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G60DFV-60C-110X
Unit Information
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Lennox G60DFV-36A-070X, G60DFV-36A-070, G60DFV-36B-090, G60DFV-60C-090, G60DFV-60C-090X Unit Information

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Page 1
© 2002 Lennox Industries Inc.
Corp. 0211−L3
G60DFV(X)
Service Literature
Revised 08−2007
G60DFV(X) SERIES UNITS
for downflow applications only, manufactured with Lennox
Duralok Plus heat exchangers formed of aluminized steel.
Units are available in heating capacities of 66,000 to
132,000 Btuh and cooling applications up to 5 tons. Refer
to Engineering Handbook for proper sizing.
Units are factory equipped for use with natural gas. Kits are
available for conversion to LPG operation. G60DFV model
units are equipped with the two−stage variable speed inte-
grated SureLight control. G60DFV model units meet the
California Nitrogen Oxides (NO
x
) Standards and California
Seasonal Efficiency requirements. All units use a redundant
gas valve to assure safety shut−off as required by C.S.A.
All specifications in this manual are subject to change. Pro-
cedures outlined in this manual are presented as a recom-
mendation only and do not supersede or replace local or
state codes. In the absence of local or state codes, the
guidelines and procedures outlined in this manual (except
where noted) are recommendations only and do not consti-
tute code.
TABLE OF CONTENTS
Specifications Page 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Blower Data Page 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
High Altitude Page 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parts Identification Page 7. . . . . . . . . . . . . . . . . . . . . . . . .
I Unit Components Page 8. . . . . . . . . . . . . . . . . . . . . . . .
II Installation Page 30. . . . . . . . . . . . . . . . . . . . . . . . . . . .
III Start Up Page 30. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IV Heating System Service Checks Page 31. . . . . . . . .
V Typical Operating Characteristics Page 33. . . . . . . . .
VI Maintenance Page 33. . . . . . . . . . . . . . . . . . . . . . . . . .
VII Wiring and Sequence of Operation Page 37. . . . . .
VIII Field Wiring and Jumper Settings Page 52. . . . . . .
IX Integrated Control Board Troubleshooting Page 57.
IMPORTANT
Improper installation, adjustment, alteration, service or maintenance can cause property damage, person­al injury or loss of life. Installation and service must be performed by a qualified installer, service agency or the gas supplier.
WARNING
Electric shock hazard. Can cause injury or death. Before attempting to perform any service or maintenance, turn the electrical power to unit OFF at discon­nect switch(es). Unit may have multiple power supplies.
WARNING
Sharp edges. Be careful when servicing unit to avoid sharp edges which may result in personal injury.
Page 2
SPECIFICATIONS
Gas
ModelNo. G60DFV−36A−070 G60DFV−36B−090 G60DFV−60C−090
Heating
Low NO
x
Model No. G60DFV−36A−070X − − − G60DFV−60C−090X
Perf
ormance
Input− Btuh (kW) low fire 45,000 (13.2) 60,000 (17.6) 60,000 (17.6)
Output− Btuh (kW) low fire 36,000 (10.5) 48,000 (14.1) 48,000 (14.1)
Input− Btuh (kW) high fire 66,000 (19.3) 88,000 (25.8) 88,000 (25.8)
Output− Btuh (kW) high fire 54,000 (15.8) 72,000 (21.1) 72,000 (21.1)
lAFUE 80.0% 80.0% 80.0%
California Seasonal Efficiency 77.0% 77.1% 77.0%
Highstatic− in.w.g. (Pa) .80 (200) .80 (200) .80 (200)
Temperature rise range − _F (_C) low fire 20 − 50 (11 − 28) 25 − 55 (14 − 31) 20 − 50 (11 − 28)
Temperature rise range − _F (_C) high fire 35 − 65 (19 − 36) 45 − 75 (25 − 42) 30 − 60 (17 − 33)
Connections GaspipesizeIPS− in. (mm) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7)
Flue connection − in. (mm) round 4 (102) 4 (102) 4 (102)
Indoor Blower
Wheelnominaldiameter xwidth −in. 10 x 8 10 x 8 11−1/2 x 10
Blower
mm 254 x 203 254 x 203 292 x 254
Motoroutput − hp (W) 1/2 (373) 1/2 (373) 1 (746)
Tons(kW) ofadd-oncooling 2 − 3 (7.0 − 10.6) 2 − 3.5 (7.0 − 12.3) 3.5 − 5 (12.3 − 17.6)
Shippingweight − 1 package 132 lbs. (60 kg) 154 lbs. (70 kg) 172 lbs. (78 kg)
Matching Coils CR26−18N−F, CR26−30N−F,
CR26−36N−F
CR26−36W−F,
CR26−48N−F
CR26−48N−F,
CR26−60N−F
Electricalcharacteristics 120 volts − 60 hertz − 1 phase (less than 12 amps)
OPTIONAL ACCESSORIES MUST BE ORDERED EXTRA
Down−Flow Additive Base − Shipping Weight − lbs. (kg) 11M59 − 9 (4) 11M 60 − 10 (5) 11M 61 − 11 (5)
High Altitude See Page 6
LPG/Propane Kit See Page 6
Propane/Natural Gas Kit 0 to 7500 ft. (0 to 2286 m) 59M87 59M87 59M87
lAnnual Fuel Utilization Efficiency based on DOE test procedures and according to FTC labeling regulations. Isolated combustion system rating for non-weatherized furnaces. NOTE − Filters and provisions for mounting are not furnished and must be field provided.
Page 3
SPECIFICATIONS Cont.
Gas
ModelNo. G60DFV−60C−110 G60DFV−60D−135
Heating
Low NOx Model No. G60DFV−60C−110X − − − −
Perf
ormance
Input− Btuh (kW) low fire 75,000 (22.0) 90,000 (26.4)
Output− Btuh (kW) low fire 61,000 (17.9) 73,000 (21.4)
Input− Btuh (kW) high fire 110,000 (32.2) 132,000 (38.7)
Output− Btuh (kW) high fire 91,000 (26.7) 109,000 (31.9)
lAFUE 80.0% 80.0%
California Seasonal Efficiency 75.8% 76.5%
Highstatic− in.w.g. (Pa) .80 (200) .80 (200)
Temperature rise range − _F (_C) low fire 20 − 50 (11 − 28) 25 − 55 (14 − 31)
Temperature rise range − _F (_C) high fire 30 − 60 (17 − 33) 40 − 70 (22 − 39)
Connections
GaspipesizeIPS− in. (mm) 1/2 (12.7) 1/2 (12.7)
Flue connection − in. (mm) round 4 (102) 4 (102)
Indoor Blower
Wheelnominaldiameter xwidth −in. 11−1/2 x 10 11−1/2 x 10
Blower
mm 292 x 254 292 x 254
Motoroutput − hp (W) 1 (746) 1 (746)
Tons(kW) ofadd-oncooling 3.5 − 5 (12.3 − 17.6) 4 − 5 (14.1 − 17.6)
Shippingweight − 1 package 184 lbs. (83 kg) 198 lbs. (76 kg)
Matching Coils CR26−48N−F,
CR26−60N−F
CR26−48W−F, CR26−60W−F
Electricalcharacteristics 120 volts − 60 hertz − 1 phase (less than 12 amps)
OPTIONAL ACCESSORIES MUST BE ORDERED EXTRA
Down−Flow Additive Base − Shipping Weight − lbs. (kg) 11M 61 − 11 (5) 11M 62 − 13 (6)
High Altitude Page 6
LPG/Propane Kit Page 6
Propane/Natural Gas Kit 0 to 7500 ft. (0 to 2286 m) 59M87 59M87
lAnnual Fuel Utilization Efficiency based on DOE test procedures and according to FTC labeling regulations. Isolated combustion system rating for non-weatherized furnaces. NOTE − Filters and provisions for mounting are not furnished and must be field provided.
