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MAINS OPERATION & RESULTING TEMPERATURE

The following tables allow determining power supply and cabling requirements.

The power drawn from the mains network is converted into output power to feed the connected

loudspeaker systems and into heat. The difference between power consumption and dispensed power

is called power dissipation (Pd). The amount of heat resulting from power dissipation might remain in-

side of a rack-shelf and needs to be diverted using appropriate measures. The following table is meant

as auxiliary means for calculating temperatures inside of a rack-shelf system/cabinet and the ventilation

efforts necessary.

The column „Pd“ lists the leakage power in relation to different operational states. The column „BTU/

hr“ lists the dispensed heat amount per hour.

MAINS OPERATION & RESULTING

CP1200

mains

[V]

mains

[A]

mains

[W]

out

[W]

(6)

[W]

BTU/hr

(4)

idle 230V 0,42 50 - 50 170

Max. Output Power @ 8Ω

(1)

230V 4,4 735 2 x 240 255 870

Max. Output Power @ 4Ω

(1)

230V 7,2 1295 2 x 400 495 1690

1/3 Max. Output Power @ 4Ω

(1)

230V 4,6 770 2 x 133 504 1720

1/8 Max. Output Power @ 4Ω

(1)

230V 3,1 490 2 x 50 390 1330

1/8 Max. Output Power @ 4Ω

(2)

230V 2,7 425 2 x 50 325 1110

1/8 Max. Output Power @ 4Ω

(2),(5)

254V 3,0 600 2 x 63 474 1615

1/8 Max. Output Power @ 4Ω

(3)

230V 2,8 430 2 x 50 330 1125

1/8 Max. Output Power @ 4Ω

(3),(5)

254V 3,1 530 2 x 63 404 1380

Normal Mode (-10dB) @ 4Ω

(1)

230V 2,8 440 2 x 40 360 1230

Rated Output Power (0dB) @ 4Ω

(1)

230V 6,4 1130 2 x 300 530 1810

Alert (Alarm) Mode (-3dB) @ 4Ω

(1)

230V 4,9 820 2 x150 520 1775

Max. Output Power @ 2Ω

(1)

230V 11,2 2150 2 x 600 950 3240

1/8 Max. Output Power @ 2Ω

(1)

230V 4,8 800 2 x 75 650 2220

1/8 Max. Output Power @ 2Ω

(2)

230V 4,2 680 2 x 75 530 1810

1/8 Max. Output Power @ 2Ω

(3)

230V 4,2 685 2 x 75 535 1825

CP1800

mains

[V]

mains

[A]

mains

[W]

out

[W]

(6)

[W]

BTU/hr

(4)

idle 230V 0,45 54 - 54 185

Max. Output Power @ 8Ω

(1)

230V 6,3 1070 2 x 350 370 1260

Max. Output Power @ 4Ω

(1)

230V 10,4 1920 2 x 600 720 2455

1/3 Max. Output Power @ 4Ω

(1)

230V 6,2 1065 2 x 200 665 2270

1/8 Max. Output Power @ 4Ω

(1)

230V 2,6 400 2 x 75 250 855

1/8 Max. Output Power @ 4Ω

(2)

230V 2,9 455 2 x 75 305 1040

1/8 Max. Output Power @ 4Ω

(2),(5)

254V 3,1 500 2 x 93 314 1070

1/8 Max. Output Power @ 4Ω

(3)

230V 2,9 450 2 x 75 300 1025

1/8 Max. Output Power @ 4Ω

(3),(5)

254V 3,2 550 2 x 93 364 1240

Normal Mode (-10dB) @ 4Ω

(1)

230V 2,4 365 2 x 60 245 835

Rated Output Power (0dB) @ 4Ω

(1)

230V 9,6 1750 2 x 500 750 2560

Alert (Alarm) Mode (-3dB) @ 4Ω

(1)

230V 7,0 1220 2 x 250 720 2455

Max. Output Power @ 2Ω

(1)

230V 16,1 3180 2 x 900 1380 4710

1/8 Max. Output Power @ 2Ω

(1)

230V 3,8 645 2 x 113 419 1430

1/8 Max. Output Power @ 2Ω

(2)

230V 4,1 680 2 x 113 454 1550

1/8 Max. Output Power @ 2Ω

(3)

230V 4,4 720 2 x 113 494 1685

(1) Sine Modulation (1kHz) (2) VDE-Noise (3) pink-Noise EN60065 / 7. Edition

(4) 1BTU = 1055.06J = 1055.06Ws (5) 10% Mains Over Voltage (6) Pd = Leakage Power

The following factors allow direct proportional calculation of the mains current Imain for different mains supply voltages:

100V = 2.3; 120V = 1.9; 220V = 1.05; 240V = 0.96