York 90% Gas Furnace: YM9M
Re: Flashing Code 3
Code 3 = Furnace Pressure Switch failed to close on a call for heat.
►The code description on the blower door may say, "Vent or Termination Problem" which is a possible cause, but not the most likely.
This gas furnace has two pressure switches:
- A higher pressure switch (PS1) that monitors the negative pressure from the inducer (typically around -.67" w.c.).
- A low pressure switch (PS2) that monitors the collector box pressure for a clogged drain (typically -0.20" w.c.).
► ONLY the PS1 switch will generate a Code 3. (PS2 is wired in series with the Roll-Out Switches and will generate a Code 5).
| Qty |
Possible Causes: |
|
Bad Inducer Motor |
| 2 |
Bad Vent Pressure Switch |
| 1 |
Water in Pressure Hose |
|
Bad Pressure Transducer |
|
Water in the vent (improper slope) |
|
Item Stuck in Inducer Motor |
|
Bad Control Board |
CHECKOUT:
1. Check Control Board
- Start the furnace with a call for heat.
- Ensure that power is present on "W" by checking for 24VAC between "W" and "C".
- No Power = No Call for Heat
- Power = The Inducer motor should start within 15 seconds.
- Inducer Motor Starts → Step 2. Check Inducer
- Inducer Motor Does Not Start + Code 3 ⇒ Check for 115V power to inducer.
- Power + No Inducer → Step 2. Check Inducer
- No Power + Code 3 = Bad Transducer or Bad Control Board ⇒ Unplug wiring to the transducer and re-try.
2. Check Inducer
- Observe and listen to the inducer motor.
- Inducer motor runs normally → Step 3. Check Pressure Switches
- Inducer motor hums but does not start = Bad Inducer Motor or Item in Inducer ⇒ Remove inducer & check
- Sound of Water "Slurshing" = Water in Inducer ⇒ Remove Inducer, pour out water, re-install inducer → Step 4. Check Condensate Drainage
- The only logical way for water to get into the inducer is through the vent (clogged vent drain).
- Listen for sounds of water in the vent piping.
- If water is gurgling in the vent, look for low spots that will hold water.
- The vent piping must have a constant slope back toward the furnace.
3. Check Pressure Switches
- Make sure there are no sags in the pressure switch hoses that could hold water.
- Connect a "Tee" in the Pressure Switch hose from the Inducer Motor.
- Connect a pressure meter to monitor the operating pressure.
- Start the furnace with a call for heat.
- Step 1 - When the inducer motor starts, it should ramp up to close the switch contacts.
- Switch contacts do not close at rated pressure = Bad Pressure Switch
- Step 2 - After the switch closes, the inducer motor should slow to open the switch contacts.
- Switch contacts do not re-open = Bad Pressure Switch
- Step 3 - After the switch opens, the inducer should ramp up to once again close the switch contacts.
- Step 4 - After the switch contacts close for the 2nd time, the inducer should ramp to -1.0" w.c. and start an ignition sequence.
- Inducer doesn't ramp to -1.0" w.c = Bad Transducer
- Step 5 - After firing and proving flame, the inducer should ramp back down to "Minimum Fire".
4. Check Condensate Drainage
- Check the rain gutter on the inducer outlet.
- Remove the drain hose and look into the coupling for any blockage.
- Water runs out of the coupling = Clogged Drain Hose
- Make sure the drain hose is clear.
- On horizontal runs, make sure the drain outlets are pointed slightly down-hill.
- Check the drain hose from the collector box.
- Make sure all drain hoses are clear and have a downward slope.
- IMPORTANT! Make sure there is an "Air-Gap" in the PVC drain immediately upon exiting the furnace.
- Any trap after the furnace before the air gap will cause drainage issues.
- A tee running up to the air conditioner coil will act as an air gap.
- In extreme cold conditions be cautious of Frozen Drains.
