tda4855 NXP Semiconductors, tda4855 Datasheet - Page 8
tda4855
Manufacturer Part Number
tda4855
Description
Autosync Deflection Controller Asdc
Manufacturer
NXP Semiconductors
Datasheet
1.TDA4855.pdf
(44 pages)
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The spread of f
ratio
For higher ratios this spread can be reduced by using
resistors with less tolerances.
PLL2 phase detector
The PLL2 phase detector is similar to the PLL1 detector
and compares the line flyback pulse at HFLB (pin 1) with
the oscillator sawtooth voltage. The PLL2 detector thus
compensates for the delay in the external horizontal
deflection circuit by adjusting the phase of the HDRV
(pin 7) output pulse.
The phase between horizontal flyback and horizontal sync
can be controlled at HPOS (pin 30).
If HPLL2 is pulled to ground, horizontal output pulses,
vertical output currents and B+ control driver pulses are
inhibited. This means, HDRV (pin 7), BDRV (pin 6)
VOUT1 (pin 13) and VOUT2 (pin 12) are floating in this
state. PLL2 and the frequency-locked loop are disabled,
and CLBL (pin 16) provides a continuous blanking signal.
This option can be used for soft start, protection and
power-down modes. When the HPLL2 voltage is released
again, an automatic soft start sequence will be performed
(see Fig.15).
The soft start timing is determined by the filter capacitor at
HPLL2 (pin 31), which is charged with an constant current
during soft start. In the beginning the horizontal driver
stage generates very small output pulses. The width of
these pulses increases with the voltage at HPLL2 until the
final duty factor is reached. At this point BDRV (pin 6),
VOUT1 (pin 13) and VOUT2 (pin 12) are re-enabled.
The voltage at HPLL2 continues to rise until PLL2 enters
its normal operating range. The internal charge current is
now disabled. Finally PLL2 and the frequency-locked loop
are enabled, and the continuous blanking at CLBL is
removed.
Horizontal phase adjustment
HPOS (pin 30) provides a linear adjustment of the relative
phase between the horizontal sync and oscillator
sawtooth. Once adjusted, the relative phase remains
constant over the whole frequency range.
Application hint: HPOS is a current input, which provides
an internal reference voltage while I
adjustment current range. By grounding HPOS the
symmetrical control range is forced to its centre value,
1996 Jul 18
Autosync Deflection Controller (ASDC)
f
------------------ -
f
S max
S min
.
min
increases with the frequency
HPOS
is in the specified
8
therefore the phase between horizontal sync and
horizontal drive pulse is only determined by PLL2.
Output stage for line drive pulses
An open collector output stage allows direct drive of an
inverting driver transistor because of a low saturation
voltage of 0.3 V at 20 mA. To protect the line deflection
transistor, the output stage is disabled (floating) for low
supply voltage at V
The duty factor of line drive pulses is slightly dependent on
the actual line frequency. This ensures optimum drive
conditions over the whole frequency range.
X-ray protection
The x-ray protection input XRAY (pin 2) provides a voltage
detector with a precise threshold. If the input voltage at
XRAY exceeds this threshold for a certain time, an internal
latch switches the IC into protection mode. In this mode
several pins are forced into defined states:
To reset the latch and return to normal operation, V
to be temporarily switched off.
Vertical oscillator and amplitude control
This stage is designed for fast stabilization of vertical
amplitude after changes in sync frequency conditions.
The free-running frequency f
resistor R
C
optimized for noise and linearity performance in the whole
vertical and EW section, but also influences several
internal references. Therefore the value of R
be changed. Capacitor C
free-running frequency of the vertical oscillator in
accordance with the following formula:
f
osc V
VCAP
Horizontal output stage (HDRV) is floating
B+ control driver stage (BDRV) is floating
Vertical output stages (VOUT1 and VOUT2) are floating
CLBL provides a continuous blanking signal
The capacitor connected to HPLL2 (pin 31) is
discharged.
connected to pin 24. The value of R
=
VREF
---------------------------------------------------------- -
10.8 R
connected to pin 23 and the capacitor
CC
VREF
1
(see Fig.14).
VCAP
C
VCAP
osc(V)
should be used to select the
Preliminary specification
is determined by the
TDA4855
VREF
VREF
is not only
must not
CC
has
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