Appendices, Model - ipd 1200, Ipd 1200 – Lab.gruppen IPD 2400 User Manual

15. Appendices

IPD SERIES Operation Manual rev 1.0.0

27

15.2. Thermal dissipation charts

Model - IPD 1200

IPD 1200

Level

Load

Rated power

Mains

voltage

Line

current

Watt *1)

Thermal Dissipation

VAC

IAC *2)

In

Out

Dissipated

BTU/hr

kCal/hr

Standby w. remote Power Off.

230

0.07

6.50

0

7

22

6

120

0.01

6.05

0

6

21

5

100

0.1

6.05

0

6

21

5

Power on, Idling

230

0.21

25.80

0

26

88

22

120

0.36

26.50

0

27

90

23

100

0.39

24.90

0

25

85

21

Pink Pseudo
Noise (1/8)

16 Ω / Ch.

150

x 2

230.0

0.5

68

38

30

103

26

120.0

1.0

71

38

34

116

29

100.0

1.1

71

38

34

116

29

8 Ω / Ch.

300

x 2

230.0

0.9

119

75

44

152

38

120.0

1.6

122

75

47

159

40

100.0

1.8

122

75

47

159

40

4 Ω / Ch.

600

x

2

230.0

1.8

226

150

76

260

65

120.0

3.0

234

150

84

288

73

100.0

3.4

229

150

79

269

68

2 Ω / Ch.

500

x 2

230.0

1.7

217

125

92

313

79

120.0

2.8

211

125

86

294

74

100.0

3.4

222

125

97

331

83

*1) The amplifier’s PSU operates as a non-resistive load, so the calculation “Volts x Amps = Watts” would not be correct. Instead, measured and specified here

is what is known as the “Active Power” in the amplifier providing useful, real-world values of power consumption and heat dissipation.

*2) Current draw figures measured at 230 V. as well as 120 V. The efficiency is similar, but not identical for the two scenarios. The efficiency for 100 V mains is

very similar to that of 120 V.