MITSUBISHI M35045

MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
DESCRIPTION
FEATURES
• Screen composition .................................... 24 columns × 12 lines
• Number of characters displayed ................................... 288 (Max.)
• Character composition ...................................... 12 × 18 dot matrix
• Characters available .............................................. 256 characters
• Character sizes available ..................... 4 (horizontal) × 4 (vertical)
• Display locations available
•
•
•
•
•
•
APPLICATION
Monitor
CPOUT ← 1
VIR
2
AC → 3
CS → 4
SCK → 5
SIN → 6
TCK → 7
VDD1
8
P6 ← 9
P7 ← 10
VDD2
19 ← VERT
18 ← HOR
20
17 → P5/B
16 → P4
15 → P3/G
14 → P2
13 → P1/R
12 → P0/BLNK0
11
VSS
Outline 20P4B
CPOUT ← 1
VIR
AC → 3
CS → 4
SCK → 5
SIN → 6
TCK → 7
VDD1
20
2
8
P6 ← 9
P7 ← 10
M35045 - XXXFP
•
Horizontal direction .............................................. 1000 locations
Vertical direction .................................................. 1023 locations
Blinking .................................................................. Character units
Cycle : division of vertical synchronization signal into 64 or 32
Duty : 25%, 50%, or 75%
Data input .................................. By the 16-bit serial input function
Coloring
Character color ..................................................... Character unit
Background coloring ............................................. Character unit
Matrix-outline (shadow) coloring .............. 8 colors (RGB output)
Specified by register
Border coloring ......................................... 8 colors (RGB output)
Specified by register
Raster coloring ......................................... 8 colors (RGB output)
Specified by register
Blanking
Blanking off
Character size blanking
Border size blanking
Matrix-outline blanking
All blanking (all raster area)
Output ports
4 shared output ports (toggled between RGB output)
4 dedicated output ports
Display RAM erase function
Display input frequency range ................... FOSC = 30MHz-80MHz
PIN CONFIGURATION (TOP VIEW)
M35045 - XXXSP
The M35045-XXXSP/FP is a TV screen display control IC. It uses a
silicon gate CMOS process and is housed in a 20-pin shrink DIP
package (M35045-XXXSP) or a 20-pin shrink SOP package
(M35045-XXXFP).
For M35045-001SP/FP that is a standard ROM version of M35045XXXSP/FP respectively, the character pattern is also mentioned.
VDD2
19 ← VERT
18 ← HOR
17 → P5/B
16 → P4
15 → P3/G
14 → P2
13 → P1/R
12 → P0/BLNK0
11
Outline 20P2Q-A
VSS
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
PIN DESCRIPTION
Pin
Number
1
Symbol
CPOUT
Pin name
Phase difference
Input/
Output
Output
Function
Connect loop filter to this pin.
1pin
2.4kΩ∗1
0.1µF∗2
2
VIR
Frequency control
–
4700pF
∗2
CPOUT
∗1 Use at 1% precision
∗2 Use at 10% precision
Connect to GND.
__
Auto-clear input
Input
When “L”, this pin resets the internal IC circuit. Hysteresis input. Includes built-in pull-up
resistor.
CS
Chip select input
Input
This is the chip select pin, and when serial data transmission is being carried out, it goes
to “L”. Hysteresis input. Includes built-in pull-up resistor.
5
SCK
Serial clock input
Input
When CS pin is “L”, SIN serial data is taken in when SCK rises. Hysteresis input. Built-in
pull-up resistor is included.
6
SIN
Serial data input
Input
This is the pin for serial input of data and addresses for the display control register and
the display data memory. Hysteresis input. Includes built-in pull-up resistor.
7
TCK
Test clock
Input
Input for test. Please connect to GND using circuit earthing pin.
8
VDD1
Power pin
–
9
P6
Port P6 output
Output
This is the output port. Port data is set by PTD6.
10
P7
Port P7 output
Output
This is the output port. Port data is set by PTD7.
11
VSS
Earthing pin
–
Please connect to GND using circuit earthing pin.
12
P0/BLNK0
Port P0 output
Output
This pin can be toggled between port pin output and BLNK0 signal output.
13
P1/R
Port P1 output
Output
This pin can be toggled between port pin output and R signal output.
14
P2
Port P2 output
Output
This is the output port. Port data is set by PTD2.
15
P3/G
Port P3 output
Output
This pin can be toggled between port pin output and G signal output.
16
P4
Port P4 output
Output
This is the output port. Port data is set by PTD4.
