Output current and protection – Linn 500 Solo User Manual

11

A commonly asked question about a power amplifier concerns its maximum

output current. There is some good reason behind this question. There is

always some trade off between output power, ‘specmanship’, protection and

cost in a power amplifier.

Output power specification (into 8 Ohms) can be increased simply by

increasing the amplifier power supply rails slightly. But what then happens

with a 4 Ohm load? Can the amplifier now supply the extra current a 4 Ohm

load needs or will the power supplies collapse, or will the amplifier need to

protect itself?

Short circuit protection can be achieved simply, but at the cost of accidental

operation when the loudspeaker load is reactive (almost always) rather than

purely resistive (almost never).

Output current and ruggedness can be increased with the cost of paralleled

output transistors, but can the driver circuitry cope?

Hence the interest in output current. However the implication that ‘more is

better’ is true only up to a very modest and calculable limit. An electrical

load, be it a resistor, capacitor, inductor, heater, a loudspeaker or a hairdryer

takes an amount of current dependent on the voltage applied to its terminals,

and its operating condition. Although it is not always entirely obvious how

much current a load will take with a non-sinusoidal signal (like music) its

maximum possible value is easy to calculate, and to monitor in real operation.

Output current and protection