GCH C - Aclima - дистрибьютор климатического...

SS-IGCH7 www.goodmanmfg.com 10/14Supersedes 6/14

Cooling Capacity: 87,000 — 116,000 BTU/hHeating Capacity: 87,000 — 120,000 BTU/h

GCH CommerCial

7½- TO 10-TON THREE-PHASE PACKAGED HEAT PUMP

UP TO 11.5 EER & 3.4 COP

■ ContentsNomenclature ......................... 2Product Specifications ............ 3Expanded Cooling Data ......... 4Expanded Heating Data ........ 10Airflow Data .......................... 11Heat Kit Electrical Data ........ 14Dimensions .......................... 15Wiring Diagrams .................. 19Accessories ........................... 2

■ Standard Features• R-410A chlorine-free refrigerant• High-efficiency scroll compressors• Suitable to operate at 125° F

ambient temperature• Two-stage cooling• Copper tube / aluminum fin coils• Power block for field wiring• High-capacity, steel-cased filter drier• Single-point entry• 24-volt terminal strip• Convertible airflow orientation• Easy to service• Built-in filter rack with standard 2” filters

■ Cabinet Features• Heavy-gauge, galvanized-steel cabinet

with UV-resistant powder-paint finish• Full perimeter rail• Sloped drain pan

2 www.goodmanmfg.com SS-IGCH7

Product SPecificationS Product SPecificationS

NomeNclature

G C H 090 045 5 B * * * A *1 2 3 4,5,6 7,8,9 10 11 12 13 14 15 16

Revision LevelsMajor & Minor

Brand Factory-‐Installed Op7onsG Goodman X No OpAons

Configura7on Factory-‐Installed Op7onsC Commercial X Standard Aluminized Heat Exchanger

S Stainless-‐Steel Heat ExchangerApplica7on

C Cooling Factory-‐Installed Op7onsG Gas Heat X No OpAonsH Heat Pump

Supply Fan/Drive Type/MotorNominal Cooling Capacity B Belt Drive036 3 Tons 102 8½ Tons048 4 Tons 120 10 Tons060 5 Tons 180 15 Tons072 6 Tons 240 20 Tons Voltage090 7½ Tons 1 208-‐230/1/60 4 460/3/60

3 208-‐230/3/60 5 400/3/50Nominal Hea7ng CapacityGas/Electric A/C H/P Factory-‐Installed Electric Heat180 180,000 BTU/h XXX No Heat 030 30 kW300 300,000 BTU/h 016 15 kW 045 44 kW350 350,000 BTU/h

See product specificaAons for heat size(s) available for each capacity.

accessories

Filed-Installed Item #

DescriptionFits

Model Sizes

DDNECNJ90150 Downflow Economizer 7½-10 tons

DHZECNJ90150 Horizontal Economizer 7½-10 tons

Electric Heat Kits All Models

HSKT090 High-Static Kit 7½ tons

HSKT120 High-Static Kit 10 tons

SS-IGCH7 www.goodmanmfg.com 3


Product sPecificatioNs

GCH090***5B***A*

GCH102***5B***A*

GCH120***5B***A*

Cooling Capacity

Total BTU/h 87,000 97,000 116,000

Sensible BTU/h 65,700 73,440 84,700

EER / IEER 11.5 / 11.5 11.1 / 11.2 11.3 / 11.5

Decibels 83 83 83

Heating Capacity

BTU/h / COP (47° F) 87,000 / 3.4 102,000 / 3.4 120,000 / 3.4

BTU/h / COP (17° F) 53,000 / 2.4 55,500 / 2.25 '56,000 / 2.4

Evaporator Motor / Coil

Motor Type Belt Drive Belt Drive Belt Drive

Indoor Nominal CFM 3,000 3,400 4,000

Indoor Motor FLA (Cooling) 4.6 4.6 4.6

Horsepower - RPM 3.0 - 1,725 3.0 - 1,725 3.0 - 1,725

Piston Size (Cooling) 0.074 0.078 0.086

(#) Filter Size (4) 16" x 24" x 2" (4) 16" x 24" x 2" (4) 16" x 24" x 2"

Drain Size (NPT) ¾" ¾" ¾"

R-410A Refrigerant Charge: Cir #1/ #2 (oz.) 225 / 225 195/ 195 194/194

Evaporator Coil Face Area (ft²) 10.2 10.2 10.2

Rows Deep / Fins per Inch 4 / 16 4 / 14 4 / 14

Belt Drive Evap Fan Data

# of Wheels (D x W) 1 (15" x 12") 1 (15" x 15") 1 (15” x 15”)

Motor Sheave / Blower Sheave VL40 / AK59 VL40 / AK59 VL40 / AK59

Belt AX48 AX46 AX46

Condenser Fan / Coil

Quantity of condenser Fan Motors 2 2 2

Horsepower - RPM ⅓ - 1,050 ⅓ - 1,050 ⅓ - 1,050

Fan Diameter / # Fan Blades 22 / 3 22 / 3 22 / 3

Outdoor Expansion Device 0.052 0.059 0.064

Outdoor Nominal CFM 7,200 7,200 7,200

Face Area (ft²) 32.4 32.4 32.4

# Coils / Rows Deep - Fins per Inch 2 X 2 - 20±1 2 X 2 - 22±1 2 X 2 - 22±1

Compressor

Quantity / Type / Stage 2 / Scroll / 1 2 / Scroll / 1 2 / Scroll / 1

Compressor RLA / LRA 6.3/55.0 7.8/52.0 10.9/64.0

Electrical Data

Voltage / Phase / Frequency 400 / 3 / 50 400 / 3 / 50 400 / 3 / 50

Max External Static 1.0" 1.0" 1.0"

Outdoor Fan HP / FLA ⅓ / .85 (2) ⅓ / .85 (2) ⅓ /.85 (2)

Total Unit Amps 18.9 21.9 28.1

Min. Circuit Ampacity¹ 20.5 23.9 30.8

Max. Overcurrent Protection (amps)² 25 30 40

Entrance Power Supply & Control Voltage Locating Dimple Locating Dimple Locating Dimple

Operating Weight (lbs) 1135 1285 1285

Ship Weight (lbs) 1175 1310 1310

¹ Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes.² May use fuses or HACR-type circuit breakers of the same size as noted.Note: Always check the S&R plate for electrical data on the unit being installed.


ExpandEd data ExpandEd data

cooliNg data — 7½ toNsO

utd

oo

r A

mbi

ent

Tem

pera

ture

6575

8595

105

115

Ente

rin

g In

doo

r W

et B

ulb

Tem

pera

ture

IDB

Air

flo

w59

6367

7159

6367

7159

6367

7159

6367

7159

6367

7159

6367

71

70

3375

MBh

85.3

88.4

96.8

-83

.386

.394

.6-

81.3

84.3

92.3

-79

.382

.290

.1-

75.3

78.1

85.6

-69

.872

.379

.3-

S/T

0.75

0.63

0.44

-0.

780.

650.

45-

0.80

0.67

0.46

-0.

830.

690.

48-

0.86

0.72

0.50

-0.

860.

720.

50-

∆T17

1511

-18

1512

-18

1512

-18

1512

-18

1512

-16

1411

-kW

5.67

5.78

5.95

-6.

076.

196.

38-

6.43

6.56

6.76

-6.

746.

887.

10-

7.01

7.16

7.38

-7.

247.

407.

63-

Am

ps12

.512

.712

.9-

13.1

13.4

13.7

-13

.914

.114

.5-

14.6

14.8

15.2

-15

.215

.515

.9-

15.9

16.2

16.6

-H

I PR

234

252

266

-26

228

229

8-

298

321

339

-34

036

638

6-

382

411

434

-42

245

448

0-

LO P

R10

811

512

6-

114

122

133

-11

912

613

8-

125

133

145

-13

113

915

2-

135

144

157

-

3000

MBh

82.8

85.8

94.0

-80

.883

.891

.8-

78.9

81.8

89.6

-77

.079

.887

.4-

73.1

75.8

83.1

-67

.870

.276

.9-

S/T

0.72

0.60

0.42

-0.

740.

620.

43-

0.76

0.64

0.44

-0.

790.

660.

46-

0.82

0.68

0.47

-0.

820.

690.

48-

∆T18

1612

-18

1612

-18

1612

-19

1612

-18

1612

-17

1511

-kW

5.63

5.74

5.90

-6.

036.

156.

33-

6.38

6.51

6.71

-6.

696.

837.

04-

6.96

7.10

7.33

-7.

197.

347.

57-

Am

ps12

.412

.612

.9-

13.1

13.3

13.6

-13

.814

.114

.4-

14.5

14.7

15.1

-15

.115

.415

.8-

15.8

16.1

16.5

-H

I PR

231

249

263

-26

027

929

5-

295

318

336

-33

636

238

2-

378

407

430

-41

845

047

5-

LO P

R10

711

412

4-

113

120

132

-11

812

513

7-

124

132

144

-13

013

815

0-

134

143

156

-

2400

MBh

76.4

79.2

86.8

-74

.677

.384

.7-

72.8

75.5

82.7

-71

.173

.780

.7-

67.5

70.0

76.7

-62

.564

.871

.0-

S/T

0.69

0.58

0.40

-0.

720.

600.

42-

0.74

0.61

0.43

-0.

760.

630.

44-

0.79

0.66

0.46

-0.

800.

660.

46-

∆T20

1813

-21

1813

-21

1813

-21

1814

-20

1813

-19

1613

-kW

5.50

5.61

5.77

-5.

896.

016.

19-

6.23

6.36

6.55

-6.

546.

676.

88-

6.79

6.94

7.15

-7.

027.

167.

39-

Am

ps12

.212

.412

.6-

12.8

13.0

13.3

-13

.613

.814

.1-

14.2

14.4

14.8

-14

.815

.115

.5-

15.5

15.7

16.1

-H

I PR

224

242

255

-25

227

128

6-

286

308

326

-32

635

137

1-

367

395

417

-40

643

646

1-

LO P

R10

411

112

1-

110

117

128

-11

412

113

3-

120

128

139

-12

613

414

6-

130

138

151

-

75

3375

MBh

86.7

89.3

96.6

103.

