1953 JEEP DJ auxiliary battery location
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'Jeep*
UNIVERSAL
SERIES SERVICE
MANUAL
H
no soldering or unsoldering of leads; two complete
rectifying
diode assemblies
which
eliminate the need
for removing and replacing individual diodes; a
corpplete isolation diode assembly; and a rotor
assembly complete with shaft,
pole
pieces, field
coil,
and slip rings.
The
transistorized
voltage
regulator is an electronic
switching device. It
senses
the
voltage
appearing
at the auxiliary terminal of the alternator and
supplies the necessary field current for maintaining
the system
voltage
at the output terminal. The
output current is determined by the battery electri
cal
load; such as headlights, heater, etc.
The
transistorized
voltage
regulator is a sealed
unit,
has no adjustments, and must be replaced
as a complete unit.
H-64. ALTERNATOR
PRECAUTIONS
The
following precautions must be observed to
prevent damage to the alternator and regulator.
a.
Never reverse battery connections. Always
check
the battery polarity with a voltmeter before
any
connections are made to be sure that all con
nections correspond to the battery ground polarity of the vehicle.
b.
Booster batteries for starting must be properly
connected. Make sure that the negative cable of
the booster battery is connected to the negative
terminal
of the battery in the vehicle. The positive
cable of the booster battery should be connected
to the positive terminal of the battery in the
vehicle.
c.
Disconnect the battery cables before using a fast charger.
d.
Never use a fast charger as a booster for
starting
the vehicle.
e.
Never disconnect the
voltage
regulator while
the
engine
is running.
f.
Do not ground the alternator output terminal.
g.
Do not operate the alternator on an open
circuit
with
the field energized.
h.
Do not attempt to polarize an alternator.
These
precautions are stated here as an aid to
service
personnel. They are also restated at appro
priate
places in the
text
of this section of the
manual.
H-65. ALTERNATOR
CHARGING
SYSTEM SERVICE
Important:
All alternator
tests
for the 35, 40 and
55 amp alternator are the same, however, there is a
difference
between
the location of the various ter
minals
and field current specifications. The field
current
of the 35 amp alternator should be 1.7 to 2.3 amps, 40 and 55 amp alternators should be 1.8
to 2.4 amps, with
full
battery
voltage
applied to
the filed coil. Disassembly and assembly procedures
are
the same for all three alternators.
Terminal
locations and wire harness color
codes
for the 35,
40 and 55 amp alternator are shown in Fig. H-38.
H-66.
Service Diagnosis
In
diagnosing a suspected malfunction of the
alternator
charging system, consideration must
be given to the complete electrical power plant of the vehicle; including the alternator, regulator,
ignition switch, charge indicator lamp, battery,
and
all associated wiring. If it is suspected that the
alternator
is not fully charging the battery and
fulfilling
the electrical requirements of the electrical
system, several checks should be made before
checking
the alternator itself:
Note:
Whenever service is required in connection
with
an alternator problem, the first
step
should be to verify that the wiring harness hook-up is correct
as indicated in Fig. H-38.
a.
Test the condition of the battery and
state
of
charge
(Par. H-2).
If the battery is not fully charged
and
in
good
condition, use a replacement battery
for making alternator system
tests.
Caution:
Make certain that the negative battery
post
is connected to ground when making the
battery installation. Serious damage to the alter
nator
can result if battery polarity is reversed.
b.
Check
fan belt for proper tension (Par.
C-27).
Caution:
To increase belt tension, apply pressure
to alternator front housing only as permanent damage can result if pressure is applied to
rear
housing.
H-67.
Alternator In Vehicle Tests
The
following
tests
are made with the alternator
in
the vehicle with output and regulator connec
tions maintained to the alternator except as noted
in
Fig. H-27 and H-28. The field plug and
voltage
regulator are disconnected for
these
tests.
The
tests
are given in proper order and detail in the
following paragraphs.
a.
Isolation Diode Test: To determine if the isola
tion diode is open or shorted, refer to Par. H-69.
b.
Alternator Output Test: To isolate the trouble
to the alternator or regulator, refer to Par. H-70.
c.
Alternator
Field
Circuit
Test: To determine the condition of the field
circuit
(brushes and rotor),
refer
to Par. H-73.
d.
Brush
Insulation
and Continuity
Test:
To deter
mine the condition of the
brush,
refer to
Par.
H-75.
e.
Rotor In-Vehicle Test: To determine whether
the rotor coil is open or shorted, refer to
Par.
H-73.
f. Any further
tests
must be conducted with the
alternator
removed and disassembled. When this
is done, the condition of the rotor, the rectifying
and
isolation diodes, and the stator can be further
tested.
