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LMG-S16016001-LED Serial
USER‘ MANUAL
SDEC TECHNOLOGY CORP.
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.
W
.
W
W
Y
W
Y
W
M
M
0
0
W
O
0
W
W
TW
.10 Y.CO
.C M.T
.
WW W.1
W
W
Y
W
M
0
3.W Interface
W
O
00Pin Connections
W
O
0
W
1
1
T
C
T
.
C
.
.
.
.
W
.
W
W
W 00Y
Y
W
M
M
0
W
O
W
W
O
0
W
.1
.1
.C M.T
W
.C M.T
W
W
Y
W
Y
W
0
0
W
O
0
W
W
O
0
W
.1
.1
.C M.T
W
.C M.T
W
Y
W
Y
W
0
0
W
0
W
O
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10
T
C
.
.CO M.T
.
WW W.1
.
W
Y
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W
00 .CO
W
W
O
W
1
1
T
T
.
C
.
.
.
W
.
W
Y
W
W 00Y
M
00 .COM .TW
W
O
W
1
1
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.
C
.
.
W
.
W
Y
W
Y
W
M
0
00 .COM .TW
W
O
0
W
1
1
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.
C
.
.
W
.
W
Y
W
Y
W
M
M
0
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W
W
O
0
W
1
1
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T
.
C
.
.
.
W
.
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
PAGE
2
(LMG-S16016001-LED
Serial)
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
94.5±0.2
(V/A)74.4
1.6
1.5
7.0
3.5
1.6(定 位 柱 )
(D/A)55.98
A
25.4±0.2
(V/A)60.4
(D/A)55.98
74.5±0.2
A
K
(定位柱)71.5±0.2
74.5±0.2
"C"
"C"
(D/A0)55.98
K
58.95±1.0
53.95
3.0
LEVEL
-
-
H/L
L
H/L
H/L
H/L
H/L
H/L
H/L
H/L
H/L
L
L
H/L
H/L
H/L
H/L
H/L
L
(硬護貝)
5.0
SYM
VSS
VDD
A0
RW_WR
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
E_RD
RESET
IF1
IF2
IF3
SI
SCL
XCS
0.02
3.0
(露銅箔)
"A"
"B"
0.5
NO
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
定位柱
(D/A)55.98
1
(FPC)
0.25
0.33
0.33
ST7529G
13.26
11.05
40
0.25
0.02
2.0
24.5
"A"
"B"
P(0.5)*39=19.5
0.3±0.05
20.5
FUNCTION
0V
+3.3V
A0 = H : Data , A0 = L : Command
68 Series : RW ; 80 Series : /WR
DATA BIT0
DATA BIT1
DATA BIT2
DATA BIT3
DATA BIT4
DATA BIT5
DATA BIT6
DATA BIT7
68 Series : E ; 80 Series : /RD
CONTROLLER RESET
Interface Mode Select
Interface Mode Select
Interface Mode Select
Series Data Input
Series Clock Input
CHIP ENABLE SIGNAL
NO
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
SYM LEVEL
FUNCTION
VDD
-
+3.3V
C7+
-
The Step-up Voltage Capacitance
C1-
The Step-up Voltage Capacitance
C5+
-
The Step-up Voltage Capacitance
C3+
-
The Step-up Voltage Capacitance
C1-
The Step-up Voltage Capacitance
C1+
-
The Step-up Voltage Capacitance
C2+
-
The Step-up Voltage Capacitance
C2-
The Step-up Voltage Capacitance
C4+
-
The Step-up Voltage Capacitance
C2-
The Step-up Voltage Capacitance
C6+
-
The Step-up Voltage Capacitance
VLCD
-
LCD Driver Supply Voltages
VREF
-
Reference Voltage Output For Monitor Only. Leave it Open
V4
-
LCD Driver Supply Voltages
V3
-
LCD Driver Supply Voltages
V2
-
LCD Driver Supply Voltages
V1
-
LCD Driver Supply Voltages
V0OUT
-
LCD Driver Supply Voltages
V0IN
-
LCD Driver Supply Voltages
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
W 00
M
M
W
O
W
O
W
1004. Electrical
1
T
C
TW
.
C
.
.
.
.
.
Absolute Maximum Ratings
W
Y
W
Y
W
M
0 MIN. OMTYPE W MAX.
00 .CO ITEM.TW
W
0
W
SYMBOL
UNIT
1
1
.
.
W
.C M3.3.T
W
Y
W
Y
W
VDD-VSS
2.4
3.6
V
M
SUPPLY
VOLTAGE
FOR
LOGIC
0
04.0
W
O
0
W
W
O
0
W
1
V0-SS
-18.0
V
1
T
SUPPLY
VOLTAGE
FOR
LCD
.
C
.
.C M.
.T
W
.
W
Y
W
Y
W
M
VI
VSS0
VDD
V
0 INPUT VOLAGE W
O-- .TW
0
W
1
T
.10 Y.CO
C
.
.
WW 5.W
.
W
W 00Y
M maximum
Environmental
absolute
ratings
M
0
W
O
0
W
W
O
W
1
1
T
C
T
.
C
.
.
.
.
W
.
W
ITEM
OPERATING
STORAGE
REMARKS
Y
W 00
Y
W 00MAX.
M MIN.W MAX.
M
MIN.
O
W
W-O
W
1
1
T
C
TNOTE
.
C
.
.
.
.
W Ambient
.
W
1
Temperature
0
°C
50
°C
-10
°C
60
°C
Y
W
Y
W 00
M
M Condensation
0
W
O
0
W
W
O
W
NOTE
1
NOTE
2
Without
Humidity
1
T
.1
.T 4.9m/s
.C M
.Directions
W Vibration
.C XYZ
W-- W.19.6m/s
Y
-W
Y
M
0
0
O -- .TW29.4m/s
W Shock.10
W
OXYZ Directions
0
-- W
490.0m/s
1
C
T
C
.
.
.
W
.
W
W 00Y
W 00Y
M
Remarks:
M
W
W
O
W
W
O
W
1
1
NOTE W
(1) :
Ta at
60 °C : .C
50 HR Max..T
T
.
C
.
.
.
W
W< 40 °C0:0Y 95% RH
W 00Y
M
M
NOTE (2) :
Ta
Max.
W
O
W
W
O
W
1
TW
1
T
T
Absolute
must be lower than the
humidity of
95% at 40.C
°C.
.
.
.C humidity
.
W Ta >W40. °C : Y
W
W 00Y
M
M
0
W
W
O
0
W
W
O
W
6.
Electrical
Characteristics
1
T
1
T
C
T
.
.
C
.
.
.
.
W
.
W
Y
W 00
M
W 00Y
M
MUNIT W
W
O
W
O
W
ITEM
SYN
CONDITION
MIN.
TYPE
MAX.
1
TW
1
T
C
.
.
.
.
.T
W FOR
W 2.4 W. 3.3 Y.C
-3.6
V
SUPPLY VOLTAGE
LOGIC0Y VDD-VSS
W
M
M
M
O
WTa= 25℃
O
WFOR LCD
00 18.0.CO V .TW
W
VLCD
--10
TW SUPPLY VOLTAGE
1
T
C
.
.
.
.
.
W
W
W 00Y VIH OM
M
Y
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VM
INPUT HIGH VOLTAGE
0
W
O
W
W
O
0
W
1
T INPUT LOW VOLTAGE
C
1
T
VIL
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-0.3VDD
C
.
.
C
.
.
.
W
. V M.T
W
Y
W
M
Y
W
M
0
0
W
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W
O
0
W
O
0
W
1
Timing Control
C
1
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C
.
C
.
.
.
.
W
.
W
Y
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W 00Y
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MPU Bus Read/Write(80-family
MPU Bus Read/Write(68-family
W
O
W
O
W
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1
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C
1
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.
.
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.
.
.
.
