LAARS EBP 175 MBTU/h - Installation, Operation and Maintenance Instructions User Manual

Endurance

Page 33

fault indicates that there is either something

mis-wired on the boiler, or that the relay

in this circuit has seized. Check the relay

for seized contacts first, and if the relay is

operational, check the wiring circuit on the

boiler.

F-4 Check for damaged wiring or poor

connection at sensor plug. If they are OK

disconnect the sensor plug and check the

resistance across the sensor terminals. The

resistance of a good sensor is 1035 ohms @

77°F (25°C). Replace sensor if resistance is

less than 500 or more than 20,000 ohms.

F-5 Correct in the same manner as F-4.

F-6 Correct in the same manner as F-4.

F-8 Check that the outdoor air sensor is

installed properly, and that the wire and/

or connection are not damaged. If okay,

disconnect the sensor and check the

resistance across the sensor terminals. The

resistance of a good sensor is 1035 ohms at

77°F (25°C). Replace sensor is resistance is

less than 500 or more than 20,000 ohms.

LO See

Section 9.2.3

OFF Control power is off. Press and hold the

power button (upper left button) on the

boiler control for 3 seconds to restore

control power. The control will flash “ON”

and then will return to normal operation.

9.2.3 Resolving Lockouts (LO)

There are many causes for lockouts. The six most

common causes are: (a) poor combustion,

(b) poor flame sensor signal, (c) inadequate gas supply,

(d) ignitor failure, (e) blocked or contaminated air

source, (f) safety limit trip. If you get LO on boiler

control, you need to check the ignition control to see if

it is flashing three times, for ignition control lockout. If

it is, then that is a combustion lockout.
a. Poor Combustion: Poor combustion should be

suspected if there is a strong flue gas odor. The

odor may result from either an improper gas/

air ration (high or low CO

2

) or contamination

of the combustion air supply. If an improper

gas/air ratio is suspected refer to “gas valve

calibration (offset adjustment)” in

Section 10

.

If contamination of the air source is suspected,

check the vent system for leaks back into the

combustion air.

b. Poor flame sensor signal: The boiler control

board will lockout if the flame sensor is grounded

or if the flame signal it receives is less than 1

μA

dc. To check for a grounded sensor, remove

the flame sensor wire (yellow) from the boiler

control board and check for continuity between

the yellow wire terminal and the combustion

chamber bottom pan. If there is continuity, the

flame sensor is grounded. An alternate way to

check for grounding of the flame sensor is to

check the ohms resistance between the yellow

wire terminal and the combustion chamber

bottom pan, using a meter set for at least 100,000

ohms. The resistance must be more than 250,000

ohms (some technicians have been confused

by meters which report infinite resistance with

what appears to them as double zeros; an infinite

resistance reading means there is no grounding

of the flame sensor.) If there is continuity, or

the ohms resistance is less than 250,000 ohms,

debris or moisture in the combustion chamber

may be the cause. To correct, carefully remove

the ignitor and flame sensor assembly. Look

for debris on the assembly where the flame rod

exits the ceramic tube. If debris exists, remove

it. If this area is clean, insert a pencil or other

round object into the flame sensor hole in the

bottom combustion chamber pan and roll it

around to clear any debris that may exist inside

the combustion chamber. Replace the ignitor/

flame sensor assembly, reconnect the yellow wire

and start the boiler. If lockout persists, check

the flame signal. The minimum flame current

necessary to keep the system from lockout is 1

microamp (

μA). There is no need to disconnect

anything to measure the flame current signal.

To measure the flame signal, connect an analog

DC microammeter to the FC terminals on the

ignition control, per Figure 37. The meter should

read 1

μA or higher. (If the meter reads below

“0” on the scale, the meter leads are reversed.

Disconnect and reconnect the meter for correct

polarity.) If the meter reading is less than 1

μA,

see the “poor combustion” section. (Check for air

leaks at inlet to blower.)

c. Inadequate gas supply: Before proceeding,

ensure that the gas supply has not been shutoff

or the LP tank (LP boilers) is not empty. Then,

reset the boiler and observe the operational cycle.

Approximately 20 seconds after the start of the

cycle, the GV LED on the boiler control should

light. If it does not, reset the boiler and check

for 24 VAC at the boiler control. If the voltage

is less than 20 VAC, and transformer voltage is

24 VAC replace the boiler control. If the voltage

is correct, connect a pressure gauge to the offset

pressure port on the gas valve. Reset the boiler

and observe the offset pressure at startup and

after 20 seconds. The pressure will be ~ -2 in.

w.c. at startup (during prepurge) and should

become less negative (-0.1 in. w.c.) when the gas

valve opens and gas flow starts. If the pressure

remains at ~ -2 in. w.c. throughout the cycle

replace the gas valve.