Download USER' MANUAL

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
Transcript 
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
Y
W
.T
W
.100
.TW
00Y
M.T
.100
OM
W
O
W
C
.
W
W.1 Y.COM W
C
W
Y
W
WW .100Y.
.TW
M.T
.100
.T
00
M
O
1
W
M
.
O
W
C
.
W
.CO .TW
WW .100Y
.TW
WW .100Y.C M.TW
M
00Y
O
1
W
M
.
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
O
1
W
M
.
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
O
W
O
W
OM
W.1
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
.1
W.1 Y.COM W
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
.T
W
W
WW .100Y.
.100
M.T
.100
OM
W
M.T
O
W
C
.
O
W
W
C
W
Y
W
WW .100Y.
.TW
WW .100Y.C M.TW
M.T
.100
M
O
W
O
W
C
O
W
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.CLMC-SSC2D16DRG-01
M
.TW
O
W
M
LMC-SSC2D16DRY-01
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
LMC-SSC2D16DEGB-01
LMC-SSC2D16DEYW-01
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM LMC-SSC2D16DLYY-01
OM
WW 00Y.CO .TW
W.1 LMC-SSC2D16DLGY-01
W
C
W
.
W
W
W
Y
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
.T
WW .100Y
.100
.TW
100
M
.
OM
W
M
O
W
C
.
O
W
W
C
.
Y
W
W
.TW
W
.TW
100
00Y
WW .100Y.C M.TW
M
.
1
M
.
O
W
O
W
O
W
WW .100Y.C M.TW
BY
W
0Y.C M.TW APPROVED
WW
0
WW .100Y.C PROPOSED
T
.
1
.
O
W
M
W
WW 00Y.CO .TW
.CO .TW
WW .100Y.C M.TW
Approved
W
WW .100YDesign
1
O
W
OM
W.
OM
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM W
M.T
O
W
O
W
W
C
.
W
W
WW .100Y
WW .100Y.C M.TW
M.T
.100
M.T
O
W
O
W
C
.
O
W
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M.T
.100
O
W
O
W
C
O
W
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .T
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM
M.T
O
W
O
W
W
C
.
W
W
Y
W
W
WW .100Y.C M.TW
M
.100
M.T
.100
W
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
Y
W
.T
W
.100
W.1
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
W
W
WW .100Y.
M.T
.100
M.T
O
W
O
W
C
WW .100Y.
.TW
WW .100Y.C M.TW
M
O
W
O
W
WW .100Y.C
WW .100Y.C M.TW
W
O
W
WW
WW .100Y.C M.TW
O
W
WW .100Y.C M.TW
O
W
WW .100Y.C
W
WW
LMC-SSC2D16-01 Serial
USER‘ MANUAL
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
CONTENTS
W
.
Y
W
.T
W
.100
.TW
00Y
M.T
.100
OM
W
O
W
C
.
W
W.1 Y.COM W
C
W
Y
PAGE
W
WW .100Y.
.TW
M.T
.100
.T
00
M
O
1
W
M
.
O
W
C
.
W
.CO .TW
WW .100Y
Specification
2
.TW
WW .100Y.C M.TW
M
00Y1. Mechanical
O
1
W
M
.
O
W
C
.
O
W
W
C
W
.
Y
W
W
2.C Mechanical
Diagram
2
WW .100Y
.TW
M.T
.100
.TW
00Y
M
O
1
W
M
.
O
W
C
.
O
W
W
Y
W
WW 003.Y.CInterface
2
WW .100Y.C M.TW
M.T
.100
.TW Pin Connections
O
1
W
M
.
O
W
C
.
O
W
W
C
W
.
Y
W
W
Y
W
Diagram
2
.T
W
W
WW .104.0Y.CBlock
.100
M.T
.100
OM
W
M.T
O
W
C
.
O
W
W
C
W
Y
W
.C
Y.
W
Rating
3
W
W
.TW
WW .15.00YAbsolute
M.T
.100
.TMaximum
100
M
.
O
W
M
O
W
C
.
O
W
W
C
W
.
Y
W
C
W
Y
W
.T
Characteristics
3
W
Y.
W
WW 6..100Electrical
.100
M.T
.100
OM
W
M.T
O
W
C
.
O
W
W
C
W
Y
W
3
WW .100Y.
.TW
0Y.C Characteristics
WW 7. .10Optical
M.T
.100
.TW
M
O
W
M
O
W
C
.
O
W
W
C
W
.
Y
W
C
W
. Definitions
Y
W
.T
W
3
W
WW 8. .1Optical
.100
00Y
M.T
.100
OM
W
M.T
O
W
C
.
O
W
W
C
W
Y
.C
W
3
WW .100Y.
.TW
WW9. .Display
M.T
.100
.TW
00Y Address
M
O
1
W
M
O
W
C
.
O
W
W
C
W
.
Y
W
C
W
Y
W
W Interface
.T
W
00
Y. to MPU
W
4
W10.
M.T
.100
W.1 Y.COM W
M.T
.100
O
W
O
W
W
C
.
W
W
W CPU WW .100Y
Y.C to.T
Interface
Z-80
4
WW 10.1
M.T
.100
M.T
O
W
M
.100
O
W
C
.
O
W
W
C
W
.
Y
W
C
W
.
0
Y
W
.T
W
0
to MC6800
CPUW
4
WW10.2.1Interface
00Y
M.T
.100
W.1 Y.COM W
M.T
O
W
O
W
W
C
.
W
W
Y
W
.T 4
WCPU ( HMCS43C
Y.C to 4-bit
W
10.3 Interface
WW
.100
M.T
.)100
OM
W
M.T
.100
O
W
C
.
O
W
W
C
W
.
Y
W
.C
W
W Interface
W10.4
M.T
.100
.TW MP W W.100Y OM.TW
00Y to HD6805
O
1
W
M
.
C
W
.CO .TW
WW .100Y.
.TW
WW .100Y.C M.TW
4 WW
M
00Y
O
1
W
M
.
O
W
O
W
WW .100Y.C M.T4W
W
Y.C
WW .100Y.C M.TW
11. Timing
0
WW Control
T
.
0
1
W
OM
WW 00Y.CO .TW
W.
.CO .TW
W
C
.
Y
W
W
W
0
Y
W
11.1
0
W Write.1and
.T
00 Read Operation
W.1 Y.COM 4 W
W.1 Y.COM W
OM
W
W
W
C
.
W
W
Y timing
W
.T
11.2WBusy flag
M4.T
.100
.TW
100
00check
M
.
O
1
W
M
.
O
W
C
.
O
W
W
WW .100Y
Y.C
WW .100Y.C M.TW
WW .1of
12. Initialization
5M.T
.TW
00LCM
O
W
M
O
W
O
W
WW .100Y.C 6 M.TW
WW .100Y.C M.TW
WW Set.100Y.C M.TW
13. Instruction
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W Patterns
14. User Font
6 M
.1
.T
00
M
.1
WW 00Y.CO .TW
W.1 Y.COM W
WW 00Y.CO .TW
W
W
W
15. SoftwareWExample
7 M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
15.1 8-bit W
operation.1(008 bits 2 lines
7 OM
.100
W.1 Y
M.T )
OM
W
.C
O
W
W
C
.
W
C
W
.
0
Y
W
W
.TW
W
0
0
Y
W
T
.
1
0
W
T
M
.
15.2 4-bit operation
(.1400bits 2 lines
)
7
.
1
M
.
O
W
M
O
W
O
W
WW .1008Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
16. Reliability Condition
O
WW 00Y.CO .T
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
M
.1 8
.T
17. Function TestW& Inspection
00 Criteria
W.1 Y.COM W
WW 00Y.CO .
W.1 Y.COM W
W
W
W
W
.T
00
W
.1
18 Character Generator
ROM
OM
W10
M.T
.100 Map
W.1 Y.COM W
C
.
O
W
W
Y
W
C
.
W
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM
M.T
O
W
O
W
W
C
.
W
W
Y
W
W
WW .100Y.C M.TW
M
.100
M.T
.100
W
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
Y
W
.T
W
.100
W.1
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
W
W
WW .100Y.
M.T
.100
M.T
O
W
O
W
C
WW .100Y.
.TW
WW .100Y.C M.TW
M
O
W
O
W
WW .100Y.C
WW .100Y.C M.TW
W
O
W
WW
WW .100Y.C M.TW
O
W
WW .100Y.C M.TW
O
W
WW .100Y.C
W
WW
PAGE 1 (LMC-SSC2D16-01 Serial)
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
Y
W
.T
W
.100
.TW
00Y
M.T
.100
OM
W
O
W
C
.
W
W.1 Y.C1.OMMechanical
Specification
C
W
Y
W
WW .100Y.
.TW
M.T
.100
.TW
00
M
O
1
W
M
.
O
W
C
.
ITEM
STANDARD
VALUE
UNIT
O
W
WW .100XY2 LINESM.TW
W OF CHARACTERS
Y.C NUMBER
WW .100Y.C M.TW 16 CHARACTERS
0
T
.
-0
W
M
.1
O
W
.CO .TW
W
C
.
Y
W
FORMAT
5
X
8
DOTS
-W
0
Y
W
WW 00Y.CO CHARACTER
W
.T
M (H) X 13.2 (T)
.10 (W) X O
.TW DIMENSION
100 85.0O(W)
M
.