W
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.C
W
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Y
W
M
Y
W
0
0
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W
10
10
10
TW
C
.
.CO M.T
.
.
.
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0
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1
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10
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W
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W
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0
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1
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C
1
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.
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.
.
.
.
.
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W
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1
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.
Symbol
Limit
Unit
. Limit (Min.)
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W
.C M
W
W
Y
W
Y
W
M
W
0
tCYC
240
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0
System
cycle
time
0
W
W
10 0 .CO --.TW
.
.TW
.COsetupMtime
tAW
ns W
WW W.1 Address
W
Y
W 000Y
W
M-- W
tAH
ns
hold
time
W
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W
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W
W
1
1
T
C
T
.
C
.240 Y.
W
tCC W
-- .
ns
Control
width.
W
Y. pulseO
W
W
M
M
0
0
W
tDS
40
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0
Data
setup
time
W
W
W
10
.Ctime M.T
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W
W
tDH
10.
ns
hold
Y
W
0
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W
W ns
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5
50
Output
1
1
T
T
.
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.
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.
W
.
W
W
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ns
Y time OM
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Y 70 OM
0
0
W
W
W
0
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140
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Enable
Read .T
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.T nsns
W Pulse
.
WW
W
W
width 0Y
Y
80 W
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0
W
O
0
W
W
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W
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1
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Y
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W
W
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1
1
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.
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.
.
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.
W
Y
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00 .COM .TW
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W
1
1
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.
C
.
.
W
.
W
Y
W
Y
W
M
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00 .COM .TW
W
O
0
W
1
1
TW
.
C
.
.
W
.
W
Y
W
Y
W
M
M
0
W
O
00 3 (LMG-S16016001-LED
W
W
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0
W
1
1
T
C
T
.
C
.
.
PAGE
Serial)
.
.
W
.
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
2
2
2
2
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
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C
TW
.
.
.
.
.
W
Y
W
Y
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M
M
W
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W
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1008. Application
1
T
C
TW
.
C
.
.
.
.
.
Circuit
W
Y
W
Y
W
M
M
0
W
00 .CO
W
W
O
0
W
1
1
T
T
.
C
.
.
.
W
.
W
W 00Y
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M
M
W
O
W
W
O
W
1
1
T
C
T
.
C
.
.
.
.
W
.
W
W 00Y
W 00Y
M
M
W
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W
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W
1
1
T
C
T
.
C
.
.
.
.
W
.
W
W 00Y
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M
M
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W
1
1
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C
T
.
C
.
.
.
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W
.
W
Y
W 00
W 00Y
M
M
W
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W
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W
1
1
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TW
.
C
.
.
.
.
W
.
MPU
W
Y
W
Y
W
M
M
0
0
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0
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TW
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.
WW W.1
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Y
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W
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1
1
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T
.
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.
.
.
W
.
W
Y
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M
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IF1 IF3
RW_WR 00E_RD
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W
W
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W
1
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C
T
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.
.
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.
W
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1
R/W
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68
Series
W /RD
W 00Y
M
M
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1
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80 Series
W
W
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1
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1
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C
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.
C
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.
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W
.
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W
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W
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1
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C
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.
.
.
.
W
.
W
Y
W
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Ext=0 or Ext=1
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OM .TIndex
W
00 D6 .CD5OM
W
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W
1
Command
A0
RD WR .1D7
D4
D3
D2
D3
D0
Function
Hex
Parameter
T
TW
C
.
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W
.
W
Y
W
M
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1
Ext In
0
1
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0
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30 0
None
M
00 1 1 M 0 0 0 0
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310
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1
.
C
.
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.
W
Y
W
M
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M
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W
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W
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1
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C
1
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C
.
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C
.
.
.
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W
.
W
Y
Command
A0
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D7
D6
D5Y D4
Function
Hex
MIndex W
W Parameter
MD21 D11 WD01
M
0 0 D3O
0Y
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W
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DISON
0
1
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Display On
AF
None
T
C
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DISOFF
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Display Off W
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Y0 10 O11M 11 W
Y. O
0
W
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3
DISNOR
0
1
0
1
0
10 0
0
Normal Display
A6
None 00
W
W
1 0 .0C 1 1 .T 1 Inverse Display WA7
.T
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4
DISINV
0
1
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0 . 1
None
Y
Y
W
M
Y
W
M
0
0
0
5
COMSCN
0
1
0
1
0
1
1
1
0
1
1
COM
Scan
Direction
BB
1
byte
W
W1 0 .100 1 .C0O 1 .0TWDisplay Control CA W 3 bytes .10
10
.T
DISCTRL
0
1
0 W
1
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W
Y
Y
W
0
7
SLPIN W0
1
0
1
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0
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Sleep In
95
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0
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SLPOUT
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0
11
94
.
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W. 00Y.89C O
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0
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0
1
1
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1
Line Address Set
75
2 bytes W
M
0
W
W
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0
W
0
W
10
CASET
0
1
0
0
0
0
1
0
1
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1
Column
Address
Set
15
2
bytes
1
.
.1 1 1 Y.C0 0 Data
.T0 1 0 1 W
.C DATSDR
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W
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from Memory
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Data
W 1400Y RAMRD
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W
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PTLINO
0
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Partial display
in
A8
2 bytes
W
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. 15 PTLOUT
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0 . 1
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W
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16
RMWIN
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Read
and
Modify
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None
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W
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0
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Area Scroll
0
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W
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W
1 9 .1SCSTART .C 0
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1
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W
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WPAGE005Y(LMG-S16016001-LED
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W
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.
W
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W
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.
W
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W
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1
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T
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M
Parameter Byte 1 (PB1) W
1
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0
0
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0
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W
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0
W
W
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1
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1
T
C
T
.
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C
.
.
Parameter Byte 1W
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1
1
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DT5. DT4 DT3 DT2 DT1WDT0
Drive duty
.
Y
W1 00 0 * *OM* FI WLF3 LF2 LF1 LF0 W DR inverse-set
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Parameter Byte 1 (PB3) W
1
W
0
W
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W
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W
Wclock. 00Y
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W
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W
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.
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.
.
W
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W
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W 00
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O
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.
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.
.
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.
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W
M
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W
M
M
0
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For
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W (range.1from
O
0
W
T
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.
.
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W
.
W
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W 00Y+ LF0*2OM
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W
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W
1
T
C
1
T
C
.
.
C
.
.
.
.
For
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11
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W
W
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W
W 00Y. O
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W
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W
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W
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.Tthe inversion type of frame
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W at the end
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W
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0
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number
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the
application
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n
line
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a
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the
W
O
W
W
10
10figure. .CO
10
TW
.
.Cdifference
.
.
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the choice in FI is shownW
as the following
.C
W
Y
Y
W
M where W
Y
W
M
0
0
M = n*k+r,
m, n, k and r are all wholeW
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m
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O
0
W
W
1
10
.1
.T – Parameter Byte :W
.
.CO M.T
W
W. 00Y(7).CSleepOinM(SLPIN)
Y
W
None (95H)
W 00Y
0
W
W
O
0
W
W
1
T
C
.
.1
.command
.1
.C M.T
W
This
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W
Y
W
Y
W
M
W
0
0
0
A0W
RD
WR
D7
D6 0 D5
D4
D3 W D2
D1
D0
O
W
O
W
0
W
10 Command
1
T
C
1
T
.
C
.
.
0
1
0
1
0
0
1
0
1
0
1
.
.
.
.
W
W
W 00Y
W 00Y
M
W
M
W
O
W
W
O
W
W
(8)
Sleep
out
(SLPOUT)
–
Parameter
Byte
:
None
(94H)
1
1
T
.
.
.C M.
.1
W
.C M.T
W
W
Y
W
Y
W
W
0
0
This
command
is
to
exit
the
SLEEP
MODE.