784

.787

.294

.410

1.3

82.7

85.1

92.1

98.9

80.6

83.0

89.9

96.5

76.6

78.9

85.4

91.6

71.0

73.1

79.1

84.9

S/T

0.86

0.77

0.58

0.37

0.89

0.79

0.60

0.39

0.91

0.81

0.62

0.40

0.94

0.84

0.64

0.41

0.97

0.87

0.66

0.42

0.98

0.88

0.67

0.43

∆T20

1915

1120

1915

1120

1915

1121

1916

1120

1915

1119

1814

10kW

5.71

5.82

5.99

6.17

6.12

6.24

6.43

6.63

6.48

6.61

6.82

7.03

6.80

6.94

7.16

7.38

7.07

7.22

7.44

7.68

7.30

7.46

7.69

7.94

Am

ps12

.512

.713

.013

.413

.213

.413

.714

.114

.014

.214

.615

.014

.714

.915

.315

.715

.315

.616

.016

.416

.016

.316

.717

.2H

I PR

236

254

268

280

265

285

301

314

301

324

342

357

343

369

390

407

386

415

439

458

427

459

485

506

LO P

R10

911

612

713

511

612

313

414

312

012

813

914

912

613

414

615

613

214

115

416

313

714

515

916

9

3000

MBh

84.2

86.7

93.8

100.

782

.284

.691

.698

.380

.382

.689

.496

.078

.380

.687

.393

.774

.476

.682

.989

.068

.970

.976

.882

.4S/

T0.

820.

730.

550.

360.

850.

760.

570.

370.

870.

780.

590.

380.

900.

800.

610.

390.

930.

830.

630.

400.

940.

840.

630.

41∆T

2119

1611

2120

1611

2120

1611

2120

1611

2120

1611

2018

1510

kW5.

675.

785.

956.

136.

076.

196.

386.

586.

436.

566.

766.

976.

756.

897.

107.

327.

017.

167.

397.

627.

257.

407.

637.

88A

mps

12.5

12.7

12.9

13.3

13.1

13.4

13.7

14.0

13.9

14.1

14.5

14.9

14.6

14.8

15.2

15.6

15.2

15.5

15.9

16.3

15.9

16.2

16.6

17.1

HI P

R23

425

226

627

726

228

229

831

129

832

133

935

434

036

638

640

338

241

143

445

342

245

448

050

1LO

PR

108

115

126

134

114

122

133

141

119

126

138

147

125

133

145

154

131

139

152

162

135

144

157

167

2400

MBh

77.7

80.0

86.6

92.9

75.9

78.1

84.6

90.8

74.1

76.3

82.6

88.6

72.3

74.4

80.5

86.4

68.7

70.7

76.5

82.1

63.6

65.5

70.9

76.1

S/T

0.79

0.70

0.53

0.34

0.82

0.73

0.55

0.36

0.84

0.75

0.57

0.36

0.86

0.77

0.58

0.38

0.90

0.80

0.61

0.39

0.90

0.81

0.61

0.39

∆T23

2218

1224

2218

1224

2218

1224

2218

1224

2218

1222

2017

11kW

5.54

5.65

5.81

5.99

5.93

6.05

6.23

6.42

6.28

6.41

6.60

6.81

6.59

6.72

6.93

7.15

6.85

6.99

7.21

7.44

7.07

7.22

7.45

7.69

Am

ps12

.312

.412

.713

.012

.913

.113

.413

.713

.613

.914

.214

.614

.314

.514

.915

.314

.915

.215

.616

.015

.615

.816

.216

.7H

I PR

227

244

258

269

254

274

289

302

289

311

329

343

330

355

375

391

371

399

421

439

410

441

466

486

LO P

R10

511

212

213

011

111

812

913

711

512

313

414

312

112

914

115

012

713

514

715

713

114

015

316

2

IDB:

Ent

erin

g In

door

Dry

Bul

b Te

mpe

ratu

reSh

aded

are

a re

flect

s AC

CA (T

VA) R

ating

Con

ditio

nsA

mps

: Uni

t am

ps (c

omp.

+ ev

apor

ator

+ c

onde

nser

fan

mot

ors)

Hig

h an

d lo

w p

ress

ures

are

mea

sure

d at

the

liqui

d an

d su

ction

acc

ess

fitting

s.D

esig

n Su

perh

eat 7

±2 °F

, Des

ign

Subc

oolin

g 12

±2

°F p

ress

ures

mea

sure

d @

the

sucti

on a

nd li

quid

ser

vice

por

ts, A

HRI

95

test

con

ditio

ns



cooliNg data — 7½ toNs (coNt.)O

utd

oo

r A

mbi

ent

Tem

pera

ture

6575

8595

105

115

Ente

rin

g In

doo

r W

et B

ulb

Tem

pera

ture

IDB

Air

flo

w59

6367

7159

6367

7159

6367

7159

6367

7159

6367

7159

6367

71

80

3375

MBh

88.2

90.2

96.3

103.

086

.288

.194

.110

0.6

84.1

86.0

91.9

98.2

82.1

83.9

89.6

95.8

78.0

79.7

85.1

91.0

72.2

73.8

78.9

84.3

S/T

0.94

0.88

0.72

0.54

1.00

0.91

0.74

0.56

1.00

0.94

0.76

0.57

1.00

0.97

0.79

0.59

1.00

1.00

0.82

0.61

1.00

1.00

0.82

0.62

∆T23

2219

1523

2219

1523

2219

1522

2219

1521

2219

1520

2018

14kW

5.75

5.87

6.04

6.22

6.17

6.29

6.48

6.68

6.53

6.66

6.87

7.08

6.85

7.00

7.21

7.44

7.13

7.28

7.50

7.75

7.36

7.52

7.76

8.01

Am

ps12

.612

.813

.113

.413

.313

.513

.814

.214

.114

.314

.715

.114

.815

.015

.415

.815

.415

.716

.116

.616

.116

.416

.817

.3H

I PR

238

257

271

283

268

288

304

317

304

328

346

361

347

373

394

411

390

420

443

462

431

464

490

511

LO P

R11

011

812

813

711

712

413

614

412

112

914

115

012

713

614

815

813

414

215

516

513

814

716

017

1

3000

MBh

85.7

87.5

93.5

100.

083

.785

.591

.497

.781

.783

.589

.295

.379

.781

.487

.093

.075

.777

.482

.788

.470

.171

.776

.681

.8S/

T0.

900.

840.

680.

510.

930.

870.

710.

530.

950.

890.

730.

540.

980.

920.

750.

561.

000.

960.

780.

581.

000.

960.

780.

59∆T

2423

2016

2423

2016

2423

2016

2423

2016

2323

2016

2121

1815

kW5.

715.

825.

996.

176.

126.

246.

436.

636.

486.

616.

827.

036.

806.

947.

167.

387.

077.

227.

457.

687.

307.

467.

697.

94A

mps

12.5

12.7

13.0

13.4

13.2

13.4

13.7

14.1

14.0

14.2

14.6

15.0

14.7

14.9

15.3

15.7

15.3

15.6

16.0

16.4

16.0

16.3

16.7

17.2

HI P

R23

625

426

828

026

528

530

131

430

132

434

235

734

336

939

040

738

641

543

945

842

745

948

550

6LO

PR

109

116

127

135

116

123

134

143

120

128

139

149

126

134

147

156

132

141

154

164

137

145

159

169

2400

MBh

79.1

80.8

86.3

92.3

77.2

78.9

84.3

90.1

75.4

77.0

82.3

88.0

73.6

75.2

80.3

85.8

69.9

71.4

76.3

81.5

64.7

66.1

70.7

75.5

S/T

0.86

0.81

0.66

0.49

0.90

0.84

0.68

0.51

0.92

0.86

0.70

0.52

0.95

0.89

0.72

0.54

0.98

0.92

0.75

0.56

0.99

0.93

0.76

0.57

∆T26

2522

1726

2522

1827

2522

1827

2622

1826

2522

1825

2420

16kW

5.58

5.69

5.86

6.03

5.98

6.10

6.28

6.47

6.33

6.46

6.66

6.86

6.64

6.78

6.99

7.21

6.90

7.05

7.27

7.50

7.13

7.28

7.51

7.75

Am

ps12

.312

.512

.813

.113

.013

.213

.513

.813

.714

.014

.314

.714

.414

.615

.015

.415

.015

.315

.716

.115

.716

.016

.316

.8H

I PR

229

246

260

271

257

277

292

305

292

315

332

346

333

358

378

395

375

403

426

444

414

445

470

490

LO P

R10

611

312

313

111

211

913

013

911

612

413

514

412

213

014

215

112

813

614

915

913

314

115

416

4

85

3375

MBh

89.8

91.5

95.8

102.

387

.789

.493

.699

.985

.687

.391

.497

.583

.585

.189

.295

.179

.380

.984

.790

.473

.574

.978

.583

.7S/

T0.

980.

950.

860.

701.

000.

980.

890.

721.

001.

000.

910.

741.

001.

000.

940.

761.

001.

000.

980.

791.

001.

000.

980.

80∆T

2424

2219

2424

2320

2324

2320

2323

2320

2222

2319

2020

2118

kW5.

795.

916.

086.

276.

216.

346.

536.

736.

586.

726.

927.

146.

917.

057.

277.

507.

187.

337.

567.

817.

427.

587.

828.