A
commercial alternator tester Sun
Electric
Model
VAT-20
or equivalent can be used to make all
necessary
tests
on the alternator system. If a com
mercial
tester is used, follow the recommended
testing procedure outlined by the tester manu
facturer.
If
a commercial tester is not available, follow the
testing procedure as outlined in this manual.
H-68.
Test Equipment
a.
Volt Ampere Tester such as Sun
Electric
Model
VAT-20
or equivalent with meter ranges as shown
in
the following list can be used. 195
Page 202 of 376
H
ELECTRICAL
SYSTEM
FIG.
H-38—WIRE
COLOR CODE
AND
LOCATIONS
FOR
ALTERNATOR HOOK-UP
1— Regulator (Auxiliary)
Terminal
(Cable —
Grey)
2— Output
Terminal:
(Red)
3—
Regulator
Terminal
(Cable —
Grey)
4—
Ground
Terminal
(Cable — Black-White
Tracer)
5—
Field
Terminal
(Cable — Green-White
Tracer)
6—
Ground
(Optional)
Terminal
(Cable — Black-White
Tracer)
REAR
VIEW
35
AMP.
ALTERNATOR
REAR
VIEW
40
& 55 AMP.
ALTERNATOR
given in Par. H-78, adjusting the fan belt to its
proper tension after the alternator is mounted, as described in Par. C-27. Wires should be connected
as shown in Fig. H-38.
When
the vehicle is equipped with a radio, a .55
mfd. capacitor is required on the alternator. Mount
the capacitor strap to a ground terminal and con
nect the lead to the output terminal.
H-88.
STARTING
SYSTEM
SERVICE
H-89.
Ignition
Switch
The
ignition switch serves both to energize the
ignition system and
engage
the starter switch.
The
ignition switch has four positions: (1) AC
CESSORY,
(2)
LOCK,
(3) ON, and (4)
START. The
key must be in the switch to turn it to any position other than
LOCK,
and the key can be
removed only in the
LOCK
position.
In "ACC",
a connection is made from the battery
terminal
to the accessory terminal of the switch to
allow accessories such as the radio, blower and/or
windshield wiper to be operated with the ignition, fuel
gauge
and indicator light circuits off.
In "LOCK",
no accessory supplied through the
ignition switch can be operated. Also, the ballast
resistor (V-6
engine
only) circuit to the ignition
coil
(IGN) is grounded.
In
"ON", a connection is made from the battery
terminal
to the accessory terminal so that all
ignition switch supplied accessories can be operated. Also the battery is connected to the ballast resistor
(V-6
engine
only) leading to the ignition coil
(IGN).
From
this same terminal, a lead
into
the
instrument cluster energizes the fuel
gauge
and
indicator lights.
In "START",
all ignition switch supplied acces
sories are temporarily disconnected. A connection is made to the starter solenoid lead. The charge
and
oil indicator lamps
will
light until the
engine
is started.
H-90.
Ignition
Switch
Removal
a.
Remove the bezel nut and pull back the main
switch body.
Lower
the switch
body
from under the instrument panel so that the wiring harness plug
can
be removed from the prong connection,
b. If the lock cylinder is to be removed, turn the
ignition key to the right and insert a short
piece
of wire or end of a paper clip
into
the lock release
hole
in the switch body. Pressing on the lock
cyl
inder retainer
will
allow the cylinder to be removed.
H-91.
Ignition
Switch
Installation
Before installing the lock cylinder
into
the main
switch body,
note
the position of the lock cylinder
retainer.
a.
Place the lock cylinder
into
the main switch
body
with the highest part of the lock cylinder
retainer in line with the lock release
hole
in the
main
switch body.
b. Compress the lock cylinder retainer so that the
lock cylinder can be installed all the way
into
the
main
switch
body
or until the retainer can be
seen
through the pin hole.
c.
Install
wiring harness plug
onto
switch
body
prong connection.
d.
Install
this main switch
body
into
the instru
ment panel opening from the
rear.
e. To make sure that the switch is in its correct position, install the ignition key in the off position.
Then
turn the switch
body
until the key is straight
up and down. Remove the key, install the bezel
nut and secure.
H-92.
PRESTOLITE
STARTING
MOTOR
DAUNTLESS
V-6 and
HURRICANE
F4
ENGINE
The
Prestolite starting motor on the V6
engine
is
similar
in construction (with exception of pinion housings) to the starting motor installed on F4
engines.
The
starter solenoid switch is bolted to the starter
frame.
The
starter is equipped with
sealed-type
absorbent
bronze bearings and no lubricant is required. Service procedures for the Prestolite starter are
given in
Pars.
H-93 to H-107. 202