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Carrier 38QH - Capacitors

Carrier 38QH
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CAPACITORS
(See
Fig.
5.)
A
CAUTION
Capacitors
can
store
electrical
energy
when
power
is
off.
Electrical
shock
can
result
if
you
touch
the
capacitor
terminals
and
discharge
this
stored
energy.
Exercise
extreme
caution
when
working
near
capacitors.
With
power
off,
discharge
stored
energy
by
shorting
across
the
capacitor
terminals
with
a
15,000-ohm,
2-watt
resistor,
or
a
screwdriver
blade
with
insulated
handle.
RUN
CAPACITOR
START
CAPACITOR
Fig.
5
Capacitors
Capacitors
are
used
as
a
phase
shifting
device
to
aid
in
starting
certain
single-phase
motors.
Check
capacitors
as
follows:
1.
Always
check
capacitors
with
power
off.
Attempting
to
troubleshoot
a
capacitor
with
power
on
can
be
dangerous.
Defective
capacitors
may
explode
when
power
is
applied.
Insulating
fluid
inside
is
combustible
and
may
ignite,
causing
burns.
After
power
is
off,
discharge
capacitors
as
outlined
above.
Disconnect
capacitor
from
circuit.
Use
ohmmeter,
check
each
terminal
to
ground
(use
capacitor
case).
Discard
any
capacitor
that
shows
resistance.
Place
ohmmeter
leads
across
capacitor
and
place
on
R
x
10k
scale.
Meter
should
jump
to
a
low
resistance
value
and
slowly
climb
to
higher
value.
Failure
of
meter
to
do
this
indicates
an
open
capacitor.
If
resistance
stays
at
zero
or
a
low
value,
capacitor
is
shorted.
2.
Capacitance
testers
are
available
which
will
read
value
of
capacitor.
If
value
is
not
within
±
10%
value
stated
on
capacitor,
it
should
be
changed.
If
capacitor
is
not
open
or
shorted,
its
capacitance
value
is
calcu¬
lated
by
measuring
voltage
across
capacitor
and
current
it
draws.
A
WARNING
Exercise
extreme
caution
when
taking
readings
while
power
is
on.
Use
following
formula
to
calculate
capacitance:
^
2650
x
amps
Capacitance
(mfd)
=-——
3.
R
e
m
ov
e
any
capacitor
that
shows
signs
of
bulging,
dents
or
leaking.
Do
not
apply
power
to
a
defective
capacitor
as
it
may
explode.
Hard-Start
Capacitors
and
PTC
Devices
Sometimes,
under
adverse
conditions,
a
standard
run
capacitor
in
a
system
is
inadequate
to
start
compressor.
In
these
instances,
a
start-assist
device
is
used
to
provide
an
extra
starting
boost
to
compressor
motor.
The
first
device
is
called
a
PTC
(positive
temperature
coefficient)
or
ther¬
mistor
(see
Fig.
6).
It
is
a
resistor
wired
in
parallel
with
run
capacitor.
As
current
flows
through
it
at
start-up,
it
heats
up.
As
it
heats
up,
its
resistance
increases
greatly,
until
it
effectively
lowers
current
through
it
to
an
extremely
low
value.
This,
in
effect,
removes
it
from
the
circuit.
After
system
shuts
down,
resistor
cools
and
resistance
value
returns
to
normal,
until
next
time
system
starts.
Thermistor
device
is
adequate
for
most
conditions,
however,
in
systems
where
off
cycle
is
short,
device
cannot
cool
fully
and
becomes
less
effective
as
a
start
device.
It
is
an
easy
device
to
troubleshoot.
Turn
off
all
power
to
system.
Check
thermistor
with
ohmmeter
as
described
below.
If
indoor
coil
does
not
have
a
bleed-type
expansion
device,
it
may
be
necessary
to
remove
start
thermistor
and
replace
with
accessory
start
capacitor
and
relay.
Shut
off
all
power
to
unit.
Remove
PTC
from
unit.
Wait
at
least
10
minutes
for
PTC
to
cool
to
ambient
temperature.
Measure
resistance
of
PTC
with
ohmmeter.
Resistance
of
25-ohm
PTC
is
measured
between
center
tab
and
end
tab
with
jumper
across
2
end
terminals.
_-
50-90
ohms-^
50
ohm
Fig.
6
PTC
Devices
The
cold
resistance
(Ry)
of
any
PTC
device
should
be
approximately
100
-
180%
of
device
ohm
rating.
50-ohm
PTC
=
50
-
90
ohm
resistance
25-ohm
PTC
=
25
-
45
ohm
resistance
If
PTC
resistance
is
appreciably
lower
or
more
than
200%
higher
than
rating,
device
is
defective.
If
thermistor
is
good
and
compressor
does
not
start,
disconnect
thermistor
from
starting
circuit.
Give
com¬
pressor
a
temporary
capacitance
boost.
Run
compressor
for
10
minutes,
shut
off,
allow
system
pressure
to
equal¬
ize.
Reconnect
start
thermistor.
Try
restarting
com¬
pressor
without
boost
capacitor.
If
after
2
attempts,
compressor
does
not
start,
remove
thermistor.
Add
an
accessory
start
capacitor
relay
package.
Temporary
Capacitance
Boost
(See
Fig.
7.)
There
are
times
when
a
temporary
capacitance
boost
is
needed
to
get
compressor
started.
Do
not
under
any
circumstances
attach
temporary
boost
capacitor
directly
across
com¬
pressor
terminals.
Serious
personal
injury
can
result.
Exercise
extreme
caution
with
this
procedure
when
high-
voltage
power
is
on.
If
compressor
motor
does
not
start,
it
may
be
due
to
low-line
voltage,
improper
pressure
equalization
or
weak
run
capacitor.
Check
each
possi¬
bility,
attempt
capacitance
boosting
before
adding
auxiliary
start
capacitor
and
relay.
6

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