Page 4
BLOWER DATA
G60DFV−36A−070 BLOWER PERFORMANCE
0 through 0.80 in. w.g. (0 Through 200 Pa) External Static Pressure Range Blower Control Factory Settings ADJUST − NORM
HEAT − 2 COOL − 4
Speed Switch Positions
ADJUST"
2nd Stage HEAT" Speed 2nd Stage COOL" Speed
Switch
Position
s
1 2 3 4 1 2 3 4
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 880 415 1025 485 1135 535 1320 625 1045 495 1210 570 1300 615 1400 660
NORM (Normal) 800 380 930 440 1035 490 1200 565 950 450 1100 520 1180 555 1275 600
" (Minus) 720 340 835 395 930 440 1080 510 855 405 990 465 1060 500 1145 540
ADJUST"
1st Stage HEAT" Speed 1st Stage COOL" Speed
ADJUST
Switch
1 2 3 4 1 2 3 4
Switch
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 815 385 945 445 1055 500 1210 570 700 330 785 370 840 395 900 425
NORM (Normal) 740 350 860 405 960 455 1100 520 640 300 715 335 765 360 820 385
" (Minus) 665 315 775 365 865 410 990 465 575 270 645 305 690 325 735 350
NOTES − The effect of static pressure and filter resistance is included in air volumes shown.
1st stage HEAT is approximately 91% of the same 2nd stage
HEAT speed position.
1st stage COOL (two speed air conditioning units only) is approximately 70% (65% for units built prior to 09−2002) of the same 2nd stage COOL speed position. Continuous Fan Only speed is approximately 38% of the same 2nd stage COOL speed position − minimum 500 cfm (235 L/s). Lennox Harmony IIt zone control applications − Minimum blower heating speed is approximately 75% of the 1st stage HEAT speed position. Lennox Harmony IIt zone control applications − Minimum blower cooling speed is approximately 45% of the 2nd stage COOL speed position.
G60DFV−36B−090 BLOWER PERFORMANCE
0 through 0.80 in. w.g. (0 Through 200 Pa) External Static Pressure Range
Blower Control Factory Settings ADJUST − NORM
HEAT − 2 COOL − 4
Speed Switch Positions
ADJUST"
2nd Stage HEAT" Speed 2nd Stage COOL" Speed
Switch
Positions
1 2 3 4 1 2 3 4
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) N/A N/A 111 0 525 1295 610 1350 635 1075 505 1240 585 1345 635 1475 695
NORM (Normal) N/A N/A 1005 475 1180 555 1225 580 975 460 1130 530 1220 575 1345 635
" (Minus) N/A N/A 905 430 1060 500 1105 520 880 415 1015 480 1100 520 1210 570
ADJUST"
1st Stage HEAT" Speed 1st Stage COOL" Speed
ADJUST
Switch
1 2 3 4 1 2 3 4
Switch
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) N/A N/A 956 450 1175 555 1210 570 800 377 870 410 930 438 1000 471
NORM (Normal) N/A N/A 870 410 1070 505 1110 525 725 3423 800 377 845 398 910 429
" (Minus) N/A N/A 780 370 960 455 995 470 650 306 720 339 770 363 825 389
NOTES − The effect of static pressure and filter resistance is included in air volumes shown.
1st stage HEAT is approximately 91% of the same 2nd stage HEAT speed position. 1st stage COOL (two speed air conditioning units only) is approximately 70% (65% for units built prior to 09−2002) of the same 2nd stage COOL speed position. Continuous Fan Only speed is approximately 38% of the same 2nd stage COOL speed position − minimum 500 cfm (235 L/s). Lennox Harmony IIt zone control applications − Minimum blower heating speed is approximately 75% of the 1st stage HEAT speed position. Lennox Harmony IIt zone control applications − Minimum blower cooling speed is approximately 45% of the 2nd stage COOL speed position. N/A − 1st stage and 2nd stage HEAT, speed position 1, cannot be used with this model.
Page 5
BLOWER DATA
G60DFV−60C−090 BLOWER PERFORMANCE
0 through 0.80 in. w.g. (0 Through 200 Pa) External Static Pressure Range Bottom Return Air, Side Return Air with Optional RAB Return Air Base, Return Air from Both Sides or
Return Air from Bottom and One Side. Blower Control Factory Settings ADJUST − NORM
HEAT − 2 COOL − 4
Speed Switch Positions
ADJUST"
2nd Stage HEAT" Speed 2nd Stage COOL" Speed
Switch
Positions
1 2 3 4 1 2 3 4
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 1525 720 1730 815 1850 870 2130 1005 1670 790 1805 850 2035 960 2275 1075
NORM (Normal) 1385 655 1575 745 1770 835 1935 915 1520 715 1640 775 1850 870 2070 975
" (Minus) 1245 590 1415 670 1595 750 1745 825 1365 645 1475 695 1665 785 1860 880
ADJUST"
1st Stage HEAT" Speed 1st Stage COOL" Speed
ADJUST
Switch
1 2 3 4 1 2 3 4
Switch
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 1380 650 1580 745 1800 850 1980 935 1070 504 1270 599 1385 653 1545 729
NORM (Normal) 1255 590 1440 680 1635 775 1800 850 955 450 1075 507 1240 585 1370 646
" (Minus) 1130 535 1295 610 1475 695 1620 765 865 408 910 429 1110 523 1220 575
NOTES − The effect of static pressure and filter resistance is included in air volumes shown.
1st stage HEAT is approximately 91% of the same 2nd stage HEAT speed position. 1st stage COOL (two speed air conditioning units only) is approximately 70% (60% for units built prior to 09−2002) of the same 2nd stage COOL speed position. Continuous Fan Only speed is approximately 38% of the same 2nd stage COOL speed position. Lennox Harmony IIt zone control applications − Minimum blower heating speed is approximately 75% of the 1st stage HEAT speed position. Lennox Harmony IIt zone control applications − Minimum blower cooling speed is approximately 42% of the 2nd stage COOL speed position.
G60DFV−60C−110 BLOWER PERFORMANCE
0 through 0.80 in. w.g. (0 Through 200 Pa) External Static Pressure Range Bottom Return Air, Side Return Air with Optional RAB Return Air Base, Return Air from Both Sides or
Return Air from Bottom and One Side. Blower Control Factory Settings ADJUST − NORM
HEAT − 2 COOL − 4
Speed Switch Positions
ADJUST"
2nd Stage HEAT" Speed 2nd Stage COOL" Speed
Switch
P
ositions
1 2 3 4 1 2 3 4
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 1530 720 1720 810 1955 925 2145 1010 1665 785 1810 855 2030 960 2300 1085
NORM (Normal) 1390 655 1565 740 1780 840 1950 920 1510 715 1645 775 1845 870 2090 985
" (Minus) 1250 590 1405 665 1600 755 1755 830 1360 640 1480 700 1660 785 1885 890
ADJUST"
1st Stage HEAT" Speed 1st Stage COOL" Speed
ADJUST
Switch
1 2 3 4 1 2 3 4
Switch
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 1375 650 1555 735 1795 850 1960 925 1035 488 1035 488 1300 613 1445 681
NORM (Normal) 1250 590 1410 665 1635 770 1785 840 950 448 1030 486 1180 556 1315 620
" (Minus) 1125 530 1270 600 1470 695 1605 755 855 403 925 436 1065 502 1195 563
NOTES − The effect of static pressure and filter resistance is included in air volumes shown.
1st stage HEAT is approximately 91% of the same 2nd stage HEAT speed position. 1st stage COOL (two speed air conditioning units only) is approximately 70% (60% for units built prior to 09−2002) of the same 2nd stage COOL speed position. Continuous Fan Only speed is approximately 38% of the same 2nd stage COOL speed position. Lennox Harmony IIt zone control applications − Minimum blower heating speed is approximately 75% of the 1st stage HEAT speed position. Lennox Harmony IIt zone control applications − Minimum blower cooling speed is approximately 42% of the 2nd stage COOL speed position.
