay
SPEED SENSOR
SEN-01-5
16k PPM
Optional
Light or Buzzer
(4 Watts or more)
TERMINAL DESCRIPTIONS
Status LED
This LED is located at the corner of the control box, next to the GROUND terminal. The
LED is used for diagnostics.
• A steady flash, on and off, about one second apart indicates the system is powered and
operating normally.
• On steady indicates low power, below 9V, at the POWER terminal (the displays will also
generally be dim) .
• Not flashing or lighting indicates loss of power or ground.
GROUND
This is the main ground for the display system. A wire should be run from this terminal to
the vehicle’s main chassis ground. Use 18 AWG or larger wire to ensure sufficient grounding.
Proper vehicle grounding is extremely important for any gauges (or electronics) to
operate correctly. The engine block should have heavy ground cables to the battery, frame, and
firewall. Failure to properly ground the engine block or the control box can cause
incorrect or erratic operation.
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POWER
Connect the POWER terminal to accessory +12V power from the fuse panel or vehicle
wiring harness. This terminal should have power when the key is on or in accessory position.
In addition to powering the display system, this is also where the voltmeter gauge senses the
vehicle electrical system voltage. The supply source should be a fused 5 - 20 amp circuit, the
system only draws about 1 amp, so sharing an existing accessory circuit will be generally be
fine. Use 18 AWG wire to ensure the system receives a sufficient power feed.
*** Never connect this to a battery charger alone. It needs to have a 12 volt battery
connected to it. Battery chargers have an unregulated voltage output that will cause the
system to not operate properly and may cause damage to the control box.
TACH
Depending on the type of instrument system that you have, there may be a bar graph
tachometer, a digital tachometer, or both. Connect the TACH terminal to the ignition system.
On vehicles using a separate ignition coil, connect to the negative side of the coil. The negative
side of the coil will be the wire that goes to the points or electronic ignition module. For GM HEI
ignition equipped motors, connect to the terminal marked “TACH” or on some systems a single
white wire with a spade terminal on it. On some aftermarket ignition systems, connect to the
TACH output terminal. On computer controlled ignition systems consult a service manual for
the wire color and location. With a magneto system, connect to the kill wire for the tach signal.
Do not connect the TACH terminal to the secondary, or high voltage side of the ignition
coil.
To ensure that the ignition system does not interfere with any other dashboard functions,
do not run the tachometer wire alongside any other sender or input wires. DO NOT USE SOLID
CORE SPARK PLUG WIRES WITH THIS DASHBOARD SYSTEM. Solid core ignition wires
cause a large amount of electromagnetic and radio frequency interference which can disrupt the
system operation.
The tachometer is compatible with almost all gasoline engines. The engine cylinder
selection, display update rate, tach signal type, and rpm warning point can be adjusted in the
setup menu under “TACH”. If a diesel engine is being used then you will need a tach interface,
such as Dakota Digital’s DSL-1 or DSL-2. Be aware of the cylinder setting when using computer
outputs or reading the tach signal from an ECU. GM LS1 engines require the tach to be set up
for a 4 cylinder, low voltage signal when reading from the ECU even though it is a V8 engine.
WARN
The WARN terminal is an output for a relay or small light. The output is ground-activated
when the preset rpm limit is exceeded. This output can turn on a 4 Watt or smaller 12 volt bulb
or can activate a relay to turn on a larger bulb. To wire a warning light to this output, connect
one wire from the bulb to 12 volt accessory power and connect the other wire to the WARN
terminal.
DIM
The gauges are designed to dim down when the headlights are turned on. This is to
reduce the display intensity at night so the gauges do not cause eye strain or reduced night
vision. Connect this to the tail light or parking light circuit so that it has 12 volts whenever the
headlights are on. When this terminal does not have power the display system will be at full
brightness. When power is applied, the display dims to an adjustable level.
The night brightness level is adjustable two different ways. This preset brightness is
adjusted in the setup menu “NIGHT”. See ADJ SND for a description of the second method.
By default the system will dim to a about ½ bright ness when DIM terminal gets +12V.
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SPD +
This terminal is used to supply power to Dakota Digital speed sensor SEN-01-5. This
supplies 5V DC to the sensor and should not be hooked up to anything else. Connect the red
wire from the SEN-01-5 to this terminal.
If you are using a 1-wire VSS output from a computer or a two wire pulse generator this
terminal should be left open.
***DO NOT use this terminal to power any other devices it is a low current +5V output.
SPD SND
This is where the vehicle speed sensor (VSS) connects. The signal supplied to this
terminal will be used by the control box to calculate the speed reading on the display and also
for calculating and saving odometer mileage.
Dakota Digital supplies a 3-wire sensor for most of its kits, SEN-01-5. If you are using
this sensor, the white wire is the speed signal; connect to SPD SND. The red and black wires in
the cable are power and ground (5V DC) and their connection is discussed in SPD + and SPD -.
For two wire speed sensors such as a cable driven pulse generator, the polarity of the
wires does not matter. Connect one wire to the SPD – (Ground) and the other to the SPD SND
terminal. The speed sensor ground wire should be brought back to the control box to ensure a
proper signal is received. Twisting the ground and signal wires around each other provides an
additional level of interference protection. The speed signal wire should not be routed alongside
tach, ignition, or other high current or high voltage wires.
For vehicles which have a vehicle speed signal from a transmission sensor or ECM, tap
into the VSS wire and connect it to the SPD SND. Consult a vehicle service manual or wiring
diagram to determine wire color and location.
This system can accept 4000 ppm – 128,000 ppm speed signals with room for
adjustment. The speedometer is fully adjustable and calibration is discussed in a later section.
***Failure to calibrate the speedometer may cause your odometer mileage to
increase very rapidly if the speedometer is reading too fast.
*** The speed signal wire should NOT be routed alongside ignition or other high
current/voltage wires.
SPD –
This terminal is used for speed sensor ground. This insures a proper ground as well as
providing proper hook-up for a twisted pair of wires, or a solid state sensor. Only ground the
speed sensor here. If you are using a single wire output from a computer for the VSS then this
terminal should be left open.
SPD OUT
This terminal can be used to supply a speed signal to auxiliary devices such as a cruise
control or radio volume adjustment. The output is scaled to the input speed signal coming into
the SPD SND terminal. It can be set to 2000 PPM or 4000 PPM.
***If you are using the bus speed signal option this output will NOT work.
SW 2 (-) or Tach switch
The SW 2 terminal is used for selecting the various rpm, engine, and warning displays
and also for entering the demonstration mode. The SW 2 input is activated by a ground
connection. The push button switch supplied (or any momentary normally open switch) is wired
by connecting one terminal to SW 2 and the other terminal to a ground. When the button is
pressed and released, the tach message display will change. When the button is pressed and
held for a few seconds, any re-settable information displayed will be zeroed. On systems with
two message displays, the one below the tach is dedicated to rpm/warn messages. On
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systems with one message display the speed/performance and rpm/warn messages will use the
same display.
To enter DEMO mode, press and hold switch 2 while turning the key on. The system will
light up and say DAKOTA DIGITALon the message readouts, release the switch and the
system will stay in demo mode until the power is cycled off and back on without the switch held.
