2003 Mercury Sable battery

Fuse/relay
locationFuse amp
ratingPassenger compartment fuse
panel description
12 10A Heated mirrors, Rear defrost
switch
13 20A Cigar lighter
14—Not used
15 30A Front wiper motor
16 15A Flasher and GEM power, ICP
power, RCC memory, Cluster
17 15A Stop lamp, Speed control
deactivating switch
18—Not used
19—Not used
20—Not used
21—Not used
22 20A Deck lid release solenoid,
Lock/unlock relays
23 10A Air bag module, PATS transceiver
24 15A Foglamps
25 2A PCM relay, Fuel pump relay
26 10A Mirrors, Power antenna, Pulse
stretcher module, Deck lid lamp,
Battery saver
27 10A Gauges and warning lamps, ICP,
FFV sender, GEM
28 10A Blower motor relay coil, EATC
logic, Puddle lamps
29 15A Autolamps, Park lamps, PWM,
Headlamp switch
30 15A Horns and horn switch, OBD II
connector
31—Not used
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Fuse/relay
locationFuse amp
ratingPassenger compartment fuse
panel description
32 10A ABS, DRL relay coil, Speed
control actuator, Traction control
switch, AC heater selector switch,
Blend door actuator, Brake shift
interlock, Rear defroster relay coil
33—Not used
34—Not used
35—Not used
36 15A Turn signals, Back-up lamps
37 15A Transmission position switch
38 5A GEM park neutral switch
39—Not used
40—Not used
41—Not used
42—Not used
Power distribution box
The power distribution box is
located in the engine compartment.
The power distribution box contains
high-current fuses that protect your
vehicle’s main electrical systems
from overloads.
Always disconnect the battery before servicing high current
fuses.
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To reduce risk of electrical shock, always replace the cover to
the Power Distribution Box before reconnecting the battery or
refilling fluid reservoirs.
If the battery has been disconnected and reconnected, refer to the
Batterysection of theMaintenance and specificationschapter.
The high-current fuses are coded as follows.
Fuse/relay
locationFuse amp
ratingPower distribution box
description
1 60A** Fuse junction panel
2 30A** Powertrain Control Module (PCM)
relay
3 60A** Fuse junction panel
4—Not used
5—Not used
6—Not used
7 40A** Starter relay, Ignition switch
8—Not used
9 40A** Cooling fan relays
10—Not used
11 50A** Rear defrost (sedan only)
12—Not used
13 40A** Anti-lock Brake System (ABS)
module pump feed
1
23
4
56
7
8
910
11 12
1314
1516 17
18
19202122
2324
25
29
3026 27 28
31
32
33
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JUMP STARTING YOUR VEHICLE
The gases around the battery can explode if exposed to flames,
sparks, or lit cigarettes. An explosion could result in injury or
vehicle damage.
Batteries contain sulfuric acid which can burn skin, eyes and
clothing, if contacted.
Do not attempt to push-start your vehicle. Automatic
transmissions do not have push-start capability; also, the
catalytic converter may become damaged.
Preparing your vehicle
When the battery is disconnected or a new battery is installed, the
transmission must relearn its shift strategy. As a result, the transmission
may have firm and/or soft shifts. This operation is considered normal and
will not affect function or durability of the transmission. Over time, the
adaptive learning process will fully update transmission operation.
1.Use only a 12–volt supply to start your vehicle.
2. Do not disconnect the battery of the disabled vehicle as this could
damage the vehicle’s electrical system.
3. Park the booster vehicle close to the hood of the disabled vehicle
making sure the two vehiclesdo nottouch. Set the parking brake on
both vehicles and stay clear of the engine cooling fan and other moving
parts.
4. Check all battery terminals and remove any excessive corrosion before
you attach the battery cables. Ensure that vent caps are tight and level.
5. Turn the heater fan on in both vehicles to protect any electrical
surges. Turn all other accessories off.
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Connecting the jumper cables
1. Connect the positive (+) jumper cable to the positive (+) terminal of
the discharged battery.
Note:In the illustrations,lightning boltsare used to designate the
assisting (boosting) battery.
2. Connect the other end of the positive (+) cable to the positive (+)
terminal of the assisting battery.
+–+–
+–+–
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3. Connect the negative (-) cable to the negative (-) terminal of the
assisting battery.
4. Make the final connection of the negative (-) cable. Make the
connection to an exposed metal part of the stalled vehicle’s engine, away
from the battery and the carburetor/fuel injection system.Do notuse
fuel lines, engine rocker covers or the intake manifold asgrounding
points.
Do not connect the end of the second cable to the negative (-)
terminal of the battery to be jumped. A spark may cause an
explosion of the gases that surround the battery.
5. Ensure that the cables are clear of fan blades, belts, moving parts of
both engines, or any fuel delivery system parts.
+–+–
+–+–
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Jump starting
1. Start the engine of the booster vehicle and run the engine at
moderately increased speed.
2. Start the engine of the disabled vehicle.
3. Once the disabled vehicle has been started, run both engines for an
additional three minutes before disconnecting the jumper cables.
Removing the jumper cables
Remove the jumper cables in the reverse order that they were
connected.
1. Remove the jumper cable from thegroundmetal surface.
2. Remove the jumper cable on the negative (-) connection of the
booster vehicle’s battery.
+–+–
+–+–
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3. Remove the jumper cable from the positive (+) terminal of the booster
vehicle’s battery.
4. Remove the jumper cable from the positive (+) terminal of the
disabled vehicle’s battery.
After the disabled vehicle has been started and the jumper cables
removed, allow it to idle for several minutes so the engine computer can
relearnits idle conditions.
+–+–
+–+–
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