Page 6
BLOWER DATA
G60DFV−60D−135 BLOWER PERFORMANCE
0 through 0.80 in. w.g. (0 Through 200 Pa) External Static Pressure Range Bottom Return Air, Side Return Air with Optional RAB Return Air Base, Return Air from Both Sides or
Return Air from Bottom and One Side. Blower Control Factory Settings ADJUST − NORM
HEAT − 2 COOL − 4
Speed Switch Positions
ADJUST"
2nd Stage HEAT" Speed 2nd Stage COOL" Speed
Switch
Position
s
1 2 3 4 1 2 3 4
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 1545 730 1775 840 1985 935 2175 1025 1710 805 1850 875 2080 980 2300 1085
NORM (Normal) 1405 665 1615 760 1805 850 1980 935 1555 735 1680 795 1890 890 2095 990
" (Minus) N/A N/A 1455 685 1625 765 1780 840 1400 660 1515 715 1700 805 1885 890
ADJUST"
1st Stage HEAT" Speed 1st Stage COOL" Speed
ADJUST
Switch
1 2 3 4 1 2 3 4
Switch
Positions
cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s cfm L/s
+" (Plus) 1400 660 1620 765 1825 860 2020 955 1090 514 1175 554 1350 637 1500 707
NORM (Normal) 1275 600 1475 695 1660 785 1835 865 1000 471 1090 514 1230 580 1375 648
" (Minus) N/A N/A 1325 625 1495 705 1650 780 885 417 975 460 1100 519 1230 580
NOTES − The effect of static pressure and filter resistance is included in air volumes shown.
1st stage HEAT is approximately 91% of the same 2nd stage HEAT speed position. 1st stage COOL (two speed air conditioning units only) is approximately 70% (60% for units built prior to 09−2002) of the same 2nd stage COOL speed position. Continuous Fan Only speed is approximately 38% of the same 2nd stage COOL speed position. Lennox Harmony IIt zone control applications − Minimum blower heating speed is approximately 75% of the 1st stage HEAT speed position. Lennox Harmony IIt zone control applications − Minimum blower cooling speed is approximately 45% of the 2nd stage COOL speed position. N/A − 1st stage and 2nd stage HEAT, speed position 1 with " (Minus) adjust, cannot be used with this model.
FILTER AIR RESISTANCE
cfm L/s in. w.g. Pa cfm L/s in. w.g. Pa
0 0 0.00 0 1400 660 0.15 35
200 95 0.01 0 1600 755 0.19 45
400 190 0.03 5 1800 850 0.23 55
600 285 0.04 10 2000 945 0.27 65
800 380 0.06 15 2200 1040 0.33 80
1000 470 0.09 20 2400 1130 0.38 95
1200 565 0.12 30 2600 1225 0.44 110
Data is for 1 inch (25 mm) cleanable filter (field provided).
HIGH ALTITUDE / MANIFOLD PRESSURE INFORMATION
Altitude
Manifold Pressure
Model
In
p
ut
Gas
0 − 4500 ft.
(0 − 1372 m)
4,501 − 7500 ft.
(1373 − 2286 m)
7501−10,000 ft.
(2286 − 3048 m)
at all altitudes
Input
Size
Gas
Required
Pressure
Required
Pressure
Required
Pressure
Low Fire High Fire
C
onversion
Kit
Pressure
Switch
C
onversion
Kit
Pressure
Switch
C
onversion
Kit
Pressure
Switch
in. w.g. kPa in. w.g. kPa
Nat. No Change No Change No Change No Change 59M16 18M64 1.7 0.42 3.5 0.87
045/070−1
to −
6
LPG 59M13 No Change 59M13 No Change 59M14 18M64 4.9 1.22 10.0 2.5
Nat. No Change No Change No Change 18M61 59M16 18M64 1.7 0.42 3.5 0.87
090−1
to −
6
LPG 59M13 No Change 59M13 18M61 59M14 18M64 4.9 1.22 10.0 2.5
Nat. No Change No Change No Change 18M63 59M16 18M61 1.7 0.42 3.5 0.87
110/−135−1
to−−
6
LPG 59M13 No Change 59M13 18M63 59M14 18M61 4.9 1.22 10.0 2.5
045/070−7 and
Nat. No Change No Change No Change No Change 59M17 18M64 1.7 0.42 3.5 0.87
045/070 7 and
later
LPG 59M13 No Change 59M13 No Change 59M14 18M64 4.9 1.22 10.0 2.5
Nat. No Change No Change No Change 18M61 59M17 18M64 1.7 0.42 3.5 0.87
090−7
and later
LPG 59M13 No Change 59M13 18M61 59M14 18M64 4.9 1.22 10.0 2.5
110/135−7 and
Nat. No Change No Change No Change 18M63 59M17 18M61 1.7 0.42 3.5 0.87
110/135 7 and
later
LPG 59M13 No Change 59M13 18M63 59M14 18M61 4.9 1.22 10.0 2.5
Pressure switch is factory set. No adjustment necessary. All models use the factory installed pressure switch from 0−4500 feet (0−1372 m).
Page 7
FIGURE 1
G60DFV(X) PARTS ARRANGEMENT
Combustion Air Pres-
sure Switch Assembly
(Two switches)
Blower Assembly
Variable Speed
Blower Motor
Internal Flue Pipe
Assembly
Flue Box Gasket
Flue Collector Box
Gasket
Combustion Air Inducer
Gasket
Primary
Limit
Heat Exchanger
Combustion
Air Orifice
Transformer
SureLightt Two−Stage
Variable Spee Integrated
Control Board
Flue
Chase
Gasket
Door
Interlock Switch
Flame Sensor
Gas
Valve
Burners
Ignitor
Gas
Orifices
Ignitor
Bracket
Burner Box Bottom
Flame Rollout Switches
Air Intake
Cover
Air Baffle
Gasket
Limit Shield
Burner Box Cover
Power Choke
(1HP Only)
Circuit
Breaker
Sight Glass
Burner Box Top
Secondary Limit
(not shown)
Page 8
I−UNIT COMPONENTS
Unit components are shown in figure 1. The gas valve, combustion air inducer and burners can be accessed by re­moving the burner access panel. Electrical components are in the control box (figure 2) found in the blower section.
CAUTION
Electrostatic discharge can affect electronic components. Take precautions during furnace installation and service to protect the furnace’s electronic controls. Precautions will help to avoid control exposure to electrostatic discharge by putting the furnace, the control and the techni­cian at the same electrostatic potential. Neutral­ize electrostatic charge by touching hand and all tools on an unpainted unit surface, such as the gas valve or blower deck, before performing any service procedure.
ELECTROSTATIC DISCHARGE (ESD)
Precautions and Procedures
1. Control Transformer (T1)
A transformer located in the control box provides power to the low voltage section of the unit. Transformers on all models are rated 40VA with a 120V primary and a 24V sec­ondary.
2. Door Interlock Switch (S51)
A door interlock switch rated 14A at 125VAC is wired in se­ries with line voltage. When the blower door is removed the unit will shut down.
FIGURE 2
CONTROL BOX G60DFV
Transformer
SureLightt Two−Stage
Integrated Control Board
Door
Interlock Switch
Circuit
Breaker
3. Circuit Breaker (CB8)
A 24V circuit breaker is also located in the control box. The switch provides overcurrent protection to the trans­former (T1). The breaker is rated 3A at 32V. If the current exceeds this limit the breaker will trip and all unit opera­tion will shutdown. The breaker can be manually reset by pressing the button on the face. See figure 3.
