through the mic tie lines of a patch bay if phantom power is enabled on any of your mic
pre’s, as this will give the ribbon element a brief but potentially damaging phantom power
jolt.
5. Never attempt to test the R-10 or any ribbon microphone with an ohmmeter. A blown ribbon
could result.
6. Always provide adequate protection for your R-10, or any ribbon microphone. If the
microphone is to remain set up on a stand when not in use, place a mic sock (supplied with
every Royer microphone) over it until it is to be used. Do not carry the microphone around
without placing a mic sock over it or wrapping your hand around the ribbon end. Failure to
follow this commonsense practice may yield a stretched ribbon and compromised
performance.
7. Do not allow the microphone to be dropped on hard surfaces such as floors or tables -
depending on how the mic falls, you could stretch the ribbon. The microphone would likely
continue to operate, but performance could be compromised and re-ribboning the
microphone would be necessary to restore normal operation.
Amplification Considerations
The performance of any non-active ribbon microphone is directly affected by the microphone
preamplifier it is paired with. With so many mic preamps on the market, how do you select one
that gives the best possible performance with a ribbon microphone? Additionally, what kind of
performance can you expect from the preamplifiers built into your mixing desk? While most
preamplifiers will handle ribbon microphones well in most recording situations, some preamps
that work perfectly well with condenser or dynamic mics may prove to be poor performers with
ribbons.
To begin, we must understand the fundamental differences between ribbon microphones and
other popular types, namely condenser and moving coil dynamics. A ribbon microphone is
actually a dynamic microphone that uses a corrugated, extremely low mass ribbon element,
rather than a coil/diaphragm assembly. For this writing, any mention of dynamic microphones
will relate to moving coil dynamics.
All condenser microphones have a built-in preamplifier called a head amplifier, and therefore put
out a hefty signal. Because the signal is buffered through the head amp, the output impedance is
rather low and less affected by the input impedance of the microphone preamp. Most dynamic
(moving coil) microphones generate a healthy enough electrical current on their own to work
well with a variety of preamps, and their limited frequency response characteristics make loading
less of a concern.
Ribbon microphones generate a highly accurate signal, but the average ribbon mic generates a
signal approximately 20dB lower than a condenser microphone’s output. Remember, the ribbon
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