Bryant Single Package Gas Heating Electric Cooling Units 588A Users Manual
588A to the manual 12f5562c-4eff-4259-8133-9d7867e60ebe
2015-02-02
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installation, start-up and service instructions SINGLE PACKAGE GAS HEATING/ ELECTRIC COOLING UNITS Cancels: II 588A-18-8 588A Sizes 018-060 589A Sizes 024-060 II 588A-18-9 9/15/98 CONTENTS Page SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . . . . . . . 1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 RECEIVING AND INSTALLATION . . . . . . . . . . . . . . . . . 10-22 I. Step 1 — Check Equipment . . . . . . . . . . . . . . . . . 10 II. Step 2 — Provide Unit Support . . . . . . . . . . . . . . 10 III. Step 3 — Field Fabricate Ductwork . . . . . . . . . . . 10 IV. Step 4 — Provide Clearances . . . . . . . . . . . . . . . . 10 V. Step 5 — Rig and Place Unit . . . . . . . . . . . . . . . . 10 VI. Step 6 — Connect Condensate Drain . . . . . . . . . 13 VII. Step 7 — Install Flue Hood . . . . . . . . . . . . . . . . . . 13 VIII. Step 8 — Install Gas Piping . . . . . . . . . . . . . . . . . 13 IX. Step 9 — Install Duct Connections . . . . . . . . . . . 16 X. Step 10 — Install Electrical Connections . . . . . . 18 PRE-START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22,23 START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23-44 I. Check for Refrigerant Leaks . . . . . . . . . . . . . . . . . 23 II. Start Up Heating Section and Make Adjustments . . . . . . . . . . . . . . . . . . . . . . . . . 23 III. Start Up Cooling Section and Make Adjustments . . . . . . . . . . . . . . . . . . . . . . . . . 26 MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44-47 I. Air Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 II. Unit Top Removal . . . . . . . . . . . . . . . . . . . . . . . . . . 45 III. Evaporator Blower and Motor . . . . . . . . . . . . . . . . 45 IV. Flue Gas Passageways . . . . . . . . . . . . . . . . . . . . . 45 V. Combustion-Air Blower . . . . . . . . . . . . . . . . . . . . . 46 VI. Limit Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 VII. Burner Ignition . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 VIII. Main Burners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 IX. Condenser Coil, Evaporator Coil, and Condensate Drain Pan . . . . . . . . . . . . . . . . . . . . . . 47 X. Condenser Fan . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 XI. Electrical Controls and Wiring . . . . . . . . . . . . . . . 47 XII. Refrigerant Circuit . . . . . . . . . . . . . . . . . . . . . . . . . 47 XIII. Gas Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 XIV. Evaporator Airflow . . . . . . . . . . . . . . . . . . . . . . . . . 47 XV. Metering Device — Acutrol™ Device . . . . . . . . . . 47 XVI. Liquid Line Strainer . . . . . . . . . . . . . . . . . . . . . . . . 47 TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . 48-50 START-UP CHECKLIST . . . . . . . . . . . . . . . . . . . . . . . . . . CL-1 NOTE TO INSTALLER — Before the installation, READ THESE INSTRUCTIONS CAREFULLY AND COMPLETELY. Also, make sure the User’s Manual and Replacement Guide are left with the unit after installation. This unit is NOT to be used for temporary heating of buildings or structures under construction. SAFETY CONSIDERATIONS Installation and servicing of air-conditioning equipment can be hazardous due to system pressure and electrical components. Only trained and qualified personnel should install, repair, or service air-conditioning equipment. Fig. 1 — Unit 589A Shown With Optional Base Rail Untrained personnel can perform basic maintenance functions of cleaning coils and filters. All other operations should be performed by trained service personnel. When working on air-conditioning equipment, observe precautions in the literature, tags and labels attached to the unit, and other safety precautions that may apply. Follow all safety codes. Wear safety glasses and work gloves. Use quenching cloth for unbrazing operations. Have fire extinguisher available for all brazing operations. WARNING: Improper installation, adjustment, alteration, service, maintenance, or use can cause carbon monoxide poisoning, fire, or an explosion which can result in personal injury or unit damage. Consult a qualified installer, service agency, or gas supplier for information or assistance. The qualified installer or agency must use only factory-authorized kits or accessories when modifying this product. WARNING: Before performing service or maintenance operations on unit, turn off gas supply then unit main power switch. Electrical shock could cause personal injury. GENERAL The 588A, 589A units (see Fig. 1) are fully self-contained, combination Category I gas heating/electric cooling units designed for outdoor installation. See Fig. 2-9 (pages 2-9) for unit dimensions. All unit sizes have discharge openings for both horizontal and downflow configurations, and are factory shipped with all 4 duct openings covered. Units may be installed either on a rooftop or a ground-level cement slab. See Fig. 10 for roof curb dimensions. REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) UNIT 588A ELECTRICAL CHARACTERISTICS 018040 024040 024060 030040 030060/080 036060/080 036100/120 042060/080 042100/120 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60, 208/230-3-60 208/230-1-60, 208/230-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 UNIT 588A 018040 024040 024060 030040 030060/080 036060/080 036100/120 042060/080 042100/120 F in./mm G in./mm 169⁄16/420.7 1815⁄16/481.0 209⁄16/522.3 2215⁄16/582.6 CENTER X 25.07/637 27.07/688 26.98/685 26.71/678 27.15/689 27.50/698 27.40/696 27.01/686 26.94/684 UNIT WEIGHT lb 272 303 315 320 332 336 348 375 387 kg 123 138 143 145 149 153 158 170 176 OF GRAVITY in./mm Y Z 20.59/523 23.35/593 23.27/591 23.46/596 10.85/276 22.36/568 22.48/571 22.44/570 22.44/570 12.7/321 22.44/570 A 81/37 97/44 100/45 100/45 103/46 86/39 89/40 95/43 98/45 CORNER WEIGHT (lb/kg) B C 62/28 76/35 43/20 123/56 46/21 126/57 47/21 126/57 50/22 129/58 76/35 111/50 79/36 114/52 86/39 119/54 89/40 122/55 LEGEND CG — Center of Gravity COND — Condenser LV — Low Voltage MAT’L — Material NEC — National Electrical Code REQ’D — Required NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 2 — 588A018-042 Without Base Rail, Unit Dimensions —2— D 53/24 40/18 43/20 47/21 50/23 63/29 66/30 75/34 78/35 UNIT HEIGHT (in./mm) E 24.1/613 24.1/613 24.1/613 24.1/613 24.1/613 24.1/613 24.1/613 28.1/714 28.1/714 REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) UNIT 588A ELECTRICAL CHARACTERISTICS 018040 024040 024060 030040 030060/080 036060/080 036100/120 042060/080 042100/120 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60, 208/230-3-60 208/230-1-60, 208/230-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 UNIT 588A 018040 024040 024060 030040 030060/080 036060/080 036100/120 042060/080 042100/120 F in./mm G in./mm 197⁄8/504.8 221⁄4/565.4 237⁄8/606.4 261⁄4/666.8 UNIT WEIGHT lb 296 327 339 344 356 360 372 399 411 kg 135 149 155 157 162 164 169 181 187 CENTER OF GRAVITY in./mm X Y Z 25.04/636 22.72/577 26.90/683.3 20.17/512.3 26.82/681.2 20.22/513.6 26.57/674.9 20.1 /509.3 13.16/334.3 26.93/684 21.1 /535.4 27.31/693.7 21.0 /532.6 27.23/691.6 21.0 /533.1 26.87/682.5 21.0 /533.1 14.96/380 26.81/681 21.0 /533.7 A 87/40 103/47 106/48 106/48 102/46 92/42 95/43 101/46 104/47 CORNER WEIGHT (lb/kg) B C 68/31 82/37 49/22 129/59 52/24 132/60 53/24 132/60 71/32 123/56 82/37 117/53 85/39 120/55 92/42 125/57 95/43 128/58 LEGEND CG — Center of Gravity COND — Condenser LV — Low Voltage MAT’L — Material NEC — National Electrical Code REQ’D — Required NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 3 — 588A018-042 With Optional Base Rail, Unit Dimensions —3— D 59/27 46/21 49/22 53/24 60/27 69/31 72/33 81/37 84/38 UNIT HEIGHT (in./mm) E 27.4/697 27.4/697 27.4/697 27.4/697 27.4/697 27.4/697 27.4/697 31.4/798 31.4/798 REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) UNIT 588A 048080 048100/120/140 060080 060100/120/140 UNIT 588A 048080 048100/120/140 060080 060100/120/140 ELECTRICAL CHARACTERISTICS 208/230-1-60, 208/230-1-60, 208/230-1-60, 208/230-1-60, 208/230-3-60, 208/230-3-60, 208/230-3-60, 208/230-3-60, 460-3-60 460-3-60 460-3-60 460-3-60 UNIT WEIGHT lb 414 426 453 465 kg 188 193 206 211 A 107/49 110/50 117/53 120/55 CORNER WEIGHT (lb/kg) B C 83/38 158/72 86/39 159/72 93/42 167/76 96/44 167/76 D 66/30 71/32 76/35 82/37 LEGEND CENTER OF GRAVITY (in./mm) X Y Z 28.76/731 23.46/596 15.35/390 28.42/722 23.42/595 15.35/390 28.36/720 23.27/591 15.35/390 27.95/710 23.23/590 15.35/390 CG — Center of Gravity COND — Condenser LV — Low Voltage MAT’L — Material NEC — National Electrical Code REQ’D — Required NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 4 — 588A048,060 Without Base Rail, Unit Dimensions —4— REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) UNIT 588A 048080 048100/120/140 060080 060100/120/140 UNIT 588A 048080 048100/120/140 060080 060100/120/140 ELECTRICAL CHARACTERISTICS 208/230-1-60, 208/230-1-60, 208/230-1-60, 208/230-1-60, 208/230-3-60, 208/230-3-60, 208/230-3-60, 208/230-3-60, 460-3-60 460-3-60 460-3-60 460-3-60 UNIT WEIGHT lb 438 450 477 489 kg 199 205 217 222 A 113/51 116/53 123/56 126/57 CORNER WEIGHT (lb/kg) B C 89/40 164/75 92/42 165/75 99/45 173/79 102/46 173/79 D 72/33 77/35 82/37 88/40 LEGEND CENTER OF GRAVITY (in./mm) X Y Z 28.54/724.9 20.00/508 17.66/448.6 28.22/716.8 20.05/509.3 17.66/448.6 28.18/715.6 20.19/512.8 17.66/448.6 27.79/705.9 20.23/513.8 17.66/448.6 MAT’L — Material CG — Center of Gravity NEC — National Electrical Code COND — Condenser REQ’D — Required LV — Low Voltage NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 5 — 588A048,060 With Optional Base Rail, Unit Dimensions —5— REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) UNIT 589A ELECTRICAL CHARACTERISTICS 024040 024060 030040 030060/080 036060/080 036100/120 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 UNIT 589A 024040 024060 030040 030060/080 036060/080 036100/120 UNIT WEIGHT lb 333 345 336 348 366 378 kg 151 157 153 158 166 172 A 104/47 107/49 97/44 100/45 94/43 97/44 CORNER WEIGHT (lb/kg) B C 50/23 130/59 53/24 133/60 66/30 118/54 69/31 121/55 84/38 117/53 87/40 120/55 D 49/22 52/24 55/25 58/26 71/32 74/34 LEGEND CENTER OF GRAVITY (in./mm) X Y Z 26.71/678 20.06/510 12.65/321 26.64/677 20.12/511 12.65/321 27.06/687 21.05/535 12.65/321 26.98/685 21.07/535 12.65/321 27.14/689 21.10/536 12.65/321 27.06/687 21.12/536 12.65/321 CG — Center of Gravity COND — Condenser LV — Low Voltage MAT’L — Material NEC — National Electrical Code REQ’D — Required NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 6 — 589A024-036 Without Base Rail, Unit Dimensions —6— REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . Unit top . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . 42 (1067) UNIT 589A ELECTRICAL CHARACTERISTICS 024040 024060 030040 030060/080 036060/080 036100/120 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 UNIT 589A 024040 024060 030040 030060/080 036060/080 036100/120 CENTER X 26.57/674.9 26.51/673.3 26.90/683.3 26.83/681.5 26.99/685.5 26.92/683.8 UNIT WEIGHT lb 357 369 360 372 390 402 kg 163 168 164 169 177 183 A 110/50 113/51 103/47 106/48 100/45 103/47 CORNER WEIGHT (lb/kg) B C 56/25 136/62 59/27 139/63 72/33 124/56 75/34 127/58 90/41 123/56 93/42 127/57 D 55/25 58/26 61/28 64/29 77/35 80/36 LEGEND OF GRAVITY (in./mm) Y Z 20.17/512.3 14.96/380.0 20.22/513.6 14.96/380.0 21.09/535.7 14.96/380.0 21.11/536.2 14.96/380.0 21.14/537.0 14.96/380.0 21.14/537.0 14.96/380.0 CG — Center of Gravity COND — Condenser LV — Low Voltage MAT’L — Material NEC — National Electrical Code REQ’D — Required NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 7 — 589A024-036 With Optional Base Rail, Unit Dimensions —7— REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) UNIT 589A ELECTRICAL CHARACTERISTICS 042060/080 042100/120 048080 048100/120/140 060080 060100/120/140 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60 208/230-1-60, 208/230-3-60 UNIT 589A 042060/080 042100/120 048080 048100/120/140 060080 060100/120/140 UNIT WEIGHT lb 391 403 422 434 453 465 kg 178 183 192 197 206 211 A 100/45 103/47 109/50 112/51 117/53 120/55 CORNER WEIGHT (lb/kg) B C 91/41 120/55 94/43 123/56 85/39 158/72 88/40 161/73 93/42 167/76 96/44 167/76 D 80/36 83/38 70/32 73/33 76/35 82/37 LEGEND CENTER OF GRAVITY (in./mm) X Y Z 26.66/677 21.19/538 15.35/390 26.61/676 21.21/539 15.35/390 28.45/723 19.95/507 15.35/390 28.35/720 19.99/508 15.35/390 28.36/720 23.27/591 15.35/390 27.95/710 23.23/590 15.35/390 CG — Center of Gravity COND — Condenser LV — Low Voltage MAT’L — Material NEC — National Electrical Code REQ’D — Required NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. Fig. 8 — 589A042-060 Without Base Rail, Unit Dimensions —8— REQ’D CLEARANCES FOR SERVICING. in. (mm) Duct panel . . . . . . . . . . Unit top . . . . . . . . . . . Side opposite ducts . . . . . Compressor access . . . . . (Except for NEC requirements) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 . 36 . 36 . .0 (914) (914) (914) REQ’D CLEARANCES TO COMBUSTIBLE MAT’L. in. (mm) Maximum extension of overhangs . . . . . . . . . . . . . . . 48 (1219) Unit top . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 (356) Duct side of unit . . . . . . . . . . . . . . . . . . . . . . . . 2 (51) Side opposite ducts . . . . . . . . . . . . . . . . . . . . . 14 (356) Bottom of unit . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 Flue panel . . . . . . . . . . . . . . . . . . . . . . . . . 36 (914) CG COND LV MAT’L NEC REQ’D UNIT 589A ELECTRICAL CHARACTERISTICS 042060/080 042100/120 048080 048100/120/140 060080 060100/120/140 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60, 460-3-60 208/230-1-60, 208/230-3-60 208/230-1-60, 208/230-3-60 UNIT 589A 042060/080 042100/120 048080 048100/120/140 060080 060100/120/140 LEGEND — Center of Gravity — Condenser — Low Voltage — Material — National Electrical Code — Required UNIT WEIGHT lb 415 427 446 458 477 489 CENTER OF GRAVITY (in./mm) X Y Z 26.55/674.4 21.22/539.0 17.66/448.6 26.50/673.0 21.24/539.6 17.66/448.6 28.25/717.6 20.04/509.0 17.66/448.6 28.16/715.3 20.08/510.0 17.66/448.6 28.18/715.6 20.19/512.8 17.66/448.6 27.79/705.9 20.23/513.8 17.66/448.6 kg 189 194 293 208 217 222 A 106/48 109/50 115/52 118/54 123/56 126/57 CORNER WEIGHT (lb/kg) B C 97/44 126/57 100/45 129/59 91/41 164/75 94/43 167/76 99/45 173/79 102/46 173/79 D 86/39 89/40 76/35 79/36 82/37 88/40 NOTES: 1. Clearances must be maintained to prevent recirculation of air from outdoorfan discharge. 2. Adequate clearance around air openings into combustion chamber must be provided. NEC REQ’D CLEARANCES. in. (mm) Between units, control box side . . . . . . . . . . . . . . . . 42 (1067) Unit and ungrounded surfaces, control box side . . . . . . . . . 36 (914) Unit and block or concrete walls and other grounded surfaces, control box side . . . . . . . . . . . . . . . . . . 