FIGURE 3
CIRCUIT BREAKER CB8
PRESS TO RESET
WARNING
Shock hazard. Disconnect power before servicing. Integrated
Control Board is not field repairable. If control is inoperable, simply replace entire control.
Can cause injury or death. Unsafe operation will result if repair is attempted.
4. Integrated Control Board (A92) Board 18M99
G60DFV units are equipped with the Lennox two−stage, variable speed integrated SureLight control board. The system consists of a ignition / blower control board (figure 4 with control terminal designations in tables 1 through 4) and ignitor (figure 12). The board and ignitor work in com­bination to ensure furnace ignition and ignitor durability. The SureLight integrated board controls all major furnace operations. The board features two LED lights, DS1 and DS2 for troubleshooting and four LED lights (DS3, DS6, DS7 and DS8) to show furnace status. The board also has two accessory terminals rated at (1) one amp each. See table 5 for status code and table 6 for troubleshooting diagnostic codes.
Electronic Ignition
At the beginning of each heating cycle, the SureLight con­trol monitors the first stage and second stage combustion air inducer prove switch. The control will not begin the heat­ing cycle if the first stage prove switch is closed (by− passed). Likewise the control will not begin the second stage heating cycle if the second stage prove switch is closed, and will allow first stage heat only. However if the second stage prove switch closes during the first stage pre− purge, the control WILL respond to second stage heat call. Once the first stage prove switch is determined to be open, the combustion air inducer is energized on low (first stage) heat speed. When the differential in the prove switch is great enough, the prove switch closes and a 15−second pre−purge begins. If the switch is not proven within 2−1/2 minutes, the control goes into Watchguard−Pressure Switch mode for a 5−minute re−set period.
Page 9
After the 15−second pre−purge period, the SureLight ignitor warms up for 20 seconds after which the gas valve opens for a 4−second trial for ignition. The ignitor energizes during the trial until flame is sensed. If ignition is not proved during the 4−second period, the control will try four more times with an inter purge and warm−up time between trials of 35 sec­onds. After a total of five trials for ignition (including the ini­tial trial), the control goes into Watchguard−Flame Failure mode. After a 60−minute reset period, the control will begin the ignition sequence again. The SureLight control board has an added feature that pro­longs the life of the ignitor. After a successful ignition, the SureLight control utilizes less power to energize the ignitor on successive calls for heat. The control continues to ramp down the voltage to the ignitor until it finds the lowest amount of power that will provide a successful ignition. This amount of power is used for 255 cycles. On the 256th call for heat, the control will again ramp down until the lowest power is determined and the cycle begins again.
Two Stage Operation / Thermostat Selection Jumper
The control can be utilized in two modes: SINGLE−STAGE thermostat or TWO−STAGE thermostat. The thermostat selection jumper E20, located just below dip switches 1 through 3 (figure 4), must be positioned for the particular application. The jumper is factory set on TWO" for use with a two−stage thermostat with two stage heat. Re−posi­tion jumper to SINGLE" for use with a single stage thermo­stat with two stage heat. While in the single−stage thermostat mode (single jumper setting), the burners will always fire on first−stage heat. The combustion air inducer will operate on low speed and in­door blower will operate on low heat speed. After a field se­lectable 10 or 15 minute delay (dip switch 3), the unit will switch to second stage heat. While in the two−stage ther­mostat mode (two jumper setting) the burners will fire on first−stage heat. The combustion air inducer will operate on low speed and indoor blower will operate on low heat speed. The unit will switch to second−stage heat on call from the indoor thermostat. If there is a simultaneous call for W1 and W2 (first and second stage heat) the unit will fire on first stage heat and switch to second stage heat after 30 seconds of operation. See Sequence of Operation flow charts in the back of this manual for more detail.
TW0−STAGE, VARIABLE SPEED INTEGRATED
CONTROL BOARD
FIGURE 4
DIP
SWITCHES
1 − 3
DIP
SWITCHES
5 − 12
DIAGNOSTIC
LEDs
ON−BOARD
JUMPER W951
(cut when heat pump
is used with FM21)
ON−BOARD
JUMPER W914
(cut when CCB1,
Harmony II or
SignatureStat are used)
LEDs
LED
FACTORY−
INSTALLED
JUMPER
THERMOSTAT CONNECTIONS (TB1)
DIP SWITCH FUNCTIONS
DIP SWITCH(ES) FUNCTION
1 and 2 Blower Off Delay
3 Second Stage ON Delay (Single−stage t’stat)
4 Not used 5 and 6 Cooling Mode Blower Speed 7 and 8 Blower Speed Adjustment
9 and 10 Cooling Mode Blower Ramping Profile
11 and 12 Heating Mode Blower Speed
E20
JUMPER
16 PIN BLOWER
CONTROL TERMINALS
DS8
DS7
DS3
DS6
Page 10
TABLE 1
Two Stage Ignition / Blower Control Terminals
120VAC Neutral
LINE Line 120VAC Neutral
XFMR Transformer 120VAC Neutral
EAC Electronic Air Cleaner 120VAC Neutral
CIRC Indoor Blower 120VAC Neutral
HUM Humidifier 120VAC Neutral
120VAC Line
HUM Humidifier 120VAC Hot
XMFR Transformer 120VAC Hot
LINE Line 120VAC Hot
CIRC Indoor Blower 120VAC Hot
EAC Electronic Air Cleaner 120VAC Hot
TABLE 2
SureLight Board 12Pin Terminal Designation
PIN # Function
1 Gas Valve 2nd. Stage (High Fire)
2 Second Stage Pressure Switch
3 Not Used
4 Ground
5 24V Hot
6 Primary Limit In
7 Gas Valve 1st. Stage (Low Fire)
8 Gas Valve Common
9 24V Neutral
10 Ground
11 Primary Limit Out
12 1st Stage Pressure Switch
TABLE 3
SureLight Board 5 Pin Terminal Designation
PIN # Function
1 Ignitor
2 Combustion Air Inducer High Speed
3 Combustion Air Inducer Low Speed
4 Combustion Air Inducer Neutral
5 Ignitor Neutral
TABLE 4
SureLight Board 16 Pin Blower Control Terminals
PIN # Function
1 Ground
2 Low Heat Speed
3 Ground
4 DELAY" Dip Switch Selection
5 COOL" Dip Switch Selection
6 Y1" Signal
7 ADJUST" Dip Switch Selection
8 Ground
9 o" From Thermostat
10 DS" Output Signal
11 HEAT" Dip Switch Selection
12 24 VAC
13 HIGH HEAT Speed
14 Y2" Signal
15 G"
16 CFM LED
Page 11
TABLE 5
STATUS CODES
STATUS LED COLOR FUNCTION
DS3
ON / OFF ’
GREEN
DS3−ON indicates that the motor has a demand to operate. (This LED must be on in all modes).
DS6
CFM"
GREEN
DS6−blinking indicates the airflow (CFM) demand in the motor. The air flow is determined by counting blinks between two (2) second pauses. One blink equals roughly 100 CFM.
DS7
HI / LO"
YELLOW
DS7−ON indicaties the DS to R" jumper has not been cut. When the jumper is cut the system will be operating with LENNOX HARMONY IIt (See Harmony Installation Instructions) or with the CCB1 Efficiency Plus control. CCB1: When ON, a 24 VAC is being applied and when OFF, it has been removed. This on/off operation varies the indoor blower’s performance so dehumidification can be enhanced.
DS8
HEAT"
YELLOW DS8−ON indicates the system is in HEAT mode.
TABLE 6
DIAGNOSTIC CODES
Diagnostic LEDs are labeled DS1 and DS2. See figure 4 for location of diagnostic LEDs.
DS1 DS2 DESCRIPTION
SIMULTANEOUS
SLOW FLASH
SIMULTANEOUS
SLOW FLASH
Power on − Normal operation. Also signaled during cooling and continuous fan.
