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T6963TOSN/a146avaiCMOS DIGITAL INTEGRATED CIRCUIT (DOT MATRIX LCD CONTROL LSI)


T6963 ,CMOS DIGITAL INTEGRATED CIRCUIT (DOT MATRIX LCD CONTROL LSI)The T6963C is an LCD controller designed to be used with LCD control driver LSIs and data display ..
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T6963
CMOS DIGITAL INTEGRATED CIRCUIT (DOT MATRIX LCD CONTROL LSI)
TOSHIBA T6963C
TOSHIBA CMOS DIGITAL INTEGRATED CIRCUIT SILICON MONOLITHIC
T6963C
DOT MATRIX LCD CONTROL LSI
The T6963C is an LCD controller designed to be used
with LCD control driver LSls and data display memories.
The device has an 8-bit parallel data bus and control
lines for reading or writing through an MPU interface. It
can be directly connected to a TMPZ-80.
It has a 128-word character generator ROM which can
control an external display RAM of up to 64 Kbytes.
Allocation of text, graphics and external character
generator RAM can be made easily and the display
window can be moved freely within the allocated
memory range.
The device supports a very broad range of LCD formats QFP67-P-1420-0.80
by allowing selection of different combinations via a set Weight: 1.2g (typ.)
of programmable inputs. It can be used in text, graphic
and combination text-and-graphic modes, and includes
various attribute functions.
FEATURES
0 Display format (pin-selectable)
Columns : 32, 40, 64, 80
Lines : 2, 4, 6, 8, 10, 12, 14, 16, 20, 24, 28, 32
The combination of number of columns and number of lines must not cause the frequency to
exceed 5.5 MHz. (See Fig. 2)
0 Character font (pin-selectable)
Horizontal dots: 5, 6, 7, 8
Vertical dots : 8 (fixed)
It is necessary to set a character font in Graphic mode just as in Text mode. The oscillation
frequency does not change with the font selection.
0 Display duty : 1/16 to 1/128
0 A 128-word character generator ROM (code 0101) T6963C-0101 is built in as standard.
980910EBA1
OTOSHIBA is continually working to improve the quality and the reliability of its products. Nevertheless, semiconductor
devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress.
It is the responsibility of the buyer, when utilizing TOSHIBA products, to observe standards of safety, and to avoid
situations in which a malfunction or failure of a TOSHIBA product could cause loss of human life, bodily injury or
damage to property. In developing your designs, please ensure that TOSHIBA products are used within specified
operatin ranges as set forth in the most recent products specifications. Also, please keep in mind the precautions
and con itions set forth in the TOSHIBA Semiconductor Reliability Handbook.
OThe products described in this document are subject to the foreign exchange and foreign trade laws.
OThe information contained herein is presented only as a guide for the applications of our products. No responsibility
is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other rights of the third
parties which may result from its use. No license is granted by implication or otherwise under any intellectual
property or other rights of TOSHIBA CORPORATION or others.
OThe information contained herein is subject to change without notice.
1998-10-20 1/46
TOSHIBA T6963C
It External display memory : 64 KB max
The addresses in display memory of the text area, graphic area and external character generator
area are determined by software.
0 Read or Write operations from the CPU do not disturb the display.
0 A crystal oscillator circuit is built in. The oscillation frequency is adjusted according to the display
size. If using an external clock, use the XI pin as the clock input. (X0 open.)
External capacitors Crystal oscillation : 20 to 30 pF
Ceramic oscillation : 30 to 100 pF
Built-in feedback resistor : 900 k0 (typ.)
It Toshiba LCD driver LSIs (other than these with a built-in RAM) can be connected to the device.
0 External display RAM must be static RAM. The T6963C cannot refresh D-RAM.
o The attribute functions can only be used in Text mode. They cannot be used in Graphic or
Combination Character mode.
BLOCK DIAG RAM
ad0 to ad15 (TO/FROM RAM) do to d7 (TO/FROM RAM)
TEXT GRAPHIC ADDRESS CG RAM DATA RAM DATA
POINTER POINTER POINTER REGISTER LATCH BUFFER
GRAPHIC
CG ROM DATA LATCH I
f DISPLAY
COPY INTERNAL ARITHMETIC CURSOR SELECTOR
CONTROL RAM CIRCUIT l I CONTROL -l
_1 CURSOR DATLEflTCH
POINTER
ADDRESS DATA - SERIALIZER
CONTROL CONTROL
STATUS INSTRUCTION DATA DATA DATA OSC - TIMING - LCD TIMING LCD DATA
BUFFER LATCH LATCH BUFFER STACK , CONTROL GENERATOR CONTROL
D0 to D7 (TO/FROM CPU) XI xo CDATA, LP, FR, ED, HOD, LOD
HSCP, LSCP
1998-10-20 2/46
TOSHIBA T6963C
PIN ASSIGNMENT
1§§Q§E%EEEE%§%%%%H%%%;%
géfiuééAAfi-flAAAA-fiJ-Auzfifiuz;
54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
CDATA 56
FR 57 32 Jec
CH1 58 31 [Ir/w
CH2 59 30 []d7
DSOPN 60 T6963C 29 Ude
VDD 61 28 Tds
(TOP VIEW)
SDSEL 62 27 [|va
vss 63 26 Ida
E 64 25 ld?
F, 65 24 Jd2
XI 66 23 Tdl
x0 67 22 Ido
10 11 12 13 14 15 16 17 18 19
_ r- m O .- N m CD T" 0 T" N m 'ct lh U) Ps cc a u: Q
lg E g g g g g 'dl LI' Ct D a a a Ct D Q I; III Ity, a
PIN FUNCTIONS
PIN NAME l/O FUNCTIONS
Pins for selection of LCD size
DUAL H H H H H H H H L L L L L L L L
MDS L L L L H H H H L L L L H H H H
MDS MD1 H H L L H H L L H H L L H H L L
mg? Input MDO H L H L H L H L H L H L H L H L
LINES 2 4 6 8 10 12 14 16 4 8 12 16 20 24 28 32
V-DOTS 16 32 48 64 80 96 112 128 32 64 96 128 160 192 224 256
1 SCREEN 2 SCREENS
MD2 MD2 H L H L
MD3 Input Pins for selection of number of columns MD3 H H L L
Columns 32 40 64 80
FSO FSO H L H L
FS1 Input Pins for selection of font FS1 H H L L
Font 5x8 6x8 7x8 8x8
D0 to D7 I/O Data I/O pins between CPU and T6963C (D7 is MSB)
W/iT Input Data Write. Write data into T6963C when WA=L.
W Input Data Read. Read data from T6963C when AB=L.
CE Input Chip Enable for T6963C. E must be L when CPU communicates with T6963C.
1998-10-20 3/46
TOSHIBA T6963C
PIN NAME l/O FUNCTIONS
C/D Input EH =L ...... C/D=H : Command Write C/D=L : Data Write
RD =L ...... C/D=H : Status Read C/D=L : Data Read
W Input H ...... Normal, L ...... Stops the oscillation of the clock
H ...... Normal (T6963C has internal puII-up resistor)
FEET Input L ...... Initialize T6963C. Text and graphic have addresses and text and graphic
area settings are retained.
Control in for external DC/DC. DSPON is L when HALT is L or RESET is L.
DSPON Output (When DpSPON goes H, the column drivers are cleared.)
- H ...... Sin Ie-Scan DUAL H H L L
DUAL Input L ...... Dugl-Scan SDSEL H L H L
H ...... Sending data by odd/even separation
L ...... Sending data by simple serial method
SDSEL Input Upper screen HOD, ED ED HOD, ED ED
Lower screen - - LOD, ED ED
@ m at m=H Chip enable pin for display memory in the address range
(LOD) Output - Ploy to 07FFH .
LOD at DUAL=L Serial data output for odd columns In lower area of LCD
ce_1 at "15i.TgTL"=H Chip enable pin for display memory in the address range
a Output - 0800H to OFFFH
(LSCP) LSCP at DUAL=L Shift clock pulse output for column drivers in lower area of
c? Output Chip enable pin for display memory of any address
do to d7 l/O Data l/O pins for display memory
ado to Output Address outputs for display memory
ad15 (ad15=L : for upper area of LCD, ad15=H : for lower area of LCD)
R/W Output Read/Write signal for display memory
ED Output E=H : Data output for even columns in both upper and lower areas of LCD
SDSEL=L : Data output for columns in both upper and lower areas of LCD
HOD Output Data output for odd columns in upper area of LCD
CDATA Output Synchronous signal for row driver
HSCP Output Shift clock pulse for column driver of upper area of LCD
LP Output Latch pulse for column driver. Shift clock pulse for row driver
FR Output Frame signal
XI Input Crystal oscillator input
X0 Output Crystal oscillator output
CH1, CH2 Output Check signal
TT, TQ Input Test input. Usually open
VDD - Power supply (5.0V)
l/SS - Power supply (0V)
1998-10-20 4/46
TOSHIBA T6963C
FUNCTIONAL DEFINITION
After power on, it is necessary to reset. RESET is kept L between 5 clocks up (oscillation clock).
When HALT=L, the oscillation stops. The power supply for the LCD must now be turned off, to
protect the LCD from DC bias.
The HALT function includes the RESET function.
The column/line counter and display register are cleared by RESET. (Other registers are not
cleared.) Disable the display using the clear-display register.
The status must be checked before data or commands are sent. The MSB=0 status check must be
done in particular. There is a possibility of erroneous operation due to a hard interrupt.
STAO and STA1 must be checked at the same time. When a command is executed, data transmission
errors may occur.
The T6963C can only handle one byte per machine cycle (16 clocks). It is impossible to send more
than two data in a machine cycle.
When using a command with operand data, it important to send the data first, and then execute
the command.
The character codes used by the T6963C are different from ASCII codes.
1998-10-20 5/46
TOSHIBA
It State after RESET/HALT (Fig. I)
TERMINAL HALT RESET
D0 to D7 F F
do to d7 F F
r/w H H
E H (Note 1) H (Note 1)
ado to ad15 H (Note 2) H (Note 2)
256,251 H (Note 1) H (Note 1)
ED, HOD Final data Final data
HSCP L L
LP L L
CDATA H H
FR H H
CH1 L K0
CH2 L VEND
DSPON L L
X0 H OSC clock
H : Level H
L : Level L
F : Floating (high impedance)
K0 : Test signal
VEND : Test signal
(Note 1) : In Attribute mode, H or L according to state of graphic pointer
(Note 2) : In Attribute mode, data of graphic pointer
T6963C
1998-10-20 6/46
TOSHIBA T6963C
It The relationship between number of row/column and oscillation clock (Fig. 2)
The frequency of the crystal oscillator is adjusted by the following formula.
fOSC: Frequency of oscillation
fscp : Frequency of shift clock (fscp=fosc/2)
fR : Frequency of Frame
M : Number of characters on one line (number of dots on one |ine=8M)
For all font sizes (e.g. 7x8, 6x8, 5x8) the oscillation frequency remains constant.
N : Number of rows (duty=1/8N)
8M 8N 1
fscp x - fR
fosc=fRx64x2xMxN
(fR=60 Hz)
UNIT: [MHz]
N M 32 40 64 80 duty
0.492 0.614 0.983 1.229
2 1 /16
0.983 1.229 1.966 2.458
0.983 1.229 1.966 2.458
4 1.966 2.458 3.932 4.915 1/ 32
1.475 1.843 2.949 3.686
6 2.949 3.686 5.898 7.372 1 /48
8 1.966 2.458 3.932 4.915 1/64
3.932 4.915 7.864 9.830
2.458 3.072 4.915 6.144
10 4.915 6.144 9.830 12.288 1/80
2.949 3.686 5.898 7.373
12 5.898 7.373 11.776 14.746 1/96
14 3.440 4.300 6.881 8.602 1/112
6.881 8.601 13.763 17.203
3.932 4.915 7.864 9.830
16 7.864 9.830 15.729 19.660 1/128
. Upper
(Note 1) Upper ... Single-Scan, lower ... Dual-Scan at fR=60 Hz Lower
1998-10-20 7/46
TOSHIBA
It RAM Interface
T6963C
The external RAM is used to store display data (text, graphic and external CG data).
With single-scan, text data, graphic data and external CG data can be freely allocated to the
memory area (64 KB max).
With dual-scan, LCDI is allocated to 0000H to 7FFFH (32 KB max), LCDII is allocated to 8000H to
FFFFH (32 KB max). Text data, graphic data and external CG data can be freely allocated in LCDI .
In LCDII, the same addresses must be allocated as in LCDI ' except ad15. ad15 determines selection
of LCDI or LCDII.
It can be use the address decoded signals cs-so (0000 to 07FFH), ct-sl (0800 to OFFFH) within 4 KB.
ce-O and ce_1 allow decoding of addresses in the ranges (0000 to 07FFH) and (0800 to OFFFH)
respectively within a 4-KB memory space.
(Example)
(1) Single-Scan (2) Dual-Scan
OOOOH OOOOH
TEXT 3FFFH
GRAPHIC
CG RAM
7FFFH 7FFFH
GRAPHIC
AREA CG : Character Generator
CG RAM
GRAPHIC
CG RAM
1998-10-20 8/46
TOSHIBA T6963C
o Flowchart of communications with MPU
(1) Status Read
A status check must be performed before data is read or written.
Status check
The Status of T6963C can be read from the data lines.
"ih7k- H
tTi"? L
D0 to D7 Status word
The T6963C status word format is as follows:
MSB LSB
STA7 STA6 STA 5 STA4 STA3 STA2 STA1 STAO
D7 D6 D5 D4 D3 D2 D1 D0
STAO Check command execution capability 0 : Disable
1 : Enable
. ... 0 : Disable
STA1 Check data read/write capability 1 : Enable
STA2 Check Auto mode data read capability 0 : Disable
1 : Enable
STA3 Check Auto mode data write capability 0 : Disable
1 : Enable
STA4 Not used
. ... 0 : Disable
STAS Check controller operation capability 1 : Enable
Error flag. Used for Screen Peek and Screen 0 : No error
copy commands. 1 : Error
. . . 0 : Display off
STA7 Check the blink condition .
1 : Normal display
(Note 1) It is necessary to check STAO and STA1 at the same time.
There is a possibility of erroneous operation due to a hardware
interrupt.
(Note 2) For most modes STAO/STA1 are used as a status check.
(Note 3) STA2 and STA3 are valid in Auto mode; STAO and STA1 are
invalid.
1998-10-20 9/46
TOSHIBA T6963C
Status checking flow
l STATUS ) l AUTO MODE STATUS )
'l (*1)
NO ( ) NO $TA2=1 (Read)
STA3=1 (Write)
YES YES
RETURN ( RETURN )
(Note 4) When using the MSB=0 command, a Status Read must be performed.
If a status check is not carried out, the T6963C cannot operate normally, even
after a delay time.
The hardware interrupt occurs during the address calculation period (at the end of
each line).
If a MSB =0 command is sent to the T6963C during this period, the T6963C enters
Wait status.
If a status check is not carried out in this state before the next command is sent,
there is the possibility that the command or data will not be received.
(2) Setting data
When using the T6963C, first set the data, then set the command.
Procedure for sending a command
a) The case of 1 data
Send Command
b) The case of 2 data
Send Command
Status check
Data write
Status check
Command write
STAO, 1
Status check
Data write
Status check
Data write
Status check
Command write
(Note) When sending more than two data, the last datum (or last two data) is valid.
STAO, 1
1998-10-20 10/46
TOSHIBA
T6963C
COMMAND DEFINITIONS
COMMAND CODE DI D2 FUNCTION
00100001 X address Y address Set Cursor Pointer
REGISTERS SETTING 00100010 Data 00H Set Offset Register
00100100 Low address High address Set Address Pointer
01000000 Low address High address Set Text Home Address
01000001 Columns 00H Set Text Area
SET CONTROL WORD 01000010 Low address High address Set Graphic Home Address
01000011 Columns 00H Set Graphic Area
1000X000 - - OR mode
1000X001 - - EXOR mode
1000X011 - - AND mode
MODE SET 1000X100 - - Text Attribute mode
10000XXX - - Internal CG ROM mode
10001XXX - - External CG RAM mode
10010000 - - Display off
1001XX10 - - Cursor on, blink off
1001XX11 - - Cursor on, blink on
DISPLAY MODE 100101XX - - Text on, graphic off
100110XX - - Text off, graphic on
100111XX - - Text on, graphic on
10100000 - - 1-Iine cursor
10100001 - - 2-Iine cursor
10100010 - - 3-Iine cursor
CURSOR PATTERN 10100011 - - 4-Iine cursor
SELECT 10100100 - - 5-Iine cursor
10100101 - - 6-Iine cursor
10100110 - - 7-Iine cursor
10100111 - - 8-line cursor
10110000 - - Set Data Auto Write
angEAUTO READ/ 10110001 - - Set Data Auto Read
10110010 - - Auto Reset
11000000 Data - Data Write and Increment ADP
11000001 - - Data Read and Increment ADP
11000010 Data - Data Write and Decrement ADP
DATA READ/WRITE 11000011 - - Data Read and Decrement ADP
11000100 Data - Data Write and Nonvariable ADP
11000101 - - Data Read and Nonvariable ADP
SCREEN PEEK 11100000 - - Screen Peek
SCREEN COPY 11101000 Screen Copy
X : invalid
1998-10-20 11/46
TOSHIBA T6963C
COMMAND CODE DI D2 FUNCTION
11110XXX - - Bit Reset
11111XXX - - Bit Set
1111X000 - - Bit 0 (LSB)
1111X001 - - Bit 1
1111X010 - - Bit 2
BIT SET/RESET 1111X011 - - Bit 3
1111X100 - - Bit 4
1111X101 - - Bit 5
1111X110 - - Bit 6
1111X111 - - Bit 7 (MSB)
X : invalid
0 Setting registers
CODE HEX. FUNCTION D1 D2
00100001 21H SET CURSOR POINTER X ADRS Y ADRS
00100010 22H SET OFFSET REGISTER DATA 00H
00100100 24H SET ADDRESS POINTER LOW ADRS HIGH ADRS
(1) Set Cursor Pointer
The position of the cursor is specified by X ADRS and Y ADRS. The cursor position can only be
moved by this command. Data read/write from the MPU never changes the cursor pointer. X
ADRS and Y ADRS are specified as follows.
X ADRS 00H to 4FH (lower 7 bits are valid)
Y ADRS 00H to 1FH (lower 5 bits are valid)
a) Single-Scan b) Dual-Scan
X ADRS 00 to 4FH X ADRS 00H to 4FH
Y ADRS 00H to OFH
Y ADRS 00H to OFH Upper screen
Y ADRS 10H to 1FH
Lower screen
(2) Set Offset Register
The offset register is used to determine the external character generator RAM area.
The T6963C has a 16-bit address bus as follows:
MSB LSB
|ad15|ad14|ad13|ad12|ad11|ad10| ad9 l ad8 I ad7 l ad6 l ad5 l ad4 l ad3 l ad2 l ad1 I ado I
I I I I
Offset Register Data Character Code Line Scan
1998-10-20 12/46
TOSHIBA T6963C
T6963C assign External character generator, when character code set 80H to FFH in using
internal character generator. Character code 00H to 80H assign External character generator,
when External generator mode.
The senior five bits define the start address in external memory of the CG RAM area. The next
eight bits represent the character code of the character. In internal CG ROM mode, character
codes 00H to 7FH represent the predefined "internal" CG ROM characters, and codes 80H to FFH
represent the user's own "external" characters. In external CG RAM mode, all 256 codes from
00H to FFH can be used to represent the user's own characters. The three least significant bits
indicate one of the eight rows of eight dots that define the character's shape.
The relationship between display RAM address and offset reqister
Offset register data CG RAM hex. address (start to end)
00000 0000 to 07FFH
00001 0800 to 0FFFH
00010 1000 to 17FFH
11100 E000 to E7FFH
11101 E800 to EFFFH
11110 F000 to F7FFH
11111 F800 to FFFFH
(Example 1)
Offset register 02H
Character code 80H
Character generator RAM start address 0001 0100 0000 0000
1 4 0 0 H
(address) (data)
1400H 00H
1401H 1FH
1402H 04H
1403H 04H
1404H 04H
1405H 04H
1406H 04H
1407H 00H
(Example 2) The relationship between display RAM data and display characters
(RAM DATA) (Character)
AByDEtGHUKLM 21H A
i 22H B
l 83H y
E 24H D
Display character 86H ,
y and t are displayed by character generator RAM.
1998-10-20 13/46
TOSHIBA
(3) Set Add ress Pointer
T6963C
The Set Address Pointer command is used to indicate the start address for writing to (or reading
from) external RAM.
The Flowchart for Set Address Pointer command
Set Address Pointer
Status check
Set Address data
(lower 8 bits)
Status check
Set Address data
(upper 8 bits)
Status check
Send command 24H
STAO, 1
Send Set Address Pointer command
It Set Control Word
CODE HEX. FUNCTION D1 D2
01000000 40H Set Text Home Address Low address High address
01000001 41H Set Text Area Columns 00H
01000010 42H Set Graphic Home Address Low address High address
01000011 43H Set Graphic Area Columns 00H
The home address and column size are defined by this command.
1998-10-20 14/46
TOSHIBA
(1) Set Text Home Address
The starting address in the external display RAM for text display is defined by this command.
The text home address indicates the leftmost and uppermost position.
The relationship between external display RAM address and display position
TH TH +CL
TH+TA TH+TA+CL
(TH+TA)+TA TH+2TA+CL
(TH +2TA) +TA TH +3TA+CL
TH+(n-1) TA
TH + (n-1) TA +CL
TH : Text home address
TA : Text area number (columns)
CL : Columns are fixed by hardware (pin-programmable).
(Example)
Text home address : OOOOH
Text area : 0020H
MD2=H, MD3=H : 32 columns
DUAL=H, MDS=L, MDO=L, MD1=H : 4 lines
OOOOH 0001H 001EH 001FH
0020H 0021H 003EH 002FH
0040H 0041H OOSEH 005FH
0060H 0061H 007EH 007FH
(2) Set Graphic Home Address
The starting address of the external display RAM used for graphic display is defined by this
command. The graphic home address indicates the leftmost and uppermost position.
The relationship between external display RAM address and display position
GH GH+CL
GH+GA GH+GA+CL
(GH+GA)+GA GH+2GA+CL
(GH +2GA) +GA GH +3GA+CL
GH+(n-1) GA GH+(n-1) GA+CL
GH : Graphic home address
GA : Graphic area number (columns)
CL : Columns are fixed by hardware (pin-programmable).
T6963C
1 5/46
TOSHIBA
T6963C
(Example)
Graphic home address : 0000H
Graphic area : 0020H
MD2=H, MD3=H : 32 columns
"1507rL--H, MDS=L, MDO=H, MD1=H :2 lines
OOOOH 0001H 001EH 001FH
0020H 0021H 003EH 003FH
0040H 0041H 005EH 005FH
0060H 0061H 007EH 007FH
0080H 0081 H 009EH 009FH
OOAOH 00A1H OOBEH OOBFH
OOCOH 00C1H OODEH 00DFH
OOEOH 00E1H OOFEH OOFFH
0100H 0101H 011EH 011FH
0120H 0121H 013EH 013FH
0140H 0141H 015EH 015FH
0160H 0161H 017EH 017FH
0180H 0181H 019EH 019FH
O1AOH 01A1H 01BEH O1BFH
01COH 01C1H 01DEH 01DFH
01EOH 01E1H 01FEH 01FFH
(3) Set Text Area
The display columns are defined by the hardware setting. This command can be used to adjust
the columns of the display.
(Example)
LCD size : 20 columns, 4 lines
Text home address : 0000H
Text area : 0014H
MD2=H, MD3=H : 32 columns
m=H, MDS=L, MDO=L, MD1=H :4 lines
0000 0001 ......... 0013 0014 ......... 001F
0014 0015 ......... 0027 0028 ......... 0033
0028 0029 ......... 003B 003C ......... 0047
003C 003D ......... 004F 0050 ......... 005B
|—. LCD .—|
1998-10-20 16/46
TOSHIBA T6963C
(4) Set Graphic Area
The display columns are defined by the hardware setting. This command can be used to adjust
the columns of the graphic display.
(Example)
LCD size : 20 columns, 2 lines
Graphic home address : OOOOH
Graphic area : 0014H
MD2=H, MD3=H : 32 columns
DUAL=H, MDS=L, MDO=H, MD1=H : 2 lines
0000 0001 ......... 0013 0014 ......... 001F
0014 0015 ......... 0027 0028 ......... 0033
0028 0029 ......... 0033 003C ......... 0047
003C 0030 ......... 004F 0050 ......... 0053
0050 0051 ......... 0063 0064 ......... 006F
0064 0065 ......... 0077 0078 ......... 0083
0078 0079 ......... 008B 008C ......... 0097
008C 008D ......... 009F 00A0 ......... 00AB
00A0 00A1 ......... 0033 0034 ......... OOBF
0034 0035 ......... 00c7 oocs ......... 0003
00C8 00C9 ......... 0003 OODC ......... 00E7
OODC 0000 ......... OOEF OOFO ......... OOFD
OOFO 00F1 ......... 0103 0104 ......... O11F
0104 0105 ......... 0127 0128 ......... 0123
0128 0129 ......... 0133 013C ......... 0147
013C 0130 ......... 014F 0150 ......... 0153
I-- LCD -1
If the graphic area setting is set to match the desired number of columns on the LCD, the
addressing scheme will be automatically modified so that the start address of each line equals
the end address of the previous line +1.
1998-10-20 17/46
TOSHIBA T6963C
0 Mode set
CODE FUNCTION OPERAND
1000X000 OR Mode -
1000X001 EXOR Mode -
1000X011 AND Mode -
1000X100 TEXT ATTRIBUTE Mode -
10000XXX Internal Character Generator Mode -
10001XXX External Character Generator Mode - X : invalid
The display mode is defined by this command. The display mode does not change until the next
command is sent. The logical OR, EXOR, AND of text or graphic display can be displayed.
In Internal Character Generator mode, character codes 00H to 7FH are assigned to the built-in
character generator ROM. The character codes 80H to FFH are automatically assigned to the
external character generator RAM.
(Example)
GRAPHIC TEXT
"OR" AND EXOR
(Note) Attribute functions can only be applied to text display, since the attribute data is
placed in the graphic RAM area.
1998-10-20 18/46
TOSHIBA T6963C
Attribute function
The attribute operations are Reverse display, Character blink and Inhibit. The attribute data is
written into the graphic area which was defined by the Set Control Word command. Only text
display is possible in Attribute Function mode; graphic display is automatically disabled. However,
the Display Mode command must be used to turn both Text and Graphic on in order for the
Attribute function to be available.
The attribute data for each character in the text area is written to the same address in the
graphic area. The Attribute function is defined as follows.
AttributeRAM1byte I X l X I X I X ld3ld2ld1ldol
d3 d2 d1 d0 FUNCTION
0 0 0 0 Normal display
0 1 0 1 Reverse display
0 0 1 1 Inhibit display
1 0 0 0 Blink of normal display
1 1 0 1 Blink of reverse display
1 0 1 1 Blink of inhibit display X : invalid
o Display mode
CODE FUNCTION OPERAND
10010000 Display off -
1001XX10 Cursor on, blink off -
1001XX11 Cursor on, blink on -
100101XX Text on, graphic off -
100110XX Text off, graphic on -
100111XX Text on, graphic on - X 5 invalid
l1l0l0l1lD3lD2lD1lD0l
Cursor blink on : I, off : 0
Cursor display on : I, off : 0
Text display on : 1, off : 0
Graphic display on : 1, off : 0
(Note) It is necessary to turn on "Text display' and "Graphic display" in the following
cases.
a) Combination of text/graphic display
b) Attribute function
1998-10-20 19/46
TOSHIBA T6963C
o Cursor pattern select
CODE FUNCTION OPERAND
10100000 1-Iine cursor -
10100001 2-line cursor -
10100010 3-Iine cursor -
10100011 4-line cursor -
10100100 5-line cursor -
10100101 6-Iine cursor -
10100110 7-line cursor -
10100111 8-line cursor -
When cursor display is ON, this command selects the cursor pattern in the range 1 line to 8 lines.
The cursor address is defined by the Cursor Pointer Set command.
I-line cursor 2-line cursor 8-line cursor
o Data Auto Read/Write
CODE HEX. FUNCTION OPERAND
10110000 BOH Set Data Auto Write -
10110001 B1H Set Data Auto Read -
10110010 B2H Auto Reset -
This command is convenient for sending a full screen of data from the external display RAM. After
setting Auto mode, a Data Write (or Read) command is need not be sent between each datum. A
Data Auto Write (or Read) command must be sent after a Set Address Pointer command. After this
command, the address pointer is automatically incremented by 1 after each datum. In Auto mode,
the T6963C cannot accept any other commands.
The Auto Reset command must be sent to the T6963C after all data has been sent, to clear Auto
1998-10-20 20/46
TOSHIBA
A Status check for Auto mode
(STA2, STA3 should be checked between sending of each datum. Auto Reset should be
performed after checking STA3=1 (STA2 =1). Refer to the following flowchart.
a) Auto Read mode
Auto read start
Set Address Pointer
Status check 1
Auto read B1 H
Status check 2
Data read
Status check 2
Data read
Status check 2
Auto reset B2H
Set Address Pointer
Status check 1
Set Address data
(lower 8 bits)
Status check 1
Set Address data
(upper 8 bits)
Status check 1
Set Address Pointer
STAO, 1
Repetition
STAO, 1
Auto write start
Set Address Pointer
Status check 1
Auto write BOH
Status check 2
Data write
Status check 2
Data write
Status check 2
Auto reset B2H
1 Status check 1 1
NO TAO = ' NO
TA1 = l?
b) Auto Write mode
STAO, 1
Repetition
Status check 2
RETURN
Send Set Address Pointer command
TA2=1,
TA3--112
RETURN
1998-10-20 21/46
T6963C
TOSHIBA
T6963C
It Data Read /Write
CODE HEX. FUNCTION OPERAND
11000000 COH Data Write and Increment ADP Data
11000001 C1H Data Read and Increment ADP -
11000010 C2H Data Write and Decrement ADP Data
11000011 C3H Data Read and Decrement ADP -
11000100 C4H Data Write and Nonvariable ADP Data
11000101 CSH Data Read and Nonvariable ADP -
This command is used for writing data from the MPU to external display RAM, and reading data
from external display RAM to the MPU. Data Write/Data Read should be executed after setting
address using Set Address Pointer command. The address pointer can be automatically incremented
or decremented using this command.
(Note) This command is necessary for each 1-byte datum.
Refer to the following flowchart.
Data write start
Set Address Pointer
Status check 1
Set write data
Status check 1
Data write COH
(Example)
Address pointer=1000H
STAO, 1
(Example)
Data = AAH
AAH is written in 1000H address.
Address pointer is 1001H.
1998-10-20 22/46
TOSHIBA T6963C
It Screen Peek
CODE HEX. FUNCTION OPERAND
11100000 EOH Screen Peek -
This command is used to transfer 1 byte of displayed data to the data stack; this byte can then be
read from the MPU by data access. The logical combination of text and graphic display data on the
LCD screen can be read by this command.
The status (STA6) should be checked just after the Screen Peek command. If the address determined
by the Set Address Pointer command is not in the graphic area, this command is ignored and a
status flag (STA6) is set.
Refer to the following flowchart.
Set Address Pointer
Status check 1 STAO, 1
Screen peek EOH
No-arctic:::..).., (*) Status check STA6=0?
Status check 1
Data access
(Note) This command is available when hardware column number and software column
number are the same. Hardware column number is related to MD2 and MD3 setting.
Software column number is related to Set Text Area and Set Graphic Area command.
1998-10-20 23/46
TOSHIBA T6963C
0 Screen Copy
CODE HEX. FUNCTION OPERAND
11101000 E8H Screen Copy -
This command copies a single raster line of data to the graphic area.
The start point must be set using the Set Address Pointer command.
(Note 1) If the attribute function is being used, this command is not available.
(With Attribute data is graphic area data.)
(Note 2) With Dual-Scan, this command cannot be used (because the T6963C cannot separate the
upper screen data and lower screen data).
Screen copy start
Set Address Pointer
Status check 1 STAO, 1
Refer to the following flowchart.
Screen copy E8H
(*1) Status check STA6--I
(*2) Status check STAO/1 =1
(Note) This command is available when hardware column number and software column
number are the same. Hardware column number is related to MD2 and MD3 setting.
Software column number is related to Set Text Area and Set Graphic Area command.
1998-10-20 24/46
TOSHIBA
0 Bit Set/ Reset
CODE FUNCTION OPERAND
11110XXX Bit Reset -
11111XXX Bit Set -
1111X000 Bit 0 (LSB) -
1111X001 Bit 1 -
1111X010 Bit 2 -
1111X011 Bit 3 -
1111X100 Bit 4 -
1111X101 Bit 5 -
1111X110 Bit 6 -
1111X111 Bit 7 (MSB)
T6963C
- X : invalid
This command use to set or reset a bit of the byte specified by the address pointer.
Only one bit can be set/reset at a time.
Refer to the following flowchart.
B it Set / Reset
Set Address Pointer
Status check l
Set write data
Status check 1
Bit set (reset)
STAO, 1
1998-10-20 25/46
T6963C - 26
1998-10-20 26/46
CHARACTER CODE MAP
The relation between character codes and character pattern (CG ROM TYPE 0101)
0 2 3 4 5 6 7 8 9
TOSHIBA
T6963C
1998-10-20 27/46
T6963C - 27
The relation between character codes and character pattern (CG ROM TYPE 0201)
0 1 2 3 4 5 6 7 8 9
TOSHIBA
T6963C
TOSHIBA T6963C
ABSOLUTE MAXIMUM RATINGS (Ta =25°C)
ITEM SYMBOL RATING UNIT
Supply Voltage VDD (Note) -0.3 to 7.0 V
Input Voltage VIN (Note) -0.3 to VDD+0.3 V
Operating Temperature Topr -20 to 70 °C
Storage Temperature Tstg -55 to 125 °C
(Note) Referenced to Vss=OV.
ELECTRICAL CHARACTERISTICS
DC CHARACTERISTICS
TEST CONDITIONS (Unless otherwise noted, VSS=OV, VDD=5.0Vi 10%, Ta = -20 to 75°C)
ITEM SYMBOL CIR- TEST CONDITIONS MIN TYP. MAX UNIT PIN NAME
Operating Voltage VDD - - 4.5 5.0 5.5 V VDD
I H Level VIH - - VDD-2.2 - VDD V Input pins
nput L Level VIL - - o - 0.8 v Input pins
Output H Level VOH - - VDD-0.3 - VDD V Output pins
Voltage L Level VOL - - 0 - 0.3 V Output pins
Output H Level ROH - Votlr=VDD-0.5V - - 400 n Output pins
Resistance L Level ROL - VOUT=O.5V - - 400 ft Output pins
mp?” Pull-up RPU - - 50 100 200 km (Note 1)
Resistance
Operating f - - o 4 - 5 5 MHz
Frequency OSC . .
Current
. V = . V N 2
Consumption IDD(1) - f DD _53(:)MLZote ) - 3.3 6 mA VDD
(Operating) OSC" .
Current
Consumption (Halt) IDDQ) - 1/DD=5.0V - - 3 PA VDD
(Note 1) Applied TT, 'rg, RESET
(Note 2) MDS = L, MDO = L, MD1: L, MD2 = H, MD3 = H, FSO = L, F51: L, SDSEL= L, DUAL-- H,
D7 to D0=LHLHLHLH
1998-10-20 28/46
TOSHIBA
T6963C
AC CHARACTERISTICS
0 Switching Characteristics (1)
SCP rss,
TEST CONDITIONS (Unless otherwise noted, VDD=5.OVi 10%, Vss=OV, Ta = -20 to 70°C)
ITEM SYMBOL TEST CONDITIONS MIN MAX UNIT
Operating Frequency fscp Ta = -10--70''C - 2.75 MHz
SCP Pulse Width tCWH, tCWL - 150 - ns
SCP Rise/Fall Time tr, tf - - 30 ns
LP Set-up Time tLSU - 150 290 ns
LP Hold Time tLHD - 5 40 ns
Data Set-up Time tDSU - 170 - ns
Data Hold Time tDHD - 80 - ns
FR Delay Time td - 0 90 ns
CDATA Set-up Time tCSU - 450 850 ns
CDATA Hold Time tCHD - 450 950 ns
1998-10-20 29/46
TOSHIBA
T6963C
0 Switching Characteristics (2)
Bus Timing
c-e "ss,
tCE, tRD, tWR
D0 to D7 ,
(WRITE) l
D0 to D7 7
(READ) l
TEST CONDITIONS (Unless otherwise noted, VDD=5.0Vi 10%, VSS=0V, Ta = -20 to 75°C)
ITEM SYMBOL TEST CONDITIONS MIN MAX UNIT
C/D Set-up Time tCDS - 100 - ns
C/D Hold Time tCDH - 10 - ns
tTIC, AT5, "i/i/Ti' Pulse Width ttyi, tRD, tWR - 80 - ns
Data Set-up Time tDS - 80 - ns
Data Hold Time tDH - 40 - ns
Access Time tACC - - 150 ns
Output Hold Time tOH - 10 50 ns
1998-10-20 30/46
TOSHIBA T6963C
0 Switching Characteristics (3)
(1) External RAM Read mode
CLOCK(XI) s/7v/'-1c//'-1cv/-"cC1,
ado to m y
td1 td1
td2 td3
do to d7 , l-
tDs tDH
(2) External RAM Write mode
CLOCK(XI) / l WM cl,
ado to ad15 X y
td4 td5
r/w l /
tds td7
dew __< _
tda td9
1998-10-20 31/46
TOSHIBA T6963C
TEST CONDITIONS (Unless otherwise noted, VDD=5.0Vi 10%, VSS=OV, Ta = -20 to 70°C)
ITEM SYMBOL TEST CONDITIONS MIN MAX UNIT
Address Delay Time td1 - - 250 ns
c_e Fall Delay Time (Read) td2 - - 180 ns
Le Rise Delay Time (Read) td3 - - 180 ns
Data Set-up Time tDS - 0 - ns
Data Hold Time tDH - 30 - ns
c_e Fall Delay Time (Write) td4 - - 200 ns
Le Rise Delay Time (Write) td5 - - 200 ns
r/w Fall Delay Time td6 - - 180 ns
r/w Rise Delay Time td7 - - 180 ns
Data Stable Time tdg - - 450 ns
Data Hold Time tdg - - 200 ns
1998-10-20 32/46
TOSHIBA
T6963C
T6963C EXAMPLE OF APPLICATION CIRCUIT
The T6963C can be directly connected to a TMP284COOA (280 (Note 1) CMOS). The T6963C can be used
with a TMPZ84COOA as shown in the following application circuit.
It MPU memory address mapping
Data is transferred to the T6963C using a memory request signal.
ADDRESS
DATA (I / O) XXXXH
Command /Status XXXX + 1H
Address
Decoder
TC74HC244
TMPZ84CO0P T6963C
(Note 1) 280 is a trademark of Zilog Inc.
1998-10-20 33/46
TOSHIBA
It MPU I/O addressing
Data is transferred to the T6963C using an I/O request signal.
T6963C
I/O ADDRESS
DATA XXH
Command /Status XX + 1H
l 3:) Address _
l '.'', Decoder
TMPZ84CO0P
W -aDr-t=Cys-
E -cyr-=8Dr-
T6963C
1998-10-20 34/46
TOSHIBA
T6963C
It When using PPI LSI (TMP82C55)
The T6963C can be connected to a PPI LSI.
The port A connects to the data bus.
The port C connects to the control bus. (C/D,
TMPZ84CO0P
E, WR, R )
st PC7 C?
N PCS CID
U PCS -
t PC4 E
q Address CS
N Decoder
i TMP82C55 T6963C
C' D7 PA7 D7
N l I I
U I I I
I / l l / l
i 8 I l a I
- D0 PAO D0
_r-aD'- m
-=cr- E
1998-10-20 35/46
TOSHIBA
T6963C
APPLICATION CIRCUIT (1)
DO--D7
TMPZ -
84CO0P -
NV-N! - ADDRESS p,
DECODER
ad0-ad12
MDS do--d7
MDO Ce
MDI ad15
MD? HSCP
FSO CD TA
T6963C
E LSCP
C/D ED
MEMORY FOR
UPPER DISPLAY
AO-li?
f/OI JC5565
a I SRAM Y '
MEMORY FOR I I I I
LOWER DISPLAY .-rNtns;trLretx-gtes-rN s-rurns;trLirc-ates-ru
EEEEbiu--'gEhh EEEEbi"--'gEyyiy,
A0--12 DDQDVs DDDD ODQDW 0000
R/W TC5565 F EI01 EIOZ - EIO1 EIOZ
I/O1~8
CE1 SRAM T6A39 T6A39
FR T6A40 i
DUAL , LCD
f DIR 064
64x320dot
O1 ...... O80 o1 ...... 080
T6A39 T6A39
EIO1 EIOZ - EIO1 EIOZ
mevn. ----1.9tEa.D-u_Lu ----k.JttctLD-iLu
atht2t_c-laththtcy tht2ththuyu--tat2tht2
11 g I
1998-10-20 36/46
TOSHIBA
T6963C
APPLICATION CIRCUIT
EXTERNAL MEMORY
AO-lil
f/lv, TC5565
I/OI-i) SRAM
FR T6A40 0:1
DUAL i"
[DIR 064
64x 160dot
T6A39 T6A39
EIO1 EIOZ EIO1 EIOZ
q-rNrrtxttL ----u2tetLD-u-uc ----u2tetLD-u-r.c
tDtC1dhtCyiic-gt2fhtC1Ch C1C3CyC3V'u--aC1C3CyCy
ll ,ll
ad0--ad12
DO-D? pr DO-D? -
- MDS do--d7
F- MDI
o- MD?
TMPZ r-- FSO
84CO0P r--FSI CDATA
'-- SDSEL
T6963C
0- Ht-un-
o- DUAL
IORQ m
- E HSCP
A0 C/D ED
NV-NI - ADDRESS - Te
DECODER
RESET vss
1998-10-20 37/46
TOSHIBA
T6963C
SAMPLEPROGRAM
OWNOU'I-bWNI—i
WWWWWWWWWNNNNNNNNNNHHHHHHHHHH
ooucnmbu:Npocoooummbwmpooooummbwmpo
,' T6963C SAMPLE PROGRAM v0.01
TXHOME
TXAREA
GRHOME
GRAREA
OFFSET
ADPSET
AUROFF
START:
Display Size
Character Font :
SOURCE PROGRAM for TMPZ84CO0P
1991- 2-15
: 20 Column x 8 Lines
8 Dots Mode
EQU 40H ;SET TXT HM A00
E00 41H ;SET TXT AREA
EQU 42H ;SET GR HM A00
E00 43H ;SET GR AREA
E00 22H ;SET OFFSET ADO
E00 24H ;SET A00 PTR
E00 OBOH ;SET AUTO WRITE MODE
E00 OB2H ;RESET AUTO WRITE MODE
EQU 01H ;CMD PORT
EQU 00H ;DATA PORT
E00 9FFFH ;STACK POINTER BASE ADDRESS
SP,STACK
', SET TEXT HOME ADDRESS
HL,0000H
A,TXHOME
', SET GRAPHIC HOME ADDRESS
HL,0200H
A,GRHOME
TEXT HOME ADDRESS OOOOH
GRAPHIC HOME ADDRESS OZOOH
1998-10-20 38/46
TOSHIBA T6963C
SET TEXT AREA
LO HL,0014H ; TEXT AREA 20 Columns
CALL DT2
LO A,TXAREA
CALL CMD
SET GRAPHIC AREA
LD HL,0014H ; GRAPHIC AREA 20 Columns
CALL DT2
LO A,GRAREA
CALL CMD
MODE SET (OR MODE,Interna1 Character Generater MODE)
LO A,80H
CALL CMD
SET OFFSET REGISTER (00010 10000000 000=1400H CG RAM START ADDRESS)
CHARACTER CODE 80H
LO HL,0002H
CALL OT2
LO A,0FFSET
CALL CMD
DISPLAY MODE
(TEXT ON,GRAPHICS OFF,CURSOR OFF)
LO A,94H
CALL CMD
WRITE TEXT BLANK CODE
LD HL,0000H ; SET Address Pointer 0000H
CALL OT? ; (TEXT HOME ADDRESS)
LO A,ADPSET
CALL CMD
LD A,AWRON l SET DATA AUTO WRITE
1998-10-20 39/46
TOSHIBA
T6963C
CALL CNO ;
LD BC,00AOH ;
LO A,00H ;
CALL ADT ;
DEC BC
LO A,B
JR NZ,TXCR
LO A,AWROFF ;
CALL CMO
WRITE EXTERNAL CHARACTER GENERATOR DATA
LD DE,EXTCG l
LO HL,1400H ;
CALL OT2
LO A,ADPSET
CALL CMD
LO A,AWRON ;
CALL CMO
LD B,4OH ;
LO A,(DE) ;
CALL ADT ;
INC HL
INC DE
DJNZ EXCG
LD A,AWROFF ',
CALL CMO
WRITE TEXT DISPLAY DATA (INTERNAL CG)
20 Columns x 8Lines (160=AOH)
WRITE DATA 00H
(WRITE BLANK CODE)
AUTO RESET
CG data address in Program
CG RAM Start Address (1400H)
SET DATA AUTO WRITE
8 Character x 8 byte (64=40H)
WRITE DATA TO EXTERNAL RAM
AUTO RESET
1998-10-20 40/46
TOSHIBA
T6963C
TXLP1:
; WRITE
TXLP2:
HL,0040H
A,ADPSET
A,AWRON
DE,TXPRT
A,(DE)
A,AWROFF
Address Pointer 3Line,4Cohmm
SET DATA AUTO WRITE
13 Character
WRITE DATA
AUTO RESET
DISPLAY DATA (EXTERNAL CG upper' part)
HL,006CH
A,ADPSET
A,AWRON
DE,EXPRT1
A,(DE)
A,AWROFF
Address Pointer 5Line,8Column
SET DATA AUTO WRITE
6 Character
WRITE DATA
AUTO RESET
1998-10-20 41/46
TOSHIBA
T6963C
; WRITE TEXT DISPLAY DATA (EXTERNAL CG 1ower part)
LO HL,0080H
CALL DT2
LO A,ADPSET
CALL CMO
LO A,AWRON
CALL CMO
LD B,06H
LO DE,EXPRT2
TXLP3:
LD A,(DE)
CALL ADT
INC DE
DJNZ TXLP3
LD A,AWROFF
CALL CMO
JP PEND
tsubroutine start
; COMMAND WRITE ROUTINE
PUSH AF
CMD1: IN A,(CMDP)
AND 03H
CP 03H
JR NZ,CMD1
POP AF
OUT (CMDP),A
; DATA WRITE (1 byte) ROUTINE
Address Pointer 6Line,8Column
SET DATA AUTO WRITE
6 Character
WRITE DATA
AUTO RESET
PROGRAM END
STATUS CHECK
WRITE COMMAND
1998-10-20 42/46
917/817 02'01‘8661
VlVG BlIHM
XDEHD SfllVlS
(20) Viva BLIHM
MOEHD SfllVlS
(IO) VLVG 3118M
XOHHD SfllVlS
VlVG HiIHM
MQEHD SfllViS
v‘(da)
IlGV‘ZN
(d0W3)‘V
BNIlHOH 300W 3113M Oan 3 3 £22
v‘(da)
IZLG‘ZN
(daw3)‘v
v‘(da)
ZlG‘ZN
(daw3)‘v
HNILHOH (alfiq
V‘(d0)
IILG‘ZN
(daw3)‘v
2) 3118M VLVG ! = 802
3110V 3 182
310V 3 622
' ' 822
31210 3 L12
32l0 3 012
' ' 602
31110 3 002
VEIHSOJ.
TOSHIBA
T6963C
;Subroutine end
l TEXT DISPLAY CHARACTER CODE
TXPRT:
DEFB 34H, 00H, 2FH, 00H, 33H,
DEFB 28H, 00H, 29H, 00H, 22H,
EXPRT1:
DEFB 80H, 81H, 00H, 00H, 84H,
EXPRTZ:
DEFB 82H, 83H, 00H, 00H, 86H,
', EXTERNAL CG FONT DATA
EXTCG:
l r311 upper/1eft CHARACTER CODE 80H
DEFB 01H, 01H,0FFH, 01H, 3FH,
; FEEJ upper/right CHARACTER CODE 81H
DEFB 00H, 00H,0FFH, 00H,0FCH,
l ' 1ower/1eft CHARACTER CODE 82H
DEFB 21H, 3FH, 05H, ODH, 19H,
; r311 1ower/r1ght CHARACTER CODE 83H
DEFB 04H,0FCH, 40H, 60H, 30H,
, r321 upper/1eft CHARACTER CODE 84H
DEFB 08H, 08H,0FFH, 08H, 09H,
, r321 upper/right CHARACTER CODE 85H
DEFB 10H, 10H,0FFH, 10H, 10H,
, r221 10wer/1eft CHARACTER CODE 86H
DEFB 00H, 00H, 00H, 01H, 07H,
, r221 1ower/r1ght CHARACTER CODE 87H
DEFB 18H, 30H, 60H,0COH, 00H,
00H ', INTERNAL CG CODE
00H, 21H
85H ', EXTERNAL CG CODE
21H, 3FH, 21H
04H,0FCH, 04H
31H,0E1H, 01H
1CH, 07H, 00H
01H, 01H, 7FH
00H, 00H,0FCH
3CH,0E7H, 00H
00H,0EOH, 3FH
1998-10-20 44/46
TOSHIBA T6963C
DISPLAY SAMPLE
1998-10-20 45/46
TOSHIBA T6963C
OUTLINE DRAWING
QFP67-P-1420-0.80 Unit : mm
" 24.1 M.4
20.0M.2 =
2.0TYP 1 .2TYP
18 110 4
2.2TYP
1.8§:to.2
0.15i0.1
Weight : 1.29 (Typ.)
1998-10-20 46/46

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