Operation Manual

ManualsBrandsLab Gruppen ManualsPower Amplifiers400 Watt Amplifier with 2 Flexible Output Channels for Installation Applications

14. Appendices

E SERIES Operation Manual rev 2.1.0

14.2. Thermal dissipation

E 8:2

Level Load Output power

Line

current *2)

Watt *1) Thermal Dissipation

120 VAC 230 VAC In Out

Dissi

pated

BTU/hr kCal/hr

Standby w. remote Power Off.

0.033 0.72 0 0.7 2.5 0.6

0.016 0.38 0 0.4 1.3 0.3

Power on, Idling

0.18 3 20.7 0 20.7 70.5 17.8

0.315 21.9 0 21.9 74.7 18.8

Pink Pseudo

Noise (1/8)

70 V / Ch. 400 x 2

1.2 139 100 39 134 34

2.1 148 100 48 163 41

16 ohms / Ch. 310 x 2

0.9 112 78 35 119 30

1.8 118 78 35 119 30

8 ohms / Ch. 400 x 2

1.2 141 100 41 140 35

2.0 148 100 48 164 41

4 ohms / Ch. 400 x 2

1.3 149 100 49 166 42

2.1 155 100 55 187 47

2 ohms / Ch. 400 x 2

1.4 172 100 72 244 61

2.3 174 100 74 254 64

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

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

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

very similar to that of 120 V.

E 4:2

Level Load Output power

Line

current *2)

Watt *1) Thermal Dissipation

120 VAC 230 VAC In Out

Dissi

pated

BTU/hr kCal/hr

Standby w. remote Power Off.

0.32 0.7 0 0.72 2.5 0.6

0.016 0.4 0 0.38 1.3 0.3

Power on, Idling

0.18 6 21.5 0 21.5 73.3 18.5

0.306 22.4 0 22.4 76.6 19.3

Pink Pseudo

Noise (1/8)

70 V / Ch. 200 x 2

0.7 80 50 30 101 26

1.1 86 50 36 123 31

16 ohms / Ch. 200 x 2

0.7 80 50 30 101 26

1.1 85 50 35 118 30

8 ohms / Ch. 200 x 2

0.7 81 50 31 105 26

1.1 87 50 37 125 32

4 ohms / Ch. 200 x 2

0.8 89 50 39 133 34

1.2 92 50 42 144 36

2 ohms / Ch. 200 x 2

0.8 98 50 48 165 42

1.3 100 50 50 172 43

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

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

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

very similar to that of 120 V.