42 (1067) Fig. 9 — 589A042-060 With Optional Base Rail, Unit Dimensions —9— RECEIVING AND INSTALLATION I. STEP 1 — CHECK EQUIPMENT A. Identify Unit The unit model number and serial number are stamped on unit identification plate. Check this information against shipping papers and job data. Ducts passing through an unconditioned space must be insulated and covered with a vapor barrier. If a plenum return is used on a vertical unit, the return should be ducted through the roof deck to comply with applicable fire codes. A minimum clearance is not required around ductwork. Cabinet return-air static shall not exceed −.25 in. wg. B. Inspect Shipment IV. STEP 4 — PROVIDE CLEARANCES Inspect for shipping damage while unit is still on shipping pallet. If unit appears to be damaged or is torn loose from its anchorage, have it examined by transportation inspectors before removal. Forward claim papers directly to transportation company. Manufacturer is not responsible for any damage incurred in transit. The required minimum operating and service clearances are shown in Fig. 2-9. Adequate combustion, ventilation, and condenser air must be provided, in accordance with section 5.3, Air for Combustion and Ventilation, of the National Fuel Gas Code ANSI Z223.1 (in Canada, sections 7.2, 7.3 or 7.4 or Can/ CGA [Canadian Gas Association] B149 Installation Codes), or applicable provisions of local building code. Check all items against shipping list. Immediately notify your Bryant Heating and Cooling representative if any item is missing. CAUTION: Do not restrict condenser airflow. An air restriction at either the outdoor-air inlet or the fan discharge can be detrimental to compressor life. To prevent loss or damage, leave all parts in original packages until installation. II. STEP 2 — PROVIDE UNIT SUPPORT A. Roof Curb Install accessory roof curb in accordance with instructions shipped with curb. See Fig. 10 for roof curb dimensions. Install insulation, cant strips, roofing, and flashing. Ductwork must be attached to curb. IMPORTANT: The gasketing of the unit to the roof curb is critical for a watertight seal. Install gasketing material supplied with the roof curb. Improperly applied gasketing can also result in air leaks and poor unit performance. Curb should be level to within 1⁄4 inch. This is necessary for unit drain to function properly. Refer to accessory roof curb installation instructions for additional information as required. B. Slab Mount Place the unit on a solid, level concrete pad that is a minimum of 4 in. thick with 2 in. above grade. The slab should be flush on the front of the unit (to allow condensate drain installation) and should extend 2 in. on the three remaining sides of the unit. See Fig. 11. Install a 6-in. gravel apron in front of condenser-air inlets to prevent obstruction of airflow by grass or shrubs. Do not secure the unit to the slab except when required by local codes. C. Flush Mount Place side of unit with duct panel flush against transition. On units with optional base rails, the skirt on duct-panel side of unit can be removed to allow unit to be mounted flush against transitions that extend below basepan of unit. To remove skirt, remove 4 screws holding skirt to base rail. Then, remove skirt. To remove wood support under unit (with base rail only), loosen 4 screws above rigging holes and slide assembly out through rectangular hole. The condenser fan pushes air through the condenser coil and discharges it through the bank of louvers in the top cover, the decorative grille on the right side of the unit, and the compressor access panel. Be sure that the fan discharge does not recirculate to the condenser coil. Do not locate the unit in either a corner or under an overhead obstruction. The minimum clearance under a partial overhang (such as a normal house overhang) is 48-in. above the unit top. The maximum horizontal extension of a partial overhang must not exceed 48 inches. Do not place the unit where water, ice, or snow from an overhang or roof will damage or flood the unit. Do not install the unit on carpeting, tile, or other combustible materials. The unit may be installed on wood flooring or on Class A, B, or C roof covering materials. V. STEP 5 — RIG AND PLACE UNIT CAUTION: When installing the unit on a rooftop, be sure the roof will support the additional weight. Refer to Fig. 2-9 for corner weight information. Use spreader bars or crate top when rigging the unit. The units must be rigged for lifting as shown in Fig. 12 and 13. Refer to Tables 1 and 2 for operating weight and to Fig. 2-9 for corner weights. Use extreme caution to prevent damage when moving the unit. Unit must remain in an upright position during all rigging and moving operations. The unit must be level for proper condensate drainage; therefore, the groundlevel pad or accessory roof curb must be level before setting the unit in place. When a field-fabricated support is used, be sure that the support is level and properly supports the unit. III. STEP 3 — FIELD FABRICATE DUCTWORK Secure all ducts to roof curb and building structure on vertical discharge units. Do not connect ductwork to unit. For horizontal applications, unit is provided with flanges on the horizontal openings. All ductwork should be secured to the flanges. Insulate and weatherproof all external ductwork, joints, and roof openings with counter flashing and mastic in accordance with applicable codes. —10— FLAT CURB PART NUMBER CPRFCURB001A00 CPRFCURB002A00 CPRFCURB003A00 ‘‘A’’ 89 [203] 119 [279] 149 [356] NOTES: 1. Roof curb must be set up for unit being installed. 2. Seal strip must be applied as required for unit being installed. 3. Dimensions in [ ] are in millimeters. 4. Roof curb is made of 16 gage steel. 5. Attach ductwork to curb (flanges of duct rest on curb). 6. Service clearance 4 ft on each side. 7. Direction of airflow. 8. Insulated panels: 1-in. thick fiberglass 1 lb density. Fig. 10 — Roof Curb Dimensions —11— NOTICE TO RIGGERS Hook rigging shackles through holes in lifting brackets, as shown in Detail ‘‘A.’’ Lifting brackets to be centered around the unit center of gravity. Use wood top skid when rigging, to prevent rigging straps from damaging unit. Remove 4 screws to slide wood support through rectangular hole in rail. CAUTION: All panels must be in place when rigging. UNIT 588A Size 018 024 030 036 042 048 060 UNIT 589A 024 030 036 042 048 060 Fig. 11 — Slab Mounting Details MAX WEIGHT lb kg 332 150 375 170 384 174 408 185 447 203 486 220 525 238 405 408 438 463 494 525 184 185 199 210 224 238 A B in. mm 49.4 1255 49.4 1255 mm 618 570 565 559 571 533 545 in. 24.85 24.85 24.85 24.85 28.85 34.85 34.85 mm 631 631 631 631 733 885 885 22.8 22.4 22.4 22.8 21.1 21.5 579 569 569 579 536 545 28.9 28.9 28.9 34.9 34.9 34.9 733 733 733 885 885 885 in. mm 49.4 1255 49.4 1255 C in. 24.4 22.6 22.5 22.2 22.6 21.2 21.6 mm 619 574 571 563 574 538 549 in. 28.2 28.2 28.2 28.2 32.2 38.2 38.2 mm 715 715 715 715 816 969 969 22.9 22.6 22.5 22.9 21.3 21.6 582 574 571 582 540 549 32.2 32.2 32.2 38.2 38.2 38.2 816 816 816 969 969 969 WARNING: Secure screws and paint protectors solidly against unit basepan to hold lifting brackets in position. Never use lifting brackets when the temperature is below −10 F. Never exceed 200 lbs per bracket of lifting force. Never use lifting brackets for lifting other models of airconditioning units. Lifting point should be directly over the unit center of gravity. C in. 24.3 22.4 22.3 22.0 22.5 21.0 21.5 178 180 193 205 219 233 B A. Units Without Base Rail If accessory rigging brackets are to be used for rigging, install them as follows: CAUTION: All panels must be in place when rigging. UNIT 588A Size 018 024 030 036 042 048 060 UNIT 589A 024 030 036 042 048 060 393 396 426 451 482 513 A Fig. 13 — Suggested Rigging for Units With Optional Base Rail NOTICE TO RIGGERS Hook rigging shackles through holes in lifting brackets, as shown in Detail ‘‘A.’’ Lifting brackets to be centered around the unit center of gravity. Use wooden top skid when rigging, to prevent rigging straps from damaging unit. MAX WEIGHT lb kg 320 145 363 165 380 172 396 180 435 197 474 215 513 233 1. Position brackets as close to the corners of unit as possible. Be sure brackets are well outside of center of gravity. (See Fig. 2, 4, 6, 8, and 12.). 2. Position paint protectors and foam strips between screws and painted surface of unit. Tighten screws until they make contact with the paint protectors. 3. Secure device or hook of sufficient strength to hole in bracket as shown in detail ‘‘A’’ of Fig. 12. 4. If wood top is available, use it for a spreader bar to prevent straps from damaging unit. If wood top is not available, use spreader bars of sufficient length. Fig. 12 — Suggested Rigging for Units Without Base Rail —12— 2. Remove from shipping location. Place vent cap assembly over flue panel. Orient screw holes in vent cap with holes in the flue panel. 3. Secure flue hood to flue panel by inserting a single screw on the right side, the left side, and the top of the hood. B. Units With Optional Base Rail Lifting holes are provided in optional base rail as shown in Fig. 13. Operating weights are shown in Tables 1 and 2. Refer to rigging instructions on unit. Protective wood support must be removed from unit before unit is mounted to curb. Remove 4 screws that secure support above rigging holes in rails. Slide support out through rectangular hole in rail. See Fig. 13. VI. STEP 6 — CONNECT CONDENSATE DRAIN NOTE: When installing condensate drain connection be sure to comply with local codes and restrictions. Model 588A, 589A disposes of condensate water through a 3⁄4 in. NPT fitting which exits through the compressor access panel. See Fig. 2-9 for location. Condensate water can be drained directly onto the roof in rooftop installations (where permitted) or onto a gravel apron in ground-level installations. Install a field-supplied condensate trap at end of condensate connection to ensure proper drainage. Make sure that the outlet of the trap is at least 1 in. lower than the drain-pan condensate connection to prevent the pan from overflowing. See Fig. 14. Prime the trap with water. When using a gravel apron, make sure it slopes away from the unit. If the installation requires draining the condensate water away from the unit, install a 2-in. trap at the condensate connection to ensure proper drainage. See Fig. 14. Make sure that the outlet of the trap is at least 1 in. lower than the drainpan condensate connection to prevent the pan from overflowing. Prime the trap with water. Connect a drain tube using a minimum of 3 ⁄ 4 -in. PVC or 3 ⁄ 4 -in. copper pipe (all fieldsupplied) at the outlet end of the 2-in. trap. Do not undersize the tube. Pitch the drain tube downward at a slope of at least one in. for every 10 ft of horizontal run. Be sure to check the drain tube for leaks. Fig. 14 — Condensate Trap VII. STEP 7 — INSTALL FLUE HOOD The flue hood assembly is shipped screwed to the control box in the burner compartment. Remove the burner access panel to locate the assembly. For units being installed in California Air Quality Management Districts which require NOx emissions of 40 nanograms/ joule or less, kit CRLOWNOX001A00 must be installed. CAUTION: The venting system is designed to ensure proper venting. The flue hood assembly must be installed as indicated in this section of the unit installation instructions. Install the flue hood as follows: 1. This installation must conform with local building codes and with the National Fuel Gas Code (NFGC), American National Standards Institute (ANSI) Z223.1 (in Canada, CAN/CGA B149.1, and B149.2) or NFPA (National Fire Protection Association) latest revision. Refer to Provincial and local plumbing or wastewater codes and other applicable local codes. VIII. STEP 8 — INSTALL GAS PIPING The gas supply pipe enters the unit through the access hole provided. The gas connection to the unit is made to the 1⁄2-in. FPT gas inlet on the manual shutoff or gas valve. Install a gas supply line that runs to the heating section. Refer to Table 3 and the NFGC for gas pipe sizing. Do not use cast-iron pipe. It is recommended that a black iron pipe is used. Check the local utility for recommendations concerning existing lines. Size gas supply piping for 0.5 in. wg maximum pressure drop. Never use pipe smaller than the 1⁄2-in. FPT gas inlet on the unit gas valve. For natural gas applications, the gas pressure at unit gas connection must not be less than 4.0 in. wg or greater than 13 in. wg while the unit is operating. For propane applications, the gas pressure must not be less than 4.0 in. wg or greater than 13 in. wg at the unit connection. An 1⁄8-in. NPT plugged tapping accessible for test gage connection must be installed immediately upstream of the gas supply connection to the furnace. When installing the gas supply line, observe local codes pertaining to gas pipe installations. Refer to the NFGC ANSI Z223.1-1988 NFPA latest edition (in Canada, CAN/CGA B149.1, (2)-M86). In the absence of local building codes, adhere to the following pertinent recommendations: 1. Avoid low spots in long runs of pipe. Grade all pipe 1⁄4 inch in every 15 ft to prevent traps. Grade all horizontal runs downward to risers. Use risers to connect to heating section and to meter. 2. Protect all segments of piping system against physical and thermal damage. Support all piping with appropriate straps, hangers, etc. Use a minimum of one hanger every 6 ft. For pipe sizes larger than 1⁄2 in., follow recommendations of national codes. 3. Apply joint compound (pipe dope) sparingly and only to male threads of joint when making pipe connections. Use only pipe dope that is resistant to action of liquefied petroleum gases as specified by local and/or national codes. Never use Teflon tape. 4. Install sediment trap in riser leading to heating section per Fig. 15. This drip leg functions as a trap for dirt and condensate. 5. Install an accessible, external, manual main shutoff valve in gas supply pipe within 6 ft of heating section. 6. Install ground-joint union close to heating section between unit manual shutoff and external manual main shutoff valve. 7. Pressure-test all gas piping in accordance with local and national plumbing and gas codes before connecting piping to unit. NOTE: Pressure test the gas supply system after the gas supply piping is connected to the gas valve. The supply piping must be disconnected from the gas valve during the testing of the piping systems when test pressure is in excess of 0.5 psig. Pressure test the gas supply piping system at pressures equal to or less than 0.5 psig. The unit heating section must be isolated from the gas piping system by closing the external main manual shutoff valve and slightly opening the ground-joint union. —13— Table 1 — Physical Data — Unit 588A UNIT SIZE 588A NOMINAL CAPACITY (ton) OPERATING WEIGHT (lb) Without Base Rail With Optional Base Rail COMPRESSORS Quantity REFRIGERANT (R-22) Charge (lb) REFRIGERANT METERING DEVICE Orifice ID (in.) CONDENSER COIL Rows...Fins/in. Face Area (sq ft) CONDENSER FAN Nominal Cfm Diameter (in.) Motor Hp (Rpm) EVAPORATOR COIL Rows Fins/in. Face Area (sq ft) EVAPORATOR FAN Nominal Airflow (Cfm) Size (in.) Motor Hp FURNACE SECTION* Burner Orifice (Qty...drill size) Natural Gas Burner Orifice (Qty...drill size) Propane Gas RETURN-AIR FILTERS (in.)† Throwaway UNIT SIZE 588A NOMINAL CAPACITY (ton) OPERATING WEIGHT (lb) Without Base Rail With Optional Base Rail COMPRESSORS Quantity REFRIGERANT (R-22) Charge (lb) REFRIGERANT METERING DEVICE Orifice ID (in.) CONDENSER COIL Rows...Fins/in. Face Area (sq ft) CONDENSER FAN Nominal Cfm Diameter (in.) Motor Hp (Rpm) EVAPORATOR COIL Rows Fins/in. Face Area (sq ft) EVAPORATOR FAN Nominal Airflow (Cfm) Size (in.) Motor Hp FURNACE SECTION* Burner Orifice (Qty...drill size) Natural Gas Burner Orifice (Qty...drill size) Propane Gas RETURN-AIR FILTERS (in.)† Throwaway 018040 11⁄2 024040 2 024060 2 030040 21⁄2 030060 21⁄2 272 296 Rotary 1 303 327 315 339 320 344 332 356 2.60 2.75 2.75 3.40 .030 .030 .030 .030 3.40 3.40 Acutrol™ Device .030 .030 1...17 5.95 1...17 5.95 1...17 5.95 2...17 5.95 2...17 5.95 1700 18 ⁄ (850) 18 1700 18 ⁄ (850) 18 1700 18 ⁄ (850) 18 1900 18 ⁄ (850) 18 1900 18 ⁄ (850) 18 3...15 1.83 3...15 2.29 3...15 2.29 3...15 2.29 600 10 x 10 1⁄4 800 10 x 10 1⁄4 800 10 x 10 1⁄4 1000 10 x 10 1⁄4 1...32 1...32 2...40 1...32 2...40 1...41 1...41 2...47 1...41 2...47 20 x 20 20 x 20 20 x 20 20 x 24 20 x 24 042060 31⁄2 042080 31⁄2 042100 31⁄2 030080 21⁄2 036060 3 036080 3 036100 3 036120 3 336 360 348 372 348 372 4.30 4.30 4.30 4.30 .032 .032 .032 .032 2...17 5.95 2...17 5.95 2...17 5.95 2...17 5.95 332 336 356 360 Reciprocating 1 2...17 5.95 1900 18 ⁄ (850) 1900 18 ⁄ (1050) 18 1900 18 ⁄ (1050) 14 3...15 3...15 2.29 2.29 Direct Drive 1000 1000 10 x 10 10 x 10 1⁄4 1⁄4 14 1900 18 ⁄ (1050) 14 1900 18 ⁄ (1050) 14 3...15 3.06 3...15 3.06 3...15 3.06 3...15 3.06 1200 10 x 10 1 ⁄2 1200 10 x 10 1⁄ 2 1200 10 x 10 1⁄ 2 1200 10 x 10 1⁄ 2 2...32 2...40 2...32 2...30 3...32 2...42 2...47 2...42 2...40 3...42 20 x 24 20 x 24 20 x 24 20 x 24 20 x 24 042120 31⁄2 048080 4 048100 4 048120 4 426 450 048140 4 060080 5 060100 5 060120 5 060140 5 426 453 450 477 Hermetic Scroll 1 465 489 465 489 465 489 375 399 375 387 399 411 Reciprocating 1 387 411 414 438 426 450 5.20 5.20 5.20 5.20 6.50 6.50 6.50 Acutrol Device 6.50 7.00 7.00 7.00 7.00 .034 .034 .034 .034 .030 .030 .030 .030 .030 .030 .030 .030 2...17 7.04 2...17 7.04 2...17 7.04 2...17 7.04 2...17 8.67 2...17 8.67 2...17 8.67 2...17 8.67 2...17 8.67 2...17 8.67 2...17 8.67 2...17 8.67 1900 18 ⁄ (1050) 14 1900 18 ⁄ (1050) 14 1900 18 ⁄ (1050) 14 1900 18 ⁄ (1050) 14 2400 20 ⁄ (1050) 13 2400 20 ⁄ (1050) 13 3...15 3.33 3...15 3.33 3...15 3.33 3...15 3.33 3...15 4.44 1400 10 x 10 3⁄4 1400 10 x 10 3⁄4 1400 10 x 10 3⁄4 1400 10 x 10 3⁄4 1600 10 x 10 3⁄4 2...40 2...32 2...30 3...32 2...32 2...30 2...47 2...42 2...40 3...42 2...42 24 x 24 24 x 24 24 x 24 24 x 24 24 x 30 2400 20 ⁄ (1050) 13 3...15 3...15 4.44 4.44 Direct Drive 1600 1600 10 x 10 10 x 10 3⁄4 3⁄4 2400 20 ⁄ (1050) 13 2400 20 ⁄ (1050) 13 2400 20 ⁄ (1050) 13 2400 20 ⁄ (1050) 13 3...15 4.44 4...15 4.44 4...15 4.44 4...15 4.44 4...15 4.44 1600 10 x 10 3⁄4 1995 10 x 11 1 1995 10 x 11 1 1995 10 x 11 1 1995 10 x 11 1 3...32 3...31 2...32 2...30 3...32 3...31 2...40 3...42 3...40 3...42 2...40 3...42 3...40 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 *Based on altitude of 0-2000 feet. †Required filter sizes shown are based on the larger of the ARI (Air Conditioning & Refrigeration Institute) rated cooling airflow or the heating airflow at a velocity of 300 ft/min for throwaway type or 450 ft/min for high-capacity type. For non-standard air filters, air filter pressure drop must not exceed 0.08 in. wg. —14— 2400 20 ⁄ (1050) 13 Table 2 — Physical Data — Unit 589A UNIT SIZE 589A NOMINAL CAPACITY (ton) OPERATING WEIGHT (lb) Without Base Rail With Optional Base Rail COMPRESSORS Quantity REFRIGERANT (R-22) Charge (lb) REFRIGERANT METERING DEVICE Orifice ID (in.) CONDENSER COIL Rows...Fins/in. Face Area (sq ft) CONDENSER FAN Nominal Cfm Diameter (in.) Motor Hp (Rpm) EVAPORATOR COIL Rows Fins/in. Face Area (sq ft) EVAPORATOR FAN* Nominal Airflow (Cfm) Size (in.) Motor Hp FURNACE SECTION† Burner Orifice (Qty...drill size) Natural Gas Burner Orifice (Qty...drill size) Propane Gas RETURN-AIR FILTERS (in.)