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Extensive Protection The Nº432/431 is designed to shut itself down if it senses any of a
number of fault conditions that could cause damage to itself or to
associated loudspeakers.
These fault conditions include:
•the presence of DC (direct current) at the output
demand for excessive current at the output, indicating a short-
circuit
over-voltage or under-voltage conditions (+5% to -10%) at the
~ac mains connector
unsafe operating temperatures in any of several critical areas
within the amplifier
In the case of either significant DC offset or an over-current
condition, the amplifier will shut down to protect itself and the
associated loudspeakers. The front panel indicator LED will blink
rapidly, remaining lit about half of the time. To restore normal
operation, remove the cause of the fault and power cycle the
amplifier with the power button.
If the ~ac mains connector voltage is too high or too low for safe
operation, the amplifier will automatically enter sleep mode and
the front panel indicator LED will blink rapidly, remaining on
most of the time. The amplifier will not come out of sleep mode
until the ~ac mains connector voltage is again within the normal
operating range. For example, a 120V amplifier will operate
between approximately 108-132VAC; a 230V amplifier will operate
between approximately 207-253VAC. Outside of these generous
limits, the amplifier will enter sleep mode. Once the fault condition
is removed, the amplifier can be taken out of sleep mode.
If the amplifier overheats despite its innovative heat sinking and
cooling system, it will enter and remain in sleep mode until the
temperature at the output heat sinks drops below 85°C (158˚F or
358K). The front panel indicator LED will blink rapidly, remaining
unlit most of the time. Once the fault condition is removed, the
amplifier can be taken out of sleep mode.
In addition, the AC input to each transformer is fused to protect
against excessive current conditions such as driving shorted
outputs. Inrush limiting prevents premature aging of power
supply components during power-up, and switches off-line once
the power supply has been charged.
Finally, your amplifier incorporates a controlled clipping circuit
that prevents the output devices from saturating. The harsh high-
frequency harmonics generated by hard-clipped output devices are
avoided by the wave-shaping action of this controlled clip circuitry.