Post on 22-Sep-2020
© 2012 Trane
NOTICE: Since the manufacturer has a policy of continuous product and product data improvement, it reserves the right to change design and specifications without notice.
GAM5-SF-1D
HAZARDOUS VOLTAGE - DISCONNECT POWER BEFORE SERVICINGWARNING:
Service Facts
*For use with BAYEA series heaters ONLY
Convertible Air HandlersModels: Series 5 Air Handlers 1-1/2 to 5 Ton
GAM5A0A18M11SAGAM5A0A24M21SAGAM5A0B30M21SAGAM5A0B36M31SA
GAM5A0C42M31SAGAM5A0C48M41SAGAM5A0C60M51SA
� WARNING!SAFETY HAZARD! This information is intended for use by individuals possessing adequate backgrounds of electrical and mechanical experience. Any attempt to repair a central air condition-ing product may result in personal injury and/or property damage. The manufacture or seller cannot be responsible for the interpreta-tion of this information, nor can it assume any liability in connection with its use.
PRESSURIZED REFRIGERANT! SYSTEM CONTAINS OIL AND REFRIGERANT UNDER HIGH PRESSURE. RECOVER REFRIGERANT TO RELIEVE PRESSURE BEFORE OPENING THE SYSTEM.
DO NOT USE NON-APPROVED REFRIGERANTS OR REFRIGERANT SUBSTITUTES OR REFRIGERANT ADDITIVES.
� WARNING!
LIVE ELECTRICAL COMPONENTS! During instal-lation, testing, servicing, and troubleshooting of this product, it may be necessary to work with live electrical components. Failure to fol-low all electrical safety precautions when exposed to live electrical components could result in death or serious injury.
� WARNING! Note: This unit is certified to UL 1995. The interior cabinet wall meets the following: - UL94-5VA Flame Class Listed - UL723 Steiner Tunnel Listed for 25/50 Flame/Smoke - UL746C Listed for Exposure to Ultraviolet Light, Water Exposure and Immersion
Table of ContentsProduct Specifications. .................................................................................................... 2Airflow Performance. ........................................................................................................ 3Heater Attribute Data. .................................................................................................... 10Wiring Diagram. ............................................................................................................. 13Sequence of Operation. ................................................................................................. 14Configuration Dip Switch Settings. ................................................................................ 16EVC Thermal Resistance and Voltage Table. ................................................................ 17EEV Test Procedures. .................................................................................................... 18Subcooling Adjustment .................................................................................................. 19Troubleshooting. ............................................................................................................ 20
IMPORTANT --- This document contains a wiring diagram and service information. This is customer property and is to remain with this unit. Please return to service information pack upon completion of work.
GAM5-SF-1D 2
PRODUCT SPECIFICATIONSMODEL RATED VOLTS/PH/HZ. RATINGS 1INDOOR COIL — Type Rows — F.P.I. Face Area (sq. ft.) Tube Size (in.) Refrigerant Control Drain Conn. Size (in.) 2DUCT CONNECTIONS INDOOR FAN — Type Diameter-Width (In.) No. Used Drive - No. Speeds CFM vs. in. w.g. No. Motors — H.P. Motor Speed RPM Volts/Ph/HzF.L. Amps FILTERFilter Furnished? Type Recommended No.-Size-Thickness REFRIGERANT Ref. Line Connections Coupling or Conn. Size — in. Gas Coupling or Conn. Size — in. Liq. DIMENSIONS Crated (In.) Uncrated WEIGHTShipping (Lbs.) / Net (Lbs.)
1 These Air Handlers are A.R.I. certified with various Split System Air Conditioners and Heat Pumps (ARI STANDARD 210/240). Refer to the Split System Outdoor Unit Product Data Guides for performance data.
2 3/4" Male Plastic Pipe (Ref.: ASTM 1785-76)
PRODUCT SPECIFICATIONSMODEL RATED VOLTS/PH/HZ. RATINGS 1INDOOR COIL — Type Rows — F.P.I. Face Area (sq. ft.) Tube Size (in.) Refrigerant Control Drain Conn. Size (in.) 2DUCT CONNECTIONS INDOOR FAN — Type Diameter-Width (In.) No. Used Drive - No. Speeds CFM vs. in. w.g. No. Motors — H.P. Motor Speed RPM Volts/Ph/HzF.L. Amps FILTERFilter Furnished? Type Recommended No.-Size-Thickness REFRIGERANT Ref. Line Connections Coupling or Conn. Size — in. Gas Coupling or Conn. Size — in. Liq. DIMENSIONS Crated (In.) Uncrated WEIGHTShipping (Lbs.) / Net (Lbs.)
