Ray Electric Outboards E2 Operating instructions
2
SAFETY
ALWAYS OBSERVE THESE SAFETY PRECAUTIONS WHEN TROUBLE
SHOOTING THE RAY MOTOR
1. BEFORE REMOVING THE TOP COVER, BE SURE KEY SWITCH IS OFF TO
AVOID POSSIBLY SHORTING TERMINALS INSIDE THE MOTOR AS A METAL TOP
IS REMOVED. STRONG ARCS CAN RESULT IN DAMAGING EQUIPMENT AND
POSSIBLY CAUSING INJURY. (IF YOU HAVE A NEWER MODEL MOTOR WITH
PLASTIC TOP, TOP MAY BE REMOVED WITHOUT TURNING THE KEY SWITCH
OFF.)
2. TO AVOID INJURY, UNPLUG POWER FROM MOTOR WHENEVER MAKING
REPAIRS INSIDE THE MOTOR COWL. SHORTS CAN BE CAUSED BY METAL
TOOLS OR LOOSE WIRES CAUSING ELECTRICAL ARCS. WHEN NECESSARY TO
TAKE VOLT METER READING WITH POWER ON, USE CAUTION! AN
EXPERIENCED MECHANIC WOULD BE A PREFERRED TECHNICIAN.
Trouble Shooting
First, keep in mind that breakdowns are few and these are usually minor and almost always
electrical. Don't suspect something catastrophic -- it rarely happens.
If, even with this guide, you are having a hard time finding the trouble, call us, and call
before you disassemble something or replace parts based on assumptions.
Give us all the symptoms and, chances are, together we can solve the problem. It may take
some tests and more calls, but we have been successful many times.
When you need a part to fix the trouble, look it up in the Parts Manual and order giving
part number and name.
The Most Likely Problems
Battery Problems:
Batteries cause by far the most trouble, usually due to neglect, but occasionally due to
defects. Batteries may simply be discharged or a cell in one battery may be dead. One dead
cell will cause a significant slowing of the motor.
Also, terminals corrode after several years and can easily cause an open circuit. An
open at any battery terminal will cause the motor not to run and charger not to charge.
Greasing the terminals will prevent corrosion for a long time. A toothbrush and ordinary
chassis grease works well. See Trouble Shooting Chart for other battery troubles. See
Operating and Maintenance Instructions for maintenance of batteries.
3
Charger Problems:
Closely related to battery problems are charger problems. The most likely is a blown
diode due to overheating (these can be easily replaced). As soon as a diode goes the fuse
goes. If you replace the fuse without replacing the diode the fuse will blow again – replace
both at the same time. The charger will not overheat if it has adequate ventilation. If it is
stored in a seat, the seat lid should be open or the charger should be removed from the seat
when charging.
The charger also will not charge ("0" current on charger ammeter) if there is an open
anywhere in the primary battery circuit. An open can occur at a loose or corroded wire
terminal at the batteries.
If batteries show only ¾ voltage, due to defects, age, or over-discharge, the Lester
Automatic Charger will not turn on when plugged in. Check voltage with voltmeter and if
below ¾ voltage, (example 36V for a 48V system) see Trouble Shooting Chart for correction
or call your dealer.
Key Switch:
If moisture gets into the key switch the contacts may corrode and fail. The console
should be covered with a canvas or vinyl captain’s stand cover (pontoon boats) when not in
use. WD40 is recommended. Apply liberally to keyhole so WD40 penetrates to bottom of
switch. This is a good preventative measure and may even revive a failed switch.
Electrolysis:
Experience has shown that if any part of an aluminum boat is grounded to any battery
terminal, electrolysis will occur on parts of the motor left underwater in areas where paint has
been chipped off (exposed metal). Electrolysis is indicated by what appears to be very rapid
corrosion of these areas. Rapid corrosion never takes place without electrolysis. Grounding
of the boat can occur when automotive type lights with one connection through the base are
installed. Even some marine running lights have one side of the circuit connected to the metal
base of the light. If the base is mounted directly on a metal part of the boat, grounding occurs.
It is important to know that the boat is not grounded when installing a Ray system. If
the offending light or other device cannot be insulated from the boat -- remove it.
If you discover electrolysis actually taking place, keep the motor out of water when
not in use and find the cause of the grounded condition and eliminate it as soon as possible. If
the boat is not grounded electrolysis will not happen, but if the boat is grounded it invariably
does.