SW 1 (-) or Speed switch
The SW 1 terminal is used for selecting the various speed, distance, and performance
displays and also for entering the setup menu. The SW 1 input is activated by a ground
connection. The push button switch supplied (or any momentary normally open switch) is wired
by connecting one terminal to SW 1 and the other terminal to a ground. When the button is
pressed and released, the speed message display will change. When the button is pressed and
held for a few seconds, any re-settable information displayed will be zeroed. On systems with
two message displays, the one below the speed is dedicated to speed/performance messages.
On systems with one message display the speed/performance and rpm/warn messages will use
the same display.
ADJ SND
The ADJ SND terminal is an optionally used input that allows you to have control over the
dimming brightness. By default, the system will dim to approximately half brightness when the
DIM terminal has power, +12V, but this level is adjustable in the NIGHTsetup menu. Using the
ADJ SND terminal allows you to have a dash mounted control to vary the brightness while the
headlights are on. This requires Dakota Digital’s DIM-1 kit; a stock headlight rheostat will not
work.
The DIM-1 has two wires, one connects to the ADJ SND terminal and the other connects
to ADJ - ground. The dash mounted dimmer will only vary the display brightness when the DIM
terminal has power, +12V.
ADJ –
This terminal provides a ground reference for the optionally installed DIM-1 for dash
mounted dimming control. One wire from the potentiometer will connect to the ADJ – terminal,
the other connects to the ADJ SND.
*This terminal should not be used for grounding other sensors or devices or damage to
the control box will occur. If not using a Dakota Digital DIM-1, this terminal should be left
open.
WTR SND
The water temperature sender included with this system must be used. Other
senders will cause incorrect readings or damage to the control box.
The supplied sensor, Dakota Digital SEN-04-5, is a 100-300ºF(40-150ºC) temp sensor.
The sender mounts on the engine block or into the intake manifold so that the end of the sensor
is in the engine coolant flow. It has 1/8” NPT threads, adaptor bushings may be used to adapt it
for various applications.
The water temp sensor has two wires coming from the harness. One wire will connect to
the WTR SND terminal; the other wire will connect to the WTR –. It does not matter which wire
goes into either location.
Due to the construction of the sensor, readings at lower temperatures below 100 ºF will
be inaccurate. The sensor is designed to be accurate from approximately 100 ºF - 300 ºF.
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WTR –
This is the ground reference used for two-wire water temp sensors. This will connect to
one of the wires from the Dakota Digital SEN-04-5. The other wire will connect to the WTR SND
terminal, and it doesn’t matter which wire goes into either location.
OIL +
This terminal is used to supply power to Dakota Digital pressure sensor SEN-03-8. This
supplies 5V DC to the sensor and should not be connected to anything else. Connect the red
wire from the SEN-03-8 to this terminal.
***DO NOT use this terminal to power any other devices it is a low current +5V output.
OIL SND
The oil pressure sender included with this system must be used. Other senders
will cause incorrect readings or damage to the control box.
The supplied sensor, Dakota Digital SEN-03-8, is a 0-100 psi solid state pressure
sensor. The sender can mount on the engine block or in an oil pressure line off of the block.
The sender has 1/8” NPT threads. Adaptor bushings may be used to adapt it for various
applications.
The oil pressure sensor has three wires coming from the harness, plus one bare shield
wire. The WHITE wire will connect to the OIL SND terminal, the RED to OIL + (5V DC), and the
black and bare shield wire to OIL –. Do not route the oil sender wire alongside a spark plug wire
or other high current or high voltage wires. Doing so can cause incorrect or erratic gauge
readings.
If the oil pressure drops below an adjustable warning point, the reading will flash as a low
oil pressure warning. The default warning point is 10 psi. If the oil display shows “—“ this
indicates that the control box is sensing a short to ground or out-of-range error from the sender
or sender wire. If the oil display shows “EEE” this indicates that the control box is sensing an
open circuit or out-of-range error from the sender. If either indication remains on the display,
inspect the sender wire for damage, check the routing of the sender wire, check the sending unit
grounding, and check that the correct sending unit is connected.
OIL –
This is the ground reference used for three-wire pressure sensor. This will connect to the
black wire as well as the bare silver shield wire from the Dakota Digital SEN-03-8.
***The bare wire is the shield wire, connect this wire to the OIL – along with the black wire
***DO NOT connect this terminal to any other devices
FUEL +
This output is not typically used. It is a low current +12V supply for powering solid state
fuel sensors. Currently, it does not have an application for any Dakota Digital fuel level sensors.
***This terminal should not be used with a typical resistive type fuel sensor. For
most applications, leave this terminal open. Do not try to power other devices from this
terminal or damage to the control box will occur.
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FUEL SND
The fuel gauge sending unit is not normally supplied because the display system can use
the existing fuel sending unit that is already in the tank in many cases. The sending units that
are compatible with this system are as follows: GM, Ford, VDO, and Stewart Warner. It is also
possible to program in a custom setting for senders that are not pre-programmed into the
system.
Dakota Digital recommends that you run two wires back to the fuel level sensor to insure
proper grounds. Use the FUEL - and FUEL SND terminals and run a twisted pair of wires back
to your fuel level sensor. Connect the FUEL - terminal to the fuel level sensor body or a
mounting screw to insure the sensor is sufficiently grounded. The other wire is the sensor signal
which goes to the FUEL SND terminal.
If your wiring harness already has a single wire routed through the vehicle for the fuel
sender then it may be used. If using a wire from an existing harness, make sure that the wire
does not have power. The fuel sender gets power from the control box only. Fuel senders
reference their ground from the sender mounting plate. Make sure that a ground wire is
connected from one of the sender mounting bolts to the vehicle frame.
The fuel sender type is selected using the setup menu under “FUEL”. The settings are
discussed later in the setup section. Anytime the fuel level is below 10%, the reading will flash
as a warning of low fuel.
The fuel gauge will initially display “FL” until the fuel sender type has been set. If the fuel
display shows “ --” this indicates that the control box is sensing a short to ground or out-of-
range error from the sender or sender wire. If the fuel display shows “EE” this indicates that the
control box is sensing an open circuit or out-of-range error from the sender. If either indication
remains on the display, inspect the sender wire for damage, check the routing of the sender
wire, check the sending unit grounding, and check that the sender selection is set correctly for
the sending unit that is connected.
FUEL –
This terminal is used to provide a ground connection for the fuel level sensor. Dakota
Digital recommends that you use the FUEL - terminal and run a twisted pair of wires back to
your fuel level sensor. Connect the FUEL - terminal to the fuel level sensor body or a mounting
screw to insure the sensor is sufficiently grounded. One terminal on the sensor is the signal
which goes to the FUEL SND terminal
***For fuel level sensors that are attached to an electric fuel pump, or if you have
an electric fuel pump in the tank, make sure that the fuel pump is externally grounded to
the vehicle chassis. Attempting to ground the fuel pump to the Dakota Digital control
box will result in erratic operation and damage to the control box.
CRUISE (-)
The CRUISE terminal can be used as a “cruise engaged” indicator. The CRUISE input is
activated by a ground signal from a compatible cruise control harness. Whenever the CRUISE
input is grounded, the system will display a small “c” to the right of the speedometer.
