Ac Power Draw And Thermal Dissipation; Power Draw, Current Draw And Thermal Dissipation - Crown Macro-Tech 3600VZ Reference Manual

7 AC Power Draw and
Thermal Dissipation
This section provides detailed information about the
amount of power and current drawn from the AC mains
by the Macro-Tech 3600VZ , and the amount of heat pro-
duced under various conditions. The calculations pre-
sented here are intended to provide a very realistic and
reliable depiction of the amplifier. The following assump-
tions were made:
• The amplifier's available channels are loaded, and full,
standard 1 kHz power is being delivered.
• Quiescent power draw is 90 watts (an almost
negligible amount for full-power calculations).
• Quiescent heat dissipation equals 105 btu/hr at
90 watts.
• Duty cycle of pink noise is 50%.
• Duty cycle of highly compressed rock 'n' roll midrange
is 40%.
• Duty cycle of rock 'n' roll is 30%.
• Duty cycle of background music is 20%.
• Duty cycle of continuous speech is 10%.
• Duty cycle of infrequent, short-duration paging is 1%.
Fig. 7.1 Power Draw, Current Draw and Thermal Dissipation at Various Duty Cycles
Page 36
Macro-Tech 3600VZ Power Amplifier
Here are the equations used to calculate the data pre-
sented in Figure 7.1:
Total output power with all
channels driven (watts)
AC Mains Power
=
Draw (watts)
Amplifier Efficiency
The quiescent power draw of 90 watts is typical, and
assumes the cooling fans are not running.
Thermal [
( 1 – Power to Load ) +
Dissipation =
(btu/hr)
(
Total output power with all
Thermal
channels driven (watts)
Dissipation =
(btu/hr)
Amplifier Efficiency
The constant 3.415 converts watts to btu/hr. Thermal
dissipation in btu is divided by the constant 3.968 to get
kcal.
To convert the power draw in watts to current draw in
amperes, use the following equation:
Current Draw
=
(amperes)
The current draw values shown in Figure 7.1 depend on
the AC mains voltage (power draw and thermal dissi-
pation are typical for any AC power voltage).
x Duty
Cycle
+ Quiescent Power
Draw (watts)
]
Quiescent Power
x 3.415
Draw (watts)
or
)
x Duty Amplifier
x
Quiescent Power
Cycle Inefficiency
x 3.415
+
Draw (watts)
AC Mains Power
Draw (watts)
AC Mains Power
x
Voltage Factor (.83)
Reference Manual