W
0
W
.CO A0M.T RD WR D7 WWD6 W.D510 D4Y.COD3 M.TD2W D1
D0 W
WW W.1
Y
W
Command
1 W
0
1
0
0
0
1
0
0
01
00 .CO0
W
W
O
0
W
W
1
1
T
T
.
C
.
.
.
W (9)WLine addressYset (LASET)
.
W
– Parameter Byte : 2 (75H)W
Y
W
M
M
0
0
W
O
0
W
T area when MPU W
.1 is toYspecify
CORAM. As.TtheWaddresses are WW
.1the0 display
line.address
makes access to
.C the M
WWThis command
.data
W
Y
W
0start to theOend line in the
0is increasedObyM1 and lineWaddress
increased
from 0
the
scan, the W
column address
Wline-direction
W
0
1
1
T
C
.
C line<end.Tline” must be
.
.
return
to
the
start
line.
Note
that
the
start
and
end
line
must
be
a
pair.
Moreover,
the
relation.“start
.
W
W
W
Y
W
Y
W
M
M
0
0
maintained.
W
O
0
W
W
O
0
D2
D1 .1D0
.C WR MD7.T D6 D5 D4 D3WW
.T
W CommandW.1 A00 YRD
.C Function
W
Y
W
1
0
0
1
1
1
0
1
0
1
--M
0
0
W
O
0
W
W
O
0
W
Parameter Byte 1 (PB1).1 1
1 .C0
SL7 .T
SL6
SL5
SL4
SL3
SL2
SL1
SL0
Common
.1
.T
W
.C Scan direction
W
Y
W
Y
Parameter Byte 1 (PB2)
1
1
0
EL7
EL6
EL5
EL4
EL3
EL2
EL1
EL0
W
M
M
0
0
O
0 is 0.C
W
O
W
Note: The range
line.1
address
~ 159.
10
TW
T
C
.
.
.
WW ofW
.
W
Y
W 00Y
M
00 .COM .TW
W
W
O
W
1
1
T
.
C
.
.
W
.
W
Y
W
W 00Y
M
00 .COM .TW
W
O
W
1
1
TW
.
C
.
.
W
.
W
Y
W
Y
W
M
0
00 .COM .TW
W
O
0
W
1
1
TW
.
C
.
.
W
.
W
Y
W
Y
W
M
M
0
W
00 .CO
W
W
O
0
W
1
1
T
T
.
C
.
.
.
W
.
W
WPAGE006Y(LMG-S16016001-LED
W 00Y
M
Serial)
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
5
3
4
2
3
1
2
0
1
0
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
W 00
M
M
W
W
O
W
100 .CO
1
T
TW
.
C
.
.
.
.
(10)0Y
Column address
set (CASET) – ParameterW
Byte : 2 (15H)
W
Y
W
M
M
0
W
O
0 command
W
W
O
0
W
1
1
T
C
.
C
.
.
This
is
to
specify
the
column
address
area
when
MPU
makes
access
to
the
display.T
data RAM. As the addresses
.
W
.
W
W are increased
W scan,
M is increased
0Y fromOtheMstart to theWend column in the column-direction
0Ythe line address
1 and column
0
W
W by“start
O
0
W
1
1
T
C
T
.
C
.
address
returned
to the start .column. Note that the startW
and end line must
be a pair.
Moreover,
the
relation
.
.
W
Ycolumn”O
Wcolumn<end
W 00Y. OM
Mbe maintained.
0
must
W
0
W
W
W
1
1
C
T
.
C
.
A0
RD .T
WR
D7
D6
D5 W
D4
D3
D2
D1
D0
Function
.
.
W
.
Y 0 OM
WCommand
M --W
1
0
0
0
0
1
0 W1
00Y 1
W
010(PB1)
W
O
0
W
1
Parameter .Byte
1
1
0
SC7
SC6
SC5
SC4
SC3
SC2
SC1
SC0
1
T
C
. EC1 EC0
. 1 1 M.0 EC7 EC6 EC5 EC4W EC3 EC2
.TScan direction
W Parameter
.C Common
Y
W
Y
Byte 1 (PB2)
W
M
0
O is 0.T~ W
W The range
00 .CO
W
address
84.
10of column
1
C
TW
.
.
.
.
WNote:
W
Y
W
Y
M– Parameter
M
(11) Data
scan direction
W Byte : 3 (BCH) WW .100
O
00 (DATSDR)
W
O
1
T
C
TW
.
C
.
.
.
W
.
W
Y
W
Y
W
This command is to setup
parameters
of display data stored on the0built-in RAMM
by MPU.
Woperations
OMD7 .inTD6the
0A00 various
W
W
O
0
RD C
WR
D5
D4
D3
D2 WD1
D0
Function
1
1
T
.
C
.
.
.
WCommand W 0 1Y 0 1M 0 1 1 1 W1 0 W0
.
Y --OM
0
0
W
W
O
0
W
W
0
W
Normal/inverse
display of address and
1
T
ParameterW
Byte 1 (PB1) .1
1
0C *
*.T *
*
*
C/LW CI
LI .1
C
.
.
.
address
scan
direction
W 1 01 0Y0 *OM* * W * * * * 0W Not0Y
M
Parameter Byte 1 (PB2)
used, D0 must
be 0.
W
W
O
0
W
1
TW
1
T
T
C
.
.
.
W1 (PB3) W
Parameter Byte
1 . 1
0 .C*
*
*
*
*
GS2 W
GS1 GS0
Gray-scale
setup
.
Y
Wscanning
Mline andW
M
0Ydisplay ofOthe
0direction.
PB1 is to specify the
normal/inverse
column address and the address
W
0
W
W
O
0
W
1
T
1
T
C
T
.
.
C
.
.
.
W
.
LI : Normal/inverse
direction
of the line
address. LI=0. : Normal , LI=1 : Inverse.W
Y
W 00column address.
M
W 00Y
MCI=0 : Normal
M
: Normal/inverse W
direction of the
, CI=1 : Reverse. W
W
O
W
O
1
TW CI
1
T
C
T
.
.
C
.
.
.
W
.
C/L : Address-scan
direction. C/L=0 : In Y
the. column direction,
C/L=1 : In the line direction.
W
W
W 00Y
M
PB2 is not used, D0 mustW
be 0.
OM .TW
00 .COM .TW
O
W
1
1
TW
.
C
.
.
Wgray scaleWdisplay mode
.
PB3 is to select desired
2B3P or 3B3PD1 or 3B3PD2 mode. W
Y
M
Y
W 00
M
M
0 of gray-scale
GS2
GS1
GS0W
W
O
0Numbers
O
W
1
TW
CO
1
T
C
.
.
C
.
0
0
1
32
gray-scale
2Byte
3Pixel
mode
.
.
.T
W
.
W
Y
W
M
Y
W
M
0W
1
0
32 gray-scale 0
2Byte
3Pixel ditherM
1 mode
0
O
W
O
03Byte 3Pixel
W 32 gray-scale
O
0
W
1
T
C
1
0
0
dither 2 mode.T
1
C
.
.
C
.
.
.
W
.
W
Y
W 00Y
M2B3P 32W
W 00Y
M
M
O
W
O
Gray Scale Display
W
O
W
1
T
C
1
T
C
.
.
C
.
.
.
.
W
W
W 00Y
MD6 D5 D4WD3 D2 D1 D0
W 00Y. O
M
00Y .COD7
W
O
W
W
P0 P0 P0
.1
.TP0 P0 P1 P1 P1 1 st writeW
.1
.C M.T
.C
W
Y
Y
W
M
Y
W
P1 P1
D P2 P2 P2 P2 P2 2nd write
0
0
0
W
Oand it is.written
W
W
10
10 as shown,
Tof data is read after the W
10
TW in the display RAM.
C
.
.
single pixel
second write operation
"X" are
.CAO
.
.