SIMULTANEOUS
FAST FLASH
SIMULTANEOUS
FAST FLASH
Normal operation − signaled when heating demand initiated at thermostat.
SLOW FLASH ON
Primary, secondary or rollout limit switch open. Limits must close within 3 minutes or unit goes into 1 hour Watchguard.
OFF SLOW FLASH
Low prove switch open; OR: Blocked inlet/exhaust vent; OR: Low prove switch closed prior to activation of combustion air inducer.
OFF FAST FLASH
High prove switch open; OR: Blocked inlet/exhaust vent; OR: High pressure switch closed prior to activation of combustion air inducer.
ALTERNATING
SLOW FLASH
ALTERNATING
SLOW FLASH
Watchguard −− burners failed to ignite; OR limit open more than 3 minutes; OR lost flame sense 5 times in one heating cycle; OR pressure switch opened 5 times in one heating cycle.
SLOW FLASH OFF Flame sensed without gas valve energized.
ON ON
ONONON
OFF
Circuit board failure or control wired incorrectly. Check 24 and 115 volts to board.
OFF ON
Circuit board failure or control wired incorrectly. Check 24 and 115 volts to board.
FAST FLASH SLOW FLASH Main power polarity reversed. Switch line and neutral.
SLOW FLASH FAST FLASH Low flame signal. Measures below 0.23 microAmps. Replace flame sense rod.
ALTERNATING
FAST FLASH
ALTERNATING
FAST FLASH
The following conditions are sensed during the ignitor warm−up period only:
1) Improper main ground;
2) Broken ignitor; OR: Open ignitor circuit;
3) Line voltage below 75 volts. (If voltage lower than 75 volts prior to ignitor warm-up, control will signal waiting on call from thermostat, and will not respond.
NOTE − Slow flash rate equals 1 Hz (one flash per second). Fast flash rate equals 3 Hz (three flashes per second). Low flame sense current = 0.17−0.22 microAmps.
Page 12
Dip Switch Settings Switches 1 and 2 − Blower Off Delay The blower−on delay
of 45 seconds is not adjustable. The blower−off delay (time that the blower operates after the heating demand has been satisfied) can be adjusted by moving switches 1 and 2 on the integrated control board. The unit is shipped from the factory with a blower−off delay of 90 seconds. The blower off delay affects comfort and is adjustable to satisfy individual applications. Adjust the blower off delay to achieve a supply air temperature between 90° and 110°F at the exact moment that the blower is de−energized. Longer off delay settings provide lower supply air temperatures; shorter settings provide higher supply air temperatu­res.The table below provides the blower off timings that will result from different switch settings.
TABLE 7
Blower Off Delay Switch Settings
Blower Off Delay
(Seconds)
Switch 1 Switch 2
60 Off Off
90 Off On 120 On Off 180 On On
Switch 3 − Second Stage Delay (Used with Single−Stage Thermostat Only) This switch is used to determine the
second stage on delay when a single−stage thermostat is being used. The switch is factory−set in the ON position, which provides a 10−minute delay before second−stage heat is initiated. If the switch is toggled to the OFF position, it will provide a 15−minute delay before second−stage heat is initiated. This switch is only activated when the thermo­stat selector jumper is positioned for SINGLE−stage ther­mostat use.
Switch 4 − Not used
Switches 5 and 6 − Cooling Mode Blower Speed
Switches 5 and 6 are used to select cooling blower motor speed. The unit is shipped from the factory with the dip switches positioned for high speed (4) indoor blower motor operation during the cooling mode. The table below pro­vides the cooling mode blower speeds that will result from different switch settings. Refer to blower data tables at the front of this manual for corresponding cfm values.
TABLE 8
Cooling Mode Blower Speeds
Speed
Switch 5 Switch 6
1 − Low On On 2 − Medium Low Off On 3 − Medium High On Off
4 − High (Factory) Off Off
Switches 7 and 8 − Blower Speed Adjustment Switches 7 and 8 are used to select blower speed adjustment set­tings. The unit is shipped from the factory with the dip switches positioned for NORMAL (no) adjustment. The dip switches may be positioned to adjust the blower speed by +10% or −10% to better suit the application. The table be­low provides blower speed adjustments that will result from different switch settings. Refer to blower data tables at the front of this manual for corresponding cfm values.
TABLE 9
Blower Speed Adjustment
Adjustment
Switch 7 Switch 8
+10% (approx.) On Off
NORMAL (Factory) Off Off
−10% (approx.) Off On
Switches 9 and 10 − Cooling Mode Blower Speed Ramping −− Switches 9 and 10 are used to select cooling
mode blower speed ramping options. Blower speed ramp­ing may be used to enhance dehumidification perfor­mance. The switches are factory set at option A which has the greatest effect on blower motor performance. The table below provides the cooling mode blower speed ramping options that will result from different switch settings. The cooling mode blower speed ramping options are detailed on the next page. See unit nameplate for manufacturing date.
TABLE 10
Cooling Mode Blower Speed Ramping
Ramping Option
Switch 9 Switch 10
A (Factory) Off Off
B On Off C Off On D On On
Page 13
G60DFV units manufactured before April 2003
Ramping Option A (Factory Selection)
D Motor runs at 50% for 1/2 minute. D Motor then runs at 82% for approximately 7−1/2 min-
utes.
D If demand has not been satisfied after 7−1/2 minutes,
motor runs at 100% until demand is satisfied.
D Once demand is met, motor runs at 50% for 1/2 min-
ute.
D Motor ramps down to off.
OFF
OFF
1/2 MIN 50% CFM
COOLING DEMAND
7−1/2 MIN 82% CFM
100% CFM
1/2 MIN 50% CFM
Ramping Option B
D Motor runs at 50% for 1/2 minute. D Motor then runs at 82% for approximately 7−1/2 min-
utes.
D If demand has not been satisfied after 7−1/2 minutes,
motor runs at 100% until demand is satisfied.
D Once demand is met, motor ramps down to off.
OFF
OFF
1/2 MIN 50% CFM
7−1/2 MIN 82% CFM
100% CFM
COOLING DEMAND
Ramping Option C
D Motor runs at 82% for approximately 7−1/2 minutes. D If demand has not been satisfied after 7−1/2 minutes,
the motor runs at 100% until demand is satisfied.
D Once demand is met, motor ramps down to off.
OFF
OFF
82%CFM
100% CFM
COOLING DEMAND
7−1/2 MIN
Ramping Option D
D Motor runs at 100% until demand is satisfied. D Once demand is met, motor ramps down to off.
OFFOFF
100% CFM
COOLING DEMAND
G60DFV units manufactured April 2003 and later
Ramping Option A (Factory Selection)
S Motor runs at 50% for 30 seconds. S Motor then runs at 82% for approximately 7−1/2 min-
utes. If demand has not been satisfied after 7−1/2 min­utes.
S Motor runs at 100% until demand is satisfied. S Once demand is met, motor runs at 50% for 30 sec-
onds then −
S ramps down to stop.
OFF
OFF
1/2 MIN 50% CFM
COOLING DEMAND
7 1/2 MIN 82% CFM
100% CFM
1/2 MIN 50% CFM
Ramping Option B
S Motor runs at 82% for approximately 7−1/2 minutes. If
demand has not been satisfied after 7−1/2 minutes −
S motor runs at 100% until demand is satisfied. S Once demand is met, motor ramps down to stop.
OFF
OFF
82%CFM
100% CFM
COOLING DEMAND
7 1/2 MIN
Ramping Option C
S Motor runs at 100% until demand is satisfied.
S Once demand is met, motor runs at 100% for *45 sec-
onds. Then,
S ramps down to stop.
OFF
OFF
100% CFM
100% CFM
COOLING DEMAND
G60DFV units date coded prior to 2−2006 will delay 60 seconds
Ramping Option D
SMotor runs at 100% until demand is satisfied.
