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Tektronix 114 User Manual

Tektronix 114
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SECTION
4
MAINTENANCE
AND
CALIBRATION
Preventive
Maintenance
Preventive
maintenance
consists
of
cleaning,
visual
inspec
tion,
lubrication,
and
if
needed,
recalibration.
Preventive
maintenance
is
generally
more
economical
than
corrective
maintenance
since
preventive
maintenance
can
usually
be
done
during
idle
periods
at
a
time
convenient
to
the
user.
The
preventive
maintenance
schedule
established
for
the
instrument
should
be
based
on
the
amount
of
use
and
the
environment
in
which
the
instrument
is
used.
Cleaning.
Clean
the
instrument
often
enough
to
prevent
accumulation
of
dirt.
Dirt
on
the
components
acts
as
an
insulating
blanket
(preventing
efficient
heat
dissipation)
and
may
provide
conducting
paths.
Clean
the
instrument
by
loosening
the
accumulated
dust
with
a
dry,
soft
paint
brush.
Remove
the
loosened
dust
by
vacuum
and/or
dry,
low
pressure
compressed
air
(high
velocity
air
can
damage
certain
components).
Hardened
dirt
and
grease
may
be
removed
with
a
cotton-tipped
swab
or
a
soft
cloth
dampened
with
water
and
a
mild
detergent
solution
(such
as
Kelite
or
Spray
White).
Abrasive
cleaners
should
not
be
used.
CAUTION
Do
not
permit
water
to
get
inside
controls
or
shaft
bushings.
Lubrication.
The
life
of
potentiometers
and
rotary
switches
is
lengthened
if
these
devices
are
kept
properly
lubricated.
Use
a
cleaning
type
lubricant
(such
as
Cramoline)
on
shaft
bushings
and
switch
contacts.
Lubricate
the
switch
detents
with
a
heavier
grease
(Beacon
grease
No.
325
or
equiva
lent).
Do
not
over-lubricate.
The
necessary
materials
and
instructions
for
proper
lubrication
of
Tektronix
instruments
are
contained
in
a
component
lubrication
kit
which
may
be
ordered
from
Tektronix.
Order
Tektronix
Part
No.
003-342.
Visual
Inspection.
After
cleaning,
the
instrument
should
be
carefully
inspected
for
such
defects
as
poor
connections,
damaged
parts,
and
improperly
seated
transistors.
The
rem
edy
for
most
visible
defects
is
obvious;
however,
if
heat
damaged
parts
are
discovered,
determine
the
cause
of
overheating
before
the
damaged
parts
are
replaced.
Other
wise,
the
damage
may
be
repeated.
Transistor
Checks.
Periodic
preventive
maintenance
checks
consisting
only
of
removing
the
transistors
from
the
instrument
and
testing
them
in
a
tester
are
not
recommend
ed.
The
circuits
within
the
instrument
provide
the
most
satisfactory
means
of
checking
transistor
performance.
Per
formance
of
the
circuits
is
thoroughly
checked
during
cali
bration
so
that
substandard
transistors
will
be
detected
at
this
time.
Check
suspect
transistors
by
substitution.
Be
sure
the
substituted
transistor
is
the
same
type
as
the
one
re
placed,
and
that
the
substitute
itself
is
good.
If
the
original
transistor
is
found
to
be
good,
return
it
to
the
same
socket
from
which
removed.
Recalibration.
Instrument
accuracy
is
ensured
if
the
cali
bration
of
the
Type
114
is
checked
after
every
500
hours
of
operation
(every
six
months
if
the
instrument
is
used
inter
mittently).
Complete
recalibration
instructions
are
contained
later
in
this
section.
The
calibration
procedure
is
helpful
in
isolating
major
troubles
in
the
instrument.
Moreover,
minor
troubles
not
apparent
during
regular
operation
may
be
revealed
and
corrected
during
recalibration.
Corrective
Maintenance
General
Troubleshooting.
If
the
instrument
is
not
op
erating,
attempt
to
isolate
the
trouble
by
a
quick
opera
tional
and
visual
check.
Make
sure
that
any
apparent
trouble
is
actually
due
to
a
malfunction
within
the
Type
114
and
not
due
to
improper
control
settings
or
a
fault
in
associated
equipment.
Operate
the
front-panel
controls
to
see
what
effect,
if
any,
they
have
on
the
trouble
symptoms.
The
normal
or
abnormal
operation
of
each
particular
control
helps
in
establishing
the
nature
of
the
trouble.
The
normal
function
of
each
control
is
listed
in
Section
2
of
this
manual.
If
the
trouble
cannot
be
located
by
means
of
front-panel
checks,
remove
the
instrument
from
its
case
and
check
volt
ages
and
waveforms
against
those
shown
on
the
schematics
in
Section
5,
starting
with
the
power
supply
connections.
Once
the
trouble
is
isolated
to
a
particular
circuit,
refer
to
the
circuit
description
in
Section
3
for
an
explanation
of
how
the
circuit
normally
operates.
CAUTION
Be
careful
when
making
measurements
on
live
circuits.
The
small
size
and
high
density
of
com
ponents
used
in
this
instrument
result
in
close
spac
ing.
An
inadvertent
movement
of
the
test
probes,
or
the
use
of
oversized
probes,
may
short
between
circuits.
Helpful
Hints:
1.
Check
the
voltage
between
chassis
ground
and
the
top
end
of
R244
(333
10
watt
resistor
mounted
at
the
top-right-rear
of
the
chassis).
With
normal
line
voltage,
the
voltage
at
the
top
of
R244
should
read
31
to
35
volts
if
the
AMPLITUDE
switch
is
set
to
+
;
6
to
10
volts
if
the
switch
is
set
to
.
2.
Set
the
AMPLITUDE
switch
to
+
and
turn
off
the
power.
Using
an
ohmmeter,
check
the
resistance
from
the
top
end
of
R244
to
chassis
ground.
If
there
is
no
charge
on
the
filter
capacitors,
the
resistance
reading
should
be
about
800
to
2
k.
If
it
is
not,
reverse
the
meter
leads
and
re
check.
4-1

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Tektronix 114 Specifications

General IconGeneral
BrandTektronix
Model114
CategoryPulse Generator
LanguageEnglish

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