.C
W
Y
Y
W
M whichW
Y
W
M
0
0
dummy
bits,
are ignored for display, "D"
are
dither
bits,
which
are
used
for
dither.
0
O
0
W
0
W
1
10
.T
.C 32M
.
.CO M.T
WW W.1
W
Gray Scale Display
W. 00Y3B3PD1
Y
W 00Y
0
W
O
W
O
0
W
W
1
.
D7 D6
D3 D2
.1
.TD1 D0
.CD5 D4 M
.1
.C M.T
W
W
Y
W
Y
W
W
0
0
P0
P0
P0
P0
P0
D
X
X
1
st
write
0
W
W
O
0
W
0
W
10P1 P1 P1.CP1OP1 D .XTW
1
1
T
.
C
.
.
.
.
X 2nd write
W
W
W P200P2YP2 P2 P2OM
W 00Y
W
M
D X X W
3rd write
W
W
O
W
W
1
1
T
T RAM. "X" are W
.A single pixel
C the .display
. and it Y
.
.Cof data M
.1
W
W as shown,
is read after the third write operation
is .written in M
Y
W
W
W
0
0
Wdisplay, "D" are dither W
W
O
dummy
bits, which are
W
10used for.dither.
Tfor
T
.10 bits,Ywhich
C
.
.
.COare ignored
.
WW W
W
W
W 00Y
M
W
M
0 Gray Scale
3B3PD2032
Display
W
O
W
W
O
W
W
1
1
T
C
T
.
C
.
.
W D7WD6 D5 D4 D3Y.D2 D1 D0 M.
.
W
W
Y
W
M
0
0
W
O
0
W
write T
W
TW
.10 Y.CO
.
.
WWP0P1 P0P1WP0P1.1P0P1 P0P1 DDY.DDC DD 12ndstM
W
W
write
W
M
0
W
00 .CO
W
W
O
0
W
P2
P2 P2 P2
P2 D D D
3rd write .T
1
1
T
.
C
.
.
WA single W
.
W
W
Ydisplay RAM.
Mthird write
M
pixel of data0isY
read after the
operation as shown, and it isW
written in the
"X" are
0
W
O
0
W
W
O
0
dummy
which
dither.
.1 are ignored
.1
.T"D" are dither bits, whichWareWused for
.Cfor display,
W bits,W
.C M.T
W
Y
Y
W
M
0
0
W
O
0
(12) Memory
write (RAMWR)
–
Parameter
Byte
:
Numbers
of
data
written
(5CH)
W
W
O
0
W
.1
.1
.C M.T
.T
W
.C will
W
Y
W
Y
W
M
This command turns on the0
data entry mode when MPU
writes
data
to
the
display
memory.
This
command
always
0
W executed. The following
O
0 at .the
W
Ocontents.ofTW
W parameter
1address
10byte rewrites
Twhile
C
sets the W
line and column
start address
.
C
.
.
.
W
Y
Wmode is0automatically
M
the display data RAM
address
automatically. The write
cancelled
0Y
W
00 the.ClineOorMcolumn
WWand.1increases
W
O
W
1
T
if any otherW
command is entered.
T
C
.
.
.
.
W
Y
W
W D0 00YFunctionOM
A0
RD
D5
D4
D3
D2
D1
0 RW OD7M D6 W
0
W
W
1
T
C
TW
.
C
.
0
1
0
0
1
0
1
1
1
0
01
—
.
Command
.
.
W
.
W
Y
W
Y
W
M
0 to be writtenOM
000 1
Data
Parameter Byte 1 (PB1)W 1
WData to be written
O
W
0
W
1
1
T
C
.
.
.
.
W
.C M.T
W
Y
W
Y
W
M
0
W
00 .CO
W
W
O
0
W
1
1
T
T
.
C
.
.
.
W
.
W
PAGE
7
(LMG-S16016001-LED
Serial)
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
W 00
M
M
W
W
O
W
100 .CO
1
T
TW
.
C
.
.
.
.
(13)0Memory
readM
(RAMRD) – Parameter ByteW
: NumbersW
of data read (5DH)
Y
W
Y
M
0
W
O
0 command
W
W
O
0
W
1
1
T
C
T
.
C
.
.
This
turns
on
the
data
entry
mode
when
MPU
read
data
to
the
display
memory.
This
command will always sets
.
.
W
.
W
Y columnOaddress
W the line
WThe contents
M at theWstart address while executed.
Mdata RAM
0and
0Yof the display
be read in
0
W
Wiswill
O
0
W
1
1
T
C
T
.
C
.
following
parameter
byte and. increases the line or column
address
automatically.
The
data
read
mode
automatically
.
.
W
W
Wcancelled00if Y
W 00Y. OM
M is entered.
any otherO
command
W
W
WFunction
W
1
C
.
.
A0 .T
RD
RW
D7 D6 W
D5
D4 .1D3
D2 .CD1
D0 .T
W
W Command
W 1 001Y 0 OM
0
1 W
0
0
1
0
1
1
00Y .COM
W
W—
W
1
1
T
T
.
C
.
.
.
W Parameter
.
W
Data to be read
be read
Y 1OM0 1W
W Byte010(PB1)
W 00Y
M Data toW
W
O
W
.1in (PTLIN)
.1
Byte: 2 (A8H)
.T
.C- Parameter
W(14) Partial
.C M.T
W
Y
W
Y
W
M
0
0 (dividing
W
O display
0specify .theCpartial
O screen.TbyW
0screen
ThisW
command .is1to
area. It will turn on partialW
display of the
lines) to
1
T
C
.
.
W
.
W
save power.W
Since ST7529
processes the
liquid
crystal
display
signal
on
4-line
basis
(block
basis),
the
display
and
Y
Y
W
M
M
0
W basis).
O4-bit
00specified
W
W
O
0
W
no-display
areas are.1also
on
lineT
(block
1
C
T
C
.
.
.
.
W
.
W
W 00A0Y RD ORW
M D7 WD6 D5 D4 D3 WD2W D1 00D0Y Function
M
W
W
W
O
1
1
T
Command
0
1
0
1
0
1
0
1
0
0
0
—
C
T
.
C
.
.
.
.
W
.
W
W 01 0Y 1 O
M
Parameter Byte 1 (PB1)
0 M*
*
PTS5 PTS4 PTS3 PTS2 W
PTS1 PTS00Y
Start block address
W
W
W
O
0
W
1
TW
1
T
T
C
Parameter
* . *
PTE5 PTE4 PTE3WPTE2 PTE1 . PTE0 End block
address
.
WByte 2 (PB2)W. 1 1Y.C 0 M
.
Y to be displayed
Wan address
M
0 can be specified
0not
Only the address of
the display block
for the
partial display. Do not specify
W
W
O
0
W
W
O
0
W
1
T
1
T
C
T
.
.
C
.
.
.
.
when scrolled.W
.
W
Y
M
W 00Y
M
M
W
O
WW - Parameter
W
O
W
(PTLOUT)
none (A9H)
100 Byte:
TW (15) Partial out W
1
T
C
T
.
.
C
.
.
.
.
.
W
Y
W
W 00Y
M
M
0
This command is to exit the
PARTIAL0DISPLAY
MODE.
OM .TW
W
O
W
O
W
1
1
T
C
TW
.
C
.
.
W RD WRW D7 Y.D6 D5M. D4 D3 D2 D1W D0 W
.
A0
M
Y
M
0 0 O1 0 W1 0 0 1 W
0
W
O
0
Command
0
1
0 .101
TW
CO
1
T
C
.
C
.
.
.
.T
W
.
W
Y
W
M
Y
W
M
M
0
0
W modify write in (RMWIN)
O (16)
Read
W
Onone (E0H)
0 Byte:
W - Parameter
O
0
W
1
T
C
1
T
C
.
.
C
.
.
.
.
W
.
