Trane Trane, VAV-SVN01E-EN manual Chart 7 -VPxF 06SQ ECM CFMTable

Page 37

Unit

Setup

Chart 7 –VPxF 06SQ ECM CFMTable

VPxF 06SQ

Motor Min CFM: 530

Motor Max CFM: 2100

 

%

TENS

UNITS

 

CFM

L/sec

Setting

Switch

Switch

530

250

1

0

1

546

258

2

0

2

562

265

3

0

3

577

273

4

0

4

593

280

5

0

5

609

287

6

0

6

625

295

7

0

7

641

302

8

0

8

657

310

9

0

9

673

317

10

1

0

688

325

11

1

1

704

332

12

1

2

720

340

13

1

3

736

347

14

1

4

752

355

15

1

5

768

362

16

1

6

784

370

17

1

7

799

377

18

1

8

815

385

19

1

9

831

392

20

2

0

847

400

21

2

1

863

407

22

2

2

879

415

23

2

3

895

422

24

2

4

911

430

25

2

5

926

437

26

2

6

942

445

27

2

7

958

452

28

2

8

974

460

29

2

9

990

467

30

3

0

1006

475

31

3

1

1022

482

32

3

2

1037

490

33

3

3

1053

497

34

3

4

1069

505

35

3

5

1085

512

36

3

6

1101

520

37

3

7

1117

527

38

3

8

1133

535

39

3

9

1148

542

40

4

0

1164

549

41

4

1

1180

557

42

4

2

1196

564

43

4

3

1212

572

44

4

4

1228

579

45

4

5

1244

587

46

4

6

1259

594

47

4

7

1275

602

48

4

8

1291

609

49

4

9

1307

617

50

5

0

 

 

