LAYOUT CONSIDERATIONS
In order to obtain full performance from these triple filters,
layout is very important. Good high frequency decoupling
is required between each power supply and ground.
Otherwise, oscillations and/or excessive crosstalk may
occur. A ground plane is recommended.
Each filter has its own supply and ground pins. In the test
circuit, 0.1µF capacitors are connected in parallel with
1nF capacitors on VCC, VCCC, VCCB and VCCA for
maximum noise rejection (Figure 9).
Further noise reduction is achieved by using series ferrite
beads. In typical applications, this degree of bypassing
may not be necessary.
Since there are three filters in one package, space the
signal leads away from each other as much as possible.
Power Considerations
The ML6421 power dissipation follows the formula:
1 6 �!��� ���"$## PD = ICC à VCC â
VOUT2 Ã 3
RL
(1)
This is a measure of the amount of current the part sinks
(current in â current out to the load).
Under worst case conditions:
0 5 �!��� ���"$## PD = 0.175à 5.5 â
1.52 Ã 3
75
= 872.5mW
ML6421
ML6421 VIDEO LOW PASS FILTER
Filter Selection: The ML6421 provides several choices in
filter cut-off frequencies depending on the application.
RGB: When the BW of each signal is the same, then the
ML6421-1 (5.5MHz) or ML6421-3 (8MHz) are appropriate
depending on the sampling rate.
YUV: When the luminance bandwidth is different from the
color bandwidth, the ML6421-4 with the 8.0, and two
3.0MHz filters are most appropriate.
S-Video: For Y/C (S-video) and Y/C + CV (Composite
Video) systems the 5.5MHz or 8MHz filters are
appropriate. In NTSC the C signal occupies the bandwidth
from about 2.6MHz to about 4.6MHz, while in PAL the C
signal occupies the bandwidth from about 3.4MHz to
about 5.4MHz. In both cases, a 5.5MHz low pass filter
provides adequate rejection for both sampling and
reconstruction. In addition, using the same filter for both
Y/C and CV maintains identical signal timing without
adjustments.
Composite: When one or more composite signals need to
be filtered, then the 5.5MHz and 8MHz filters permit
filtering of one, two or three composite signals.
NTSC/PAL: A 5.5MHz cut-off frequency provides good
filtering for 4.2MHz, 5.0MHz and 5.5MHz signals without
the need to change filters on a production basis.
Sinx/x: For digital video system with output D/A
converters, there is a fall-off in response with frequency
4
THEORETICAL SINX/X
CORRECTION FOR
13.5MHz SAMPLING
2
0
â2
SINX/X ERROR FOR
TYPICAL DAC AT 13.5MHz
â4
0
1
2
3
4
5
6
7
FREQUENCY (MHz)
Figure 10. Sinx/x Frequency Response
DIGITAL
INPUTS
R
8
RED DAC
(CURRENT SOURCING
G
8
GREEN DAC
(CURRENT SOURCING
B
8
BLUE DAC
(CURRENT SOURCING
DAC LOAD
ADJUSTED FOR
2VP-P
+5V
ML6421
ANALOG
OUTPUTS
R
75â¦
G
75â¦
B
75â¦
Figure 11. Typical ML6421 Reconstruction Application
9
|
English
German
Russian
Spanish
Italian
Polish
Chinese
Japanese
Korean
French
Portuguese