W
Y
MThis command
W (CASET),
is used along with the (9)W
line address
set commandM
(LASET), (10) column address set command
M
0Y
0Y
W
O
W
O
0
W
O
0
W
1
T
and
(17)
read
modify
write
out
command
(RMWOUT).
This
function
is
for
frequently
modified
data
on
a
specific
area,
C
1
T
C
.
.
C
.
.
.
.
W
.
W
Yusing theO
Mas blinking
M and line
cursor. First, set a specificW
display area
column
address commands. Then, W
execute this0Y
0
W
00Y .COsuch
W
0
W
O
0
W
1 start address
Tto set the column and lineWaddresses as.the
command
of the specific
area. When this operation is complete,
1
T
C
.
C
.
.
.
.
W
Y
W by the0display
M andW
Mcommand.WIt is increased only whenWtheWdisplay 00Y
the column
line address will not be modified
read
0Y data O
Owrite
100 .Cdata
T
command
is executed. YouW
canW
cancel this.1
mode by entering
read.T
modify write out or any other command.
C
.
.1
. the M
.C
W
Y
Y
W
M
Y
W
0
0
A0
RD
RW
D7
D6
D50
D4
D3
D2
D1
D0
0
W
O
0
W
O
W
1
10
.C M.T 0 1
.
0
0 .T 0
0
W1 W 1 W.11 0 Y.C0 M
W
W. 00YCommand
W 00Y
0
W
O
W
O
0
W
W
1
T out (RMWOUT) -W
C modify.write
(17) .Read
Parameter Byte:
.
.1 none (EEH)
.1
.C M.T
W
Y
W
Y
W
M
W
0
0
0
O cancels.TtheW
W
W
read modify write mode. W
O
0
0
W
10This command
1
C
1
T
.
C
.
.
.
.
.
W
W 00Y
D6
D5W D4
D3Y D2
D1
D0
MA0 RDW RW D7 W
W
M
0
O
W
W
O
0
W
W
Command
0
1
0
1
1
1
0
1
1
1
0
1
1
T
.
.
.C M.
.1
W
.C M.T
W
W
Y
W
Y
W
W
0
0
(18)1Area
- Parameter Byte: 4 (AAH)
W
O
W
W
10
TW
CsetO(ASCSET)
T
. 0 scroll
C
.
.
.
.
WW W
.
W
W
Y
W by 0lines).
M portion
W
M specifies
It is to scroll
only the specified
of the screen (dividing the screen
the scrolling
0YThis command
W
O
00 fixed
W
W
O
W
W
1
1
T
type
of
area,
area
and
scrolled
area.
C
T
.
C
.
.
W
.
W
Y. OA0M.RD RWWD7 D6 D5 W
W
Y
M
0
D4
D3 WD2
D1
D0
Function
0
0
W 0 .101 0.CO
W
1
TW
1 .T
0
1
0
1
0W 1
.C 0 M
.
WW W.Command
W
Y
Y
W
Maddress W
Parameter Byte010
(PB1)
1O 1
0
*
*
TB5
TB4
TB3
TB2
TB100 TB0 TopO
block
W
W
W
1
1
T
C
.
C
.
.
.
.T
Byte 2 (PB2)
1
1
0
*
*
BB5
BB4 W
BB3
BB2
BB1
BB0 . Bottom block address
W Parameter
W
Y
W
Y
W
M
M
0
0
Parameter
Byte 3 (PB3)
1 O
1
0
* W
*
NSB5 NSB4 NSB3 NSB2 NSB1 0
NSB0 NumberO
of specified blocks
0
W
W
.41(PB4) Y1.C 1 0 .*T * * * * WW* SCM1.1 SCM0 Y
Area
WParameter Byte
.Cscroll modeM.T
W
W
W
M
0
0
W
O
0
W
W
O
0
W
PB4: It is used to specify
.1 the scrolling
.1
.C mode.M.T
W
.C M.T
W
Y
W
Y
W
0
Settings
0
Scrolling 0
O
W
O
0
W
1 Top block
SCM1 SCM0
1Number
TW Bottom block address
C
T
.
C
.
.
.
.
WW Mode
.
W
address
(TB)
(BB)
of
specified
blocks
(NSB)
Y
W 00
W 00Y
M
M
W
O
W
W
O
W
Bottom(fixed
area)
height
=
1
1
T
C
T
.
.
.
.
0
0 WCenter mode Top(fixed area) .height = Top address
Bottom
start address.=C
Specified number
W
39-Bottom
address
Y
W
W 00Y
M
00 .COM .TW
W
W
O
W
1
Bottom(fixed area) height =
1
.
C
.
W
.
0
1
Top mode
0
Bottom start address = Specified
number .T
W
Y
39-Bottom
address
W
Y
W
M
M
039
W 39
00 .CO
W
O
0
W
1
0
Bottom mode
Top(fixed
area) height = Top
address
1
1
T
TW
.
C
.
.
.
W
.
W
W
1
1
Whole mode
00Y
39
39 Y
W
M
M
0
W
O
0 8 (LMG-S16016001-LED
W
W
O
0
W
1
1
T
C
T
.
PAGE
Serial)
C
.
.
.
.
W
.
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
W 00
M
M
W
W
O
W
100 .CO
1
T
TW
.
C
.
.
.
.
W
Since
ST7529
processes
the
liquid
crystal
display
signals
Y
W
Y
W
M
M
0
W
Obasis (block
00the four-line
W
W
O
0
on
basis), fixed and scrolled W
1
1
T
C
T
.
C
.
.
.
.
W
.
W
specified
basis (block basis). W
W areas0are
Mon the four-line
M
0Yalso
0Y
W
O
W
W
O
0
W
DDRAM
address
of
the
top
fixed
area
is
set
in
the
block
1
1
T
C
T
.
C
.
.
.
.
W
.
W
with the 0 block.
Waddress 0increasing
W 00Y
MstartingW
M
0Y ofdirection
O
W
W
O
W
DDRAM
address
the
bottom
fixed
area
is
set
in
the
1
1
T
C
T
.
C
.
.
.
.
W block
.
W
address
decreasing
direction
starting
with
39
block.
W 00Y
W 00Y
M
M
W
O
W
W
O
W
The DDRAM
address C
of other
blocksTfixed
areas are
1
1
T
.
C
.
.
.
.
W assigned
.
W
to
the
scrolled
+
background
areas.
Y
W 00
W 00Y
M
M
W
O
W
O
W
PB1
is to specify
the top block
address of
the
scrolled +
1
1
T
C
TW
.
C
.
.
.
.
W background
.
W
areas.
Specify
the
0
block
for
the
top
Y
W
Y
W 00
M
M
W
O
00 screen
W
O
W
screen
scroll or
whole
scroll. PB2
specifies the
1
1
T
C
TW
.
C
.
.
. + background
.
W address
.
W
bottom
of the scroll
areas.
Specify
Y
W
Y
W
M
M
0
W
Oscreen
00 or whole
W
O
0
W
the 39 W
block for the
bottom
1
1
T
C
T
.
C
.
.
.
.
W
.
W
scroll. The W
relation that
W 00Y
M < bottom
M
0Ytop blockOaddress
W
W
W
W
O
W
block address
must .1
be0 maintained.
PB3
specifies
a
1
T
C
T
C
.
.
.
.
W
.
W
specific number ofW
blocks {Numbers
(Top
W 00Y
Mfixed area
M
0Yof theofbottom
W
O
0case
W
W
O
W
+Scroll area) block-1}.
In.the
1
TW
1
T
C
T
C
.
.
.
.
W
.
W
scroll or whole screen
value is identical
PB2.
W scroll,0the
W 00Y
M withW
M
0Y
W
O
W
W
O
W
The
user
can
turn
on
the
area
scroll
function
by
executing
the
area
scroll
set
command
first
and
then
specifying
the
display
1
T
1
T
C
T
.
.
C
.
.
.
.
W
.
W
start
block
of
the
scroll
area
with
the
scroll
start
set
command.