GAM5A0C60M51SA208-230/1/60
See O.D. SpecificationsPlate Fin
4 - 145.963/8
EEV 3/4 NPT
See Outline DrawingCentrifugal
11 X 101
Direct - 5See Fan Performance Table
1 - 11050
208-230/1/607.6
NoThrowaway
1 - 22 X 20 - 1 in.R-410ABrazed
7/83/8
H x W x D63-1/4 x 27-1/2 x 25-3/4 61-3/4 x 23-1/2 x 21-3/4
180/170
GAM5A0A18M11SA208-230/1/60
See O.D. SpecificationsPlate Fin
3 - 143.673/8
EEV3/4 NPT
See Outline DrawingCentrifugal
11 X 81
Direct - 5See Fan Performance Table
1 - 1/31050
208-230/1/602.8
NoThrowaway
1 - 16 X 20 - 1 in.R-410ABrazed
3/43/8
H x W x D51-3/8 x 20-1/2 x 25-3/449-7/8 x 17-1/2 x 21-3/4
126/120
GAM5A0A24M21SA208-230/1/60
See O.D. SpecificationsPlate Fin
3 - 143.673/8
EEV 3/4 NPT
See Outline DrawingCentrifugal
11 X 8 1
Direct - 5 See Fan Performance Table
1 - 1/31050
208-230/1/602.8
NoThrowaway
1 - 16 X 20 - 1 in.R-410ABrazed
3/43/8
H x W x D51-3/8 x 20-1/2 x 25-3/4 49-7/8 x 17-1/2 x 21-3/4
126/120
GAM5A0B30M21SA208-230/1/60
See O.D. SpecificationsPlate Fin
3 - 144.133/8
EEV 3/4 NPT
See Outline DrawingCentrifugal
11 X 101
Direct - 5See Fan Performance Table
1 - 1/31050
208-230/1/602.8
NoThrowaway
1 - 20 X 20 - 1 in.R-410ABrazed
3/43/8
H x W x D53 x 24-1/4 x 25-3/4
51-1/2 x 21-1/4 x 21-3/4
140/132
GAM5A0B36M31SA208-230/1/60
See O.D. SpecificationsPlate Fin
3 - 145.043/8
EEV 3/4 NPT
See Outline DrawingCentrifugal
11 X 101
Direct - 5See Fan Performance Table
1 - 1/21050
208-230/1/604.1
NoThrowaway
1 - 20 X 20 - 1 in.R-410ABrazed
7/83/8
H x W x D57-1/4 x 24-1/4 x 25-3/4 55-3/4 x 21-1/4 x 21-3/4
150/142
GAM5A0C42M31SA208-230/1/60
See O.D. SpecificationsPlate Fin
4 - 145.043/8
EEV 3/4 NPT
See Outline DrawingCentrifugal
11 X 101
Direct - 5See Fan Performance Table
1 - 1/21050
208-230/1/604.1
NoThrowaway
1 - 22 X 20 - 1 in.R-410ABrazed
7/83/8
H x W x D58-1/2 x 27-1/2 x 25-3/4 56-7/8 x 23-1/2 x 21-3/4
163/153
GAM5A0C48M41SA208-230/1/60
See O.D. SpecificationsPlate Fin
4 - 145.963/8
EEV 3/4 NPT
See Outline DrawingCentrifugal
11 X 101
Direct - 5See Fan Performance Table
1 - 3/41050
208-230/1/606.0
NoThrowaway
1 - 22 X 20 - 1 in.R-410ABrazed
7/83/8
H x W x D63-1/4 x 27-1/2 x 25-3/4 61-3/4 x 23-1/2 x 21-3/4
176/166
3 GAM5-SF-1D
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
AIRFLOW PERFORMANCE
GAM5A0A18M11SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 1081 977 930 862 556 1078 974 927 858 553
0.1 1044 922 850 806 379 1038 916 844 800 373
0.2 995 880 787 702 202 987 871 778 693 193
0.3 956 830 738 621 - 944 819 727 610 -
0.4 914 788 692 562 - 900 774 677 548 -
0.5 872 749 646 502 - 855 732 629 485 -
0.6 838 707 590 445 - 819 687 570 425 -
0.7 802 650 528 389 - 779 628 505 367 -
0.8 755 598 478 327 - 730 573 453 302 -
0.9 708 539 420 - - 680 512 392 - -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. † Factory Setting
GAM5A0A18M11SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without Heat Pump With Heat Pump
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 3 Tap 4
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 3 Tap 4
BAYEAAC10BK1AABAYEAAC10LG1AA
Tap 3 1 Tap 5 1
BAYEAAC10LG3AA Tap 5 Tap 5 2
BAYEABC15BK1AA - -
BAYEABC20BK1AA - -
1 Heater not qualified for downflow installations2 Approved for 240 V only
GAM5-SF-1D 4
AIRFLOW PERFORMANCE
GAM5A0A24M21SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 1081 977 937 928 579 1078 974 933 925 576
0.1 1044 922 868 844 418 1038 916 863 838 412
0.2 995 880 817 777 306 987 871 808 768 298
0.3 956 830 767 729 - 944 819 756 717 -
0.4 914 788 719 682 - 900 774 705 668 -
0.5 872 749 680 635 - 855 732 663 618 -
0.6 838 707 628 577 - 819 687 609 557 -
0.7 802 650 566 515 - 779 628 544 492 -
0.8 755 598 511 467 - 730 573 486 442 -
0.9 708 539 460 407 - 680 512 432 - -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. † Factory Setting
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
GAM5A0A24M21SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without HP With HP
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 3 Tap 4
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 3 Tap 4
BAYEAAC10BK1AA BAYEAAC10LG1AA
Tap 3 1 Tap 5 1
BAYEAAC10LG3AA Tap 5 Tap 5 2
BAYEABC15BK1AA - -
BAYEABC20BK1AA - -
1 Heater not qualified for downflow installations2 Approved for 240 V only
5 GAM5-SF-1D
AIRFLOW PERFORMANCE
GAM5A0B30M21SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 1282 1150 979 856 678 1279 1146 976 853 675
0.1 1238 1094 931 797 482 1232 1088 925 791 476
0.2 1186 1047 863 725 285 1177 1039 854 716 276
0.3 1141 986 803 647 88 1130 975 791 636 77
0.4 1091 935 721 555 - 1076 921 707 540 -
0.5 1033 866 649 461 - 1016 849 632 444 -
0.6 977 799 554 388 - 958 779 534 369 -
0.7 914 732 490 318 - 892 710 468 296 -
0.8 846 646 429 - - 821 621 404 - -
0.9 771 587 376 - - 743 560 348 - -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. † Factory Setting
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
GAM5A0B30M21SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without HP With HP
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 2 Tap 3
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 3 Tap 4
BAYEAAC10BK1AA BAYEAAC10LG1AA
Tap 3 Tap 4
BAYEAAC10LG3AA Tap 3 1 Tap 4 1
BAYEABC15BK1AA Tap 4 Tap 5
BAYEABC15LG3AA Tap 4 Tap 5
BAYEABC20BK1AA - -
BAYEACC25BK1AA - -