** Disposable UNIT SIZE 589A NOMINAL CAPACITY (ton) OPERATING WEIGHT (lb) Without Base Rail With Optional Base Rail COMPRESSORS Quantity REFRIGERANT (R-22) Charge (lb) REFRIGERANT METERING DEVICE Orifice ID (in.) CONDENSER COIL Rows...Fins/in. Face Area (sq ft) CONDENSER FAN Nominal Cfm Diameter (in.) Motor Hp (Rpm) EVAPORATOR COIL Rows Fins/in. Face Area (sq ft) EVAPORATOR FAN* Nominal Airflow (Cfm) Size (in.) Motor Hp FURNACE SECTION† Burner Orifice (Qty...drill size) Natural Gas Burner Orifice (Qty...drill size) Propane Gas RETURN-AIR FILTERS (in.)** Disposable 024040 2 024060 2 030040 21⁄2 030060 21⁄2 030080 21⁄2 036060 3 036080 3 036100 3 036120 3 333 357 345 369 336 360 348 372 348 372 Scroll 1 366 390 366 390 378 402 378 402 3.9 3.9 4.5 4.5 5.4 5.4 5.4 5.4 .034 .034 .030 .030 4.5 Acutrol™ Device .030 .032 .032 .032 .032 2...17 7.0 2...17 7.0 2...17 7.0 2...17 7.0 2...17 7.0 2...17 7.0 2...17 7.0 2...17 7.0 2...17 7.0 2200 20 ⁄ (1100) 14 2200 20 ⁄ (1100) 14 2200 20 ⁄ (1100) 2200 20 ⁄ (1100) 14 2200 20 ⁄ (1100) 14 2...15 3.6 2...15 3.6 3...15 2.7 3...15 2.7 800 10 x 10 1⁄4 800 10 x 10 1⁄4 1000 10 x 10 1⁄4 1...32 2...41 1...41 2...47 24 x 24 24 x 24 14 4...15 3.6 4...15 3.6 1000 10 x 10 1⁄4 1200 10 x 10 1⁄2 1200 10 x 10 1⁄2 1200 10 x 10 1⁄2 1200 10 x 10 1⁄2 1...32 2...40 2...32 2...40 2...32 2...30 3...32 1...41 2...47 2...42 2...47 2...42 2...40 3...42 24 x 24 24 x 24 24 x 24 24 x 24 24 x 24 24 x 24 24 x 24 042120 31⁄2 048080 4 391 415 391 415 403 427 403 427 422 446 5.7 5.7 5.7 5.7 5.8 .034 .034 .034 .034 .034 .034 2...17 8.7 2...17 8.7 2...17 8.7 2...17 8.7 2...17 8.7 2...17 8.7 2400 20 ⁄ (1100) 2400 20 ⁄ (1100) 14 2200 20 ⁄ (1100) 14 4...15 3.6 042100 31⁄2 14 2200 20 ⁄ (1100) 14 4...15 3.6 042080 31⁄2 2400 20 ⁄ (1100) 2200 20 ⁄ (1100) 14 3...15 2.7 Direct Drive 1000 10 x 10 1⁄4 042060 31⁄2 14 2200 20 ⁄ (1100) 14 2400 20 ⁄ (1100) 14 2400 20 ⁄ (1100) 14 048100 4 048120 4 048140 4 060080 5 060100 5 060120 5 060140 5 434 458 434 458 453 477 465 489 465 489 465 489 5.8 5.8 Acutrol Device 5.8 7.00 7.00 7.00 7.00 .034 .034 .030 .030 .030 .030 2...17 8.7 2...17 8.7 2...17 8.67 2...17 8.67 2...17 8.67 2...17 8.67 434 458 Scroll 1 2400 20 ⁄ (1100) 14 3...15 4.4 3...15 4.4 3...15 4.4 3...15 4.4 4...15 4.4 1400 10 x 10 3⁄4 1400 10 x 10 3⁄4 1400 10 x 10 3⁄4 1400 10 x 10 3⁄4 1600 10 x 10 3⁄4 2...40 2...32 2...30 3...32 2...32 2...30 2...47 2...42 2...40 3...42 2...42 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 2400 20 ⁄ (1100) 14 4...15 4...15 4.4 4.4 Direct Drive 1600 1600 10 x 10 10 x 10 3⁄4 3⁄4 2400 2400 2400 2400 20 20 20 20 1 1 1 ⁄ (1050) ⁄3 (1050) ⁄3 (1050) ⁄3 (1050) 13 4...15 4.4 4...15 4.44 4...15 4.44 4...15 4.44 4...15 4.44 1600 10 x 10 3⁄4 1995 10 x 11 1 1995 10 x 11 1 1995 10 x 11 1 1995 10 x 11 1 3...32 3...31 2...32 2...30 3...32 3...31 2...40 3...42 3...40 3...42 2...40 3...42 3...40 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 24 x 30 *Size 048 evaporator fan is equipped with a 460-v or integrated control motor (ICM). Size 060 evaporator fan is equipped with an ICM only. The ICM provides variable speed. †Based on an altitude of 0-2000 feet. **Required filter sizes shown are based on the ARI (Air Conditioning & Refrigeration Institute) rated heating airflow at a velocity of 300 ft/min for throwaway type or 450 ft/min for high-capacity type. For non-standard air filters, air filter pressure drop must not exceed 0.08 in. wg. —15— 2400 20 ⁄ (1100) 14 (Text continued from page 13) A. Configuring Units for Downflow (Vertical) Discharge CAUTION: Unstable operation may occur when the gas valve and manifold assembly are forced out of position while connecting improperly-routed rigid gas piping to the gas valve. Use a backup wrench when making connection to avoid strain on, or distortion of, the gas control piping. WARNING: Before performing service or maintenance operations on the system, turn off main power to unit or electrical shock could result. 1. Open all electrical disconnects before starting any service work. 2. Remove return duct cover located on duct panel. Figure 16 shows duct cover removed. Save duct cover and screws. 3. Locate lances in basepan insulation that are placed over the perimeter of the vertical duct opening cover (Fig. 17). CAUTION: If a flexible conductor is required or allowed by the authority having jurisdiction, black iron pipe shall be installed at the gas valve and shall extend a minimum of 2 in. outside the unit casing. WARNING: Never use a match or other open flame when checking for gas leaks. Never purge gas line into combustion chamber. Failure to follow this warning could result in an explosion causing personal injury or death. 4. Using a straight edge and sharp knife, cut and remove the insulation around the perimeter of the cover. Remove and save 5 screws securing the cover to the basepan and slide out the cover. Discard the cover (Fig. 18). 5. Remove supply duct cover located on duct panel. Figure 16 shows duct cover removed. Save duct cover and screws. 6. Remove and discard 2 screws which secure vertical discharge opening cover to basepan (Fig. 19). Slide cover forward to disengage, then tilt and remove cover through vertical discharge opening in bottom of unit. Discard duct cover (Fig. 20). 8. Check for gas leaks at the field-installed and factoryinstalled gas lines after all piping connections have been completed. Use soap-and-water solution (or method specified by local codes and/or regulations). CAUTION: Collect ALL screws that were removed. Do not leave screws on rooftop as permanent damage to the roof may occur. Fig. 15 — Sediment Trap IX. STEP 9 — INSTALL DUCT CONNECTIONS The unit has duct flanges on the supply- and return-air openings on the side and bottom of the unit. See Fig. 2-9 for connection sizes and locations. 7. If unit ductwork is to be attached to vertical opening flanges on the unit basepan (jackstand applications only), do so at this time. 8. It is recommended that the basepan insulation around the perimeter of the vertical return-air opening be secured to the basepan with aluminum tape. Applicable local codes may require aluminum tape to prevent exposed fiberglass. 9. Cover both horizontal duct openings with the duct covers from Steps 2 and 5. Make sure opening is air- and watertight. 10. After completing unit conversion, perform all safety checks and power up unit. NOTE: The design and installation of the duct system must be in accordance with the standards of the NFPA for installation of nonresidence-type air conditioning and ventilating systems, NFPA 90A or residence-type, NFPA 90B; and/or local codes and residence-type, NFPA 90B; and/or local codes and ordinances. —16— Table 3 — Maximum Gas Flow Capacity* NOMINAL IRON PIPE, SIZE (in.) 1⁄2 3⁄4 1 11⁄4 11⁄2 LENGTH OF PIPE, FT† INTERNAL DIAMETER (in.) 10 20 30 40 50 60 70 80 90 100 125 150 175 200 .622 .824 1.049 1.380 1.610 175 360 680 1400 2100 120 250 465 950 1460 97 200 375 770 1180 82 170 320 600 990 73 151 285 580 900 66 138 260 530 810 61 125 240 490 750 57 118 220 460 690 53 110 205 430 650 50 103 195 400 620 44 93 175 360 550 40 84 160 325 500 — 77 145 300 460 — 72 135 280 430 *Capacity of pipe in cu ft of gas per hr for gas pressure of 0.5 psig or less. Pressure drop of 0.5-in. wg (based on a 0.60 specific gravity gas). Refer to Table C-4, National Fire Protection Association NFPA 54. †This length includes an ordinary number of fittings. SUPPLY DUCT OPENING RETURN DUCT OPENING Fig. 16 — Supply and Return Duct Openings Fig. 18 — Vertical Duct Cover Removed Fig. 17 — Lance Location for Vertical Duct Opening Cover Fig. 19 — Removal of Vertical Discharge Opening Cover —17— X. STEP 10 — INSTALL ELECTRICAL CONNECTIONS WARNING: The unit cabinet must have an uninterrupted, unbroken electrical ground to minimize the possibility of personal injury if an electrical fault should occur. This ground may consist of an electrical wire connected to the unit ground lug in the control compartment, or conduit approved for electrical ground when installed in accordance with NEC (National Electrical Code) ANSI/NFPA (latest edition) (in Canada, Canadian Electrical Code CSA [Canadian Standards Association] C22.1) and local electrical codes. Do not use gas piping as an electrical ground. Failure to adhere to this warning could result in personal injury or death. CAUTION: Failure to follow these precautions could result in damage to the unit being installed: 1. Make all electrical connections in accordance with NEC ANSI/NFPA (latest edition) and local electrical codes governing such wiring. In Canada, all electrical connections must be in accordance with CSA standard C22.1 Canadian Electrical Code Part 1 and applicable local codes. Refer to unit wiring diagram. 2. Use only copper conductor for connections between fieldsupplied electrical disconnect switch and unit. DO NOT USE ALUMINUM WIRE. 3. Be sure that high-voltage power to unit is within operating voltage range indicated on unit rating plate. 4. Do not damage internal components when drilling through any panel to mount electrical hardware, conduit, etc. On 3-phase units, ensure phases are balanced within 2%. Consult local power company for correction of improper voltage and/or phase imbalance. Fig. 20 — Vertical Discharge Cover Removed Adhere to the following criteria when selecting, sizing, and installing the duct system: 1. Units are shipped with all 4 duct openings covered. Remove appropriate panels for intended installation. 2. Select and size ductwork, supply-air registers, and return-air grilles according to American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE) recommendations. 3. Use flexible transition between rigid ductwork and unit to prevent transmission of vibration. The transition may be screwed or bolted to duct flanges. Use suitable gaskets to ensure weathertight and airtight seal. 4. All units must have field-supplied filters or accessory filter rack installed in the return-air side of the unit. Recommended sizes for filters are shown in Tables 1 and 2. 5. Size all ductwork for maximum required airflow (either heating or cooling) for unit being installed. Avoid abrupt duct size increases or decreases or performance may be affected. 6. Adequately insulate and weatherproof all ductwork located outdoors. Insulate ducts passing through unconditioned space, and use vapor barrier in accordance with latest issue of Sheet Metal and Air Conditioning Contractors National Association (SMACNA) and Air Conditioning Contractors of America (ACCA) minimum installation standards for heating and air conditioning systems. Secure all ducts to building structure. 7. Flash, weatherproof, and vibration-isolate all openings in building structure in accordance with local codes and good building practices. A. High-Voltage Connections The unit must have a separate electrical service with a fieldsupplied, waterproof, disconnect switch mounted at, or within sight from, the unit. Refer to the unit rating plate for maximum fuse/circuit breaker size and minimum circuit amps (ampacity) for wire sizing. See Tables 4A and 4B for electrical data. The field-supplied disconnect switch box may be mounted on the unit over the high-voltage inlet hole when the standard power and low-voltage entry points are used. See Fig. 2-9 for acceptable location. Standard Power Entry Proceed as follows to complete the high-voltage connections to the unit: 1. Connect ground lead to chassis ground connection when using separate ground wire. 2. Run high-voltage leads into unit control box. 3. Locate black and yellow wires connected to line side of contactor. 4. Cut wires at partition where they exit control box. 5. Strip back leads and connect to high voltage leads. On 3-phase units, blue wire is provided stripped back and ready to connect to high voltage lead. See unit wiring label and Fig. 21. —18— Table 4A — Electrical Data — Unit 588A UNIT SIZE 588A 018 024 030 036 042 048 060 V-PH-Hz 208/230-1-60 208/230-1-60 208/230-1-60 208/230-3-60 208/230-1-60 208/230-3-60 460-3-60 208/230-1-60 208/230-3-60 460-3-60 208/230-1-60† 208/230-1-60** 208/230-3-60† 208/230-3-60** 460-3-60† 460-3-60** 208/230-1-60 208/230-3-60 460-3-60 AWG — FLA — HACR — LRA MCA MOCP RLA — — — — VOLTAGE RANGE Min Max 187 253 187 253 187 253 187 253 187 253 187 253 414 506 187 253 187 253 414 506 187 253 187 253 187 253 187 253 414 506 414 506 187 253 187 253 414 506 COMPRESSOR RLA 8.3 12.4 14.4 9.4 18.0 11.7 5.6 20.4 14.0 6.4 21.8 26.4 12.8 15.0 6.4 8.2 32.1 19.3 10.0 LRA 45.0 61.0 82.0 66.0 96.0 75.0 40.0 104.0 91.0 42.0 124.0 129.0 93.0 99.0 46.5 50.0 169.0 123.0 62.0 OUTDOOR-FAN MOTOR FLA 0.7 0.7 1.4 1.4 1.4 1.4 0.8 1.4 1.4 0.8 2.1 2.1 2.1 2.1 1.1 1.1 2.1 2.1 1.1 POWER SUPPLY MCA 12.9 18.2 21.4 15.1 26.7 18.8 9.2 30.9 22.9 10.8 40.1 40.1 25.9 25.9 13.7 13.7 49.0 33.0 16.8 MOCP* 15 30 30 25 40 30 10 50 35 15 60 60 40 40 20 20 60 50 25 AWG 60 C MIN WIRE SIZE MAX WIRE LENGTH (ft) 14 12 10 12 10 12 14 8 10 14 8 6 10 10 14 14 6 8 12 75 80 100 80 90 65 100 100 85 100 100 100 75 75 100 100 100 90 100 Example: Supply voltage is 460-3-60. AB = 452 v BC = 464 v AC = 455 v LEGEND American Wire Gage Full Load Amps Heating, Air Conditioning and Refrigeration Locked Rotor Amps Minimum Circuit Amps Maximum Overcurrent Protection Rated Load Amps Average Voltage = 452 1 464 1 455 3 = 1371 3 *Fuse or HACR Breaker. † Carrier Scroll Compressor. **Copeland Scroll Compressor. = 457 Determine maximum deviation from average voltage. (AB) 457 − 452 = 5 v (BC) 464 − 457 = 7 v (AC) 457 − 455 = 2 v Maximum deviation is 7 v. Determine percent of voltage imbalance. 7 % Voltage Imbalance = 100 x 457 NOTES: 1. In compliance with NEC (National Electrical Code) requirements for multimotor and combination load equipment (refer to NEC Articles 430 and 440), the overcurrent protective device for the unit shall be fuse or HACR breaker. The CGA (Canadian Gas Association) units may be fuse or circuit breaker. 2. Minimum wire size is based on 60 C copper wire. If other than 60 C wire is used, or if length exceeds wire length in table, determine size from NEC. 3. Unbalanced 3-Phase Supply Voltage Never operate a motor where a phase imbalance in supply voltage is greater than 2%. Use the following formula to determine the percentage of voltage imbalance. % Voltage imbalance max voltage deviation from average voltage = 100 x average voltage INDOOR-FAN MOTOR FLA 1.8 2.0 2.3 2.0 2.8 2.8 1.4 4.0 4.0 2.0 5.0 5.0 5.0 5.0 2.3 2.3 6.8 6.8 3.2 = 1.53% This amount of phase imbalance is satisfactory as it is below the maximum allowable 2%. IMPORTANT: If the supply voltage phase imbalance is more than 2%, contact your local electric utility company immediately. —19— Table 4B — Electrical Data — Unit 589A UNIT SIZE 589A 024 030 036 042 048 060 V-PH-Hz 208/230-1-60 208/230-1-60 208/230-1-60 208/230-3-60 460-3-60 208/230-1-60 208/230-3-60 460-3-60 208/230-1-60 208/230-3-60 460-3-60 208/230-1-60 208/230-3-60 AWG — FLA — HACR — LRA MCA MOCP RLA — — — — VOLTAGE RANGE Min Max 187 253 187 253 187 253 187 253 414 506 187 253 187 253 414 506 187 253 187 253 414 506 187 253 187 253 COMPRESSOR RLA 12.9 15.0 16.7 10.9 5.4 20.0 13.9 6.8 26.4 15.0 8.2 32.1 19.3 LRA 62.5 76.0 95.0 75.0 40.0 104.0 88.0 44.0 129.0 99.0 49.5 169.0 123.0 OUTDOOR-FAN MOTOR FLA 1.4 1.4 1.4 1.4 0.8 1.4 1.4 0.8 1.4 1.4 0.8 2.1 2.1 POWER SUPPLY MCA 19.5 22.8 25.1 17.8 9.0 29.5 21.9 10.9 41.6 27.4 13.4 49.4 33.4 MOCP* 30 30 30 25 10 45 30 15 60 40 20 60 50 AWG 60 C MIN WIRE SIZE MAX WIRE LENGTH (ft) 12 10 10 12 14 10 10 14 6 10 14 6 8 75 100 95 70 100 80 60 100 100 70 100 100 90 Example: Supply voltage is 460-3-60. AB = 452 v BC = 464 v AC = 455 v LEGEND American Wire Gage Full Load Amps Heating, Air Conditioning and Refrigeration Locked Rotor Amps Minimum Circuit Amps Maximum Overcurrent Protection Rated Load Amps Average Voltage = 452 1 464 1 455 3 = 1371 3 *Fuse or HACR Breaker. † Carrier Scroll Compressor. **Copeland Scroll Compressor. = 457 Determine maximum deviation from average voltage. (AB) 457 − 452 = 5 v (BC) 464 − 457 = 7 v (AC) 457 − 455 = 2 v Maximum deviation is 7 v. Determine percent of voltage imbalance. 