Y
W 00
M
W 00Y
M
M
W
O
W
W
O
W
1
TW (19) Scroll start W
1
T
C
T
.
.
C
.
.
address set (SCSTART) - .Parameter Byte:
1 (ABH)
.
.
W
Y
W
W 00Y
M
OM .TW
OM to.TbeWthe start line content shown
00address .ofCDDRAM
W
O
W
This command is to specify
which .line
on screen.
Note thatCyou
1
1
TW
.
.
W
.
W
Y
must execute this command afterW
executing the
area
scroll
set
command.
Scroll
becomes
available
by
dynamically
changing
M
Y
W 00
M
M
W
O
W
100 .CO
TtheWstart block address. WW
CO
1
T
.
.
C
.
.
.T
.
WD0 W
Y
W
M
Y
M
A0
RD
RW
D7
D6
D5
D4
D3
D2
D1
Function
M
0
0
WCommand
O
W1 0.10 1 .0CO1 0.TW1 0 1 1 W
O
0
T
C
1
0
—
.
C
.
.
W
.
W
Y
W0 *00Y* SB5OMSB4 SB3W SB2 SB1 SB0 Start blockWaddress 0Y
M Parameter
M
Byte 1 (PB1)
1
1
W
O
W
O
0
W
1
T
C
1
T
C
.
.
C
.
.
.
.
W
Note : Don't repeat "Area scroll set(AAH)" instruction when
W 00Y "ScrollOstart
M
M addressWset" is executed. W WW 00Y. O
W
00Y .CO(20)
W
Internal
none
.1 Byte: Y
.T oscillation on (OSCON)
.1
.C(D1H) M.T
W - Parameter
.C
W
Y
W
M
Y
W
0
0
0
This
command
turns
on
the
internal
oscillation
circuit.
It
is
valid
only
when
the
internal
oscillation
circuit
CLS
=
HIGH.
W
W
10
10D5 D4.COD3 D2.TWD1 D0
10
.CO M.T A0 RD RWWW
.
.C
W
D7
D6 .
Y
Y
W
Y
W
M
0
0
0
W
O
0
0
1
1
00
1
0
0
1
W
1
10
.CCommandM.T 0 1
.
.TW
.C0O M
WW W.1
W
W. 00Y(21)
Y
W 00Y
0
Internal
oscillation
off (OSCOFF) - Parameter
Byte: none
(D2H) O
W
O
W
0
W
W
1
1
.
.turned
.T oscillation circuit. TheW
.C internal
.1
.C M.T
W
Y
W
It
turns off the M
circuit is also
off
in the reset mode.
Y
W
W
0
0
0
O A0.TWRD RW D7 D6W D5 .1D40 D3 CD2O D1 .TW
W
0
W
10
C
1
.
D0
.
.
.
W
Y
W 0Command
M0 1W 0 1 W1 W0 W 1 000Y 0 OM
W
0
1
0 W
O
W
W
1
1
T
C
.
.
.
.control
.1
W
.C M.T
W
W
Y
W
Y
W
M
W
(22) Power
set
(PWRCTRL) - Parameter Byte: 1 (20H)
0
0
O
0
W
O
W
W
TW
T
.1command
C
.10 circuit,
.isCused
.
WW W
.
W
This
to M
turn. on or off the Booster circuit,
voltageW
regulator
and
reference
voltage.
W
Y
W
0Y D2 OD1M D0 WFunction
00 .CO A0 .TRDW RW D7 D6 W
W
W
D5
D4 10
D3
1
T
.
C
. 0 Y0 . 0 0 . —
W
W1 W
W
Y
W
Command
0
1
1
0
0
0
M
M
0
0
W
O
0
O VR .LCD
W
VF
drive power
TW
.1 Byte 1 (PB1)
.10 0 Y.C
.C 1 M.1T 0 * * W* W 0 WVB
WW Parameter
W
Y
W
M
0 referenceOvoltage generation
VR
turns on/off0the
VR = "1": ON, VR =" 0": OFF
0
WVF =circuit.
W
W
O
0
W
1
1
T
C
T
.
C
VF
turns
on/off
the
circuit
voltage
follower.
"1":
ON,
VF
="
0":
OFF
.
.
.
.
W
.
W
W
YBooster.OVB
Won or off
Y
W
M= "1": ON,
M
0
VB: It
turns
the
VB =" 0": OFF
0
W
0
W
W
O
0
W
1
.volume
.1
.T - Parameter Byte: 2W
.C (VOLCTRL)
WElectronic
.C M.T
W
(23)
control
(81H) W
Y
W
Y
M
0
0
W
O
0
W
W
O
0
W
.1 to program
.1
.TLCD supply voltage V0.
The W
command is used
Refer to 7.10.2.
.Cthe optimum
.C M.T
W
Y
W
Y
W
M
0
0
O RW .TD7W D6 D5 D4 W
D3
D2 0 D1
W
1 0 .D01CO—Function .TW
.10 A00 Y.RDC
.
W
Command W
1
0M 1
0
0
0W 0
0
M
0YVPR0 VPR[5:0]
01 0 1 .CO0 * .TW* VPR5 VPR4 VPR3WW
W
W
O
0
Parameter Byte
1 (PB1)
VPR2 1
VPR1
1
T
.
C
.
.
W
.
W
Y
Parameter Byte 2 (PB2)W 1
1
0
*
*
*
*
*
VPR8
VPR7
VPR6
VPR[8:6]
W 00Y
M
M
W and therewith the contrast
O
00 command
W
O
W
1
With the VOLUP
and
VOLDOWN
the
V0
voltage
of
the
LCD
can
be
1
T
C
TW
.
C
.
.
.
.
W
.
W
Y
W
Y
W
adjusted.
M
0
00 .COM .TW
W
O
0
W
1
1
TW
.
C
.
.
W
.
W
Y
W
Y
W
M
M
0
W
O
00 9 (LMG-S16016001-LED
W
W
O
0
W
1
1
T
C
T
.
PAGE
Serial)
C
.
.
.
.
W
.
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
th
st
th
th
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
W 00
M
M
Wcontrol (VOLUP) - Parameter
O
W
O
W
100(24) Increment
1
T
C
TW
.
C
.
.
electronic
Byte:
none
(D6H)
.
.
.
W
Y
W
Y
W
M
M 1.W
0
W control offset value
O
00command
W
O
0
W
This
incrementsT
electronic
of voltage
regulator (V0)
circuit byT
Each step is 0.04V.
1
1
C
.
C
.
.
.
.
W
.
W
Y
W
Y
W
M
D1 M D0
OA0 RD WRW D7 D6 D5 D4 D30 D21 CO
00
W
WW W.1Command Y.C 0 M.1T 0 1 1 W0W 1W.100 Y
. 1 M0 .T
If you set
is set to 000000
has
Wto 111111, the control value
Ocontrol .value
Wbeen executed.
Ocommand
00 after.Cthis
W
100the electronic
1
T
C
T
.
.
.
.
WW (25)
W
Yelectronic
WDecrement
control (VOLDOWN) - Parameter Byte:
Wnone (D7H)
M
M
0
0Y
W
O
0
W
W
O
0
W
1
1
T
C
T
.
C
.
.
. electronic
W This W
.
command decrements
control offset value of W
voltage regulator
(V0) circuit
by 1. Each .step
is 0.04V.
Y
Y
W
M
M
0
0
RW TW
D7
D6
D5
D4 WD3
D2
D0O
10 D1 .C
TW
.10 A00Y.CRDO
.
.
.
WWCommand
W
W
Y
1
0
1
1
0
1
0
1
1
1
W 00
M
M
Wthe control value is set W
O
00 control
W
W
O
1
If
you
set
the
electronic
value
to
000000,
to
111111
after
this
command
has been
1
T
C
Texecuted.
.
C
.
.
.
.
W
.
