E-18
Input Signals (Recommended Timing)
For IBM and compatibles
For Apple Macintosh Series
Input signals:
The video output signal timing of different types of
video signals are shown below for reference.
e
a
b c
d
w
x
y
z
VIDEO SIGNAL
C-SYNC(H)
C-SYNC(V)
VIDEO SIGNAL
V-SYNC
e = 2 dot
a
b
c
d
w
x
y
z
VIDEO SIGNAL
HORIZONTAL
SYNC SIGNAL
VIDEO SIGNAL
VERTICAL
SYNC SIGNAL
E
D
O
M
M
B
I
M
B
I
M
B
I
M
B
I
M
B
I
M
B
I
M
B
I
M
B
I
M
B
I
e
l
p
p
A
e
l
p
p
A
e
l
p
p
A
A
G
V
A
S
E
V
A
G
V
S
A
G
V
S
A
G
V
S
A
G
V
S
A
G
X
A
G
X
A
G
X
h
s
o
t
n
i
c
a
M
M
T
I
I
i
s
h
s
o
t
n
i
c
a
M
M
T
C
L
h
s
o
t
n
i
c
a
M
M
T
c
i
h
p
a
r
G
Text
720 dots
640 dots
640 dots
640 dots
640 dots
832 dots
800 dots
800 dots
800 dots
800 dots
1,024 dots 1,024 dots 1,024 dots
350 lines 400 lines 350 lines 400 lines 480 lines 480 lines
480 lines
480 lines
624 lines
600 lines
600 lines
600 lines
600 lines
768 lines
768 lines
768 lines
c
i
h
p
a
r
G
c
i
h
p
a
r
G
A
S
E
V
e
n
il
e
d
i
u
G
A
S
E
V
d
r
a
d
n
a
t
S
A
S
E
V
d
r
a
d
n
a
t
S
A
S
E
V
e
n
il
e
d
i
u
G
A
S
E
V
d
r
a
d
n
a
t
S
A
S
E
V
d
r
a
d
n
a
t
S
r
o
t
i
n
o
M
"
3
1
r
o
t
i
n
o
M
"
3
1
r
o
t
i
n
o
M
"
6
1
e
l
p
p
A
h
s
o
t
n
i
c
a
M
M
T
r
o
t
i
n
o
M
"
9
1
O
E
D
I
V
L
E
V
E
L
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
.
x
a
m
p
-
p
V
1
5
7
Ω
d
a
o
l
.
x
a
m
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
.
x
a
m
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
E
P
Y
T
R • G • B
R • G • B
R • G • B
R • G • B
R • G • B
R • G • B
R • G • B
R • G • B
R • G • B
R • G • B
C
N
Y
S
.
C
R • G • B
C
N
Y
S
.
C
R • G • B
C
N
Y
S
.
C
H
S
Y
N
C
H
C
R
O
P
T
N
O
R
F
a
t
o
d
7
1
4
1
4
2
4
2
0
4
6
5
6
1
4
2
4
2
6
1
4
6
8
7
1
3
C
N
Y
S
b
t
o
d
8
0
1
6
9
0
4
2
7
8
2
1
0
2
1
0
8
6
3
1
6
3
1
6
9
4
6
2
6
5
6
H
C
R
O
P
K
C
A
B
c
t
o
d
5
5
0
5
8
2
1
8
2
1
8
8
4
6
0
6
1
0
6
1
4
4
1
6
7
1
6
9
6
1
1
4
2
2
D
O
I
R
E
P
O
E
D
I
V
d
t
o
d
0
2
7
0
4
6
0
4
6
0
0
8
0
0
8
0
0
8
0
0
8
4
2
0
,
1
4
2
0
,
1
4
2
0
,
1
0
4
6
0
4
6
2
3
8
)
d
+
c
+
b
+
a
(
H
1
t
o
d
0
0
9
0
0
8
2
3
8
4
2
0
,
1
6
5
0
,
1
0
4
0
,
1
6
5
0
,
1
4
4
3
,
1
8
2
3
,
1
2
1
3
,
1
4
6
8
6
9
8
2
5
1
,
1
µ
s
4
7
7
7
.
1
3
6
7
7
7
.
1
3
3
1
4
.
6
2
4
4
4
.
8
2
0
0
4
.
6
2
0
0
8
.
0
2
3
3
3
.
1
2
7
7
6
.
0
2
7
0
7
.
7
1
0
6
6
.
6
1
4
1
7
5
.
8
2
5
9
5
.
8
2
4
2
1
.
0
2
t
o
d
1
s
n
2
8
0
3
.
5
3
9
1
2
7
.
9
3
6
4
7
.
1
3
7
7
7
.
7
2
0
0
0
.
5
2
0
0
0
.
0
2
2
0
2
.
0
2
15.385
3
.
3
1
7
.
2
1
8
8
6
0
.
3
3
3
6
0
4
1
9
.
1
3
8
6
4
.