7 % Voltage Imbalance = 100 x 457 NOTES: 1. In compliance with NEC (National Electrical Code) requirements for multimotor and combination load equipment (refer to NEC Articles 430 and 440), the overcurrent protective device for the unit shall be fuse or HACR breaker. The CGA (Canadian Gas Association) units may be fuse or circuit breaker. 2. Minimum wire size is based on 60 C copper wire. If other than 60 C wire is used, or if length exceeds wire length in table, determine size from NEC. 3. Unbalanced 3-Phase Supply Voltage Never operate a motor where a phase imbalance in supply voltage is greater than 2%. Use the following formula to determine the percentage of voltage imbalance. % Voltage imbalance max voltage deviation from average voltage = 100 x average voltage INDOOR-FAN MOTOR FLA 2.0 2.6 2.8 2.8 1.4 3.1 3.1 1.6 7.2 7.2 2.3 7.2 7.2 = 1.53% This amount of phase imbalance is satisfactory as it is below the maximum allowable 2%. IMPORTANT: If the supply voltage phase imbalance is more than 2%, contact your local electric utility company immediately. —20— Use no. 18 American Wire Gage (AWG) color-coded, insulated (35 C minimum) wires to make the control voltage connections between the thermostat and the unit. If the thermostat is located more than 100 ft from the unit (as measured along the control voltage wires), use no. 16 AWG color-coded, insulated (35 C minimum) wires. Standard Connection Remove knockout hole located in the flue panel adjacent to the control access panel. See Fig. 2-9. Remove the rubber grommet from the installer’s packet (included with unit) and install grommet in the knockout opening. Provide a drip loop before running wire through panel. Run the low-voltage leads from the thermostat, through the inlet hole, and into unit low-voltage splice box. LEGEND Field Control-Voltage Wiring Field High-Voltage Wiring NOTE: Use blue wire for 3-phase units only. Fig. 21 — High- and Control-Voltage Connections Alternate Power Entry 1. Remove knockouts in fixed compressor panel located on duct panel side of unit. 2. Route high-voltage leads into high-voltage terminal box. 3. Connect ground wire to green-yellow wire using fieldsupplied splice. 4. Connect power wires to unit high-voltage leads. 5. On 3-phase units, locate blue wire projecting from compressor junction box. Cut wire at partition and route into high-voltage junction box through grommet in back of junction box. 6. On 3-phase units, strip back blue lead and connect to third leg of the power wires. B. Special Procedures for 208-V Operation WARNING: Make sure that the gas supply then the power supply to the unit is switched OFF before making any wiring changes. Electrical shock can cause personal injury or death. 1. Disconnect the orange transformer-primary lead from the contactor. See unit wiring label. 2. Remove the tape and wirenut from the terminal on the end of the red transformer-primary lead. 3. Save the wirenut. 4. Connect the red lead to the contactor terminal from which the orange lead was disconnected. 5. Using the wirenut removed from the red lead, insulate the loose terminal on the orange lead. 6. Wrap the cover with electrical tape so that the metal terminal cannot be seen. C. Control Voltage Connections; Non-Integrated Control Motor (Non-ICM) Units Locate the room thermostat on an inside wall in the space to be conditioned, where it will not be subjected to either a cooling or heating source or direct exposure to sunlight. Mount the thermostat 4 to 5 ft above the floor. NOTE: Do not use any type of power-stealing thermostat. Unit control problems may result. Locate five 18-gage wires leaving control box. These lowvoltage connection leads can be identified by the colors red, green, yellow, brown, and white. (See Fig. 21.) Ensure the leads are long enough to be routed into the low-voltage splice box (located below right side of control box). Cut wires at the point where they exit control box; do NOT cut yellow wire on 589A024,030 units. Stripped yellow wire is located in connection box. Route leads through hole in bottom of control box and make low-voltage connections as shown in Fig. 21. Secure all cut wires, so that they do not interfere with operation of unit. Alternate Connection Remove knockout in compressor fixed panel located below highvoltage knockout. Remove the rubber grommet from the installer’s packet (included with unit) and install grommet in the knockout opening. Route thermostat wires through grommet providing drip loop at panel. Connect low-voltage leads as shown in Fig. 21. On 589A024 and 030 units, the yellow wire originating from discharge thermostat of compressor must be cut and routed into low-voltage section of junction box. D. Control Voltage Connections; Integrated Control Motor (ICM) Units Routing Control Power Wires (24 v) Remove knockout in the compressor fixed access panel located below the high-voltage knockout. Remove the rubber grommet from the installer’s packet (included with unit) and install grommet in the knockout opening. Route thermostat wires through grommet providing drip loop at panel. Connect low-voltage leads to the thermostat. Alternate Connection (24 v) Remove knockout in the flue panel adjacent to the control access panel. Remove the rubber grommet from the installer’s packet (included with unit) and install grommet in the knockout opening. Provide a drip loop before running wire through panel. Run the low-voltage leads from the thermostat, through the inlet hole, and into the unit low-voltage splice box. Connecting to Easy Select Interface Board The Easy Select interface board is located in the control box area. The Easy Select interface board is factory wired to the motor, and factory default selections are preset. Locate the five 18-gage thermostat lead wires of plug assembly 1 (PL1) attached to the Easy Select interface board (See Fig. 22 and wiring diagrams for units 589A048 and 060 on pages 31 and 33.) These low voltage connection leads are identified by the colors red, green, yellow, brown, and white. Cut the wires between the 2 wire ties approximately 4 in. from the plug. Connect low-voltage leads to the thermostat. Secure all cut wires in the control and splice boxes so they do not interfere with the proper operation of the unit. —21— PRE-START-UP WARNING: Failure to observe the following warnings could result in serious personal injury: 1. Follow recognized safety practices and wear protective goggles when checking or servicing refrigerant system. 2. Do not operate compressor or provide any electric power to unit unless compressor terminal cover is in place and secured. 3. Do not remove compressor terminal cover until all electrical sources are disconnected. 4. Relieve and reclaim all refrigerant from system before touching or disturbing anything inside terminal box if refrigerant leak is suspected around compressor terminals. 5. Never attempt to repair soldered connection while refrigerant system is under pressure. 6. Do not use torch to remove any component. System contains oil and refrigerant under pressure. To remove a component, wear protective goggles and proceed as follows: a. Shut off gas supply and then electrical power to unit. b. Relieve and reclaim all refrigerant from system using both high- and low-pressure ports. c. Cut component connecting tubing with tubing cutter and remove component from unit. d. Carefully unsweat remaining tubing stubs when necessary. Oil can ignite when exposed to torch flame. LEGEND IFO — Indoor (Evaporator) Fan On JW — Jumper Wire Fig. 22 — Easy Select Interface Board E. Heat Anticipator Setting The room thermostat heat anticipator must be properly adjusted to ensure proper heating performance. Set the heat anticipator, using an ammeter between the W and R terminals to determine the exact required setting. NOTE: For thermostat selection purposes, use 0.18 amp for the approximate required setting. Failure to make a proper heat anticipator adjustment will result in improper operation, discomfort to the occupants of the conditioned space, and inefficient energy utilization; however, the required setting may be changed slightly to provide a greater degree of comfort for a particular installation. F. Transformer Protection The unit transformer protection may be one of 2 types. The first transformer type may contain an auto. reset overcurrent protector for control circuit protection. If this device trips, it may reset without warning, starting the heating or cooling section of this product. Use caution when servicing; if overcurrent protector continues to trip, there is a problem in the low-voltage electrical circuit, such as an electrical short, ground, or transformer overload. Disconnect power, correct the condition, and check for normal unit operation. The second transformer type is of the energy-limiting type. It is set to withstand a 30-second overload or shorted secondary condition. Proceed as follows to inspect and prepare the unit for initial start-up: 1. Remove all access panels. 2. Read and follow instructions on all WARNING, CAUTION, and INFORMATION labels attached to, or shipped with, unit. 3. Make the following inspections: a. Inspect for shipping and handling damages such as broken lines, loose parts, disconnected wires, etc. b. Inspect for oil at all refrigerant tubing connections and on unit base. Detecting oil generally indicates a refrigerant leak. Leak-test all refrigerant tubing connections using electronic leak detector, halide torch, or liquid-soap solution. If a refrigerant leak is detected, see Check for Refrigerant Leaks section on page 23. c. Inspect all field- and factory-wiring connections. Be sure that connections are completed and tight. d. Inspect coil fins. If damaged during shipping and handling, carefully straighten fins with a fin comb. 4. Verify the following conditions: CAUTION: Do not purge gas supply into the combustion chamber. Do not use a match or other open flame to check for gas leaks. Failure to follow this warning could result in an explosion causing personal injury or death. —22— a. Before lighting the unit for the first time, perform the following: If the gas supply pipe was not purged before connecting the unit, it will be full of air. It is recommended that the ground joint union be loosened, and the supply line be allowed to purge until the odor of gas is detected. Never purge gas lines into a combustion chamber. Immediately upon detection of gas odor, retighten the union. Allow 5 minutes to elapse, then light unit. b. Make sure that condenser-fan blade is correctly positioned in fan orifice. Leading edge of condenser-fan blade should be 1⁄2 in. maximum from plastic fan orifice (see Fig. 23). c. Make sure that air filter(s) is in place. d. Make sure that condensate drain trap is filled with water to ensure proper drainage. e. Make sure that all tools and miscellaneous loose parts have been removed. Fig. 23 — Fan Blade Clearance START-UP I. CHECK FOR REFRIGERANT LEAKS Proceed as follows to locate and repair a refrigerant leak and to charge the unit: 1. Locate leak and make sure that refrigerant system pressure has been relieved and reclaimed from both highand low-pressure ports. 2. Repair leak following accepted practices. NOTE: Install a filter drier whenever the system has been opened for repair. 3. Add a small charge of R-22 refrigerant vapor to system and leak-test unit. 4. Evacuate and reclaim refrigerant from refrigerant system if additional leaks are not found. 5. Charge unit with R-22 refrigerant, using a volumetriccharging cylinder or accurate scale. Refer to unit rating plate for required charge. Be sure to add extra refrigerant to compensate for internal volume of filter drier. II. START UP HEATING SECTION AND MAKE ADJUSTMENTS CAUTION: Complete the required procedures given in Pre-Start-Up section on page 22 before starting the unit. Do not jumper any safety devices when operating the unit. Make sure that burner orifices are properly aligned. Unstable operation may occur when the burner orifices in the manifold are misaligned. Follow the lighting instructions on the heating section operation label (located inside the burner or blower access door) to start the heating section. NOTE: Make sure that gas supply has been purged, and that all gas piping has been checked for leaks. A. Check Heating Control Start and check the unit for proper heating control operation as follows. (See furnace lighting instructions located inside burner or blower access panel.) 1. Place the room thermostat SYSTEM switch in the HEAT position and the fan switch in the AUTO. position. 2. Set the heating temperature control of the thermostat above room temperature. 3. The induced-draft motor will start. 4. After a call for heating, the main burner should light within 5 seconds. If the burners do not light, there is a 22-second delay before another 5-second try. If the burners still do not light, this sequence is repeated. If the burners do not light within 15 minutes from the initial call for heat, there is a lockout. To reset the control, break the 24-v power to W. 5. The evaporator fan will turn on 45 seconds after the flame has been established. The evaporator fan will turn off 45 seconds after the thermostat has been satisfied. B. Check Gas Input Check gas input and manifold pressure after unit start-up. (See Table 5.) If adjustment is required proceed as follows. The rated gas inputs shown in Table 5 are for altitudes from sea level to 2000 ft above sea level. These inputs are based on natural gas with a heating value of 1050 Btu/ft3 at 0.65 specific gravity, or propane gas with a heating value of 2500 Btu/ft3 at 1.5 specific gravity. For elevations above 2000 ft, reduce input 4% for each 1000 ft above sea level. When the gas supply being used has a different heating value or specific gravity, refer to national and local codes, or contact your distributor to determine the required orifice size. CAUTION: These units are designed to consume the rated gas inputs using the fixed orifices at specified manifold pressures as shown in Table 5. DO NOT REDRILL THE ORIFICES UNDER ANY CIRCUMSTANCES. C. Adjust Gas Input The gas input to the unit is determined by measuring the gas flow at the meter or by measuring the manifold pressure. Measuring the gas flow at the meter is recommended for natural gas units. The manifold pressure must be measured to determine the input of propane gas units. —23— Table 5 — Rated Gas Inputs at Indicated Manifold Pressures UNIT 588A, 589A 018040, 024060, 030080, 048080, 036100, 036120, 048140, 024040, 030060, 036080, 060080 042100, 042120, 060140 NUMBER OF ORIFICES GAS SUPPLY PRESSURE (in. wg) MANIFOLD PRESSURE (in. wg) NATURAL GAS PROPANE* Min Max Min Max Natural Propane 030040 036060, 042060 042080, 1 2 4.0 4.0 13.0 13.0 4.0 4.0 13.0 13.0 3.5 3.5 3.1 3.3 Orifice Drill Size 32 40 2 4.0 13.0 4.0 13.0 3.5 3.4 32 80,000 42 80,000 048100, 060100 048120, 060120 2 3 3 4.0 4.0 4.0 13.0 13.0 13.0 4.0 4.0 4.0 13.0 13.0 13.0 3.5 3.5 3.5 3.7 3.5 3.4 30 32 31 95,000 120,000 136,000 40 42 40 95,000 115,000 133,000 Natural Propane Heating Input (Btuh)† 40,000 56,000 Orifice Drill Size 41 47 Heating Input (Btuh)† 40,000 54,000 * When a unit is converted to propane, different size orifices must be used. See separate natural-to-propane conversion kit instructions. †Based on altitudes from sea level to 2000 ft above sea level. For altitudes above 2000 ft: reduce input rating 4% for each additional 1000 ft above 2000 ft. In Canada, from 2000 ft above sea level to 4500 ft above sea level, derate the unit 10%. NOTE: Unit size 018 is 588A only. Measure Gas Flow (Natural Gas Units) Minor adjustment to the gas flow can be made by changing the manifold pressure. The manifold pressure must be maintained between 3.4 and 3.6 in. wg. If larger adjustments are required, change main burner orifices following the recommendations of national and local codes. NOTE: All other appliances that use the same meter must be turned off when gas flow is measured at the meter. Proceed as follows: 1. Turn off gas supply to unit. 2. Remove pipe plug on manifold (see Fig. 24), then connect manometer at this point. Turn on gas to unit. 3. Record number of seconds for gas meter test dial to make one revolution. 4. Divide number of seconds in Step 3 into 3600 (number of seconds in one hour). 5. Multiply result of Step 4 by the number of cu ft shown for one revolution of test dial to obtain cu ft of gas flow per hour. 6. Multiply result of Step 5 by Btu heating value of gas to obtain total measured input in Btuh. Compare this value with heating input shown in Table 5. (Consult the local gas supplier if the heating value of gas is not known.) EXAMPLE: Assume that the size of test dial is 1 cu ft, one revolution takes 30 seconds, and the heating value of the gas is 1050 Btu/ft3. Proceed as follows: 1. 30 seconds to complete one revolution. 2. 3600 ÷ 30 = 120. 3. 120 x 1 = 120 ft3 of gas flow/hr. 4. 