SOnce demand is met, motor ramps down to stop.
OFFOFF
100% CFM
COOLING DEMAND
Page 14
Switches 11 and 12 − Heating Mode Blower Speed
Switches 11 and 12 are used to select heating mode blower motor speed. The unit is shipped from the factory with the dip switches positioned for medium low (2) speed indoor blower motor operation during the heating mode. The table below provides the heating mode blower speeds that will result from different switch settings. Refer to blower data tables at the front of this manual for corresponding cfm val­ues.
TABLE 11
Heating Mode Blower Speeds
Speed
Switch 11 Switch 12
1 − Low On On
2 − Medium Low
(Factory)
Off On
3 − Medium High On Off
4 − High Off Off
On−Board Jumper W914
On−board jumper W914, which connects terminals DS and R on the integrated control board, must be cut when the fur­nace is installed with the Harmony II zone control board, the CCB1 EfficiencyPlus humidity control or Lennox Signa­tureStatt. Refer to table 21 for operation sequence in ap­plications including a G60DF, CCB1 and single−speed out­door unit. Table 22 gives the operation sequence in ap­plications with a two−speed outdoor unit. Refer to table 23 for operation sequence in applications including a G60DF, SignatureStat and single−speed outdoor unit. Table 24 gives the operation sequence in applications with a two− speed outdoor unit.
On−Board Jumper W951
On−board jumper W951, which connects terminals R and O on the integrated control board, must be cut when the fur­nace is installed in applications which include a heat pump unit and the FM21 FuelMaster control board.
Factory−Installed Jumper Y1 to Y2
A factory−installed jumper from Y1 to Y2 terminals on the integrated control board terminal strip must be removed if two−stage cooling will be used.
Diagnostic LEDs (DS1 and DS2)
Two diagnostic LEDs are located on the two−stage, vari­able speed integrated control just to the left of the first bank of dip switches. These lights’ flashes correspond with diag­nostic codes detailed on in table 6.
Status LEDs (HEAT, HI/LO, ON/OFF and CFM)
The integrated control includes four LEDs which indicate operating status. The green ON/OFF LED is lit any time the blower is operating. The green CFM LED indicates the blower motor speed. Count the number of blinks between the two−second pauses to determine the CFM. Each blink represents approximately 100 CFM. The yellow HI/LO LED is lit when the W914 (DS to R) jumper has not
been clipped for CCB1, SignatureStat or Harmony operation. The yellow HEAT LED is lit when the indoor blower is operating at the HEATING speed.
Page 15
WARNING
Shock hazard. Disconnect power before servicing. Integrated
Control Board is not field repairable. If control is inoperable, simply replace entire control.
Can cause injury or death. Unsafe operation will result if repair is attempted.
5. Integrated Control Board(A92) Board 100870
Beggining with the G60DFV−7, units are equipped with the Lennox two−stage, variable speed integrated SureLight control board. The system consists of a ignition / blower control board (figures 5 and 6) with control pin designa­tions in tables 12, 13 and 14 and ignitor (figure 13). The board and ignitor work in combination to ensure furnace ignition and ignitor durability. The SureLight integrated board controls all major furnace operations. The board features a red LED light, for furnace status and trouble­shooting. The LED flashes in X" + Y" codes. For example using table 15 under PRESSURE SWITCH CODES", if the red LED flashes 2 times, then off for 2 seconds then flashes 3 times, the low pressure switch is failed open. Two green LEDs show indoor blower status and CFM. See Page 20 for more detail. The board also has two 120 volt accessory terminals rated at (1) one amp each. In addition there is a 24 volt accessory terminal located on TB1.
Electronic Ignition
At the beginning of the heat cycle the SureLight control monitors the first stage and second stage combustion air inducer prove switch. The control will not begin the heating cycle if the first stage prove switch is closed (by−passed). Likewise the control will not begin the second stage heating cycle if the second stage prove switch is closed, and will re­main in first stage heat. However, if the second stage prove switch closes during the first stage heat pre−purge, the con­trol will allow second stage heat. Once the first stage prove switch is determined to be open, the combustion air induc­er is energized on low (first stage) heat speed. When the differential in the prove switch is great enough, the prove switch closes and a 15−second pre−purge begins. If the switch is not proven within 2−1/2 minutes, the control goes into Watchguard−Pressure Switch mode for a 5−minute re− set period.
After the 15−second pre−purge period, the SureLight ignitor warms up for 20 seconds after which the gas valve opens for a 4−second trial for ignition. The ignitor energizes during the trial until flame is sensed. If ignition is not proved during the 4−second period, the control will try four more times with an inter purge and warm−up time between trials of 35 sec­onds. After a total of five trials for ignition (including the ini­tial trial), the control goes into Watchguard−Flame Failure mode. After a 60−minute reset period, the control will begin the ignition sequence again.
NOTE − Board 100870 provides 95 volts regulated to the ignitor.
Two Stage Operation / Thermostat Selection Jumper
The control can be utilized in two modes: SINGLE−STAGE thermostat or TWO−STAGE thermostat. The thermostat selection is made using a dip switch (figure 4) and must be positioned for the particular application. The dip switch is factory set on TWO" for use with a two−stage thermostat with two stage heat. Re−position dip switch to SINGLE" for use with a single stage thermostat with two stage heat. While in the single−stage thermostat mode (single dip switch setting), the burners will always fire on first−stage heat. The combustion air inducer will operate on low speed and indoor blower will operate on low heat speed. After a factory default 10 minute recognition period, the unit will switch to second stage heat. While in the two−stage ther­mostat mode (two dip switch setting) the burners will fire on first−stage heat. The combustion air inducer will operate on low speed and indoor blower will operate on low heat speed. The unit will switch to second−stage heat on call from the indoor thermostat. If there is a simultaneous call for first and second stage heat, the unit will fire an first stage heat and switch to second stage heat after 30 seconds of operation. See Sequence of Operation flow charts in the back of this manual for more detail.
Page 16
TWO−STAGE, VARIABLE SPEED INTEGRATED CONTROL BOARD
FIGURE 5
THERMOSTAT CONNECTIONS (TB1)
1/4" QUICK CONNECT TERMINALS
DIP SWITCH FUNCTIONS
INDOOR
BLOWER DIP
SWITCHES
HEATING
DIP
SWITCHES
DIAGNOSTIC
LEDs
ON−BOARD
JUMPERS
H= 24V HUMIDIFIER OUTPUT L= LENNOX SYSTEM OPERATION MONITOR 1= FUTURE USE
NEUTRALS= 120 VAC NEUTRAL
W914
W951
W915
HTG DIP SWITCH(ES) FUNCTION
5 and 6 Cooling Mode Blower Speed 7 and 8 Blower Speed Adjustment
9 and 10 Cooling Mode Blower Ramping Profile
11 and 12 Heating Mode Blower Speed
1 T’stat Heat Stages (single or two−stage) 2 Second Stage ON Delay (single−stage t’stat)
3 and 4 Heating Fan OFF Delay
INDOOR BLOWER
DIP SWITCH(ES)
FUNCTION
1
16
5
12
1
4
ON
ON
9
8
TABLE 12
SureLight Board 5 Pin Terminal Designation
PIN # Function
1 Ignitor
2 Combustion Air Inducer High Speed
3 Combustion Air Inducer Low Speed
4 Combustion Air Inducer Neutral
5 Ignitor Neutral
TABLE 13
SureLight Board 12Pin Terminal Designation
PIN # Function
1 Gas Valve High Fire
2 Second Stage Prove Switch
3 Rollout In
4 Ground
5 24V Hot
6 Primary Limit In
7 Gas Valve Low Stage
8 Gas Valve Common
9 24V Neutral
10 Ground
11 Rollout Switch Out
12 1st Stage Prove Switch
TABLE 14
SureLight Board 16 Pin Blower Control Terminals
PIN # Function
1 Ground
2 Low Heat Speed
3 Ground
4 DELAY" Dip Switch Selection
5 COOL" Dip Switch Selection
6 Y1" Signal
7 ADJUST" Dip Switch Selection
8 Ground
9 0" From Thermostat
10 DS" Output Signal
11 HEAT" Dip Switch Selection
12 24 VAC
13 HIGH HEAT Speed
14 Y2" Signal
15 G"
16 CFM LED
Page 17
FIGURE 6
TWO−STAGE, VARIABLE SPEED INTEGRATED CONTROL BOARD
Page 18
TABLE 15
FLASH CODE
(X + Y)
STATUS / ERROR DESCRIPTION
FLASH CODE DESCRIPTIONS
Pulse A 1/4 second flash followed by four seconds of off time.