%

TENS

`UNITS

CFM

L/sec

Setting

Switch

Switch

1323

624

51

5

1

1339

632

52

5

2

1355

639

53

5

3

1370

647

54

5

4

1386

654

55

5

5

1402

662

56

5

6

1418

669

57

5

7

1434

677

58

5

8

1450

684

59

5

9

1466

692

60

6

0

1481

699

61

6

1

1497

707

62

6

2

1513

714

63

6

3

1529

722

64

6

4

1545

729

65

6

5

1561

737

66

6

6

1577

744

67

6

7

1592

752

68

6

8

1608

759

69

6

9

1624

767

70

7

0

1640

774

71

7

1

1656

782

72

7

2

1672

789

73

7

3

1688

796

74

7

4

1704

804

75

7

5

1719

811

76

7

6

1735

819

77

7

7

1751

826

78

7

8

1767

834

79

7

9

1783

841

80

8

0

1799

849

81

8

1

1815

856

82

8

2

1830

864

83

8

3

1846

871

84

8

4

1862

879

85

8

5

1878

886

86

8

6

1894

894

87

8

7

1910

901

88

8

8

1926

909

89

8

9

1941

916

90

9

0

1957

924

91

9

1

1973

931

92

9

2

1989

939

93

9

3

2005

946

94

9

4

2021

954

95

9

5

2037

961

96

9

6

2052

969

97

9

7

2068

976

98

9

8

2084

984

99

9

9

2100

991

100

0

0

VAV-SVN01E-EN

37

Image 37
Contents June Installation Operator MaintenanceAmerican Standard All rights reserved Contents Fiberglass Wool Single-Duct Units Vcef Door Interlocking Power Disconnect Digit 1, 2, 3-UnitType Dual-Duct UnitsDigit 7, 8-Secondary AirValve Digit 9-Not UsedVpef Door Interlocking Power Disconnect Fan-Powered Parallel UnitsDigit 32-Airflow Switch Service Model Number DescriptionVsef Door Interlocking Power Disconnect Fan-Powered Series UnitsFan Note See fan curves for specific airflows Digit 27, 28, 29-Electric Heat Kilowatts Lpef Door Interlocking Power Disconnect Fan-Powered Low-Height Parallel UnitsDigit 27, 28, 29-Electric HeatVoltage Lsef Door Interlocking Power Disconnect Fan-Powered Low-Height Series UnitsDigit 32-Air Flow Switch General Information Literature ContentsReceiving and Handling Single-Duct Units Unit InformationDual-Duct Units Typical Fan-Powered Units Fan-Powered and Fan-Powered Low-Height UnitsSingle-Duct Unit InstallationDual-Duct Parallel Hanger Bracket Locations Sizes Fan-Powered Standard and Low- HeightSeries Hanger Bracket Locations Low-Height Parallel 08SQ/09SQ w/ Hot Water or Electric Heat Low-Height Parallel10SQ Low-Height Series 08SQ/09SQ w/ Hot Water or Electric Heat Low-Height Series 10SQ w/ Hot Water or Electric Heat Attenuator Installation-Parallel Units Attenuator Installation-Series Units Attenuator Installation-Low-Height Parallel Units Attenuator Installation-Low-Height Series Units Parallel Fan-Powered Units Chart 1 UnitWeightsVscf w Series Fan-Powered UnitVsef w Low-Height Parallel UnitsEquipment Damage Chart 2 Flow Sensor Delta P vs.Airflow Delivery Unit SetupChart 3- Fan Motor Amperage Maximum PSC Fan MotorAmperage FLAElectrically Commutated Motor ECM HazardousVoltageVPxF 03SQ Chart 4 -VPxF 03SQ ECM CFMTableMotor Min CFM Motor Max CFM VPxF 04SQ Chart 5 -VPxF 04SQ ECM CFMTableVPxF 05SQ Chart 6 -VPxF 05SQ ECM CFMTableVPxF 06SQ Chart 7 -VPxF 06SQ ECM CFMTableVSxF 03SQ Chart 8 -VSxF 03SQ ECM CFMTableVSxF 04SQ Chart 9-VSxF 04SQ ECM CFMTableVSxF 05SQ Chart 10-VSxF 05SQ ECM CFMTableVSxF 06SQ Chart 11-VSxF 06SQ ECM CFMTableLPxF 08SQ Chart 12- LPxF 08SQ ECM CFMTableLPxF 09SQ Chart 13- LPxF 09SQ ECM CFMTableLSxF 08SQ Chart 14- LSxF 08SQ ECM CFMTableLSxF 09SQ Chart 15- LSxF 09SQ ECM CFMTableLSxF 10SQ Chart 15- LSxF 10SQ ECM CFMTableSingle-Duct Units Electronic or DDC/UCM Wiring DiagramsSingle-Duct Units Pneumatic Controls Fan-Powered Units Electronic or DDC/UCM Fan-Powered Units Pneumatic Controls Fan-Powered Control Boxes Fan-Powered Units with ECM Fan-Powered Low-Height Units Fan-Powered Low-Height Units with ECM Rotating Components MaintenanceGeneral Installation of DiffusersBar Ceiling Concealed Spline CeilingDate Tag Serial # Service Notes Maintenance/ Service LogMaintenance/ Service Log VAV-SVN01E-EN Trane

VAV-SVN01E-EN, Trane specifications

The Trane VAV-SVN01E-EN is an advanced variable air volume (VAV) system designed to optimize indoor air quality and energy efficiency in commercial buildings. This system is part of Trane’s commitment to offering reliable, innovative HVAC solutions that meet the demands of modern architectural designs and energy standards.

One of the main features of the VAV-SVN01E-EN is its ability to control air flow based on occupancy and environmental conditions. This ensures that energy is used efficiently, as airflow can be adjusted to match real-time needs, rather than operating at a constant rate. The integration of intelligent sensors allows the system to adapt dynamically, leading to both reduced energy consumption and improved comfort for building occupants.

The technology behind the VAV-SVN01E-EN includes advanced digital controls and integration capabilities. These controls enable the system to communicate seamlessly with building management systems (BMS), allowing for centralized monitoring and management. This interconnected approach not only enhances operational efficiency but also enables predictive maintenance, helping facility managers identify and address potential issues before they become problematic.

Energy efficiency is further enhanced through the use of VAV technology, which reduces the amount of conditioned air delivered when spaces are unoccupied or when less cooling or heating is required. This tailored approach contributes to lower energy costs and supports sustainability initiatives by decreasing the overall carbon footprint of the building.

Key characteristics of the Trane VAV-SVN01E-EN include its compact design, which facilitates easy installation in existing spaces without significant modifications. The unit is also designed for low sound levels, ensuring that it operates quietly, contributing to a more pleasant indoor environment. Moreover, the VAV system is engineered to be reliable and durable, with rigorous testing and high-quality components ensuring long-term performance.

In summary, the Trane VAV-SVN01E-EN stands out in the field of HVAC solutions, bringing together advanced technology, energy efficiency, and user comfort. Its features are tailored for modern building requirements, making it a preferred choice for facility managers aiming to enhance indoor air quality while reducing operational costs.