120 x 1050 = 126,000 Btuh input. If the desired gas input is 120,000 Btuh, only a minor change in the manifold pressure is required. Observe manifold pressure and proceed as follows to adjust gas input: 1. Remove cover screw over regulator adjustment screw on gas valve. 2. Turn regulator adjustment screw clockwise to increase gas input, or turn regulator adjustment screw counterclockwise to decrease input. Manifold pressure must be between 3.4 and 3.6 in. wg. —24— MANIFOLD PIPE PLUG Fig. 24 — Burner Assembly WARNING: Unsafe operation of the unit may result if manifold pressure is outside this range. Personal injury or unit damage may result. 3. Replace cover screw cap on gas valve. 4. Turn off gas supply to unit. Remove manometer from pressure tap and replace pipe plug on gas valve. Turn on gas to unit and check for leaks. Measure Manifold Pressure (Propane Units) The main burner orifices on a propane gas unit are sized for the unit rated input when the manifold pressure reading matches the level specified in Table 5. Proceed as follows to adjust gas input on a propane gas unit: 1. Turn off gas to unit. 2. Remove pipe plug on manifold (see Fig. 24), then connect manometer at this point. 3. Turn on gas to unit. 4. Remove cover screw over regulator adjustment screw on gas valve. 5. Adjust regulator adjustment screw to the correct manifold pressure, as specified in Table 5. Turn adjusting screw clockwise to increase manifold pressure, or turn adjusting screw counterclockwise to decrease manifold pressure. Fig. 25 — Monoport Burners 6. Replace cover screw. E. Airflow and Temperature Rise 7. Turn off gas to unit. Remove manometer from pressure tap. Replace pipe plug on gas valve, then turn on gas to unit. Check for leaks. The heating section for each size unit is designed and approved for heating operation within the temperature-rise range stamped on the unit rating plate. Table 6 shows the approved temperature-rise range for each heating input, and the air delivery cfm at various temperature rises. The heating operation airflow must produce a temperature rise that falls within the approved range. Refer to Indoor Airflow and Airflow Adjustments section on page 35 to adjust heating airflow when required. D. Check Burner Flame With burner access panel removed, observe the unit heating operation. Watch the burner flames to see if they are light blue and soft in appearance, and that the flames are approximately the same for each burner. Propane will have blue flame with yellow tips. See Fig. 25. Refer to Maintenance section for information on burner removal. Table 6 — Air Delivery (Cfm) at Indicated Temperature Rise and Rated Heating Input HEATING INPUT (Btuh) 40,000 56,000 80,000 95,000 120,000 136,000 TEMPERATURE RISE °F 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 1389 2083 2778 3472 4167 5037 1111 1667 2222 2778 3333 4029 926 1389 1852 2315 2778 3358 794 1190 1587 1984 2381 2878 694 1042 1389 1736 2083 2518 617 926 1235 1543 1852 2238 556 833 1111 1389 1667 2014 — 758 1010 1263 1515 1831 — — 926 1157 1389 1679 — — 855 1068 1282 1549 — — 794 992 1190 1439 — — — 926 1111 1343 — — — 868 1042 1259 — — — — 980 1185 — — — — 926 1119 NOTE: Dashed areas do not fall within the approved temperature rise range of the unit. —25— F. Heating Sequence of Operation III. START UP COOLING SECTION AND MAKE ADJUSTMENTS See Fig. 26-33 and unit wiring label. On a call for heating, terminal ‘‘W’’ of the thermostat is energized, starting the induced-draft motor. When the halleffect sensor on the induced-draft motor senses that it has reached the required speed, the burner sequence begins. This function is performed by the integrated gas control (IGC). The evaporator-fan motor is energized 45 seconds after flame is established. When the thermostat is satisfied and ‘‘W’’ is deenergized, the burners stop firing and the evaporator-fan motor shuts off after a 45-second time-off delay. CAUTION: Complete the required procedures given in the Pre-Start-Up section on page 22 before starting the unit. Do not jumper any safety devices when operating the unit. Do not operate the compressor when the outdoor temperature is below 40 F (unless accessory low-ambient kit is installed). A LED (light-emitting diode) indicator is provided on the control board to monitor operation. The control board is located by removing the burner access panel. During normal operation, the LED is continuously on. See Table 7 for error codes. Do not rapid-cycle the compressor. Allow 5 minutes between ‘‘on’’ cycles to prevent compressor damage. Table 7 — LED Indications ERROR CODE Normal Operation Hardware Failure Fan On/Off Delay Modified Limit Switch Fault Flame Sense Fault Four Consecutive Limit Switch Faults Ignition Lockout Fault Induced-Draft Motor Fault Rollout Switch Fault Internal Control Fault Checking Cooling Control Operation Start and check the unit for proper cooling control operation as follows: 1. Place room thermostat SYSTEM switch in OFF position. Observe that blower motor starts when FAN switch is placed in ON position and shuts down when FAN switch is placed in AUTO. position. 2. Place SYSTEM switch in COOL position and FAN switch in AUTO. position. Set cooling control below room temperature. Observe that compressor, condenser fan, and evaporator blower motors start. Observe that cooling cycle shuts down when control setting is satisfied. The evaporator fan will continue to run for 30 seconds. 3. When using an auto.-changeover room thermostat, place both SYSTEM and FAN switches in AUTO. positions. Observe that unit operates in heating mode when temperature control is set to ‘‘call for heating’’ (above room temperature) and operates in cooling mode when temperature control is set to ‘‘call for cooling’’ (below room temperature). LED INDICATION On Off 1 Flash 2 Flashes 3 Flashes 4 Flashes 5 Flashes 6 Flashes 7 Flashes 8 Flashes NOTES: 1. There is a 3-second pause between error code displays. 2. If more than one error code exists, all applicable error codes will be displayed in numerical sequence. 3. This chart is on the wiring diagram located inside the burner access panel. G. Limit Switches Normally-closed limit switch (LS) completes the control circuit through the thermostat R circuit. Should the leaving-air temperature rise above the maximum allowable temperature, the limit switch opens and the R control circuit ‘‘breaks.’’ Any interruption in the R control circuit instantly closes the gas valve and stops gas flow to the burners and pilot. The blower motor continues to run until LS resets. When the air temperature at the limit switch drops to the low-temperature setting of the limit switch, the switch closes and completes the R control circuit. The electric-spark ignition system cycles and the unit returns to normal heating operation. IMPORTANT: Three-phase, scroll compressor units (588A048,060 and 589A036-060) are direction-oriented. These units must be checked to ensure proper compressor 3-phase power lead orientation. If not corrected within 5 minutes, the internal protector will shut off the compressor. The 3-phase power leads to the unit must be reversed to correct rotation. When turning backwards, scroll compressors emit elevated noise levels, and the difference between compressor suction and discharge pressures may be dramatically lower than normal. H. Auxiliary Limit Switch — Rollout The function of the switch is to close the main gas valve in the event of flame rollout. The switch is located above the main burners. When the temperature at the auxiliary switch reaches the maximum allowable temperature, the R control circuit trips, closing the gas valve and stopping gas flow to the burners. The indoor (evaporator) fan motor (IFM) and induced draft motor continue to run until switch is reset. —26— (Text continued on page 35.) LEGEND AWG BR C CAP CH COMP CR EQUIP FL FS FU GND GVR HS HV TRAN I IDM IFM IGC IP LS MGV NEC OFM — — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Crankcase Heater Compressor Motor Combustion Relay Equipment Fuse Link Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Internal Protector Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor PWR QT RS TRAN NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. Fig. 26 — 208/230-1-60 Wiring Diagram, Units 588A018-060 —27— — — — — Power Quadruple Terminal Rollout Switch Transformer Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND AWG BR C CAP CH COMP CR EQUIP FL FS FU GND GVR HS HV TRAN I IDM IFM IGC IP LS MGV NEC OFM — — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Crankcase Heater Compressor Motor Combustion Relay Equipment Fuse Link Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Internal Protector Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor PWR QT RS TRAN NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. Fig. 27 — 208/230-3-60 Wiring Diagram, Units 588A030-060 —28— — — — — Power Quadruple Terminal Rollout Switch Transformer Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND AWG BR C CAP CH COMP CR EQUIP FS FU GND GVR HS HV TRAN I IDM IFM IGC LS MGV NEC OFM PWR — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Crankcase Heater Compressor Motor Combustion Relay Equipment Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor Power QT — Quadruple Terminal RS — Rollout Switch TRAN — Transformer NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. Fig. 28 — 460-3-60 Wiring Diagram, Units 588A036-060 —29— Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. AWG BR C CAP COMP CR EQUIP FL FS FU GND GVR HS HV TRAN I IDM IFM IGC LS MGV NEC OFM PWR — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Compressor Motor Combustion Relay Equipment Fuse Link Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor Power QT RS ST TRAN Fig. 29 — 208/230-1-60 Wiring Diagram, Units 589A024-042 —30— — — — — Quadruple Terminal Rollout Switch Start Thermistor Transformer Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. AWG BR C CAP COMP CR EQUIP FL FS FU GND GVR HS HV TRAN I ICM IDM IFM IGC LS MGV NEC OFM — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Compressor Motor Combustion Relay Equipment Fuse Link Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Integrated Control Motor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor PWR QT RS SEC TRAN Fig. 30 — 208/230-1-60 Wiring Diagram, Units 589A048,060 —31— — — — — — Power Quadruple Terminal Rollout Switch Secondary Transformer Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND AWG BR C CAP COMP CR EQUIP FL FS FU GND GVR HS HV TRAN I IDM IFM IGC LS MGV NEC OFM PWR — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Compressor Motor Combustion Relay Equipment Fuse Link Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor Power QT — Quadruple Terminal RS — Rollout Switch TRAN — Transformer NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. Fig. 31 — 208/230-3-60 Wiring Diagram, Units 589A036-042 —32— Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. AWG BR C CAP COMP CR EQUIP FL FS FU GND GVR HS HV TRAN I ICM IDM IFM IGC LS MGV NEC OFM PWR — — — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Compressor Motor Combustion Relay Equipment Fuse Link Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Integrated Control Motor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor Power QT RS SEC TRAN Fig. 32 — 208/230-3-60 Wiring Diagram, Units 589A048,060 —33— — — — — Quadruple Terminal Rollout Switch Secondary Transformer Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring LEGEND AWG BR C CAP COMP CR EQUIP FS FU GND GVR HS HV TRAN I IDM IFM IGC LS MGV NEC OFM PWR — — — — — — — — — — — — — — — — — — — — — — American Wire Gage Blower Relay Contactor Capacitor Compressor Motor Combustion Relay Equipment Flame Sensor Fuse Ground Gas Valve Relay Hall Effect Sensor High-Voltage Transformer Ignitor Induced-Draft Motor Indoor-Fan Motor Integrated Gas Control Limit Switch Main Gas Valve National Electrical Code Outdoor-Fan Motor Power QT — Quadruple Terminal RS — Rollout Switch TRAN — Transformer NOTES: 1. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent. 2. Use copper conductors only. Fig. 33 — 460-3-60 Wiring Diagram, Units 589A036-048 —34— Field Splice Terminal (Marked) Terminal (Unmarked) Splice Splice (Marked) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To Indicate Common Potential Only, Not to Represent Wiring B. Checking and Adjusting Refrigerant Charge C. Indoor Airflow and Airflow Adjustments The refrigerant system is fully charged with R-22 refrigerant, tested, and factory-sealed. CAUTION: For cooling operation, the recommended airflow is 350 to 450 cfm for each 12,000 Btuh of rated cooling capacity. For heating operation, the airflow must produce a temperature rise that falls within the range stamped on the unit rating plate. NOTE: Adjustment of the refrigerant charge is not required unless the unit is suspected of not having the proper R-22 charge. A superheat charging label is attached to the inside of the compressor access door. The label includes a ‘‘Superheat Charging Table’’ and a ‘‘Required Suction-Tube (F) Temperature’’ chart. An accurate superheat, thermocouple-, or thermistor-type thermometer, a sling psychrometer, and a gage manifold are required when using the superheat charging method for evaluating the unit charge. Do not use mercury or small dial-type thermometers because they are not adequate for this type of measurement. Table 6 shows the temperature rise at various airflow rates. Tables 11-14 show both heating and cooling airflows at various external static pressures. See Tables 15 and 16 for ICM (Integrated Control Motor) units air delivery. Refer to these tables to determine the airflow for the system being installed. See Table 17 for wet coil pressure drop. NOTE: Be sure that all supply- and return-air grilles are open, free from obstructions, and adjusted properly. WARNING: Shut off gas supply then disconnect electrical power to the unit before changing blower speed. Electrical shock can cause personal injury or death. CAUTION: When evaluating the refrigerant charge, an indicated adjustment to the specified factory charge must always be very minimal. If a substantial adjustment is indicated, an abnormal condition exists somewhere in the cooling system, such as insufficient airflow across either coil or both coils. Proceed as follows: 1. Remove caps from low- and high-pressure service fittings. 2. Using hoses with valve core depressors, attach low- and high-pressure gage hoses to low- and high-pressure service fittings, respectively. 3. Start unit in Cooling mode and let unit run until system pressures stabilize. 4. Measure and record the following: a. Outdoor ambient-air temperature (F db). b. Evaporator inlet-air temperature (F wb). c. Suction-tube temperature (F) at low-side service fitting. d. Suction (low-side) pressure (psig). 5. Using ‘‘Superheat Charging Table,’’ compare outdoorair temperature (F db) with evaporator inlet-air temperature (F wb) to determine desired system operating superheat temperature. See Tables 8A-8H and 9A-9F. 6. Using ‘‘Required Suction-Tube Temperature (F)’’ table, compare desired superheat temperature with suction (lowside) operating pressure (psig) to determine proper suctiontube temperature. See Table 10. 