W
Y
W
Y
W
M
0
(26) Reserved
(82H)
00 .COM .TW
W
W
O
0
W
1
1
T
.
C
.
.
W
.
W
W 00Y
M
M
Do not use this W
command. 0Y
W
W
O
0
W
W
O
W
1
1
T
C
T
.
C
.
.
.
.
W
.
A0
RD
RW
D7
D6
D5
D4
D3 W D2
D1
D0
W 01 0Y 0 O1 M 0 W0 0 0 0 W
Y
M
Command W 0
1
0 00
W
O
W
1
TW
1
T
C
T
.
C
.
.
.
.
W
.
W
W 00Y
M
M
0YCommand:
(27) Read Register
1W
(EPSRRD1)
1 Parameter
Byte: none (7CH)
W
W
O
0
W
W
O
W
1
T
1
T
C
T
.
.
C
.
.
.
.
W
.
W
Execute
the
EPSRRD1
and
STREAD
(Status
Read)
commands
in
succession
to
read
the
Electronic
Control
value.
Y
W 00
M
W 00Y
M
M
O
W
W
O
A0
RD 1 RW
D7
D6
D5 TW
D4
D3
D2
D1 W D0
TW
1
C
T
.
.
C
.
.
.
.
W
.
W
Y
W
Command
0
1
0
0
1
1
1
1
1
0
0
W 00Y
M
OM .TWExecute the Status Read W
W
OthisMcommand
00 .after
O
W
1
command
immediately
and
execute
the
NOP
command
after
the
STREAD
1
T
C
TW
.
C
.
.
.
W
.
W
Y
W
M
Y
W 00
(Status
M
W Read) command. W
00 .COM .TW
O
W
1
T(28)
CO
1
.
.
C
.
.T
W
.
W
Read Register 2 (EPSRRD2)
Command: Y
1 ParameterM
Byte: none (7DH)
W
M
Y
W
M
0
0
Wthe EPSRRD2 and STREAD
O Execute
W to read the built-in resistance
O in succession
0Read) commands
W (Status
O
0
W ratio.
1
T
C
1
T
C
.
.
C
.
.
.
.
W
.
W
Y
WD7 0D60Y D5 OD4M D3 WD2 D1 D0
M
W 00Y
M
A0
RD
RW
W
O
W
O
W
1
T
C
1
T
C
.
.
C
.
.
.
.
W
0
1
0
0
1
1
0
1
W
Y1 1OM1 W
W
MCommand
Wthe 00Y. O
0
W
00Y .COExecute
0
the
Status
Read
command
immediately
after
this
command
and
execute
the
NOP(Reset)
command
after
W
W
.1
.T(Status Read) command.W
.1
.C M.T
.C
W
STREAD
Y
Y
W
M
Y
W
0
0
0
W
O Non-operating
O
0
W
W
10
T (NOP) - Parameter
10
TW
Byte: none.1
(25H)
C
.
.C(29)
.
.
.
W
.C
W
Y
Y
W
M
Y
W
M
0
0
0
W
O
0
This command does
affect the operation but
has the function
canceling
IC testW
W to .10
1
.10andofsoY
.T not
.C it periodically
.T mode. Thus, it is recommended
.CO theM
WWdue toWnoise
W
to prevent malfunctioning
on.
W. 00Yenter
M
W 00Y
0
W
O
W
O
0
W
W
A0
RD
RW
D7
D6
D5
D4
D3
D2
D1
D0
1
.
.C M.T0 1
.1
W 0 W1 .1 0 Y.0C 1 M.0T 1
W
Y
W
W
Command
0
0
0
0
0
W
O
W
W
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WWByte 14W(PB14)
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W 00Y
W
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W Byte: 3W
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W BS2WBS1 BS0Y.
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W
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1
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W
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OM .TW
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W
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Byte: None (35H)
Y
W
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1
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W
Command
0
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Y
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M
W 00Y
M
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W
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W
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W
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1
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(7) . Control EEPROM (EPCTIN)
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Byte:
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C
.
.
.
W
W
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M
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W
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Y
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W
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W
Command
0
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0
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0
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0
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10
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.
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.
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W
Y
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W EEWR
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0
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10
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W 00Y
0
W
W
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W
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T
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.
.1
.command
.1
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This
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W
Y
W
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M
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0
0
0
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1
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W
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W
W
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1
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.
Write
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W
.C M.T
W Byte:
W
W
Y
W
W
0
0
W
W
O
W
W
This
10
T
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.
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WW W
.
W
W
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1
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T
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W
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.
.
.
W
.
W
W
RW
D7
D6
D5
D4
D3 W
D2
D1 Y D0
W 0A00Y RD OM
M
0
W
W
W
O
0
1
1 .1 0
1 C
.T
WCommand W.1 0 Y.1C 0 M.1T 1 1 1 WW
.
W
Y
W
M
0
0
W
O
0
W
W
O
0
W
.1
.1
.C M.T
W
.C M.T
W
Y
W
Y
W
0
0
W
0
W
O
W
10
T
C
.
.CO M.T
.
WW W.1
.
W
Y
W 00Y
M
W
00 .CO
W
W
O
W
1
1
T
T
.
C
.
.
.
W
.
W
Y
W
W 00Y
M
00 .COM .TW
W
O
W
1
1
TW
.
C
.
.
W
.
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W
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TW
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C
.
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W
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W
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W
M
M
0
W
00 .CO
W
W
O
0
W
1
1
T
T
.
C
.
.
.
PAGE
12
(LMG-S16016001-LED
Serial)
W
.
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
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.
W
W 00Y
W
M
0Y
W
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T
.1
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W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
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.
.
.
.
.
W
Y
W
Y
W 00
M
M
W
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W
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10011. Memory
1
T
C
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.
.
.
.
Map
W
Y
W
Y
W
M
0mode) OM
W
00 .CO
W
W
0
W
Memory Map
(2B3P,.8-bit
1
1
T
T
.
C
.
.
W
.
W
W 00Y
W Column
M
M
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LCD
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=
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C
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.
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.
.
W
.
W
Wread 00YCI = 1 OM
W83 00Y
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M
W
W
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Pixel
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P1
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.
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1
.
WW W.1 Data Y
W
D5'1,
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,84
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D4'1,1
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D1' ,84
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.
38
W
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5
W 00
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4
CO
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.
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.
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W
.
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.
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.
W
.
W
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M
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1
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1
T
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.
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.
.
.
159
0
.
W
W
W 2 00Y 3 O4M 5 W
M
W 254 00Y. O
0
1
252
253
W
00Y .COSEGout
W
W
.1
.T
.1
.C M.T
W
.C
W
Y
Y
W
M
Y
W
0
0
0
W
Memory
Map
(3B3PD1
/
3B3PD2,
8-bit
mode)
O
W
W
10
10
10
TW
C
.
.CO M.T
.
.
.
Column
W
.C
W
Y
Y
W 00 1 OM
Y
W
0
0
LCD O
CI =W
0
0 W
84
0
W
1
10
TW
.1 83Y.C
.C M.CIT= 1
.
.
W
W
84
0
W. 00YRead
W
W 00Y
M
direction
0
O
W
Pixel W
P0
P1
P2
P3 0 P4
P5 O
P252
P253
P254
W
W
1
.
.1 D7'2,1 YD7’3,1
.T
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.1
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Data Line
D71,
D7' ,0W D7' ,0
D71,1
Y
W
W
W
0
0
0
W D6'1, D6'2,0 D6' ,0W D61,1 .1D6'0,1 D6' ,1 CO
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W
10
T
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1
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.
.
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.
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D5'1,
D5' ,0
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.
W
W
W 00Y
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D4'1,
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W
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Block
LI
=
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1
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152
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.
W
Y
W
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0
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4
5
252
253
254
M
0
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00 .CO
W
W
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0
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1
1
T
T
.
C
.
.
.
