15. Appendices
LUCIA Operation Manual rev 1.0.0
23
LUCIA 240/2
Level Load Output power
Mains
voltage
Line
current
Watt *1) Thermal Dissipation
VAC IAC In Out
Dissi
-
pated
BTU/hr kCal/hr
Standby w. remote Power Off.
230 0.032 0.88 0 1 3 1
120 0.027 0.77 0 1 3 1
100 0.028 0.76 0 1 3 1
Power on, Idling
230 0.12 11.9 0 12 41 10
120 0 .19 13.0 0 13 44 11
100 0.22 13.1 0 13 45 11
Pink Pseudo
Noise (1/8)
16 Ω / Ch. 60 x 2
230 0.29 34.4 15 19 66 17
120 0.47 34.7 15 20 67 17
100 0.58 34.1 15 19 65 16
8 Ω / Ch. 120 x 2
230 0.42 53.7 30 24 81 20
120 0.70 54.2 30 24 82 21
100 0.81 54.6 30 25 84 21
4 Ω / Ch. 120 x 2
230 0.45 55.2 30 25 86 22
120 0.74 56.7 30 27 91 23
100 0.84 56.8 30 27 91 23
2 Ω / Ch. 120 x 2
230 0.47 59.1 30 29 99 25
120 0.76 58.9
30
29 98 25
100 0.91 61.1 30 31 106 27
*1) The amplier’s PSU operates as a non-resistive load, so the calculation “Volts x Amps = Watts” would not be correct. Instead, measured and specied here
is what is known as the “Active Power” in the amplier providing useful, real-world values of power consumption and heat dissipation.
LUCIA 240/2M
Level Load Output power
Mains
voltage
Line
current
Watt *1) Thermal Dissipation
VAC IAC In Out
Dissi
-
pated
BTU/hr kCal/hr
Standby w. remote Power Off.
230 0.032 0.88 0 1 3 1
120 0.027 0.77 0 1 3 1
100 0.028 0.76 0 1 3 1
Power on, Idling
230 0.14 14.8 0 15 51 13
120 0.21 13.4 0 13 46 12
100 0.25 14.1 0 14 48 12
Pink Pseudo
Noise (1/8)
16 Ω / Ch. 60 x 2
230 0.31 37. 3 15 22 76 19
120 0.48 35.1 15 20 69 17
100 0.60 35.1 15 20 69 17
8 Ω / Ch. 120 x 2
230 0.45 56.6 30 27 91 23
120 0.71 54.6 30 25 84 21
100 0.83 55.6 30 26 87 22
4 Ω / Ch. 120 x 2
230 0.47 5 8 .1 30 28 96 24
120 0.75 57.1 30 27 92 23
100 0.86 57. 8 30 28 95 24
2 Ω / Ch. 120 x 2
230 0.49 62.0 30 32 109 28
120 0.77 59.3
30
29 100 25
100 0.93 62 .1 30 32 110 28
*1) The amplier’s PSU operates as a non-resistive load, so the calculation “Volts x Amps = Watts” would not be correct. Instead, measured and specied here
is what is known as the “Active Power” in the amplier providing useful, real-world values of power consumption and heat dissipation.
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