TDA4856/V6,112 NXP Semiconductors, TDA4856/V6,112 Datasheet - Page 12

TDA4856/V6,112

Manufacturer Part Number

TDA4856/V6,112

Description

Manufacturer

NXP Semiconductors

Datasheet

1.TDA4856V6112.pdf (58 pages)

Specifications of TDA4856/V6,112

Lead Free Status / RoHS Status

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Philips Semiconductors

An internal discharge circuit allows a well defined

discharge of capacitors at BSENS. BDRV is active at a

LOW-level output voltage (see Figs 25 and 26), thus it

requires an external inverting driver stage.

The B+ function block can be used for B+ deflection

modulators in many different ways. Two popular

application combinations are:

2003 Sep 30

Boost converter in feedback mode (see Fig.25)

In this application the OTA is used as an error amplifier

with a limited output voltage range. The flip-flop will be

set at the rising edge of the signal at HDRV. A reset will

be generated when the voltage at BSENS, taken from

the current sense resistor, exceeds the voltage at BOP.

If no reset is generated within a line period, the rising

edge of the next HDRV pulse forces the flip-flop to reset.

The flip-flop is set immediately after the voltage at

BSENS has dropped below the threshold voltage

Buck converter in feed forward mode (see Fig.26)

This application uses an external RC combination at

BSENS to provide a pulse width which is independent

from the horizontal frequency. The capacitor is charged

via an external resistor and discharged by the internal

discharge circuit. For normal operation the discharge

circuit is activated when the flip-flop is reset by the

internal voltage comparator. The capacitor will now be

discharged with a constant current until the internally

controlled stop level V

will be maintained until the rising edge of the next HDRV

pulse sets the flip-flop again and disables the discharge

circuit.

If no reset is generated within a line period, the rising

edge of the next HDRV pulse automatically starts the

discharge sequence and resets the flip-flop. When the

voltage at BSENS reaches the threshold voltage

automatically and the flip-flop will be set immediately.

This behaviour allows a definition of the maximum duty

cycle of the B+ control drive pulse by the relationship of

charge current to discharge current.

PC monitors

RESTART(BSENS)

C-bus autosync deﬂection controller for

, the discharge circuit will be disabled

STOP(BSENS)

is reached. This level

Supply voltage stabilizer, references,

start-up procedures and protection functions

The TDA4856 provides an internal supply voltage

stabilizer for excellent stabilization of all internal

references. An internal gap reference, especially designed

for low-noise, is the reference for the internal horizontal

and vertical supply voltages. All internal reference currents

and drive current for the vertical output stage are derived

from this voltage via external resistors.

If either the supply voltage is below 8.3 V or no data from

the I

soft start and protection functions do not allow any of those

outputs [HDRV, BDRV, VOUT1, VOUT2 and HUNLOCK

(see Fig.22)] to be active.

For supply voltages below 8.3 V the internal I

not generate an acknowledge and the IC is in standby

mode. This is because the internal protection circuit has

generated a reset signal for the soft start register SOFTST.

Above 8.3 V data is accepted and all registers can be

loaded. If the SOFTST register has received a set from the

activates all outputs which are mentioned above.

If during normal operation the supply voltage has dropped

below 8.1 V, the protection mode is activated and

HUNLOCK (pin 17) changes to the protection status and is

floating. This can be detected by the microprocessor.

This protection mode has been implemented in order to

protect the deflection stages and the picture tube during

start-up, shut-down and fault conditions. This protection

mode can be activated as shown in Table 3.

C-bus, the internal soft start procedure is released, which

C-bus has been received after power-up, the internal

Product speciﬁcation

TDA4856

C-bus will

TDA4856/V6,112 NXP Semiconductors, TDA4856/V6,112 Datasheet - Page 12

TDA4856/V6,112

Specifications of TDA4856/V6,112

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