WAIT (+)
The WAIT terminal can be used as a “wait to start” or glow plug indicator. The WAIT
input is activated by a 12 volt signal from the glow plugs. Whenever the WAIT input is powered,
+12V, the system will display “WAIT” on the tach message display. This message can be
cleared by pressing and holding switch 2, or once the WAIT terminal loses the +12V signal.
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GEAR (1 wire)
The GEAR terminal is used for the gear shift indicator. The indicator is built into every
system, but will not light up unless a Dakota Digital GSS-1000/2000/5000 gear shift sending unit
is connected, telling the system what gear the transmission is in. The gear shift sending unit is
not included with the system and must be purchased separately if desired.
The GEAR terminal will connect to the FIRST terminal on a GSS-1000 or to the 1-WIRE
terminal on a GSS-2000 or GSS-5000. Follow the instructions in the GSS manual for use with a
single wire display system. When the gear shift sending unit is connected, the gear name will
be shown on the tach message display.
NOTE: The system will automatically change to the gear display for a few seconds
whenever the gear position changes, even if viewing a different message display.
4x4 (-)
The 4x4 terminal can be used on four wheel drive vehicles. The 4x4 input is activated by
a ground signal from a switch on the transfer case. Connect a wire from this terminal to the
switch on the transfer case. Whenever the 4x4 input is grounded the system will display “4W
DRV” on the message display. When signal turns off, the system will briefly display “2W DRV” on
the message display.
RIGHT (+)
The RIGHT terminal is activated by a 12 volt signal from the turn signal flasher. When
this terminal has 12 volts, an arrow will light up to the right of the speedometer display. An
existing wire from the vehicle for the right turn indicator can be used or a new wire can be
connected from the turn signal flasher or power wire feeding the right turn signal bulb.
LEFT (+)
The LEFT terminal is activated by a 12 volt signal from the turn signal flasher. When this
terminal has 12 volts, an arrow will light up to the left of the speedometer display. An existing
wire from the vehicle for the left turn indicator can be used or a new wire can be connected from
the turn signal flasher or power wire feeding the left turn signal bulb.
HIGH (+)
The HIGH terminal is activated by a 12 volt signal from the headlight high beam wire.
When the terminal has 12 volts, an indicator will light up to the lower right of the speedometer
display. An existing wire from the vehicle for the high beam indicator can be used or a new wire
can be connected from the high beam side of the hi/low beam switch.
BRAKE (-)
The BRAKE terminal can be used as a brake system warning indicator. The BRAKE
input is activated by a ground signal from the brake pressure switch on the master cylinder or
from the parking brake set switch. Connect a wire from this terminal to the pressure switch on
the master cylinder or consult a vehicle service manual to determine color and location of an
existing wire. Whenever the BRAKE input is grounded, the system will display “BRAKE” on the
message display. This message can be cleared by pressing and holding switch 2.
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CHECK ENG (-)
The check engine terminal is used with fuel injection ECM’s to display engine problems
and trouble codes. The CHECK input is activated by a ground signal from the ECM. Whenever
the check input is grounded, the system will display “ENGINE” on the message display. This
message can be cleared by pressing and holding switch 2.
When the ECM is placed into diagnostic mode, trouble codes can be read by counting
the flashes. Consult a service manual for the fuel injection system that you have for further
information on trouble codes.
With some ECM’s, a 12 volt light bulb may need to be connected in addition to the
CHECK input in order to provide proper current loading. In this case, both the bulb and our
display system indicator would come on when the check engine wire is “active”.
AUX. I/O
This jack is used to connect future bus expansion modules (BIM). Do not attempt to plug
in any other device to this jack or damage to the control box will occur. This connector should
be left open, unless using a Dakota Digital product designed for it. Operation is discussed with
BIM units purchased separately.
DISPLAY RIBBON CABLE
This is where the grey cable from the display system plugs into the control box.
To connect the ribbon cable from the display system to the control box;
• First open the two locking tabs on either side of the blue RIBBON CABLE connector.
• Next align the red stripe in the ribbon cable with the “STRIPE” text on the control box.
• Finally press the ribbon cable into the connector, press firmly to seat the connector.
• The two locking tabs should “snap” into place securing the connector.
***Do NOT force the connector, if it is not inserting easily, check alignment of the red
stripe on the ribbon cable with the indicator on the control box.
Locking tabs closed
Locking tabs OPEN
LOCKS
CLOSED
RED STRIPE
Align stripe
Ribbon cable connected
MAN 650066:D
15
Setting up the control box
Below is a list of all of the setup menus. You must have SW1 wired to enter setup;
descriptions of each menu are below. Pay close attention to Setup Menus and settings as
incorrect settings will cause faulty readings on the displays.
Main Menu
SPEED
Sub Menu
Description____________________
SENDER (normal, bus)
AUTO (MPH/KMH)
Select sensor type
Auto calibrate speed
ADJUST(MPH/KMH,normal, bus)
Servic(OFF, 500 – 7500)
OUTPUT (2k ppm, 4k PPm)
DONE
Adjust the speed calibration
Select the service countdown
Select output speed signal PPM setting
Exit setup menu
Tach
T CAL (Bus,1 – 16)
UPDATE (slow, mid, fast)
WARN (2200 – 14800)
SIGNAL (5 LO, 12 HI)
DONE
Set engine cylinder count
Set rpm update rate
Set rpm shift warning point
Select rpm signal voltage level
Exit setup menu
VOLT
WARN (100 – 131)
DONE
Set low volt warning point
Exit setup menu
WATER
SENDER (DD F,DD C,BUS F, BUS C) Select sensor type
WARN (150-300F / 65 -148c)
Set high temp warning point
TEST
DONE
Display sensor ohm reading
Exit setup menu
OIL
WARN (5 – 36)
TEST
DONE
Set low pressure warning point
Display sensor voltage reading
Exit setup menu
FUEL
SENDER (SW 33, CUSTOM,
GM 30, GM 90, GM 250,
F 10, F 150, V 180)
CUSTOM
TEST
DONE
Select sensor type
Calibrate custom fuel sensor
Display sensor ohm reading
Exit setup menu
PERF
On
Off
Enable performance readings
Disable performance readings
Change preset night dimming
NIGHT
BIM
SCAN
SETUP
DONE
Check/scan for connected modules
Enter setup (only when modules present)
Exit setup menu
INFO
SExx
Current software code
SPEED CAL PPM(on press/hold)
Current pulse per mile cal value saved
-ODOM
Used to preset odometer miles
To enter the setup mode, press and hold SW1 while turning the key/power on. The display
should light up and show SET SETUPon the speedometer and speed message displays.
Release the switch and SET SPEED should display, this is the start of the setup menus. Press
and release switch 1 to advance through the main menus. A press and hold will enter the sub
menu. A press and hold is also used to save the setting and jump to the next option, or exit a
menu when DONEis displayed.
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SPEEDOMETER SETUP/CALIBRATION
There are two main methods for calibrating the speedometer, auto cal and adjust. Auto
cal requires that you have one measured mile marked out (1 km for metric). Adjust requires you
to follow another vehicle going at a set speed, using a handheld GPS with speedometer
function, or timing yourself over a mile to determine your speed.
* Dakota Digital recommends you start with the Auto Cal method to get the speedometer
close. If you find it’s reading too fast/slow after the Auto Cal, then attempt the Adjust
mode.