4
HOW IT WORKS
(Refer to wiring diagrams)
Plus 48 (example voltage) volts are picked up from the primary (power) wire system for
operation of the control circuits at the rear terminal of the cut off contactor and run via the
fuse and white 20 ga. wire to the terminal strip where the white wire of the motor cable carries
the 48 volts through the plug/socket to the control cable and the terminal strip of the control
console and then to the input of the key switch (white wire).
Turn key on: Plus 48V are applied to the meter, the rotary switch (red)
and through the control cable red wire, cable plug and
socket and motor cable and terminal strip to PMC small
terminal (rear one) and to the cut off contactor which turns
on and applies plus 48V to the B+ term of the PMC. (To
determine plug & socket prong assignments--see page 7.)
Push lever The rotary switch puts 48V to the forward contactor via
Forward: the control cable and motor cable green wire. The forward
contactor turns on and completes the primary power circuit
to the electric motor.
Push lever The potentiometer raises the control resistance to the PMC
forward sufficiently for the PMC to start turning the motor. This
slightly operation uses the blue and brown wires of the control
more: cable/motor cable.
Push lever Motor speeds up because pot rotates further and the
forward resistance to PMC (across the blue and brown wires)
more: further increases.
Pull lever The motor slows down because the pot decreases resistance
back: to the PMC over the blue & brown wires. (The motor can be
stopped by the PMC before the forward contactor cuts off.)
Pull lever Plus 48V is dropped from the green control wire, turning
back to past off the forward contactor and breaking the output of the
the forward PMC to the motor.
contactor
turn on point:
Pull lever The rotary switch puts 48V on the orange wire, reverse
back contactor is turned on, connecting the motor to
(reverse): the PMC output with the fields reversed i.e. the current
flows in the opposite direction in the field coils.
5
Pull lever The motor speeds up in an identical way as forward using
back further: same brown & blue wires, however the other half of the
center tapped pot is automatically used.
The contactor coils are supplied minus 48V via a 20 ga. black wire harness attached to
the B- terminal of the PMC. This harness also runs to the terminal strip where the motor
cable and control cable carry it through the console terminal strip and to the meter so the
meter can measure the battery voltage.
Each contactor has a diode across the coil for purposes of diminishing arcing on the rotary
switch. These diodes must be installed with the silver band end toward the plus, the colored
control wire, not toward the black negative wire. Otherwise, the fuse will blow and the diode
itself may also blow. (Unexplained repeated fuse blowing may be a reversed or bad diode.)
A short anywhere in the control circuits will cause the 10-amp fuse to blow. Without the
fuse complete motor and control cables are at risk.
The diode just below the fuse prevents damage from reversed battery polarity by
preventing the cut off contactor from operating; otherwise, connecting 48V in reverse to the
outboard would destroy the PMC when the key is turned on.
The varistor (275) is for protecting the plugging diode in the PMC from voltage spikes,
such as from nearby lightening. The plugging diode makes reversing smoother (essential on
tiller models). PMC will work without the plugging diode.
NOTE: The wiring diagram shows the GE motor. We have also used an Advanced DC brand
motor. The only difference is the location of the terminals on the motor. (This requires some
wires of different lengths.) The electrical connections are the same. With the Advanced DC
motor, to facilitate wiring, we usually flip the lower front terminal (the terminal to which A2
is connected) to the other side of the Forward/Reverse contactor set. (This terminal is on a
bar which goes across, so electrically there is no change.)
Ray
Electric
Outboards
,
Inc.
Wiring
diagram
- Motor
Group
Model #E-2,
including
Serial #400 &
on.
KEY
:
20 Ga.
Contro
l
wires
-
6
G
a
_
Power
wires
MOTOR
MOUNT
W116
27
5
W268
WHn'l
W2
64
MOTOR ASSEMBLY
A2
1
1
G.
E.
MOTOR
CABLE
A104
W280
W1
13
WHJn:
W267
W280
FORWARD
I
REVERSE
CONTACTERS
235
(48V}
A241
CUTOFF
CTR
.
239
(
48V}
or
237
{
36V)
I
£
.---------------J
BlACK
WlRE COLOR
CODE
Red
(RD)
,
Orange
(OR),Green
(GR),
Blue
{BL),
Brown (BR),Black
(
BK
)
,
Whit
e
(WH)
Ray Electric
Outboards,
Inc.
Wiring diagram - Console
Group
Model #E-2, including Serial #400
&
on.