7. Compare actual suction-tube temperature with proper suction-tube temperature. Using a tolerance of ± 3° F, add refrigerant if actual temperature is more than 3° F higher than proper suction-tube temperature, or remove refrigerant if actual temperature is more than 3° F lower than required suction-tube temperature. NOTE: If the problem causing the inaccurate readings is a refrigerant leak, refer to Check for Refrigerant Leaks section on page 23. Airflow can be changed by changing the lead connections of the blower motor. Unit 588A two- or 3-speed motors (except size 030) are factory wired for low speed operation. Unit 588A030 is factory wired for medium speed. Units 589A024,036, and 048 (460 v) two- or 3-speed motors are factory wired for low speed; units 589A030 and 042 are factory wired for medium speed. For 208/230-v and A.O. Smith 460-v Blower Motors The motor leads are color-coded as follows: 3-SPEED 2-SPEED black = high speed black = high speed blue = medium speed red = low speed red = low speed To change the speed of the blower motor, remove the fan motor speed leg lead from the blower relay (BR). This wire is attached to terminal BM for single-phase and 3-phase units. To change the speed, remove and replace with lead for desired blower motor speed. Insulate the removed lead to avoid contact with chassis parts. For 460-v GE Motors The motor leads are color coded as follows: 3-SPEED 2-SPEED black = high black = high blue = jumper blue = jumper orange = medium red = low red = low To change the speed of the blower motor, remove fan motor speed lead from the blower relay (BR) and replace with the lead for the desired blower motor speed. The motor speed lead is attached to terminal BM. Insulate removed lead end to avoid contact with chassis parts. On 3-speed motors only, connect orange lead to terminal BM of BR. To select high speed on 460-v GE motors, separate the black (female QC) from the blue lead (male QC) and connect the black lead to the BR. Insulate the blue lead to avoid contact with any chassis parts. —35— For Integrated Control Motors (ICM) To configure the 589A unit, move the 5 Easy Select board wires to the terminals which control the airflow. Refer to the Easy Select interface board (Fig. 22) located next to the terminals and to Fig. 30 and 32. The selection options allow installer to adjust airflow to meet such individual needs as noise and static compensation, etc. MODE LO - Adjust HI - Adjust Perform the following steps for basic system configuration. AUX HEAT RANGE (VIO) — The airflow for unit 589A is preset at the factory. The airflow selection must not be set at a setting lower than the default. Refer to Table 15 for airflow and gas heat input for terminals 1-4. FAN ONLY −15% 15% COOLING −10% 10% HEATING −10% 10% AC/HP TIME DELAY (GRY) — Four motor operation delay options are provided to customize system operation. See table below: AC/HP SIZE (BLU) — The preset factory default selection for AC/HP SIZE (air conditioner/heat pump) is set to 400 cfm/ ton. The selection pins are configured for 350 cfm/ton and 400 cfm/ton. OPTION TERMINAL 30-Sec On/60-Sec Off Delay Profile 1 TYPE (ORN) — The TYPE is a preset factory default selection. The preset factory default setting is AC for the 589A units. Default setting should not be altered. No Delay Option 2 30-Sec Off Delay 45-Sec Off Delay 3 4 AC/HP CFM ADJUST (BLK) — The preset factory default selection is MED. Selections HI and LO will adjust the airflow supplied for all operational modes (see following table). DESCRIPTION Used when it is desirable to allow system coils time to heat up or cool down prior to airflow. Enhances system efficiency. Preset factory default setting for 589A. Used for servicing or when other components are used to perform a delay function (e.g., integrated gas control). Enhances system efficiency. Enhances system efficiency. Table 8A — Superheat Charging Table, 588A018 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 17.3 13.8 10.2 8.2 6.1 * * * * * * 56 18.5 14.9 11.4 8.8 6.2 * * * * * * 58 19.6 16.1 12.5 9.5 6.5 * * * * * * 60 20.8 17.3 13.7 10.2 6.6 5.0 * * * * * 62 24.2 20.7 17.1 13.6 10.0 8.1 6.2 * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 600 Indoor Air — Ewb (F) 64 66 27.7 28.5 24.1 25.7 20.6 22.9 17.0 20.1 13.5 17.3 11.4 15.2 9.4 13.2 7.3 11.1 5.3 9.1 * 6.7 * * 68 29.3 27.3 25.2 23.1 21.1 19.0 17.0 14.9 12.9 10.8 8.8 70 29.3 27.3 25.2 23.9 22.6 20.5 18.5 17.2 15.9 13.8 11.8 72 29.3 27.3 25.2 24.1 24.1 22.0 20.0 19.5 18.9 16.8 14.8 74 29.3 27.3 25.2 25.4 25.6 23.5 21.5 21.7 21.9 19.8 17.8 76 29.3 27.3 25.2 26.1 27.1 25.0 23.0 24.0 24.9 22.8 20.8 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 8B — Superheat Charging Table, 588A024 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 18.2 17.1 16.0 14.8 13.7 11.1 8.5 7.3 6.2 * * 56 19.0 17.6 16.2 14.7 13.3 10.9 8.4 7.5 6.6 * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) 58 19.9 18.1 16.4 14.6 12.9 10.7 8.4 7.7 6.9 * * 60 20.7 18.6 16.6 14.5 12.5 10.4 8.4 7.9 7.3 5.3 * 62 22.5 20.4 18.3 16.3 14.3 12.2 10.1 8.9 7.6 5.5 * INDOOR AIR — CFM 800 Indoor Air — Ewb (F) 64 66 24.2 25.1 22.1 23.0 20.1 21.0 18.0 19.7 16.0 18.4 13.9 16.3 11.9 14.3 9.9 12.2 7.8 10.2 5.8 8.1 * 6.1 68 25.9 23.9 21.8 21.3 20.7 18.7 16.6 14.6 12.5 10.5 8.4 70 26.6 24.9 23.3 22.4 21.5 19.9 18.2 16.6 14.9 13.3 11.6 72 27.2 26.0 24.8 23.5 22.3 21.0 19.8 18.6 17.3 16.1 14.9 74 27.9 27.1 26.2 24.6 23.1 22.2 21.4 20.6 19.7 18.9 18.1 76 28.6 28.1 27.7 25.8 23.8 23.4 23.0 22.6 22.1 21.7 21.3 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. —36— Table 8C — Superheat Charging Table, 588A030 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 14.2 13.6 13.0 10.9 8.9 8.3 7.8 7.3 6.7 * * 56 15.1 14.1 13.0 11.0 8.9 8.4 7.8 7.3 6.7 * * 58 16.1 14.6 13.0 11.0 8.9 8.4 7.8 7.3 6.7 * * 60 17.1 15.0 13.0 10.9 8.9 8.3 7.8 7.3 6.7 * * 62 19.2 17.1 15.1 13.6 12.0 10.9 9.9 9.3 8.8 6.7 * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 1000 Indoor Air — Ewb (F) 64 66 21.3 23.3 19.2 21.3 17.2 19.2 16.1 18.7 15.1 18.2 13.6 16.2 12.0 14.1 11.4 13.6 10.9 13.0 8.9 10.9 6.8 8.9 68 24.7 22.8 20.9 20.1 19.2 17.7 16.1 15.6 15.0 13.0 10.9 70 25.9 24.2 22.6 21.4 20.2 19.2 18.2 17.6 17.1 15.0 13.0 72 27.2 25.7 24.2 22.7 21.2 20.8 20.2 19.7 19.1 17.1 15.0 74 27.8 26.3 24.8 23.6 22.4 21.6 20.9 20.2 19.4 18.0 16.5 76 28.5 26.9 25.4 24.4 23.5 22.5 21.7 20.7 19.8 18.9 18.0 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 8D — Superheat Charging Table, 588A036 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 8.4 5.0 * * * * * * * * * 56 8.4 5.0 * * * * * * * * * 58 8.4 5.0 * * * * * * * * * 60 8.4 5.0 * * * * * * * * * INDOOR AIR — CFM 1200 Indoor Air — Ewb (F) 64 66 68 16.7 18.7 20.7 13.1 15.9 18.6 9.6 13.1 16.6 6.0 10.3 14.5 * 7.5 12.5 * 5.4 10.4 * * 8.4 * * 6.4 * * * * * * * * * 62 12.5 9.0 5.4 * * * * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) 70 22.0 20.0 17.9 15.9 13.9 12.5 11.3 10.0 8.7 9.3 10.0 72 23.4 21.3 19.3 17.3 15.2 14.6 14.1 13.5 13.0 12.4 11.9 74 24.8 22.7 20.6 18.6 16.5 16.8 17.0 17.1 17.3 15.6 13.8 76 26.1 24.0 22.0 20.0 17.9 18.8 19.8 20.7 21.7 18.7 15.8 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 8E — Superheat Charging Table, 588A042 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 11.0 7.5 * * * * * * * * * 56 11.0 7.5 * * * * * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) 58 11.0 7.5 * * * * * * * * * 60 14.0 10.4 6.9 5.9 5.0 * * * * * * 62 17.0 13.4 9.9 8.4 6.9 6.0 * * * * * INDOOR AIR — CFM 1400 Indoor Air — Ewb (F) 64 66 20.0 22.0 16.4 18.9 12.9 15.9 10.8 13.8 8.8 11.8 6.8 10.2 5.0 8.7 * 6.5 * * * * * * 68 24.0 21.4 18.9 16.8 14.8 13.7 12.7 10.5 8.4 8.0 7.7 70 26.0 24.0 21.9 19.8 17.8 17.3 16.7 14.6 12.6 12.0 11.5 72 26.0 25.0 23.2 21.3 19.5 18.6 17.8 16.4 15.1 14.2 13.4 74 27.7 26.1 24.4 22.8 21.1 20.0 18.9 18.2 17.6 16.4 15.3 76 28.6 27.1 25.7 24.9 22.8 21.4 20.0 20.0 20.0 18.6 17.2 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. —37— Table 8F — Superheat Charging Table, 588A048 (Carrier Scroll Compressor) TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 15.5 11.7 8.0 6.0 * * * * * * * 56 15.5 11.8 8.0 6.0 * * * * * * * 58 15.6 11.8 8.0 6.0 * * * * * * * 60 15.6 11.8 8.0 6.0 * * * * * * * 62 17.6 13.9 10.2 8.7 7.2 5.6 * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 1600 Indoor Air — Ewb (F) 64 66 19.6 21.6 16.0 18.0 12.3 14.5 11.3 13.9 10.3 13.4 7.7 9.9 5.2 6.3 * 5.8 * 5.2 * 6.2 * 7.1 68 22.8 20.1 17.4 16.3 15.1 12.4 9.8 9.1 8.4 8.8 9.1 70 24.0 22.2 20.4 18.6 16.8 15.0 13.2 12.5 11.7 11.4 11.1 72 25.2 24.3 23.3 20.9 18.5 17.6 16.7 15.8 14.9 14.0 13.1 74 25.2 24.3 23.3 21.5 19.7 18.7 17.7 17.1 16.5 15.9 15.3 76 25.3 24.3 23.3 22.0 20.8 19.8 18.8 18.4 18.1 17.8 17.5 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 8G — Superheat Charging Table, 588A048 (Copeland Scroll Compressor) TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 19.0 15.4 11.9 8.4 5.0 * * * * * * 56 19.0 15.4 11.9 8.4 5.0 * * * * * * 58 19.0 15.4 11.9 8.4 5.0 * * * * * * 60 19.0 15.4 11.9 8.4 5.0 * * * * * * 62 21.7 18.1 14.6 11.0 7.5 * * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 1600 Indoor Air — Ewb (F) 64 66 24.3 26.0 20.8 22.5 17.2 18.9 13.7 15.4 10.1 11.8 6.6 9.0 * 6.2 * * * * * * * * 68 27.7 24.1 20.6 17.0 13.5 11.4 9.4 7.3 5.3 * * 70 27.9 25.1 22.3 19.5 16.7 14.7 12.6 10.6 8.5 6.9 5.3 72 28.2 26.1 24.0 22.0 20.0 17.9 15.9 13.8 11.8 11.2 10.6 74 28.4 27.1 25.8 24.5 23.2 21.1 19.1 17.0 15.0 15.5 16.0 76 28.6 28.1 27.5 27.0 26.4 24.4 22.3 20.3 18.2 19.8 21.3 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 8H — Superheat Charging Table, 588A060 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * 56 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) 58 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * 60 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * 62 20.1 17.3 14.5 12.4 10.4 8.4 6.3 * * * * INDOOR AIR — CFM 1995 Indoor Air — Ewb (F) 64 66 20.1 22.6 18.0 20.6 16.0 18.5 13.9 16.5 11.9 14.4 9.9 12.4 7.8 10.3 5.8 8.3 * 6.2 * * * * 68 25.2 23.1 21.1 19.0 17.0 14.9 12.9 10.8 8.8 6.7 * 70 25.6 24.0 22.3 20.6 18.9 17.3 15.6 13.9 12.3 10.6 8.9 72 26.1 24.8 23.5 22.2 20.9 19.6 18.3 17.0 15.7 14.4 13.1 74 26.6 25.6 24.7 23.8 22.9 22.0 21.1 20.1 19.2 18.3 17.4 76 27.0 26.5 25.9 25.4 24.9 24.3 23.8 23.2 22.7 22.2 21.6 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. —38— Table 9A — Superheat Charging Table, 589A024 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 22.1 18.5 15.0 9.2 * * * * * * * 56 22.1 18.9 15.4 9.5 * * * * * * * 58 22.8 19.3 15.7 9.7 * * * * * * * 60 23.2 19.6 16.1 9.9 * * * * * * * 62 25.3 22.2 19.2 14.4 9.6 7.2 * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 800 Indoor Air — Ewb (F) 64 66 27.4 29.5 24.8 27.5 22.3 25.4 18.9 23.3 15.5 21.3 12.5 17.8 9.4 14.2 7.1 10.6 * 7.1 * * * * 68 29.8 28.3 26.7 24.7 22.6 20.1 17.5 14.5 11.4 8.4 5.3 70 30.2 29.1 28.1 26.0 24.0 22.4 20.9 18.3 15.8 13.2 10.7 72 30.5 30.0 29.4 27.3 25.3 24.8 24.2 22.1 20.1 18.0 16.0 74 31.3 30.0 28.7 27.4 26.1 25.1 24.2 22.9 21.6 19.5 17.5 76 32.1 30.0 28.0 27.4 26.8 25.5 24.2 23.6 23.1 21.0 19.0 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 9B — Superheat Charging Table, 589A030 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 11.2 7.6 * * * * * * * * * 56 11.2 7.7 * * * * * * * * * 58 11.2 7.7 * * * * * * * * * 60 11.2 7.7 * * * * * * * * * 62 14.9 12.1 9.4 8.5 7.6 * * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 1000 Indoor Air — Ewb (F) 64 66 18.6 22.3 16.6 21.1 14.7 20.0 13.5 18.5 12.3 17.0 10.0 14.2 7.7 11.5 * 5.7 * * * * * * 68 22.4 21.6 20.7 19.3 18.0 16.0 14.1 9.9 5.7 * * 70 22.5 22.0 21.4 20.2 18.9 17.8 16.7 14.0 11.4 8.9 * 72 22.7 22.4 22.1 21.0 19.9 19.6 19.2 18.2 17.1 13.5 10.0 74 22.9 22.5 22.1 21.6 21.1 20.7 20.2 19.4 18.6 15.8 13.0 76 23.1 22.5 22.0 22.1 22.3 21.8 21.2 20.6 20.1 18.0 16.0 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 9C — Superheat Charging Table, 589A036 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 21.3 19.3 17.2 13.6 10.1 6.5 * * * * * 56 21.3 19.3 17.2 13.6 10.1 6.5 * * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) 58 21.3 19.3 17.2 13.6 10.1 6.5 * * * * * 60 21.3 19.3 17.2 13.6 10.1 6.5 * * * * * 62 22.0 20.2 18.5 15.1 11.7 8.8 6.0 * * * * INDOOR AIR — CFM 1200 Indoor Air — Ewb (F) 64 66 22.6 23.3 21.2 22.2 19.7 21.0 16.6 18.0 13.4 15.0 11.2 13.5 9.0 12.0 * 6.0 * * * * * * 68 23.5 22.3 21.1 18.5 15.8 14.6 13.4 8.7 * * * 70 23.7 22.5 21.3 18.9 16.5 15.7 14.8 11.4 8.0 * * 72 23.8 22.6 21.4 19.3 17.3 16.8 16.2 14.1 12.1 10.0 8.0 74 23.3 22.0 20.7 19.4 18.1 17.2 16.2 14.9 13.6 11.5 9.5 76 22.8 21.5 20.1 19.5 19.0 17.6 16.2 15.6 15.1 13.0 11.0 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. —39— Table 9D — Superheat Charging Table, 589A042 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 23.9 21.9 19.8 16.3 12.7 9.2 5.6 * * * * 56 23.9 21.9 19.8 16.3 12.7 9.2 5.6 * * * * 58 23.9 21.9 19.8 16.3 12.7 9.2 5.6 * * * * 60 23.9 21.9 19.8 16.3 12.7 9.2 5.6 * * * * 62 24.4 22.4 20.3 17.9 15.6 12.0 8.5 * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 1400 Indoor Air — Ewb (F) 64 66 24.9 25.5 22.9 23.4 20.8 21.3 19.6 21.3 18.4 21.3 14.9 17.8 11.3 14.2 8.0 10.6 * 7.1 * * * * 68 25.8 23.7 21.7 21.5 21.3 18.7 16.2 13.1 10.1 7.0 * 70 26.1 24.1 22.0 21.7 21.3 19.7 18.2 15.6 13.1 10.5 8.0 72 26.5 24.5 22.4 21.8 21.3 20.8 20.2 18.1 16.1 14.0 12.0 74 25.6 24.0 22.4 21.8 21.3 20.8 20.2 18.9 17.6 15.5 13.5 76 24.7 23.5 22.4 21.8 21.3 20.8 20.2 19.6 19.1 17.0 15.0 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 9E — Superheat Charging Table, 589A048 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 27.2 25.0 22.8 20.6 18.3 13.3 8.2 * * * * 56 27.2 25.0 22.8 20.6 18.3 13.3 8.2 * * * * 58 27.2 25.0 22.8 20.6 18.3 13.3 8.2 * * * * 60 27.2 25.0 22.8 20.6 18.3 13.3 8.2 * * * * 62 27.0 24.8 22.7 20.5 18.3 14.2 10.2 6.3 * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) INDOOR AIR — CFM 1600 Indoor Air — Ewb (F) 64 66 26.7 26.5 24.6 24.5 22.5 22.4 20.4 20.3 18.3 18.3 15.2 16.3 12.2 14.2 8.4 10.6 * 7.1 * * * * 68 26.0 24.5 22.9 21.4 19.8 17.8 15.7 12.9 10.1 7.1 * 70 25.6 24.5 23.5 22.4 21.4 19.3 17.3 15.2 13.1 10.5 8.0 72 25.1 24.6 24.0 23.5 22.9 20.9 18.8 17.5 16.1 14.0 12.0 74 24.5 23.8 23.1 22.4 21.8 20.4 19.0 18.1 17.1 15.3 13.5 76 24.0 23.1 22.2 21.4 20.6 19.9 19.2 18.7 18.2 16.6 15.0 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. Table 9F — Superheat Charging Table, 589A060 TEMP (F) OUTDOOR ENTERING AIR 65 70 75 80 85 90 95 100 105 110 115 SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH SPH 54 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * 56 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * LEGEND Ewb — Entering Wet Bulb SPH — Superheat at Compressor (F) 58 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * 60 20.1 16.5 13.0 10.9 8.9 6.9 5.0 * * * * 62 20.1 17.3 14.5 12.4 10.4 8.4 6.3 * * * * INDOOR AIR — CFM 1995 Indoor Air — Ewb (F) 64 66 20.1 22.6 18.0 20.6 16.0 18.5 13.9 16.5 11.9 14.4 9.9 12.4 7.8 10.3 5.8 8.3 * 6.2 * * * * 68 25.2 23.1 21.1 19.0 17.0 14.9 12.9 10.8 8.8 6.7 * 70 25.6 24.0 22.3 20.6 18.9 17.3 15.6 13.9 12.3 10.6 8.9 72 26.1 24.8 23.5 22.2 20.9 19.6 18.3 17.0 15.7 14.4 13.1 74 26.6 25.6 24.7 23.8 22.9 22.0 21.1 20.1 19.2 18.3 17.4 76 27.0 26.5 25.9 25.4 24.9 24.3 23.8 23.2 22.7 22.2 21.6 *Do not attempt to charge system under these conditions — refrigerant slugging may occur. —40— Table 10 — Required Suction-Tube Temperature (F)* SUPERHEAT TEMP (F) 61.5 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 64.2 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 SUCTION PRESSURE AT SERVICE PORT (psig) 67.1 70.0 73.0 76.0 79.2 39 41 43 45 47 41 43 45 47 49 43 45 47 49 51 45 47 49 51 53 47 49 51 53 55 49 51 53 55 57 51 53 55 57 59 53 55 57 59 61 55 57 59 61 63 57 59 61 63 65 59 61 63 65 67 61 63 65 67 69 63 65 67 69 71 65 67 69 71 73 67 69 71 73 75 69 71 73 75 77 71 73 75 77 79 73 75 77 79 81 75 77 79 81 83 77 79 81 83 85 79 81 83 85 87 82.4 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 85.7 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 *Temperature at suction service valve. Table 11 — Dry-Coil Air Delivery* — Horizontal Discharge at 230 and 460 V — Unit 588A (Deduct 10% from Cfm and Watts for 208 V Operation) UNIT 588A MOTOR SPEED Low 018 High Low 024, 030 Med High Low 036 Med High Low 042 High Low 048 High Low 060 Med High AIR DELIVERY Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm 0.0 230 760 † † 275 857 371 1079 514 1409 473 1253 519 1414 667 1734 678 1540 † † † † † † 1104 1876 1351 2249 † † 0.1 225 745 † † 275 835 368 1063 493 1383 447 1253 500 1366 634 1639 635 1515 820 1825 † † † † 1093 1865 1295 2209 † † EXTERNAL STATIC PRESSURE (in. wg) 0.3 0.4 0.5 0.6 0.7 210 195 170 † † 695 640 540 † † † 270 235 200 † † 850 700 450 † 269 260 257 249 † 782 745 717 663 † 349 345 326 319 304 996 978 919 865 783 460 443 425 401 378 1282 1223 1156 1068 984 418 395 367 346 337 1130 1047 946 865 829 459 439 410 377 357 1234 1162 1074 920 829 593 564 541 506 469 1461 1370 1292 1157 960 580 550 520 493 455 1430 1375 1280 1225 1128 750 700 680 649 612 1685 1610 1525 1485 1355 786 744 706 641 606 1905 1830 1752 1603 1513 905 846 824 804 748 2025 1905 1830 1752 1603 1029 986 938 891 830 1803 1765 1710 1641 1533 1197 1148 1096 1053 994 2097 2036 1959 1882 1781 1343 1296 1247 1191 1129 2231 2152 2060 1975 1859 0.2 220 725 † † 273 802 360 1027 476 1324 427 1172 478 1287 609 1563 604 1475 785 1750 854 2026 † † 1072 1840 1245 2157 1391 2299 *Air delivery values are without air filter and are for dry coil. See Table 17 for wet coil pressure drop. Deduct field-supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. †Unit air delivery is outside of operating range. 