9 ac power draw and thermal dissipation – Crown Audio MA-2402 User Manual

page 25

MA 2402 Power Amplifier

Operation Manual

Here are the equations used to calculate the data presented in Figure 9.1:

The quiescent power draw of 90 watts is a maximum value and includes
power drawn by the fan. The following equation converts power draw in
watts to current draw in amperes:

The power factor of 0.83 is needed to compensate for the difference in
phase between the AC mains voltage and current. The following equa-
tion is used to calculate thermal dissipation:

The constant 0.35 is inefficiency (1.00–0.65) and the
factor 3.415 converts watts to btu/hr. Thermal dissipation in btu is
divided by the constant 3.968 to get kcal. If you plan to measure output
power under real-world conditions, the following equation may also be
helpful:

This section provides detailed information about the amount of power
and current drawn from the AC mains by the Macro-Tech 2402 amplifier
and the amount of heat produced under various conditions. The calcula-
tions presented here are intended to provide a realistic and reliable
depiction of the amplifier. The following assumptions or approximations
were made:

• The amplifier’s available channels are loaded, and full power is being
delivered.

• Amplifier efficiency at standard 1 kHz power is estimated to be 65%.

• Quiescent power draw is 90 watts (an almost negligible amount for
full-power calculations).

• Quiescent thermal dissipation equals 105btu/hr at 90 watts.

• The estimated duty cycles take into account the typical crest factor for
each type of source material.

• 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%.

9 AC Power Draw and Thermal Dissipation

AC Mains Power

Draw (watts)

=

Total output power with all

channels driven (watts)

x Duty

Cycle

Amplifier Efficiency (.65)

+ Quiescent Power

Draw (watts)

Current Draw

(amperes)

=

AC Mains Power

Draw (watts)

x

AC Mains

Voltage

Power

Factor (.83)

Total output power with all

channels driven (watts)

Thermal

Dissipation

(btu/hr)

=

+

Quiescent Power

Draw (watts)

x Duty

Cycle

Amplifier Efficiency (.65)

(

)

x 3.415

.35

x

Total measured output power

from all channels (watts)

Thermal

Dissipation

(btu/hr)

=

+

Quiescent Power

Draw (watts)

.35

x

Amplifier Efficiency (.65)

(

)

x 3.415