TDA9330 Philips Semiconductors, TDA9330 Datasheet - Page 9

TDA9330

Manufacturer Part Number

TDA9330

Description

I2C-bus controlled TV display processors

Manufacturer

Philips Semiconductors

Datasheet

1.TDA9330.pdf (56 pages)

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Philips Semiconductors

The horizontal drive signal is switched on and off via the

so-called slow-start/slow-stop procedure. This function is

realized by varying the t

EHT generators without a bleeder, the IC can be set to a

‘fixed beam current mode’ via bit FBC. In this case, the

picture tube capacitance is discharged with a current of

approximately 1 mA. The magnitude of the discharge

current is controlled via the black current feedback loop.

If necessary, the discharge current can be enlarged with

the aid of an external current division circuit. With the fixed

beam current option activated, it is still possible to have a

black screen during switch-off. This can be realized by

placing the vertical deflection in an overscan position. This

mode is activated via bit OSO.

An additional mode of the IC is the ‘low-power start-up’

mode. This mode is activated when a supply voltage of 5 V

is supplied to the start-up pin.

The required current for this mode is 3 mA (typ.). In this

condition, the horizontal drive signal has the nominal t

and the t

30% of the nominal value. This results in a line frequency

of approximately 50 kHz (2f

signal remains unchanged until the main supply voltage is

switched on and the I

horizontal drive then gradually changes to the nominal

frequency and duty cycle via the slow-start procedure.

The IC can only be switched on and to standby mode when

both standby bits (STB0 and STB1) are changed. The

circuit will not react when only one bit changes polarity.

The IC has a general purpose bus controlled DAC output

with a 6-bit resolution and with an output voltage range

between 0.2 to 4 V. In the TDA9331H, the DC voltage on

this output is proportional to the horizontal line frequency

(only in VGA mode). This voltage can be used to control

the supply voltage of the horizontal deflection stage, to

maintain constant picture width for higher line frequencies.

The drive signals for the vertical and E-W deflection

circuits are generated by a vertical divider, which derives

its clock signal from the line oscillator. The divider is

synchronized by the incoming V

input processor or the feature box. The vertical ramp

generator requires an external resistor and capacitor; the

tolerances for these components must be small. In the

normal mode, the vertical deflection operates in constant

slope and adapts its amplitude, depending on the

frequency of the incoming signal (50 or 60 Hz, or

100 or 120 Hz). When the TDA933xH is switched to the

VGA mode, the amplitude of the vertical scan is stabilized

2000 May 08

ERTICAL DEFLECTION AND GEOMETRY CONTROL

C-bus controlled TV display processors

grows gradually from zero to approximately

C-bus data has been received. The

of the horizontal drive pulse. For

) or 25 kHz (1f

pulse, generated by the

). The output

off

and independent of the incoming vertical frequency. In this

mode, the E-W drive amplitude is proportional to the

horizontal frequency so that the correction on the screen is

not affected.

The vertical drive is realized by a differential output

current. The outputs must be DC-coupled to the vertical

output stage (e.g. TDA8354).

The vertical geometry can be adjusted via the I

Controls are possible for the following parameters:

With regard to the vertical wait, the following conditions are

valid:

The minimum value for the vertical wait setting is 8 line

periods. If the setting is lower than 8, the wait period will

remain at 8 line periods.

The E-W drive circuit has a single-ended output. The E-W

geometry can be adjusted on the following parameters:

Vertical amplitude

S-correction

Vertical slope

Vertical shift (only for compensation of offsets in output

stage or picture tube)

Vertical zoom

Vertical scroll (shifting the picture in the vertical direction

when the vertical scan is expanded)

Vertical wait, an adjustable delay for the start of the

vertical scan.

In the 1f

and cannot be adjusted with the vertical wait

In the 2f

depends on the value of the Vertical Scan Reference

(VSR) bus bit. If VSR = 0, the start of the vertical scan is

related to the end of the incoming V

it is related to the start. In both cases, the start of the

scan can be adjusted with the vertical wait setting

In the multi-sync mode (TDA9331H and TDA9332H

both in 1f

scan is related to the start of the incoming V

can be adjusted with the vertical wait setting.

Horizontal width with increased range because of the

‘zoom’ feature

E-W parabola/width ratio

E-W upper corner/parabola ratio

E-W lower corner/parabola ratio

E-W trapezium.

TV mode, the start of the vertical scan is fixed

TV mode, the start of the vertical scan

mode and 2f

mode), the start of the vertical

TDA933xH series

Preliminary speciﬁcation

pulse. If VSR = 1,

pulse and

C-bus.

TDA9330 Philips Semiconductors, TDA9330 Datasheet - Page 9

TDA9330

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