• Press and hold SW1, then turn the key on and start the engine.
• Once the engine is running, release SW1. SET SPEED should be displayed.
• Press and hold the switch until - SPEEDis displayed to go into the speed setup menus,
release SW1.
• Now you can press and release the switch to scroll through the sub-menus, “sender” “auto”
“adjust” “Servic” “output” “DONE”. When you get to the desired sub-menu press and
hold the switch to select it.
Speed sensor setup (SENDER)
This menu is used to set the speed sensor input type. You can use the supplied pulse
generator or existing speed sensor for most applications. You can also read the speed signal
with the use of a future product called the bus interface module (BIM). Dakota Digital also offers
BIM that will allow you to read the speed signal from an ECU if you are installing the system in a
vehicle equipped with the OBDII port or a drivetrain from a newer vehicle, most 1996 and newer
vehicles have this.
If you are using a Dakota Digital pulse generator or feeding an ECU signal into the SPD
SND terminal, this is considered a “normal signal.
”
• When “sender” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current sensor selection will be displayed
• Press and release SW1 to toggle between “normal”and “BUS”
• When the desired setting is displayed press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub menu item.
Auto Cal (AUTO)
This menu is used to calibrate the speed signal by driving a measured mile (or kilometer)
• When “AUTO” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the primary speed unit will be displayed
• Press and release SW1 to toggle between “MPH” for miles per hour or “KMH” for kilometers
per hour. The setting saved here will be what the speedometer reads as well as the
units used to calculate odometer mileage.
• When the desired unit is displayed press and hold SW1 until you see the “ -” then release
SW1.
The speedometer will display “CAL” and the odometer should be reading “000000”, the
other displays should be lit and display normally(fuel, volt, water, and oil). Begin driving the
measured mile. The odometer reading should start incrementing as you travel, indicating the
pulses received from the speed sensor or VSS. This is known as the pulses per mile (PPM).
Once you reach the end of the marked mile, or are passing the marker, press and release SW1.
The displays will flash off, then everything should light up and the speedometer should now be
displaying your speed. Auto Cal is now complete and your speedometer should be reading
correctly.
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(Auto Cal continued)
NOTES: You do not have to drive at a constant speed nor do you have to avoid stopping
during Auto Cal. When completed, you do no need to stop, you may, but you can also
just press and release SW1 as you pass the 1 mile mark.
The message display cannot be used to determine when the mile has been driven, it’s
only there as a reference to indicate pulses are coming into the control box. Even if you
have an 8000 PPM sensor you may calibrate at 9xxx PPM (for example) due to gearing
and tire size.
Also be aware that the odometer miles are calculated from the speedometer cal value; if
it is not calibrated properly, the odometer miles could be higher/lower than actual.
***If you do not receive more than 2000 pulses during calibration the unit will error out.
Adjust Mode (ADJUST)
Adjust is different depending on what input signal is selected in the SENDER menu.
• When “ADJUST” is displayed, press and hold SW1 until you get “ -” then release the switch.
• Now select the primary units by pressing and releasing SW1, “MPH” for miles per hour or
“KMH” for kilometers per hour.
• When the desired units are selected, press and hold SW1 until you see the “ -” then release
SW1.
If “normal”is selected for the sender type it will allow you to adjust the signal that is
being supplied to the SPD SND terminal coming from a pulse generator or ECU. The fuel, volt,
oil, water, and tach will operate normally. The speedometer will show the speed reading and
the speed message display will say “ADJUST”. Begin driving at a known speed. Press and hold
SW1 to increase the speedometer reading the next press and hold of SW1 will decrease the
speedometer reading. You can continue adjusting up and down as needed until the reading is
correct. When the speedometer is correct, stop and restart the system, by turning the key/power
off and then starting the vehicle back up. The new calibration will be saved when the power is
shut off.
If “Bus” is selected for the sender type, the speed signal should be coming into the AUX
I/O port through the use of a future BIM module. The adjustment ratio ranges from 75 – 125%
on this setting as it is assumed that the signal from the external device is the correct pulse rate,
there is only provisions for slight adjustment. The odometer will light up and show “CL xx” xx
is adjustable from 75 – 125 and is the percentage the input is corrected by. If set to 100 the
signal is uncorrected and whatever the BIM module is reading is displayed on the dash.
NOTES: For adjust mode you can follow another vehicle, time yourself, or use a GPS as a
reference. A chassis dyno is another excellent way to use the Adjust mode.
Also be aware that the odometer miles are calculated from the speedometer cal value, if
calibrated properly, odometer miles could be higher/lower.
Service countdown meter (S-SET)
The service countdown meter or, S-SET, allows you to set a mileage value that will
decrease as the odometer miles increase. When the value gets to zero, a message “S DUE” will
appear on the message display on power up to remind you that service is due. This can be
used for routine maintenance reminders such as oil changes.
• When “S-SET” is displayed press and hold SW1 until you get “ -” then release the switch.
The current service setting will be displayed.
• Press and release SW1 to increase the value from “OFF” then “500”-“7500” in 500 mile
increments.
• Once the desired setting is displayed, press and hold SW1 untill “ -” “DONE” is displayed to
save the value.
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Speed Output (OUTPUT)
If a speed signal is needed for an ECM or cruise control, the SPD OUT terminal can be
used. This terminal can supply a 2000 ppm or 4000 ppm signal.
• When “output” is displayed, press and hold SW1 until you get “ -”
• Release the switch. The current PPM output will be displayed.
• Press and release SW1 to toggle from “ 2k PPM” to “ 4k PPM”.
• When the desired setting is displayed, press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next menu item.
Exit setup (done)
This will allow you to exit the speed setup and go on to the next setup menu.
• When “Set done” is displayed, press and hold SW1 until you get “ - DONE”
• Release the switch to go onto the next menu
TACHOMETER SETUP
The control box can be set to read from 1-16 cylinder ignition signals. It can also be set
to read either 12 volt tach signals or 5 volt tach signals found on some engine computers. The
digital tachometer update rate can be adjusted between slow, mid, and fast. The rpm
warning/shift point can be adjusted from 2200 – 14800. The tachometer will read from 350 –
17,500 rpm. At rpm’s above 9990 the reading will be displayed as rpmx1000 (12,000=12.00).
You can also read the tach signal with the use of a future bus interface module (BIM).
Dakota Digital offers a BIM that will allow you to read the speed signal from an ECU if you are
installing the system in a vehicle equipped with the OBDII port or a drive train from a newer
vehicle, most 1996 and newer vehicles have this.
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “TACH” setup menu.
• Press and hold the switch until “- tach”is displayed to enter the tach setup menus, then
release SW1.
• Now you can press and release the switch to scroll through the tach sub-menus, “T CAL”
“UPDATE” “WARN” “SIGNAL” “DONE”.
• When you get to the desired sub-menu, press and hold the switch to select it.
Engine cylinder setup (T-CAL)
This menu is used to set the current number of cylinder that the tach signal is providing.
It is adjustable from 1 -16 cylinders.
• When “T-CAL” is displayed, press and hold SW1 until you see “ -”
• Release SW1 and the current cylinder setting will be displayed.