0.8 † † † † † † 293 726 344 857 323 768 340 743 436 829 430 1020 570 1215 557 1367 683 1398 769 1425 936 1679 1067 1746 0.9 † † † † † † † † † † † † † † 422 743 † † † † 511 1228 637 1228 733 1345 871 1542 1002 1591 1.0 † † † † † † † † † † † † † † † † † † † † † † † † 697 1264 812 1405 936 1441 NOTE: Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporator-coil icing may occur at airflows below this point. Water blow-off may occur at airflows above 450 cfm per 12,000 Btuh of rated cooling capacity. —41— Table 12 — Dry-Coil Air Delivery* — Downflow Discharge at 230 and 460 V — Unit 588A (Deduct 10% from Cfm and Watts for 208 V Operation) UNIT 588A MOTOR SPEED Low 018 High Low 024, 030 Med High Low 036 Med High Low 042 High Low 048 High Low 060 Med High AIR DELIVERY Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watt Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm 0.0 † † 401 1334 † † † † † † † † † † † † † † † † † † † † † † † † † † 0.1 295 821 376 1253 285 798 378 1011 520 1342 460 1191 511 1316 655 1541 637 1500 790 1750 847 1995 † † 983 1838 1115 2067 1284 2167 0.2 251 817 346 1128 284 761 371 982 511 1309 439 1136 492 1244 631 1458 612 1450 750 1675 784 1901 909 2018 950 1808 1083 2023 1201 2108 *Air delivery values are without air filter and are for dry coil. See Table 17 for wet coil pressure drop. Deduct field-supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. †Unit air delivery is outside of operating range. EXTERNAL STATIC PRESSURE (in. wg) 0.3 0.4 0.5 0.6 0.7 223 201 176 149 124 753 665 536 343 164 322 294 272 250 229 996 816 658 461 246 282 278 274 270 261 727 682 634 581 525 368 362 357 343 332 948 906 858 771 703 487 472 451 431 411 1237 1181 1106 1007 892 423 398 379 349 322 1081 1005 907 795 687 470 450 420 392 364 1178 1104 1005 891 784 603 584 552 522 492 1367 1292 1178 1053 920 587 560 526 493 455 1405 1350 1290 1200 1105 700 679 639 608 574 1604 1509 1421 1323 1221 746 708 646 609 563 1822 1730 1580 1477 1319 852 820 801 751 687 1896 1814 1729 1582 1380 923 885 845 804 751 1755 1702 1628 1553 1446 1045 1006 964 921 872 1957 1891 1807 1723 1612 1166 1131 1092 1053 1001 2038 1968 1882 1796 1676 0.8 † † 219 167 251 450 315 597 385 745 297 579 332 657 459 806 † † 547 1094 516 1178 639 1270 697 1339 823 1501 950 1555 0.9 † † † † 244 371 301 492 362 610 270 471 308 535 433 662 † † † † † † † † 665 1257 783 1392 907 1437 1.0 † † † † 230 304 283 387 341 471 246 349 275 389 398 509 † † † † † † † † 633 1175 742 1282 864 1318 NOTE: Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporatorcoil icing may occur at airflows below this point. Water blow-off may occur at airflows above 450 cfm per 12,000 Btuh of rated cooling capacity. Table 13 — Dry-Coil Air Delivery* — Horizontal Discharge at 230 and 460 V — Unit 589A (Deduct 10% from Cfm and Watts for 208 V Operation) UNIT 589A MOTOR SPEED Low 024, 030 Med High Low 036 Med High Low 042 Med High Low 048** High AIR DELIVERY Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm 0.0 280 820 365 1025 † † 520 1375 575 1520 † † 490 1400 590 1600 † † 1050 1850 † † 0.1 275 810 360 1010 † † 495 1335 560 1490 † † 480 1380 580 1560 † † 1000 1830 † † 0.2 265 755 350 975 490 1300 474 1290 535 1450 † † 470 1340 560 1540 † † 970 1800 † † *Air delivery values are without air filter and are for dry coil. See Table 17 for wet coil pressure drop. Deduct field-supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. †Unit air delivery is outside of operating range. **For 460 v units only. EXTERNAL STATIC PRESSURE (in. wg) 0.3 0.4 0.5 0.6 0.7 255 250 245 240 † 700 660 600 560 † 345 340 330 320 310 940 900 850 800 720 480 470 460 445 430 1255 1200 1150 1080 1005 458 445 425 † † 1240 1200 1140 † † 510 480 460 440 425 1400 1380 1300 1200 1080 † 650 614 575 540 † 1560 1500 1380 1280 460 450 430 410 390 1300 1250 1200 1140 1070 545 525 505 480 450 1470 1430 1360 1300 1220 † † 700 670 640 † † 1780 1670 1600 930 870 810 750 680 1785 1750 1700 1640 1500 1050 1000 930 870 810 2000 1940 1850 1750 1635 0.8 † † 300 630 410 915 † † † † 510 1170 † † 420 1120 600 1480 600 1330 740 1500 0.9 † † † † 390 790 † † † † 480 1060 † † † † 560 1340 † † 665 1300 1.0 † † † † 380 620 † † † † † † † † † † 500 1100 † † † † NOTE: Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporatorcoil icing may occur at airflows below this point. Water blow-off may occur at airflows above 450 cfm per 12,000 Btuh of rated cooling capacity. —42— Table 14 — Dry-Coil Air Delivery* — Downflow Discharge at 230 and 460 V — Unit 589A (Deduct 10% from Cfm and Watts for 208 V Operation) UNIT 589A MOTOR SPEED Low 024, 030 Med High Low 036 Med High Low 042 Med High Low 048** High AIR DELIVERY Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm Watts Cfm 0.0 280 820 365 1025 † † 520 1375 575 1520 † † 490 1400 590 1600 † † 1050 1850 † † 0.1 275 810 360 1010 † † 495 1335 560 1490 † † 480 1380 580 1560 † † 1000 1830 † † EXTERNAL STATIC PRESSURE (in. wg) 0.3 0.4 0.5 0.6 0.7 255 250 245 240 † 700 660 600 560 † 345 340 330 320 310 940 900 850 800 720 480 470 460 445 430 1255 1200 1150 1080 1005 458 445 425 † † 1240 1200 1140 † † 510 480 460 440 425 1400 1380 1300 1200 1080 † 650 614 575 540 † 1560 1500 1380 1280 460 450 430 410 390 1300 1250 1200 1140 1070 545 525 505 480 450 1470 1430 1360 1300 1220 † † 700 670 640 † † 1780 1670 1600 930 870 810 750 680 1785 1750 1700 1640 1500 1050 1000 930 870 810 2000 1940 1850 1750 1635 0.2 265 755 350 975 490 1300 474 1290 535 1450 † † 470 1340 560 1540 † † 970 1800 † † 0.8 † † 300 630 410 915 † † † † 510 1170 † † 420 1120 600 1480 600 1330 740 1500 0.9 † † † † 390 790 † † † † 480 1060 † † † † 560 1340 † † 665 1300 1.0 † † † † 380 620 † † † † † † † † † † 500 1100 † † † † *Air delivery values are without air filter and are for dry coil. See Table 17 for wet coil pressure drop. Deduct field-supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. †Unit air delivery is outside of operating range. **For 460 v units only. NOTE: Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporator-coil icing may occur at airflows below this point. Water blow-off may occur at airflows above 450 cfm per 12,000 Btuh of rated cooling capacity. Table 15 — Dry Coil Air Delivery* — Heating — Horizontal and Downflow Discharge for Integrated Control Motor Units at 230-V (Deduct 10% from Cfm for 208-V Operation) Table 16 — Dry-Coil Air Delivery* — Fan Only and Cooling — Horizontal and Downflow Discharge for Integrated Control Motor Units at 230-V (Deduct 10% from Cfm for 208-V Operation) HEATING INPUT (Btuh) 80,000 100,000 95,000 136,000 UNIT 589A 048 060 EASY SELECT BOARD TERMINALS (Cfm) 1 2 3 4 1300 — — — 1400 1400 — — 1600 1600 1600 — 1750 1750 1750 1750 FAN ONLY (Cfm) 1400 1750 COOLING (Cfm) 1600 2000 *Air delivery values are for dry coil at 230 v. Airflow is independent of external static pressure within 65% of table values up to 0.8 in wg. *Air delivery values are for dry coil at 230 v. Airflow is independent of external static pressure within 65% of table values up to 0.8 in wg. NOTES: 1. Dashed areas do not fall within approved range. 2. The above values occur with the AC/HP CFM ADJUST select jumper set on MED. 3. Airflow can be adjusted 110% or −10% by selecting HI or LO for all modes except FAN ONLY. NOTE: Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporator-coil icing may occur at airflows below this point. Water blow-off may occur at airflows above 450 cfm per 12,000 Btuh of rated cooling capacity. —43— Table 17 — Wet Coil Pressure Drop UNIT SIZE 018* 024 030 036 042 048 060 AIRFLOW (cfm) 600 700 800 900 600 700 800 900 900 1000 1200 1000 1200 1400 1600 1000 1200 1400 1600 1400 1600 1800 1700 1900 2100 2300 MAINTENANCE To ensure continuing high performance, and to minimize the possibility of premature equipment failure, periodic maintenance must be performed on this equipment. This combination heating/cooling unit should be inspected at least once each year by a qualified service person. To troubleshoot heating or cooling of units, refer to tables at the back of the book. PRESSURE DROP (in. wg) 0.069 0.082 0.102 0.116 0.039 0.058 0.075 0.088 0.088 0.095 0.123 0.068 0.088 0.108 0.123 0.048 0.069 0.088 0.102 0.068 0.075 0.088 0.082 0.095 0.108 0.123 NOTE TO EQUIPMENT OWNER: Consult your local dealer about the availability of a maintenance contract. WARNING: The ability to properly perform maintenance on this equipment requires certain expertise, mechanical skills, tools, and equipment. If you do not possess these, do not attempt to perform any maintenance on this equipment other than those procedures recommended in the User’s Manual. FAILURE TO HEED THIS WARNING COULD RESULT IN SERIOUS PERSONAL INJURY AND POSSIBLE DAMAGE TO THIS EQUIPMENT. WARNING: Failure to follow these warnings could result in serious personal injury: 1. Turn off gas supply, then turn off electrical power to the unit before performing any maintenance or service on the unit. 2. Use extreme caution when removing panels and parts. As with any mechanical equipment, personal injury can result from sharp edges, etc. 3. Never place anything combustible either on, or in contact with, the unit. 4. Should overheating occur, or the gas supply fail to shut off, shut off the external main manual gas valve to the unit, then shut off the electrical supply. *Unit 588A only. D. Cooling Sequence of Operation With the room thermostat SYSTEM switch in the COOL position and the FAN switch in the AUTO. position, the cooling sequence of operation is as follows: When the room temperature rises to a point that is slightly above the cooling control setting of the thermostat, the thermostat completes the circuit between thermostat terminal R to terminals Y and G. These completed circuits through the thermostat connect contactor coil (C) (through unit wire Y) and blower relay coil (BR) (through unit wire G) across the 24-v secondary of transformer (TRAN). NOTE: The blower relay coil (BR) is used on standard nonICM units, ICM units use evaporator (indoor) fan on (IFO) connection. The normally-open contacts of energized contactor (C) close and complete the circuit through compressor motor (COMP) to condenser (outdoor) fan motor (OFM). Both motors start instantly. On standard non-ICM units, the set of normally-open contacts of energized relay BR close and complete the circuit through evaporator blower (indoor) fan motor (IFM). On ICM units, the IFO completes the circuit through evaporator blower IFM. The blower motor starts instantly. NOTE: Once the compressor has started and then has stopped, it should not be started again until 5 minutes have elapsed. The cooling cycle remains ‘‘on’’ until the room temperature drops to point that is slightly below the cooling control setting of the room thermostat. At this point, the thermostat ‘‘breaks’’ the circuit between thermostat terminal R to terminals Y and G. These open circuits deenergize contactor coil C and relay coil BR. The condenser and compressor motors stop. After a 30-second delay, the blower motor stops. The unit is in a ‘‘standby’’ condition, waiting for the next ‘‘call for cooling’’ from the room thermostat. CAUTION: Errors made when reconnecting wires may cause improper and dangerous operation. Label all wires prior to disconnection when servicing. The minimum maintenance requirements for this equipment are as follows: 1. Inspect air filter(s) each month. Clean or replace when necessary. 2. Inspect indoor coil, drain pan, and condensate drain each cooling season for cleanliness. Clean when necessary. 3. Inspect blower motor and wheel for cleanliness and check lubrication each heating and cooling season. Clean and lubricate (if required) when necessary. For first heating season, inspect blower wheel bimonthly to determine proper cleaning frequency. 4. Check electrical connections for tightness and controls for proper operation each heating and cooling season. Service when necessary. 5. Check and inspect heating section before each heating season. Clean and adjust when necessary. 6. Check flue hood screen and remove any obstructions if necessary. 7. Check vent screen and clean if necessary. —44— housing, and slide motor and motor mount out of housing. I. AIR FILTER CAUTION: Never operate the unit without a suitable air filter in the return-air duct system. Always replace the filter with the same dimensional size and type as originally installed. See Tables 1 and 2 for recommended filter sizes. 2. Lubricate motor as follows: a. Thoroughly clean all accumulations of dirt or grease from motor housing. b. Remove dust caps or plugs from oil ports located at each end of motor. c. Use a good grade of SAE 20 nondetergent motor oil and put one teaspoon (3⁄16 oz. or 16 to 25 drops) in each oil port. d. Allow time for oil to be absorbed by each bearing, then wipe excess oil from motor housing. e. Replace dust caps or plugs in oil ports. Inspect air filter(s) at least once each month and replace (throwaway-type) or clean (cleanable-type) at least twice during each heating and cooling season or whenever the filter(s) becomes clogged with dust and lint. II. UNIT TOP REMOVAL NOTE: When performing maintenance or service procedures that require removal of the unit top, be sure to perform all of the routine maintenance procedures that require top removal, including: inspection of the heat exchanger area, coil inspection and cleaning, and condensate drain pan inspection and cleaning. Only qualified service personnel should perform maintenance and service procedures that require unit top removal. Refer to the following top removal procedures: 1. Turn off gas supply, then turn off electric power to unit. 2. Remove all screws that secure unit top, including screws around 4 sides and those on top that screw into internal divider panels. Save all screws. 3. Lift top from unit carefully. Set top on edge. 4. Carefully replace and secure unit top to unit, using screws removed in Step 2, when maintenance and/or service procedures are completed. (Be sure to use original screws that have rubber washers to seal out water when securing top to internal divider panels.) III. EVAPORATOR BLOWER AND MOTOR NOTE: Motors without oilers are prelubricated. Do not attempt to lubricate these motors. For longer life, operating economy, and continuing efficiency, clean accumulated dirt and grease from the blower wheel and motor annually. Lubricate the motor every 5 years if the motor is used intermittently (thermostat FAN switch in AUTO. position), or every 2 years if the motor is used continuously (thermostat FAN switch in ON position). WARNING: Turn off the gas supply, then disconnect and tag electrical power to the unit before cleaning and lubricating the blower motor and wheel. Failure to adhere to this warning could cause personal injury or death. 3. Remove and clean blower wheel as follows: a. Ensure proper reassembly by marking wheel orientation. b. Lift wheel from housing. When handling and/or cleaning blower wheel, be sure not to disturb balance weights (clips) on blower wheel vanes. c. Remove caked-on dirt from wheel and housing with a brush. Remove lint and/or dirt accumulations from wheel and housing with vacuum cleaner, using soft brush attachment. Remove grease and oil with mild solvent. d. Reassemble wheel into housing. e. Reassemble motor into housing. Be sure setscrews are tightened on motor shaft flats and not on round part of shaft. f. Reinstall blower access door. 4. Restore electrical power, then gas supply to unit. Start unit and check for proper blower rotation and motor speeds during heating and cooling cycles. IV. FLUE GAS PASSAGEWAYS To inspect the flue collector box and upper areas of the heat exchanger: 1. Remove the combustion blower wheel and motor assembly according to directions in Combustion-Air Blower section on page 46. 2. Remove the 3 screws holding the blower housing to the flue collector box cover (see Fig. 34). 3. Remove the 12 screws holding the flue collector box cover (Fig. 34) to the heat exchanger assembly. Inspect the heat exchangers. 4. Clean all surfaces as required using the wire brush. To clean and lubricate the blower motor and wheel: 1. Remove and disassemble blower assembly as follows: a. Remove blower access door. b. On standard non-ICM units disconnect motor lead from blower relay (BR). Disconnect yellow lead from terminal L2 of the contactor. c. On all units remove blower assembly from unit. Remove screws securing blower to gas partition and slide assembly out. Be careful not to tear insulation in blower compartment. d. Ensure proper reassembly by marking blower wheel and motor in relation to blower housing before disassembly. e. Loosen setscrew(s) that secures wheel to motor shaft, remove screws that secure motor mount brackets to —45— FLUE COLLECTOR BOX INDUCED DRAFT MOTOR MOUNTING PLATE BLOWER HOUSING BURNER RACK MOUNTING SCREW Fig. 34 — Blower Housing and Flue Collector Box 5. To remove motor, remove 4 screws that hold blower housing to mounting plate. Remove the motor cooling fan by removing one setscrew. Remove nuts that hold motor to mounting plate. V. COMBUSTION-AIR BLOWER Clean periodically to assure proper airflow and heating efficiency. Inspect blower wheel every fall and periodically during heating season. For the first heating season, inspect blower wheel bimonthly to determine proper cleaning frequency. To inspect blower wheel, remove draft hood assembly. Shine a flashlight into opening to inspect wheel. If cleaning is required, remove motor and wheel as follows: 1. Remove burner access panel. (See Fig. 35.) 2. Remove the 7 screws that attach induced-draft motor mounting plate to blower housing. (See Fig. 34.) 3. Slide the motor and blower wheel assembly out of the blower housing. (See Fig. 36.) Clean the blower wheel. If additional cleaning is required, continue with Steps 4 and 5. 