background image

292443-XTG-B-0807

Unitary Products Group

11

TABLE 7: DNA042 COOLING CAPACITIES - 3-1/2 TON

TEMPERATURE

OF AIR ON

CONDENSER COIL

AIR ON EVAPORATOR COIL

1,050 CFM

1,225 CFM

1,400 CFM

1,575 CFM

1,750 CFM

WB °F

WB °F

WB °F

WB °F

WB °F

72

67

62

57

72

67

62

57

72

67

62

57

72

67

62

57

72

67

62

57

85 °F

NET CAP.

MBH

44.5

40.8

37.6

36.5

46.0

42.2

38.8

37.7

47.5

43.6

40.1

38.9

48.9

44.9

41.3

40.1

50.3

46.2

42.5

41.2

TOTAL POWER

INPUT kW

4.01

4.00

3.85

3.85

4.16

4.15

4.00

4.00

4.31

4.31

4.15

4.15

4.36

4.35

4.19

4.19

4.40

4.39

4.23

4.23

Sen

s

ib

le Cap

a

city

MBH

1

En

te

ring Dry

Bu

lb °F

86

23.6

29.7

35.1

35.9

27.6

34.2

37.6

37.4

31.6

38.6

40.1

38.9

31.0

38.5

41.3

40.1

30.5

38.4

42.5

41.2

83

22.5

28.6

34.0

34.8

25.3

31.9

37.0

36.8

28.1

35.1

40.1

38.9

28.6

36.1

41.3

40.1

29.1

37.1

42.5

41.2

80

21.4

27.5

32.9

33.7

23.0

29.6

35.4

36.2

24.6

31.7

37.9

38.8

26.2

33.7

40.2

40.0

27.8

35.7

42.5

41.2

77

20.3

26.4

31.8

32.6

20.7

27.3

33.1

34.0

21.2

28.2

34.4

35.3

23.8

31.3

37.8

37.6

26.4

34.3

41.1

39.9

74

19.2

25.4

30.7

31.5

18.5

25.1

30.8

31.7

17.7

24.7

30.9

31.8

21.4

28.9

35.3

35.2

25.0

33.0

39.7

38.5

71

-

24.3

29.7

30.4

-

22.8

28.6

29.4

-

21.3

27.5

28.4

-

26.4

32.9

32.8

-

31.6

38.4

37.2

68

-

23.2

28.6

29.4

-

20.5

26.3

27.1

-

17.8

24.0

24.9

-

24.0

30.5

30.3

-

30.2

37.0

35.8

105 °F

NET CAP.

MBH

41.5

38.0

34.6

35.0

43.2

39.6

36.0

36.4

44.9

41.1

37.3

37.8

46.1

42.2

38.3

38.8

47.2

43.2

39.3

39.8

TOTAL POWER

INPUT kW

4.24

4.22

4.07

4.10

4.40

4.38

4.22

4.25

4.56

4.54

4.38

4.40

4.62

4.60

4.43

4.46

4.68

4.66

4.49

4.52

S

e

n

s

ib

le

 C

apac

it

y

MB

H

1

Ent

e

ri

ng Dry

Bul

b

 °

F

86

26.5

32.7

34.6

35.0

29.0

35.7

36.0

36.4

31.4

38.7

37.3

37.8

30.3

38.0

38.3

38.8

29.2

37.3

39.3

39.8

83

23.4

29.6

33.8

34.1

25.5

32.3

35.6

36.0

27.6

34.9

37.3

37.8

27.7

35.4

38.3

38.8

27.8

35.9

39.3

39.8

80

20.3

26.5

30.7

31.0

22.1

28.8

33.4

33.8

23.9

31.2

36.1

36.5

25.2

32.9

37.7

38.2

26.5

34.6

39.3

39.8

77

17.1

23.3

27.6

27.9

18.6

25.4

30.0

30.3

20.1

27.4

32.4

32.8

22.6

30.3

35.2

35.6

25.1

33.2

37.9

38.4

74

14.0

20.2

24.4

24.7

15.2

21.9

26.5

26.9

16.3

23.7

28.6

29.0

20.0

27.7

32.6

33.0

23.7

31.8

36.6

37.1

71

-

17.1

21.3

21.6

-

18.5

23.1

23.4

-

19.9

24.9

25.2

-

25.2

30.0

30.5

-

30.4

35.2

35.7

68

-

13.9

18.1

18.5

-

15.0

19.6

20.0

-

16.1

21.1

21.5

-

22.6

27.5

27.9

-

29.1

33.8

34.3

115 °F

NET CAP.

