TDA4856/V6,112 NXP Semiconductors, TDA4856/V6,112 Datasheet - Page 7

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

Compliant

Current page: 7 of 58
Download datasheet (263Kb)

Philips Semiconductors

Frequency-locked loop

The frequency-locked loop can lock the horizontal

oscillator over a wide frequency range. This is achieved by

a combined search and PLL operation. The frequency

range is preset by two external resistors and the

recommended maximum ratio is

This can, for instance, be a range from 15.625 to 90 kHz

with all tolerances included.

Without a horizontal sync signal the oscillator will be

free-running at f

detected by the internal coincidence detector. A deviation

of more than 4% between horizontal sync and oscillator

frequency will switch the horizontal section into search

mode. This means that PLL1 control currents are switched

off immediately. The internal frequency detector then

starts tuning the oscillator. Very small DC currents at

HPLL1 (pin 26) are used to perform this tuning with a well

defined change rate. When coincidence between

horizontal sync and oscillator frequency is detected, the

search mode is first replaced by a soft-lock mode which

lasts for the first part of the next vertical period.

The soft-lock mode is then replaced by a normal PLL

operation. This operation ensures a smooth tuning and

avoids fast changes of horizontal frequency during

catching.

In this concept it is not allowed to load HPLL1.

The frequency dependent voltage at this pin is fed

internally to HBUF (pin 27) via a sample-and-hold and

buffer stage. The sample-and-hold stage removes all

disturbances caused by horizontal sync or composite

vertical sync from the buffered voltage. An external

resistor connected between pins HBUF and HREF defines

the frequency range.

Out-of-lock indication (pin HUNLOCK)

Pin HUNLOCK is floating during search mode or if a

protection condition is true. All this can be detected by the

microcontroller if a pull-up resistor is connected to its own

supply voltage.

For an additional fast vertical blanking at grid 1 of the

picture tube, a 1 V signal referenced to ground is available

at this output. Also the continuous protection blanking

(see Section “Video clamping/vertical blanking generator”)

is available at this pin. Via I

BLKDIS can switch off horizontal unlock blanking while

vertical blanking is maintained.

2003 Sep 30

PC monitors

C-bus autosync deﬂection controller for

min

. Any change of sync conditions is

C-bus control, the control bit

--------- -

max

min

6.5

Horizontal oscillator

The horizontal oscillator is of the relaxation type and

requires a capacitor of 10 nF at HCAP (pin 29).

For optimum jitter performance the value of 10 nF must

not be changed.

The minimum oscillator frequency is determined by a

resistor connected between pin HREF and ground.

A resistor connected between pins HREF and HBUF

defines the frequency range.

The reference current at pin HREF also defines the

integration time constant of the vertical sync integration.

Calculation of line frequency range

First the oscillator frequencies f

calculated. This is achieved by adding the spread of the

relevant components to the highest and lowest sync

frequencies f

by the currents in R

Table 1 describes a 31.45 to 90 kHz application.

Table 1 Calculation of total spread

Thus the typical frequency range of the oscillator in this

example is:

The resistors R

the following formulae:

The resistor R

and R

Total

max

min

HCAP

HREF

HBUFpar

spread of

HBUF

, R

---------------------- -

sync min

sync max

1.09

HBUF

-----------------------------------------------------------------

min

in parallel.

sync(min)

------------------------------------------------------------------- -

max

HBUFpar

HREF

78 kHz k

0.0012 f

78 kHz k

0.0012 f

HREF

1.07

28.4 kHz

and R

and f

is calculated as the value of R

and R

for f

sync(max)

min

HBUFpar

96.3 kHz

max

kHz

HBUF

min

. The oscillator is driven

kHz

can be calculated with

and f

Product speciﬁcation

2.61 k

max

TDA4856

726

have to be

for f

min

HREF

TDA4856/V6,112 NXP Semiconductors, TDA4856/V6,112 Datasheet - Page 7

TDA4856/V6,112

Specifications of TDA4856/V6,112

Related parts for TDA4856/V6,112