1 208 V not approved for upflow installations
GAM5-SF-1D 6
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
AIRFLOW PERFORMANCE
GAM5A0B36M31SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 1438 1387 1197 1013 732 1435 1383 1194 1009 729
0.1 1394 1340 1143 945 552 1388 1334 1137 939 546
0.2 1350 1299 1090 892 413 1341 1291 1082 884 404
0.3 1301 1245 1031 817 305 1289 1233 1019 806 293
0.4 1253 1197 975 751 209 1239 1183 960 737 195
0.5 1205 1151 917 651 - 1188 1134 900 634 -
0.6 1155 1094 837 578 - 1136 1075 817 559 -
0.7 1099 1032 766 499 - 1077 1010 744 476 -
0.8 1039 972 691 453 - 1014 946 666 - -
0.9 964 889 633 409 - 936 861 605 - -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. † Factory Setting
GAM5A0B36M31SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without HP With HP
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 2 Tap 3
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 3 Tap 4
BAYEAAC10BK1AA BAYEAAC10LG1AA
Tap 4 Tap 5
BAYEAAC10LG3AA Tap 4 Tap 5
BAYEABC15BK1AA Tap 4 Tap 5
BAYEABC15LG3AA Tap 4 Tap 5
BAYEABC20BK1AA - -
BAYEACC25BK1AA - -
7 GAM5-SF-1D
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
AIRFLOW PERFORMANCE
GAM5A0C42M31SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 1644 1575 1401 1266 752 1641 1572 1398 1263 749
0.1 1596 1525 1346 1215 665 1590 1519 1340 1209 659
0.2 1550 1480 1300 1157 569 1542 1471 1291 1148 560
0.3 1509 1437 1252 1110 492 1497 1425 1241 1099 480
0.4 1463 1391 1205 1058 384 1449 1377 1191 1043 370
0.5 1420 1345 1151 980 327 1403 1328 1134 963 310
0.6 1376 1301 1085 917 259 1356 1282 1066 898 239
0.7 1332 1251 1020 865 - 1310 1228 998 842 -
0.8 1271 1179 969 813 - 1246 1154 944 788 -
0.9 1199 1119 924 747 - 1171 1091 897 719 -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. † Factory Setting
GAM5A0C42M31SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without HP With HP
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 2 Tap 3
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 2 Tap 3
BAYEAAC10BK1AA BAYEAAC10LG1AA
Tap 2 Tap 3
BAYEAAC10LG3AA Tap 2 Tap 3
BAYEABC15BK1AA Tap 3 Tap 4
BAYEABC15LG3AA Tap 3 Tap 4
BAYEABC20BK1AA - -
BAYEACC25BK1AA - -
GAM5-SF-1D 8
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
AIRFLOW PERFORMANCE
GAM5A0C48M41SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 1913 1770 1694 1593 866 1910 1767 1691 1590 863
0.1 1874 1730 1653 1547 791 1868 1724 1647 1541 785
0.2 1834 1690 1611 1505 699 1825 1681 1602 1496 690
0.3 1791 1646 1567 1456 620 1780 1635 1556 1445 609
0.4 1748 1600 1521 1410 537 1734 1586 1506 1396 522
0.5 1708 1556 1476 1367 453 1691 1539 1459 1350 437
0.6 1668 1516 1436 1326 370 1648 1496 1416 1306 351
0.7 1629 1475 1394 1283 - 1607 1452 1372 1260 -
0.8 1588 1435 1352 1236 - 1563 1410 1327 1211 -
0.9 1541 1390 1304 1183 - 1513 1362 1276 1156 -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. † Factory Setting
GAM5A0C48M41SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without HP With HP
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 2 Tap 3
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 2 Tap 3
BAYEAAC10BK1AA BAYEAAC10LG1AA
Tap 2 Tap 3
BAYEAAC10LG3AA Tap 2 Tap 3
BAYEABC15BK1AA Tap 3 Tap 4
BAYEABC15LG3AA Tap 3 Tap 4
BAYEABC20BK1AA Tap 3 Tap 4
BAYEACC25BK1AA Tap 4 Tap 5
9 GAM5-SF-1D
Note: Heating and cooling speeds are the same, factory set at Speed Tap #4.
Note: A “G” only signal from the comfort control will run the blower at a lower speed, factory set at Speed Tap #1. See the Sequence of Operation for additional information.
AIRFLOW PERFORMANCE
GAM5A0C60M51SA
EXTERNAL STATIC (in w.g)
AIRFLOW (CFM)
Speed Taps - 230 VOLTS Speed Taps - 208 VOLTS
5 4 † 3 2 1 5 4 † 3 2 1
0 2327 2020 1914 1819 1125 2324 2017 1910 1816 1122
0.1 2285 1980 1873 1780 990 2279 1974 1867 1774 984
0.2 2237 1944 1835 1740 831 2228 1935 1826 1731 822
0.3 2182 1908 1800 1705 600 2171 1896 1789 1693 589
0.4 2125 1869 1756 1659 331 2111 1854 1742 1645 317
0.5 2062 1830 1717 1620 249 2045 1813 1700 1603 232
0.6 1995 1747 1664 1575 187 1975 1727 1644 1555 168
0.7 1922 1707 1629 1540 - 1899 1685 1607 1518 -
0.8 1844 1673 1594 1502 - 1819 1648 1569 1477 -
0.9 1761 1629 1553 1464 - 1733 1601 1525 1436 -
NOTES:1. Values are with wet coil and without filters.2. Contact your particular filter manufacturer for pressure drop data. 3. Electric heater pressure drop is negligible and is included within the airflow data.4. Tap 1 is an continuous fan speed tap.5. If the air handler is applied in downflow or horizontal configurations, the airflow should not exceed 2000 CFM. Airflow above 2000 CFM could result in water blow-off. 6. † Factory Setting
GAM5A0C60M51SA MINIMUM HEATER AIRFLOW CFM
Heater Minimum Air Speed Tap
Without HP With HP
BAYEAAC05BK1AA BAYEAAC05LG1AA
Tap 2 Tap 3
BAYEAAC08BK1AA BAYEAAC08LG1AA
Tap 2 Tap 3
BAYEAAC10BK1AA BAYEAAC10LG1AA
Tap 2 Tap 3
BAYEAAC10LG3AA Tap 2 Tap 3
BAYEABC15BK1AA Tap 3 Tap 4
BAYEABC15LG3AA Tap 3 Tap 4
BAYEABC20BK1AA Tap 3 Tap 4
BAYEACC25BK1AA Tap 4 Tap 5 12
1 If the air handler is applied in downflow or horizontal configurations, the airflow should not exceed 2000 CFM. Airflow above 2000 CFM could result in water blow-off. 2 Tap 5 can be used but only when the external static pressure is .6" or above.