MBH

38.7

34.7

32.2

33.0

40.3

36.1

33.5

34.3

41.8

37.5

34.8

35.6

42.8

38.4

35.6

36.5

43.8

39.2

36.5

37.3

TOTAL POWER

INPUT kW

4.51

4.44

4.34

4.34

4.67

4.59

4.49

4.49

4.82

4.74

4.63

4.64

4.90

4.82

4.71

4.71

4.98

4.90

4.78

4.79

S

ensible

 Cap

a

city

MBH

1

Ent

e

rin

g

 Dr

y

Bulb

 °

F

86

23.6

29.4

31.7

31.8

25.7

32.0

33.3

33.7

27.8

34.6

34.8

35.6

28.0

35.1

35.6

36.4

28.1

35.7

36.5

37.3

83

21.5

27.3

30.9

30.9

23.4

29.7

32.9

32.9

25.3

32.1

34.8

35.0

26.1

33.2

35.6

36.2

26.8

34.4

36.5

37.3

80

19.5

25.3

28.9

28.8

21.2

27.5

31.4

31.3

22.9

29.7

33.8

33.8

24.2

31.3

35.2

35.5

25.5

33.0

36.5

37.3

77

17.5

23.3

26.8

26.8

18.9

25.2

29.1

29.1

20.4

27.2

31.4

31.4

22.3

29.5

33.3

33.7

24.1

31.7

35.1

36.0

74

15.4

21.2

24.8

24.7

16.7

23.0

26.9

26.8

18.0

24.8

28.9

28.9

20.4

27.6

31.4

31.8

22.8

30.4

33.8

34.6

71

-

19.2

22.7

22.7

-

20.7

24.6

24.6

-

22.3

26.5

26.5

-

25.7

29.5

29.9

-

29.0

32.5

33.3

68

-

17.1

20.7

20.7

-

18.5

22.4

22.3

-

19.9

24.0

24.0

-

23.8

27.6

28.0

-

27.7

31.1

32.0

125 °F

NET CAP.

MBH

35.9

31.3

29.9

30.9

37.3

32.6

31.1

32.2

38.8

33.9

32.3

33.4

39.6

34.5

33.0

34.1

40.3

34.2

33.6

34.8

TOTAL POWER

INPUT kW

4.78

4.66

4.61

4.59

4.93

4.80

4.75

4.73

5.08

4.95

4.89

4.87

5.18

5.04

4.99

4.97

5.27

5.14

5.08

5.06

Se

nsible Cap

a

city

MBH

1

En

te

ri

n

g

 D

ry

Bu

lb

 °

F

86

20.6

26.0

28.9

28.5

22.4

28.2

30.6

31.0

24.2

30.4

32.3

33.4

25.6

32.3

33.0

34.1

27.1

34.1

33.6

34.8

83

19.7

25.1

28.0

27.6

21.4

27.2

30.1

29.9

23.0

29.3

32.3

32.2

24.4

31.0

33.0

33.5

25.8

32.8

33.6

34.8

80

18.7

24.1

27.0

26.6

20.3

26.1

29.3

28.9

21.9

28.2

31.6

31.1

23.2

29.8

32.6

32.9

24.5

31.5

33.6

34.8

77

17.8

23.2

26.1

25.7

19.3

25.1

28.2

27.8

20.7

27.0

30.4

30.0

22.0

28.6

31.4

31.7

23.2

30.2

32.3

33.5

74

16.9

22.2

25.1

24.8

18.2

24.0

27.2

29.8

19.6

25.9

29.3

28.8

20.8

27.4

30.1

30.5

21.9

28.9

31.0

32.2

71

-

21.3

24.2

23.8

-

23.0

26.2

25.7

-

24.7

28.1

27.7

-

26.2

28.9

29.3

-

27.6

29.7

30.9

68

-

20.3

23.2

22.9

-

22.0

25.1

24.7

-

23.6

27.0

26.5

-

25.0

27.7

28.1

-

26.4

28.5

29.6

125 °F

NET CAP.