1
W
M
.
MODULE
X
36.0
(H)
X
9.0
(T)
85.0
36.0
mm
W
C
.
O
W
W
W
0Y
Y.C
WW 00Y.CVIEWING
AREA
65.0W
(W) X 18.0
mm
.TW
M.T
.10(H)
.TWDISPLAYW
100
M
.
O
1
W
M
.
O
W
C
.
O
W
W
ACTIVE
DISPLAY
AREA
56.21
(W)
X
11.50
(H)
mm
C
W
.
Y
W
W
Y
W
.T
W
00
W
WW .100Y.C CHARACTER
.1(H)
SIZE
2.96 (W) X 5.56
mm
M.T
.100
OM
W
M.T
O
W
C
.
O
W
W
C
W
.
Y
W
C
W
.
CHARACTER
PITCH
3.55
(W)
X
5.94
(H)
mm
0
Y
W
T
W
.
W
0
0
Y
W
T
.
1
W
M
.
.T SIZE
10
00
M
.
O
1
W
M
.
DOT
0.56
(W)
X
0.66
(H)
mm
O
W
C
.
O
W
W
.TW
W
00Y
WW .100Y.C M.TW 0.60 (W)W
PITCH
X 0.70 (H)
mm
1
WW .100Y.C DOT
T
M
.
.
O1/16 Duty , 6 O‘clock WW
WSTN , Gray
.CO .TW
OM
W
C
.
LMC-SSC2D16DRG-01
,
Y
W
C
W
.
0
Y
W
W
W
0
Y
W STN
W
M.T, 1/16 Duty , 6 O‘clock
.10, 0Yellow O
Green
W.1 Y.COM W
M.T
.100 LMC-SSC2D16DRY-01
W
O
W
W
C
.
W
C
.T )
Duty
, 6 O‘clock ,W
EL Backlight
is M
Blue
W
0Y , 1/16M
W STN.1, 0Gray
.TW
0Y.
WW .10LMC-SSC2D16DEGB-01
.100( color O
W
M.T
O
W
C
LMC-SSC2D16DEYW-01
STN
,
Yellow
Green
,
1/16
Duty
,
6
O‘clock
,
EL
Backlight
(
color
is White )
.
O
W
W
C
.C
W Backlight
.TW
W
00Y
0Y,.1/16 Duty
WW
T, W
.
1
0
WW .1LMC-SSC2D16DLGY-01
T
STN
,
Gray
6
O‘clock
,
LED
M
.
.
1
00Y
M
.
O
W
M
W LMC-SSC2D16DLYY-01
CO , 1/16
WW, Yellow
Duty , 6 O‘clock
W
.CO .TW
0Y.C M.TW
Y.Green
WW, LED.1Backlight
0
0
WSTN
T
.
0
WW .1EL
1
00YUse Inverter
M
O
W
W.
OM Type
W
.CO .TW SDEC-I001A
Y.C
WW .10025
.TW mA
W
0Y+5V
Y.C Input
WW .1DC
V
0
WW .100Inverter
T
M
.
M
O
W
M
O
WAC 90 ~ 110
.C
OOutput
V
Hz
W 40000~Y700
W Inverter
.TW HR.
W
Y.C
WW .100Y.C M.TW 3,000 W
1
0
WW Backlight
T
M
.
.
Half-Lift
Time
0
O
W
M
W.1 Backlight
WW 00Y.CO .TW Yellow Green
.CO Color
WW .100Y.C M.TW
W
Y
W
0
WW LED
T
.
.1+4.2V OM
10
Input
DC
V
OM
WW 10000Y.CO .TWmA
W.Backlight
.C
WW
C
W
.
Y
W
W
W
0
Y
W
T
.
Backlight
Half-Lift
Time
50,000
0
0
W
.1
W.1 Y.COM HR.
M.T
.10
OM
W
O
W
W
C
.
W
C
.
W
W
.TW
W
.TW
100
00Y
M
.
.TW
2. W
Mechanical
1
00YDiagram
M
.
O
1
W
M
.
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM W
M.T
O
W
O
W
W
C
.
W
W
WW .100Y
WW .100Y.C M.TW
M.T
.100
M.T
O
W
O
W
C
.
O
W
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M.T
.100
O
W
O
W
C
O
W
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .T
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM
M.T
3. Interface Pin Connections
4. Black Diagram
O
W
O
W
W
C
.
W
W
Y
W
W
Y.C
W
WW FUNCTION
M
.100
M.T
.100
W
NO SYMBOL LEVEL
M.T
.100
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
Y
W
.T
1
VSS
-- W
GND0(00V)
.100
W.1
.1 +5V OM.T
OM
W
W
W
C
.
2
VDD
H/L
DC
W
C
W
Y
W
W
W
0Y.
WW
M.T
.100
3
VO
H/L
Contrast
M.T
.10Adjust
O
W
O
W
C
.C
WW .100Y.
4
RS
H/L
Register select
.TW
WW
.TW
00Y
M
1
M
.
O
W
5
R/W
H/L
Read/Write
WW 00Y.CO .TW
WW .100Y.C
WEnable
1
6
E
H,H→L
signal
M
.
W
WWBit 000Y.CO .TW
WW
7
DB0
H/L
WData
1
W. 1 Y.COM W
8
DB1
H/L
Data
WBit
W
.T
00
9
DB2
H/L
Data Bit
W2.1 Y.COM
W
10
DB3
H/L
Data
W Bit 3 .100
11
DB4
H/L
Data Bit
4
WW
W
12
DB5
H/L
Data Bit 5
13
14
15
16
DB6
DB7
A+ (EL1)
K- (EL2)
H/L
H/L
---
Data Bit 6
Data Bit 7
A (EL Backlight 1)
K (EL Backlight 2)
PAGE 2 (LMC-SSC2D16-01 Serial)
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
Y
W
.T
W
W
.100
00Y
M.T
.100
OM
Maximum Ratings
W
M.T
O
W
C
.
W
W.1 Y.C5.OAbsolute
C
W
Y
W
WW .100Y.
.TW
M.T
.100
.TW
00
M
O
1
W
M
.
ITEM
SYMBOL
MIN.
TYPE
MAX.
UNIT
O
W
C
.
O
W
WW0/-20 .100Y -- M.TW +50/+70
W
Y.C OPERATING
WW .100Y.C M.TW
0
T
TOP
℃
TEMPERATURE
.
0
W
M
.1
O
W
.CO
W
C
W
.
Y
W
W
0
Y
W
T
WW 00Y.CO STORAGE
TST
-10/-30
-+60/+80
℃
TEMPERATURE
.
W
.T
M
.10
.TW
100
M
.
O
1
W
M
.
O
W
C
.
O
W
VIW
V
INPUT
WVSS .100Y -- M.TWVDD
WW 00Y.C
W VOLTAGE
WW .100Y.C M.T
.TVOLTAGE
O
1
VDD-VSS
-5.0
6.5
V
W
SUPPLY
FOR
LOGIC
M
.
O
W
C
O
W
W
W--W .100Y.-TW6.5
.
W
WWLCD.100Y.C VDD-VO
T
.
V
VOLTAGE
FOR
WW .100Y.CSUPPLY
T
M
.
O
W
M
OMthat you are groundedWwhen
OSTATIC
W
.Csure
Y.CLCM. .TW
WW 00YBe
C
handing
ELECTRICITY
W
.
0
W
W
W
0
Y
W
T
.
1
W
M
.
.T
1
00
M
OM Characteristics WW.
WW 00Y.CO .TW
W.16. Electrical
.CO .TW
C
.
Y
W
W
W
0
Y
W
0
W
.T
00
W.1 Y.COM W
W.1 Y.COM W
W
W.1 Y.COM W
W
W
W
MIN.
W
.T CONDITION W
W
M.T MAX. UNIT
.100 TYPE
.T ITEM
100 SYN
00
M
.
O
1
M
.
O
W
C
O VOLTAGE FOR LOGIC
W SUPPLY
VDD-VSS
5.5
V
.C
W -WW 4.5.100Y. 5.0 M.TW
WW .100Y
.TTa=
WW .100Y.C M.TW
M
O
W
0/-20
℃
-4.8/5.0
-V
O
W
W
W
.C
Y.C
WW 00VDD-VO
W
.CO VOLTAGE
0
Y
W
T
.
W
0
Y
W
T
.
-4.4
-V
FOR
LCD
1
0
WW .1SUPPLY
T
Ta=
25℃
0
.1
OM
W.
M.
OM
W
C
.
O
W
W
C
W
.
Y
-4.1/3.9
-V
W
C
Ta=
+50/+70 ℃ W
Y
W
.TW
WW .100Y.
M.T
.100
.TW
100
M
.
O
W
M
O
W
O
VIH
-2.2
--.C
VDD
W INPUT
HIGH VOLTAGE
Y.C
WW
.TW V
W
00Y
WW .100VIL
TW-.
1
0Y.C LOW
WW .10INPUT
T
M
.
.
M
0
-0.6
V
O
VOLTAGE
W
OM
W
W
.CO .TW
Y.C -- .TW V
WW VOH
C
.