• Press and release SW1 to increase the value from “ 01 ” – “ 16 ” or “ bus ”
• When the desired setting is displayed, press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next menu item.
NOTE: When selecting the cylinder count, be aware of tach signals coming from ECMs,
oftentimes a V-8 engine computer may output a 4 cylinder tach signal. This will be set for
“
04 ” not “ 08 ” as you might expect.
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Display update setup (UPDATE)
The display update rate can be adjusted so the reading on the tachometer doesn’t
change so quickly. This is a personal preference and is just used to “slow” the reading by
averaging. The value can be changed from slow, mid, and fast.
• When “UPDATE” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current update rate will be displayed.
• Press and release SW1 to increase the value from “SLOw” “ MID” “ FAST”
• When the desired setting is displayed press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
Rpm warning setup (WARN)
This is used for the turn on point for the WARN output on the control box. When the rpm
reading is above this setting, the output will activate, providing a ground signal. It can be used
to turn on a shift light or other rpm based devices. The value is adjustable from 2200 RPM –
14800 RPM in 100 RPM increments.
• When “WARN” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current warning point will be displayed
• Press and release SW1 to increase the value from “W 2200” – “W14800”
• When the desired setting is displayed press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
Tach signal setup (SIGNAL)
This menu will allow you to select from two different tach-input types. A low voltage, “5
LO”, tach signal or a high voltage tach signal, “12 HI”. A low voltage signal is usually one that
would be picked up from the ECM. Low voltage may also be considered a 0-5V square wave.
If you are getting the tach signal from the ignition coil or points, set this for the high voltage
signal“12 HI”. To pick up a tach signal form a traditional coil you would want to wire it to the
negative side of the coil.
• When “signal” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current value will be displayed.
• Press and release SW1 to toggle from “12 HI” to “5 LO”
• When the desired setting is displayed, press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
Exit tach setup (done)
This will allow you to exit the tach setup and go on to the next setup menu.
• When “Set done” is displayed, press and hold SW1 until you get “ - DONE”
• Release the switch to go onto the next menu
VOLT SETUP
The volt setup allows you set a warning point that will cause the volt display to flash
whenever the voltage drops below the warning value. The low voltage point can be set from 10
-13.1 volts.
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “volt” setup menu.
• When “volt” is displayed press and hold SW1 until you get “ -”, release SW1 and “WARN”
will be displayed.
• When “WARN” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current warning point will be displayed
• Press and release SW1 to increase the value from “LO 100” – “LO 131”
• When the desired setting is displayed press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
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WATER TEMP SETUP
The water temp setup allows you select the units the temperature is displayed in,
Fahrenheit or Celsius. It also allows you to set a high temperature warning point that will cause
the display to flash whenever the reading on the display is higher than the set point. There is
also a test mode that will display the resistance for the sensor for trouble shooting assistance.
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “water” setup menu.
• Press and hold the switch until “-” “water”is displayed to enter the water setup menus, then
release SW1.
• Now you can press and release the switch to scroll through the water sub-menus, “SENDER”
“WARN” “test” “DONE”.
• When you get to the desired sub-menu press and hold the switch to select it.
Temp sensor setup (SENDER)
This menu is used to set the temp sensor type. Dakota Digital only offers one temp
sensor for this system, it is SEN-04-5, 100-300 F(40-150 C), 1/8” NPT threads. You can use
bushings to adapt the sensor to various locations. You will select “DD F” to read in Fahrenheit,
or select “DD C” to read in Celsius.
You can also read the temp with the use of a future bus interface module (BIM). Dakota
Digital offers BIM that will allow you to read the engine temp signal from an ECU if you are
installing the system in a vehicle equipped with the OBDII port or a drive train from a newer
vehicle, most 1996 and newer vehicles have this. You will select “BUS F” to read in Fahrenheit,
or select “BUS C” to read in Celsius.
• When “sender” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current sensor selection will be displayed
• Press and release SW1 to scroll through the sensor options “DD F”“DD C”“BUS F” “BUS C”
• When the desired setting is displayed press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub- menu item.
Temp warning setup (WARN)
This menu will allow you to select the high temperature warning point. When the display
value is higher than this point, the WATER display will flash. The value is adjustable from 150 –
300 F (65-148 C).
• When “WARN” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current warning point will be displayed
• Press and release SW1 to increase the value from “H 150F” – “H 300F”
• When the desired value is displayed, press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
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Temp sensor test (test)
This menu will allow you to check the resistance the control box is reading from the water
temp sensor. This can be used for a diagnostic tool if you are having troubles or feel that the
reading is incorrect. For the Dakota Digital SEN-04-5 the resistance decreases as temperature
increases. Typical values for the Dakota Digital SEN-04-5 sensor are:
100F = 500 ohms, 200F = 75 ohms, and 300F = 19 ohms
If the gauge reads “EEE” this is an open connection or no sensor connected. If it is reading “ --”
this is indication of a short.
• When “test” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current resistance from the temp sensor will be displayed on the
speedometer and “R TEMP” is displayed on the odometer readout.
• Press and release SW1 to scroll through the next sensor input if you wish “v oil” “R fuel”
“R temp”
• Once complete hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
Exit water temp setup (done)
This will allow you to exit the water temp setup and go on to the next setup menu.
• When “Set done” is displayed, press and hold SW1 until you get “ - DONE”
• Release the switch to go onto the next menu
OIL PRESSURE SETUP
Dakota Digital only offers one pressure sensor for this system, SEN-03-8, 0-100 psi solid
state sensor with 1/8” NPT threads. The oil pressure setup allows you set up a low pressure
warning point that will cause the display to flash whenever the reading on the display is lower
than the set point. There is also a test mode that will display the voltage from the sensor for
trouble shooting assistance.
• Press and hold SW 1 while turning the key on.
• Release the switch, then press and release SW1 to get to the “OIL” setup menu.
• Press and hold the switch until - oilis displayed enter the oil pressure setup menus, then
release SW1.
• Press and release the switch to scroll through the oil sub-menus, “WARN” “test” “DONE”.
When you get to the desired sub-menu, press and hold the switch to select it.
Oil pressure warning setup (WARN)
This menu will allow you to select the low pressure warning point. When the display
value is lower than this point, the OIL display will flash. The value is adjustable from 5 – 36 psi.
• When “WARN” is displayed, press and hold SW1 until you get “ -”
• Release SW1 and the current warning point will be displayed.
• Press and release SW1 to increase the value from “LO 05” – “lo 36”
• When the desired value is displayed press and hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next menu item.
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Oil pressure sensor test (test)
This menu will allow you to check the voltage the control box is reading from the pressure
sensor. This can be used for a diagnostic tool if you are having troubles or feel that the reading
is incorrect. For the Dakota Digital SEN-03-8, 0-100 psi sensor, the voltage increases with
pressure. At 0 psi, the voltage should be close to 0.5V at 100 psi the voltage should be close to
4.5V.
• When “test” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current voltage or resistance from the pressure sensor will be
displayed on the speedometer and “V OIL” is displayed on the odometer readout.
• Press and release SW1 to scroll through the next sensor input if you wish “R FUEL”
“R temp”“v oil”
• Once complete hold SW1 until “ -” “DONE” is displayed
• Release the switch to go onto the next sub-menu item.
