Heating Output, Checking
This repair information only outlines the testing procedure. Perform the exact test as written in the Vehicle Diagnostic Tester in the Guided Fault Finding function.
If the coolant system is not bled completely after being filled, then air can get into the heater core for the heater. This will reduce the heating output and noises may result or the customer may complain there are different air temperatures coming out of the driver side and front passenger side vents.
Corrective Measure for Poor Heating Output or Noises from Coolant Circuit
-- Perform a longer test drive at higher engine speeds (at least 10 minutes, engine speed above 2500 rpm). Select a lower gear during the test to prevent excessive vehicle speed.
-- If the customer complains of poor heating output at certain engine speeds, check the integration of the heater core in the coolant circuit. If both engine coolant hoses (supply and return) are interchanged, coolant is flowing in the wrong direction through the heater core. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
-- For vehicles with a parking/auxiliary heater, check the activation of the Recirculation Pump -V55- for the parking heater as well as the incorporation of the parking heater in the coolant circuit.
Requirements for Reaching Maximum Heating Output
- The coolant circuit must be bled according to the guidelines. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
- All air ducts, covers and seals are OK and properly installed.
- Check that the air flow through dust and pollen filter is not obstructed by dirt. Refer to DUST AND POLLEN FILTER, REMOVING AND INSTALLING .
- The engine is warm.
- The release cable and the release lever for the temperature doors are OK.
- The engine coolant thermostat is OK. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
- The foam seal on the heater core is OK. Refer to HEATER CORE, REMOVING AND INSTALLING .
- For vehicles with a diesel engine, the function of the Auxiliary Heater Heating Element -Z35- and the activation of the Heater Control Module -J65- are OK. Use the Vehicle Diagnostic Tester in Guided Fault Finding (perform Guided Fault Finding for the auxiliary heater).
- That the activation of the engine control module from the Heater Control Module -J65- is OK for vehicles with a gasoline engine.
Test Requirements
- The coolant circuit must be bled according to the guidelines. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
- All air ducts, covers and seals OK and properly installed.
- Air flow through dust and pollen filter not obstructed by dirt.
- The engine is warm.
- The vehicle is not exposed to sunlight.
Checking
-- Close the engine hood.
-- Close doors, window and sliding sunroof.
-- Open all instrument panel vents.
-- Measure the ambient temperature (temperature in the workshop).
-- Start the engine.
-- Position the temperature dial in the selection "cold".
-- Position the knob for air distribution on "instrument panel vent".
-- Adjust rotary fresh-air blower control to speed "4 ".
-- Measure temperature of the air flowing out of left and right instrument panel vents using a thermometer.
The heater works in fresh air mode, the indicator lamp for the recirculation - button does not light up.
The fresh air blower runs at maximum speed.
Specified Values:
- The temperature of the air coming out of the left and right instrument panel vents is maximum 15 °C (59 °F) greater than the previously measured ambient temperature.
- The temperature difference between the air coming out of the left and right instrument panel vents is less than 8 °C (46 °F).
-- Adjust to the highest temperature possible (until temperature dial stops in "warm").
-- Measure temperature of the air flowing out of left and right instrument panel vents using a thermometer.
Specified Values:
- The temperature of the air coming out of the left and right instrument panel vents increases to a value greater than 55 °C (131 °F) (at a coolant temperature of approximately 90 °C (194 °F), depending on the current coolant temperature).
- The temperature difference between the air coming out of the left and right instrument panel vents is less than 8 °C (46 °F).
-- Adjust to the lowest temperature possible (until temperature dial stops in "cold").
-- Measure temperature of the air flowing out of left and right instrument panel vents using a thermometer.
Specified Values:
- The temperature drops within five minutes to a value, which is maximum 15 °C (59 °F) greater than the previously measured ambient temperature
If the Values Are Not Reached, Check the Following
- If the required heat output is not reached:
-- Check the coolant circuit bleeding and repeat, if necessary. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
-- Check the incorporation of the heater core for the heater in the coolant circuit. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
-- Check the temperature adjustment and the temperature door operating cable. Refer to -item 6) Temperature Control Door Motor .
-- Check the foam seal on the heater core for the heater. Refer to HEATER CORE, REMOVING AND INSTALLING .
-- Check the functionality of the temperature door in the air distribution housing. Refer to HEATER AND A/C UNIT, DISASSEMBLING AND ASSEMBLING .
-- Check the coolant thermostat. The engine coolant may not heat properly if the coolant thermostat is faulty. Refer to Cooling System/Coolant (1.8L, 2.0L) or Cooling System/Coolant (1.4L) .
- If the air coming out of the vents is too warm when it is set to "Cold".
-- Check the temperature adjustment and the temperature door operating cable. Refer to -item 6) Temperature Control Door Motor .
-- Check the functionality of the temperature door in the air distribution housing. Refer to HEATER AND A/C UNIT, DISASSEMBLING AND ASSEMBLING .
-- Check the plenum chamber and seal between engine compartment and plenum chamber.