Heartbeat Constant 1/2 second bright and 1/2 second dim cycles.
X + Y
LED flashes X times at 2Hz, remains off for two seconds, flashes Y times at 2Hz, remains off for four seconds, then repeats.
Pulse Power on − Standby.
Heartbeat Normal operation − signaled when heating demand initiated at thermostat.
FLAME CODES
1 + 2 Low flame current −− run mode.
1 + 3 Flame sensed out of sequence −− flame still present.
PRESSURE SWITCH CODES
2 + 3 Low pressure switch failed open.
2 + 4 Low pressure switch failed closed.
2 + 5 High pressure switch failed open.
2 + 6 High pressure switch failed closed.
2 + 7 Low pressure switch opened during ignition trial or heating demand.
LIMIT CODE
3 + 1 Limit switch open.
WATCHGUARD CODES
4 + 1 Watchguard −− Exceeded maximum number of retries.
4 + 2 Watchguard −− Exceeded maximum number of retries or last retry was due to pressure switch opening.
4 + 3 Watchguard −− Exceeded maximum number of retries or last retry was due to flame failure.
4 + 5 Watchguard −− Limit remained open longer than three minutes.
4 + 6
Watchguard −− Flame sensed out of sequence; flame signal gone.
4 + 7 Ignitor circuit fault −− Failed ignitor or triggering circuitry.
4 + 8 Low line voltage.
HARD LOCKOUT CODES
5 + 1 Hard lockout −− Rollout circuit open or previously opened.
5 + 2 Control failed self check, internal error (control will restart if error recovers).
5 + 3 No Earth ground (control will restart if error recovers).
5 + 4 Reversed line voltage polarity (control will restart if the error recovers).
5 + 6 Low secondary (24VAC) voltage.
Page 19
Dip Switch Settings
Heating Operation DIP Switch Settings
Switch 1 −− Thermostat Selection −− This unit may be used
with either a single−stage or two−stage thermostat. The thermostat selection is made using a DIP switch which must be properly positioned for the particular application. TheDIP switch is factory−positioned for use with a two− stage thermostat. If a single−stage thermostat is to be used, the DIP switch must be repositioned.
a − Select OFF" for two−stage heating operation con-
trolled by a two−stage heating thermostat (factory set­ting);
b − Select ON" for two−stage heating operation con-
trolled by a single−stage heating thermostat. This set­ting provides a timed delay before second−stage heat is initiated.
Switch 2 −− Second Stage Delay (Used with Single− Stage Thermostat Only) −− This switch is used to deter-
mine the second stage on delay when a single−stage ther­mostat is being used. The switch is factory−set in the OFF position, which provides a 10−minute delay before second− stage heat is initiated. If the switch is toggled to the ON position, it will provide a 15−minute delay before second− stage heat is initiated. This switch is only activated when the thermostat selector jumper is positioned for SINGLE− stage thermostat use.
Switches 3 and 4 −− Blower−Off Delay −− The blower−on delay of 45 seconds is not adjustable. The blower−off delay (time that the blower operates after the heating demand has been satisfied) can be adjusted by moving switches 3 and 4 on the integrated control board. The unit is shipped from the factory with a blower−off delay of 90 seconds. The blower off delay affects comfort and is adjustable to satisfy individual applications. Adjust the blower off delay to achieve a supply air temperature between 90° and 110°F at the exact moment that the blower is de−energized. Longer off delay settings provide lower supply air temperatures; shorter settings provide higher supply air temperatu­res.Table 16 provides the blower off timings that will result from different switch settings.
TABLE 16
Blower Off Delay Switch Settings
Blower Off Delay
(Seconds)
Switch 3 Switch 4
60 Off On
90 Off Off 120 On Off 180 On On
Indoor Blower Operation DIP Switch Settings
Switches 5 and 6 −− Cooling Mode Blower Speed −−
Switches 5 and 6 are used to select cooling blower motor speed. The unit is shipped from the factory with the DIP switches positioned for high speed (4) indoor blower motor
operation during the cooling mode. The table below pro­vides the cooling mode blower speeds that will result from different switch settings. Refer to blower tables at the front of this manual for corresponding cfm values.
TABLE 17
Cooling Mode Blower Speeds
Speed
Switch 5 Switch 6
1 − Low On On
2 − Medium Low Off On
3 − Medium High On Off
4 − High (Factory) Off Off
Switches 7 and 8 −− Blower Speed Adjustment −−
Switches 7 and 8 are used to select blower speed adjust­ment settings. The unit is shipped from the factory with the DIP switches positioned for NORMAL (no) adjustment. The DIP switches may be positioned to adjust the blower speed by +10% or −10% to better suit the application. The table below provides blower speed adjustments that will re­sult from different switch settings. Refer to blower tables at the front of this manual for corresponding cfm values.
TABLE 18
Blower Speed Adjustment
Adjustment
Switch 7 Switch 8
+10% (approx.) On Off
NORMAL (Factory) Off Off
−10% (approx.) Off On
Switches 9 and 10 −− Cooling Mode Blower Speed Ramping −− Switches 9 and 10 are used to select cooling
mode blower speed ramping options. Blower speed ramp­ing may be used to enhance dehumidification perfor­mance. The switches are factory set at option A which has the greatest effect on blower motor performance. Table 19 provides the cooling mode blower speed ramping options that will result from different switch settings. The cooling mode blower speed ramping options are detailed on Page 13 under units manufactured April 2003 and later".
NOTE − The off portion of the selected ramp profile also ap­plies during heat pump operation in dual fuel applications.
TABLE 19
Cooling Mode Blower Speed Ramping
Ramping Option
Switch 9 Switch 10
A (Factory) Off Off
B On Off C Off On D On On
Switches 11 and 12 −− Heating Mode Blower Speed −−
Switches 11 and 12 are used to select heating mode blower motor speed. The unit is shipped from the factory with the dip switches positioned for medium low (2) speed indoor blower motor operation during the heating mode. The table below provides the heating mode blower speeds that will result from different switch settings. Refer to blower tables at the front of this manual for corresponding cfm values.
Page 20
TABLE 20
Heating Mode Blower Speeds
Speed
Switch 11 Switch 12
1 − Low On On
2 − Medium Low
(Factory)
Off On
3 − Medium High On Off
4 − High Off Off
On−Board Jumper W914
On−board jumper W914, which connects terminals DS and R on the integrated control board, must be cut when the fur­nace is installed with either the Harmony III zone control board or a thermostat which features humidity control. If the jumper is left intact the PWM signal from the HARMO­NY III control will be blocked and also lead to control dam­age. Refer to table 21 (CCB1) and table 23 (SignatureStat) for operation sequence in applications including G60DFV, a thermostat which features humidity control and a single− speed outdoor unit. Table 22 (CCB1) and table 24 (Signatu­reStatt) gives the operation sequence in applications with a two−speed outdoor unit.