Exit oil pressure setup (done)
This will allow you to exit the oil pressure setup and go on to the next setup menu.
• When “Set done” is displayed, press and hold SW1 until you get “ - DONE”
• Release the switch to go onto the next menu
FUEL SETUP
The control box can read seven common fuel level sender resistance values. If your
sender is not shown in the table below, the system can be programmed to read a custom
sender. The table below shows the seven pre-programmed senders and their respective empty
and full resistance values.
Sender type
Menu
GM 30
GM 90
GM 250
F 10
F 150
V 180
SW 33
Empty R
0 ohms
0 ohms
40 ohms
73 ohms
20 ohms
10 ohms
240 ohms
Full R
30 ohms
90 ohms
249 ohms
10 ohms
150 ohms
180 ohms
33 ohms
GM 0-30 ohm(mid 60’s-earlier)
GM 0-90 ohm (mid 60’s-late 90’s)
GM 40-250 ohm (late 90’s-later)
FORD 73-10 ohm (earlier -late 80’s)
FORD 20-150 ohm (late 80’s-later)
VDO 10-180 ohm
SW/SUN 33-240
User programmed
CUSTOM User settable User settable
• Press and hold SW 1 while turning the key on. Release the switch.
• Press and release SW1 to get to the “FUEL” setup menu.
• Press and hold the switch until “-- fuel”is displayed to enter the fuel setup menus, then
release SW1.
• Now you can press and release the switch to scroll through the fuel sub-menus, “SENDER”
“custom” “test” “DONE”. When you get to the desired sub-menu, press and hold the switch
to select it.
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Fuel sensor setup (SENDER)
This menu is used to select the fuel level sensor type. The table above shows the seven
options and resistance ranges as well as the custom option.
Note: You need to calibrate the custom sensor to your specific fuel sensor if you are
using this option in the custom setup in the steps below.
• When “sender” is displayed, press and hold SW1 until you get “ -”
• Release SW1 and the current sensor selection will be displayed.
• Press and release SW1 to scroll through the sensor options “gm 30”“gm 90”“GM 250”
“f 10” “f 150”“v 180”“sw 33”“custom”
• When the desired setting is displayed, press and hold SW1 until “ -” “DONE” is displayed.
• Release the switch to go onto the next menu item.
Custom fuel sender curve setup (custom)
You will need to have the sender out of the tank, or begin with the tank empty and
add fuel during the custom fuel sender setup.
*** The factory default custom curve is 110 empty and 5 ohms full
• When “CUSTOM” is displayed press and release the switch.
• The speed display will show the current sender resistance as read by the control box.
• The message display will show “SET 00”. Move the float to the empty position and then
press and release the switch.
• The message display will show “SET 33”. Release the switch and move the float to 1/3 full
and then press and release the switch.
• The message display will show “SET 66”. Release the switch and move the float to 2/3 full
and then press and release the switch.
• The message display will show “SET 99”. Release the switch and move the float to the full
position and then press and release the switch. The new sender is now stored under the
“CUSTOM” sender selection.
• The message display will be back in the fuel sub-menu showing “test”.
***If the resistances recorded during custom calibration are not in sequence you will get
a “FAIL” message at the end of calibration. No values will be saved and calibration must
be started again. Make sure the resistance of the sensor is linear from empty to full.
Note: Once the custom sender is programmed, go back and ensure that “custom” is
selected in the “SENDER”menu. Programming the custom sender curve does not
automatically make it the ‘active’ sender.
Fuel sensor test (test)
This menu will allow you to check the resistance the control box is reading from the fuel
level sensor. This can be used as a diagnostic tool if you are having troubles or feel that the
reading is incorrect. You can use the table of fuel sensors above to get an idea on the
resistance you should be seeing.
• When “test” is displayed press and hold SW1 until you get “ -”
• Release SW1 and the current resistance from the fuel level sensor will be displayed on
• the speedometer and “R fuel” is displayed on the odometer readout.
• Press and release SW1 to scroll through the next sensor input if you wish “R temp”,
“v oil”,“R fuel”
• Once complete, hold SW1 until “ -” “DONE” is displayed.
• Release the switch to go onto the next sub-menu item.
Note: Fuel level sensors are generally not precise; in the test function you should expect to see
some error. For instance a GM 0-90 sensor may display 5 ohms empty and 97 ohms full. If you
are within 10% of the values in the table, this is considered within specification.
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Exit fuel setup (done)
This will allow you to exit the fuel setup and go on to the next setup menu.
• When “Set done” is displayed press and hold SW1 until you get “ - DONE”
• Release the switch to go onto the next menu
PERFORMANCE MENU SETUP
The performance menus can be turned on or off, allowing you scroll thought the message
screens quicker if desired. Since some people don’t care for these readings, you may shut
them off so they are not displayed in normal operation. All of the performance functions are
displayed from information that is already wired to the control box, so disabling will not save any
wiring steps.
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “perf” setup menu.
• Press and hold the switch until “-” “perf”is displayed to enter the setup menu, then release
SW1.
• Now you can press and release the switch to toggle from “On”(allowing the performance
• readings to be shown), or “OFF”(disabling, hiding the performance readings).
• When the desired option is displayed; press and hold SW1 until you get “ - DONE”
• Release the switch to go onto the next menu
NOTE: In normal operation you have to use switch 1 (SW1) to reset the various
performance timers. A press and hold will zero the current reading, if it can be reset.
NIGHTTIME DIM SETUP
The nighttime dim menu, “NIGHT”, allows you to set the brightness level that the dash will
dim down to when the DIM terminal has power applied to it.
If you are using the separately purchased DIM-1kit from Dakota Digital, this brightness
level doesn’t matter as you have total control of the brightness level with the twist of a knob.
Using the ADJ SND and ADJ – terminals, this setting will be overridden by the DIM-1 knob.
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “night” setup menu.
• Press and hold the switch until “-” “night” is displayed to enter the setup menu, then
release SW1.
• Now you can press and release the switch to gradually dim the displays (you can press
• and hold SW1 and the displays will cycle from bright to dim)
• When the desired brightness level is achieved, press and release SW 2 to save the
brightness level and go on to the next setup menu.
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BUS INTERFACE MODULE SETUP
The bus interface modules (BIM) are a future product added to Dakota Digital
instrumentation systems. They allow you to add auxiliary gauge functions, such as fuel
pressure, vac/boost, trans temp, etc., right into the system without having to add additional
gauges. All of the BIM readings are displayed on the tachometer message display where the
tachometer and other performance readings are currently displayed. Switch 2 (SW2) is used to
cycle through the various message screens.
More detailed instructions are supplied with the BIM units.
INFORMATION MENU
The information menu, “INFO” is used to display software code information should you
have any troubles, this information can be useful for troubleshooting as well as the current
speedometer calibration value if using the normal speed input (SPD SND).
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “INFO” setup menu. You
should see “SExx” on the speedometer display where xx is the software number.
• To view the current pulse per mile (PPM) setting, press and hold the SW1 until “-” “INFO” is
displayed.
• Release the switch and the odometer will show the current PPM setting/calibration value.
• Press and release the switch to go on to the next setup menu.
