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TDA4841PS Datasheet, PDF (11/60 Pages) NXP Semiconductors – I2C-bus autosync deflection controller for PC monitors
Philips Semiconductors
I2C-bus autosync deflection controller for
PC monitors
Product specification
TDA4841PS
Via control bit FHMULT two different modes of operation
can be chosen for the EW output waveform:
1. Mode 1
Horizontal size is controlled via register HSIZE and
causes a DC shift at the EWDRV output. The complete
waveform is also multiplied internally by a signal
proportional to the line frequency [which is detected
via the current at HREF (pin 28)]. This mode is to be
used for driving EW diode modulator stages which
require a voltage proportional to the line frequency.
2. Mode 2
The EW drive waveform does not track with the line
frequency. This mode is to be used for driving
EW modulators which require a voltage independent
of the line frequency.
Output stage for asymmetric correction waveforms
[ASCOR (pin 20)]
This output is designed as a voltage output for
superimposed waveforms of vertical parabola and
sawtooth. Via the I2C-bus the registers HPARAL and
HPINBAL allow to change amplitude and polarity of both
signals.
Application hint: The TDA4841PS offers two possibilities
to control HPINBAL and HPARAL.
1. Control bit ACD = 1.
The two registers now control the horizontal phase by
means of internal modulation of the PLL2 horizontal
phase control. The ASCOR output (pin 20) can be left
unused, but it will always provide an output signal
because the ASCOR output stage is not influenced by
the control bit ACD.
2. Control bit ACD = 0.
The internal modulation via PLL2 is disconnected.
In order to obtain the required effect on the screen,
pin ASCOR must now be fed to the DC amplifier which
controls the DC shift of the horizontal deflection. This
option is useful for applications which already use a
DC shift transformer.
If the tube does not need HPINBAL and HPARAL, then
pin ASCOR can be used for other purposes, i.e. for a
simple dynamic convergence.
Dynamic focus section [FOCUS (pin 32)]
This section generates a complete drive signal for dynamic
focus applications. The amplitude of the horizontal
parabola is internally stabilized, thus it is independent of
the horizontal frequency. The amplitude can be adjusted
via register HFOCUS. Changing horizontal size may
require a correction of HFOCUS. To compensate for the
delay in external focus amplifiers a ‘pre-correction’ for the
phase of the horizontal parabola has been implemented
(see Fig.28). The amount of this pre-correction can be
adjusted via register HFOCAD. The amplitude of the
vertical parabola is independent of frequency and tracks
with all vertical adjustments. The amplitude can be
adjusted via register VFOCUS. FOCUS (pin 32) is
designed as a voltage output for the superimposed vertical
and horizontal parabolas.
B+ control function block
The B+ control function block of the TDA4841PS consists
of an Operational Transconductance Amplifier (OTA), a
voltage comparator, a flip-flop and a discharge circuit. This
configuration allows easy applications for different B+
control concepts. See also Application Note AN96052:
“B+ converter Topologies for Horizontal Deflection and
EHT with TDA4855/58”.
GENERAL DESCRIPTION
The non-inverting input of the OTA is connected internally
to a high precision reference voltage. The inverting input is
connected to BIN (pin 5). An internal clamping circuit limits
the maximum positive output voltage of the OTA.
The output itself is connected to BOP (pin 3) and to the
inverting input of the voltage comparator.
The non-inverting input of the voltage comparator can be
accessed via BSENS (pin 4).
B+ drive pulses are generated by an internal flip-flop and
fed to BDRV (pin 6) via an open-collector output stage.
This flip-flop will be set at the rising edge of the signal at
HDRV (pin 8). The falling edge of the output signal at
BDRV has a defined delay of td(BDRV) to the rising edge of
the HDRV pulse. When the voltage at BSENS exceeds the
voltage at BOP, the voltage comparator output resets the
flip-flop and, therefore, the open-collector stage at BDRV
is floating again.
1999 Oct 25
11