On−Board Jumper W951
On−board jumper W951, which connects terminals R and O on the integrated control board, must be cut when the fur­nace is installed in applications which include a heat pump unit and a thermostat which features dual fuel use. If the jumper is left intact, terminal O" will remain energized elim­inating the HEAT MODE in the heat pump.
On−Board Jumper W915
On−board jumper W915, which connects terminals Y1 and Y2 on the integrated control board, must be cut if two−stage cooling will be used. If the jumper is not cut the outdoor unit will operate in second−stage cooling only.
Status LEDs (SPEED, CFM, E−COM)
The green SPEED LED indicates circulating blower speed in response to the DS signal. The LED is lit during normal blower operation and is off during a dehumidification de­mand. In Harmony III applications, the brightness of the LED indicates the requested blower speed.
The green CFM LED indicates the blower air flow. Count the number of blinks between the two−second pauses to determine the CFM. Each blink represents approximately 100 CFM.
The green E−COM LED indicates that the control is receiv­ing and processing of commands and inputs. The LED may flash rapidly or may display a single flash, depending upon the activity.
TABLE 21
G60DFV, CCB1 and Single−Speed Outdoor Unit
OPERATING MODE
SYSTEM DEMAND SYSTEM RESPONSE
System Condition
Thermostat
Demand
*Relative Humidity
(EfficiencyPlus Lights)
Blower
CFM
(COOL)
Comments
Normal operation Y1
No demand. Humidity
level is acceptable
COOL
Compressor demand and indoor blower speed controlled by thermostat demand.
*Call for humidity
removal during
cooling demand
Y1
Humidity level rises above setpoint. Demand initiated.
60%/65% of COOL
Call for dehumidification initiated by CCB1 control. Indoor blower speed reduced by CCB1 control.
Dehumidification demand satisfied
during cooling demand.
Y1
Humidity level falls below set-
point. No demand
COOL
When humidity demand is satisfied, blower speed immediately increases to the COOL CFM to has­ten the end of the cycle.
Call for cooling after call for
None
Humidity level above setpoint.
Demand initiated.
Off
Dehumidification mode begins when relative hu-
humidity
removal.
Y1
Humidity level above setpoint.
Demand initiated.
60%/65% of COOL
Dehumidification mode begins when relative hu
midity is greater than setpoint.
Humidity demand satisfied between
None Over setpoint (1 or more) Off
While unit is not operating (no thermostat de-
thermostat demands (unit
off cycle).
Y1 Change to acceptable COOL
mand), slide switch is moved down and back up
.
Blower operates at COOL CFM.
NOTE − When changing unit mode of operation from cooling to heating, indicating lights that are on will stay on until the first thermostat heating demand. * Reduced blower speed is 65% of COOL for the −36A and −36B units; 60% of COOL for −60C and −60D series units.
Page 21
TABLE 22
G60DFV, CCB1 and Two−Speed Outdoor Unit
OPERATING MODE SYSTEM DEMAND SYSTEM RESPONSE
System
Condition
Thermostat
Demand
*Relative Humidity
(EfficiencyPlus Lights)
****Compressor
Speed
Blower CFM
(COOL)
Comments
Normal operation
Y1 No demand. Acceptable Low
**42%/46%/49
% of HIGH
COOL
Compressor demand and indoor
blower speed controlled by
Y2 No demand. Acceptable High HIGH COOL
py
thermostat demand
Y1 No demand. Acceptable Low
**42%/46%/49
% of HIGH
COOL
Call for humidity
removal during
Y1
Humidity level rises slightly
(1) above setpoint. Demand
initiated.
Low
**42%/46%/49
% of HIGH
COOL
Dehumidification mode does not begin
until after initial thermostat demand is
1st−stage cooling
demand
Demand
satisfied
Humidity level remains
slightly (1) above setpoint.
Demand continues.
Off
Off
satisfied and new cooling demand is
initiated.
Y1
Humidity level remains
slightly (1) above setpoint.
Demand continues.
High
***65%/60% of
HIGH COOL
Significant increase in
Y1
No demand. Acceptable
Low
**42%/46%/49
% of HIGH
COOL
If humidity rises significantly above set­point, or if slide switch is moved signifi-
humidity duri
ng
thermostat cooling
demand.
Y1
Humidity level rises signifi-
cantly (2 or more) above
setpoint. Demand initiated.
High
***65%/60% of
HIGH COOL
point, or if slide switch is moved signifi
cantly, unit will immediately go into de-
humidification mode (in presence of
thermostat demand).
Y1
Humidity level
above setpoint.
High
***65%/60% of
HIGH COOL
Humidity demand
Y1
Humidity level falls below
setpoint. No demand.
High
HIGH COOL
When humidity demand is satisfied,
blower immediately shifts to the COOL
CFM in order to hasten the end of the
y
satisfied during
thermostat demand.
None
No demand. Acceptable
Off
Off
CFM in order to hasten the end of the
cycle. Unit can only shift out of high
thermostat demand
.
Y1
No demand. Acceptable
Low
**42%/46%/49
% of HIGH
COOL
speed compressor operation at begin-
ning of next cycle.
Y2
No demand. Acceptable
High
HIGH COOL
Call for humidity
removal during 2nd
stage thermostat
Y2
Humidity level rises slightly
(1) above setpoint. Demand
initiated.
High
***65%/60% of
HIGH COOL
Blower immediately changes speed in
response to thermostat demand.
d
eman
d
Y2
No demand. Acceptable
High
HIGH COOL
*Call for 1st stage
None
Humidity level is slightly (1)
above setpoint.
Off
Off
Dehumidification mode (high speed
Call for 1st stage
cooling after call for
humidity removal.
Y1
Humidity level is slightly (1)
above setpoint.
Low
**42%/46%/49
% of HIGH
COOL
compressor) begins with next thermo-
stat demand after initial demand is sat-
isfied.
Call for 2nd stage
None
Humidity level is slightly (1)
above setpoint.
Off
Off
Reduced blower speed (dehumidifica-
cooling after call for
humidity removal
Y2
Humidity level is slightly (1)
above setpoint.
High
***65%/60% of
HIGH COOL
tion speed) begins immediately with
thermostat demand
Call for cooling after
None
Humidity level is significantly
above setpoint (2 or more).
Off
Off
If humidity increases significantly over
setpoint, or if slide switch is moved,
significant increase in
humidity
Y1 or Y2
Humidity level is significantly
above setpoint (2 or more).
High
***65%/60% of
HIGH COOL
unit immediately goes into dehumidifi-
cation mode (in presence of thermostat
demand).
Humidity demand satisfied between
None
Humidity level is slightly (1)
above setpoint.
Off
Off
While unit is not operating (no thermo-
stat demand), slide switch is moved
satisfied between
thermostat demands
(unit off cycle).
Y1 or Y2
Humidity level falls below
setpoint. No demand.
High
HIGH COOL
down and back up. Blower and com-
pressor operate at high speed until
next thermostat demand.
NOTE − When changing unit mode of operation from cooling to heating, indicating lights that are on will stay on until the first ther­mostat heating demand.
*IMPORTANT - If power to unit is turned on with CCB1 calling for humidity removal, outdoor unit may be locked into high speed indefinitely. To reset, move humidity slide switch all the way down then back up to desired setpoint (with unit running) ** Reduced blower speed is 49% for ALL model units manufactured September 2002 and later. (Earlier date code − 42% of HIGH COOL for −36A and −36B units; 46% of HIGH COOL for −60C and −60D series units). *** Reduced blower speed is 65% of HIGH COOL for −36A and −36B units; 60% of HIGH COOL for −60C and −60D series units. ****If the two−speed control on a two−speed outdoor unit is set for LATCH 2 (15 minutes) or LATCH 3 (30 minutes), the compressor will latch into high speed after a Y1 demand has occurred for that period of time.
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