GAM5-SF-1D 10
WIRING DATA
GAM5A0A18M11SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 2.8* 4 15 - - 2.8* 4 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 29 30 3.60 12300 17.3 25 25
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 44 45 5.76 19700 27.7 38 40
BAYEAAC10BK1A1BAYEAAC10LG1A1
1 9.60 32800 40.0 54 60 7.20 24600 34.6 47 50
BAYEAAC10LG3A2 1-3 PH 9.60 32800 23.1 32 35 7.20 24600 20.0 28 30
Note: * Motor Amps1 Heater not qualified for downflow installations2 Approved for 240 V only with Heat Pump
WIRING DATA
GAM5A0A24M21SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 2.8* 4 15 - - 2.8* 4 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 29 30 3.60 12300 17.3 25 25
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 44 45 5.76 19700 27.7 38 40
BAYEAAC10BK1A1BAYEAAC10LG1A1
1 9.60 32800 40.0 54 60 7.20 24600 34.6 47 50
BAYEAAC10LG3A2 1-3 PH 9.60 32800 23.1 32 35 7.20 24600 20.0 28 30
Note: * Motor Amps1 Heater not qualified for downflow installations2 Approved for 240 V only with Heat Pump
11 GAM5-SF-1D
WIRING DATA
GAM5A0B30M21SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 2.8* 4 15 - - 2.8* 4 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 29 30 3.60 12300 17.3 25 25
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 44 45 5.76 19700 27.7 38 40
BAYEAAC10BK1ABAYEAAC10LG1A
1 9.60 32800 40.0 54 60 7.20 24600 34.6 47 50
BAYEAAC10LG3A 1-3 PH 9.60 32800 23.1 32 35 7.20 24600 20.0 28 30
BAYEABC15LG3A 1 1-3 PH 14.40 49200 34.6 46 50 10.80 36900 30.0 41 45
BAYEABC15BK1A - Circuit 122
9.60 32800 40 54 60 7.20 24600 34.6 47 50
BAYEABC15BK1A - Circuit 2 4.80 16400 20 25 25 3.60 12300 17.3 22 25
Note: * Motor Amps1 208 V not approved for upflow installations2MCA and MOP for circuit 1 contains the motor amps
WIRING DATA
GAM5A0B36M31SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 4.1* 5 15 - - 4.1* 5 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 30 30 3.60 12300 17.3 27 30
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 45 45 5.76 19700 27.7 40 40
BAYEAAC10BK1ABAYEAAC10LG1A
1 9.60 32800 40.0 55 60 7.20 24600 34.6 48 50
BAYEAAC10LG3A 1-3 PH 9.60 32800 23.1 33 35 7.20 24600 20.0 30 30
BAYEABC15LG3A 1-3 PH 14.40 49200 34.6 48 50 10.80 36900 30.0 42 45
BAYEABC15BK1A - Circuit 112
9.60 32800 40 55 60 7.20 24600 34.6 48 50
BAYEABC15BK1A - Circuit 2 4.80 16400 20 25 25 3.60 12300 17.3 22 25
Note: * Motor Amps1MCA and MOP for circuit 1 contains the motor amps
GAM5-SF-1D 12
WIRING DATA
GAM5A0C48M41SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 6.0* 8 15 - - 6.0* 8 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 33 35 3.60 12300 17.3 29 30
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 48 50 5.76 19700 27.7 42 45
BAYEAAC10BK1ABAYEAAC10LG1A
1 9.60 32800 40.0 58 60 7.20 24600 34.6 51 60
BAYEAAC10LG3A 1-3 PH 9.60 32800 23.1 36 40 7.20 24600 20.0 32 35
BAYEABC15LG3A 1-3 PH 14.40 49200 34.6 50 50 10.80 36900 30.0 44 45
BAYEABC15BK1A - Circuit 112
9.60 32800 40 58 60 7.20 24600 34.6 51 60
BAYEABC15BK1A - Circuit 2 4.80 16400 20 25 25 3.60 12300 17.3 22 25
BAYEABC20BK1A - Circuit 112
9.60 32800 40 58 60 7.20 24600 34.6 51 60
BAYEABC20BK1A - Circuit 2 9.60 32800 40 50 50 7.20 24600 34.6 43 45
BAYEACC25BK1A - Circuit 11
3
9.60 32800 40 58 60 7.20 24600 34.6 51 60
BAYEACC25BK1A - Circuit 2 9.60 32800 40 50 50 7.20 24600 34.6 43 45
BAYEACC25BK1A - Circuit 3 4.80 16400 20 25 25 3.60 12300 17.3 22 25
Note: * Motor Amps1MCA and MOP for circuit 1 contains the motor amps
WIRING DATA
GAM5A0C42M31SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 4.1* 5 15 - - 4.1* 5 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 30 30 3.60 12300 17.3 27 30
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 45 45 5.76 19700 27.7 40 40
BAYEAAC10BK1ABAYEAAC10LG1A
1 9.60 32800 40.0 55 60 7.20 24600 34.6 48 50
BAYEAAC10LG3A 1-3 PH 9.60 32800 23.1 33 35 7.20 24600 20.0 30 30
BAYEABC15LG3A 1-3 PH 14.40 49200 34.6 48 50 10.80 36900 30.0 42 45
BAYEABC15BK1A - Circuit 112
9.60 32800 40 55 60 7.20 24600 34.6 48 50
BAYEABC15BK1A - Circuit 2 4.80 16400 20 25 25 3.60 12300 17.3 22 25
Note: * Motor Amps1MCA and MOP for circuit 1 contains the motor amps
13 GAM5-SF-1D
WIRING DATA
GAM5A0C60M51SA
Heater Model
No.