07A

mps

12.7

12.9

13.2

13.5

13.4

13.6

13.9

14.3

14.2

14.4

14.8

15.2

14.9

15.1

15.5

15.9

15.5

15.8

16.2

16.7

16.2

16.5

16.9

17.4

HI P

R24

125

927

428

527

029

130

732

030

733

134

936

435

037

739

841

539

442

444

846

743

546

849

551

6LO

PR

112

119

130

138

118

125

137

146

122

130

142

152

129

137

149

159

135

143

157

167

139

148

162

173

3000

MBh

87.2

88.9

93.1

99.3

85.1

86.8

90.9

97.0

83.1

84.7

88.7

94.7

81.1

82.7

86.6

92.4

77.0

78.5

82.2

87.7

71.4

72.7

76.2

81.3

S/T

0.94

0.91

0.82

0.66

0.97

0.94

0.85

0.69

1.00

0.96

0.87

0.71

1.00

0.99

0.90

0.73

1.00

1.00

0.93

0.76

1.00

1.00

0.94

0.76

∆T25

2523

2025

2524

2025

2524

2025

2524

2124

2423

2022

2222

19kW

5.75

5.87

6.04

6.22

6.17

6.29

6.48

6.68

6.53

6.66

6.87

7.08

6.85

7.00

7.21

7.44

7.13

7.28

7.50

7.75

7.36

7.52

7.76

8.01

Am

ps12

.612

.813

.113

.413

.313

.513

.814

.214

.114

.314

.715

.114

.815

.015

.415

.815

.415

.716

.116

.616

.116

.416

.817

.3H

I PR

238

257

271

283

268

288

304

317

304

328

346

361

347

373

394

411

390

420

443

462

431

464

490

511

LO P

R11

011

812

813

711

712

413

614

412

112

914

115

012

713

614

815

813

414

215

516

513

814

716

017

1

2400

MBh

80.5

82.0

85.9

91.6

78.6

80.1

83.9

89.5

76.7

78.2

81.9

87.4

74.8

76.3

79.9

85.2

71.1

72.5

75.9

81.0

65.9

67.1

70.3

75.0

S/T

0.91

0.87

0.79

0.64

0.94

0.91

0.82

0.66

0.96

0.93

0.84

0.68

0.99

0.96

0.86

0.70

1.00

0.99

0.90

0.73

1.00

1.00

0.91

0.73

∆T28

2726

2228

2826

2328

2826

2328

2826

2327

2826

2325

2624

21kW

5.62

5.73

5.90

6.08

6.02

6.15

6.33

6.52

6.38

6.51

6.71

6.92

6.69

6.83

7.04

7.26

6.96

7.10

7.32

7.56

7.19

7.34

7.57

7.81

Am

ps12

.412

.612

.913

.213

.113

.313

.613

.913

.814

.014

.414

.814

.514

.715

.115

.515

.115

.415

.816

.215

.816

.116

.516

.9H

I PR

231

249

263

274

260

279

295

308

295

318

335

350

336

362

382

399

378

407

430

448

418

450

475

495

LO P

R10

711

412

413

311

312

013

114

011

812

513

714

612

413

114

415

313

013

815

016

013

414

315

616

6

IDB:

Ent

erin

g In

door

Dry

Bul

b Te

mpe

ratu

reSh

aded

are

a re

flect

s A

HRI

Rati

ng C

ondi

tions

Am

ps: U

nit a

mps

(com

p.+

evap

orat

or +

con

dens

er fa

n m

otor

s)H

igh

and

low

pre

ssur

es a

re m

easu

red

at th

e liq

uid

and

sucti

on a

cces

s fitti

ngs.

Des

ign

Supe

rhea

t 7±2

°F, D

esig

n Su

bcoo

ling

12 ±

2 °F

pre

ssur

es m

easu

red

@ th

e su

ction

and

liqu

id s

ervi

ce p

orts

, AH

RI 9

5 te

st c

ondi

tions



cooliNg data — 8½ toNsO

utd

oo

r A

mbi

ent

Tem

pera

ture

6575

8595

105

115

Ente

rin

g In

doo

r W

et B

ulb

Tem

pera

ture

IDB

Air

flo

w59

6367

7159

6367

7159

6367

7159

6367

7159

6367

7159

6367

71

70

3825

MBh

95.1

98.5

107.

9-

92.8

96.2

105.

4-

90.6

93.9

102.

9-

88.4

91.6

100.

4-

84.0

87.1

95.4

-77

.880

.688

.4-

S/T

0.77

0.64

0.44

-0.

800.

670.

46-

0.82

0.68

0.47

-0.

840.

700.

49-

0.88

0.73

0.51

-0.

880.

740.

51-

∆T18

1512

-18

1512

-18

1512

-18

1612

-18

1512

-17

1411

-kW

6.44

6.57

6.76

-6.

907.

047.

26-

7.31

7.46

7.69

-7.

677.

838.

08-

7.98

8.15

8.41

-8.

248.

428.

69-

Am

ps13

.213

.413

.7-

13.9

14.1

14.5

-14

.715

.015

.3-

15.4

15.7

16.1

-16

.216

.416

.8-

16.9

17.2

17.6

-H

I PR

234

252

266

-26

228

229

8-

298

321

339

-34

036

638

6-

382

411

434

-42

245

448

0-

LO P

R10

811

512

6-

114

122

133

-11

912

613

8-

125

133

145

-13

113

915

2-

135

144

157

-

3400

MBh

92.3

95.6

104.

8-

90.1

93.4

102.

4-

88.0

91.2

99.9

-85

.889

.097

.5-

81.6

84.5

92.6

-75

.578

.385

.8-

S/T

0.73

0.61

0.42

-0.

760.

630.

44-

0.78

0.65

0.45

-0.

800.

670.

47-

0.83

0.70

0.48

-0.

840.

700.

49-

∆T18

1612

-19

1612

-19

1612

-19

1612

-18

1612

-17

1511

-kW

6.39

6.52

6.71

-6.

856.

997.

20-

7.26

7.41

7.63

-7.

617.

778.

01-

7.92

8.08

8.34

-8.

188.

358.

62-

Am

ps13

.113

.313

.6-

13.8

14.0

14.4

-14

.614

.915

.2-

15.3

15.6

16.0

-16

.016

.316

.7-

16.7

17.0

17.5

-H

I PR

231

249

263

-26

027

929

5-

295

318

336

-33

636

238

2-

378

407

430

-41

845

047

5-

LO P

R10

711

412

4-

113

120

132

-11

812

513

7-

124

132

144

-13

013

815

0-

134

143

156

-

2720

MBh

85.2

88.3

96.7

-83

.286

.294

.5-

81.2

84.2

92.2

-79

.282

.190

.0-

75.3

78.0

85.5

-69

.772

.379

.2-

S/T

0.71

0.59

0.41

-0.

730.

610.

42-

0.75

0.63

0.43

-0.

780.

650.

45-

0.80

0.67

0.47

-0.

810.

680.

47-

∆T20

1813

-21

1814

-21

1814

-21

1814

-20

1813

-19

1713

-kW

6.25

6.37

6.56

-6.

706.

837.

04-

7.09

7.23

7.45

-7.

447.

597.

82-

7.73

7.89

8.14

-7.

988.

158.

41-

Am

ps12

.913

.113

.4-

13.6

13.8

14.1

-14

.314

.614

.9-

15.0

15.3

15.7

-15

.716

.016

.4-

16.4

16.7

17.1

-H

I PR

224

242

255

-25

227

128

6-

286

308

326

-32

635

137

1-

367

395

417

-40

643

646

1-

LO P

R10

411

112

1-

110

117

128

-11

412

113

3-

120

128

139

-12

613

414

6-

130

138

151

-

75

3825

MBh

96.7

99.5

107.

711

5.6

94.4

97.2

105.

211

2.9

92.2

94.9

102.

711

0.2

89.9

92.6

100.

210

7.6

85.4

88.0

95.2

102.

279

.181

.588

.294

.6S/

T0.

870.

780.

590.

380.

910.

810.

610.

390.

930.

830.

630.

400.

960.

860.

650.

420.

990.

890.

670.

431.

000.

900.

680.

44∆T

2019

1511

2119

1611

2119

1611

2119

1611

2019

1511

1918

1410

kW6.

496.

626.

817.

026.

967.

107.

317.

547.

377.

527.

758.

007.

747.

908.

148.

408.

048.

228.

478.

758.

318.

498.

769.

04A

mps

13.3

13.5

13.8

14.1

14.0

14.2

14.5

14.9

14.8

15.1

15.4

15.8

15.5

15.8

16.2

16.6

16.3

16.6

17.0

17.4

17.0

17.3

17.7

18.2

HI P

R23

625

426

828

026

528

530

131

430

132

434

235

734

336

939

040

738

641

543

945

842

745

948

550

6LO

PR

109

116

127

135

116

123

134

143

120

128

139

149

126

134

146

156

132

141

154

163

137

145

159

169

3400

MBh

93.8

96.6

104.

611

2.3

91.7

94.4

102.

210

9.6

89.5

92.1

99.7

107.

087

.389

.997

.310

4.4

82.9

85.4

92.4

99.2

76.8

79.1

85.6

91.9

S/T

0.83

0.75

0.56

0.36

0.86

0.77

0.58

0.38

0.89

0.79

0.60

0.39

0.91

0.82

0.62

0.40

0.95

0.85

0.64

0.41

0.96

0.86

0.65

0.42

∆T21

1916

1121

2016

1121

2016

1122

2016

1121

2016

1120

1815

10kW

6.44

6.57

6.76

6.97

6.91

7.05

7.26

7.48

7.31

7.46

7.69

7.94

7.67

7.84

8.08

8.34

7.98

8.15

8.41

8.68

8.25

8.42

8.69

8.97

Am

ps13

.213

.413

.714

.013

.914

.114

.514

.814

.715

.015

.315

.715

.415

.716

.116

.516

.216

.416

.817

.316

.917

.217

.618

.1H

I PR

234

252

266

277

262

282

298

311

298

321

339

354

340

366

386

403

382

411

434

453

422

454

480

501

LO P

R10

811

512

613

411

412

213

314

111

912

613

814

712

513

314

515

413

113

915

216

213

514

415

716

7

2720

MBh

86.6

89.2

96.5

103.

684

.687

.194

.310

1.2

82.6

85.0

92.0

98.8

80.6

83.0

89.8

96.4

76.5

78.8

85.3

91.6

70.9

73.0

79.0

84.8

S/T

0.80

0.72

0.54

0.35

0.83

0.74

0.56

0.36

0.85

0.76

0.58

0.37

0.88

0.79

0.60

0.38

0.91

0.82

0.62

0.40

0.92

0.83

0.62

0.40

∆T24

2218

1224

2218

1224

2218

1224

2218

1324

2218

1222

2017

12kW

6.30

6.42

6.61

6.81

6.75

6.88

7.09

7.31

7.14

7.29

7.51

7.75

7.49

7.65

7.89

8.14

7.79

7.96

8.20

8.47

8.05

8.22

8.48

8.75

Am

ps12

.913

.213

.413

.813

.613

.914

.214

.514

.414

.715

.015

.415

.115

.415

.816

.215

.816

.116

.517

.016

.516

.817

.217

.7H

I PR

227

244

258

269

254

274

289

302

289

311

329

343

330

355

375

391

371

399

421

439

410

441

466

486

LO P

R10

511

212

213

011

111

812

913

711

512

313

414

312

112

914

115

012

713

514

715

713

114

015

316

2

IDB:

Ent

erin

g In

door

Dry

Bul

b Te

mpe

ratu

reSh

aded

are

a re

flect

s AC

CA (T

VA) R

ating

Con

ditio

nsA

mps

: Uni

t am

ps (c

omp.