0
Y
W
W
W
0
0
Y
W
-2.4
-OUTPUT
HIGH
VOLTAGE
0
W
M
.1
.T
.100
W.1VOLY.COM --W
OM VOLTAGE
WW 0--0Y.CO0.4 .TW V
WOUTPUT
W
-C
LOW
.
W
W
W
0
W
W
M
.1
10
00Y
M.T
M.T
OVDD=+5V
-- WW 3.0 Y.CO
4.5
mA
CURRENT
W.IDD
O
W.1SUPPLY
C
.
W
C
W
.
0
Y
W
W
.TW
W
0
0
Y
W
T
.
1
0
0
W
T
M
.
.
1
0
M
.
O
W
.1
O
W
OM
7. Optical
WCharacteristics
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
W
W
.CO UNIT
W
ITEM
MIN.WWTYPE
MAX.
W
.CO .TW
Y
WSYM
.CO .TW
0
YCONDITION
0
0
Y
W
1
0
0
WW VIEW
M.T
.
1
0 ANGLEM(V)
M
.
O
θ
CR≧2
-10
-40
deg.
1
W
.
O
W
C
.
O
W
W
.TW
Y.C (H).TW
WWφ .100Y.CCR≧2
.TW -30 W --W.100Y30 OMdeg.
WW VIEW
00ANGLE
M
1
M
.
O
W
O
W
WW5 .100--Y.C M--.TW
CR
CONTRAST
RATIO .TW
0Y.C -- M.TW -Y.C
WW
0
0
WW
1
0
.
O
1
OM
TON
180
RESPONSE
TIME
WW 0230
W.
Y.C mS .TW
WW 00Y.C--O .TW -C
.
0
W
W
W
Y
W
W RESPONSE
M
00 TIME M.T
TOFF W.1
-- OM
-100 W.1150 .COmS
O
W
W.1 Y
C
.
Y
W
C
W
.
0
Y
W
W
.TW
W
0
0
W
.T
1
0
0
W
T
M
.
.
1
0
M
.
O
1
W
M
.
8. Optical Definitions
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
W
Response Time W.1
Contrast Ration W
View Angle WW
O
.CO .TW
OM
W
00Y
WW .100Y.C M.TW
1
WW .100Y.C M.TW
M
.
W
O
W
.CO .TW
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
Y
W
.T
W
.100
W.1 Y.COM W
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
.T
W
W
WW .100Y.
.100
M.T
.100
OM
W
M.T
O
W
C
.
O
W
W
C
W
Y
W
WW .100Y.
.TW
WW .100Y.C M.TW
M.T
.100
M
O
W
O
W
C
.
O
W
WW .100Y
.T
WW .100Y.C M.TW
WW .100Y.C M.TW
OM
W
O
W
C
.
O
W
W
C
.
Y
W
WW .100Y
.TW
WW .100Y.C M.TW
M.
.100
M
O
W
O
W
C
.
O
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M
.100
W
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
W
.T
00
W
M
.10
.T
00Y
W.1 Y.COM W
WW 00Y.CO
W.1 Y.COM W
W
W
W
W
.T
W
9. Display Address
.100
W.1
M.T
.100
OM
W
O
W
W
C
.
W
C
.
Y
W
.TW17 18 W
1
2
3
4W 5 .1600Y7
8M.T9W 10 11 W12 W
13.10014 15OM16
19 20
O
W
C
.C 87 .88
Y. 8E 8F.TW
80 81 82 83WW
84 85 086
89 8A W
8BW 8C 108D
Line 1
W
0
Y
T
M
.10 C6 C7
W. CD YCE
OMC8 C9 CA CB WCC
WC5
C0 C1 C2 C3 C4
Line 2
.CO CF
C
.
W
W
0
Y
W
0
W
.T
00
Line 3
W.1
W.1 Y.COM W
W
W
W
Line 4
W
M.T
.100
O
W
C
W
Y. 29 .T
WW26 .27
21 22 23 24 25
100 28 O
M 30 31 32 33 34 35 36 37 38 39 40
W
Line 1
WW .100Y.C
Line 2
WW
W
Line 3
Line 4
PAGE 3 (LMC-SSC2D16-01 Serial)
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
W
.T
0Y
W
.100
.TW
00Y
M.T
OM
Interface
to MPU W.10
W
O
C
.
OM
W
W.1 Y.C10.
C
W
Y
W
Y.
W
.TW
M.TCPU
.100 to MC6800
.TWInterface toW
100
00
M
.
10.1
Z-80
CPU
10.2
Interface
O
1
W
M
.
O
W
C
.
W
.CO .TW
WW .100Y
.TW
WW .100Y.C M.TW
M
00Y
O
1
W
M
.
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
O
1
W
M
.
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
O
W
O
W
OM
W.1
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
.1
W.1 Y.COM W
M.T
.100
OM
W
O
W
W
C
.
W
C
W
.
Y
W to HD6805
WW .110.3
.100 MPOM.T
toW
4-bit CPU (W
HMCS43C
00YInterface
M.T 10.4 InterfaceW
.10)0
W
M.T
O
W
.C
O
W
C
W
W
00Y
WW .100Y.
.TW
1
WW .100Y.C M.TW
M.T
.
M
O
W
O
W
C
O
W
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
.T
WWTiming
.100
.TW
100
00Y
M
.
11.
Control
OM
1
W
M
.
O
W
C
.
O
W
W
C
.
Y
W
.C
W
.TW
W
W
.TW
100
00Y
WW
M
.
.T
1
00Yand Read
11.1 Write
Operation
M
.
O
1
W
M
.
O
W
O
W
WW .100Y.C M.TW
W
Y.C Operation
WW .100Y.C M.TWRead Operation
WW .100Write
T
.
O
W
O
W
OM
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM W
M.T
O
W
O
W
W
C
.
W
W
WW .100Y
WW .100Y.C M.TW
M.T
.100
M.T
O
W
O
W
C
.
O
W
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M.T
.100
O
W
O
W
C
W
Item
(Min.)
Limit (Max.)WW
Unit
.C
.CO .TW Symbol WW Limit
0Y.
.TW
0Y
.TW -10ns
01000
WW
M
.
1
00Y
M
.
O
tCYCE
1
Enable
Cycle
Time
W
M
.
O
W
.C
O
W
WW .1ns
WW( High
WPWEH WW .1450
00Y
0Y.C M.TW -Y.C )
Enable Pules W
Width
level
0
0
T
M.T
.
0
O
1
W
M
.
O
W
C
O
W
Y.
tER,tEF
Enable Rise/Fall
WW .ns
.TW
WW .1--00Y.C M.TW25
100
0Y.C M.TW
WW Time
M
0
O
1
W
.
tAS
-ns
W100 Y.CO
Address Set-Up Time ( W
RS,R/W,E ) O
WW ns.100Y.C M.TW
WW 10
.TW-00
WWTime.100Y.C M.TW
tAH
1
Address Hole
M
.
O
WWns 00Y.CO .T
W
WW100 00Y.CO .T-C
W
.
W
W
tDSW
Data Set-Up
Time
W
Y
W
W
.T
00
.1
W.1 Y.COM
OM 190
W
W
W.1 Y.COM tDDR
-ns
C
Data Delay Time
.
W
W
Y
W
W
00
W
M.
.TW
M.T
.100
O
20
-nsW.1
Data Hold W
Time W.100
MtDHR
O
W
C
.
O
W
Y
.C
W
WW .100Y.C M.TW
WW
M
.100
.TW
00Y
1
W
11.2 Busy flag check
timing
M
.
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
W
.T
00
W
M
.10
.T
00Y
W.1 Y.COM W
WW 00Y.CO
W.1 Y.COM W
W
W
W
W
.T
W
.100
W.1
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
W
W
WW .100Y.
M.T
.100
M.T
O
W
O
W
C
WW .100Y.
.TW
WW .100Y.C M.TW
M
O
W
O
W
WW .100Y.C
WW .100Y.C M.TW
W
O
W
WW
WW .100Y.C M.TW
O
W
WW .100Y.C M.TW
O
W
WW .100Y.C
W
WW
PAGE 4 (LMC-SSC2D16-01 Serial)
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M. Initialization ofW
OM
W
12.
LCM
O
W
C
.
C
W
.
Y
W
W
M.T
.100
.TW
00Y
M.T
.10(0reset ) O
Oreset
W
W
C
LCM automatically initializes
when
power
is
turned
on
using
the
internal
circuit.
If the power supply
.
OM
W
W.1 Y.CThe
C
.
W
Wmet, initialization
.TW is required. Use the
W
00Y by M
0Yinternal
W
TWcircuit are not
.
1
0
0
T
.
.
conditions
for
correctly
operating
of
the
reset
instruction
1
0
M
.
O
1
W
M
W.
WW 00Y.CO .TW
CO
WW .100Y.C M.TW
isW
next page forWinitialization.
Y.procedure
0
T
.
1
0
M
.
M
.1
WW 00Y.CO .TW
WW 00Y.CO .TW
.CO Power
W
WW 00Y
W
Internal
Supply
reset
W
T
W.1 Y.COM W
M.
.1
W.1 Y.COM W
O
W
W
W
C
4.5V
.
W
W
.T
W
00
Y
W
M.T
.100
W.1 Y.COM W
M.T
.100
O
W
O
W
W
C
.
W
W
Y
W
.T
W
0Y.C 0.2VM.TW
WW .10Vcc
.100
M.T
.100
OM
W
O
W
C
.
