Table 1: sound power rating, Table 2: capacity ratings – York BQ 036 User Manual

036-21508-005-A-0305

Unitary Products Group

15

TABLE 1: SOUND POWER RATING

1

UNIT

SIZE

CFM

ESP

BLOWER

SOUND POWER (db 10

-12

Watts)

Octave Band Centerline Frequency (Hz)

SWL

dB(A)

dB(A)

@

10Ft.

2

IWG

SPEED

KW

63

125

250

500

1,000

2,000

4,000

8,000

036

1,200

0.6

LOW

0.60

84

84

74

67

69

62

57

52

74

41

048

1,600

0.55

HIGH

0.80

85

85

75

68

70

63

58

53

75

42

060

2,000

0.45

HIGH

1.00

86

86

76

69

71

64

59

54

76

43

1. These values have been accessed using a model of sound propagation from a point source into the hemispheric\free field. The

dBA values provided are to be used for reference only. Calculation of dBA values cover matters of system design and the fan
manufacture has no way of knowing the details of each system. This constitutes and expectation to any specification or guaran-
tee requiring a dBA value or sound data in any other form than sound power level ratings.

2. At a distance of 10 feet from the blower.

TABLE 2: CAPACITY RATINGS

MBH

SEER

EER

MBH

COP

MBH

COP

036

39

10.00

9.20

8.6

7.3

39.0

3.0

23.0

2.1

048

48

10.20

9.25

8.6

6.7

48.0

3.0

26.4

2.0

060

59

10.00

9.20

8.4

7.0

59.0

3.0

36.0

2.1

HSPF

UNIT SIZE

(MBH)

ARI RATINGS

1

HEATING CAPACITY

47°F

17°F

COOLING PERFORMANCE

SOUND

RATING

2

bels

NOTES:
1. Certified in accordance with the Unitary Small Equipment certification program, which is based on ARI Standard 210/240.
2. Rated in accordance with ARI Standard 270.

SEER = Seasonal Energy Efficiency Ratio - the total cooling output in BTU’s during a normal annual usage period for cooling divided by the total electric power input
in watt-hoursduring the same period.
EER = Energy Efficiency Ratio-the cooling capacity in BTU’s per hour (BTUH) divided by the power input in watts at any given set of rating conditions, expressed in
BTUH per watt (BTUH/watt).
COP = Coefficient of Performance - the total heating capacity provided by the refrigeration system, including circulating fan heat but excluding supplementary resistance
(BTU’s per hour) divided by the total electric input (watts) x 3.412.
HSPF = Heating Seasonal Performance Factor - the total heating output during a normal annual usage period for heating divided by the total electric power input during
the same period. (Based on Region IV minimum design heating requirement).