+ ev

apor

ator

+ c

onde

nser

fan

mot

ors)

Hig

h an

d lo

w p

ress

ures

are

mea

sure

d at

the

liqui

d an

d su

ction

acc

ess

fitting

s.D

esig

n Su

perh

eat 7

±2 °F

, Des

ign

Subc

oolin

g 12

±2

°F p

ress

ures

mea

sure

d @

the

sucti

on a

nd li

quid

ser

vice

por

ts, A

HRI

95

test

con

ditio

ns



cooliNg data — 8½ toNs (coNt.)O

utd

oo

r A

mbi

ent

Tem

pera

ture

6575

8595

105

115

Ente

rin

g In

doo

r W

et B

ulb

Tem

pera

ture

IDB

Air

flo

w59

6367

7159

6367

7159

6367

7159

6367

7159

6367

7159

6367

71

80

3825

MBh

98.4

100.

510

7.4

114.

896

.198

.210

4.9

112.

193

.895

.910

2.4

109.

591

.593

.599

.910

6.8

86.9

88.8

94.9

101.

580

.582

.387

.994

.0S/

T0.

960.

900.

730.

551.

000.

930.

760.

571.

000.

960.

780.

581.

001.

000.

800.

601.

001.

000.

830.

621.

001.

000.

840.

63∆T

2322

1915

2322

1915

2322

1915

2222

1915

2121

1915

1920

1814

kW6.

546.

676.

877.

077.

017.

157.

377.

607.

437.

587.

828.

067.

807.

968.

218.

478.

118.

288.

548.

828.

388.

568.

839.

12A

mps

13.3

13.6

13.9

14.2

14.1

14.3

14.6

15.0

14.9

15.2

15.5

16.0

15.6

15.9

16.3

16.8

16.4

16.7

17.1

17.6

17.1

17.4

17.8

18.4

HI P

R23

825

727

128

326

828

830

431

730

432

834

636

134

737

339

441

139

042

044

346

243

146

449

051

1LO

PR

110

118

128

137

117

124

136

144

121

129

141

150

127

136

148

158

134

142

155

165

138

147

160

171

3400

MBh

95.5

97.6

104.

311

1.5

93.3

95.3

101.

910

8.9

91.1

93.1

99.4

106.

388

.990

.897

.010

3.7

84.4

86.3

92.2

98.5

78.2

79.9

85.4

91.2

S/T

0.91

0.86

0.70

0.52

0.95

0.89

0.72

0.54

0.97

0.91

0.74

0.55

1.00

0.94

0.77

0.57

1.00

0.98

0.79

0.59

1.00

0.98

0.80

0.60

∆T24

2320

1624

2320

1624

2320

1624

2320

1623

2320

1621

2118

15kW

6.49

6.62

6.82

7.02

6.96

7.10

7.31

7.54

7.37

7.52

7.76

8.00

7.74

7.90

8.14

8.40

8.05

8.22

8.47

8.75

8.31

8.49

8.76

9.04

Am

ps13

.313

.513

.814

.114

.014

.214

.514

.914

.815

.115

.415

.915

.515

.816

.216

.616

.316

.617

.017

.417

.017

.317

.718

.2H

I PR

236

254

268

280

265

285

301

314

301

324

342

357

343

369

390

407

386

415

439

458

427

459

485

506

LO P

R10

911

612

713

511

612

313

414

312

012

813

914

912

613

414

715

613

214

115

416

413

714

515

916

9

2720

MBh

88.2

90.1

96.2

102.

986

.188

.094

.010

0.5

84.1

85.9

91.8

98.1

82.0

83.8

89.5

95.7

77.9

79.6

85.1

90.9

72.2

73.7

78.8

84.2

S/T

0.88

0.83

0.67

0.50

0.91

0.86

0.70

0.52

0.94

0.88

0.71

0.53

0.97

0.91

0.74

0.55

1.00

0.94

0.77

0.57

1.01

0.95

0.77

0.58

∆T26

2522

1727

2522

1827

2522

1827

2622

1826

2522

1825

2421

16kW

6.35

6.47

6.66

6.86

6.80

6.94

7.14

7.36

7.20

7.35

7.57

7.81

7.55

7.71

7.95

8.20

7.85

8.02

8.27

8.53

8.11

8.29

8.55

8.82

Am

ps13

.013

.213

.513

.913

.714

.014

.314

.614

.514

.815

.115

.515

.215

.515

.916

.315

.916

.216

.617

.116

.616

.917

.317

.8H

I PR

229

246

260

271

257

277

292

305

292

315

332

346

333

358

378

395

375

403

426

444

414

445

470

490

LO P

R10

611

312

313

111

211

913

013

911

612

413

514

412

213

014

215

112

813

614

915

913

314

115

416

4

85

3825

MBh

100.

110

2.0

106.

911

4.0

97.8

99.7

104.

411

1.4

95.4

97.3

101.

910

8.7

93.1

94.9

99.4

106.

188

.590

.294

.410

0.8

81.9

83.5

87.5

93.3

S/T

1.00

0.97

0.87

0.71

1.00

1.00

0.91

0.74

1.00

1.00

0.93

0.75

1.00

1.00

0.96

0.78

1.00

1.00

1.00

0.81

1.00

1.00

1.00

0.81

∆T24

2422

1924

2423

2023

2323

2022

2323

2021

2223

2020

2021

18kW

6.59

6.72

6.92

7.13

7.06

7.21

7.43

7.66

7.49

7.64

7.88

8.13

7.86

8.02

8.27

8.54

8.17

8.35

8.61

8.89

8.45

8.63

8.90

9.19

Am

ps13

.413

.614

.014

.314

.214

.414

.715

.115

.015

.315

.616

.115

.716

.016

.416

.916

.516

.817

.217

.717

.217

.518

.018

.5H

I PR

241

259

274

285

270

291

307

320

307

331

349

364

350

377

398

415

394

424

448

467

435

468

495

516

LO P

R11

211

913

013

811

812

513

714

612

213

014

215

212

913

714

915

913

514

315

716

713

914

816

217

3

3400

MBh

97.2

99.1

103.

811

0.7

94.9

96.8

101.

310

8.1

92.7

94.5

98.9

105.

590

.492

.296

.510

3.0

85.9

87.5

91.7

97.8

79.6

81.1

84.9

90.6

S/T

0.96

0.92

0.83

0.68

0.99

0.96

0.86

0.70

1.00

0.98

0.89

0.72

1.00

1.00

0.92

0.74

1.00

1.00

0.95

0.77

1.00

1.00

0.96

0.78

∆T25

2523

2025

2524

2125

2524

2124

2524

2123

2424

2022

2222

19kW

6.54

6.67

6.87

7.07

7.01

7.15

7.37

7.60

7.43

7.58

7.82

8.06

7.80

7.96

8.21

8.47

8.11

8.28

8.54

8.82

8.38

8.56

8.83

9.12

Am

ps13

.313

.613

.914

.214

.114

.314

.615

.014

.915

.215

.516

.015

.615

.916

.316

.816

.416

.717

.117

.617

.117

.417

.818

.4H

I PR

238

257

271

283

268

288

304

317

304

328

346

361

347

373

394

411

390

420

443

462

431

464

490

511

LO P

R11

011

812

813

711

712

413

614

412

112

914

115

012

713

614

815

813

414

215

516

513

814

716

017

1

2720

MBh

89.7

91.4

95.8

102.

287

.689

.393

.599

.885

.587

.291

.397

.483

.485

.189

.195

.079

.380

.884

.690

.373

.474

.978

.483

.6S/

T0.

920.

890.

800.

650.

960.

920.

830.

680.

980.

950.

850.

691.

000.

980.

880.

721.

001.

000.

920.

741.

001.

000.

920.

75∆T

2828

2623

2828

2623

2828

2623

2828

2723

2727

2623

2525

2421

kW6.

396.

526.

716.

916.

856.

997.

207.

427.

267.

407.

637.

877.

617.

778.

018.

277.

928.

088.

348.

608.

188.

358.

628.

89A

mps

13.1

13.3

13.6

13.9

13.8

14.0

14.4

14.7

14.6

14.9

15.2

15.6

15.3

15.6

16.0

16.4

16.0

16.3

16.7

17.2

16.7

17.0

17.5

18.0

HI P

R23

124

926

327

426

027

929

530

829

531

833

535

033

636

238

239

937

840

743

044

841

845

047

549

5LO

PR

107

114

124

133

113

120

131

140

118

125

137

146

124

131

144

153

130

138

150

160

134

143

156

166

IDB:

Ent

erin

g In

door

Dry

Bul

b Te

mpe

ratu

reSh

aded

are

a re

flect

s A

HRI

Rati

ng C

ondi

tions

Am

ps: U

nit a

mps

(com

p.+

evap

orat

or +

con

dens

er fa

n m

otor

s)H

igh

and

low

pre

ssur

es a

re m

easu

red

at th

e liq

uid

and

sucti

on a

cces

s fitti

ngs.

Des

ign

Supe

rhea

t 7±2

°F, D

esig

n Su

bcoo

ling

12 ±

2 °F

pre

ssur

es m

easu

red

@ th

e su

ction

and

liqu

id s

ervi

ce p

orts

, AH

RI 9

5 te

st c

ondi

tions



cooliNg data — 10 toNsO

utd

oo

r A

mbi

ent

Tem

pera

ture

6575

8595

105

115

Ente

rin

g In

doo

r W

et B

ulb

Tem

pera

ture

IDB

Air

flo

w59

6367

7159

6367

7159

6367

7159

6367

7159

6367

7159

6367

71

70

4500

MBh

115.

