TDA9330 Philips Semiconductors, TDA9330 Datasheet - Page 30

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

12. The bandwidth of the video channels depends on the capacitive load at the RGB outputs. For 2f

13. The timing of the horizontal blanking pulse on the RGB outputs is illustrated in Fig.10.

14. When a YUV or RGB signal is applied to the IC and no separate horizontal or vertical timing pulses are available, an

15. Start-up behaviour of the CCC loop. After the horizontal output is released via bits STB, the RGB outputs are blanked

16. Voltage V

17. Signal-to-noise ratio (S/N) is specified as a peak-to-peak signal with respect to RMS noise (bandwidth 10 MHz).

18. This is a current input. When the black current feedback loop is closed (only during measurement lines or during fixed

2000 May 08

c) The signal amplitude at the RGB outputs of the TDA933xH depends on the gain of the RGB amplifiers. The gain

applications, external (PNP) emitter followers on the RGB outputs of the TDA933xH are required, to avoid reduction

of the bandwidth by the capacitance of the wiring between the TDA933xH and the RGB power amplifiers on the

picture tube panel. If emitter followers are used, it should be possible to obtain the bandwidth figures that are

mentioned for 10 pF load capacitance.

a) The start of the blanking pulse is determined by an internal counter blanking that starts 40 LLC (line locked clock)

b) When the reproduction of 4 : 3 pictures on a 16 : 9 picture tube is realized by reducing the horizontal scan

external sync separator circuit is needed. The TDA933xH has an edge triggered phase detector circuit on the H

input that uses the start of the H

vertical blanking period, it is important that the sync separator does not generate extra horizontal sync pulses during

the vertical sync pulse on the video signal.

and the CCC loop is activated. Because the picture tube is cold, the measured cathode currents are too small, and

both gain and offset are set at the maximum value so that the CCC loop gets out of range and status bit BCF is set

to 1. Once the picture tube is warm, the loop comes within range and the set signal for bit BCF is removed. Status

bit BCF is set if the voltage of at least one of the cut-off measurement lines at the RGB outputs is lower than 1.5 V

or higher than 3.5 V. The RGB outputs are unblanked as soon as bit BCF changes from 1 to 0. To avoid a bright

picture after switch-on with a warm picture tube, reset of bit BCF is disabled for 0.5 s after switch-on of the horizontal

output. If required, the blanking period of the RGB outputs can be increased by forcing the blanking level at the RGB

outputs via RBL = 1. When status bit BCF changes from 1 to 0, bit RBL can be set to 0 after a certain waiting period.

lowest of the three RGB output voltages during the cut-off measurement lines is within the alignment window of

a) Voltage V

b) It should be noted that bit WBC is only meant for factory alignment of voltage V

beam current switch off), the voltage at this pin is clamped at 3.3 V. When the loop is open circuit, the input is not

C-bus controlled TV display processors

0.1 V around 2.5 V. Bit HBC is 0 if the lowest cut-off level is below 2.6 V, and 1 if this level is above 2.6 V.

of the RGB amplifiers should be 35 to get the nominal signal amplitude of 2 V (b-w) at the RGB outputs for a

cathode drive level of 70 V (b-w) and the nominal setting of the drive level bits (CL

pulses before the centre of the horizontal flyback pulse. This is 5.8 s for 1fH and 2.9 s for 2fH TV mode. The

end of the blanking is determined by the trailing edge of the flyback pulse. If required, the start of the counter

blanking can be adjusted in 15 steps with bus bits LBL3 to LBL0. This can be useful when HDTV or VGA signals

are applied to the IC.

amplitude, the edges of the picture may be slightly disturbed. This effect can be prevented by adding an additional

blanking pulse to the RGB signals. This blanking pulse is derived from the horizontal oscillator and is directly

related to the incoming H

normal blanking signal by approximately 1 s (1f

by bit HBL. The phase of this blanking can be controlled in 15 steps by bits HB3 to HB0.

voltage V

be adjusted higher until bit WBC becomes 1.

on the video content, this is not a problem. Correct operation of the black current loop is guaranteed as long as

status bit BCF = 0, meaning that the DC level of the measurement lines at the RGB outputs of the IC is between

1.5 and 3.5 V.

should be adjusted lower until bit WBC becomes 1. If HBC = 1, the DC level is too high and voltage V

of the picture tube can be aligned with the help of status bits WBC and HBC. Bit WBC becomes 1 if the

should be adjusted. If bit HBC = 0, the DC level at the RGB outputs of the IC is too low and voltage

should be aligned such that bit WBC becomes 1. If bit WBC is 0, bit HBC indicates in which direction

pulse (independent of the flyback pulse). The additional blanking pulse overlaps the

pulse as timing reference. To avoid horizontal phase disturbances during the

) or 0.5 s (2f

) on both sides. This wide blanking is activated

. If the value of bit WBC depends

3210

TDA933xH series

= 1000, see Table 15).

Preliminary speciﬁcation

or VGA

should

TDA9330 Philips Semiconductors, TDA9330 Datasheet - Page 30

TDA9330

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