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The current flowing between the Flame Sensor and Burner is DC micro amp current expressed as: µA (micro Amps). Flame sensing

current can be measured with a DC micro amp test meter, see “Tools Recommended” on Page

SPARK

IGNITER

BURNER

FLAME

BURNER

(MUST BE GROUNDED)

CERAMIC INSULATOR

FLAME SENSOR

METAL CONDUCTOR

CONTROL SYSTEM

APPLIES AC CURRENT

TO FLAME SENSOR

AC CURRENT FLOWS FROM THE FLAME

SENSOR TO THE BURNER. THE BURNER

MUST BE GROUNDED FOR CURRENT TO

FLOW. DURING THIS PROCESS THE AC

CURRENT IS “RECTIFIED” AND BECOMES

A DC CURRENT. DC MICRO AMP CURRENT

THEN FLOWS BETWEEN THE FLAME SENSOR

AND THE BURNER.

MINIMUM FLAME SENSING CURRENT

To prove burner flame during the Ignition Verification state the Control System monitors flame sensing current, the DC micro amp (μA)

current flowing through the Flame Sensor. The Control System must sense a minimum amount of current to “prove” flame. The

minimum flame sensing current is 1.0 μA. If flame sensing current does not reach 1.0 µA during ignition or falls below this amount

during a heating cycle the Control System will immediately de-energize the 24 Volt Gas Control Valve.
After 3 failed trials for ignition the Control System will lock out and display

Ignition Failure

(fault condition) on the UIM. If flame sensing

current drops below 1.0 μA during a heating cycle the Control System will de-energize the 24 Volt Gas Control Valve and enter the

Inter-Purge operating state. After the Inter-Purge operating state the Control System will try for ignition again if a call for heat is still

active. See the

Sequence of Operation Flow Chart

(page

9).

FLAME SENSING CURRENT TEST

During the heating cycle the flame sensing current is normally greater than 8.0 μA with a clean Flame Sensor. Over time the Flame

Sensor can degrade and this will reduce flame sensing current. With heavier use, more heating cycles/greater load, this will occur more

quickly.
Measuring flame sensing current requires a test meter with a DC micro amp function, see “Tools Recommended” on Page

3. The

meter’s selector is set to DC micro amps. The two test leads from the meter are placed in series with the flame sensing circuit. This can

be done at the spade (male/female) flame sensing wiring connectors. See Figure below.
To measure flame current disable water heating by turning off the Enable/Disable Switch located in the front of the water heater and

connect the test meter following the method shown in Figure below. Enable water heating and ensure a call for heat is active - when the

Control System energizes the 24 Volt Gas Control Valve the meter will measure flame sensing current during normal operation.

Service Notes:

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The most common cause of

Ignition Failure

lock out is a worn Flame Sensor. The Flame Sensor should be inspected and cleaned

anytime the measured flame sensing current is below 8 µA or the Burner has been removed. Clean the Flame Sensor with ultra

fine steel wool. DO NOT use a coarse abrasive material such as sand paper. Inspect the ceramic insulator on the Flame Sensor for

cracks, replace the Flame Sensor if it is damaged.

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An open flame sensing circuit caused by disconnected or loose connectors can also cause ignition failure. Check all wiring and wiring