4. To remove blower, remove 2 setscrews. (See Fig. 36.) 6. To reinstall, reverse the procedure outlined above. VI. LIMIT SWITCH Remove blower panel. Limit switch is located on the gas partition. VII. BURNER IGNITION Unit is equipped with a direct spark ignition 100% lockout system. Ignition module is located in the control box. Module contains a self-diagnostic LED. During servicing, refer to label diagram for LED interpretation. If lockout occurs, unit may be reset by either momentarily interrupting power supply to unit, or turning selector switch to OFF position at the thermostat. VIII. MAIN BURNERS At the beginning of each heating season, inspect for deterioration or blockage due to corrosion or other causes. Observe the main burner flames and adjust if necessary. CAUTION: When servicing gas train, do not hit or plug orifice spuds. BURNER ACCESS PANEL Fig. 35 — Burner Access Panel A. Removal of Gas Train 1. Shut off manual gas valve. 2. Shut off power to unit. 3. Remove burner access panel. (See Fig. 35.) 4. Disconnect gas piping at unit gas valve. 5. Remove wires connected to gas valve. Mark each wire. 6. Remove ignitor and sensor wires at the ignitor module. 7. Remove the mounting screw that attaches the burner rack to the basepan. (See Fig. 34.) 8. Slide the burner rack out of the unit. (See Fig. 34 and 37.) 9. To reinstall, reverse the procedure outlined above. BLOWER HOUSING 2 SETSCREWS (HIDDEN) Fig. 37 — Burner Rack Removed Fig. 36 — Removal of Motor and Blower Wheel —46— IX. CONDENSER COIL, EVAPORATOR COIL, AND CONDENSATE DRAIN PAN Inspect the condenser coil, evaporator coil, and condensate drain pan at least once each year. Proper inspection and cleaning requires the removal of the unit top. See Unit Top Removal section on page 45. The coils are easily cleaned when dry; therefore, inspect and clean the coils either before or after each cooling season. Remove all obstructions, including weeds and shrubs, that interfere with the airflow through the condenser coil. Straighten bent fins with a fin comb. If coated with dirt or lint, clean the coils with a vacuum cleaner, using the soft brush attachment. Be careful not to bend the fins. If coated with oil or grease, clean the coils with a mild detergent-and-water solution. Rinse coils with clear water, using a garden hose. Be careful not to splash water on motors, insulation, wiring, or air filter(s). For best results, spray condenser coil fins from inside to outside the unit. On units with an outer and inner condenser coil, be sure to clean between the coils. Be sure to flush all dirt and debris from the unit base. Inspect the drain pan and condensate drain line when inspecting the coils. Clean the drain pan and condensate drain by removing all foreign matter from the pan. Flush the pan and drain tube with clear water. Do not splash water on the insulation, motor, wiring, or air filter(s). If the drain tube is restricted, clear it with a ‘‘plumbers snake’’ or similar probe device. Ensure that the auxiliary drain port above the drain tube is also clear. X. CONDENSER FAN CAUTION: Keep the condenser fan free from all obstructions to ensure proper cooling operation. Never place articles on top of the unit. Damage to unit may result. 1. Remove 2 screws at bottom and 2 screws along sides of condenser air intake grille and remove plastic grille. 2. Inspect the fan blades for cracks or bends. 3. If fan needs to be removed, loosen the setscrew and slide the fan off the motor shaft. 4. When replacing fan blade, position blade so that leading edge is 1⁄2 in. in front of fan orifice. See Fig. 23. 5. Ensure that setscrew engages the flat area on the motor shaft when tightening. 6. Replace grille. XI. ELECTRICAL CONTROLS AND WIRING Inspect and check the electrical controls and wiring annually. Be sure to turn off the gas supply, and then the electrical power to the unit. Remove the control, blower, and compressor compartment access panels to locate all the electrical controls and wiring. Check all electrical connections for tightness. Tighten all screw connections. If any smoky or burned connections are noticed, disassemble the connection, clean all the parts, restrip the wire end and reassemble the connection properly and securely. After inspecting the electrical controls and wiring, replace all the panels. Start the unit, and observe at least one complete heating cycle and one complete cooling cycle to ensure proper operation. If discrepancies are observed in either or both operating cycles, or if a suspected malfunction has occurred, check each electrical component with the proper electrical instrumentation. Refer to the unit wiring label when making these checkouts. NOTE: Refer to the heating and/or cooling sequence of operation in this publication as an aid in determining proper control operation. XII. REFRIGERANT CIRCUIT Inspect all refrigerant tubing connections and the unit base for oil accumulations annually. Detecting oil generally indicates a refrigerant leak. If oil is detected or if low cooling performance is suspected, leak-test all refrigerant tubing using an electronic leakdetector, halide torch, or liquid-soap solution. If a refrigerant leak is detected, refer to Check for Refrigerant Leaks section on page 23. If no refrigerant leaks are found and low cooling performance is suspected, refer to Checking and Adjusting Refrigerant Charge section on page 35. XIII. GAS INPUT The gas input does not require checking unless improper heating performance is suspected. If a problem exists, refer to Start-Up section on page 23. XIV. EVAPORATOR AIRFLOW The heating and/or cooling airflow does not require checking unless improper performance is suspected. If a problem exists, be sure that all supply- and return-air grilles are open and free from obstructions, and that the air filter is clean. When necessary, refer to Indoor Airflow and Airflow Adjustments section on page 35 to check the system airflow. XV. METERING DEVICE — ACUTROL™ DEVICE This metering device is a fixed orifice and is located in the header to the evaporator coil. XVI. LIQUID LINE STRAINER The liquid line strainer (to protect metering device) is made of wire mesh and located in the liquid line on the inlet side of the metering device. —47— TROUBLESHOOTING Cooling SYMPTOM Compressor and condenser fan will not start. Compressor will not start but condenser fan runs. Three-phase scroll compressor (Units 588A048,060 and 589A036-060 only) makes excessive noise, and there may be a low pressure differential. Compressor cycles (other than normally satisfying thermostat). Compressor operates continuously. Excessive head pressure. Head pressure too low. Excessive suction pressure. Suction pressure too low. CAUSE Power failure Fuse blown or circuit breaker tripped Defective thermostat, contactor, transformer, or control relay Insufficient line voltage Incorrect or faulty wiring Thermostat setting too high Faulty wiring or loose connections in compressor circuit Compressor motor burned out, seized, or internal overload open Defective run/start capacitor, overload, start relay One leg of 3-phase power dead Scroll compressor is rotating in the wrong direction Refrigerant overcharge or undercharge Defective compressor Insufficient line voltage Blocked condenser Defective run/start capacitor, overload or start relay Defective thermostat Faulty condenser-fan motor or capacitor Restriction in refrigerant system Dirty air filter Unit undersized for load Thermostat set too low Low refrigerant charge Leaking valves in compressor Air in system Condenser coil dirty or restricted Dirty air filter Dirty condenser coil Refrigerant overcharged Air in system Condenser air restricted or air short-cycling Low refrigerant charge Compressor valves leaking Restriction in liquid tube High heat load Compressor valves leaking Refrigerant overcharged Dirty air filter Low refrigerant charge Metering device or low side restricted Insufficient evaporator airflow Temperature too low in conditioned area Outdoor ambient below 40 F Field-installed filter-drier restricted —48— REMEDY Call power company. Replace fuse or reset circuit breaker. Replace component. Determine cause and correct. Check wiring diagram and rewire correctly. Lower thermostat setting below room temperature. Check wiring and repair or replace. Determine cause. Replace compressor. Determine cause and replace. Replace fuse or reset circuit breaker. Determine cause. Correct the direction of rotation by reversing the 3-phase power leads to the unit. Shut down unit to allow pressures to equalize. Recover refrigerant, evacuate system, and recharge to capacities shown on nameplate. Replace and determine cause. Determine cause and correct. Determine cause and correct. Determine cause and replace. Replace thermostat. Replace. Locate restriction and remove. Replace filter. Decrease load or increase unit size. Reset thermostat. Locate leak, repair, and recharge. Replace compressor. Recover refrigerant, evacuate system, and recharge. Clean coil or remove restriction. Replace filter. Clean coil. Recover excess refrigerant. Recover refrigerant, evacuate system, and recharge. Determine cause and correct. Check for leaks, repair and recharge. Replace compressor. Remove restriction. Check for source and eliminate. Replace compressor. Recover excess refrigerant. Replace filter. Check for leaks, repair and recharge. Remove source of restriction. Increase air quantity. Check filter — replace if necessary. Reset thermostat. Install low-ambient kit. Replace. Cooling (cont) SYMPTOM Integrated control motor (units 589A048,060 208/230 v) IFM does not run. Integrated control motor (units 589A048,060 208/230 v) IFM runs when it should be off. Integrated control motor (units 589A048,060 208/230 v) IFM operation is intermittent. CAUSE Blower wheel not secured to shaft Insufficient voltage at motor Power connectors not properly seated Motor programmed with a delay profile With thermostat in OFF the voltage on G,Y1,Y/Y2,W with respect to common, should be 1⁄2 of actual low voltage supply Water dripping into motor Connectors not firmly seated REMEDY Properly tighten blower wheel to shaft. Determine cause and correct. Connectors should snap easily; do not force. Allow a few minutes for motor to shut off. If measured voltage is more than 1⁄2, the thermostat is incompatible with motor. If voltage is less than 1⁄2, the motor has failed. Verify proper drip loops in connector wires. Gently pull wires individually to be sure they are crimped into the housing. IFM — Evaporator (Indoor) Fan Motor Heating SYMPTOM Burners will not ignite. CAUSE Water in gas line No power to furnace No 24-v power supply to control circuit Miswired or loose connections Burned-out heat anticipator in thermostat Broken thermostat wire Misaligned spark electrodes No gas at main burners Inadequate heating. Dirty air filter Gas input to furnace too low Unit undersized for application Restricted airflow Blower speed too low Limit switch cycles main burners Poor flame characteristics. Incomplete combustion results in: Aldehyde odors, carbon monoxide, sooting flame, floating flame —49— REMEDY Drain. Install drip leg. Check power supply fuses, wiring, or circuit breaker. Check transformer. NOTE: Some transformers have internal overcurrent protection that requires a cool-down period to reset. Check all wiring and wirenut connections. Replace thermostat. Run continuity check. Replace wire if necessary. Check flame ignition and sense electrode positioning. Adjust as necessary. 1. Check gas line for air. Purge as necessary. NOTE: After purging gas line of air, wait at least 5 minutes for any gas to dissipate before attempting to light unit. 2. Check gas valve. Clean or replace filter as necessary. Check gas pressure at manifold. Match with that on unit nameplate. Replace with proper unit or add additional unit. Clean or replace filter. Remove any restriction. Use faster speed tap if available, or install alternate motor. Check rotation of blower, thermostat heat anticipator settings, temperature rise of unit. Adjust as necessary. 1. Tighten all screws around burner compartment. 2. Cracked heat exchanger. Replace. 3. Unit overfired. Reduce input (change orifices or adjust gas line or manifold pressure). 4. Check burner alignment. LED Troubleshooting — Error Code SYMPTOM Hardware failure. (LED OFF) CAUSE Loss of power to control module (IGC). Limit switch fault. (LED 2 flashes) High temperature limit switch is open. Flame sense fault. (LED 3 flashes) 4 consecutive limit switch faults. (LED 4 flashes) Ignition lockout. (LED 5 flashes) The IGC sensed flame that should not be present. Inadequate airflow to unit. Induced-draft motor fault. (LED 6 flashes) IGC does not sense that induceddraft motor is operating. Rollout switch fault. (LED 7 flashes) Rollout switch has opened. Internal control fault. (LED 8 flashes) Microprocessor has sensed an error in the software or hardware. Unit unsuccessfully attempted ignition for 15 minutes. REMEDY Check 5 amp fuse on IGC, power to unit, 24-v circuit breaker, and transformer. Units without a 24-v circuit breaker have an internal overload in the 24-v transformer. If the overload trips, allow 10 minutes for automatic reset. Check the operation of the indoor (evaporator) fan motor. Ensure that the supply-air temperature rise is in accordance with the range on the unit nameplate. Reset unit. If problem persists, replace control board. Check operation of indoor (evaporator) fan motor and that supply-air temperature rise agrees with range on unit nameplate information. Check ignitor and flame sensor electrode spacing, gaps, etc. Ensure that flame sense and ignition wires are properly terminated. Verify that unit is obtaining proper amount of gas. Check for proper voltage. If motor is operating, check the speed sensor plug/IGC Terminal J2 connection. Proper connection: PIN 1 — White, PIN 2 — Red, PIN 3 — Black. Rollout switch will automatically reset, but IGC will continue to lockout unit. Check gas valve operation. Ensure that induced-draft blower wheel is properly secured to motor shaft. Reset unit at unit disconnect. If error code is not cleared by resetting unit power, replace the IGC. IMPORTANT: Refer to Heating troubleshooting chart for additional WARNING: If the IGC must be replaced, be sure to ground troubleshooting analysis. yourself to dissipate any electrical charge that may be present before handling new control board. The IGC is sensitive to static electricity and may be damaged if the necessary precautions are not taken. LEGEND IGC — Integrated Gas Unit Controller LED — Light-Emitting Diode SERVICE TRAINING Packaged Service Training programs are an excellent way to increase your knowledge of the equipment discussed in this manual, including: • Unit Familiarization • Installation Overview • Maintenance • Operating Sequence A large selection of product, theory, and skills programs are available, using popular video-based formats and materials. All include video and/or slides, plus companion book. Classroom Service Training which includes ‘‘hands-on’’ experience with the products in our labs that can mean increased confidence that really pays dividends in faster troubleshooting and fewer callbacks. Course descriptions and schedules are in our catalog. CALL FOR FREE CATALOG 1-800-962-9212 [ Copyright 1998 Bryant Heating & Cooling Systems ] Packaged Service Training [ ] Classroom Service Training CATALOG NO. CATALOG NO. 5358-802 I. PRELIMINARY INFORMATION MODEL NO.: SERIAL NO.: DATE: TECHNICIAN: II. PRE-START-UP (insert checkmark in box as each item is completed) M VERIFY THAT ALL PACKING MATERIALS HAVE BEEN REMOVED FROM UNIT M VERIFY THAT CONDENSATE CONNECTION IS INSTALLED PER INSTALLATION INSTRUCTIONS M CHECK ALL ELECTRICAL CONNECTIONS AND TERMINALS FOR TIGHTNESS M CHECK GAS PIPING FOR LEAKS M CHECK THAT INDOOR (EVAPORATOR) AIR FILTER IS CLEAN AND IN PLACE M VERIFY THAT UNIT INSTALLATION IS LEVEL M CHECK FAN WHEEL AND PROPELLER FOR LOCATION IN HOUSING/ORIFICE AND SETSCREW TIGHTNESS III. START-UP ELECTRICAL SUPPLY VOLTAGE L1-L2 L2-L3 L3-L1 COMPRESSOR AMPS L1 L2 L3 COMPRESSOR AMPS L1 L2 L3 INDOOR (EVAPORATOR) FAN AMPS TEMPERATURES OUTDOOR (CONDENSER) AIR TEMPERATURE RETURN-AIR TEMPERATURE DB DB WB CUT ALONG DOTTED LINE COOLING SUPPLY AIR GAS HEAT SUPPLY AIR PRESSURES GAS INLET PRESSURE IN. WG GAS MANIFOLD PRESSURE IN. WG REFRIGERANT SUCTION PSIG REFRIGERANT DISCHARGE PSIG M VERIFY REFRIGERANT CHARGE USING CHARGING TABLES M VERIFY THAT 3-PHASE SCROLL COMPRESSOR (588A048,060 AND 589A036-060 UNITS) ROTATING IN CORRECT DIRECTION Copyright 1998 Bryant Heating & Cooling Systems CUT ALONG DOTTED LINE (Remove and Store in Job File) - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - START-UP CHECKLIST CL-1 CATALOG NO. CATALOG NO. 5358-802
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