Whirlpool 4322452 User Manual

Page 4-8

The

Oven Ignitor

is made of a silicon-carbide material (see Figure 4-13).

Oven Glo-Bar

Ignitor

Figure 4-13

When voltage is applied to the ignitor, it heats up to 2000˚F. As its temperature increases, its
resistance decreases, allowing 2.5 to 3.0 amps to flow to the bimetal in the safety valve. This
measurement is critical to the proper operation of the ignitor. In many cases, the ignitor can glow
red, but not provide the proper amperage to the safety valve. At a room temperature of 75˚F, the
resistance of the ignitor should be between 50 and 1100

Ω. At room temperature the ignitor can

not provide enough amperage to properly operate the safety valve (see Figure 4-14).

Amperage = voltage divided by resistance (cold ignitor)
Amperage = 120 volts

÷ 500 ohms

Amperage = .24

Figure 4-14

As the ignitor heats toward 2000˚F, its resistance drops to approximately 40 to 45

Ω, and can then

operate the safety valve (see Figure 4-15).

Amperage = voltage divided by resistance (hot ignitor)
Amperage = 120 volts

÷ 40 ohms

Amperage = 3.0

Figure 4-15

Oven Ignitor

Thermostat

Switch Contacts

Safety Valve

Bimetal

N

L1

50 to 1100

Ω

.24 AMPS

Thermostat

Switch Contacts

Safety Valve

Bimetal

N

L1

50 to 1100

Ω

2.5 to 3.0 AMPS

Oven Ignitor