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Hitachi C1421R User Manual

Hitachi C1421R
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The
R-
Y
and
8-Y
colou
r
difference
signals
(from
TDA837
4
pins
30
and
29}
are
AC-coupled
and
clamped
by
the
input
stages
at
pins
16
and
14.
An
internal
6
MHz
Current
controlled
oscillator
is
line
locked
via
a
PLL
to
the
sandcastle
pulse
at
pin
5.
This
clock
drives
the
delay
lines
to
obtain
the
required
64
,.sec.
Sample
and
hold
low
pass
filters
suppress
the
clock
signal.
The
original
and
the
delayed
signals
are
added,
buffered
and
fed
to
the
output
pins
11
and
12.
These
are
AC-coupled
to
the
R-Y
and
B-Y
colour
difference
input
pin
32
and
31
of
TDA8374.
The
TDA4665
needs
a 5 V
supply
voltage
on
pin
I
for
the
digital
part
and
on
pin
9
for
the
analog
part.
TDA8356
vertical
deflection.
The
TDA8356
is
a
vertical
deflection
circuit.
lt
can
be
used
in
90
degree
deflection
systems
with
frame
frequencies
from
50
up
to
120
Hz
With
its
bridge
configuration
the
deflection
output
can
be
DC
coupled
with
few
externa!
components.
Only
a
supply
voltage
for
the
scan
and
a
second
supply
for
the
flyback
are
needed.
The
TDA8356
can
drive
max.2A.
The
vertical
drive
currents
of
TDA8374
pins
47
and
46
are
connected
to
input
pins
I
and
2
of
the
TDA8356.
The
currents
are
converted
into
a
voltage
by
a
resistor
between
pins
1
and
2.
Pin2
is
on
a
fixed
DC
levei
(internal
bias
voltage)
and
on
pin
I
the
drive
voltage
can
be
measured
(typical1.8
Vpp).
The
drive
voltage
is
amplified
by
'A'
and
fed
to
two
amplifiers
'B'
and
'C',
one
is
inverting
and
the
other
is
a
non
inverting
amplifier.
The
outputs
(pins
4
and
7)
are
connected
to
the
series
connection
of
the
vertical
deflection
coil
and
feedback
resistor
.
The
voltage
across
feedback
resistor
is
fed
via
pin
9
to
correction
amplifier
'D',
to
obtain
a
deflection
current
which
is
proportional
to
the
drive
voltage.
The
supply
voltage
for
the
TDA8356
is
16V
at
pin
3.
The
flyback
generator
has
a
separate
supply
voltage
of
45V
on
pin
6.
The
guard
pulse
is
useful
to
synchronize
OSD.
Horizontal
deflection
The
circuit
contains
horizontal
drive,
line
output
transformar.
The
horizontal
driver
pulses
from
the
TDA8374
are
amplified
in
the
horizontal
drive
circuit,
to
get
sufficient
base-drive
current
for
the
high
voltage
switching
transistor
0401.
During
the
horizontal
scan
period(
=52
f.S)
0401
will
conduct,
and
a
sawtooth
current
flows
from
+
11
0/123V
through
the
primary
winding
of
the
FBT
to
ground.
After
this
time
0401
is
switched
off
and
the
energy
stored
in
the
FBT
during
the
scan
period
will
be
transformed
to
the
flyback
capacitar
C41
O.
This
energy
transfer
will
take
place
in
a
cosine
shape
because
the
primary
of
the
FBT
and
C41
O
from
a
resonant
circuit.
The
time
the
energy
is
transferred
from
FBT
to
C41
O
and
back
to
the
FBT,
is
called
the
flyback
time
and
will
take
place
in
about
12,.s.
The
flyback
peak
voltage
is
about
8
times
the
scan
voltage.
ln
series
with
the
horizontal
deflection
coil
there
is
a
(damped)
linearity
corrector
coil.
During
the
scan
there
is
some
loss
in
the
resistance
of
the
deflection
coil.
ln
the
first
part
of
a
line
the
linearity
corrector
stores
some
energy
in
a
permanent
magnet
until
it
is
saturated.
This
improves
the
linearity
of
the
horizontal
scan
speed.
The
required
S
correction
for
the
picture
tube
can
be
adjusted
with
the
value
of
C411.
The
beam
current
limiting
information
(BeamCurr)
is
derived
from
the
foot
of
the
H.V
winding
of
the
FBT.
12-UK

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Hitachi C1421R Specifications

General IconGeneral
BrandHitachi
ModelC1421R
CategoryTV
LanguageEnglish

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