O
W
W
C
W
Y
W
WW .100Y.
.TW
WW .100Y.C M.TW
M.T
.100
toff
M
O
W
O
W
C
O
W
WW .100Y.
.TW
← trcc
WW .100Y.C M←------→
.TW
WW .100Y.C →
M
.TW
O
W
M
O
W
WW≧ 10ms.
1)Y10
ms ≧ trcc
, toff
.CO
WW .100Y.C M.TW
W ≧ 0.1 msW
0Y.C M.TW
0
WW (Note
T
.
1
0
.
1
W powerYsupply
. 2) toff stipulates
W for momentary
(Note
supply dip orW
when
ON and OFF.
.CO cycles
OM the time of powerWOFF
W
.CO power
C
W
.
0
Y
W
TW
W
.
W
0
0
Y
W
T
.
1
0
0
W
T
M
.
.
1
0
M
.
CO
Item
Symbol
condition
Limit (Min.)
Unit
OM
WW Limit
W.1 Y.C
.CO
Y.(Max.)
WW 00Test
W
0
Y
W
.TW ms
W
0
W
T
.
1
0
WW Power
T
M
.
.
1
0
trcc
-0.1
10
supply
rise
time
M
.
O
1
O
W
OM
WW 00Y.C
W.
W
Y.C -- .TW
W
0
toffW
1 W
Y.C off time
W
supply
0
0
WW Power
T
.1 -- OM.T ms
.
1
0
M
.
1
W
M
.
O
W
O (a) 8-bit interface W
W 4-bit interface
W
.C
Y.C
W(b)
.TW
W
.TW
100
00Y
WW .100Y.C M
M
.
.TW
1
M
.
O
W
O
W
.C
O
W
W
WWPower.1ON
00Y
WW .100Y.C M.TW
WW .100Y.C MPower
M.T
.TW ON
O
W
O
W
C
O
W
↓
.C
W
W
WW ↓ .100Y.
.TW
W V rises toW0.9V
.TWait
00Y
0Y.C
WW Wait
M
.Tafter
0more
than 15ms
more
than
15ms
after
V
rises
to
0.9V
M
DD
DD .1
DD
DD
O
1
W
M
.
O ↓
W↓
W
W
Y.C
WW 00Y.CO .TW
C
.
0
W
W
W
0
Y
W
1
0
W
M.T
.
.T Set
1
0
M
.
O
1
W
M
.
Function
Function
Set
O
W
C
O
W
.C
Y.
W
WW DB6
WWDB700DB6
Y.C DB5 .DB4
RS WR/W
R/W
DB7
100 DB5OM.TDB4
00Y RS M.TW
TW DB3 DB2W DB1 DB0
.
1
.
1
W
M
.
O
.C
O1
0
0 W0
0
1
*
* W*
0
0 WW 0
W*
00Y 1 M.T1W
0Y.C0 M.TW
WW
1
0
WW .100Y.C ↓
T
.
.
1
↓
.
W
CO
OM
W4.1
W Wait
WW 00Y.CO .TW Wait moreW
C
.
more
than 4.1W
ms
than
ms 00Y.
W
.TW
Y
W
1
W
M
.
.T
1
00
M
.
O
1
W
M
.
↓
↓
O
W
.C
W
W
.CO Set.TW
WSet
.TW
00Y
WW .100Y.C M.TW Function
Function
1
WW .100Y
M
.
O
W
M
W RSY.CO R/W W DB7
.C DB4 .TW
RS R/W DB7
DB5
DB1 W
DB0
DB6
DB5
W
.CODB4 .DB3
W
WWDB6
W DB2
010Y
1
000
.
0
0 W0
0.100Y
1
1 M T*
*
*W *
0 .T
0
0
1M
1
M
.
O
W
O
WW 00Y.CO .TW
W
C
.
W
C
↓
↓
W
.
Y
W
W
W
W
.T more than 100μs W.1
00
0Y than 100μs
W
OM
Wait
M.T
.10more
W.1 Y.COM Wait
C
.
O
W
W
W
Y
W
C
W
.
0
W
W
↓
↓
.T
WW .100Y
M.T
.10
.TW
100
M
.
O
W
M
O
W
C
SetO
Function Set
W Function
W
.C
WW DB5.100Y.DB4 M.TW
W DB1 DB0
WW RS.100Y.C
WW
.TDB2
RS R/W DB7
DB6 DB5
R/W M.TDB7
DB6
00YDB4 DB3
O
1
W
M
.
O
W
W
.C
Y.1C
0
0
0
0 W 1
1.CO*
*W *
* WW 0
0
0W
0 WW 1
0
Y
0
0
Y
T
.
1
0
0
WW
T
M.T
.
.
1
0
M
.
O
1
↓
↓
W
M
.
O
W
C
W or Busy Flag
.COFlag Check
WWCheck .100Y.
WW
.TW
Wait more
100μs or
more than.T
100μs
0Y.C
WW .10Wait
0YBusy
Wthan
M
.TW
0
M
O
1
W
M
.
O
W
↓
W ↓ Y.CO
WW .100Y.C M.TW
W
WW .100Y.C MFunction
TW Set
.
0
WWFunction
T
Set
.
0
O
1
M DB1 DB0
ODB2
WW DB4
W. DB4 YDB3
.CODB7 .TW DB6
Y.C
WW R/W
RS R/W DB7 DB6 W
DB5
RS
DB5
C
.
0
Y
W
.T
W
0
0
W
.100
0
0
0
0W 1
*
0
0M
0
1
W.1 1 Y.COM
.1100 N OFM.T *
O
W
W
W
C
.
W
WW .100Y
TW
.↓
WW↓ .100Y.C M.TW
M.
.100
M
O
W
O
W
C
Display
Off
Function
Set
.
O
W
Y
Y.C
W
WW
WW R/W
.TW
0Y.CDB2 MDB1
RS R/W DB7 DB6 W
DB5 DB4 10DB3
RS
DB6
DB5
DB4
M
.100
.TWDB0
100 DB7
M
.
W
.
O
W
W 0 00Y.CO
C
.
0
0
0
0
0 WW
0
1 .C0O 0 W0
0
0
0
0
1
W
W
Y
W
0 N M.T F
Y
W
W↓
M
0
0 .10
*
* .1
W
M.T
.100
O
W
CO
.
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
↓ .T
Display
W
0
W
W Clear .100Y
.100 Display
W.1
M.TDB0
OMOff
W
RS R/W DB7 DB6 DB5 DB4WDB3
DB2 O
DB1
W
C
.
W
C
. 0 .T1W RS W R/W 00DB7
Y
.TW DB5 WDB4
DB6
0
0
0
0
0 WW
0
0 100Y
0
M
.1
M
.
O
W
O
W
C
0
0
0
0
0
0
↓ W
.
WW
.TW 0
001Y
W Set .100Y.C M.TW 0
1
0
0
0
M
.
Entry Mode
O DB0
W DB2Y.DB1
CO
WW 00Y.↓
C
W
RS R/W DB7 DB6 DB5 DB4
DB3
W
W
0
W
.T
0
0
0
0
0
0
0 W.10
1
I/D OM
S
W.1Display Clear
W
C
.
W
WRS
Y
W
R/W
DB7
DB6
DB5
DB4
↓ W
100
M.T 0
.Instruction
O
0
0
0
0
0
W
Write data to the DD/CG RAM and set
the
C
WW .100Y.
.TW0
0
0
0
0
1
M
O
W
C
↓
.
W
Y
W
Entry Mode Set
.100
W
W
RS
R/W
DB7
DB6
DB5
DB4
W
0
0
0
0
0
0
0
1
0
I/D
↓
Write data to the DD/CG RAM and set the Instruction
PAGE 5 (LMC-SSC2D16-01 Serial)
0
S
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
Y
W
.T
W
.100
.TW
100
00Y
M.T
OM
W
O
C
.
OMInstruction Set WW.
W
W.1 Y.C13.
C
W
Y
Y.
W
.TW
M.T
.100
.TW R RWD DW.1D00D
00
M
O
1
W
M
.
D
D
D
D
EXECU.
O
C
.
O
W
WB B 0B0Y.BC B B.TW
0Y
WW DESCRIPTION
TW
.
W S /W W
0
Y.CFUNCTION
B
B
TIME*
1
0
T
M
.
.
1
0
.
M
.1
OM
WW 00Y.CO .TW
7WW
6 W5 4 0Y3.C 2 1 T0W
(MAX.)
W
WW 00Y.CO .TW
.
1
0
Mcursor to home
Othe
W.and
M
.1 ClearODisplay
0 0 0 0WW
0 .10 0 .C0OM
0 1 Clears entire display
returns
1.64ms
C
.
W
W
Y
C
W
.
W 0 ). .100
W
.TW
W
0Y
Y
W
T position ( address
.
0
0
T
M
.
1
0
M
.
W
M
O
W
.CO Also
W.1 Y.COHome
W the cursor
0Yposition.
0 0 0 W
0 W0 0 000Y.0C 1 x.TReturn
to the home
1.64ms
WW
.TWreturns
W
0
1
0
WW .10Return
T
M
.
.
1
M
.
O
W
M
O
W
C
the
display
being
shifted
to
the
original
position.
DD
.
O
W
W
C
W
Y
W unchanged.