611

9.8

131.

3-

112.

911

7.1

128.

3-

110.

311

4.3

125.

2-

107.

611

1.5

122.

1-

102.

210

5.9

116.

0-

94.7

98.1

107.

5-

S/T

0.74

0.62

0.43

-0.

770.

640.

45-

0.79

0.66

0.46

-0.

820.

680.

47-

0.85

0.71

0.49

-0.

850.

710.

49-

∆T18

1512

-18

1512

-18

1512

-18

1612

-18

1512

-17

1411

-

Hi P

r24

626

427

9-

276

297

313

-31

433

735

6-

357

384

406

-40

243

245

7-

444

478

504

-

Lo P

r10

711

412

4-

113

120

131

-11

812

513

7-

124

131

144

-13

013

815

0-

134

143

156

-

4000

MBh

112.

311

6.4

127.

5-

109.

711

3.7

124.

5-

107.

011

0.9

121.

6-

104.

410

8.2

118.

6-

99.2

102.

811

2.7

-91

.995

.310

4.4

-

S/T

0.71

0.59

0.41

-0.

730.

610.

43-

0.75

0.63

0.44

-0.

780.

650.

45-

0.81

0.67

0.47

-0.

810.

680.

47-

∆T18

1612

-19

1612

-19

1612

-19

1612

-18

1612

-17

1511

-

Hi P

r24

326

227

6-

273

294

310

-31

033

435

3-

354

381

402

-39

842

845

2-

440

473

499

-

Lo P

r10

611

312

3-

112

119

130

-11

612

413

5-

122

130

142

-12

813

614

9-

133

141

154

-

3200

MBh

103.

610

7.4

117.

7-

101.

210

4.9

114.

9-

98.8

102.

411

2.2

-96

.499

.910

9.5

-91

.694

.910

4.0

-84

.887

.996

.3-

S/T

0.68

0.57

0.40

-0.

710.

590.

41-

0.73

0.61

0.42

-0.

750.

630.

43-

0.78

0.65

0.45

-0.

780.

660.

45-

∆T20

1813

-21

1814

-21

1814

-21

1814

-20

1813

-19

1713

-

Hi P

r23

625

426

8-

265

285

301

-30

132

434

2-

343

369

390

-38

641

543

8-

426

459

484

-

Lo P

r10

310

912

0-

109

116

126

-11

312

013

1-

119

126

138

-12

413

214

4-

129

137

149

-

75

4500

MBh

117.

612

1.1

131.

014

0.6

114.

911

8.3

128.

013

7.4

112.

111

5.4

125.

013

4.1

109.

411

2.6

121.

913

0.8

103.

910

7.0

115.

812

4.3

96.3

99.1

107.

311

5.1

S/T

0.84

0.76

0.57

0.37

0.88

0.78

0.59

0.38

0.90

0.80

0.61

0.39

0.93

0.83

0.63

0.40

0.96

0.86

0.65

0.42

0.97

0.87

0.66

0.42

∆T20

1915

1121

1916

1121

1916

1121

1916

1120

1915

1119

1814

10

Hi P

r24

826

728

229

427

930

031

633

031

734

136

037

536

138

841

042

840

643

746

148

144

848

351

053

1

Lo P

r10

811

512

613

411

412

213

314

111

912

613

814

712

513

314

515

413

113

915

216

213

514

415

716

7

4000

MBh

114.

211

7.5

127.

213

6.6

111.

511

4.8

124.

313

3.4

108.

911

2.1

121.

313

0.2

106.

210

9.3

118.

412

7.0

100.

910

3.9

112.

412

0.7

93.5

96.2

104.

211

1.8

S/T

0.81

0.72

0.55

0.35

0.84

0.75

0.57

0.36

0.86

0.77

0.58

0.37

0.88

0.79

0.60

0.38

0.92

0.82

0.62

0.40

0.93

0.83

0.63

0.40

∆T21

1916

1121

2016

1121

2016

1122

2016

1121

2016

1120

1815

10

Hi P

r24

626

427

929

127

629

731

332

731

433

735

637

235

738

440

642

340

243

245

747

644

447

850

552

6

Lo P

r10

711

412

413

311

312

013

114

011

812

513

714

612

413

114

415

313

013

815

016

013

414

315

616

6

3200

MBh

105.

410

8.5

117.

412

6.0

102.

910

6.0

114.

712

3.1

100.

510

3.4

112.

012

0.2

98.0

100.

910

9.2

117.

293

.195

.910

3.8

111.

486

.388

.896

.110

3.2

S/T

0.78

0.69

0.53

0.34

0.81

0.72

0.55

0.35

0.83

0.74

0.56

0.36

0.85

0.76

0.58

0.37

0.88

0.79

0.60

0.39

0.89

0.80

0.60

0.39

∆T24

2218

1224

2218

1224

2218

1224

2218

1324

2218

1222

2017

12

Hi P

r23

825

727

128

326

728

830

431

730

432

734

636

134

637

339

441

139

041

944

346

243

146

348

951

0

Lo P

r10

411

112

112

911

011

712

813

611

412

113

314

112

012

813

914

812

613

414

615

513

013

815

116

1

IDB:

Ent

erin

g In

door

Dry

Bul

b Te

mpe

ratu

reSh

aded

are

a re

flect

s AC

CA (T

VA) R

ating

Con

ditio

nsA

mps

: Uni

t am

ps (c

omp.

+ ev

apor

ator

+ c

onde

nser

fan

mot

ors)

Hig

h an

d lo

w p

ress

ures

are

mea

sure

d at

the

liqui

d an

d su

ction

acc

ess

fitting

s.D

esig

n Su

perh

eat 7

±2 °F

, Des

ign

Subc

oolin

g 12

±2

°F p

ress

ures

mea

sure

d @

the

sucti

on a

nd li

quid

ser

vice

por

ts, A

HRI

95

test

con

ditio

ns



cooliNg data — 10 toNs (coNt.)O

utd

oo

r A

mbi

ent

Tem

pera

ture

6575

8595

105

115

Ente

rin

g In

doo

r W

et B

ulb

Tem

pera

ture

IDB

Air

flo

w59

6367

7159

6367

7159

6367

7159

6367

7159

6367

7159

6367

71

80

4500

MBh

119.

712

2.3

130.

713

9.7

116.

911

9.4

127.

613

6.4

114.

111

6.6

124.

613

3.2

111.

311

3.8

121.

512

9.9

105.

810

8.1

115.

512

3.4

98.0

100.

110

7.0

114.

3

S/T

0.93

0.87

0.71

0.53

0.96

0.90

0.73

0.55

1.00

0.92

0.75

0.56

1.00

0.95

0.78

0.58

1.00

1.00

0.81

0.60

1.00

1.00

0.81

0.61

∆T23

2219

1523

2219

1523

2219

1523

2219

1522

2219

1520

2018

14

Hi P

r25

127

028

529

728

130

332

033

332

034

436

437

936

439

241

443

241

044

146

648

645

348

751

553

7

Lo P

r10

911

612

713

511

612

313

414

312

012

813

914

812

613

414

615

613

214

115

316

313

714

515

916

9

4000

MBh

116.

211

8.7

126.

913

5.6

113.

511

6.0

123.

913

2.4

110.

811

3.2

121.

012

9.3

108.

111

0.4

118.

012

6.1

102.

710

4.9

112.

111

9.8

95.1

97.2

103.

811

1.0

S/T

0.88

0.83

0.67

0.50

0.92

0.86

0.70

0.52

0.94

0.88

0.72

0.54

0.97

0.91

0.74

0.55

1.00

0.94

0.77

0.57

1.00

0.95

0.77

0.58

∆T24

2320

1624

2320

1624

2320

1624

2320

1624

2320

1622

2118

15

Hi P

r24

826

728

229

427

930

031

733

031

734

136

037

536

138

841

042

840

643

746

148

144

848

351

053

2

Lo P

r10

811

512

613

411

412

213

314

111

912

613

814

712

513

314

515

413

113

915

216

213

514

415

716

7

3200

MBh

107.

210

9.6

117.

112

5.2

104.

810

7.0

114.

412

2.3

102.

310

4.5

111.

611

9.3

99.8

101.

910

8.9

116.

494

.896

.810

3.5

110.

687

.889

.795

.810

2.5

S/T

0.85

0.80

0.65

0.49

0.88

0.83

0.67

0.50

0.91

0.85

0.69

0.52

0.93

0.88

0.71

0.53

0.97

0.91

0.74

0.55

0.98

0.92

0.75

0.56

∆T26

2522

1727

2522

1827

2522

1827

2622

1826

2522

1825

2421

16

Hi P

r24

125

927

428

527

029

130

732

030

733

134

936

435

037

739

841

539

442

444

746

743

546

849

451

6

Lo P

r10

511

212

213

011

111

812

913

711

512

313

414

312

112

914

115

012

713

514

715

713

114

015

216

2

85

4500

MBh

121.

812

4.1

130.

013

8.7

118.

912

1.2

127.

013

5.5

116.

111

8.4

124.

013

2.2

113.

311

5.5

120.

912

9.0

107.

610

9.7

114.

912

2.6

99.7

101.

610

6.4

113.

5

S/T

0.97

0.94

0.85

0.69

1.00

0.97

0.88

0.71

1.00

1.00

0.90

0.73

1.00

1.00

0.93

0.75

1.00

1.00

0.96

0.78

1.00

1.00

0.97

0.79

∆T24

2422

1924

2423

2024

2423

2023

2423

2022

2223

2020

2121

18

Hi P

r25

327

228

830

028

430

632

333

732

334

836

738

336

839

641

843

641

444

647

149

145

749

252

054

2

Lo P

r11

011

712

813

711

712

413

514

412

112

914

115

012

713

514

815

813

314

215

516

513

814

716

017

1

4000

MBh

118.

212

0.5

126.

213

4.7

115.

511

7.7

123.

313

1.5

112.

711

4.9

120.

312

8.4

110.

011

2.1

117.

412

5.3

104.

510

6.5

111.

511

9.0

96.8

98.7

103.

