28
supply air temperature, while ”EFFICIENCY” will
provide lower gas consumption.
c. Make sure access panel is re--installed on the unit.
d. Measure supply and return temperatures as close to the
unit as possible. Subtract the return temperature from
the supply temperature to determine rise. Rise should
fall within the range specified on the rating plate.
5. Adjust manifold pressure to obtain high stage input rate
(See Fig. 20).
a. Set unit to run for 20 minutes in high--stage gas heat
operation using the ”INSTALLER CHECKOUT” menu
on the UI.
b. Remove regulator adjustment cap from high stage gas
valve pressure regulator (See Fig.20) and turn
high--stage adjusting screw (3/16 or smaller flat--tipped
screwdriver) counterclockwise (out) to decrease rate and
clockwise (in) to increase input rate.
NOTE
: DO NOT set high stage manifold pressure less than 3.2
IN. W.C or more than 3.8 IN. W.C for natural gas. If manifold
pressure is outside this range, change main burner orifices.
c. Re--install high stage regulator adjustment cap.
d. Leave manometer connected.
6. Verify natural gas high stage input rate.
a. Turn off all other gas appliances and pilots served by
the gas meter.
b. If unit is not running, set unit to run for 20 minutes in
high stage gas heat operation using the ”INSTALLER
CHECKOUT” menu on the User Interface.
c. Record number of seconds for gas meter to complete
one revolution.
d. Divide number of seconds in step c. into 3600 (number
of seconds in 1 hour).
e. Multiply result of step d. by the number of cubic feet
shown for one revolution of test dial to obtain cubic feet
of gas flow per hour.
f. Multiply result of step f. by Btu heating value of the gas
to obtain total measured input shown in Table 3.
(Consult the local gas supplier if the heating value of
gas is not known).
EXAMPLE: Assume a 90,000 high stage input unit is being
installed. Assume that the size of the dial is 2 cubic ft., one
revolution takes 84 sec., and the heating value of the gas is 1025
Btu/ft3. Proceed as follows:
a. 84 sec. to complete one revolution
b. 3600/84 = 42.9
c. 42.9 x 2 = 85.8 ft
3
of gas flow/hr.
d. 85.8 x 1050 = 90,090 Btuh input.
In this example, the nominal input rate for high stage is 90,000
Btu/hr, so the high stage manifold pressure is correctly set.
If the measured high stage rate is too low, increase the manifold
pressure to increase rate. If the measured high stage rate is too
high, decrease the manifold pressure to decrease rate.
NOTE
: Double--check that User Interface is running on high stage
gas heat while clocking the low stage firing rate.
7. Verify proper high stage gas heat temperature rise.
a. Furnace must operate within rise range listed on rating
plate.
b. Make sure access panel is re--installed on the unit.
c. Measure supply and return temperatures as close to the
unit as possible. Subtract the return temperature from
the supply temperature to determine rise. Rise should
fall within the range specified on the rating plate.
NOTE
: If the temperature rise is outside the rating plate range,
first check:
a. Gas input for low and high stage gas heat operation.
b. Derate for altitude, if applicable.
c. Return and supply ducts for excessive restrictions
causing static pressures in excess of .5 IN. W.C.
d. Make sure model plug is installed.
8. Final Check
a. Turn off gas to unit
b. Remove manometer from pressure tap.
c. Replace pipe plug on manifold (See Fig. 21).
d. Turn on gas to unit.
e. Check for leaks.
CHECK GAS INPUT (PROPANE GAS)
Refer to propane kit installation instructions for properly checking
gas input.
NOTE
: For installations below 2,000 ft (610 mm), refer to the
unit rating plate for proper propane conversion kit.
For
installations above 2,000 ft, contact your distributor for proper
propane conversion kit.
CHECK BURNER FLAME
With control access panel removed (see Fig. 25), observe the unit
heating operation. Watch the burner flames to see if they are light
blue and soft in appearance, and that the flames are approximately
the same for each burner. Propane will have blue flame (See Fig.
22). Refer to the Maintenance section for information on burner
removal.
Pipe Plug
Manifold
A09082
Fig. 21 -- Burner Assembly
MANIFOLD
BURNER
BURNER FLAME
C99021
Fig. 22 -- Monoport Burner
677D
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--
A
