lm2433 National Semiconductor Corporation, lm2433 Datasheet - Page 9

lm2433

Manufacturer Part Number

lm2433

Description

220v Monolithic Single Channel 16 Mhz Edtv Crt Driver

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM2433.pdf (13 pages)

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Application Hints

normal video resumes, a protection element should shunt

high video current away from the IK input of the RGB pro-

cessor. Since the processor’s IK pin is not clamped during

normal video, V

diode (D

sor input and LM2433 IK output in this case. Again, it may be

necessary for the RGB processor to have IK leakage com-

pensation for the leakage current attributed to the zener. See

a simplified current feedback interface circuit in Figure 14.

LM2433 IK Output and Protection Requirements

The LM2433 IK output sources a copy of the actual cathode

current to the interface circuit during the closed-loop IK

measurement interval and during normal video when the IK

feedback loop is opened. Because the cathode current dur-

ing normal video is much higher than the low current being

measured during the measurement interval, V

it’s maximum rating. To protect and prevent improper opera-

tion of the LM2433, V

specified in the Section Operating Ranges .

For voltage feedback topologies, it is recommended to use a

high-speed diode to clamp the IK voltage to V

supply during normal video. A small series resistor (R

Figure 13) can be placed at the IK pin to limit the current

through the diode when clamping. See the NSC Demonstra-

tion Board for an example. For current feedback topologies,

it is recommended to use a high-speed, low-leakage zener

diode to clamp V

shunt the high video current away from the RGB processor’s

IK input. The zener voltage should be higher than the clamp-

ing voltage of the processor’s IK pin and lower than the

maximum voltage rating of either the processor’s IK pin or

LM2433 V

In a Direct-View TV application with a single neck PCB, it is

possible for the three LM2433 IK outputs to share the one

feedback circuit and protection diode by connecting the IK

pins together on the neck PCB. This will reduce component

count. In a Rear-Projection TV application with three neck

PCBs, the IK pins can be connected on the central neck PCB

or the RGB processor mainboard through cabling. This way,

they can share the interface circuit to feed back the IK

voltage or current signal to the RGB processor. However,

each LM2433 IK output should have its own protection diode

on its PCB.

IK MAX

FIGURE 14. Simplified IK Interface for Current

). A properly chosen high speed, low-leakage zener

PROT

, whichever is the less.

) can be used to protect both the RGB proces-

of the LM2433 must not exceed +16V

Feedback Systems

to a properly chosen zener voltage and

must be maintained within the range

(Continued)

may exceed

or a lower

20146225

PC BOARD LAYOUT CONSIDERATIONS

For optimum performance, an adequate ground plane, iso-

lation between channels, good supply bypassing and mini-

mizing unwanted feedback are necessary. Also, the length of

the signal traces from the preamplifier to the LM2433 and

from the LM2433 to the CRT cathode should be as short as

possible. The following references are recommended:

Ott, Henry W., “Noise Reduction Techniques in Electronic

Systems”, John Wiley & Sons, New York, 1976.

“Video Amplifier Design for Computer Monitors”, National

Semiconductor Application Note 1013.

Pease, Robert A., “Troubleshooting Analog Circuits”,

Butterworth-Heinemann, 1991.

Because of its high small signal bandwidth, the part may

oscillate in a TV if feedback occurs around the video channel

through the chassis wiring. To prevent this, leads to the video

amplifier input circuit should be shielded, and input circuit

wiring should be spaced as far as possible from output circuit

wiring.

TYPICAL APPLICATION

The high bandwidth, large swing capability, and simple ap-

plication make the LM2433 ideal for Rear-Projection and

Direct-View EDTV CRT applications. The IK output can be

made compatible with any RGB video processor with IK

feedback. If the IK output is not used in the application, it

should be connected to the same ground as pin 3 (GND).

See the section “Cathode Current Output for IK Feedback

Systems” for more information.

NSC DEMONSTRATION BOARD

Figure 15 and Figure 16 show the schematic and PCB layout

for the NSC demonstration neck board for a typical Rear-

Projection EDTV application with IK feedback. This single

channel neck board could be used for all three channels,

since each neck board receives video-related signals directly

from the RGB mainboard. The power supplies are daisy-

chained between each channel using inboard and outboard

connectors J6 and J7. This board provides a good example

of a layout that can be used as a guide for future layouts.

Samples of the NSC demonstration neck board are available

upon request to your local National Semiconductor Sales

Office.

Input Video Interface

On the RGB mainboard, the video output of the RGB pro-

cessor is buffered with a PNP transistor to drive the video

through flat cabling to the NSC neck board. The cabling from

the mainboard plugs into the neck board at connector J8 to

supply it with video, IK, GND, and other signals. Between the

video input (pin 3) of J8 and V

another buffer stage consisting of two NPN transistors. Both

NPN transistors drop the video levels from the preceding

PNP buffer by a total of two V

black level such that the LM2433 output (or cathode) black

level voltage is near the nominal cut-off voltage of the CRT.

The overall voltage shift from the processor output to the

LM2433 input is one V

shifting could have been accomplished using one NPN

buffer on the RGB mainboard to drive the processor’s video

output through cabling directly to the LM2433 input. How-

ever, it was decided to preserve the TV’s original RGB

mainboard circuitry (the PNP buffer) and use two NPN tran-

sistors on the neck board.

drop. Note: The same video level

. This shifts the nominal input

(pin 7) of the LM2433 is

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lm2433 National Semiconductor Corporation, lm2433 Datasheet - Page 9

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