WW .100Y.
TW contents remain
.RAM
WW .100Y.C M.TW
M.T
.100
M
O
W
O
W
C
W
Y.
W move direct
.CO
WWand specifies
.TW
40μs
WW .100Y.C MSet
.Tcursor
100 display
WW .1Entry
M
.
00Y mode M.TW
O
W
O
W
C
.
O
I
shift.These
operations
are
performed
during
data
set
W
W
C
0Y
W
TW
WW 0 .1010Y/. S rite/read.
.TW For normal
WW .100Y.C M0.TW
M.I/D=1
.10set
0 0 0 0 0 W
operation,
S to
zero.
:
M
O
W
O
C
.
O
W;S=1 : accompanies
W
W
.C increment
Y
W
C
W
.
0
Y
W
T
W
.
W
D
;
0
:decrement
display
0
0
Y
W
T
0
W
M
.1
.T
00
M.
Wnormal
W.1 Y.CO
.CO .set
Wfor
W.1 Y.COM W
shift when
data is written,
operation,
to
Y
W
W
0
W
TW
W
0
0
W
T
.
1
0
0
W
T
M
.
.
1
0
M
.
zero.
O
1
W
O
W
OM
W.
W all display(D),cursor
0Y.C M
WW .1ON/OFF(C),
.TW 40μs
W
0
Y.C
WW .100Y.CSet ON/OFF
T
and
.
0
WW Display
T
.
0
M
O
1
W
M
.
O
W
O
W
C of cursor
ON/OFF
0Y.CON M.TW
WW .10D=1:
Y.C0 0 .T0W0 0 0 W1WD C.100BY.blink
TW position character(B).
.
0
WWcontrol
0
M
1
display;
0:OFF
display.
C=1:
ON
cursor;0:
OFF
W
CO
OM
W
W.
W
.CO B=1:
Y.cursor.
WW 00Y
C
W
.
0
W
W
W
0
Y
W
T
cursor.
ON
blink
cursor;
0:
OFF
blink
.
W
M.T
.1
.T
1
00
M
.
O
1
W
M
.
O
W
C
.
W
W
SWR
40μs
Cursor
Y.C the cursor
WW or 00Y.CO .TW
.TW
00Y
0Move
.TWand shift theWdisplayWwithout
1
0
W
M
.
1
M
.
O
1
M
.
0 0O 0 0 0 1 / / xW x changing
DD
RAM
contents.
S/C=1:
Display
shift;
Display
O
C
.
W
W
C
W
Y
W
W shift toWright; 0: .shift
.C
W
0Y. move.
.TR/L=1:
100 to left.OM.T
Wshift
C W
L
.TW
100:Cursor
00Y
M
.
1
W
M
.
O
W
C
O
W
W
Y.
W length (DL).
Number1of
40μs
Function
Y.Cinterface.Tdata
WW
.T
00display
WW .1Set
00the
WW .100Y.C M.TW
M
.
M
O
W
O character font (F). DL=1:
0 0 1 D N F xWW
x lines (N).Cand
C
Set W 0 0 CO
W 8 bits;00:4
W
Y.bits.
W
0dots.
Wdots;
WL
02Ylines; 0:M1.T
W
1
0
WW .100Y.
T
M.T
.
.
N=1:
lines.
F=1:
5x10
0:
5x7
1
.
O
W
M
O
W
C
.
.C address.
Y
WW
WW 0 000Y.C0 O 1 .TW ACG WW Set1CG
RAM
is sent .and
40μs
Set CGW
RAM
.TW
.TWCG RAM data
100
00Y
M
M
.
O
1
W
M
.
O
W
received Y
after
address WW
O
.C this setting.
WW .100Y.C M.TW
WADD
0RAM
Y.C
WW Set DD
TW
.
0
W
T
.
1
M
.
0 .10
00 1
address.
DD
RAM
data
is sentW
Set DD RAM
O
W
OM
W and 00Y.CO40μs.TW
W
.Cthis
Wreceived
C
W
.
Y
W
W
after
setting
0
addressWW
Y
W
T
.
0
M
.1
.T
M
.100
O
W.1Busy Y
OM
WW 0is0Y.C1Oμs .TW
C
Reads
Flag
(BF) indicating
internal
operation
Read busy WW
.
W
C
W
.
W
W
W
.T
0Y
.100
beingWperformed
and
reads address counter contents.
flag & W 0 W1.10B
W.1 Y.COM W
M.TAC
OM
O
W
C
.
W
C
W
.
Y
W
.T
WBF=1: internally
F00Y
address WW
.T 0: can accept instruction
.100
.TW
100 operating.
M
.
OM
1
W
M
.
O
W
C
.
O
W
W
C
.
Y
W
1
0
WRITE
DATA
Write
data
into
DD
RAM
or
CG
RAM.
40μs
Write Data to
W
W
.TW
W
00
0Y
Y.C
W
.TW
1
0
0
W
T
M
.
.
1
0
M
.
O
1
W
M
.
CG/DDRAM
O
W
W
W
Y.C
WRAM
.CO DATA
Y.C
WW .10040μs
W
0DD
YREAD
WW
T
.
0
0
T
1 W
1
Read
data
from
RAM
or
CG
M.T
Read Data for W
.
1
0
M
.
O
1
W
M
.
O
W
C
O
W
CG/DDRAM
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
W
W
.CO .TW
.CO Character
WW .100Y.C M.TW
14. User Font Patterns
) WW
00Y
WW (.1CG
.TW
1
00YRAM M
M
.
O
WW 00Y.CO .T
W data)
CO
WW 00Y.Character
C
W
.
W
W
W
Character Code (DD
RAM
CG
RAM
Address
Pattern
(CG
RAM
data)
Y
W
T
W
00
.1Hi 7 6 5 OM4 . 3 2 1 0
W.1 Y.COM
M.T5 4 3 2 1 0
W
Hi
76543210
Lo.1
Lo
O
W
W
C
.
W
C
W
.
Y
W
W
W
W
M.
.100
.TW 0 0 0
100x x x O1M1.T 1 1 0
00Y
.
O
1
W
M
.
W
C
.
O
0
0
1
x
x
x
1
0
0
0
1
W
W
Y
W
W
WW .10x0xYx .C 1 M
WW .100Y.C M.TW0 1 0
0 .T
0 0 1
M
.100
W
O
W
.CO
O 000 011
W
W
0000x000
x x xY.C 1 1 1 W
1 0
Y
W
C
.
0
W
W
W
W
.T
00
W
M
.10
.T 1 0 0
00Y
W.1xx xx xx Y.C11 O00M10 01 W00
WW 00Y.CO
W.1 Y.COM 1W
01
W
W
W
W
W
x.1
x0
x0
1 0 M
0 .T
0 1
W.1
M.T11 11 01
.100
O
W
O
W
W
C
x
x
x
0
0
0
0
0
.
W
C
W
W
0Y1 0 0M0.T1W
W
WW .100Y.
x x.1
x0
M.0T0 0
O
W
O
W
C
0. 1 0 1 0W
WW xx xx xx.100Y
.T
WW .100Y.C M00.01T10W
1 1 O
1 M
1 1
W
O
W
C
.
W
C
0000x001
0
0
1
0
1
1
x
x
x
0
0
1
0
W
W x x x .1001 Y1 1 1 01
WW .100Y.
1 0 .0T
M
W 0 0 1 1 0
O 01
W
xxx
W
WW
WW .100Y.C 11 M
1 0 .T
xxx
0 0 1 0 0
O1 1 1
W
C
.
xxx
0 0 0 0 0
W
W
Y
W
M.T
.100-------------------------------------------------------------O
W
WW .100Y.C0 0 0
W
001
WW
010
0000x111
111
011
100
101
110
111
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
M
.1
W.1 Serial)
M.
OM 6 (LMC-SSC2D16-01
W
PAGE
.CO .TW
O
W
C
.
Y
W
C
W
.
0
Y
W
W
0
0
Y
W
T
.
0
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
.T
00
Example
.T
00 15. Software
W.1 Y.COM W
W.1 Y.COM W
W
W.1 Y.COM W
W
W
.T
00
0 ) M.T
W 8 bits.120lines
15.1
W.1 Y.COM W
M.T8-bit operation ( W
.100
O
W
O
W
W
C
.
.C
Y
W
W
.TW
D D D D.1D00D D
Display
M.T
.100 Description
.TW R R D W
00Y Function
M
O
1
W
M
.
O
W
C
.
O
W
W
Y
S w 7 6W
5W
4 3 2 010Y
0.C
W
WW 00Y.C
.TW
M.T
.100
.TW
1
M
.
O
1
W
M
.
O
W
C
Initialization.
O delay
W Power on
Y.appears..TW
WWNo display
WW .100Y.C M.TW Sets to 8-bit
100and selects
WW .100Y.C M.TW
M
.
operation
display and 5x7
W
O
W
CO 2-line
.
Oset
W
W Function
C
W
.
Y
W
C
W
.
0
Y
W
T
W
.
0
0
0
0
1
1
0
0
x
x
dots
character
font.
(
Note:
number
of
display
lines and
W
0
0
Y
W
T
.
1
W
.10
OM
W. be Y
M.T
.100
OM
W
C
.
O
character
fonts
cannot
chang
after
this.
