The extension cord used to supply power to the “amp rack” should have a third wire safety ground to avoid presenting a safety hazard. We also recommend using a cord that has conductors large enough to avoid severely limiting the amplifier’s ability to supply high currents on transients.
Power amplifiers can have momentary peak current requirements many times above the nominal average current draw. According to
Ohm’s Law, the greater the resistance of the linecord, the more input power is lost between the AC outlet and the power amplifier (across the linecord). And to further aggravate the matter, this relationship is nonlinear. The amount of power lost across the linecord increases exponentially as the current demand increases. So if the current demand doubles momentarily because of an exceptionally loud bass note, the amount of AC input power lost across the linecord increases four times. You can see that it is very important to keep the resistance of the linecord to a minimum. That’s why we recommend using a heavy gauge extension cord (like 14 gauge or bigger). Remember, wire gets thicker as the gauge number gets smaller (10 gauge is thicker than 14 gauge).
AC Power Distribution
In order to minimize ground loops, the safety grounds for all the outlets should be connected to a common (“star”) grounding point, and the distance between the outlets and the common grounding point should be as short as possible.
If lighting is used in a show, it is preferable to power the lights from a different AC circuit than the one powering the audio equipment. This will help minimize noise from the lights coupling into the audio (particularly if SCRs are used).
INPUT WIRING
Use a
OUTPUT WIRING
Use heavy gauge, stranded wire for connecting speakers to the M•1400/M•1400i amplifier’s SPEAKER OUTPUT terminals. As the distance between the amplifier and the speakers increases, the thickness of the wire should also increase. Speaker wire has resis- tance, and when electricity passes through a resistor, power is lost. The thicker the wire, the less resistance it offers, and the more power actually gets to the speakers.
The thickness of wire is rated in gauges. Use the chart below to determine the correct gauge of wire to use according to the distance between the speakers and the amplifier, and the impedance of the load the amplifier is driv- ing. This ensures that the power lost across the speaker wire is less than 0.5 dB.
| Load | Gauge of |
Wire Length | Impedance | Wire |
|
|
|
Up to 25 ft. | 2Ω | 14 gauge |
| 4Ω | 16 gauge |
| 8Ω | 18 gauge |
Up to 40 ft. | 2Ω | 12 gauge |
| 4Ω | 14 gauge |
| 8Ω | 18 gauge |
Up to 60 ft. | 2Ω | 10 gauge |
| 4Ω | 12 gauge |
| 8Ω | 16 gauge |
Up to 100 ft. | 2Ω | 8 gauge |
| 4Ω | 10 gauge |
| 8Ω | 14 gauge |
Up to 150 ft. | 2Ω | 6 gauge |
| 4Ω | 8 gauge |
| 8Ω | 12 gauge |
Up to 250 ft. | 2Ω | 4 gauge |
| 4Ω | 6 gauge |
| 8Ω | 10 gauge |
|
|
|
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