17
P5/B
Port P5 output
Output
This pin can be toggled between port pin output and B signal output.
18
HOR
Horizontal synchronization signal input
Input
This pin inputs the horizontal synchronization signal. Hysteresis input.
19
VERT
Vertical synchronization signal input
Input
This pin inputs the vertical synchronization signal. Hysteresis input.
20
VDD2
Power pin
3
AC
4
__
__
2
–
Please connect to +5V with the power pin.
Please connect to +5V with the power pin.
5
6
8
SCK
SIN
VDD1
3
2
7
VIR
TCK
VSS 11
AC
Address control
circuit
Display character ROM
Display RAM
Display control
register
Data control
circuit
Input control circuit
VDD2 20
4
CS
BLOCK DIAGRAM
Polarity switching circuit
Shift register
Reading address
control circuit
Timing generator
Blinking circuit
Display control
circuit
Display location
detection circuit
H counter
Synchronous signal
switching circuit
Port output
control circuit
Polarity
switching
circuti
19
18
1
Clock oscillation
circuit for display
VERT
HOR
CPOUT
P6
10 P7
9
16 P4
14 P2
17 P5/B
15 P3/G
13 P1/R
12 P0/BLNK0
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
3
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
MEMORY CONSTITUTION
SCREEN CONSTITUTION
Address 00016 to 11F16 are assigned to the display RAM, address
12016 to 12816 are assigned to the display control registers. The internal circuit is reset and all display control registers (address 12016
to 12816) are set to “0” and__
display RAM (address 00016 to 11F16)
are set to “FF16” when the AC pin level is “L”.
Memory constitution is shown in Figure 1.
The screen lines and rows are determined from each address of the
display RAM. The screen constitution is shown in Figure 2.
DAF
DAE
DAD
DAC
DAB
DAA
DA9
DA8
DA7
DA6
DA5
DA4
DA3
DA2
DA1
DA0
00016
0
BB
BG
BR
BLINK
B
G
R
C7
C6
C5
C4
C3
C2
C1
C0
………
………
11F16
0
BB
12016
0
0
DIVS2 DIVS1 DIVS0 DIV10
12116
0
0
PTD7 PTD6 PTD5
12216
0
0
SPACE2 SPACE1 SPACE0 TEST9
HP9
HP8
HP7
HP6
HP5
HP4
HP3
HP2
HP1
HP0
12316
0
0
TEST3 TEST2 TEST1 TEST0
VP9
VP8
VP7
VP6
VP5
VP4
VP3
VP2
VP1
VP0
12416
0
0
TEST5 TEST4 DSP11 DSP10 DSP9 DSP8 DSP7 DSP6 DSP5 DSP4 DSP3 DSP2 DSP1 DSP0
12516
0
0
VSZ1H1 VSZ1H0 VSZ1L1 VSZ1L0 V1SZ1 V1SZ0 LIN9
12616
0
0
VSZ2H1 VSZ2H0 VSZ2L1 VSZ2L0 V18SZ1 V18SZ0 LIN17 LIN16 LIN15 LIN14 LIN13 LIN12 LIN11 LIN10
12716
0
0
HSZ21 HSZ20 HSZ11 HSZ10 BETA14 TEST8 TEST7 TEST6
Blinking
Background
coloring
BG
BR
Character code
Character color
BLINK
B
G
R
C7
C6
C5
C4
C3
C2
C1
C0
DIV9
DIV8
DIV7
DIV6
DIV5
DIV4
DIV3
DIV2
DIV1
DIV0
PTD4 PTD3 PTD2 PTD1 PTD0 PTC5 PTC4 PTC3 PTC2 PTC1 PTC0
LIN8
LIN7
FB
LIN6
LIN5
FG
FR
LIN4
LIN3
RB
RG
LIN2
RR
__
0
12816
0
BLINK2 BLINK1 BLINK0 DSPON STOP RAMERS SYAD BLK1
BLK0 POLH POLV VMASK
B/F
BCOL
Fig. 1 Memory constitution
Row
Line
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
00016
01816
03016
04816
06016
00116
01916
03116
04916
06116
00216
01A16
03216
04A16
06216
00316
01B16
03316
04B16
06316
00416
01C16
03416
04C16
06416
00516
01D16
03516
04D16
06516
00616
01E16
03616
04E16
06616
00716
01F16
03716
04F16
06716
00816
02016
03816
05016
06816
00916
02116
03916
05116
06916
00A16
02216
03A16
05216
06A16
00B16
02316
03B16
05316
06B16
00C16