)
W
W
C
W
.
W
C
W
0
W
.T
W
0Y
Y.
W
WW Display
M.T Turn off display.WW.10
0 0 0 0 0 0 1 0 W
0 .010
OM
.100 OFFOM.T
O
C
.
W
C
W
Y
W
WW .100Y.
.TW
WW .100Y.C M.TW
M.T
.100
M
O
W
O
W
C
W
W
.C
Display ON O 0 0 0 0 0 0 1W1W
1 0
Y.
.TW
TW on displayWand cursor
.Turn
100
00Y
WW .100Y.C M.TW
M
.
1
M
.
O
W
O
W
.C
W
W
W to increment
.CO .TW
WW the.1address
00Y by one
WW .100Y.C MSet
Tmode
.
and to shift the
WWEntry.1Mode
M.T
00Y
O
W
M
O
W
C
.
O
W time00ofYwrite, to the
W
0 0 0 0 1W
1W
0
DD/CG
Y.C cursor
WW 00Y.C 0 0 .0TW
.TWto the right,Wat theW
WSet
M.T
.1
100
M
.
O
1
M
.
RAM
Display
is
not
shifted.
O
W
.C
O
W Cursor incremented
0Yone
WW .10by
WW 0to
.TWto right.
Y.C1 0 0 .T1W0 1 0 0 1W1WS .100Y.C Write
T“S”.
.
0
W
M
Write data
and
shift
M
O
1
W
O
W
OM
W.
CG/DD
WW .100Y.C M.TW
W
Y.C
WW .100Y.C M.TW
0
WW RAM
T
.
0
O
W
M 0 0 0 1 0 0 SDEC
.1
O “D” , “E” , and “C”.
Write data
WW 00Y.CWrite
W
WW .100Y.C M.TW
WW to00Y1.C0O0 1 .T
W
W
T
.
W
CG/DD RAM
1 0 0M
1 0 0 0 1 0 1
M
.1
WW 00Y.CO .TW
W.1 1Y.0CO
WW 00Y.CO .TW
W
W
0
1
0
0
0
0
1
1
W
W
0
W
M
.T
0
W.1 is propositioned
OM address so that theW
W.1 Y
.CO .TW
W.1 0 Y0.C1O1M0 0 W
Set DD W
RAM
0 0 0 0 SDEC
Set
RAM
cursor
C
.
Y
W
W
0
W
0
0
W
T
0
W
M
.T
00
M. of the second line.WW.1
Ohead
W.1 atYthe
.CO .TW
W.1 Y.COM W
C
.
Y
W
W
0
W
W
0
W
T “R”.
Write W
data to
* .T
SDEC
,.and
.100Write “C”
W.1 Y.COM W
M
.100
OM
W
O
W
W
C
CG/DD RAM
*
CR
.
W
C
W
.
W
.T
0Y
W
WW 0.1000Y
TW
.100
M.T
.10Shift
OM
W
Cursor or
0 0 0OM
1 .0 0 x x SDEC
only
the
cursor position to the
left.
O
W
C
.
W
W
C
.
Y
W
W
.TW
.TW
display shift
CR W
100
00Y
WW .100Y.C M.TW
M
.
1
M
.
O
W
W
.COLTD.”
Write data to WW
*O
WW .100Y.C M.TW
W SDEC WW Write
0Y“O.,
Y.C
T.W
.
0
0
W
T
.
1
0
M
.
CG/DD RAM
WW 00Y.CO .TW
W.1 Y*.COM W CO., LTD.WW
.CO .TW
Y
W
W
0
W
0
0
W
T
.1
.
Entry Mode
0 0 .0100 0 0 0 M
1 1 1 SDEC
Set.1display mode
operation.
OM
Wwriting
OMshift at the time during
W
C
.
O
W
W
C
W
.
Y
W
C
W
.
0
Y
W
Set
.T
WW .100Y
M.T
.10
.TW CO., LTD.W W.100
M
O
W
M
O
C
Write data to
by one
W and shift
Yto.
WWrite “00x”.
.CO .TWDEC
Y.CCursor .incremented
WW
.TW
TWto left. ) W
100
M
.
1
CG/DD RAM W1 0 0 .11010Y
1 1 0M
0 0 O., LTD. x W right.
(
The
display
move
M
.
O
W
W * Y.CO
.CO .TW
WW other
WW .100Y.C M.TW
W
0Ycharacters.
Write data to WW
WWrite
0
0
T
.
1
0
M
.
O
W
M
.1
O
W
CG/DD RAM
WW .100Y.C M.TW
WW * 00Y.CO .TW
WW .100Y.C M.TW
W
Return Home 0 0 0 0W0.1 0 0 0 1OM
0 SDEC
Return
to the original
position .CO
Wboth display
WW
W
.COand cursor
Y
Waddress
W
Y
W
W
0
W
T
LTD.
(
Set
to
zero).
.
0
WW .100Y.C MCO.,
T
M.T
.100
.
1
M
.
O
W
O
W
C
.
O
W
WW .100Y
.T
Y.C)
WW .100Y.C M.TW
15.2 4-bit operation
WW( 4-bit,
.TW
010line
OM
1
W
M
.
O
W
C
.
O
W
W
C
.
Y
.CD5 D4.TWDisplay WW
Y
W
.TW
Function
RS R/ 1D7
D6
Description
WW
M.
.100
100
00Y
M
.
O
W
M
.
O
W
C
.
O
W
W
Y
W
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M
.100
W
power on delay
initialization.
No
display
appears.
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
Y
W to 4-bit.1operation.
.T case, operation is W.10
00
W
M
Function set
Sets
Mthis
M.T
.100
OIn
W
.CO
W
C
.
Y
W
W
0
Y
0WW
0 W
0 0 0Y
1.CO
0
handled
as
8-bits
by
initialization,
and
only
this
W
W
0
W
.T
.100
W.1
M.T
.10
OMone write.
W
instruction
completes
with
O
W
W
C
.
W
C
W
Y
W
W
WW .100Y.
Function set
Sets W
4-bit operation
M.T1-line display and 5x7
.100 and selects
M.T
O
W
O
W
C
. resetting
0 W
0 W
0 0 10Y0.C
0Yand
WW font
.TWis needed.
.TW dot character
10on
0
M
.
1
M
.
O
W
0 0 0WW
0 x x .CO
( number of
display lines
.Cand character fonts cannot
WWhence.1after
00Y ).
W
.TW be changed
00Y
1
M
.
W
O
W
W Turn on display
WW and cursor.
Display ON/OFF
0 0 W
0 W0 0 000Y.C
T
.
1
Control
0 0 1 W
1 W1. 0 .COM
W
Y
W
Entry Mode Set
0 0 0 0 W
0 .1000
M.T Set mode to incremented the address by one and to
O
C
0 0 0 W1W 1 0 00Y.
shift the cursor to the right, at the time of write. to
.1
W
the DD/CG RAM display is not shifted.
WW
Write data to CG/DD
1 0 0 1 0 1 S
Write “S”. Cursor incremented by one and shift to
RAM
1
0
0
0
1
1
right.
same as 8-bit operation
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
0
Y
W
.T
W
.10Serial)
.TW
00Y
M.T
.100 PAGE
OM
7
(LMC-SSC2D16-01
W
O
W
C
.
W
W.1 Y.COM W
C
W
Y
W
WW .100Y.
.TW
M.T
.100
.T
00
M
O
1
W
M
.
O
W
C
.
W
.CO .TW
WW .100Y
.TW
Condition
WW .100Y.C M.TW
M
00Y16. Reliability
O
1
W
M
.
O
W
.C
W
WW 00Y.CO .TW
.TW
00Y
WW .100Y.C M.TWTN Type W
STN Type
1
M
.
O
1
W
M
.
O
W
C
.
O
W
W
C
.
Y
W
C
W
.
Y
WTemp..100NormalM
W
.TW
Temp.
Wide
Temp.
Wide Temp.
W
.T
.TW
100 Normal
00Y
M
.
O
1
W
M
.
O
W
C
.
O
W
W
C
W
.
Y
W
±30°
±30°
W
.C
W
.T
W Horizontal
W Φ .100Y ±30°
WW .100YViewing
.100 ±30°
M.T
OM
W
M.T Vertical Θ(㎜)
O
W
C
.
O
Angle
W
W
C
W -10°to 40°
Y to 40°
30°
-10°
Y. to 30°
WW .10010°
.TW 10°toW
WW .100Y.C M.TW
M.T
.100
M
O
W
O
W
C
O
W
C 70℃ TW -25 to 80℃
Operating
TemperatureWW
-10
to. 50℃ .TW *-20 to 70℃
Y.to
WW .1000Y
0
.
0
WW .100Y.C M.TW
1
*
OM
W -20 Y
OM
.C70℃
O Temperature WW. -20 Y
Storage
to
80℃
-35
to
90℃
to
W
W
C
W-30 to 80℃
.
C
W
.
0
W
T
W
.
W
0
0
Y
W
T
.
1
0
0
W
T
.
.
M
OM
.10 Temperature
(Power Off) WW.1240 Hours
Hours
OM
WHigh
.CO .TW240 HoursWWW 240
Y.C
C
.
0
Y
TW240 Hours
W
.
W
0
0
Y
W
1
0
0
W
T
M
.
.
1
0
. @70℃ M
O
@90℃
@75℃
WW @65℃
W.1 Y.COM W
W
Y.C
WW 00Y.CO .TW
0
W
T
.
0
W
1
0
WW Low
T
. Hours M 240 Hours
. (Power Off)
0Temperature
240
240
.1 Hours OM 240 Hours
WW 00Y.CO .TW
W.1 Y.COM W
.C
WW@-20℃
W
Y
W
W
0
W
T
.
@-35℃
@-15℃
0
W
M @-25℃
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
(Power On) W 240 .Hours
240
240 Hours
240 Hours
.T Hours
00
W High .Temperature
100
W.1 Y.COM W
M.T
W 1 Y.COM @80℃
O
W
W
W
C
@70℃
@60℃
W
.
0
W
.T
W
.T
WW .100Y
M@70℃
.10
.TW
100
M
.
O
W
M
O
W
C
.
O
W
W
C
W
.
Low
Temperature
(Power
On)
240
Hours
240
Hours
240
Hours
240
Y
W
W
.THours
W
.TW
100
00Y
WW .100Y.C M.TW
M
.
1
M
.
O
W
O @-25℃
W
@-10℃
.C @-20℃
W
W
W@-10℃
WW 00Y.CO .TW
00Y
WW .100Y.C M.TW
1
WHigh
M.T
.
O
1
W
M
.
Temperature
&
High
55℃/90%RH
75℃/90%RH
45℃/90%RH
65℃/90%RH
O
W
C
W
.CO .TW
WW .100Y.
.TW
WW .100Y.C M.TW
WW .Humidity
M
00Y
O
240
Hours
240
Hours
240
Hours
240
Hours
1
W
M
W
.C
W
W
.CO .TW
.CO
WW .100Y
WW .100Y60min@-35℃
WW
M.T
Thermal
Shock.100Y C M.TW A 60min@-20℃
60min@-20℃
60min@-30℃
M
O
W
O
W
C
.
W
.C
.CO .TWB 5min@25℃
WW .100Y
.TW
5 CycleWW
WW .100Y
.TW 5min@25℃
5min@25℃
5min@25℃
M
00BY
M
O
1
W
M
.
O
W
O
W
0Y.C M.TW
WW .1060min@80℃
0Y.C M.TW 60min@70℃
WW .1060min@90℃
C 60min@70℃
WW A .100Y.C M.TW
O
W
O
W
W Lift
.CO
Y.C Hours.TW
WW 50,000
C
W
.
0
Y
W
W
W
0
0
Expected
50,000
Hours
Hours
50,000
Hours
50,000
Y
W
T
.
0
W
M
.1
.T
M
.100
Osales
W.1consult
*
OM for some products, Please
WW 00Y.CO .TW
Wmay
C
.
W
Wide temp. version
notYavailable
our
engineer
or
respresentative.
C
W
.
Y
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
17. Functional
Test
&
Inspection
Criteria
.
W
.T
W
.T
WW .100Y
.100
.TW
100
M
.
OM
W
M
O
W
C
.
17.1 SampleWplan
O
W
W
C
.
Y
W
.C
W
.TW
0Y
W
.TW
100
0and
W plan.1according
M
.
.TW
1
00Y
M
.
O
W
Sample
to
MIL-STD-105D
level
2,
acceptance/rejection
criteria
is.
M
O
W
W
CO
W
WW .100Y.C M.TW
W : AQL 0.65
0Y.Cdefect
Y.Major
WW .Minor
TAQL
.
0
0
T
.
Base W
onW
:
defect
:
2.5
1
0
M
O
W
O
W
W.1 Y.COM W
WW .100Y.C M.TW
17.2 Inspection
WW .100Y.C M.TW
0
WWcondition
T
.
0
O
W
M
.1
O
W
Y.C
WW
ViewingWdistance
cosmetic
is 30cm
with0bare
under an environment
W
.CO .inspection
Y.Ceyes, and
WW .100of
WW for
W
0
Y
W
T
.
0
T
M.T
1
0
M
.
O
1
W
M
.
O
W
C
.
800 lus (20W)
light
intensity.
All
direction
for
inspecting
the
sample
should
be
within
45°
against
O
W
WW .100Y
.T
WW .100Y.C M.TW
WW .100Y.C M.TW
OM
W
perpendicular line.
O
W
C
.
O
W
W
C
.
Y
.C
W
W
WW .100Y
.TW
M.
.100
.TW
00YZone inMLCD
17.3 Definition W
of Inspection
M
O
1
W
.
O
W
C
.
O
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M
.100
W
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
W
.T
00
W
M
.10
.T
00Y
W.1 Y.COM W
WW 00Y.CO
W.1 Y.COM W
W
W
W
C.T
W
W
.100
W.1
M.TA
.100
OM
W
O
W
W
B
C
.
W
C
W
Y
W
W
W
WW .100Y.
M.T
.100
M.T
O
W
O
W
C
WW .100Y.
.TW
WW .100Y.C M.TW
M
O
W
O
W
WW .100Y.C
WW .100Y.C M.TW
W
Zone A : Character / Digit
WW area00Y.CO .TW
WW
W
1
Zone B : Viewing area except
AO( M
Zone A + Zone B = minimum Viewing area )
W. Zone
W
Y.C area
WW area.1(00invisible
Zone C : Outside viewing
M.T after assembly in customer’s product )
O
W
W visual00defects
Y.C in Zone C are permissible, when it is no trouble for
Note : As a general W
rule,
.1
W
quality and assembly
WW of customer’s product.
17.4 Major Defect
All functional defects such as open ( or missing segment ), short, contrast differential, excess
power consumption, smearing, leakage, etc. and overall outline dimension beyond the drawing.
Are classified as major defects.
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
0
Y
W
.T
W
.10Serial)
.TW
00Y
M.T
.100 PAGE
OM
8
(LMC-SSC2D16-01
W
O
W
C
.
W
W.1 Y.COM W
C
W
Y
W
WW .100Y.
.TW
M.T
.100
.T
00
M
O
1
W
M
.
O
W
C
.
W
.CO 17.5
WW .100Y
.TW
W
Defect
WW .100Y.C M.TW
M
.TMinor
00Y
O
1
W
M
.
O
W
.C minor
Except
cosmetic
defects
W
Y.C all.T
WWare classified
WW 00Y.CO .T
.TWdefects.
W the Major
00Y as M
0above,
WW defects
1
0
.
1
M
.
O
1
W
.
O
W
OM
Inspection Standard
WW .100Y.C M.TW Classification of
WW 00Item
W to be Inspected
Y.C No. .Item
WW .100Y.C M.TW
T
O
W
M
defects
W
W.1
CO
CO
W
WW .100Y.C M.TW
WSpot defect
0Y.size
WW .1Zone
T
.
0
WW .100Y.1.
T
.
M
(mm)
Acceptable
Minor
O
OM
WW 0Qty
W
W
Y.C
WW 00Y.CO .TW
C
.
0
W
T
W
.
W
Y
W
1
(.TDefects in spot
W
A
B.
C M
00
M
.1
WW 00Y.CO .TW
W.1 Y.COM W
.CO .TW Acceptable
WW Φ≦0.15
Y
W
W
from
)
0
AcceptaW
0
W
.T
00
W.1 Y.COM W
W.1 Y.COM W
W
W.1 Y.COM W
W
(
clutering
of
spot
ble
W
W
W
.T
W
M.T
.100
.T
100
00
M
.
O
1
W
M
.
O
W
C
not
allowed
)
O
W
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
1
2
0.15≦Φ≦0.20
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
0
1 WW
0.20≦Φ≦0.25
O
W
W
Y.C
WW 00Y.CO .TW
C
.
0
W
W
W
0
Y
W
W
M.T
.1
.T
1
00
0
0
M
.
Φ>0.25
O
1
W
M
.
O
W
O
W
W
0Y.C M.TW
Y.C
WW : for
TW size ΦWis defined
.spot,
10as
00dark/white
WW .100Y.C M.TW
.
1
Remarks
M
.
O
W
O
W
W
W
Y.C
WW 00Y.CO .TW
C
.
0
W
W
W
0
Y
W
W
Φ=1/2(X+Y)
M.T
.1
.T
1
00
M
.
O
1
W
M
.
O
W
C
W
.C
.CO ( Defects
WW Qty.100Y.
.TW
WW Size.1(mm)
2.
Line
Minor
.TW Acceptable
00Y
WW
M
.TW
00YdefectM
M
O
1
W
.
O
W
W
.COform.T)W
WW .100Y.C M.TW
L WW
W.C
Zone
0Y
TW
.
0
WW .100inYline
1
M
.
O
O
OM
W
LengthWWW Width
C W 00Y.C
A B WW
W
Y.C
.TW
0
T
.
1
0
WW .100Y.C M.TW
M
.
1
M
.
O
W
Accep- WWW≦0.02
AccepO
W
.CO .TAccepW
WW .100Y.C M.TW
00Y
WW .100Y.C M.TW table W
1
M
.
O
table
tableWW
O
W
Y.C
WW 00Y.CO .TW
C
.
0
W
W
.TW
W
0
Y
W
1
W
M
.
.T L≦3.0
2
W≦0.03
1
00
M
.
O
1
W
M
.