No. of
Circuits
240 VOLT 208 VOLT
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
Protection
CapacityHeater Amps
per Circuit
Minimum Circuit
Ampacity
Maximum Overload
ProtectionkW BTUH kW BTUH
No Heater - - - 7.6* 10 15 - - 7.6* 10 15
BAYEAAC05BK1ABAYEAAC05LG1A
1 4.80 16400 20.0 35 35 3.60 12300 17.3 31 35
BAYEAAC08BK1ABAYEAAC08LG1A
1 7.68 26200 32.0 50 50 5.76 19700 27.7 44 45
BAYEAAC10BK1ABAYEAAC10LG1A
1 9.60 32800 40.0 60 60 7.20 24600 34.6 53 60
BAYEAAC10LG3A 1-3 PH 9.60 32800 23.1 37 40 7.20 24600 20.0 34 35
BAYEABC15LG3A 1-3 PH 14.40 49200 34.6 52 60 10.80 36900 30.0 46 50
BAYEABC15BK1A - Circuit 112
9.60 32800 40 60 60 7.20 24600 34.6 53 60
BAYEABC15BK1A - Circuit 2 4.80 16400 20 25 25 3.60 12300 17.3 22 25
BAYEABC20BK1A - Circuit 112
9.60 32800 40 60 60 7.20 24600 34.6 53 60
BAYEABC20BK1A - Circuit 2 9.60 32800 40 50 50 7.20 24600 34.6 43 45
BAYEACC25BK1A23- Circuit 11
3
9.60 32800 40 60 60 7.20 24600 34.6 53 60
BAYEACC25BK1A - Circuit 2 9.60 32800 40 50 50 7.20 24600 34.6 43 45
BAYEACC25BK1A - Circuit 3 4.80 16400 20 25 25 3.60 12300 17.3 22 25
Note: * Motor Amps1MCA and MOP for circuit 1 contains the motor amps2 If the air handler is applied in downflow or horizontal configurations, the airflow should not exceed 2000 CFM. Airflow above 2000 CFM could result in water blow-off. 3 Tap 5 can be used but only when the external static pressure is .6" or above.
DISTANCE FROM BELLY BAND TO SHAFT FACE OF MOTOR FOR MINIMUM VIBRATION
WHEEL
BLOWER HOUSING
BELLY BAND
MOTOR
A
A is determined per chart
Wheel is centered inBlower Housing
MODEL DIM "A"GAM5A0A18M11SA 1-1/8
GAM5A0A24M21SA 1-1/8
GAM5A0B30M21SA 1-1/8
GAM5A0B36M31SA 1-1/2
GAM5A0C42M31SA 1-1/2
GAM5A0C48M41SA 2-1/4
GAM5A0C60M51SA 2-1/4
GAM5-SF-1D 14
WIR
ING
DIA
GR
AM
FO
R G
AM
5
15 GAM5-SF-1D
SEQUENCE OF OPERATION FOR GAM5 AIR HANDLERS
GAM5 Sequence of Operation:
Abbreviations• TDR = Time Delay Relay
• EVC = Expansion Valve Control
• EEV = Electronic Expansion Valve
• YI = Y signal into the EVC from the comfort control
• YO = Y signal out of the EVC from the comfort control
• OEM = Original Equipment Manufacturer
See unit, electric heat, and field wiring diagrams for addi-tional information.
Continuous Fan
IMPORTANT: If the indoor air exceeds 60% relative humidity or simply feels uncomfortably humid, it is recommended that the indoor fan only be used in the AUTO mode.1. R-G contacts close on comfort control sending 24VAC to
the G terminal on the fan TDR
2. Low speed contacts close in the TDR and send 24VAC on terminal labeled “LOW’.
3. Blower motor will now run on low speed. Speed is field selectable.
Heat Pump OD (cooling)1. R-Y contacts close on the comfort control sending 24VAC
to Y terminal on TDR and the YI (Y In) terminal on the EVC.
2. R-G contacts also close on the comfort control sending 24VAC to the G terminal on the TDR. (The combination of 24VAC on terminals Y and G on the TDR will close the high speed contacts of the TDR)
3. R-O contacts on the comfort control close sending 24VAC to the O terminal on the EVC. This signals the EVC that the unit is in cooling mode. The EVC will control the EEV to maintain the correct superheat.
4. Normally closed contacts on the EVC will pass 24VAC to the YO terminal providing power to the outdoor unit control circuit
5. The blower motor will now run on high speed. Speed is field selectable.
Heat Pump OD (heating)1. R-Y contacts close on the comfort control sending 24VAC
to Y terminal on TDR and the YI (Y In) terminal on the EVC
2. R-G contacts also close on the comfort control sending 24VAC to the G terminal on the TDR. (The combination of 24VAC on terminals Y and G on the TDR will close the high speed contacts of the TDR) The blower motor will now run on high speed.
3. The combination of 24VAC on the Y terminal and zero volts on the O terminal signals the EVC that the unit is in heat-pump heating mode.
