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Adcom GFA-5500 User Manual

Adcom GFA-5500
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NOTE
THE
GFA-5500
IS
POLARITY
CORRECT
AND
DOES
NOT
INVERT
PHASE,
THAT
IS,
ANY
POSITIVE
GOING
SIGNAL
AT
ITS
INPUT
WILL
APPEAR
AS
A
POSITIVE
GOING
SIGNAL
AT
ITS
OUTPUT,
Generally
speaking,
when
making
connections
to
the
loudspeakers
from
the
amplifier
it
is
very
important
to
use
the
correct
type
and
size
of
wire
in
order
to
avoid
unnecessary
loss
of
amplifier
power
in
the
cable,
reduction
of
amplifier
damping
factor
and
other
undesirable
conditions.
For
runs
up
to
twelve
feet,
ordinary
“zip”
or
lamp
cord,
made
up
of
AWG18
stranded
wire
and
available
in
a
variety
of
insulation
colors
may
be
used.
For
runs
up
to
forty
feet,
AWG16
stranded
wire
should
be
used
as
a
minimum
to
prevent
power
losses.
For
lengths
over
forty
feet
and
not
exceeding
sixty
feel,
use
at
least
AWG14
stranded
wire.
Runs
exceeding
sixty
feet
require
the
use
of
heavier
conductors
such
as
AWG12,
Regardless
of
the
cables
you
select
to
connect
your
loudspeakers,
there
are
some
additional
requirements
which
you
should
observe
in
order
to
ensure
maximum
performance
from
your
amplifier.
It
is
most
important
that
you
make
certain
the
wiring
you
have
selected
has
as
low
a
capacitance
as
possible.
All
amplifiers,
particularly
wide
bandwidth
audio
amplifiers
are
susceptible
to
the
capacitance
cables
present
to
their
outputs
at
extremely
high
frequencies.
This
capacitance,
in
conjunction
with
the
inductance
of
the
wire
itself
and
the
reactive
load
of
the
loudspeakers,
can
create
anomalies
at
ultrasonic
frequencies
which,
although
inaudible,
can
affect
performance
in
the
audible
range.
There
are
several
different
ways
to
connect
the
wiring
to
the
RIGHT
and
LEFT
OUTPUTS,
The
methods
used
will
depend
on
the
specific
type
of
connectors
supplied
with
the
loudspeakers,
the
speaker
cables,
etc.
As
a
matter
of
course,
we
prefer
to
use
banana
plugs
because
it
is
generally
the
most
secure
method
of
connection.
Also,
the
springs
of
the
banana
plugs
create
a
self-cleaning
action
which
ensures
the
best
contact
between
the
binding
posts
and
the
connectors
themselves.
There
are
“sockets”
provided
in
the
center
of
the
binding
posts’
studs
which
permit
secure
seating
of
the
banana
plugs.
Before
inserting
the
banana
plug
into
the
binding
post,
ensure
the
binding
post
is
securely
hand
tightened
in
a
clockwise
direction.
Additionally,
when
connecting
the
cables
to
the
amplifier
and
loudspeakers,
it
is
important
that
you
“tin”
the
wires
with
good
quality
electronic
solder
in
order
to
minimize
contact
resistance.
Tinning
prevents
the
buildup
of
surface
compounds
which
can
form
on
copper
wire
and
increase
its
contact
resistance.
It
is
partly
for
this
reason
that
banana
plugs
are
preferred.
However,
make
sure
that
the
cable
ends
are
tinned
before
you
make
the
cable
connections
to
the
banana
plugs.
Alternatively,
you
can
use
“crimped”
pins
or
other
lugs
to
ensure
low
contact
resistance
at
the
connection
to
the
amplifier
and
loudspeakers.
If
you
prefer
to
use
other
methods
of
connection,
unscrew
the
insulated
head
of
the
binding
post
until
the
hole
in
the
binding
post
stud
is
accessible.
You
can
then
insert
the
bare
or
tinned
wire,
or
terminal
pin,
through
the
hole.
You
can
also
use
the
many
variety
of
spade
lugs
available
by
simply
placing
the
tines
of
the
spade
lug
onto
the
binding
post
stud.
Turn
the
insulated
head
of
the
binding
post
clockwise
until
the
wire
or
connector
is
firmly
secured.
Finger
pressure
is
sufficient
and
you
should
not
use
pliers
or
other
tools
which
could
damage
or
over
tighten
the
binding
post
assembly.
The
binding
post
has
been
designed
in
such
a
way
that
finger
pressure
is
all
that
is
required
to
cause
a
“pinching”
action
among
the
different
metal
surfaces
to
ensure
proper
connection.
All
loudspeakers
having
a
nominal
impedance
down
to
4
ohms
can
be
connected
to,
and
driven
by
the
GFA-5500,
The
amplifier
can
drive
these
low
impedances
at
more
than
adequate
power
levels
with
no
difficulty.
It
should
be
noted
here
that
many
loudspeaker
systems
which
are
nominally
rated
at
4
ohms
drop
in
impedance,
in
some
parts
of
their
frequency
range,
to
as
low
as
2
ohms
(and
some
others
to
even
less
than
2
ohms).
You
will
not
experience
difficulties
even
with
these
very
low
impedance
loads
unless
you
demand
excessively
high
volume
levels
from
the
system.
In
most
applications,
you
can
drive
two
or
more
sets
of
loudspeakers.
You
should
note,
however,
that
when
loudspeakers
are
paralleled,
the
impedance
presented
to
the
amplifier
is
lower
than
the
nominal
impedance
of
each
loudspeaker.
In
other
words,
if
you
parallel
two
8
ohm
sets
of
loudspeakers,
the
resultant
impedance
presented
to
the
amplifier
will
be
4
ohms.
If
8
ohm
and
4
ohm
loudspeakers
are
paralleled,
the
resultant
impedance
will
be
approximately
2,6
ohms.
In
this
last
situation,
depending
upon
the
lowest
impedance
of
the
nominally
4
ohm
speakers,
and
if
excessive
power
demands
are
placed
on
the
amplifier,
you
may
trigger
the
THERMAL
PROTECTION
on
the
amplifier
or
blow
one
of
the
EXTERNAL
PROTECTION
FUSES,
See
its
respective
section
for
more
information.
For
convenient
switching
of
multiple
sets
of
speakers
with
impedance
protection
for
the
amplifier,
you
should
consider
the
use
Of
an
ADCOM
speaker
selector.
These
are
available
from
your
local
ADCOM
dealer.
4

Table of Contents

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Adcom GFA-5500 Specifications

General IconGeneral
Impedance8 Ω
Audio output channels2.0 channels
Connectivity technologyWired
Product colorBlack
Power requirements115 V, 50/60 Hz
Power consumption (typical)1440 W

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