METER
BK
RD
KEY
SWITCH
NOTE: Meter and Key
Switch
are
mountedin console cover
BR
CABLE
C
LAMP
CONTROL
CABLE
A601
CONSOLE
PARTITION
SWITCH
WAFER
A
4
12
WIRE COLOR
CODE
Red (RD),
Orange
(OR)
,
Green
(GR)
,
Blue
(
BL
)
,
Brow
n
(
BR
)
,
Black
(BK)
,
White
(WH)
Contactor Functions
CONTACTOR COLOR OF
LOCATION FUNCTION DESIGNATION CONTROL WIRE
Upper Left Front
(looking at front
of outboard)
On: Forward
Off: Lower contacts function
in reverse circuit
Forward (CF) Green
Upper Right Front
On: Reverse
Off: Lower contacts function
in forward circuit
Reverse (CR)
Orange
Lower Right Front
On: PMC on
Off: PMC off
Cutoff (Cp)
Red
Plug/Socket Assignments
Also, see next page
Socket on Motor Cable
Looking into Socket
Plug on Control Cable
8
-
-
3
Looking
into
Plug
Plug/Socket Assignments
Later Motors
with Covered
Rectangular Plug
1
2
Black
Meter
Orange CR
-
-
Blue PMC
Pot
4
Green CF
I
5
6
I
Red + Key Swiched
17
81
Lookingat Ends
of
Prongs
Socket on Motor Cable
2
1
Blue PMC Pot
I
I
I
I
4
3
Brown PMC Pot
I
I
I
I
Brown PMC
Pot
NOT
USED
White+ in
Black
Meter
Orange
CF
NOT
USED
White+ in
0
6
5
0
08 70
Looking
intoSocket
9
Green
CF
Red + Key
Swithced
10
When a Contactor or the PMC Fails to Operate,
How Do You Find Where the Trouble Is and Correct It?
Any failure (open) in any individual contactor control circuit will cause the associated
contactor to fail to turn on. The Trouble Shooting Chart (TSC) associates the symptoms with
each contactor so there should be no trouble finding out which circuit is at fault.
We will take one example and follow through checking and repair procedures. By then it
should be obvious that similar procedures will work for the other circuits. There are three
contactor circuits (one for each contactor) plus the potentiometer circuit.
Example: Motor does not run in reverse, but runs in forward. You suspect the reverse
contactor not to be picking up. (Turn key off before taking the top, if metal, off the motor.)
Take off the top, put the motor in reverse, and, note that your suspicions were correct; the
reverse contactor is not operating.
Start checking the trouble right at the “the horse’s mouth.” With the controls set at reverse
low speed (Speed lever must be advanced past the point where the rotary switch turns on the
reverse contactor), take a voltmeter and check for voltage right across the contactor coil
terminals. If you get voltage, the coil is suspect. However, check for mechanical friction of
contactor before replacing contactor. If there is no mechanical blockage or mechanical
problems that can be repaired, replace the contactor.
If you do not get voltage at the coil, start checking control voltage at other points along the
orange wires, proceeding from the contactor coil terminals toward the console.
First, check the negative feed to the coil. Place the positive voltmeter lead on the white
primary wire on Cp. Place the negative lead on the coil negative terminal. If the reading is
not battery voltage, check the black wiring harness (20 gage wire) for opens and correct.
(Check the crimping of terminals on this harness if at first no broken wire is found.)
Next, check between (-) at the contactor coil and orange terminal on the motor terminal
strip. If you get proper voltage, the problem (open) is in the orange wire (or crimping)
between the strip and the coil. If voltage is still zero, go to next paragraph.
Remove console from base and with the voltmeter check between black (negative) (If
battery meter is working, negative will be good here.) and orange on the terminal strip (motor
still on in reverse, low speed). If you get voltage, the problem is in the orange wire in the
control cable, motor cable or the connecting plug and socket. (Control cable system) If you
get no voltage, check for voltage between black and white on the terminal strip. If you get no
voltage, the trouble is in the key switch, rotary switch or connecting orange wire inside the
console. Check these and isolate the problem.
11
If problem is not found, check the cable on the motor for continuity. BE CAREFUL
NOT TO SHORT THE SOCKET WITH OHMETER PROBE. (Battery voltage normally
exists on the black and white terminals) Check the orange wire in the cable. With plug
unplugged, check with an ohmmeter for continuity from the motor terminal strip to the socket
hole corresponding to orange. (See plug/socket assignment above) If you get continuity in
the motor cable and the socket appears satisfactory, the trouble is isolated to the control cable
and plug.