4. Normally closed contacts on the EVC will pass 24VAC to the YO terminal providing power to the outdoor unit control circuit
5. The blower motor will now run on high speed
Cooling OD1. R-Y contacts close on the comfort control sending 24VAC
to Y terminal on TDR and the YI (Y In) terminal on the EVC
2. R-G contacts also close on the comfort control sending 24VAC to the G terminal on the TDR. (The combination of 24VAC on terminals Y and G on the TDR will close the high speed contacts of the TDR)
3. R-O jumper on the TDR sends 24VAC to the O terminal on the EVC. This signals the EVC that the unit is in cool-ing mode. The EVC will control the EEV to maintain the correct superheat.
4. Normally closed contacts on the EVC will pass 24VAC to the YO terminal providing power to the outdoor unit control circuit
5. The blower motor will now run on high speed
Electric Heating1. R-W contacts close on the comfort control sending 24VAC
to the W terminal on the TDR. 24VAC is also sent to EHC to energize the heat relay.
2. R-G contacts close on the comfort control sending 24VAC to the G terminal on the TDR. (The combination of 24VAC on terminals W and G on the TDR will close the high speed contacts of the TDR)
3. WJ contacts on the TDR close providing an interlock circuit to allow the electric heat relays to operate.
The comfort control must be setup to control R-G contacts with a call for electric heat. This closes the interlock circuit and allows the heat relay circuit to be energized.
Optional Condensate Switch1. An optional OEM condensate switch can be installed
within the unit. This switch is only available through the National Distribution Center or Global Parts.
2. Switch contacts are normally open and close when water level rises. The closed switch will interrupt current flow to the YO terminal and de-energize the OD unit.
3. Switch is only operational during cooling mode. Conden-sate overflow is not operational during heating or defrost modes.
Standard aftermarket condensate switches cannot be used within the unit but can be installed exterior of the unit. The 3rd party condensate overflow switch must be wired between Y of the thermostat and YI of the EEV control.
GAM5-SF-1D 16
DIP SWITCH SETTING - Refrigeration Switch
Note: Ensure that the system refrigerant is set to match your application, either R-410A or R-22. using the Refrigerant Switch located on the Ex-pansion Valve Control board (EVC) in the Control Pocket.
Factory default is R-410A.
Note: A “power cycle” is needed for the EVC to recognize the change.
SW1410 22
123
SW1410 22
123
SW1410 22
Wire Ties
Freeze Protection1. The EVC control has the ability to sense when the coil is
beginning to ice. When this event occurs, the contacts to the YO circuit will open and de-energize the OD unit.
2. The indoor blower motor will continue to run to aid in de-frosting the coil. After the coil has sufficiently defrosted, the YO contacts will close and cooling operation will begin again.
Fan Off Delay1. The TDR has a dip switch that can enable a 90 second
fan off delay anytime a fan call is made from the comfort control. The factory default is ON. To disable the delay, turn power off to the unit, turn the dip switch to the off position and turn power back on to the unit.
17 GAM5-SF-1D
DS1 DS2 DS3
ON OFF ON
GAM5A0B30M21SAOFF
GAM5A0B36M31SA GAM5A0C42M31SA
GAM5A0C60M51SA
SW2 Switch Settings (Configuration)
OFF OFF ON GAM5A0C48M41SA
ON ON
Model Number
OFF ON OFFGAM5A0A24M21SAGAM5A0A18M11SA
CONFIGURATION DIP SWITCH SETTINGS
SW1410 22
123
SW1410 22
123
DS1DS2DS3
EVC FAULT CODES
EVC STATUS
Flash1346
NOTE: Status LED is for determining EVC control state only. Auxiliary heat status is not reported.
EVC STATUS LED (Heat Pump Systems)
Cool mode / No active callActive call for cooling or defrostHeat mode selected or Thermostat system switch off Active call for heating
EVC STATUS LED (Non Heat Pump Systems)Flash
1 Cool mode / No active call 3 Active call for cooling
LED ColorEVC
Fault LED Description Possible CausesOFF Standby
1 Stepper Motor coil has an open circuit or intermittent short Faulty EEV motor / wiring harness
2 Control has detected an internal failureVerify EEV motor resistance. EEV motor drive, motor feedback, or 12v failure. Verify EEV motor resistance
3Evaporator Temperature Sensor (ET) input out of range (Verify resistance, 5VDC output from control) (1) Sensor open / shorted, unplugged, wiring harness problem
4Gas Temperature Sensor (GT) input out of range (Verify resistance, 5VDC output from control) (1) Sensor open / shorted, unplugged, wiring harness problem
5 Stepper Motor Coil is shorted (2) Faulty EEV motor / wiring harness6 Valve is not responding to a change in position Possible stuck valve, ET/GT sensor calibration
7 High superheatSystem low on charge, liquid line restriction, ET/GT sensor calibration
10 Low superheat (3)Stuck valve, ET/GT sensor calibration, restricted distributor line that ET is connected to, check valve leaking
11 Internal condensate drain switch activated for 100 seconds (2) Condensate line clogged
13 Indoor frost protection activated (4)Low / incorrect airflow, low refirgerant charge, ET sensor calibration. Normal for low ambient cooling
RED
1) EEV will try to go to a safe position, cooling attempt allowed) C ONOTES: 2) EVC disables YO
3) Cooling attempt allowed, 5 consecutive Y calls with same condition disables YO4) EVC disables YO for 5 minutes NOTE: Faults 6, 7, & 10 may require jumper from "Test - Close" for 10 seconds to clear fault LED
GAM5-SF-1D 18
THERMAL RESISTANCE AND VOLTAGE TABLE
R71
C20
R66
D6 C6
D7
D4
D18
R74
R58
R23
C35
R61
R79
C31
R31
C22
D17
D26
R75
R76
D3
R81
D24
C18
R56
R32
X1
R47
R28
Q8
Q6
Q5
R7
R86
D14
R46
D29
D11
Q7
C8
C27
D21
R53R55
R62C19R63
R60C26
SW1
R33
R1
D19
R18
C34
L4 C14
R57
R54
R4
D2
D9
C38D10
C23
R27
R20R19
R14D5
R3D1
J4 R70
C28D22
R51
R64
R52
C24
C25
D23
D15
D28
D16
D30J7
C37
MH4
D25
R80
R82 C
17
C15
U4
R41
R8
Q9
R39R45
C32
R9
R11 R10
R48R2
R84
R38
D13
R49
Q10
R13R24
C5
C2
R85
R34
R35
R6
R16
R37
R21
R12
D12
R22
R26
D8
C29
C36
D20
R15
R5R40
J3
J1
D27
SW2
MH1C11J5
K1
R36
U1
1-
U2 C3L2
J6R17R25
C33R77
C13 R73C30
R59C16
R42L1
C1R43
C9
R29
C21
J2
R69L3
C12
C7
R72
R78
Q4
R83
R44
Q2
Q1+
C10
MH3
R30
MOV1
MH2
Q3
+
C4
TESTCLOSE
321
410
FAULT
3
12
22
PGCVSS
VDD
+12V
OPEN
STATUS
-+
O B YO R
GND
OFF ON
CLRPGD
+VDD
OFF ON
Y1
P/N LABELTRANE U.S. INC.
