Troubleshooting test procedures – Generac Power Systems 53187 User Manual

PARTS
ENGINE ELECTRICAL SYSTEM

1

SECTION 5.9

TROUBLESHOOTING TEST PROCEDURES

Section 5.9

TROUBLESHOOTING TEST PROCEDURES

General

The test procedures that follow correspond to the

num bered tests of Section 5.8, TROUBLESHOOTING

FLOW CHARTS.

W hen perform ing diagnostic tests on the engine-

generator, it is recom m ended that the W IRING DIA­
GRAM and ELECTRICAL SCHEMATIC for the partic­
ular m odel being tested be used. Som e differences
m ay exist betw een m odels and using the appropriate
diagram and schem atic w ill help prevent m istakes.

TTie w riter has arbitrarily divided the different en­

gine DC control system s into three types. Read Section
5.1 carefully to identify these types (Type 1,2 and 3).

Test 1- Check 14 Amp Fuse (F1)

DISCUSSION;

The 14 am p fuse is physically m ounted on the

generator control panel. The fuse is electrically con­
nected in series w ith the DC pow er supply to the engine
control circuit board. A blow n fuse w ill open the DC
pow er supply to the circuit board, preventing engine
cranking and startup.

PROCEDURE;

Push in on fuse holder cap and turn counterclock­

w ise to rem ove. The fuse and cap w ill com e off to­
gether. Use a volt-ohm -m illiam m eter to test the fuse for
“continuity".

RESULTS;

1. A reading of "infinity" indicates the fuse elem ent has
m elted open. Replace the fuse w ith an identical 14 am p

fuse.
2. If the m eter reads "continuity", go on to Test 2.

Test 2- Check Battery Cables

DISCUSSION;

Oxidation can form on battery cable term inals and

clam ps, as w ell as battery posts. The resultant film can
result in an effective open-circuit, w ith the sam e results
as a dead battery. Battery cable term inals and clam ps,
as w ell as battery posts, m ust be clean and free of
corrosion.

PROCEDURE;

Inspect battery cable clam ps and term inals, the

cables them selves, and battery posts for evidence of
corrosion. Clean as required. Reconnect the cables
and m ake sure thay are tight.

RESULTS;

1. Clean, tighten or replace battery cables (Including

starter cable) as necessary.
2. If battery cables are not the cause of the problem , go
on to Test 3.

Test 3- Check the Battery

DISCUSSION;

Storage batteries that are unused for any length of

tim e can self-discharge. If the engine cranks too slow ly,
a discharged battery m ay be the cause of the problem .

In som e cases the battery m ay be too w eak to crank

the engine at all.

PROCEDURE;

See Section 5.2, ENGINE CRANKING SYSTEM.

Tw o different m ethods of testing the battery are given

in that section. These tw o m ethods are:

□ A battery capacity test.
□ Specific gravity tests using a battery hydrom eter. \

RESULTS:

1. Recharge or replace the battery as necessary.

2. If battery is in good condition and properly charged,
go on to Test 4.

Test 4- Check for Battery Voltage at

Crank Relay (CR1)

DISCUSSION:

Crank relay (CR1) Is used only on Type 1 control

system s. These system s utilized early production en­
gine control circuit boards and included both a crank
relay (CR1) and a run relay (CR2). The crank relay,
w hen energized by setting the start/stop sw itch to
"Start" position, acts to initiate engine cranking and
startup as follow s:

□ Connects term inal 3 (W ire 17A) of the engine control

circuit board to ground. Circuit board action then
delivers battery voltage to the starter contactor (SC)
to initiate cranking.

□ Delivers battery voltage to term inal 1 of the circuit

board, to turn the board ON. Circuit board action then
delivers battery voltage to a fuel solenoid and a fuel
pum p, so the engine can start and run.

□ Closure of the crank relay contacts delivers battery

voltage to a preheat contactor, for engine preheat.

If battery voltage is not available to the crank relay

(CR1) for any reason, cranking cannot occur.

PROCEDURE:

The crank relay (CR1) Is housed Inside the gener­

ator control panel. See Rgure 1, next page.

NO TE: Crank relay (CR1) and run relay (CR2) are
m ounted

In

the

panel

sIde-by-sIde.

Crank

relay

(CR1) has a total of eleven (11) term inals; run relay
(CR2) has eight (8) term inals.

PAGE 5.9-1