MBH

33.0

27.9

27.5

28.9

34.4

29.1

28.7

30.1

35.8

30.3

29.8

31.3

36.3

30.7

30.3

31.7

36.9

31.2

30.7

32.2

TOTAL POWER

INPUT kW

5.05

4.88

4.87

4.83

5.19

5.02

5.01

4.97

5.34

5.16

5.15

5.11

5.45

5.27

5.26

5.22

5.57

5.38

5.37

5.33

Sen

s

ib

le Cap

a

city

MB

H

1

En

te

ring Dry

Bu

lb °F

86

17.7

22.6

26.1

25.3

19.1

24.5

27.9

28.2

20.6

26.3

29.8

31.2

23.3

29.4

30.3

31.7

26.0

32.5

30.7

32.2

83

17.8

22.8

25.0

24.3

19.3

24.6

27.4

26.9

20.7

26.5

29.8

29.5

22.7

28.8

30.3

30.8

24.8

31.2

30.7

32.2

80

18.0

22.9

25.2

24.4

19.4

24.8

27.2

26.4

20.9

26.6

29.3

28.4

22.2

28.3

30.0

30.3

23.5

30.0

30.7

32.2

77

18.1

23.1

25.3

24.6

19.6

24.9

27.4

26.6

21.1

26.8

29.4

28.6

21.7

27.8

29.5

29.8

22.3

28.7

29.5

31.0

74

18.3

23.2

25.5

24.8

19.8

25.1

27.5

26.7

21.2

27.0

29.6

28.7

21.1

27.2

28.9

29.2

21.0

27.5

28.2

29.7

71

-

23.4

25.6

24.9

-

25.3

27.7

26.9

-

27.2

29.8

28.9

-

26.7

28.4

28.7

-

26.2

27.0

28.5

68

-

23.5

25.8

25.1

-

25.4

27.9

27.1

-

27.3

29.9

29.1

-

26.2

27.9

28.2

-

25.0

25.8

27.2

1. These capacities are net capacities (the indoor fan heat is deducted).

ALL SENSIBLE CAPACITY

Summary of Contents for AFFINITY 018N03606

Page 1: ...Series packaged units are designed to han dle applications ranging from residential to light commercial and any in between The Affinity is a unit that gives you the flexibility and choices you need in...

Page 2: ...2 TON 8 5 DNA030 COOLING CAPACITIES 2 1 2 TON 9 6 DNA036 COOLING CAPACITIES 3 TON 10 7 DNA042 COOLING CAPACITIES 3 1 2 TON 11 8 DNA048 COOLING CAPACITIES 4 TON 12 9 DNA060 COOLING CAPACITIES 5 TON 13...

Page 3: ...ENSATE PAN A non corrosive long lasting water tight pan is positioned below the evaporator coil to collect and drain all condensate Less collection of stagnate condensate will build up The condensate...

Page 4: ...em No final field mounting required EASY SERVICE ACCESS A large single panel covers the electrical and gas controls makes servicing easy The blower compartment has an additional large panel with a bui...

Page 5: ...DOOR DAMPER Provides 0 through 50 outdoor air capability field adjustable Designed for duct mounted side supply return applications Includes hood and screen assembly WALL THERMOSTAT The units are desi...

Page 6: ...R RECIPROCATING S SCROLL R R R R R S S 1 See FILTER FRAME KIT on page 5 TABLE 2 RATINGS COOLING GAS HEATING MODEL DNA NET COOLING CAPACITY1 SOUND RATING dbels 2 GAS HEAT CAPACITY EFFICIENCIES MBH EER...

Page 7: ...1 Entering Dry Bulb F 86 9 4 11 7 13 3 13 1 10 2 12 8 14 0 13 9 11 1 13 9 14 8 14 7 11 1 14 1 15 2 15 1 11 1 14 3 15 6 15 5 83 8 5 10 9 12 9 12 9 9 3 11 9 13 8 13 8 10 1 12 9 14 8 14 7 10 3 13 3 15 2...

Page 8: ...0 16 4 18 1 18 0 14 2 17 8 18 8 18 8 15 3 19 2 19 5 19 6 15 3 19 5 19 8 19 9 15 4 19 8 20 1 20 1 83 11 9 15 2 17 7 17 5 12 9 16 5 18 6 18 6 13 9 17 8 19 5 19 6 14 3 18 4 19 8 19 9 14 6 19 0 20 1 20 1...

Page 9: ...15 9 20 0 20 6 20 1 17 7 22 3 22 5 21 9 19 6 24 7 24 4 23 8 19 5 24 9 24 7 24 0 19 5 25 1 25 0 24 3 83 14 4 18 5 20 5 19 9 16 1 20 7 22 5 21 8 17 8 22 9 24 4 23 8 18 2 23 5 24 7 24 0 18 6 24 1 25 0 24...

Page 10: ...21 1 27 2 29 8 28 8 22 4 28 7 30 6 29 5 23 7 30 3 31 3 30 2 23 2 30 1 31 7 30 6 22 8 29 8 32 1 30 9 83 19 4 25 4 29 3 28 4 20 5 26 8 30 3 29 3 21 6 28 2 31 3 30 2 21 6 28 5 31 7 30 6 21 7 28 7 32 1 3...

