LAARS Mighty Therm2 MT2P (Sizes 500–2000 MBTU/h) - Install and Operating Manual User Manual

LAARS Heating Systems

Page 24

SECTION 8.

Trouble Shooting

8.1 Resolving Lockouts

There are many causes of lockouts. The three most

common causes are: 1) inadequate gas supply, 2) poor

combustion, and 3) ignitor failure.

1. Inadequate gas supply: Before proceeding, ensure

that the gas supply has not been shutoff or the LP

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

boiler and observe the operational cycle. After a

15-second fan pre-purge, the ignitor will heat up for

20 seconds, and then the unit will light. If it does

not, check the gas supply pressure to the appliance,

after resetting the appliance and attempting another

start-up. The gas pressure to the appliance must be

above 5" w.c. (1.2kPa) throughout the entire start-up

cycle. If it is not, correct the supply problem (check

gas valves or supply piping). If the supply pressure

is adequate, consult the factory for assistance.

2. Poor Combustion: Poor combustion should be

suspected if there is a strong flue gas odor. The odor

may result from an improper gas/air ratio (high or

low O

2

or CO

2

). MT2P appliances operate best with

45% excess air (8% CO

2

on natural gas, 9.2% CO

2

on LP). Check the CO

2

of the appliance and adjust if

necessary.

3. Ignitor failure: If the boiler goes through a normal

start cycle but combustion does not occur, and the

gas pressure is at least 5" w.c., ignitor failure may

be the cause. Check the ignitor by unplugging

it, allowing it to cool to room temperature, and

measuring the ignitor resistance. It should be 50-80

ohms. If the resistance is not 50-80 ohms, replace

the ignitor. If the resistance is correct, reset the

boiler and check for 120 VAC at the ignitor plug

during the start cycle. If there is no voltage, replace

the faulty ignitor wire harness or the ignition

control.

8.2 Delayed Ignition - Possible Causes

A defective burner can cause a delayed ignition. If

the gas supply pressure is proper and the gas valves are

functioning properly, then burners should be inspected.

There should be no distortion or perforations in the

burners outside of the active burner port area. Replace if

indicated.

8.3 Short Cycling

Because of the large mass of pool systems, short

cycling should not exist. If it does, it will be caused by

insufficient flow in the pool loop. Check that there is no

blockage in the pool loop such as a plugged or partially

plugged pool filter.

8.4 High Gas Consumption

Appliances operating with an improper air/fuel ratio

are very inefficient and consequently, have very high gas

consumption. Because efficiency is high when the CO

2

is high (or O

2

is low), appliances operating with low CO

2

or high O

2

(especially LP appliances) consume more

gas. Adjust the CO

2

or O

2

for optimum efficiency. If no

combustion analyzing equipment (CO

2

or O

2

) is available

then a proper adjustment of the air/fuel ratio (CO

2

or O

2

)

cannot be accomplished. However, by briefly sniffing

the flue gases it is possible to determine if the CO

2

or O

2

is within the proper range. No significant flue gas odor

should be detected when combustion is proper. A strong

piercing smell indicates poor combustion and generally

a lean mixture - low CO

2

or high O

2

. The CO

2

should be

8% natural gas (9.2% LP) at high fire. To check the CO

2

,

first verify that the supply gas pressure is within 5" to 13"

w.c. (1.2 to 3.2 kPa) With the MT2P running with both

stages firing, set the air box pressure to 1.5" w.c. (0.37

kPa) (as a starting point), by adjusting the air shutter(s)

at the bottom of the fan(s). Check the CO

2

, and adjust the

air shutters if further adjustment to the CO

2

is needed.

Models 1250, 1500, 1750 and 2000 have two blowers and

two air chambers (boxes). The pressure of each air box

must be equal when the final adjustment is made.

8.5 Troubleshooting the Pool Heater

Temperature Control

With a Voltmeter, test for 24 VAC between terminals

1 & 2 on the 10 pin connector. Check that the sensor

temperature is lower than the setpoint temperature by

at least the differential setting. If this is true, check that

there is 24 VAC at the yellow wire on the 4 pin connector.

If there is not 24 VAC, check that the high limit is not

open. If there is 24 VAC at the yellow wire on the 4 pin

connector and not at the light blue wire on that connector,

replace the control.

8.6 Troubleshooting MT2P Controls

The MT2 series consists of two models with one

ignition module (500 & 750) and five models with two

ignition control modules (1000-2000).

A diagnostic/power distribution terminal strip is

located in the upper control panel. To access this remove

the high limit/ignition control panel cover. Trouble-

shooting can be accomplished by using a voltmeter to

verify 24-volts has energized individual components.

Ladder diagrams for models 500-750 are shown in

Figure 7

. These models have one ignition control and one

inducer. This inducer is powered directly from the Fenwal

ignition control's “Fan Connections”. The wire diagrams

for these models are located in

Figure 10

.

The ladder diagram for model 1000 is shown in

Figure 8

. This model has two ignition controls and one

inducer. This inducer is powered directly from the Fenwal

ignition control's “Fan Connections”. The wire diagrams

for these models are located in

Figure 11

.

Ladder diagrams for sizes 1250-2000 are shown in

Figure 9

. These models have two ignition controls and

two inducers. This inducer is powered indirectly from

the Fenwal ignition control's “Fan Connections” via two

120-volt switching relays. When either ignition module

receives a call for heat, it switches its blower to high

speed and the blower of the idle ignition module to low

speed. The wiring diagram is shown in

Figure 12

.