To check the control cable on boat for continuity of the orange wire, place one probe of the
voltmeter on the prong of the plug. Extend the length of the other probe, if necessary, with a
piece of wire to the screw on the control console terminal strip corresponding to orange.
Other Control Circuits
You can check the other two-contactor control circuit following procedures similar to
those above. Just trace the applicable colored wire from the contactor coil through to the
terminal strip in the console as we did above. If necessary, make continuity checks on the
motor cable to the applicable socket hole and then similar checks of the control cable on boat.
Shorts in the Control Cable
Shorts across wires in motor cable or control cable can cause various unexplained
malfunctions of the system. To check for shorts in the control cable and motor cable unplug
the control cable connector. Remove cable wires from the motor terminal strip and check for
shorts between wires in the motor cable with an ohmmeter. There should be no shorts.
Remove control cable wires from terminal strip at console and check for shorts in control
cable. If shorted, applicable cable must be replaced.
The PMC (Pulse Modulated Control) and associated circuits
If the contactors are operating normally and the motor still will not function, suspect
an open primary terminal inside the cowl, the PMC, the three control wires to the PMC --
blue, brown and red, or the potentiometer.
First, check for a shorted plugging diode. (See function of plugging diode at end of
"How it Works" above) If this is the problem, the PMC output is shorted inside the PMC. If
left on for any length of time, the PMC will get hot and additional damage will occur. The
PMC will work without the plugging diode if additional damage has not occurred. Removing
the A2 PMC to A2 motor wire (W264) removes the plugging diode from the circuit. If a
shorted plugging diode is suspected, remove the A2 wire. If motor then runs, it means the
diode is shorted. Without the plugging diode, reversing will be harsh and even dangerous on
tiller models. PMC should be replaced. If plugging diode is not the problem, proceed to next
step.
12
With the key switch on, check for battery voltage between the black and white primary
wires attached to the two rearmost terminals at the top of the PMC. Check for good
connections at these terminals and the two other primary terminals on the PMC. If voltage is
not obtained, the trouble is in the PMC shut off contactor (Cp) or in the primary wires leading
to this contactor. Check connections and contacts of the contactor. If voltage is obtained,
proceed to next paragraph.
With key switch on, check for battery voltage between the red control (small) terminal
on the PMC and the black primary wire (-) on the rear terminal of the PMC. If voltage is not
obtained, the trouble is in the red wire between the motor terminal strip and the PMC (if
problem was in the control cable or elsewhere, Cp would not be operating). If voltage is
obtained, proceed.
TURN KEY OFF. CAUTION: CAPACITOR VOLTAGE (36, 48 or 60) STILL
EXISTS ACROSS THE REAR PRIMARY TERMINALS OF THE PMC. Remove the blue
and brown control wires from the PMC. With ohmmeter, check resistance across ends of blue
and brown wires with speed lever on off. You should get approximately 0 ohms. Now,
advance lever to full speed while observing ohmmeter – resistance should increase to 5000
ohms in either forward or reverse.
If resistance is correct and all voltages at the PMC are correct (as above), a bad PMC
is indicated and should be replaced. If resistance is infinite, there is probably an open in the
blue or brown wire. Check out these wires for continuity in the motor cable and control cable.
If resistance is always zero, check for a short between blue and brown in cable system. Also,
check for positive mechanical drive of the pot; that it has not slipped due to loose coupling or
nut.
If no trouble can be found as above, check for operation of the potentiometer by
placing ohmmeter on contacts at the console terminal strip. Resistance should vary
approximately 0 to 5000 ohms when pot is rotated with speed lever in either direction. Also
check for loose connections on pot and terminal strip. If pot is not providing proper
resistance, it must be replaced.
13
TROUBLE SHOOTING CHART
Symptoms Cause Correction
1. Won't run.
Battery meter
Registers far left
"charge"
1. Batteries dead
2. Open at a battery
terminal
1. Charge or replace
batteries as necessary
2. Repair terminal
3. Key switch not
operating
3. Short across switc
h
terminals to verify.
Replace switch
4. Control cable
plug/socket unplugged
or damaged
4. Insert plug into
socket. Replace if
necessary
5. Anderson plug un-
plugged at motor
or damaged
5. Plug in plug.
Replace if necessary
2. Won't run. 1. PMC not operating 1. See "The PMC and
Battery meter associated circuits"
registers "OK"
2. Green and orange 2. See "Shorts in control
wires shorted, causing cable"
CF & CR to be on
simultaneously
3. Loose primary 3. Inspect and repair
terminal inside motor
cowl
4. Cp not operating 4. Check out Cp and
or has dirty contacts red control circuit
See “Checking control
circuits”
14
Symptoms
3. Will not operate
Cause
1. CF not operating
Correction
1. Check green circuit
in Forward
Control
See "Checking
Circuits"
2. CF normally open
Contacts not making
contact
2. Visually check
contacts. UNPLUG BAT-
TERIES. File contacts
with point file.