311

0.2

S/T

0.93

0.89

0.81

0.65

0.96

0.93

0.84

0.68

0.98

0.95

0.86

0.70

1.00

0.98

0.89

0.72

1.00

1.00

0.92

0.75

1.00

1.00

0.93

0.75

∆T25

2523

2025

2524

2126

2524

2125

2524

2124

2424

2022

2322

19

Hi P

r25

127

028

529

728

130

332

033

332

034

436

437

936

439

241

443

241

044

146

648

645

348

751

553

7

Lo P

r10

911

612

713

511

612

313

414

312

012

813

914

812

613

414

615

613

214

115

316

313

714

515

916

9

3200

MBh

109.

111

1.2

116.

512

4.3

106.

610

8.6

113.

812

1.4

104.

010

6.1

111.

111

8.5

101.

510

3.5

108.

411

5.6

96.4

98.3

103.

010

9.8

89.3

91.1

95.4

101.

7

S/T

0.89

0.86

0.78

0.63

0.93

0.89

0.81

0.65

0.95

0.92

0.83

0.67

0.98

0.95

0.85

0.69

1.00

0.98

0.89

0.72

1.00

0.99

0.89

0.72

∆T28

2826

2328

2826

2328

2826

2329

2827

2328

2826

2326

2624

21

Hi P

r24

326

227

628

827

329

431

032

331

033

435

336

835

338

040

241

939

842

845

247

143

947

349

952

1

Lo P

r10

611

312

313

111

211

913

013

911

612

413

514

412

213

014

215

112

813

614

915

913

314

115

416

4

IDB:

Ent

erin

g In

door

Dry

Bul

b Te

mpe

ratu

reSh

aded

are

a re

flect

s A

HRI

Rati

ng C

ondi

tions

Am

ps: U

nit a

mps

(com

p.+

evap

orat

or +

con

dens

er fa

n m

otor

s)H

igh

and

low

pre

ssur

es a

re m

easu

red

at th

e liq

uid

and

sucti

on a

cces

s fitti

ngs.

Des

ign

Supe

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t 7±2

°F, D

esig

n Su

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12 ±

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pre

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es m

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red

@ th

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ction

and

liqu

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RI 9

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st c

ondi

tions



HeatiNg data

GCH090xxxxxxxx

Outdoor Ambient Temperature

65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10

MBh 113.1 107.1 100.8 94.2 90.0 87.2 81.0 74.7 66.0 61.0 56.1 53.0 51.0 45.8 40.6 35.4 30.2 24.8

T/R 34.9 33.1 31.1 29.1 27.8 26.9 25.0 23.1 20.4 18.8 17.3 16.4 15.8 14.1 12.5 10.9 9.3 7.6

kW 8.31 8.15 7.99 7.82 7.73 7.66 7.51 7.34 6.42 6.28 6.14 6.06 6.00 5.86 5.72 5.59 5.44 5.31

Amps 19.6 18.5 17.5 16.7 16.3 16.0 15.3 14.8 14.3 13.8 13.4 13.2 13.0 12.6 12.0 11.5 11.0 10.3

COP 3.98 3.85 3.69 3.52 3.41 3.33 3.16 2.98 3.01 2.84 2.68 2.56 2.49 2.29 2.08 1.85 1.62 1.36

EER 13.6 13.1 12.6 12.0 11.6 11.4 10.8 10.2 10.3 9.7 9.1 8.8 8.5 7.8 7.1 6.3 5.5 4.7

HI PR 459 440 423 404 395 387 372 357 342 327 314 307 301 290 278 267 258 248

LO PR 139 129 121 111 105 101 93 83 75 67 59 54 53 44 38 32 28 22

GCH102xxxxxxxx


65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10

MBh 128.2 121.4 114.2 106.8 102.0 98.8 91.8 84.7 71.0 65.6 60.4 57.0 54.9 49.2 43.7 38.1 32.5 26.6

T/R 34.9 33.1 31.1 29.1 27.8 26.9 25.0 23.1 19.3 17.9 16.4 15.5 14.9 13.4 11.9 10.4 8.8 7.2

kW 8.56 8.39 8.23 8.06 7.97 7.90 7.74 7.58 6.04 5.91 5.79 5.72 5.67 5.55 5.42 5.30 5.18 5.05

Amps 19.5 18.3 17.4 16.6 16.2 16.0 15.3 14.7 14.3 13.8 13.4 13.2 13.0 12.6 12.0 11.6 11.0 10.3

COP 4.39 4.23 4.06 3.88 3.75 3.66 3.47 3.27 3.44 3.24 3.05 2.92 2.83 2.60 2.36 2.10 1.84 1.54

EER 15.0 14.5 13.9 13.2 12.8 12.5 11.9 11.2 11.8 11.1 10.4 10.0 9.7 8.9 8.1 7.2 6.3 5.3

HI PR 459 440 423 404 395 387 372 357 342 327 314 307 301 290 278 267 258 248

LO PR 139 129 121 111 105 101 93 83 75 67 59 54 53 44 38 32 28 22

GCH120xxxxxxxx


65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 -10

MBh 150.8 142.8 134.4 125.6 120.0 116.3 108.0 99.6 87.7 81.0 74.6 70.4 67.8 60.8 53.9 47.0 40.1 32.9

T/R 34.9 33.1 31.1 29.1 27.8 26.9 25.0 23.1 20.3 18.7 17.3 16.3 15.7 14.1 12.5 10.9 9.3 7.6

kW 10.70 10.50 10.31 10.11 10.00 9.92 9.73 9.54 8.65 8.47 8.30 8.20 8.13 7.95 7.78 7.61 7.44 7.27

Amps 41.3 38.9 36.9 35.3 34.3 33.8 32.4 31.2 30.2 29.3 28.3 27.8 27.6 26.6 25.4 24.4 23.3 21.8

COP 4.13 3.98 3.82 3.64 3.51 3.43 3.25 3.06 2.97 2.80 2.63 2.51 2.44 2.24 2.03 1.81 1.58 1.32

EER 14.1 13.6 13.0 12.4 12.0 11.7 11.1 10.4 10.1 9.6 9.0 8.6 8.3 7.6 6.9 6.2 5.4 4.5

Hi Pr 439 421 405 387 378 371 356 342 328 313 301 293 288 277 266 256 246 238

Lo Pr 133 123 115 106 100 96 89 79 71 64 56 52 50 42 37 31 27 21

Above information is for nominal CFM and 70 degree indoor dry bulb. Instantaneous capacity listed. KW = Total system power

High pressure is measured at the liquid line gauge port connection AMPS = unit amps (comp.+fans)



airflow data — 7½ toNs

Standard Belt Drive — Horizontal

ESP (“ W.C.)

Turns Open

0 1 2 3 4 5

CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP CFM RPM BHP

0.1 --- --- --- --- --- --- --- --- --- --- --- --- 3434 745 0.96 3264 701 0.79

0.3 --- --- --- --- --- --- --- --- --- 3424 800 1.05 3165 747 0.90 2921 704 0.79

0.5 --- --- --- --- --- --- 3496 850 1.14 3102 803 0.92 2785 749 0.83 2545 706 0.66

0.7 --- --- --- 3397 900 1.32 3158 851 1.06 2735 805 0.82 2345 753 0.73 --- --- ---

0.9 3440 946 1.44 3079 901 1.16 2778 855 1.01 --- --- --- --- --- --- --- --- ---

1.1 3122 948 1.27 2745 906 1.07 2382 857 0.86 --- --- --- --- --- --- --- --- ---

1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---

High-Static Belt Drive — Horizontal

ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.7 --- --- --- --- --- --- --- --- --- --- --- --- 3446 902 1.26 3098 849 1.11

0.9 --- --- --- --- --- --- --- --- --- --- --- --- 3110 905 1.17 2745 851 0.96

1.1 --- --- --- --- --- --- --- --- --- 3200 963 1.37 2769 909 1.09 --- --- ---

1.3 --- --- --- --- --- --- 3256 1017 1.66 2889 964 1.31 --- --- --- --- --- ---

1.5 --- --- --- 3443 1087 1.91 2923 1022 1.47 --- --- --- --- --- --- --- --- ---

1.7 3586 1129 2.18 3038 1081 1.62 2509 1029 1.28 --- --- --- --- --- --- --- --- ---

1.9 3221 1137 1.87 2588 1073 1.50 --- --- --- --- --- --- --- --- --- --- --- ---

2.1 2827 1144 1.71 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---

Standard Belt Drive — Down Shot

ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.1 --- --- --- --- --- --- --- --- --- --- --- --- 3481 747 0.95 3240 698 0.78

0.3 --- --- --- --- --- --- --- --- --- 3498 795 1.09 3197 748 0.88 2889 702 0.71

0.5 --- --- --- --- --- --- 3414 844 1.22 3091 796 0.91 2837 749 0.79 2491 701 0.59

0.7 3720 935 1.58 3414 889 1.35 3060 845 1.14 2715 800 0.85 --- --- --- --- --- ---

0.9 3351 940 1.45 3066 894 1.18 2688 847 0.99 --- --- --- --- --- --- --- --- ---

1.1 3114 942 1.34 2677 896 1.05 --- --- --- --- --- --- --- --- --- --- --- ---

1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---

High-Static Belt Drive — Down Shot

ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.7 --- --- --- --- --- --- --- --- --- --- --- --- 3428 900 1.25 3045 846 1.06

0.9 --- --- --- --- --- --- --- --- --- 3521 958 1.49 3084 905 1.14 2679 850 0.95

1.1 --- --- --- --- --- --- --- --- --- 3181 964 1.31 2756 908 1.06 --- --- ---

1.3 --- --- --- --- --- --- 3358 1020 1.59 2885 967 1.22 --- --- --- --- --- ---

1.5 --- --- --- 3470 1075 1.81 2950 1024 1.40 2452 972 1.13 --- --- --- --- --- ---

1.7 3465 1130 2.11 3065 1080 1.67 2492 1030 1.25 --- --- --- --- --- --- --- --- ---

1.9 3147 1136 1.89 2706 1087 1.53 --- --- --- --- --- --- --- --- --- --- --- ---

2.1 2719 1142 1.70 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---

Notes• Assume dry coil with filter in place; CFM correction for wet coil = 3%• Any adjustment made to the blower should not cause the motor to draw more than the motor rated RLA. Applica-

tions that exceed the above could require a larger motor. Minimum rated SCFM is 350 per ton.



