CONTROLLER DISPLAY
Utility Loss Delay
Pausing 10 sec
CONTROLLER
= 12 VDC ALWAYS PRESENT
= AC VOLTAGE
= GROUND FOR CONTROL PURPOSES
= 12 VDC DURING CRANKING ONLY
= 12 VDC DURING ENGINE RUN CONDITION
= DC FIELD EXCITATION
= 5 VDC TO LED
0
4
4
0
BA
6
11
22
6
2
2
REGULATOR
11
2
6
0
4
22
VOLTAGE
4
0
0
13
13
18
SP2
IM2
16
13
SCR
0
0
86
85
HTO
LOP
18
0
13
12V
BATTERY
SCR
SM
IM1
SP1
44
11
POWER
WINDING
33
22
WINDING
POWER
STATOR
4
0
56
0
SC
820
817
818
819
819
818
817
820
L2
L1
LED BOARD
4
3
2
1
4
ACTUATOR
GOVERNOR
14
14
90
OUTPUT
GENERATOR
240 VAC
NEUTRAL
INPUT
UTILITY
240 VAC
TRANSFER
+ BATTERY
GROUND
56
0
15B
23
23
0
0
FS
BATTERY WARMER
OPTIONAL
N1
00
22
33
11
44
CB
15B
14
0
0
CS
N2
N1
2
1
N2
N1
18
13
86
85
4
3
2
1
18
17
16
15
14
13
12
10
9
11
8
6 7
4
3
5
CB - CIRCUIT BREAKER, MAIN OUTPUT
HTO - HIGH TEMPERATURE SWITCH
FS - FUEL SOLENOID
LEGEND
SCR - STARTER CONTROL RELAY
SC - STARTER CONTACTOR
CS - CHOKE SOLENOID
LOP - LOW OIL PRESSURE SWITCH
SM - STARTER MOTOR
BA - BRUSH ASSEMBLY
IM_ - IGNITION MODULE
SP_ - SPARK PLUG
0
J3
J1
PRINTED CIRCUIT BOARD
TO
PCB
7.5 AMP FUSE
SELF RESETTING FUSE
J2
Page 107
Figure 2. circuit condition - initial dropout of utility Source Voltage
sEctioN 4.2
oPEratioNal aNalYsis
• Should utility voltage drop below approximately 65 percent of the nominal source voltage, a programmable
timer on the circuit board will turn on.
• In Figure 2, the 10-second timer is still timing and engine cranking has not yet begun.
• The AUTO-OFF-MANUAL switch is shown in its AUTO position. Battery voltage is available to the circuit board
via Wire 13, a 7.5 amp fuse (F1), and Wire 15B.
DC CONTROL
Part 4
0G9266revA.indd 107
10/15/2008 11:27:58 AM