LUCIA Operation Manual
15. Appendices
LUCIA Operation Manual rev 1.2.0
25
15. Appendices
24
LUCIA Operation Manual rev 1.2.0
15.5. Thermal dissipation
LUCIA 60/2
Level Load
Output
power
Mains Watt *1) Thermal Dissipation
VAC
IAC
In Out Dissipated 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. 15 x 2
230 0,16 18,6 3,8 15 51 13
120 0,26 18,6 3,8 15 51 13
100 0,30 18,8 3,8 15 51 13
8 Ω / Ch. 30 x 2
230 0,20 23,8 7,5 16 55 14
120 0,32 23,3 7,5 16 54 14
100 0,37 23,7 7,5 16 55 14
4 Ω / Ch. 30 x 2
230 0,20 24,1 7,5 17 57 14
120 0,33 23,9 7,5 16 56 14
100 0,37 24,2 7,5 17 57 14
2 Ω / Ch. 30 x 2
230 0,21 24,8 7,5 17 59 15
120 0,34 24,6 7,5 17 58 15
100 0,39 24,8 7,5 17 59 15
*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.
LUCIA 60/2M
Level Load
Output
power
Mains Watt *1) Thermal Dissipation
VA C IAC
In Out Dissipated 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. 15 x 2
230 0,19 21,5 3,8 18 61 15
120 0,27 19,1 3,8 15 52 13
100 0,32 19,9 3,8 16 55 14
8 Ω / Ch. 30 x 2
230 0,23 26,6 7,5 19 65 16
120 0,33 23,7 7,5 16 55 14
100 0,39 24,8 7,5 17 59 15
4 Ω / Ch. 30 x 2
230 0,23 27,0 7,5 19 67 17
120 0,33 24,4 7,5 17 58 15
100 0,39 25,2 7,5 18 60 15
2 Ω / Ch. 30 x 2
230 0,23 27,7 7,5 20 69 17
120 0,35 25,1 7,5 18 60 15
100 0,40 25,9 7,5 18 63 16
*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.