Page 11: ...86 23 6 29 4 31 7 31 8 25 7 32 0 33 3 33 7 27 8 34 6 34 8 35 6 28 0 35 1 35 6 36 4 28 1 35 7 36 5 37 3 83 21 5 27 3 30 9 30 9 23 4 29 7 32 9 32 9 25 3 32 1 34 8 35 0 26 1 33 2 35 6 36 2 26 8 34 4 36...

Page 12: ...6 26 7 34 8 35 7 36 0 30 1 38 1 37 2 37 5 33 4 41 5 38 8 39 1 36 1 42 5 39 2 39 5 38 8 43 6 39 7 40 0 83 23 3 31 3 35 3 35 6 26 0 34 9 37 0 37 3 28 7 38 4 38 8 39 1 30 8 40 5 39 2 39 5 32 8 42 6 39 7...

Page 13: ...b F 86 36 1 45 1 45 0 42 7 39 9 48 7 46 8 44 3 43 7 52 3 48 5 45 9 46 9 53 0 49 0 46 4 50 1 53 6 49 5 46 9 83 31 8 40 8 44 8 42 6 34 9 44 6 46 7 44 2 37 9 48 4 48 5 45 9 40 3 50 5 49 0 46 4 42 6 52 6...

Page 14: ...des allowances for a dry evaporator coil gas heat exchanger and no filters For additional pressure drops refer to Table 12 and 13 TABLE 11 BOTTOM SUPPLY AIR BLOWER PERFORMANCE1 MODEL DNA MTR SPD EXTER...

Page 15: ...s CFM during full economizer operation TABLE 13 ADDITIONAL STATIC PRESSURE RESISTANCE 4 5 TON DNA048 060 1 DESCRIPTION RESISTANCE IWG CFM 500 600 700 800 900 1 000 1 100 1 200 1 300 1 400 1 500 1 600...

Page 16: ...FACTOR TRANSFORMER SIZE VA MIN MAX RLA LRA 018 208 230 1 60 187 253 9 0 48 0 1 1 2 2 14 5 20 20 96 40 024 208 230 1 60 187 253 11 5 60 0 1 1 2 2 17 7 25 25 96 40 030 208 230 1 60 187 253 14 7 73 0 1 1...

Page 17: ...I N L E T L O U V E R S F R O N T G A S E L E C T R I C C O N T R O L S E R V I C E A C C E S S C O M P A R T M E N T P A N E L O V E R A L L O V E R A L L All dimensions are in inches They are subjec...

Page 18: ...D R A I N 3 4 N P T I G A S S U P P L Y 1 5 8 D I A K N O C K O U T 1 2 N P T I C O N N E C T I O N L O W V O L T A G E C O N N 1 8 D I A K N O C K O U T 1 3 4 1 5 2 9 9 1 6 1 5 3 1 2 1 3 4 1 3 4 1 5...

Page 19: ...L G A S S H U T O F F V A L V E R E T U R N A I R D U C T S U P P L Y A I R D U C T C O N T R O L W I R I N G T O I N D O O R T H E R M O S T A T T O P O W E R S U P P Y M A N U A L G A S S H U T O F...

Page 20: ...U N D I N S T A L L A T I O N TABLE 17 UNIT WEIGHTS AND CENTER OF GRAVITY UNIT SIZE SHIPPING WEIGHT lbs OPERATING WEIGHT lbs CORNER WEIGHTS location lbs ECONOMIZER lbs ROOF CURB lbs A B C D 018 365 3...

Page 21: ...1 8 X 2 1 1 2 R E C O M M E N D E D D U C T S I Z E 1 7 1 2 X 1 6 3 4 1 8 Roof curb also available 3 4 X 1 W I D E G A S K E T I N G F O R C U R B F R A M E A N D A L L D U C T S U P P O R T S U R F A...

Page 22: ...292443 XTG B 0807 22 Unitary Products Group FIGURE 14 TYPICAL WIRING DIAGRAM DNA 018 THRU 060 208 230 1 60 POWER SUPPLY...

Page 23: ...facility YORK s Affinity package units are designed to handle applications ranging from residential to light commercial and any in between The Affinity is a unit that gives you the flexibility and cho...

Page 24: ...Y Fan shall be direct drive multi speed design Job site selected BHP brake horsepower shall not exceed the motors nameplate horsepower rating Fan wheel shall be double inlet type with forward curved b...

Reviews: