LCDHype Forum

N o. PTO164D0443-0
T O
svstem elektronik GmbH
S P E C I F I C A T I O N S
T Y P E : N T M 1 6 4 M 2 1 A
(TYPE OF
TOSHIBA.TLX-1
O 13 - E O )
A p p r o v aS
l ignature
NIPPONSHEETGLASS
APPR.
CHECK
@
SO,.L T D
T L A SC
N I P P OSNH E EG
ER O U P
D I S P L ADYE V I CG
SHI MOMARUKO
I5_12, i _CHOME,
TOKYO146-0092 JAPAN
OHTAKU,
T E L: 0 3 - 5 4 8 2 - 3 I6 3
F A X0: 3 - 5 4 8 2 - 3 5 8 8
( M A N U F A C T U R EC
: NOARN)PO. X
CO.
NANOX
APPR.
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DRAI{ING
CIIECK
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DATE
ISSUED
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APPLICATION
The specificationappiies for LCD modules,NTM164M2lA delivered from
NIPPON SHEET GI.ASS CO.,Ltd.tO svstem elektronik GmbH
contents
PI
P1
P2
P2
P4
L G e n e r asl p e c i fi c a t i o n s
ating
2 .A b u s o l u t m
e a x i m urm
3 .E l e c t r i c a l s p e c i f i c a t i o n's
4 .0 p t i c a l s p e c i fi c a t i o n s
5 .D i m e nosni s
6 .I n t e r f a c e
n P Ua n d M o d u l e
7 .C o m m u n i c a t B
i oent w e eC
hT
Pt2
P32
P32
R Mqrlrino.
v . r r s t I r r r ö
0
O r q l ir f LrJ r .
u. quor
rJD
1 0R
. e il a b iI i t y
P36
P36
P36
lr rl . W
crranfrr.
i l s r r q r r u J
1 2 .I n s t a l a t i o n'
1 3 .C a u t i o na n d h a n diln g p r e c a u t i o n
B e v i s i ohni s t o r y
Date
Sheet
Item
OLD
Aug.12.1999
Apr. 5.2004
NEW
Reason
Initial release
type number
Parts
(Y-driver IC)
NTM164M21
NTM164M21A
T69618
T6A4O
Discontinued
l. Generitl specifications
Conlcrrts
Items
d i m e n s i o n a lo r r t l i n e
active area
vicrvins arc'a
d i s o l a vc o n r e n t sI o i x e l s]
rlote size
dote oitch
disolav mode
crrcurl
i nrerlä
1 2 9 - 0x 1 0 4 . - 5 i r n m I
95-96 x 76-76 | mm I
t0t-0x 82.0
lmml
1 6 0 ( w )x t 2 8 ( H
mm
0.56 x 0.5(r
o60
X 0 r1O
mm
Viewinc direction6 o'clock. STN Grav mode .positivetvDe
supplv circuit.
X-driver,Y-driver.Pover
L C D c o n t r o l l e (r T 6 9 6 3 C ) . R A M ( 8 k b v t e s )
CE WR- RD. C/D. RESET.Dara( D0 -
e r-
D7
2 . A b s o l u t e l r r a x i m u mr a t i n g s
Item
supply voltage
symbol
Voo
Vuo-Vst
rnDutvoltase
stora!.letemDeralure
oDeratinstemDerature
humidin'
VIN
Too
Tst!:
should be 29 C
X wet bulb temperature
Absolutemarimum ratinss
mln
max
0
0
Vpo-0.3
-?n
60
50
90
r
%RFI
nrax..andno condensation
of rvater.
- t -
nole
7.0
24,0
-0.3
0
t0
unit
X
J. Electrical spccic:ttions
hem
wmbol
tvD
max
i.0
'7.o
5.:5
frl
4.75
-8.5
80
i00
il0
500
I 000
VrH
2-8
x
V;r
Hz
t'er-=500
VEI-
ELDriving
Freouenct
"H"
i n o u tv o l t a e e
inour voltage lll':
"H"
outourvoluse
"L"
orrtDutvoltaue
'b.o
r30
Vrms
?tz
I
Vrr-
,t 'l
Vos
0.1
VorVoo=5.0V
VeE=-li.5
IDD
currentconsumpllon
unit
min
Voo
supplal'volnge
1 i r )
( Condi
sDecrrrcatrons
conditions
- lps
lEr.
Ver-:I l0V
fpr=i00Hz
r3.0
mA
l0
18.0
mArms
X PorversttDplvfor contrastcontrol
c@sha||bevariab|eforconrrastandviewinganglecontrol.andfor
copensarion.iecommendedVar(rypical value) is as follorvs ar each temperalureremperarure
r"mnemtrrre ( C I
0
-)
50
V o o - V E = ( V () t l n r
13.8
12.5
r0.8
{. Optical spccications"
=ii
'r- v
lrem
vol
symbol
ineclllcattons
condirion
mln
U
viewingangle
Luminance
T
f
r
r'l
lEr=i00Hz
nole
deg.
l a
ms
i.J
r5
ö=0" .8=0'
ö - - 0 ". g = o '
Ver-=l
l0V
untt
mzL\
40
1 i
K
conlrasrratio
time
response
rj4" .K= r.3
d=lll0" .K> Li
nrn
4.0
4.0
200
200
6.0
.)
150
3_i0
cdl Cß
5.6
N o t e ( ':)l ) e fi r r i L i o r ro f C o n L r a s l t a t i o
N o t c ( " : D e f i n i L i o nr l f , l , 0 r r i t l l t l 0 u
t'orF.n,llcrr
I er
l-l tro
Solcctcrl
^rca
\
\
'E
()
[J
a)
ll,
l l r l v o V o l[ . 1 U 0
Area
o[selectcd
Rr: reflection
Area
Itr: reflectionof Non-sclcclctl
N o t e (:"D e l i nti i o n o I Y i e r i n gr l n g l c
C o r t l r n srLr r L i ol a r g e r L h a r lr. 1 l c i r r ltr c
o l r t a i n ebr ly a d j u s t i n gI h c V e r V i r l r r e .
d
'[rr
N o t e" ' : l ) c fi r t i I i o n o f Trrrn 0N t i me anrl rrt
0 l ; F Li m c .
t
e
o
o
ott
V l c w l r r 8
'0FF'
au
A t r B l eA ( C - ( l ' l
)-
a
s I g r r aI
'0ll'slrrral
'OFF'slgrral
DimensionitlOutline
Untt:Em
l0l.Or0.](&r€l
OncFlng,Vic'iog lr.rl
95,96 lActir.4...1
t
t
c
Detail of Pixels
1 6 0x 1 2 8 P i x e t s
E__
__
trl
6. Interfact
Connection
$.I lnterface
Pin No.
Funct i on
Si g n a l
1
FGND
Frame ground
t
GND
Ground(signal ground)
vnn
P o w e rs u p p l y f o r l o g i c
vgg
P o w e r s u p p l y f o r L C Dd r i v e
WR
Daia write
(write data to the module at "L")
o
RD
Data read
(read data from the module at "L" )
4
t
ntr
Chip enable for the module
8
c/D
E =" L " : c,/D=' ' H"c o m m a nwdr i l e , . C / 6 = " L " ; d a t a w p i t e
NC
No connection
10
RBS[T
Itodule reset (controller
11
DO
Data input/output (LSB)
I2
D1
Data input/output
13
D2
Data input/output
14
D3
Data input/output
D4
Data input,/output
I
I
(should be variable)
I
"d a t a r e a d
RD="L": C,/D="1{"
t s t a t u s r e a d ,C / D = " L ;
reset)
l
Data input/output
16
t7
D6
Data input/output
18
D7
Data input/output
NC
No connection
(MSB)
'lo
i
20
ltn
Itu
No connection
,1
VsL
Power supply for BL drive
with EL backlight)
( o n l y f o r t h e L C Dm o d u l e
22
vuLc
Powör supply for EL drive
with EL backlight)
( o n l y f o r t h e L C Dm o d u l e
('t-t-x-tol:-ro)
6.2 BtockDiagramof NTivil6{i\t2t(TLx-t(}13-litl) and NTIlll6-li\l0l
Do
to
T6953C
ado
D7
bo
FR
FD
CE
c16
FESET
3rlu
rl8
-
D
.ce
Et)
IISCP
LP
X-dr i ver
X-driver
Control Li nes
160x l28 Pixels
L C DP a n e l
X-driver
Only for TLX-1013-E0)
6 . 3 S i g n a lT i m i i t g s
Specificatlons
Unit
S y m b oI
I tem
Min.
Max.
c/D' set up Time
tcns
100
NS
C/D HoId Time
tcon
10
NS
80
NS
LcE' tRo
LwR
CE, RD, WR
PuIse Width
Data Set Up Time
tns
80
ns
Data HoId Time
toH
40
NS
Access Tlme
tecc
Output
Hold
Time
tos
10
150
NS
50
ns
C o n d i t i o n s : v D D = 5 + 0 . 2 5 v , G N D= o V , T a = o t o 5 0 ' c
Fig. 4.6 Bus Timing
r/n
CE
ED,nT{
Dg to D7
(||RrTE)
Dg to D7
( READ
)
6.4
In
case of
2 screen
drive
modules
as 2 screen, so thJ
memory address and disPIaY
drlven
TLX-1013 and TLX-1Or3-EO is
relationship
position
between display
on LCD modules is
Fig.
shown in
Figs. I
and 2
TextDisplay
TH+TA-2II
TH+TA-1H
TII+2TA-2II
TH+2TA-1II
TH+6TA
TH+6TA+
1ll
TH+7TA-2II
TH+7TA-1II
Tll+7TA
TII+7TA+1H
TII+8TA-2II
TII+8TA-1II
TH+800011
1H
TH+800011+
TH+SOOOII+TA-2HTH+800011+TA-1H
1ll
TH+800011+TATll+800011+TA+
Lines
TH+8000+2TA-2H TII+8000il+2TA-1H
l 7TA-2ll T H + 8 0 0 0 + 7 T A - 1 H
TH+8000H
2H TH+8000+8TA-1H
TH+800011+8TACharacters
Fig. 2
GraphicDisplay
GH+GA-2ll
III
GII+GA+
Gll+2GA-2ll
II{
GH+2GA-
Gtl+62GA
G l l r 6z G A +l l l
G i l + 63 G A -2 rt
G l lr 6 3 G A - i l 1
Glt+63G4
1tl
Gll+63GA+
GH+64GA-2ll
G H + 6 4 G 41 -I I
Gil+800011
G i l + 8 0 0 0 1l 1l l +
G l { + 8 0 0 0 1 1 +2Gl tA - G H + S O O O I I + G A _ 1 H
1 lAl +
G l l +8 0 0 0 1 1 + G AG l l + 8 0 0 0 1 1 + G
G H + 8 0 0 0 12 1G+A - 2 H GIt+800oil+2GA-1H
2l{ GH+80001t+63GA1H
Gil+8000}t+63GAI000}t+64GA-1H
G [ + 8 0 0 0 H + 6 4 G A2-H GH+
Pixel s
- 8 -
I
128P xels
Graphic DisPlaY
Text DisPIaY
T I . X - 1 0 1 -3E 0
T t , x -1 0 1 3
Note I.
f . Numberof G r a p h i c
N u m b e r o f T e x L A r e a N u m b e ro
Nurnber o f
Areä GA
PixeIs/
I l o r l z o nI a r V er t i c a l
TA
L
i
n
e
s
r
s
t
e
(Hex. )
Characte r C h a r a c
PixeIs
( H e x .)
Pi x e l s
14H
128
160
14lI
96
16
8x8
In case of graPhic disPIaY
I
(8x8 plxels/character)
D?
(MSB)
D6
D5
D4
D3
D2
D1
DO +L S B)
id Data
Graphic Data
I
I
I
I
l
I
I
I
I
I
I
I
I
I
l
- 9 -
In case of
6.5
TLX-1013 and TLX-1O13-E0 (Z screen drive),
built-ln
Display RAM is
written
to
display
this
the module,
RAM.
and display
controller
Built-in
data
is
LSf T6S63C
RAM, and send data to LCD
read from display
automatically
"control
l . J o r c ls e t " c o m m a n d ( T e x t l l o m e s e t , T e x t
drivers.
Area set, etc. ) define the RAM area which is read uy cJnis
L S f , s o R A I ' Im a p c a n b e c h a n g e d b y u s e r ' s p r e f e r e n c e .
If more than 1 screen can be stored in the RAM, vertical
and paging is easily performed by resetting
scrolling
text
8K
h
a
v
e
m
o
d
u
l
e
s
T
h
e
s
e
g
r
a
p
h
i
c
a
d
d
r
e
s
s
.
h
o
m
e
home and/or
troller
byte
at
RAM located
address
is
8FFFH, and the
following
*++ Example of
RAH MAP *+*
(Upper half
ooo0rI
o000H to
an example
Attribute
OAOOII
Text
0cooH
of
RAM mapplng'
I
I
screen)
Graphic RAM Area
(00öoH to o?FFH: 2048 byte)
o800lI
oFFFH and 8000H to
RAM Area
RAM Area
CG RAM ATEA
(0CO0H to OFFFHz lO24
.Graphlc home address looooH
sraDhic RAM for 16384 PixeIs
.TexL home address oAo'OII (text
5LZ characters)
RAH for
"O1II"
.Of f set register
set DL =
(CG RAM för 128 characters)
bYte)
OFFFTI
(Loler half
8000H
screbn)
Graphic RAM Area
(8obou to 8?FFII: 2o4B byte)
I 800H
Attribute
SAOOII
Text
RAMArea
RAM ATEA
BCOOH
Not used
sFFFH
Notes
only for upper
home address is specified
If graphic/text
is automaticallY
RAll maP of lower half
screen,
half
f ixed
" C G R O MM o d e " , i n " L = e
of RAM m a p i s f o r
2 : Above example
"CG
2048 byte CG RAH area is
RAI'I Mode" is selöcted,
of
s
h
ould be relocated.
m
a
p
S o a b o v e RAI'i
necessary.
t :
- 1 0 -
6.6
Pin
Setting
The
pin
HoduIe No.
of
setting
LCD Controller
o!
controller
T I . X -1 0 2 1
"
T L X - 1 0 2 1 - 8 0 l'lDS= L"
MDI="L"
"
IIDO= L"
32 colunns
"
MD2= ll''
l.lD3="ll"
32 columns
16 I ines
(128 pixels )
(2 screens)
"
l.lDS= L"
MD1="L"
MDO="L"
MD2="ll"
l'lD3="ll"
64 columns
8 Iines
(64 pixeLs)
TLX_7114
TLX-711A-EO MDS="L"
M[)1="L"
I'tD0="L"
"
M D 2= l l "
"
MD3= L"
LSI
(T6e63C)
is as rorrowJ:
TLX- 1391
"
T L X - 1 3 9 1 - 8 0 M D S =H "
M D I = L" "
l'lD0=" L"
l'fD2:"H"
"
l ' l D 3= 1 1 "
IIDS="H"
MDI="L"
"
|lD0= L"
FSO="L"
FS1="L"
8x8
"
FSO=L"
FS1="L"
I screen
" H"
DUAL=
2.3r0.5
2 screens
" L"
DUAL=
6x8
8x8
1 screen
F S 0 =" L "
" H"
DUAL=
4 . 5 5 + 0 .5
4 . 5 5 + 0 .5
6x8
8x8
I screen
"
F S 0= L t '
DUAL=" H"
4. 5 5 + 0 . 5
(Note 1)
40 columns
16 Iines
(128pixels)
T L X -1 3 01 V
8x8
Operating Frequency of Controller T6963C
( Ffllz)
(Note 1)
32 columns
16 I ines
( 128 pixel.s)
Note I
(T6963C )
C h a r a c t er
N u m b e ro f
D i s p i a y S i z e C o l u m n so f F o n t
(pixels/
Screen
( N u m b e ro f
D is p l a y
c h a r a cL e r )
Row)
8 I ines
(64 pixels)
TLX-1013
T L X -1 01 3- 8 0
LSf
"
H D 2 =L "
ltD3="ll"
6x8
8x8
1 screen
"
F S O =L "
" H"
DUAL=
( Note l. )
"H"
In case of 6x8 pixels/charaeter, FS1 is
"
L
"
.
pixels/character, FS1 is
- l
5 .? 5 + 0 . 5
l -
In case of 8x8
7 . C o m m u n i c a t t o nB e t w e e n C P U a n d M o d u l e
7.1
7.1.1
Control
Sequence
Data Transmission
BuiIt-in
I
Method
T6963C 1s operating
LCD controller
and following
to CPU cloclc,
(1)
I
procedure
transmission
between module and CPU
C o m m a n dw i t h
2 byte
(2)
data
is
asynchronou,sly
required
data
for
I
Commandwith
data
1 byte
Read
Status
I
No
NO
IYES
Data Write Dl ( Iower
I yES
Data Write
8 bit)
I
> S t a t u s Read
> Status
D1
Read
No
No
Data Write
Iv r s
D2 (upper
> Status
I
lwr.q
Command W r i t e
bit)
I
I
Read
NO
I
tvE q
C o m m a n dW r i t e
(3)
Command with
no d a t a
Read
No
IYES
W r i.te
Comm and
- 1 2 -
(4)
Data Auto wrlte/Data
STA2 or
(Refer
(5)
Auto
I
Read
STA3 should be checked between aIl data and command.
"Dd.ta Auto irlrite/Data Auto Read"
5 ,2.2.6
|
)
Screen Peeking,
Screen Copy
"screen
be checlced just
after
Peeking"/"Scieen
"Screen Peeking", "Screen
(Refer 5.2.2.8/s
Copy")
STA6 should
Copy".
7.t.2
Status
Status
of
Read
controller
command and data
CPU.
Status
in
LSI
should
order
can be read
complete
to
I
be checked between alI
from B bit
communication
data
lines
with
(D0 to
OlZl by
setting e/D="H",E5="L".
,
STAO
( Busyl )
Checlc capability
execution
of
instruction
STAl
Check capability
data write
of
data
( B u s y 2)
STA2
( DAV)
Checlc capability
(only effective
of data read
in auto mode)
STA2=O : Disablei
=t : EnabIe
STA3
(RDY)
Check capability
(only effective
of data write
ln auto mode)
STA3=0: Disabler
=f: Enable
read
STA0=0 : DlsabLe,
=l:
Enab1e
or
STA1=O : Disable
=l : Enable i
I
STA4
I
STAS
(CLR)
Checkpossibility
operat i on
STA6
( Error )
Address pointer
is out
area on screen peeking
copy command
STAT
(Blink)
Check the
condition
of controller
of
STAS=0: Disable
=l : Enable
I
of graphic
and screen
STAS=1: Out of
graPhic I
area
blinlc
STAT=O : Display, off
-l
: NormaI I
display(on)
(Status Register)
STAT STA6 STA5 STA4 STA3 STA2 STAl
STAO
LSB
MSB
- r 3 -
7.2
Command
7.2.1
Command List
code
Cormald
Corrnand
D,I D3 D2
D7 D 8
Descrlptlon
DO
I
N2 NI NO
0
0
1
0
t
0
1
0
0
SLatuB
0
0
I
0
0 N2 N 1 NO
0
I
U
0
0
I
0
0
0
I
0
0
I
Curgor
Pattern
S el e c t
I
0
I
0
0 N2 N I NO N 2 , N 1 , N 0 s p o c l l y
Data Auto
Resd,/l{rl tc
1
o
I
I
0
Dela Read/
llrlte
I
1
o
0
0 N2 i l 1 NO
Screen
Peeklng
I
I
0
0
0
0
Screen Copy
I
I
0
I
0
0
BI t S e t , /
R e s et
I
PotnLer Set
:ontrol
iet
Hord
'lode Set
Dlsplay
Notes l.
Hode
I
0 N I l,t0
Statu6
NT NO
0
0 TexL llome AddreEs Set
0
t
TexL Areö 6e!
Orophlc lloms Address Sot
1
l
Graphlc Area Set
check
32x1,/ f OSC
o!!
l:Graphlc dltPlaY on
N2=o:Tert dlsplay ofl
1:?ort dlaplay on
Nl=0:Cureor dlsplay olf
1:Curcor dlgplaY on
ofl
NO=0:Cursor bllnl
1:Cursor bllnk on
32x I /IOSC
the nurnbsr of
curgor llnos
( Example )
N2 Hl NO
0 0 0
lllnecuraor
(botLom IIne)
1 SllnacurBor
1 I
(8rE Ptrel curaor)
32 r 1 / f O S C
lll ll0
Set
0 0 DaLa Auto lfrlte
DaLa Auto Read SeL
0 I
0 AuLo Reset
I
Atter thl6 cormand, contlnuous
or read.
dat6 can ba vrltten
( addreee polnter
automailcallY
lncrement )
32x'l,llOSC
DaLs Read/l.lrlL6 cormsnd tor 1
by te.
uP/dourl
H2=0:Addres8 Polnter
=l:Address Polnter unchanged
Nl=0:Addrosa Polntor up
=l:Addreas Polnter dovn
N0=0:Date l.lrlte
=1:DaLa Read
32x1,/fOSC
0
dlsplay drta to deLa
Trulsfer
sLack for read lrom CPU-
Stat,uB check
n
1 Ilne dlsplayed data Hhlch
addreaa lE lndlcaLed by
16 coPled to
addresa polnt€r
graphlc RiH araa.
StaLuE check
Set/ReB6L corrnand for a blL ln
Lho addreas polnLad by addross
DoInterh3=o:Blt Reset
=1:BIi S€t
N 2 ,l l l , N 0 I n d l c a t e d L h e b l L I n
Lhe polntsd addrass
( 0 0 0 - l s L S B , a n d 1 1 1 l s M S B .)
Status
N3 N2 N I NO N 3 = o r G r a p h l c d l e p l a y
0 H I NO
N3 N2 N 1
chech
curaor PolnEer set
Ollset Resl6ter Set
Addresg PolnLer Seg
Cc:o:CG ROl4Mode
CG=1:CGRAHHodo
N2 Hl N0 (Graphlc End Tert)
0 0 0 ' o" ERX O
' R"
0 0 I
"AND"
0 1 I
I 0 0 TexLonlY
(attrlbute capabtl lty)
N2 N 1 ll0
I
B x e c u t .I o n
t l m e (' H
1 ex. )
(Nota
)
NO
check
Status check betveen all conmaJtde and data ts reconmended, though execuln above conmand llsL.
ormands aro spocllled
L l o n L ! ß E f o r s e v e r a l c" S
LaLuB Cbeck'ln
executloD tlroe, oxecutloD tlDe
Por th6 conmands vtLh
sl.tuatlon of
because lL lg lnlluenced by lnternal
does not apecltled
LEI.
controller
_
1
I
4
-
-
1.2.2 Descript lon o f Command
Set Commanal
j.?.2.1 Pointer
Dl,
C o m m a n di s
N2
o
0
D2,
selected
I
Cursor Pointer
o
1
U
Offset
I
0
n
Address
Dl,
bit
selected
D2
Columnposition
Set
Register
Set
Pointer
Set
Row posltion
ooH
Address
Address
A d d r e s s( u p p e r )
( lower)
Set
Cursor Pointer
at
displayed
is
posit,ion
The cursor
does not
NO
D1
U
The cursor
N1
r '1 r ' a t
Command
N 1 NO
D2.
N2
0
by setting
o
(a)
o
1
is
specified
DI,
by this command, and
"Data Write"
command.
only
shift
I
by the
a
as follows.
D2 are specified
position
eursor
D1 : Horizontal
the
conmand like
by other
shift
position
by
counted
"character"
(5
to
specif ied by hard setting
width,/character
"
P
i
n
l ' ' t S Bo f
LSI").
Setting of LCD controller
ref er 4.6
I
pixels
DI is
pixels
high
Upper 3 bit
case of
(b)
are neglected
that
display
(81
the Maximum. In
row of lower
Register
Set commandis
as the
should
be within
i
Offset
RAM area.
position
area.
Set
set
and 32 is
the cursor
Register
area is
by "character"
"10H".
Offset
generator
I
character).
Please note
actual
counted
TLX-1013 and TLX-1013-EO, first
screen is
Note:
position
cursor
D2 : Vertical
maximum.
and 127 is'the
neglected,
used to
The uPPer 5 bits
Lower 5 bits
of
charac,ter
determine
in
start
address
D1, and upper
D2 should be 00H.
i.s neglected.
"
C
h
a
r
a
c
t
e
r Generator" for detail
Refer 5.4
3 bits
Dl
- 1 5 -
of
CG RAM.
of
of
CG
(c)
I
Address Pointer
Set
Address Pointer
Set command is
to
Word Set
7.2.2.2 Control
o
D1, D2,
of
Home address
defined
o
0
RAM (Text,
0
Text Home Address
(TII)
0
1
Text
I
0
Graphic
I
I
Graphic
Set
NO
Graphlc),
I
a n d areas
(TA)
Set
No
Home Address
Area
Set
Set
Text Home Address
This
command defines
text
display.
o0H
column
Address (upper)
I
o0H
of column
No
are
Address (upper)
I
Address ( lower)
(CA)
(Tfl)
address
starting
the
The data
the
of
I
D2
( Iower)
Address
Set (Cu1
on lst
N1
D1
o
ter
in
I
specifications.
r
Command
at
reading
command.
NO
displayed
I
for
be loeated
should
by individual
o
0
I
NI
(a)
start
Command
display
by this
Area
the
indicate
RAl.l, or
The address
RAM area s p e c i f i e d
"RAM MAP"
4.5
)
actual
(refer
built-in
to
RAM.
data from built-in
the
data
writing
address for
used to
the
in
home position
Text
of
of
display
(TH) iis
home address
display
(left
RAM for
end charac-
row).
I
(b)
Text Area Set
This
(rA)
commanddefines
can be defined
setting
of
controller
Text
LSI.
actual
area
character
can be contlnuous
-
column by Dl.
from character
independent
same number as the
so address
number of
the
l
b
ln
-
text
No. fixed
1s usually
number of
area
Textl area
in
by hard
def in'ed the
LCD display,
this
case.
I
Graphic Home Address
(c)
commanddefines
This
graphic
bits
wilI
tal
7.2.2.3
of
Graphic
Home Address I (GH)
of
dispfay
(left
disptay
nÄu for
end 8
area,
if
by D1.
character
So address
LSI.
area
is
defined
LCD display.
by character
the
Graphic
No.
in
by
fixqd
graphic
area
uneffec-
same number as the
the
graphic
Note that
font
settlng
L- LT
N2
even if
area
horizon-
same.
Command
1
n
0
0
character
I'tode Set command selects
RAlt Mode),
l
a n d R A I ' Ia r e a c a n b e u s e d w i t h o u t
number is
(No data)
column
from
independent
graphic
be different
Mode Set
RAM area.
attribute
Lhe number of
column number of
pixel
Home Address lndi-
Graphic
|
controller
of
can be continuous
actual
the
address
(cA)
command defines
hard setting
of
address
area can be defined
tive
in
function,
sLarting
the
Graphic Area Set
This
starting
home Posltion
the
at
attribute
when uslng
(d)
the
1st line).
in
cates
(GH)
The data
display.
displayed
is
Set
and combination
of
NI
generator
Lext/graphic
NO
(CG ROMMode,/CG
display
I
Command
CG
o
1
ULI
1 2 8 character
CG R O M ( c o d e : O O H t o
L28 characters
and bui lt-in
CG RAM for
( C o d e :B o H t o F F H ) c a n b e u s e d
ROr'1M o d e : B u i I t - i n
C G RAI'Ifor 256 c h a r a c t e r s
CG RAI'I l ' { o d e : B u i I t - i n
oOH to FFtl) can be used
When CG ROM Mode i s
selected
ly
selected,
from bui It-ln
selected
character
C G R O Ma n d 8 O H t o
from CG RAM.
- 1 7 -
?FH)
(code
code oOH to
?FH is
FFH 1s automat!.caf-
N2
o
1
Command
N 1 NO
o
U
Logicalty
'rOR" of
o
I
LogicalLy
"EXOR" of
I
I
LogicalLy
"AND" of
o
o
Text d i splay only (text
data i n graphic area)
Logieal ly
"OR"
graphic
and
graphic
graphic
display
display
and text
dlsplay
and text
by the
can be attrlbuted
" EXOR" and "ANf)" of
,
text
graphic
and text
display
bY this command. Only text display i" I
RAM is located in Graphic RAM
because 'Attribute
can be displayed
attributed
area.
7.2.2.4 DisPlaY
I'tode Set
(No data)
Display
bits
o
1
mode is
by setting
Command
o
N3
1
N2
N1
selected from combination
'rlrr at the selected blt.
of
NO
following
4
Command
NO
Cursor blink
ON(No=1) /
Cursor blink
OfF(HO=Oi
N1
Cursor display
ON(Nr=r)
Cursor display
OFF(N1=0)
N2
Text display
ON(N2=1) /
Text display
OrF(Nz=O)
N3
Graphic display
ON(N3=1)
Graphic
After
hard reset,
aII
/
displays
( N O = N l = | ' l l = |Jr =
f Q) .
- 1 8 -
are
display
lnhibited
OFF(NS=01
7.2.2.5 curs o r
(No data )
o
I
d isplay
When cursor
paLtern
SeLecL Command
Pattern
from
I
o
T
is
"ON", this
width
line
o
cursor
N2
N1
to
n
Crrrsor pattern
NO
o
I
Iine
width cursor
o
o
1
2 Iine
width cursor
o
1
o
3 line
width
cursor
0
I
I
4 Iine
width
cllrsor
I
o
o
5 Iine
width
cursor
I
o
I
1
o
7 line
width
cursor
I
I
I
B Ilne
wldth
cursor
I
6 Ii-ne width cursor
(1 ltne eldth cursor)
//z /,/z
//.,
,//.
',/,t
(8 Ilne wldth curfor)
- 1 9 -
NO
command selects
(btock).
N2
NI
8 line
wldth
the
cursor
cursor
7.2.2.6 DaLa Auto
t'Jrite,/Data Auto Read
(No data)
1
o
o
0
I
1
I
N1
NO
I
command is
This
recelve
full
auto mode,
to
convenienl
send ful1
screen
RAM.
screen dala from bullt-in
"Data Wrj.te (or Read)" command is
data,
setft,ing
After
not
or
necessary
between each data
"Data Auto Write (or Read)" command sitould follow
the
,
"Address Pointer Set" and address pointer
is automaticlally
increment by +1 after
ing)
alt
data,
operation
each data.
Auto mode reset
because alI
data
command can be accepted
N1
N OL e
in
is
After
sending
(or
receiv-
necessary to return
regarded "display
data"
the
is
auto
mode.
llo"*at
(
and no
'
Command
NO
0
0
Data Auto Write
0
1
Data Atrto Read Set
I
o
Auto
Set
Mode Reset
1. Status check for auto mode (STA2 or STA3) shouldi be
Auto Reset should bel
checlced between each data.
performed after checlcing STA3=1 (Data Auto Write
only).
t
- 2 0 -
r{o
NO
Slatus
C h e c k ( S T A O = 1 ,S T A I = 1 )
S t a t u s ch A
II
I YES
t
(Address
rl
Status
It
t
Dat
Data)
+
N
o
?
S
ch A ^l r
I
I
I
I
+
I
N
I
Y ES
I
Y
Status
O
S t a t u s C h e c k ( S f e O = 1 ,S T A I = 1 )
N
Check
I
I ves
.
vr.e
T
Address Polnter
(24H)
Set
l+
+
N
O
Check ( SteO= 1 , S'lAl= 1)
Status
I vns
I ves
Data Auto Write
Check
I
I
+
NO
( S T A 3 =1 )
Dat a
Datä)
l+
a
S t a tu
I YES
t
Y ES
I <_
I
C h e c k ( S T A O = 1 ,S T A I = l )
DZ (Address
Status
(STA3=1)
I
I
D1
t-
+
C o m m a n d( n O H 1 A u t o
I
l
@D
_
Lo I
1
Reset
(B2lI)
O
I
( S T , q , S1=) - r
Read
7.2.2.1 Data Write/Data
D1,
NoLe 1.
Dl is
o
RAM to
Rearl shottld
Address Pointer
Set command.
Address polnter
can be automatlcally
this
by setting
Data
CPU.
address
setting
after
be executed
built-in
CPU to
from
Data Write
usecl for
NO
Data Write'
for
RAl.t, ancl Data Read f rom built-in
l,trite/Data
N1
N2
only
necässary
c o m m a n c li s
This
o
o
I
I
or
increment
by
1
decrement
command.
|
(
Command
N 2 N 1 NO
(afLer
execution,
acldress pointer
( af Ler
execuLlon,
address
execution,
address pointer
(after
execution,
address
0 Data Write
(after
execution,
address pointer
1 Data Read
(after
execution,
address
o
o
o
o
1 lJata React
o
1
0 Data WriLe (after
o
I
I
1
o
Data Write
Data Read
polnter
pointer
pointer
incr,ement)
lncr'ement )
clecrbment)
decrement)
unchänged)
unchanged)
each I byte data'
T h i s c o m m a n d1 s n e c e s s a r y f o r
I
I
7.2.2.8 screen
(onIy
Peeking
(No data)
This
commandis
data
stack,
l_
and this
transfer
1 byte
Data Read commancl. So,
o
I
I
used to
TLX-130lV
f or
data
Iogical
o
6x8 PixeIs,/chara.
with
o
o
o
displayed
1 byte
can be read
combination
data, to
from cPU by
data
of
teXt
ancl
by this command.
af ter "Screen Peelcing"
S L a t u s ( 5 T A 6) s h o t t l c l b e c h e c k e c l j u s t
"Address PointeF Set"
command. If Lhe adclress determlned by
command is ignored
command is not in graphic RAM area, this
graphic
rlisplay
and.status
flag
on LCD screen
(3TA6) is
set.
- 2 2 -
can be rearl
)
I
The procedure
to
displayed
read
by thls
data
command is
as
I
foIIows.
I
Check( STA0=I., S
Status
I vus
YES
Ii
D1 (Address
Data)
r
N
o
C h e c k( S T A O = ,1S T A l = 1)
Status
C h e c k ( 5 T A 6 = 0) - +
Status
t
l
I
",,
|
D2 (Address
I YES
I
Data)
s t l , t u s C h e c (kS t a o = ,rs r e r = I 9 j
I
NO
C h e c k ( S T a o = 1, S T A l = 1 )
Status
YES
I
Address
Pointer
I
YES
T
Read Command
Data
II
Set
+
*-NO
S t a t u s C h e c k ( S T A O = 1, S T A 1 = 1)
I YES
{,
S c r e e n P e e k i n g C o m m a n d( E O l l )
I
Screen Peelcing command can be used
Another
LCD display.
modif ied
data
of
CG is
text
For example,
set
in
application
the
and graphic
CG for
for
of
C G R A I ' {a r e a
data
reverse
this
command is
|s
to
of
hardcopy
by reading
and writing
character
od.
getting
that
combination
CG RAM arPa.
made by this
methi
I
Note:
(TA) and GraPh-
F o r u s i n g t h i s c o m m a n d ,T e x t A r e a S e t
ic Area Set (ca'1 shourd be deflned as same number as
"columns of disPIaY" ln pin settlng.
:
- 2 3 -
j.3
Initial
I
for
ization
required
LSI T6963C is
of controller
Initialization
, , l . l o d eS e t " a n d " c o n L r o l l , l o r d s e t " a f L e r p o w e r o n .
FoIlowing
the
is
these
of
procedure
lnitializing
example of
modules.
c/D D?
Cormand
Not€
Hex.
DO
DI
v4
Pover On
Porror On
llard Reset (Use nege! Termlnal )
Hods Se!
Control llord Set
G r a p l r l c l l o r r eP o g l t l o n S e t
( G r i p h l c l l o m eA d d r e s s 0 0 0 0 R )
Number ol
tr3
D4
D5
D6
f r " o e t = " t . " ( I m o e c m l n l m r u na f t e r V g p a { . ? 5 V )
"OR" rode
n
0
80ll
I
0
0
0
0
0
I
n
0
0
U
0
0
0
0
0
0
0
0
0
0
0
0
0
0
00ll
00lt
Graphlc HoJe Address
0
I
0
0
o
0
I
0
42ll
Cormand
0
0
GraPhlc Area Set
,t3ll
1
I
o
0
0
6eL
a"'ll)
0
0
0
0
0
I
TexL Homc Po8lBlon
(TerL
Home Äddrese
a
0
0
I
Note2
I
t
a
a
0
0
0
0
{oil
0
0
0
llumber of TexL AreB SeL
Nunber o!
llotol
Nots I
GraPhtc
Conmand
Tert
Area
I
Honro Äddress
I
conmand
Number of
Tert
Area
0
I
0
0
o
0
0
I
{lll
Cormand
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
00ll
00tl
Graphtc llome Address
I
0
I
0
2{ll
Cormald
l 1 3 0t
0
0
t
0
0
u
I
0
55ll
c0ll
o".o
I
0
0
I
0
0
I
U
0
0
AAII
c0ll
Data
Conmand
i
I
gnd)
(InttIsllzo
(DÄLa Hrl tc)
0
0
Address Polnter Set
(Addre3s PolnLer 000011)
o l o
Dota tl!lLe
0
U
(Graphtc)
I
0
I
I
I
Addrese PoInLer Set
(Addresa Polnter 'f"ll
(Tert)
a
0
0
)
I
DaLa llrlto
1
0
1
(r)
(o)
0
I
0
o
I
0
I
0
1
I
0
U
0
I
I
0
I
Dt6plsy Hode SoL
(TerL,/GraPblc on)
1
Note2
I
0
0
Text Home
0
0
t
0
0
2.rll
Conmatrd
I
0
0
I
0
0
0
o
0
34ll
c0il
Data
Conmand
1
0
I
0
0
28 l l
c0il
Data
0
I
I
U
0
U
i
i
I
Conrnand
I
- 2 , 4 -
I
I
0
0
scil
Conrnand
]ddrese
I
I
NoLe 1
Numberof graphic
l.{ocluleNo.
and texL area
P i x e l s / C h a r a cL e r D7
D6
D5
D4
n?
D2
D1
0
0
o
0
0
0
o
0
1
0
1
0
1
0
0
OF}I
00H
U
0
0
1
0
0
I
0
0
0
o
0
0
0
0
0
14H
OOII
6x8
0
0
0
0
0
0
1
0
0
0
1
0
1
0
0
0
16H
00H
8x8
0
0
0
0
0
1
0
U
0
0
0
0
0
0
:I
10ll
00H
0
0
0
0
I
I
0
0
I
0
0
0
0
0
0
0
0
0
'0
1
0
1
0
1
1
U
0
0
0
0
0
0
0
1
0
0
0
L
0
q
0'
0
0
0
0
0
0
0
1
0
1
0
T L X - I 0 2I
T L X - 1 0 21 - 8 0
8x8
T I . X -1 0 1 3
T I , X -1 0 1 3- 8 0
8x8
T L X -1 3 91
TLX-1391-80
6x8
TI,X-?114
T L X _ ?I 1 A - E O
U
0
n
DO
I
I
0
0
llex.
28H
OOII
l
8x8
6x8
0
TLX-1301V
8x8
1
0
I'
0
'0.
.1BH
OOII
0
28H
o0H
0
.0
1EH
00tl
N o l e 2 : T e x t l l o m eA d d r e s s ( t + * * l l ) a n d s t a r t a d d r e s s f o r ' t e x t d a t a b y A d d r e s s
les.
Pointer Set cornmand( t * * * l l ) s h o u l db e d e t e r m i n e df o r e a c hm o d "uR
AM
T h e . f o l l o w i n g i s a n e x a m p l eo f T e x t H o m eA d d r e s s . ( n d f e r 4 . 5
!lap" )
D? D6 D5 D4 D3 D2 D1 D 0 .
HJx.
I Screen Drive
0
0
0
0
0
0
I
0
0
0
1
0
1
0
1
OOII
t7il
2 ScreenDrive
0
0
0
0
0
0
0
0
0
I
0
0
0
1
U
00ll
OAII
0
"status
and data.
C h e e k " s h o u l d l l e i n s e r t e d b e t w e e na I l c o m m a n d
Notes 3:
j
(
n
o
d
i
s
p
l
a
y
m
o
d
e
)by llard rReset,
c
l
e
a
r
e
d
4 : t r i s p l a y t r { o d eS e t r e g s l e r i s
p
a
n
e
l
.
t
e
r "Displ,ay
A
n
d
a
f
o
n
L
C
D
and no rlisplay is appeared
.just
M o c l eS e t g c l l " . l , r, fi t t e n d a t a i s d l s p l a y e d o n t h e L C D -
* 2 5 -
7.4
Character
7.4.1
Character
Character
moduLe.
"Mode
Set"
Generator
General-or
generator
for
ROl.t
ROM for
128 characters
"CG ROI'I
Mode" should
is
bui It-in
be selected
I
.torJ
thi s
us 1ng
bu i I t- 1n CG Rolit.
Character
pattern
ancl character
code
is
shown in
f oJ-Iowing
chart.
CG RO}'I PATTERN
(LSB)
NTT
iltl
o
ilt+
illl
itli
il[
itI
lili
ffi
iltl
4
(
- 2 6 -
I
RAM is
generator
Character
RAM
Generator
7.4.2 User Character
the
generalor
used as character
RAM whlch
buil-t-ln
after
writing
can lbe
character
Pattern
"User
RAM can be used as
"CG RAM Mode",I or
by selecting
CG RAM" for 256 characters
"CG ROMMode".
bY selec ttng
for J za characters
by program.
\ r , l
of
Position
The upper
(NNNNN) is
bu ilt-tn
of
The Part
User CG RAM
in
5 blts
rtefined
address of User CG RAM
start
"
P
o
l
n
ter
by
Set" command (Offset
2o4B byte
Set), and following
Register
"User CG RAM" area when CG RAM Mode is
are
defined
as
LO24
selected.
( a d c l r e s s : N N N N N l o 0 o o o o 0 o o 0t o N N N N N l l 1 1 1 1 1 1 1 1 1 ) i s
as "User CG RAM" area when CG ROMMode lq
defined
byte
selected.
l
(2)
to
Writing
Character
in
the
dress
CG code can be written
speclfied
"Pointer
Set" command (Adaddress by
pattern
pointed
Pointer
following
I
User CG RAll
of
Set).
8 byte
byte
acldress for
should
be sent
1 character.
(LSB)
(MSB)
Upper 5 bit
defined by
"Pointer SeL"
command
(Offset
Register Set)
data
Automatical
CG code
(B bit)
scan for
M = 1( f o r C G d i s p l a y
ROI't M o d e)
M = o( f o r CG
RAM M o c l e)
- 2 7 -
Ly
t'o
(3)
Dlsplay
Pattern
in
Character patl-ern
wlth "Data lrtrite"
text, display
f n case that
pattern
is
(OOII to
TftI),
User Cc RAI'I
can be displayerl by sendlng CC icode
c o r n m a n d . B u t " D i s p I a y M o d e S e t '" f o r
shor"rld be selected before
"CG
R O I ' !M o d e " i s s e l e c t e d ,
selected
from built-in
uslng
CG.
character
CG ROMwhen MSQ=6
and from User CG RAM when MSB=I(BOII to
FFlr).
fn
(4)
case that
"CG RAM Mode"
ls
selected,
patterns
are
Relation
between User CG RAM Address
Character
from User
character
CG RAlt (00H to
FFH).
and CG code
and
Pattern
When character
relation
selected
alI
pattern
written
to User CG RAl,t,
"
U
s
e
r
between CG code and
CG RAI-!" addresrs is
shown ln the chart
is
on next page.
- 2 8 -
(
Charac te r Cocle
R A MA d r l r e s s f o r U s e r C G
Character Pattcrn
? 6 5 4 3 2 t O I E D C t ] A 9 8 7 6 5 4 3 2 1 0? 6 5 4 3 2 1 0
l ' t 0 0 0 0 0 0 0N N N N N M O O O O O O
0
0
0
0
1
1
1
1
O
0 0
0
1
1
0
0
1
1
1
0
1
0
1
0
1
M 0 0 0 0 0 0 1N N N N N T ' 1 0 0 0 0 0 00
0
0
0
1
1
1
1
01
0
1
1
0
0
1
1
0 o m oo o o m o
1
0
1 0 tll 0 t-1jt-11
0lfJ 0
0 0u1000ol]Jol
1 omoo o ot-tloi
0 o ul 0 0 0 oltl 0
1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0
0 o 0 0E]0 0 o
0 0 0 0 0[1 0 0
EErEtrtlElEto
0 0 0 0 0[!o 0
0 0 0 olno o 0
0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0
3HFüüFH
3
t ' | 0 0 0 0 0 1 0N N N N N M O O O O I O0 0 0 0
0 0 1
0 1 0
o n l oo o o m o
o [ n E oo o E lo i
o E l o l l lo o G lo
1 1 1 0 0 0 0 0 0 0 0
r 1 1 1 1 I 1 1N N N N N 1 1 1 1 1 1 10 10
0 0
0 1
0 1
1 0
1 0
1 1
1 1
0 o f i l l f l U l oo o o
1 o f i ]o T - o o o o
0
1
0
1 0 0 0 0nmm0
0
1 0 0 0 0ü0tllo
iHHHHäH
o o o ofttrfl0
N o t e s1 : ..NNNNN..i s t h e u p p e r 5 b i t s i n s t a r t a d d r e s s o f U s e r C GR A M
Offset Register Set).
d ef i n e d by " P o i n t e r S e t " c o m n t a n( d
I t m u s t b e c a r e f u l s o t h a t U s e r C GR A l la r e a s h o u l d n o t b e r e
w rI t t e n by d i s p l a y d a t a e t c .
- 2 9 -
I
7.5 Attribute
'7.5.1 Attrlbute
I
"Reverse DlsipIay",
Func Lion
for
functlon
These modrrLeshave attribute
"BIink" and "Inhibit"
data
in text display mode. Attrlbute
"Craplric Area" def ined by "Control Wrord
in the
is written
set,, command (Graphic llome Address set and Graphic Area
"Text Display only" l*lode should be selected by
so
set).
"l,lode Set " commancl, and graphic display
cannot be displlayed.
"Graphlc DisBut please note that it is necessary to make
writing
attribute
play On" by ,,Display Ftode" command after
I
data as shown 5.5.2.
I
data
The attrlbute
written
at
the
tlte 1st
of
1 ltyte
lst
written
is
data of n-th character
"Graphic Area".
at
the
n-th
1 byte
as follows.
defined
function'is
Attrtbute
in
in "Text Area" is
character
"Graphic Area",
and attribute
RAM
Attribute
1 byte
*
+
*
+
N3
N2
N1
*: .Don't care
F u n ct i o n
N3
N2
N1
NO
0
0
o
0
Normal display
o
I
o
I
Reverse display
o
o
I
I
Inhibit
1
0
o
0
BIinlr
1
1
q
I
Bllnlc of
I
0
1
1
Inhibit
- 3 0 -
display
of
normal
reverse
display
displaY
dlsplay
NO
in
I
i
Note
1.
_
'RL
2.
'
of
Frequency
(fnf)
Blinlc
i
I
'osc
f
I
tn x n
64 x
x 2
CIock Frequency of Controller
fOSC: Oscillation
T6S63C
m: Numher of llorizontaL pixels defined by pin
of controller
setting
(-(columns of display)
x (Horizontalrpixel
of character
font)
n: Number of rows pixels
"Pin
LSI
Setting of LCD Controller
Refer to 4.6
"
(T6S63C)
I
is 50: 5O
The ON/OFF cluty cyc le ratio
7.5.2 Procedure
of
The example of
setting
the
attribute
ll
I
procedure
setting
s
attribute
for
l s 1a s
follows.
I
I
Command
Graphic Display Off
cls D7 Dö D 5 D4
0
1
a
I
0
0
I
Note
D3 D2 D1 DO I l e x .
*
+
+
Note 1 !
0
Note 2
l l o m eA d d r e s s * * * * l l
command
I
G r a p h i c H o m eA d d r e s s S e t
A t t r i b u t e D a t aW r l t e
0
0
1
0
0
1
0
I
0
I
0
'I
0
I
Ilode Set
I
Graphic Display on
1
0
0
0
0
0
o 0
ö
0
0
1
0
'l
I
ö
0
0
0
0
ö
0
0
I
0
ö
0
1
0
1
0
0
I
I
I
I
t
t
I
I
t
I
0
0
0
0
I
U
0
0
0
1
1
+
*
*
I
0
1
I
i
0
I
0
0
0
n
I
'|
I
0
0
t
0
I
I
I
Notes1. *; Don't care
2 . G r a p h i c l t o m eA d d r e s s ( * + * * l l ) a n d A t t r i b u t e
should be determined for each modules.
- 3 1 -
l
a.ttl
LLI
I
ziu
00H
c0H
0Dtt
c0ll
Note 2
A d d r e s s* * * + l l
A d d r e s sP o i n t e r S e t
Attribute Data
Data Write command
Attribute Data
Data l,lrite commantl
I
I
I
I
84 t l
Note I
I
Data Write Address (****ll)
t'.
tvlARrilrNc
F oI l o v i t t g s s h o r rl r l l r c m a r k e t l o n l l r c e a c l r m o r l t t l e s .
T Yp t : l l r r ml r cr
llnnrrfactrtrer'E tlnnc (Nanox)
C o r r n L r yo f o r i g i l t
Ilrnufoctrrring loL ttrrmlrcr
0.a
U A I .I T Y
0 .I I n s p e ct i o n r \ Q l .
^ Q r t. . 5 x
A Q l4. . 0 x
T o t t r lo f l l a j o r l ) e f r : c l s
1 ' o t n lo f I l i n o r l ) e f c c t s
SamD
i nl g l l e t l t o r l
A N S I / A S QZCt . 4 ( l . e v e l I I )
0 . 2T c s I C n n r l i L i o n s
ttrc
A m b i c nTI e m p c rl a
25!5'C
0 5 1 : 2 0X t l l l
llumirlity
lllrrminrrtion
V i s r r i r li r r s p e r : t i o nl r h a l l l l c p e r f u r m c r tl r n t l c rt l r e s i n g l e f l r r o r e s c e n t l n m P
( 2 0 f ) v i t h r r l r r r r rl ti { l c n rr l i s t a n c e f r o m l . C Dm o r } u l el r y n n k e r le y c s v i t l r 3 0
I
c r n r l i : tI i t n c c f r o m I l r c l , C Dn o t l t It e .
V i e v i n ß n n ß l r : . f o r i n s p c c I i o r rs f i o u l r l r e v i t l r i n v i e v i n g a n g l ' es p c c i f i c r l i r r
t l r i s s p e c i fi r : n t i r r n .l ) c f e c t sr l r i c h i s v i s i b l e o n l y i n t l r e d r r r fa c c g l n r e
slrirll bc rlisrcllitrtlcrl.
0 p e r n ti n g c o t t r l Ii i r r t t s
:
l y tlre ratinß
l l r t lc s s o t l t c r Y i s r : s l l e ci I i e r l ,l , C Dn r o r l r r lsel r a lI b e o p e r n t e r b
1
v n l u e (t Y Pi c a I v i rI r r c ) .
I
0.3 |)imensions
I
l)esr:ripLion
Item
lmporlnnt
Di m e r tiso r t s
0tlrers
I ) i n c n r ; i o r t i i l o t t l I i r t e , l ) i n c n s i o t t l r e t . w e c nt h c m o t t n I
Class
llajor
i r u l l r oI c s
I
l ) i n r e n s i o nssp c c i l i e r l i n t l r i s s p e c i f i c a L i o n
l li n o r
_ a c -
Ap p e uf ' o n c e
l)escription
I'Cll Äppearnrlc(:
Solrlering
Class
I
. l l ' r r t l ( : r ' rf r) c e li r t U .s n n D p i l t ge. l e r : t r i c a l l Y s l t o r t . I l a j r t r
* C o n r l t rt ti :v c p i rl "I e r n mi s s i n ß o r p i n l r o l e l a r ß e r
t l r r r r 1r l 0 Xo l r r ri t l i n nI I i t l l l t
* l l c p n i r p o r t i o t t o t t l ' 0 l l r l o e s n o L c o v e r c r lb Y
e t r o xy r e s i n .
llinnr
* C o l t l s o l r l c r i r t i r t t , l e n r l m o v ew l t c np r r l l e r l .
llajor
llinor
l , l l i s a l l i g r r r n e nt rt f p n t l n t t r l l e a t l o f f l a t p a c o
f
l
e
n
r
l
)
.
w
i
t
l
L
h
l
,
S
I
t
l
t
t
t
n
l
n
r
g
e
r
l/2
k i r 1 1 lc, Sl (
l l e z cl , c r t n t t cIco r s
* l ) i l ; ti r r c I s I n i r t ,r u s l n r s c r a l c h .
Ilinor
ilnck antl flr i tc
l;pots/linc
C o rtrr a s t s p oI s /
I irtc
l ) r r s l , f o r n i ß n m i r t e r i a l sa t t a r : l l e rol n t l r e r l i s "lllnck
nnrlVltite
; r l i r y s r r r l ' i r t : ci s r l e fi l t r : r la s
"CtrnLrnsI
s p o t s / li n e s " i n 0 . 5 .
s p o t / l i n c s "o r
l f t h r : l ; tr:n a t e r i n l i s e i t s i l y v i p e r l o l l , t l r e y
s l r r t rI rr l l r t : r li s r c l l a r r le t l .
llinor
l ) i s p l r r yc . o l o r , /
N e v t o nr i n ß
* l ) i s t i r r c l r li s p l l l y ( : o l o r t t n e v e l t e s sn n t l n e v L o n
Ilinor
r i rtu.
- 3 3 -
0.5 0pernll,ional
Clnss
D e s c r i p ito n
Iten
N r r r l i s DI n y , I l t rI f r r n cI i o n
llo io r
l l i r ; s i n t li . i n c , r n i s s i n gp i x c l
I l nj o r
I ' i r r l r n l c / p nl ,t e r r lr l c f r l r m a t i t r lnn r g e r
t l r i r r r0 . 3 n r r n
llirror
l \ b n r r r r n i rfl I i c k c r i r t g / [ a v i t r g t t b s e r v e t l
lli rtor
l l n i fo r n rti y
1 1 6fio r m it y o f l r n c k g r o r r r r r l , / r l i s p l a y
Ilinor
llltrck,fltite nnrl
l l r i g h Ls p o t s / l i n e
* A v c r n t i cr l i n n r e t e r ( m m ) r \ c c e p I n l r l N
e o.
l)90.2
neßlecl
0.2<090.3
NSs
0.3<l)
ll:0
*l,incvirllh(mrn)
l.ength(mm)
goorl
I 5 0 .0 3
n e ßl e c t
0.03<ts0.05
t,52
Ng5
l,gl
0.05<[<0.0'l
Ngs
llinor
Qrrality
(r
l l ol e ' )
C o r r I r a s st p o t s /
I i nes
( l r l r c o r tI r n s I
spols/lincs,
t l e f c c I so f
reflec.lor)
llrrlc(rr)
I
I
I
* Ä v e r a g er l i a m e l c r
l \ c c e p L r h l eN n .
I r< 0 . 5 ( m m )
0,5<l)91.0
1.0<l)
* C o n t r i r s lti n e v i r l t h
Y5 0 . 0 5( r n m )
0.05<V90.0'l
goorl
N<ir
N=0
e o.
l . e n f l - l r A c c e p t n h lN
gooll
n c gI e cl
,
1.52.0(mmN
) S5
,
Ili rtor
llinor
CurrenL
Consum
I ip
ort
0 r r I n f s p e r : iifc . a t i o n s
C o n t r a s rt n t i o /
v i e r i n go n g l e
0 u t n l s p e cfi i c a L i o n s
l l e s p o n s et i m e
0 r r Lo f s J r c cf ii c a l i o r t s
llinor
I n r : kl i g l rl
N o b n c kI i g l rLi r t t :
llajor
l J r r i l o r n r i toyf l r a c kilS h L h r i g l r I t t e s s
Ilinor
N o l e ( r { )' A v e r a l l et li i n t e t c r l ) i s r l c fi t t e t ln s f o l l o v s :
a
l) -'
- 3 4 -
t 0
R I i L lr A n l l .
I'1'Y
I
T h e l , C Dm t r r tll e s l r aI I l t t t v c n o f u i l t r r c i l t l l r e f o l I o v i n g r e l i n b i t i t y l e s L s .
'Icsl
Tcst I tcm
lli glr
'[ernpe
rttlttrc Slo r-allrl
l , o r T c m p er t r I r tr r : S I t rr i r 1 1 t :
CttrttliIions
0 0 " C ,2 0 0 h r s
- 2 0 " C ,2 0 0 h r s
t
l l u ni rr li t y S l t t r i r t l c
6 0 " C , ? 0 x l l l l ,2 0 0 l t r s
l l i g l r l ' e r n prea I t tr e 0 1 t cr a I i o t t
5V
. ,200ltrs
5 0 " C ,V o u = 0
l . o r T e m p ren I t t r c 0 p e r l l i o n
T e n p e r n t u rC
c Yc
,
0'C,Vnn=5.0V,2001trs
-20'c =
2 hr .
i n.
30m
,
{]0'c
2lrr.
t
o
5 cycles
I
icnI Slrock
Ilechnn
50 C , 20 m s
X . Y , Zr : a r : rhl ir e c l i o n s (I t i r n e )
I l c c l r ni nc nI Vi l rr r rI 'i o n
l 0 r o2 5 0r o l 0 l t zs t e e D ,0 . 5 0 , 3 0 mi n r t e s
X,Y,7e
, a c h r l ir e c t i o n s
nf r a t e r o n t l t c m o t l r r l c .
N o I e l . T l r c n r o t l r r l sc l r r t r r l rrlr o I l r i r v cc o r r r l c n s a t i o o
t l g L e 2 . ' l ' l r c n r o r l r r l sc l r r r r r l. rhl c i n s p c c I c r lt r f l e r I l t o r t r s I o r n g e i n n o r m t t l
, 5t o f i 5 X R l l )
c o n ril t i o n s ( l 5 t o 3 5 ' C 4
i e l r o p c I t t t : o r r e c l l . l t c s tr:l i s c . r i p t i r r na s f o l l o r s :
l . C r r r r c n I t : o n s t r m p t i t titst m o r c l - l t a tst p e c if i e t l v a l t t e .
;
2 . l i r r n c t i o tttr f t l r c m t t t l t r l ics t t o l m a i n t a i l t e r l .
S . T l r e r ci s v i s i l r l c r l t : l l r i r r l i r I i o fn i r p p e r n n c nc t t t lr l i s p l n y q t t a l i L y .
vBllle.
4 . C n n L r a s Lr a t i o i s l c s s L l r n n5 0 X o f s p c c i f i e r l m i n i m r r m
v0lue.
S . l l r i g h I r r c s iss l e s s t l r a n5 0 x o f s p e c i f i e t lm i n i m u m
IITTF
: l . C DI l ot l r rI c
5 0 0 0 0 h r( l , y p )
- 3 5 -
I
TI . W A R I T A N T Y
ll. I
I n c o m i n gl n s P e c t i o n
C u s t o m e lr r a s l h c r i g h L l o p c r f o r m i n c o m i n g i n s p e c t i o n f o r t h e l o l t a c c e p N S C, ' v i t l l r i na m o n l h
L a n c e / r e j e c t i o n . l , t l l r e j c c t i r r n s l t o rlrd l l e i n f o r m e r l t o
l
f r o m t l r e s h i n r ri n ß r l at - c .
C r r s t o m ea rl s o h a s l h e r i g h [ ! o r e j c c t a n y i n t l i v i d u a l d i s p l a y t h a , t t l o e s
n o t f u n c ti o n p r o p c r l y , u r t l o e sn o I n e c l t a n i c al yl f i t o r d o e s n 0 L m e e t c o s m e t i c s p e c i i i c a t i o nr l c s c r i l r e ri nl t l r i s s p e c i fi c a t i o n .
I
l l . 2 l a r r a n L yI ' e r i o t l
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