8-23
PFM42B1, PFM-42B1E
8-23
2
3
4
5
1
A
B
C
D
E
F
G
H
TLC5733A (IC1042)
59
60
1
61
V (A)
63
CLK A
62
64
2
V
DD
DGND
14
5
26
25
8
8
8
8
8
8
8
8
8
8
8
8
56
58
6
I
13
16
15
17
I
24
35
44
MODE0
CLK A
CLK B
CLK A
CLK XSYNC
MODE1
46
45
TEST
4
36
I
43
54
53
48
52
50
51
49
47
27
28
NT/PAL
3
EXTCLP
55
CLPEN
57
33
29
31
30
32
34
IN
V (A)
RT
V (A)
RB
V(A)1-8
V (QA)
DGND(QA)
DD
DATA
LATCH
DATA
LATCH
MUX
WITH
OUTPUT FORMAT
DATA
LATCH
CLOCK
GENERATOR
OUTPUT FORMAT
/TEST
SWITCHING
D(B)1-8
V (QB)
DD
DGND(QB)
D(C)1-8
V (QC)
DD
DGND(QC)
CLPV(A)
1 (A)
BLAS
V (A)
CC
GND(A)
OE(A)
V (B)
IN
V (B)
RT
V (B)
RB
CLPV(B)
1 (B)
BLAS
V (B)
CC
GND(B)
OE(B)
V (C)
IN
V (C)
RT
V (C)
RB
CLPV(C)
1 (C)
BLAS
V (C)
CC
GND(C)
OE(C)
CLK B
CLK C
SAMPLING
COMPARATOR
CLAMP
CONTROL
SAMPLING
COMPARATOR
CLAMP
CONTROL
SAMPLING
COMPARATOR
CLAMP
CONTROL
CLAMP PULSE
INT/EXT
CONTROL
B
B
1.7Vp-p (H)
!-
!-
!-
!-
!-
580mVp-p (H)
4.7Vp-p (14.285MHz)
1.7Vp-p (H)
3.3Vp-p (H)
740mVp-p (H)
580mVp-p (H)
560mVp-p (H)
800mVp-p (H)
700mVp-p (H)
800mVp-p (H)
500mVp-p (H)
1
1
1
1
1
LINE
@-
@-
@-
@-
@-
SECAM
#-
#-
#-
#-
#-
YUV
600mVp-p (H)
2
2
2
2
2
Y/C
!=
!=
!=
!=
!=
3.0Vp-p (V)
1Vp-p (2H)
@=
@=
@=
@=
@=
Y/C
#=
#=
#=
#=
#=
YUV
640mVp-p (H)
3
3
3
3
3
Y/C
1.8Vp-p (H)
![
![
![
![
![
@[
@[
@[
@[
@[
Y/C
1.3Vp-p (2H)
#[
#[
#[
#[
#[
620mVp-p (H)
4
4
4
4
4
4.6Vp-p (V)
!]
!]
!]
!]
!]
3.4Vp-p (148.7MHz)
@]
@]
@]
@]
@]
YUV
920mVp-p (H)
#]
#]
#]
#]
#]
600mVp-p (H)
5
5
5
5
5
4.8Vp-p (H)
!\
!\
!\
!\
!\
3.8Vp-p (78MHz)
@\
@\
@\
@\
@\
YUV
950mVp-p (H)
5.0Vp-p (V)
6
6
6
6
6
YUV
880mVp-p (H)
!;
!;
!;
!;
!;
LINE
@;
@;
@;
@;
@;
YUV
3.3Vp-p (H)
#;
#;
#;
#;
#;
YUV
5.0Vp-p (H)
7
7
7
7
7
YUV
600mVp-p (H)
!'
!'
!'
!'
!'
LINE
4.4Vp-p (3.6MHz)
@'
@'
@'
@'
@'
YUV
3.3Vp-p (H)
@,
@,
@,
@,
@,
YUV
#,
#,
#,
#,
#,
YUV
9
9
9
9
9
!.
!.
!.
!.
!.
LINE
@.
@.
@.
@.
@.
YUV
#.
#.
#.
#.
#.
YUV
0
0
0
0
0
@/
@/
@/
@/
@/
SECAM
#'
#'
#'
#'
#'
YUV
4.8Vp-p (H)
8
8
8
8
8
YUV
740mVp-p (H)
!,
!,
!,
!,
!,
LINE
960mVp-p (H)
B Board Waveforms
#/
#/
#/
#/
#/
YUV
$/
$/
$/
$/
$/
YUV
760mVp-p (H)
1.2Vp-p (H)
#\
#\
#\
#\
#\
700mVp-p (H)
840mVp-p (H)
$-
$-
$-
$-
$-
YUV
980mVp-p (H)
$=
$=
$=
$=
$=
YUV
1.2Vp-p (H)
$[
$[
$[
$[
$[
YUV
1.2Vp-p (H)
$]
$]
$]
$]
$]
YUV
2.3Vp-p (86MHz)
3.2Vp-p (V)
$;
$;
$;
$;
$;
YUV
3.2Vp-p (H)
$,
$,
$,
$,
$,
YUV
$.
$.
$.
$.
$.
YUV
$'
$'
$'
$'
$'
YUV
700mVp-p (H)
%/
%/
%/
%/
%/
YUV
2.2Vp-p (V)
$\
$\
$\
$\
$\
YUV
4.9Vp-p (V)
4.2Vp-p (V)
%-
%-
%-
%-
%-
Y/C
3.3Vp-p (H)
%=
%=
%=
%=
%=
Y/C
4.6Vp-p (13.3MHz)
%[
%[
%[
%[
%[
Y/C
3.9Vp-p (H)
%]
%]
%]
%]
%]
Y/C
4.2Vp-p (H)
3.9Vp-p (V)
%;
%;
%;
%;
%;
Y/C
4.9Vp-p (H)
%,
%,
%,
%,
%,
Y/C
%.
%.
%.
%.
%.
Y/C
%'
%'
%'
%'
%'
Y/C
4.9Vp-p (H)
^/
^/
^/
^/
^/
Y/C
1.3Vp-p (H)
%\
%\
%\
%\
%\
Y/C
^-
^-
^-
^-
^-
Y/C
800mVp-p (H)
^=
^=
^=
^=
^=
Y/C
680mVp-p (H)
^[
^[
^[
^[
^[
Y/C
720mVp-p (H)
720mVp-p (H)
600mVp-p (H)