O
W
O
W
.C
WW .100Y.C M.TW
WWW≦0.03
.T0W
00Y
WW .100Y.C M.TWL>2.5
1
M
.
W
O
WW 00Y.CO .TW
W
.CO .T
W
C
W
.
Y
W
W
W
0
Y
W
2
0.03<W≦0.05
0
W
M
.1
.TL≦3.0
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
0.T
W
L>2.5
0.03<W≦0.05
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
Counted
.T
W>0.05 100
W
.T as spot
WW .100Y
.100
.TW
M
.
OM
W
M
O
W
C
.
O
W
W
C
.
defect
(
Follows
Y
W
W
.TW
W
.TW
100
00Y
WW .100Y.C M.TW
M
.
1
M
.
O
W
O
W
item 17.5.1 )
O
W
WW .100Y.C M.TW
W
WW .100Y.C M.TW
WW .100Y.C Remarks:
T
.
O
The total of spot
line defect
W
WdefectYand
OM
W
.CO .TW
WW .100Y.C M.TW
0
WW four.
0
WW .100Y.C M.TW
shall not exceed
1
M
.
O
WW 00Y.CO .TW
W
.CO A or
WW area
W
.CNot
Y
W
W
0
3.
Orientation
allowed
inside
viewing
(
Zone
Zone
Minor.1
Y
W
T
.
0
0
WW defect
T
M
.1
M.
.10
OM
W
O
WW 00Y.CO .T
W
C
.
W
C
( such
as
B
)
W
.
Y
W
W
W
0
Y
W
T
.
0
W
M
.1
.T
00
W.1 Y.COM W
misalignment
WW 00Y.CO .
Wof.1 Y.COM W
W
W
W
W
.T
00
W
L/C)
W.1 Y.COM
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
0
W
W PositionW
WW .117.5.4.1
M
4.
Polarizing
Polarizer
Minor W.10
00Y
M.T
.100
M.T
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
W not.1exceed
in Position Should
00 the M.T
0YShifting
W
01.
W.1 Y.COM
M.T
O
W
Ooutline
W
W.1 glass
C
.
W
C
dimension.
W
.
Y
W
W
W
.T
W
.100
.TW
100
00Y
M
.
1
W
M
.
O
W
O
covering of the W
viewing area
W 2. Incomplete
.Cdue to.TW
WW
W
00Y
0Y.C isMnot
WW .10Shifting
.TW
1
M
.
allowed.
O
W
W
.CO .TW
0Y.C M.TW
YSeratches,
WW
0
0
WW17.5.4.2
1
0
bubble
or
dent
on
Glass/
.
1
O
W
OM
W.
Y.C
W
0
Y.C
WWbetween
Bubble
0
WW .100Polarizer/Reflector,
T
.
1
OM& Reflector/Glass:WW.
W
W
0Y.C M
WW .10Polarizer
.TW
O
W
Size
(mm)
Acceptable
Qty
C
WW .100Y.
.TW
M
Zone
O
W
WW .100Y.C
A
B
C
W
W
W Φ≦0.20
Acceptable
Acceptable
3
0.20<Φ≦0.50
0.50<Φ≦1.00
Φ>1.00
2
0
WW .100Y.C M.TW
WW .100Y.C M.TW
WW 00Y.CO .TW
WW 00Y.CO .TW
W
W
W
T
.1
W.1 Y.COM W
M.
OM
W
O
W
C
.
W
C
W
.
0
Y
W
.T
W
.10Serial)
.TW
00Y
M.T
.100 PAGE
OM
9
(LMC-SSC2D16-01
W
O
W
C
.
W
W.1 Y.COM W
C
W
Y
W
WW .100Y.
.TW
M.T
.100
.T
00
M
O
1
W
M
.
O
W
C
.
W
.C
.CO .TW
WW .100Y
.TW
Generator
WW ROM
00YMap M.TW
M
1
00Y18. Character
.
O
1
W
M
.
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
O
1
M
.
W
WW
W
.CO .TCHART
Y.C +CURSOR)
W
0
Y
W
WW 00Y.CO .T
W
CHARACTER
(5×
7
DOTS
0
0
WW PATTERN
M.T
.1
10
M
.
O
1
W
M
.
O
W
C
O
W
WW .100Y.
.TW
4W
bit
WW .100Y.C M.TW
WW .100Y.CHigher
M
.T
O
W
M
W 0100
C
0000 0010W0011
1101
1110 1111
.1100
W 1011
W
.CO0101.T0110
LowerO4 bit
W 0111W1010
.TW
00Y
W
1
00Y
WW .100Y.C M.TW
M
.
1
M
.
O
W
O
W
O
CG RAM
W
WW .100Y.C M.TW
WW .100Y.C M.TW
0Y.C M.TW(1)
WW .10XXXX0000
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
.T
100
W.1 Y.COM W
W.1 Y.COM W
OM (2)
W
W.XXXX0001
W
C
.
W
W
W
.T
W
M.T
.100
.TW
100
00Y
M
.
O
1
W
M
.
O
W
C
.
O
W
W
WW .100Y
WW .100Y.C M.TW
WW .100Y.C M.TW
M.T
O
W
O
W
O
W
WW .100Y.C M.TW
Y.C (3).TW
WW .100Y.C M.TW
0
WWXXXX0010
0
1
OM
WW 00Y.CO .TW
W.
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
0
W
.T
0
WXXXX0011
(4) .T
M
.1
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
W
.100
W.1 Y.COM W
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
.T
W
WW .100Y.(5) M.TW
.100
M.T
.100
OM
W
XXXX0100
O
W
C
.
O
W
W
C
W
Y
W
WW .100Y.
.TW
WW .100Y.C M.TW
M.T
.100
M
O
W
O
W
C
.
O
W
WW .100Y
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
W (6) O
XXXX0101
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1(7) Y.COM W
W
W
W
XXXX0110
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
.T
WW .100Y
.100
.TW
100
M
.
OM
W
M
O
W
C
.
O
W
W
C
.
Y
W
W
.TW
W
.TW
100
00Y
WW (8) .100Y.C M.TW
M
XXXX0111
.
1
M
.
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
WW .100Y.C M.TW
WW 00Y.CO .TW
WW .100Y.C M.TW
W
O
W
XXXX1000 (1) W.1
O
W
OM
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .T
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
.T
00
W.1 Y.COM
W.1 Y.COM W
OM
W
XXXX1001 (2) WW.1
W
C
.
W
W
.T
W
M.
.100
.TW
100
00Y
M
.
O
1
W
M
.
O
W
C
.
O
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M
.100
W
O
W
.CO
W
C
.
Y
W
W
0
Y
W
XXXX1010 (3) WWW 00Y.CO .TW
W
.T
00
M
.10
W.1 Y.COM W
WW 00Y.CO
W.1 Y.COM W
W
W
W
W
.T
W
.100
W.1
M.T
.100
OM
W
O
W
W
C
.
W
C
W
Y
W
W
W
WW .100Y.
XXXX1011 (4)
M.T
.100
M.T
O
W
O
W
C
WW .100Y.
.TW
WW .100Y.C M.TW
M
O
W
O
W
WW .100Y.C
WW .100Y.C M.TW
XXXX1100 (5)
W
O
W
WW
WW .100Y.C M.TW
O
W
WW .100Y.C M.TW
O
W
XXXX1101 (6)
WW .100Y.C
W
WW
XXXX1110 (7)
XXXX1111
(8)
PAGE 10 (LMC-SSC2D16-01 Serial)
Related documents
ProForm SEARS 730si User`s manual
ProForm SEARS 730si User`s manual
lGnmore Elite ffiwMwwWN$ffiwm
lGnmore Elite ffiwMwwWN$ffiwm
Toastmaster TB240 User's Manual
Toastmaster TB240 User's Manual
Diasonic Tech DDR-3064R User guide
Diasonic Tech DDR-3064R User guide
Diasonic Tech DDR-5100 User's Manual
Diasonic Tech DDR-5100 User's Manual
Operation Manual - Peninsula Air Conditioning
Operation Manual - Peninsula Air Conditioning
ELANsat Tech EM78P156N User's Manual
ELANsat Tech EM78P156N User's Manual
USER' MANUAL
USER' MANUAL
FUNAI MSD126 DVD Player User Manual
FUNAI MSD126 DVD Player User Manual
Pitney Bowes ADDRESSRIGHTTM DA900 User's Manual
Pitney Bowes ADDRESSRIGHTTM DA900 User's Manual
USER' MANUAL
USER' MANUAL
Pitney Bowes DM1000 User's Manual
Pitney Bowes DM1000 User's Manual
Pitney Bowes POSTPERFECT B702 User's Manual
Pitney Bowes POSTPERFECT B702 User's Manual
USER' MANUAL
USER' MANUAL
DLP-USB232M User's Manual
DLP-USB232M User's Manual
USER' MANUAL
USER' MANUAL
WHA 3000V Hot Air Station Operating Instructions
WHA 3000V Hot Air Station Operating Instructions
View - Industry Gear
View - Industry Gear
Model PS9009 TC Prog. High Voltage Power Supply user manual
Model PS9009 TC Prog. High Voltage Power Supply user manual
USER' MANUAL
USER' MANUAL
Fluke 740 Series
Fluke 740 Series
Version XX OCED - Servomat Steigler
Version XX OCED - Servomat Steigler