airflow data — 8½ toNs


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.1 --- --- --- --- --- --- --- --- --- 4190 792 1.29 3862 743 1.02 3546 695 0.86

0.3 --- --- --- --- --- --- 4141 839 1.41 3850 794 1.19 3540 747 1.00 3152 699 0.81

0.5 --- --- --- 4057 883 1.46 3759 843 1.27 3471 798 1.12 3175 747 0.91 2692 700 0.67

0.7 4120 934 1.61 3775 894 1.41 3415 846 1.14 3097 800 0.99 2652 752 0.70 --- --- ---

0.9 3780 938 1.49 3338 894 1.27 3030 850 1.04 2497 805 0.82 --- --- --- --- --- ---

1.1 3311 942 1.36 2904 899 1.06 2375 855 0.87 --- --- --- --- --- --- --- --- ---

1.3


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.7 --- --- --- --- --- --- --- --- --- 4157 938 1.73 3462 854 1.24 3338 832 1.15

0.9 --- --- --- --- --- --- 4160 969 1.89 3865 941 1.60 3237 873 1.17 2855 838 0.96

1.1 --- --- --- --- --- --- 3882 985 1.79 3480 949 1.47 2849 886 1.09 --- --- ---

1.3 --- --- --- 4082 1053 2.15 3495 999 1.55 3097 957 1.32 --- --- --- --- --- ---

1.5 4188 1108 2.38 3760 1061 1.87 3108 1010 1.41 --- --- --- --- --- --- --- --- ---

1.7 3884 1117 2.15 3371 1070 1.66 --- --- --- --- --- --- --- --- --- --- --- ---

1.9 3499 1126 1.98 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.1 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3818 698 1.02

0.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3450 701 0.84

0.5 --- --- --- --- --- --- --- --- --- 3801 795 1.20 3563 773 1.04 3012 704 0.81

0.7 --- --- --- --- --- --- 3760 844 1.27 3355 799 1.05 3099 774 0.98 --- --- ---

0.9 --- --- --- 3724 891 1.44 3350 846 1.17 2707 801 0.90 2497 778 0.78 --- --- ---

1.1 3795 947 1.50 3205 897 1.25 2673 851 0.98 --- --- --- --- --- --- --- --- ---

1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.7 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3679 830 1.20

0.9 --- --- --- --- --- --- --- --- --- --- --- --- 3784 894 1.35 3265 836 1.12

1.1 --- --- --- --- --- --- --- --- --- 3833 952 1.59 3247 900 1.23 2742 843 0.94

1.3 --- --- --- --- --- --- 3943 1007 1.88 3361 957 1.45 2867 905 1.08 --- --- ---

1.5 --- --- --- --- --- --- 3522 1012 1.73 2928 962 1.33 --- --- --- --- --- ---

1.7 --- --- --- 3638 1469 1.99 3018 1020 1.47 --- --- --- --- --- --- --- --- ---

1.9 3725 1118 2.24 3018 1078 1.66 --- --- --- --- --- --- --- --- --- --- --- ---

2.1 3326 1126 2.04 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---





airflow data — 10 toNs


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.1 --- --- --- --- --- --- --- --- --- 4190 792 1.29 3862 743 1.02 3546 695 0.86

0.3 --- --- --- --- --- --- 4141 839 1.41 3850 794 1.19 3540 747 1.00 3152 699 0.81

0.5 --- --- --- 4057 883 1.46 3759 843 1.27 3471 798 1.12 3175 747 0.91 2692 700 0.67

0.7 4120 934 1.61 3775 894 1.41 3415 846 1.14 3097 800 0.99 2652 752 0.70 --- --- ---

0.9 3780 938 1.49 3338 894 1.27 3030 850 1.04 2497 805 0.82 --- --- --- --- --- ---

1.1 3311 942 1.36 2904 899 1.06 2375 855 0.87 --- --- --- --- --- --- --- --- ---

1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.7 --- --- --- --- --- --- --- --- --- 4157 938 1.73 3462 854 1.24 3338 832 1.15

0.9 --- --- --- --- --- --- 4160 969 1.89 3865 941 1.60 3237 873 1.17 2855 838 0.96

1.1 --- --- --- --- --- --- 3882 985 1.79 3480 949 1.47 2849 886 1.09 --- --- ---

1.3 --- --- --- 4082 1053 2.15 3495 999 1.55 3097 957 1.32 --- --- --- --- --- ---

1.5 4188 1108 2.38 3760 1061 1.87 3108 1010 1.41 --- --- --- --- --- --- --- --- ---

1.7 3884 1117 2.15 3371 1070 1.66 --- --- --- --- --- --- --- --- --- --- --- ---

1.9 3499 1126 1.98 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.1 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3818 698 1.02

0.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3450 701 0.84

0.5 --- --- --- --- --- --- --- --- --- 3801 795 1.20 3563 773 1.04 3012 704 0.81

0.7 --- --- --- --- --- --- 3760 844 1.27 3355 799 1.05 3099 774 0.98 --- --- ---

0.9 --- --- --- 3724 891 1.44 3350 846 1.17 2707 801 0.90 2497 778 0.78 --- --- ---

1.1 3795 947 1.50 3205 897 1.25 2673 851 0.98 --- --- --- --- --- --- --- --- ---

1.3 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---


ESP (“ W.C.)

Turns Open

0 1 2 3 4 5


0.7 --- --- --- --- --- --- --- --- --- --- --- --- --- --- --- 3679 830 1.20

0.9 --- --- --- --- --- --- --- --- --- --- --- --- 3784 894 1.35 3265 836 1.12

1.1 --- --- --- --- --- --- --- --- --- 3833 952 1.59 3247 900 1.23 2742 843 0.94

1.3 --- --- --- --- --- --- 3943 1007 1.88 3361 957 1.45 2867 905 1.08 --- --- ---

1.5 --- --- --- --- --- --- 3522 1012 1.73 2928 962 1.33 --- --- --- --- --- ---

1.7 --- --- --- 3638 1469 1.99 3018 1020 1.47 --- --- --- --- --- --- --- --- ---

1.9 3725 1118 2.24 3018 1078 1.66 --- --- --- --- --- --- --- --- --- --- --- ---

2.1 3326 1126 2.04 --- --- --- --- --- --- --- --- --- --- --- --- --- --- ---





Heat Kit electrical data — 7½ toNs

miNimum airflow for electric Heat

Heater Size (kW) Minimum CFM

30 3,000

Model and Heat Kit Usage

MCA¹ at 400V

MOP² (amps) at 400V

Actual kW at 400V

RecommendedAirflow Range

GCH090***5B*** 20.5 25

EHK4-30 57.9 60 21 3000-3375 CFM

¹ Minimum Circuit Ampacity ² Maximum Overcurrent Protection device

Kw correctioN factor

kW Correction Factor for 400V Units

Supply Voltage 390 380

Correction Factor 0.95 0.91

For other voltage, use voltage² / 400²

Heat Kit electrical data — 8½ toNs


MCA¹ at 400V


Actual kW at 400V

Recommended Airflow Range

(Downshot)

Recommended Airflow Range

(Horizontal)

GCH102***5B*** 23.9 30

EHK4-30 61.3 70 21 3400 - 3825 CFM 3400 - 3825 CFM




30 3,400






Heat Kit electrical data — 10 toNs


MCA¹ at 400V


Actual kW at 400V

RecommendedAirflow Range

GCH120***5B*** 30.8 40

EHK4-30 62 70 21 3500 - 4500 CFM




30 4,000








dimeNsioNs

61.7

30

6.15

0

13.8

75

"A"

23.9

30

"B"

6.15

2

36.3

75

7.25

128

.312

42.8

7512

.625

38.8

84

19.6

88

4.47

523.2

86

53.6

86

6.19

2

50.2

39

99.9

80

DC

*090

-150

***

7.5

THR

U 1

2.5

TON

CO

MM

ERC

IAL

ALL

DIM

ENSI

ON

S G

IVEN

AR

E IN

INC

HES

ALL

DIM

ENSI

ON

S AN

D S

PEC

IFIC

ATIO

NS

ARE

SUBJ

ECT

TO C

HAN

GE

WIT

HO

UT

NO

TIC

E

GAS

LIN

E EN

TRAN

CE

CO

MBI

NAT

ION

AI

R IN

LET

(GAS

UN

IT)

FLU

E / V

ENT

OU

TLET

FRO

NT

VIEW

RET

UR

N A

IR S

UPP

LY

SUPP

LY A

IR D

UC

T

CO

ND

ENSA

TE D

RAI

N O

UTL

ET

LIFT

ING

SH

ACKL

E H

OLE

SBO

TH S

IDES

AN

D E

ND

S

RIG

HT

END

VIE

W

DIS

CO

NN

ECT

SWIT

CH

TOP

VIEW

MO

DEL

TO

NN

AGE

"A"

"B"

7.5

TON

CO

MM

ERC

IAL

GAS

, HT

PUM

P, A

IR C

ON

DIT

ION

ER53

.339

20.0

55

8.5

TON

CO

MM

ERC

IAL

GAS

, HT

PUM

P, A

IR C

ON

DIT

ION

ER53

.339

20.0

55

10 T

ON

CO

MM

ERC

IAL

GAS

, HT

PUM

P, A

IR C

ON

DIT

ION

ER53

.339

20.0

55

12.5

TO

N C

OM

MER

CIA

LG

AS, H

T PU

MP,

AIR

CO

ND

ITIO

NER

58.8

3918

.055



uNit clearaNces

electrical eNtraNce locatioNs

Low-Voltage Entrance

Dimples Mark Drill Locations

High-Voltage Entrance

10 3/16”

3 3/4”

26 ½”

3¾”

103/16”

36” Min.

48”

75”

48”

48”

Maintain an adequate clearance around the unit for safety, service, maintenance, and proper unit operation. Leave a total clearance of 75” on the main control panel side of the unit for possible removal of fan shaft, coil, electric heat, and gas furnace. Leave a clearance of 48” on all other sides of the unit for possible compressor removal or service access, and to ensure proper ventilation and condenser airflow. Do not install the unit beneath any obstruct- ion. Install the unit away from all building exhausts to inhibit ingestion of exhaust air into the unit’s fresh-air intake.



roof curb iNstallatioN — riggiNg

Provisions for forks have been included in the unit base frame. No other fork locations are approved.