7
1
1 H
/
z
H
k
9
8
6
4
.
1
3
8
8
6
4
.
1
3
0
6
8
.
7
3
6
5
1
.
5
3
9
7
8
.
7
3
7
7
0
.
8
4
5
7
8
.
6
4
48.363
6
7
4
.
6
5
3
2
0
.
0
6
0
0
0
0
.
5
3
9
4
1
1
7
9
.
4
3
3
9
6
.
9
4
t
o
d
/
1
z
H
M
2
2
3
.
8
2
5
7
1
.
5
2
0
0
5
.
1
3
0
0
0
.
6
3
0
0
0
.
0
4
0
0
0
.
0
5
0
0
5
.
9
4
0
0
0
.
5
6
0
.
5
7
5
7
.
8
7
0
0
4
2
.
0
3
9
4
1
4
3
3
.
1
3
6
4
2
.
7
5
L
E
V
E
L
T
T L
T
T L
T
T L
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
Y
T
I
R
A
L
O
P
C
N
Y
S
–
/
+
+
–
+
–
–
–
–
/
+
+
+
+
–
–
+
–
–
–
V
S
Y
N
C
H
C
R
O
P
T
N
O
R
F
w
H
8
3
3
1
8
3
3
1
1
1
9
1
1
7
3
1
3
3
1
3
3
1
C
N
Y
S
x
H
2
2
2
2
2
3
2
4
6
3
6
6
3
3
3
3
H
C
R
O
P
K
C
A
B
y
H
9
5
4
3
9
5
4
3
2
3
8
2
2
2
3
2
3
2
1
2
9
2
9
2
8
2
9
3
9
3
9
3
D
O
I
R
E
P
O
E
D
I
V
z
H
0
5
3
0
0
4
0
5
3
0
0
4
0
8
4
0
8
4
0
0
6
0
0
6
0
0
6
0
0
6
8
6
7
8
6
7
8
6
7
0
8
4
0
8
4
4
2
6
)
z
+
y
+
x
+
w
(
V
1
H
9
4
4
9
4
4
9
4
4
9
4
4
5
2
5
0
2
5
5
2
6
8
2
6
6
6
6
5
2
6
6
0
8
6
0
8
0
0
8
5
2
5
5
2
5
7
6
6
s
m
1
8
6
2
.
4
1
1
8
6
2
.
4
1
1
8
6
2
.
4
1
1
8
6
2
.
4
1
2
3
8
6
.
6
1
5
3
7
.
3
1
8
7
7
.
7
1
9
7
5
.
6
1
3
5
8
.
3
1
3
3
3
.
3
1
6
6
6
.
6
1
2
7
2
.
4
1
8
2
3
.
3
1
0
0
.
5
1
0
0
.
5
1
3
2
4
.
3
1
1 v
/
z
H
6
6
8
0
.
0
7
6
6
8
0
.
0
7
3
6
8
0
.
0
7
3
6
8
0
.
0
7
5
0
4
9
.
9
5
9
0
8
.
2
7
0
5
2
.
6
5
7
1
3
.
0
6
8
8
1
.
2
7
0
0
0
.
5
7
6
0
0
.
0
6
9
6
0
.
0
7
9
2
0
.
5
7
7
6
.
6
6
7
6
.
6
6
2
0
5
.
4
7
L
E
V
E
L
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
T L
T
Y
T
I
R
A
L
O
P
C
N
Y
S
–
/
+
–
+
–
+
–
–
–
/
+
+
+
+
–
–
+
M
B
I
SXGA
SXGA
1,280 dots
1,024 lines
A
S
E
V
d
r
a
d
n
a
t
S
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
R • G • B
48
112
248
1,280
1,280
1,688
15.6
9.3
63.981
108.000
T L
T
+
1
3
38
1,024
1,066
16.7
60.020
T L
T
+
M
B
I
1,280 dots
1,024 lines
A
S
E
V
d
r
a
d
n
a
t
S
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
R • G • B
6
1
144
248
1,688
12.5
7.4
79.976
135.000
T L
T
+
1
3
38
1,024
1,066
16.7
75.025
T L
T
+
–
–
–
1,024 dots
768 lines
.
x
a
m
p
-
p
V
7
.
0
5
7
Ω
d
a
o
l
R • G • B
C
N
Y
S
.
C
35
96
173
1,024
1,328
16.650
12.538
60.0
79.76
T L
T
–
3
3
30
768
804
13.387
74.70
T L
T
–
Notes:
• When connecting a notebook computer to the data-projector for display on an (800
2
600) LCD screen, the screen may
not show a full picture image. See page 20, “Computer Mode Memory Adjustments” for details.
• This projector may not be able to display images from notebook computers in simultaneous (CRT/LCD) mode. If this
occurs, turn off the LCD display on the notebook computer and output the display data in “CRT only” mode. Details on
how to change display modes can be found in your notebook computer’s operation manual.