J2 EXPANSION VALVE CONTROL BOARD (EVC)
J7
J4J3
J6
J1
SW1
SW2
STATUS LED
FAULT LED
To EEV Stator
To Internal Condensate Switch(Optional)
Liteport
ConfigurationSee Table
R410A / R22
OPENTESTCLOSE
GT Sensor
See Table
ET Sensor
TEMPF
TEMPC
THERMISTORRESISTANCE
(OHMS) *
Volts DC at plug J3EVAP TEMP (ET) - Orange to OrangeGAS TEMP (GT) - Black to Black
TEMPF
TEMPC
THERMISTORRESISTANCE
(OHMS) *
Volts DC at plug J3EVAP TEMP (ET) - Orange to OrangeGAS TEMP (GT) - Black to Black
20 ‐6.7 45076 3.20 72 22.2 11024 1.5421 ‐6.1 43764 3.17 74 23.3 10492 1.4922 ‐5.6 42494 3.14 76 24.4 9990 1.4423 ‐5.0 41266 3.10 78 25.6 9515 1.3924 ‐4.4 40077 3.07 80 26.7 9065 1.3425 ‐3.9 38927 3.04 82 27.8 8639 1.2926 ‐3.3 37813 3.00 84 28.9 8236 1.2527 ‐2.8 36736 2.97 86 30.0 7855 1.2028 ‐2.2 35692 2.93 88 31.1 7493 1.1629 ‐1.7 34681 2.90 90 32.2 7150 1.1230 ‐1.1 33703 2.86 92 33.3 6825 1.0831 ‐0.6 32755 2.83 94 34.4 6516 1.0432 0.0 31838 2.80 96 35.6 6224 1.0133 0.6 30949 2.76 98 36.7 5946 0.9734 1.1 30087 2.73 100 37.8 5682 0.9335 1.7 29253 2.69 102 38.9 5432 0.9036 2.2 28445 2.66 104 40.0 5194 0.8737 2.8 27661 2.62 106 41.1 4968 0.8438 3.3 26902 2.59 108 42.2 4753 0.8139 3.9 26166 2.56 110 43.3 4548 0.7840 4.4 25452 2.52 112 44.4 4354 0.7541 5.0 24761 2.49 114 45.6 4169 0.7242 5.6 24090 2.45 116 46.7 3992 0.7043 6.1 23440 2.42 118 47.8 3825 0.6744 6.7 22810 2.39 120 48.9 3665 0.6545 7.2 22198 2.35 122 50.0 3513 0.6246 7.8 21605 2.32 124 51.1 3368 0.6047 8.3 21030 2.29 126 52.2 3230 0.5848 8.9 20472 2.25 128 53.3 3098 0.5649 9.4 19931 2.22 130 54.4 2972 0.5450 10.0 19405 2.19 132 55.6 2853 0.5251 10.6 18896 2.16 134 56.7 2738 0.5052 11.1 18401 2.12 136 57.8 2629 0.4853 11.7 17921 2.09 138 58.9 2525 0.4654 12.2 17455 2.06 140 60.0 2425 0.4555 12.8 17002 2.03 142 61.1 2330 0.4356 13.3 16563 2.00 144 62.2 2239 0.4257 13.9 16137 1.97 146 63.3 2153 0.4058 14.4 15723 1.94 148 64.4 2070 0.3959 15.0 15320 1.91 150 65.6 1990 0.3760 15.6 14930 1.8861 16.1 14550 1.8562 16.7 14182 1.82 * Values should be within +/‐ 5%63 17.2 13824 1.7964 17.8 13476 1.7665 18.3 13138 1.7366 18.9 12810 1.7067 19.4 12491 1.6768 20.0 12181 1.6569 20.6 11879 1.6270 21.1 11586 1.59
19 GAM5-SF-1D
Evaporator Temperature Sensor (ET) - located on 3/8" Aluminum distributor tube (orange wires)
Gas Temperature Sensor (GT) - located on copper section of manifold (black wires)
Sensor Locations
EEV Stepper Motor
Stepper Motor Tables - For use with Low and High Superheat Troubleshooting
FIG 1
5GRAY (common)
4BLACK
3YELLOW
2RED
1ORANGE
Table 2 - For use with FIG 2
Common Terminal
to Terminal Measurement
Brown Blue 46 ohms
Brown Yellow 46 ohms
Red Orange 46 ohms
Red White 46 ohms
Table 1 - For use with FIG 1
Common Terminal
to Terminal Measurement
Gray Orange 46 ohms
Gray Red 46 ohms
Gray Yellow 46 ohms
Gray Black 46 ohms
Brown (common) to Blue or Yellow should measure 46 ohmsRed (common) to Orange or White should measure 46 ohms
5 BROWN (common)
8 RED (common)
4BLUE
3ORANGE
2YELLOW
1WHITE
FIG 2
GAM5-SF-1D 20
SUBCOOLING ADJUSTMENT
The following combinations should be charged to 8 de-grees sub-cooling to maintain ratings.