Replace contactor, if
necessary.
3. CR normally closed
Contacts not making
contact
3. Same as 2
4. Will not operate
in Reverse
1. CR not operating
1. Check orange circuit.
See "Checking
Control Circuits"
2. CR normally open
Contacts not making
contact
2. Visually check contact
s.
UNPLUG POWER TO
MOTOR. File contacts
with point file.
Replace contactor, if
necessary.
3. CF normally closed
Contacts not making
contact.
3. Same as 2
5. Electrolysis --
rapid corrosion on
underwater parts of
motor where paint
is off.
1. Boat grounded to a
battery terminal --
such as through the
base of an automotive
type light. Some
marine running lights
also connected through
base.
1. Eliminate ground by
insulating light from
boat or eliminate
light. NEVER ground
boat when a Ray Out-
board System is
installed.
See Electrolysis
6. Charger will not
1. One or both diodes
1. Check diodes with
charge ("0" ammeter
have failed due to
ohmmeter and replace
15
reading)
overheating or due to
if bad. Replace fuse.
voltage spikes such as
Make sure charger has
from lightning.
adequate ventilation
Charger fuse will
when in use.
usually also be blown.
See Charger Problems
Symptoms Cause
2. Open in charging
Correction
2. Check all battery
circuit.
terminals and leads
for open. Check
Anderson plugs at
charger.
3. Low Battery Voltage.
3. Verify with voltmeter.
Lester Automatic
Use a manual charger until
charger requires
required voltage is
approx. ¾ of battery
returned. Then use
voltage before it will
regular charger. 6V
turn on.
batteries can be
brought up 2 at a time
with a 12V charger.
7. Motor operates
1. Bad cell in one
1. Check all battery
slower than normal
battery.
cells with a hydrometer
or running time is
after charging. Replace
shorter than it
battery with bad cell.
should be.
2. Corroded or loose
2. Locate bad connection
battery terminal or
visually and correct.
loose primary
connection anywhere
in the system.
3. Batteries not
3. Too much amperage
receiving a full charge.
on batteries used to
power accessories.
Bring these batteries
up to charge with a 12
volt charger, reduce
accessories (radio,
spot lights, etc.).
Install a 12V battery
and charger when a lot
of accessories are operated.
16
Symptoms Cause Correction
4. Battery acid 4. Replace batteries.
allowed to remain See Operating and
below plates (pre- Maintenance Instructions
mature failure). for care of batteries.
5. Battery life 5. Replace batteries.
expired (4 to 6 years
typical for private
use).
6. One battery reversed 6. Check to see that
(connected plus to plus batteries are all wired
instead of plus to in series plus to
minus.) minus. Reversed
battery may have to be
replaced. First, try to
bring it up to charge
with a 6 volt charger.
RED
SYSTEM 500, 60 VOLTS
6-VOLT BATTERIES
MOTOR PANEL
1 2 3 4 5 o o
+ + + + +
- - - - -
+ Jumper Wires
W B O
o o
PLUG
_ 6 7 8 9 10
CONSOLE
CHARGER
PLUG - - - - -
+ + + + +
BLACK
WHITE
BLACK
CONTROL
CABLE
(REMOTE
ONLY)
RED
MOTOR PANEL
1 2 3 4 o o
CHARGER
PLUG
+
_
+ + + +
- - - -
Jumper Wires
5 6 7 8
- - - -
+ + + +
BLACK
W B O
o o
PLUG
CONSOLE
(REMOTE
ONLY)
WHITE CONTROL
CABLE
BLACK
RED
MOTOR PANEL
1 2 3 o o
+ + +
- - -
+ Jumper Wires
W B O
o o
PLUG
_ 4 5 6
CONSOLE
CHARGER
PLUG
- - -
+ + +
BLACK 17
WHITE
BLACK
CONTROL
CABLE
(REMOTE
ONLY)
SYSTEM 400, 48 VOLTS
6-VOLT BATTERIES
SYSTEM 300, 36 VOLTS
6-VOLT BATTERIES
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