• Unit must be lifted by the four lifting holes lo-cated at the base frame corners.

• Lifting cables should be attached to the unit with shackles.• The distance between the crane hook and the top of the

unit must not be less than 60”.• Two spreader bars must span over the unit to prevent dam-

age to the cabinet by the lift cables. Spreader bars must be of sufficient length so that cables do not come in contact with the unit during transport. Remove wood struts mount-ed beneath unit base frame before setting unit on roof curb. These struts are intended to protect unit base frame from fork lift damage. To remove the struts, extract the sheet metal retainers and pull the struts through the base of the unit. Refer to rigging label on the unit.

Important: If using bottom discharge with roof curb, duct-work should be attached to the curb prior to installing the unit. Duct-work dimensions are shown in Roof Curb Installation Instructions Manual.Refer to the Roof Curb Installation Instructions for proper curb installation. Curbing must be installed in compliance with the National Roofing Contractors Association Manual.Lower unit carefully onto roof mounting curb. While rigging the unit, the center of gravity will cause the condenser end to be lower than the supply air end.Bring condenser end of unit into alignment with the curb. With condenser end of the unit resting on curb member and using curb as a fulcrum, lower opposite end of the unit until entire unit is seated on the curb. When a rectangular cantilever curb is used, take care to center the unit. Check for proper alignment and orientation of supply and return openings with duct. Corner & Center-of-Gravity Locations

CG

DB

A C

Return

Supply

Evaporator Coil

Compressor 1

Compressor 2

Y

X

30”

49”

Note: These weights are calculated without accessories installed.

Unit Weights7½-Ton

Weights (lbs)8½-Ton

Weights (lbs)10-Ton

Weights (lbs)

Weight A 285 345 345

Weight B 285 325 325

Weight C 285 320 320

Weight D 285 300 300

Shipping Weight 1175 1310 1310

Operating Weight 1135 1285 1285

Wiring Diagram Wiring Diagram



roof curb iNstallatioN (coNt.)

Curb installations must comply with local codes and should follow the established guidelines of the National Roofing Contractors Association.Proper unit installation requires that the roof curb be firmly and permanently attached to the roof structure. Check for adequate fastening method prior to setting the unit on the curb.Full perimeter roof curbs are available from the factory and are shipped unassembled. The installing contractor is responsible for field assembly, squaring, leveling, and mounting on the roof structure. All required hardware necessary for the assembly of the sheet metal curb is included in the curb accessory package.

• Determine sufficient structural support before locating and mounting the curb and package unit.• Duct-work must be constructed using industry guidelines. The duct-work must be placed into the roof curb be-

fore mounting the package unit. Our full perimeter curbs include duct connection frames to be assembled with the curb. Cantilevered-type curbs are not available from the factory.

• Contractor furnishes curb insulation, cant strips, flashing, and general roofing material.• Support curbs on parallel sides with roof members. To prevent damage to the unit, the roof members cannot

penetrate supply and return duct openings.Note: The unit and curb accessories are designed to allow vertical duct installation before unit placement. Duct installation after unit placement is not recommended.

See the manual shipped with the roof curb for assembly and installation instructions.

3-d View

15⅜ x 31⅛Supply Opening

14⅝ x 38⅜Return Opening

92¼ 53¼

14

1⅝¾

14

1⅜

3

42

1

6

RCCF

FANC

FANC

RCCF

FANC

FANC

PowerWiring

ThermostatWiring

Power & Low-Voltage Block Locations

toP View


Wiring Diagram Wiring DiagramProDuct SPecificationS ProDuct SPecificationS

gcH 7½ – 10 toNs (400V/ 50 Hz, tHree-PHase belt driVe)

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Goodman Manufacturing Company, L.P., reserves the right to discontinue, or change at any time, specifications or designs without notice or without incurring obligations. © 2014 Goodman Manufacturing Company, L.P. • Houston, Texas • Printed in the USA.

gcH 7½ – 10 toNs (400V/ 50 Hz, tHree-PHase belt driVe)

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R

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RVC2

SEE UNIT RATING PLATE FOR TYPE AND SIZE

5

OF OVER CURRENT PROTECTION

4

BLOWER CONTACTOR

COMPRESSOR CONTACTORCONDENSER MOTORCONDENSER MOTOR CONTACTORCOMPRESSORDEFROST CONTROLDEFROST THERMOSTATECONOMIZERELECTRONIC BLOWER TIME DELAYEVAPORATOR MOTOR RELAYRELAYEVAPORATOR MOTORFAN CAPACITOREQUPIMENT GROUNDHIGH PRESSURE SWITCHHIGH VOLTAGE DEFROST RELAYLOW PRESSURE SWITCHLOW VOLTAGE DEFROST RELAYLOW VOLTAGE JUNCTION BOXPOWER DISTRIBUTION BLOCKFEMALE PLUG / CONNECTORREVERSING VAVLE COILTERMINAL BLOCK (24V SIGNAL)TRANSFORMER

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6

COMPONENT LEGEND

R

R

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NOTES:

1. REPLACEMENT WIRE MUST BE SAME SIZE AND TYPE INSULATION AS ORIGINAL (AT LEAST 105°C) USE COPPER CONDUCTOR ONLY.2. USE COPPER CONDUCTORS ONLY ++ USE N.E.C. CLASS 2 WIRE3. ECONOMIZER PLUG LOCATED IN THE RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO THE ECONOMIZER ACCESSORY.4. FOR TWO STAGE OPERATION REMOVE W1 TO W2 JUMPER WIRE.

EBTDR

CC1HPS1

LPS1

LOW VOLTAGE

LINE VOLTAGE

FIELD WIRING

LOW VOLTAGE OPTIONAL

HIGH VOLTAGE

FACTORY WIRING

HIGH VOLTAGE

CC2

GR GREEN

WIRE CODE

BL BLUE

PU PURPLEPK PINK

WH WHITE

BK BLACK

RD RED

BR BROWN

OR ORANGE

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CMC

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CC2

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CC2T1

CC2T2

CMC

CC1

L2

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F

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CM1

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CC1T1

C

CC1

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8

7

9

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GR

PK

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WH

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W2 BR W2

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7

8 56

4

32

1

SEE NOTE 3

O

SSHR SECOND STAGE HEATER RELAYEM

LPS2HPS2

EBTDR

BLOWER RELAYCIRCUIT BREAKERCOMPRESSOR CONTACTOR RELAY

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FC

DFT1R

R EBTDR BC

R

HVDR

Y

SEE UNIT RATING PLATE FOR TYPE AND SIZE

5

OF OVER CURRENT PROTECTION

4

BLOWER CONTACTOR

COMPRESSOR CONTACTORCONDENSER MOTORCONDENSER MOTOR CONTACTORCOMPRESSORDEFROST CONTROLDEFROST THERMOSTATECONOMIZERELECTRONIC BLOWER TIME DELAYEVAPORATOR MOTOR RELAYRELAYEVAPORATOR MOTORFAN CAPACITOREQUPIMENT GROUNDHIGH PRESSURE SWITCHHIGH VOLTAGE DEFROST RELAYLOW PRESSURE SWITCHLOW VOLTAGE DEFROST RELAYLOW VOLTAGE JUNCTION BOXPOWER DISTRIBUTION BLOCKFEMALE PLUG / CONNECTORREVERSING VAVLE COILTERMINAL BLOCK (24V SIGNAL)TRANSFORMER

LVDR

W2 DFT

R

DFT2

C

BC

CCCMCMCCOMPDCDFTECONEBTDEMRREMFCGNDHPSHVDRLPSLVDRLVJBPBPLFRVCTB1TR

6

COMPONENT LEGEND

R

R

C

400/3/50 0140L02569-A

PLF1

G

NOTES:

1. REPLACEMENT WIRE MUST BE SAME SIZE AND TYPE INSULATION AS ORIGINAL (AT LEAST 105°C) USE COPPER CONDUCTOR ONLY.2. USE COPPER CONDUCTORS ONLY ++ USE N.E.C. CLASS 2 WIRE3. ECONOMIZER PLUG LOCATED IN THE RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO THE ECONOMIZER ACCESSORY.4. FOR TWO STAGE OPERATION REMOVE W1 TO W2 JUMPER WIRE.

EBTDR

CC1

DC

HPS1

LPS1

LOW VOLTAGE

LINE VOLTAGE

FIELD WIRING

LOW VOLTAGE OPTIONAL

HIGH VOLTAGE

FACTORY WIRING

HIGH VOLTAGE

CC2

TO THERMOSTAT

GR GREEN

WIRE CODE

BL BLUE

PU PURPLEPK PINK

WH WHITE

BK BLACK

RD RED

BR BROWN

OR ORANGE

YL YELLOWYL/PK YELLOW WITH PINK STRIPBL/PK BLUE WITH PINK STRIP

CMC

CMC

FC2

CM2

T2

CC2

T3

T1COMP2

CC2T1

CC2T2

CMC

CC1

L2

T3

COMP1

F

SUPPLY VOLTAGE

CM1

L1

CC1T1

C

CC1

L3400/3/50

T2

TR24V

8

7

9

ORO O

BL

Y1

GR

PK

TB1

W1

RG

C

R

2 STAGE COOLING

Y2

YL

G

C

WH

Y2

Y1

STAT

W1

RD

THERMOSTATFIELD WIRING

W2 BR W2

SSHRNONC

9

7

8 56

4

32

1

SEE NOTE 3

O

SSHR SECOND STAGE HEATER RELAY

T2

EM

BC

BC

LPS2HPS2

EBTDR

BLOWER RELAYCIRCUIT BREAKERCOMPRESSOR CONTACTOR RELAY

BRCBCCR

FC

BC

DFT1R

DR NODRNC

TR24V

C

TR24V

RVC1

FC1

5. MOVE WIRE(S) TO APPROPRIATE INPUTVOLTAGE TERMINAL ON TRANSFORMER.

CSEE NOTE 5

SEE NOTE 5

++ NOTE 4TB1

RO G CY1W1W2S2S1 RO G CY1W1W2 Y2S2S1

GCH C - Aclima - дистрибьютор климатического...

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