W
.
PAGE
13
(LMG-S16016001-LED
Serial)
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
’
’
0
’
2
2
2
0
0
2
2
2
0
2
2
0
2
0
2
2
2
2
’
2
2
2
2
2
’
0
2
3
2
3
’
0
3
2
3
3
’
0
2
3
0
2
3
2
3
2
3
2
3
’
’
0
2
3
1
T
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.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
12.0Initializing
And
Programming
W 00
M
M
W
O
W
O
W
10
1
T
C
TW
.
C
.
.
.
.
.
W
Y
W
Y
W
Mode 0
: ST7529
Interface : 80-8bit
M
M
0
W
O
0
W
W
O
0
W
;-------------------------------------------------------------------------------------1
1
T
C
T
.
C
.
.
.
.
W
.
W
W 00Ywrite_inst(0x30);
W 00Y
//EXT = 0
M
M
W
O
W
W
O
W
write_inst(0x04);
//
1
1
T
C
T
.
C
.
.
.
.
W
.
W
W 0write_data(0x3E);
W 00Y
//
M
M
0Y
W
O
W
W
O
W
write_inst(0x94);
//sleep
out
1
1
T
C
T
.
C
.
.
.
.
W
.
W
W write_inst(0xD1);
W 00Y
//OSC on
M
00Y .COM .TW //display
W
W
O
write_inst(0xCA);
control W
1
1
T
.
C
.
.
W
.
W
Y
W write_data(0x04);
W 00Y
dividing ratio = 2
M
00 .COM .TW//CL
W
O
W
write_data(0x1D);
//duty
1
1
TW
.
C
.
.
W
.
W
Y
W
Y
W
write_data(0x00);
M
0
W scan direc. = 0~65 /W
00 .COM .T//N-Line
W
O
write_inst(0xBB);
//com
131~66 .10
1
TW
.
C
.
W write_data(0x01);
.
W
Y
W
Y
W
//
M
0
W= 1
00 .COM .//EXT
W
W
O
0
W
write_inst(0x31);
1
1
T
T
.
C
.
.
W write_inst(0x32);
.
W
W 00Y
W 00Y
M//analogW
M
W
O
W
W
O
W
write_data(0x00);
//OSC
freq
1
1
T
C
T
.
C
.
.
.
.
Wwrite_data(0x01);
.
W
W 00Y
W 00Y
//booster effic.
M
M
W
O
W
W
O
W
write_data(0x05);
//bias
1
TW
1
T
C
T
.
C
.
.
.
.
W
.
W
W 00Y
W 00Y
write_inst(0x30);
//EXT
M= 0 W
M
W
O
W
W
O
W
1
write_inst(0x81);
//EC
control
T
1
T
C
T
.
.
C
.
.
.
.
W
.
W
Y
W 00 //vop[5:0]
M
W 00Y
write_data(0x2F);
M
M
W
O
W
W
O
W
1
write_data(0x02);
//vop[8:6]
TW
1
T
C
T
.
.
C
.
.
.
.
W
.
W
Y
W
W 00Y
write_inst(0x20);
control
M
M
OM .TW
W
O
00 //power
W
O
W
1
write_data(0x0B);
//D0
=
regulator
/
D1
=
follwer
/
D3
=
booster
1
T
C
TW
.
C
.
.
.
.
W
.
W
Y
W
M
Y
W 00
write_inst(0x07);
M
00//// .COM .TW
W
O
W
1
TW write_data(0x19);
CO
1
.
.
C
.
.T
W
.
W
Y
W
M
Y
W
write_inst(0x31);
//EXT
=1
M
M
0
0
Wwrite_inst(0xCD); W
O
W
O
0
O
0
W
1
//
T
C
1
T
C
.
.
C
.
.
.
.
W
.
W
Y
W //EEPROM
M
W 00Y
write_data(0x00);
M
M
0Y Enable
W
O
W
O
0
W
O
W
1
T
delay(100);
//delay
100mS
C
1
T
C
.
.
C
.
.
.
.
W
W
Yread OM
W//EEPROM
W 00Y. O
0
W
00Y .COM .write_inst(0xFD);
W
0
W
W
T
delay(100);
//delay
.1 100mSY.C
.1
.T
W
.C
W
Y
W
M
Y
W
M
write_inst(0xCC);
//EEPROM
disable
0
0
0
W
O
W//EXT =.100
W
10
write_inst(0x30);
10
TW
C
.T
.CO M
.
.
.
W
.C
W
Y
Y
W
Y
W
M
write_inst(0xA6);
//normal
display0
0
0
W
O
0
W
W
1
10
write_inst(0xBC);
//data scan.direc.
10
TW
CO
.T
.
.
.
W
W
W. 00Y.C O
Y
W
M
W 00Y
M
write_data(0x02);
//address direc. 0
W
W
O
0
W
W
1
//BGR
.
.1
.T
.C write_data(0x01);
.1
.C M.T
W
W
Y
W
Y
M
W
write_data(0x01);
//gray scaleW
0
0
0
W
O
W
W
O
0
W
0
W
10
1
T
write_inst(0xAF);
//display
on
C
1
T
.
C
.
.
.
.
.
.
W
W
W 00Y write_inst(0x15);
W 00Y
M
W
M
//column range
W
O
W
W
O
W
W
1
1
T
write_data(000);
//start
.
.
.C M.
.1
W
.C M.T
W
W
Y
W
Y
W
W
write_data(239);
//end
0
0
0
W
O
W
W
10
TW
//page range
CO
T
C
.
.
.
.
WW W.1 write_inst(0x75);
.
W
W
Y
W 00Y
M
W
M
write_data(040);
//start
0
W
O
0write_data(119);
W
W
O
W
W
1
1
T
//end
C
T
.
C
.
.
W
.
W
Y. OM. W //EXT = 1 W
W
Y
W
M
write_inst(0x31);
0
0
0
W
W
1
write_inst(0x34);
//dither off
TW
.10 Y.CO
.C M.T //weight
.
WW W.write_inst(0x22);
W
W
Y
W
M
0
W//
00 .CO
W
W
O
0
W
1
1
T
write_data(0x00);
T
.
C
.
.
.
W
.
W
W
Y
W
Y
W
M //W
M
write_data(0x00);
0
0
O
0
W
W
O
0
W
write_data(0x00);
//
.1
.1
.C M.T//gamma
W write_inst(0x20);
.C M.T
W
W
Y
W
Y
W
0
0
W
O
0
W
W
O
0
W
.1
.1
.C M////.T
W write_data(00);
.C M.T
W
Y
W
Y
W
write_data(03);
0
0
O // .TW
W
W
O
W
10
10
write_data(06);
C
T
.
C
.
.
.
W
.
W
Y
W 00Y
M
: W
00 .COM .TW
W
W
O
W
1
1
:
T
.
C
.
.
W: W
.
W
Y
W 00Y
M
00 .COM .TW
W
O
W
1
1
:
TW
.
C
.
.
W
.
W
Y
W
Y
W
M
0
00 .COM .TW
W
O
0
W
1
1
TW
.
C
.
.
W
.
W
Y
W
Y
W
M
M
PAGE
Serial)
0
W
O
00 14 (LMG-S16016001-LED
W
W
O
0
W
1
1
T
C
T
.
C
.
.
.
.
W
.
W
W 00Y
W 00Y
M
W
O
W
OM .T
W
1
1
T
C
.
C
.
.
.
W
.
W
W 00Y
W
M
0Y
W
OM
1
T
.1
.C M.T
W
W. 00Y.C OM. W
Y
W
00 .CO
W
1
1
T
C
TW
.
.
.
.
.
W
Y
W
Y
13.0Reliability
Condition
W 00
M
M
W
O
W
O
W
10
1
T
C
TW STN Type
.
C
TN
Type
.
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PAGE
16
(LMG-S16016001-LED
Serial)
Y
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