ODOMETER PRESET MENU
The control box will allow you to set the odometer miles to match your current odometer
reading, ONE time within the first 100 miles. Once the odometer has more than 100 miles,
this menu option will no longer be displayed. Make sure you have correctly selected the
units to be either MPH or km/h and calibrated your speedometer first. The odometer will
be set in the selected units. Once you have preset the miles you cannot change it again
without sending to the factory.
WARNING!!: This only allows setting odometer to the nearest mile. Do not use tenths!
For example a mileage of 65432.1 should be set to “065432” using this method. If the
tenths digit is used, the odometer will read 10 times too high.
• Press and hold SW 1 while turning the key on.
• Release the switch and then press and release SW1 to get to the “-odom” setup menu.
• Press and hold the switch until “-” “odom” is displayed to enter the odometer setup menu,
then release SW1. ” “. The current miles will be displayed on the odometer with the left
most digit flashing.
• Press and release SW1 to increment the digit. Press and hold the switch to move to the next
digit to the right.
• Continue until the right most digit has been set. Press and hold the switch and the speed
display will show “ nO”
• If the value is incorrect press and hold the switch while “ nO” is displayed to go back and
change the odometer miles or turn the key off to cancel any changes.
• If the value is correct press and release the switch to change to speed display to “YES”.
• Press and hold the switch while “YES” is displayed to save the current odometer reading and
return to the setup menus.
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TROUBLESHOOTING GUIDE
This is a list of some problems and their solutions which may be encountered when installing your
instrumentation system. If you cannot determine what the problem is or how to solve it, please call our
technical assistance line (605) 332-6513 or email [email protected].
* A note on vehicle grounding. *
The most common cause of problems with electric gauges and other sensitive vehicle electronics
is poor ground connections. The engine block has the highest ground currents of any point in the
vehicle. The ignition system, electric gauge senders, starter, alternator, etc. all use the engine block for
a ground point. Since the alternator is grounded directly to the engine block, all ground currents in the
entire vehicle must pass through the engine block while the engine is running. A weak or loose
connection can cause many unexpected problems that may be difficult to track down. The engine block
should have heavy ground straps to both the chassis and the body. The main negative cable from
the battery should be connected directly to the engine block.
Symptom
Possible Problem
Solution
-----------------------------------------------------------------------------------------------------------------------------------
System does not light up
and LED off.
Control box may not be getting
power.
Control box may not be getting
a ground.
Check if the control box has
12 volts connected to it.
Check if the control box has
a proper ground connection.
Do not use a battery charger to
power the system.
The control box may have
an internal problem
Contact Dakota Digital’s service
department with a description of
the problem.
System does not light up
and LED is on steady.
Control box may be getting too
low of a voltage.
Check if power to control box is
at least 11 volts.
Do not use a battery charger to
power the system.
System does not light up
and LED is flashing.
The display system may not be
getting power.
Check the ribbon connector on the
display system wiring harness
Be sure the pins and stripe are aligned
with control box markings.
Check the display system wiring
harness for broken or cut wires.
One display does not
light up at all, all others
work correctly.
The display panel
corner of the display is white or
the display is cracked or broken
Return the display panel to
Dakota Digital for repair. Include
a phone number and address.
Call for RMA # before returning.
The tachometer will not
show a reading.
The control box is not connected
to the engine properly
Make sure the control box is
connected to your particular
ignition system properly.
The engine cylinder setting is
incorrect.
The tach signal setting is
incorrect.
Refer to the tach setup section
of the installation manual.
Refer to the tach setup section
of the installation manual.
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Symptom
Possible Problem
Solution
-----------------------------------------------------------------------------------------------------------------------------------
The tachometer reading
is incorrect.
The tachometer signal wire is
loose or broken.
Check the connections at both
ends of the wire.
The engine cylinder setting is
incorrect.
Refer to the tach setup section
of the installation manual.
The speedometer will
not show a reading.
The speed sending unit is not
connected to the control box
properly.
Check that both speed sending
unit wires are connected to the
control box properly.
The speed sending unit being
used is not compatible with the
control box.
Use the speed sending unit
supplied with the display
system.
The speed sending unit is not
connected to the transmission
properly.
Check that sender is mounted
properly.
Check that transmission has the
appropriate internal parts.
Isolate the sending unit wire from
motor and ignition wires.
The sending unit wire is picking
up noise from nearby wires.
The speedometer is reading The speedometer is not calibrated. Refer to the Speed Calibration
too fast or too slow.
section of the installation manual.
With the engine running and A tachometer wire is too close to
Reroute or isolate the tachometer
wire away from the speed wire.
the vehicle sitting still, the
to the speed sensor wire.
speedometer reads higher There is a ground problem between Make certain the ground wire for
than zero.
the speed sensor and the control
box.
the speed sensor is connected
directly to the control box ground.
A display shows “EE”
Sending unit for that gauge
is not connected to the control
box.
Check the wire from sending unit
to the control box for breaks.
Make sure that the sending unit is
wired to the correct terminal.
Sending unit is not getting
grounded.
On the water or oil, the sending
unit is not the correct type.
Make sure the sending unit is
grounded properly at the control box.
Use the water and oil senders that
were supplied with the system.
On the fuel, the control box may be Refer to “Fuel Setup” section of the
set for the wrong fuel sender.
installation manual to ensure that
the settings match your fuel sender.
A display shows “- -“
Fuel displays “FL”
The sending unit wire for that
gauge is shorted to ground.
Repair or replace shorted wire.
The control box is set to an invalid Refer to “Fuel Setup”
fuel sender setting. section of the installation manual
to ensure that the settings match
your fuel sender.
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Symptom
Possible Problem
Solution
-----------------------------------------------------------------------------------------------------------------------------------
The fuel display reads
backwards, incorrectly,
or does not change.
The control box may be set for
the wrong type of fuel sender.
Refer to “Fuel Setup”
section of the installation manual
to ensure that the settings match
your fuel sender.
The fuel sender may not be
connected to the control box
properly.
Check the connections at both
ends of the fuel sender wire.
Make sure the fuel sender is
grounded properly.
The fuel sender may not be
operating properly.
Check the fuel sending unit with
an electrical multi-meter.
The fuel sender may have a
non-standard resistance
range.
Use the custom fuel sender setup.
See the Fuel Setup section of the
manual for instructions.
The oil or water display
reading is incorrect.
The engine block may not be
grounded to the chassis frame
or body properly.
Use heavy ground cables from the
battery to the engine block.
Make sure both ends of the cable
have clean metal-to-metal
connections.
Use a braided ground strap to
ground the engine block to the
chassis.
Use a large braided ground strap
to ground the engine block to
the body or fire wall.
The sending units are not grounded Make sure wires are in correct terminals.
the control box.
The sending unit wire is picking
up noise from nearby wires.
The sending unit is not
Isolate the sending unit wire from
motor and ignition wires.
Use the sending unit provided with
the display system.
compatible with the control box
The gear shift indicator
does not light up.
The optional gear shift sending
unit is not connected to the
control box.
Connect the sending unit to the
control box using the
instructions supplied with the
sending unit.
The gear shift indicator
does not operate
properly.
The gear shift decoder
is not connected properly.
Check the connections to the
transmission linkage and to
the control box.
Check gear shift decoder
Installation manual.
The internal turn signal
and high beam
indicators do not light up.