Indoor Unit Model No. Outdoor Unit Model No.
GAM5A0A18M11SA 4A6B4018E14A6H5018E1
GAM5A0A24M21SA 4A6B4024E14A6H5024E1
GAM5A0B30M21SA 4A6B4030E14A6H5030E1
GAM5A0B36M31SA 4A6B4036E14A6H5036E1
GAM5A0C42M31SA 4A6B4042E14A6H5042E1
GAM5A0C48M41SA 4A6B4048E14A6H5048E14A6B4049E14A6H5049E1
GAM5A0C60M51SA 4A6B4060E14A6H5060E14A6B4061E14A6H5061E1
All other matches must be charged per the nameplate charging instructions.
The following combinations should be charged to 8 de-grees sub-cooling to maintain ratings.
Indoor Unit Model No. Outdoor Unit Model No.
GAM5A0A18M11SA 4TWB4018E14TWR5018E1
GAM5A0A24M21SA 4TWB4024E14TWR5024E1
GAM5A0B30M21SA 4TWB4030E14TWR5030E1
GAM5A0B36M31SA 4TWB4036E14TWR5036E1
GAM5A0C42M31SA 4TWB4042E14TWR5042E1
GAM5A0C48M41SA 4TWB4048E14TWR5048E14TWB4049E14TWR5049E14TWX5049E1
GAM5A0C60M51SA 4TWB4060E14TWR5060E14TWB4061E14TWR5061E14TWX5061E1
All other matches must be charged per the nameplate charging instructions.
Electronic Expansion Valve Test
Note: Close Valve and Open Valve Tests are active in any mode of operation
Test Pins: OPEN, CLOSE, TEST (See J4 on EVC Board)
Close Valve Test - Touch CLOSE pin to TEST pin.
EEV drives closed (5 seconds max) and stays closed for 1.5 minutes (90 seconds).
1) Status LED will be flashing. 2) Gauges should indicate suction pressure dropping.
• Valve is working. • LPCO may trip.
Note: The Close Valve Test will exit after 1.5 minutes (90 seconds) and will not reinitiate (requires a break and make to initialize). To clear faults stored in memory, apply a jumper between Close and Test pins for 10 seconds.
Open Valve Test - Touch OPEN pin to TEST pin.
EEV drives open (5 sec max) and stays open for 30 seconds.
1) Status LED will be flashing. 2) Temperature probe should indicate superheat falling.
• Valve is working.
Note: If jumper is left on pins, the OPEN VALVE TEST will be cleared after 30 seconds and will not reinitiate (requires a break and make to reinitialize).
Exit Test Mode - The Open Valve Test or Closed Valve Test can be cancelled by jumping to the opposite mode Test pin. The system will return to normal super heat control.
21 GAM5-SF-1D
GAM5-SF-1D 22
HIGH SUPERHEAT
Superheat above 30F at OD unitStart Here
Is subcooling at the outdoor unit
between 8-12F?
Verify line set is properly sized for
applicationNO
Verify that OD condenser coils
are clean
Add refrigerant until subcooling reaches ~10F
Recheck superheat
Is liquid line temperature at the indoor unit within 8F of outdoor liquid line
temperature?
Verify line set size and charge is
correctNO
Perform “OPEN VALVE” test at
EVC.
YES
Does superheat drop
below 30F?
Is indoor temperature
>85F?NO
Perform “CLOSE VALVE” test at
EVC.YESDoes suction
pressure go down?
EEV and coil are working. Replace EVC
Check operation
YES
YESPerform
temperature sensor check
YES
NO
The system is running at maximum capacity and this
may be causing the high superheat. Wait until the
indoor temperature is less than 80F and check the
superheat again.
Replace EEV. Check operation
Ohm coil per Stepper Motor Tables
NO
Is ohm reading correct?
YES
Replace coil NO
23 GAM5-SF-1D
GAM5-SF-1D 24
25 GAM5-SF-1D
GAM5-SF-1D 26
Constant Torque Motor Troubleshooting
Does blower wheel turn
freely?
Turn off power. Check set screw
position and motor bearings. Correct
or replace as needed.
Check operation
NO
Is ~230 VAC measured between terminals “L” &
“N” on the motor? See Figure 1
YES
High voltage should always be present.
Correct high voltage wiring.
NO
Is ~24 VAC measured between the wire connected to “C” on the motor and the wire connected to terminal 1
thru 5 on the motor? See Figure 2
YES
YES
Replace motor.Check operation
Motor does not run
Turn comfort to “FAN ON” mode
Is 24VAC measured from terminal 8(G) to terminal 9(BL) on the
fan control?
NO
Correct wiring. Check operation
NO
Replace fan control. Check operation
YES
This terminal block is located on the motor. Look for labels below
on the motor side of the connection.
FIGURE 1
FIGURE 2
NOTE: The fan control has a 90 second “OFF” delay that is factory set on. To turn this
feature off, turn dip switch to 0 and cycle power to the unit.
27 GAM5-SF-1D
Trane6200 Troup HighwayTyler, TX 75707www.trane.com
For more information contactyour local dealer (distributor)
10/12
The manufacturer has a policy of continuous product and product data improvement, and it reserves the right to change design and specifications without notice.