The control box is not connected
to the vehicle's electrical
system properly.
Check the wires connected to the
HIGH, LEFT, and RIGHT
terminals on the control box.
The check engine
indicator does not
operate properly.
The control box is not connected
to a TPI control module.
This feature is designed to work
with engine control systems that
provide an active low signal.
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Symptom
Possible Problem
Solution
-----------------------------------------------------------------------------------------------------------------------------------
The check engine
indicator stays on
all of the time.
The Engine Control Module
(ECM) needs to see the
load of a light connected to it.
Connect a light or similar load
to the ECM along with the
control box.
The Function switches
do not operate
properly.
The push-button switches are
not connected to the control
box.
Momentary push-button or toggle
switches must be connected to
the SW1 and SW2 terminals
as described in the manual.
The switch terminal connected
to the control box should
normally be open. When the
the switch is activated, the
terminal should make contact
to ground.
The wrong type of switch is
being used.
The display system starts
up in the demonstration
mode and remains in it.
Sw 2 terminal is constantly
connected to ground.
Disconnect or replace the
SW2 switch.
Clock Instructions
For VFD systems with a clock built in
If you purchased your instrument system with an optional clock, it must be wired separately. The clock
displays the current time in 12 hour format. The digital clock from Dakota Digital incorporates the reliability and
quality of our standard gauges. These features include:
•
•
•
•
Quartz accuracy
Night dimming feature
Very low standby power to prevent battery drain
High visibility VFD display for sunlight readability
Wiring:
Clock
BLACK
RED
Connect to a good ground point in the vehicle
Connect to switched 12 volt power point
(An accessory terminal will work for this)
ORANGE Connect to a constant 12 volt power point
(This will keep the correct time)
BLUE
Connect to the taillight circuit
+12V when lights on for dim function
Operation:
The gauge needs the red, orange, and black wires connected to operate. The red wire should have
switched 12 volt power from an ACC. point on the fuse panel. The orange wire should have constant 12 volt
power. The black wire should be connected to a good ground point. When the blue wire has 12 volts, it will dim the
display for night viewing, this may be wired along with the wire to the DIM terminal on the control box.
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MAN 650066:D
Setting the time
Through lens:
Using a small, thin object such as a pen or hairpin, press “set” buttons through front lens access holes.
The access holes are on the right side of the lens. Top “set” button advances hours, bottom “set” button advances
minutes.
Remote switches:
Some systems may have two push button switches for setting the time. These switches can be mounted
anywhere for easy access. They are provided on system where the holes in the lens may not be accessible. The
switches are just momentary push buttons, a press and release will either advance the hours or minutes. The
BLACK “set” button advances hours, the RED “set” button advances minutes. Each time that you make a change
to either the hours or minutes, the seconds are reset to zero.
Adjusting the accuracy:
The clock is accurate to +/-2 minutes a month as it is set, but it can be tuned for better accuracy if desired.
Press and hold both of the set buttons for several seconds. The clock will display “C 0”. The “C” indicates that it is
in the calibration mode and the second number is the current calibration value. The calibration value indicates the
number of seconds to add or subtract each day. The clock can be adjusted from +7 sec/day to -7 sec/day.
Press the minute set button to change the cal value. Press the hour set button to return to normal clock
operation.
Clock technical specifications
Minimum operating voltage
Maximum operating voltage
-
-
7 volts
18 volts
(Operating at or near maximum rating for an extended time can damage unit)
Clock accuracy
Typical current draw (@ 13.8V) -
-
±2 minute per month
0.13 A
Standby current draw (key off)
-
0.002 A
Troubleshooting guide
Problem
Possible cause
Solution
Clock will not light up
Red wire does not have
power.
Connect to a location that has power
when the key is on.
Orange wire does not have
power.
Connect to a location that has power
all of the time.
Black wire is not getting
a good ground.
Connect ground to a different location.
Power is reversed.
Connect black to negative ground, red and
orange to +12V power.
Clock is damaged.
The red and orange wires
are reversed.
Return clock for repair. (see instructions)
Connect the red to switched power, the
orange to constant power.
Clock will not turn off when
the key is off.
Clock lights up, but does
not read correctly.
Loose connection on orange
power wire.
Reconnect orange wire.
Poor ground connection.
Time is not set.
Move ground to different location
Set time. (see instructions)
Clock is damaged.
Orange wire does not have
constant power.
Return clock for repair. (see instructions)
Connect to a location that has power when
the key is on or off.
Clock will not keep time.
Loose connection on orange
power wire.
Reconnect orange wire to constant power.
Poor ground connection.
Blue wire is not connected
correctly.
Move ground to different location
Check wiring connections.
Clock will not dim.
Clock remains dim at all
times.
Blue wire is getting power
all of the time.
Battery is very low.
Clock is damaged.
Connect blue wire to location that only
has power when the headlights are on.
Recharge or replace vehicle battery.
Return clock for repair. (see instructions)
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MAN 650066:D
VFD3 Specifications
SUPPLY
Voltage Input (+12) Range
8 to 22 V
INPUTS
Active High
Low Max Min High
High, Left, Right
Gear, Wait, DIM
3.75 V
3.75 V
8.4 V
8.4 V
Active Low
Low Max Min High
SW1,SW2, Check
Brake, Cruise, 4 X 4
2.7 V
3.75 V
6.0 V
8.4 V
Tachometer
Low Max High Min
Setting
Normal
Low Volt
3.0 V
0.9 V
7.6 V
4.1 V
Speedometer
Square Wave
> 1.2 VP-P
Sin Wave
> 1.4 VP-P
OUTPUTS
WARN, SPD
< 600 mA
Current Draw
Ignition On
≈ 750 mA
SERVICE AND REPAIR
DAKOTA DIGITAL offers complete service and repair of its product line. In addition, technical
consultation is available to help you work through any questions or problems you may be having
installing one of our products. Please read through the Troubleshooting Guide. There, you will find the
solution to most problems.
Should you ever need to send the unit back for repairs, please call our technical support line,
(605) 332-6513, to request a Return Merchandise Authorization number. Package the product in a
good quality box along with plenty of packing material. Ship the product by UPS or insured Parcel Post.
Be sure to include the RMA number on the package, and include a complete description of the problem
with RMA number, your full name and address (street address preferred), and a telephone number where
you can be reached during the day. Any returns for warranty work must include a copy of the dated sales
receipt from your place of purchase. Send no money. We will bill you after repair.
Dakota Digital Limited Lifetime Warranty
DAKOTA DIGITAL warrants to the ORIGINAL PURCHASER of this product that should it, under
normal use and condition, be proven defective in material or workmanship for the lifetime of the original
vehicle it was installed in, such defect(s) will be repaired or replaced at Dakota Digital’s option.
This warranty does not cover nor extend to damage to the vehicle’s systems, and does not cover
removal or reinstallation of the product. This Warranty does not apply to any product or part thereof
which in the opinion of the Company has been damaged through alteration, improper installation,
mishandling, misuse, neglect, or accident.
This Warranty is in lieu of all other expressed warranties or liabilities. Any implied warranties,
including any implied warranty of merchantability, shall be limited to the duration of this written warranty.
No person or representative is authorized to assume, for Dakota Digital, any liability other than
expressed herein in connection with the sale of this product.
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