02416
03C16
05416
06C16
00D16
02516
03D16
05516
06D16
00E16
02616
03E16
05616
06E16
00F16
02716
03F16
05716
06F16
01016
02816
04016
05816
07016
01116
02916
04116
05916
07116
01216
02A16
04216
05A16
07216
01316
02B16
04316
05B16
07316
01416
02C16
04416
05C16
07416
01516
02D16
04516
05D16
07516
01616
02E16
04616
05E16
07616
01716
02F16
04716
05F16
07716
07816
09016
0A816
0C016
07916
09116
0A916
0C116
07A16
09216
0AA16
0C216
07B16
09316
0AB16
0C316
07C16
09416
0AC16
0C416
07D16
09516
0AD16
0C516
07E16
09616
0AE16
0C616
07F16
09716
0AF16
0C716
08016
09816
0B016
0C816
08116
09916
0B116
0C916
08216
09A16
0B216
0CA16
08316
09B16
0B316
0CB16
08416
09C16
0B416
0CC16
08516
09D16
0B516
0CD16
08616
09E16
0B616
0CE16
08716
09F16
0B716
0CF16
08816
0A016
0B816
0D016
08916
0A116
0B916
0D116
08A16
0A216
0BA16
0D216
08B16
0A316
0BB16
0D316
08C16
0A416
0BC16
0D416
08D16
0A516
0BD16
0D516
08E16
0A616
0BE16
0D616
08F16
0A716
0BF16
0D716
0D816 0D916 0DA16 0DB16 0DC16 0DD16 0DE16 0DF16 0E016 0E116 0E216 0E316 0E416 0E516 0E616 0E716 0E816 0E916 0EA16 0EB16 0EC16 0ED16 0EE16 0EF16
0F016 0F116 0F216 0F316 0F416 0F516 0F616 0F716 0F816 0F916 0FA16 0FB16 0FC16 0FD16 0FE16 0FF16 10016 10116 10216 10316 10416 10516 10616 10716
10816 10916 10A16 10B16 10C16 10D16 10E16 10F16 11016 11116 11216 11316 11416 11516 11616 11716 11816 11916 11A16 11B16 11C16 11D16 11E16 11F16
* The hexadecimal numbers in the boxes show the display RAM address.
Fig. 2 Screen constitution
4
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
REGISTERS DESCRIPTION
(1) Address 12016
Contents
DA
0
Register
Remarks
Status
Function
0
Set multiply value (frequency value) of horizontal synchronous frequency.
DIV0
Display frequency is computed as
shown below.
1
FOSC = fH × N1
0
1
FOSC [MHz] : Display frequency
: Horizontal synchronous
fH [kHz]
signal frequency to HOR
pin.
N1
: Shown left
DIV1
1
0
2
10
N1 =
Σ (DIVn × 2n)
n=0
DIV2
1
N1: frequency value
Set display frequency FOSC to within
30MHz to 80MHz range.
When display frequency FOSC, set frequency value N2 in association with
DIVS0 and DIVS1.
Set frequency value N2
Set frequency value N2 in association
with display frequency range.
0
3
DIV3
1
0
4
DIV4
1
0
5
DIV5
1
0
6
DIV6
1
0
7
DIV7
1
0
8
DIV8
1
0
9
DIV9
1
0
A
DIV10
1
0
B
DIVS0
DIVS
1
0
C
DIVS1
1
D
1
0
0
1
1
0
0
1
0
1
Frequency
value N2
Division into 2
Division into 3
Division into 4
Do not set
0
It should be fixed to “0”.
1
Can not be used.
Display frequency
55 ~ 80
40 ~ 55
30 ~ 40
Frequency value N2
Division into 2
Division into 3
Division into 4
DIVS2
__
Note: The mark ⁄ around the status value means the reset status by the “L” level is input to AC pin.
5
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(2) Address 12116
Contents
DA
Register
Remarks
Status
0
1
2
3
4
5
6
7
8
9
A
B
C
D
6
Function
0
P0 output (port P0). Port data is set by PTD0.
1
BLNK0 output. Polarity is set by PTD0.
0
P1 output (port P1). Port data is set by PTD1.
1
R signal output. Polarity is set by PTD1.
0
P2 output (port P2). Port data is set by PTD2.
1
Do not set.
0
P3 output (port P3). Port data is set by PTD3.
1
G signal output. Polarity is set by PTD3.
0
P4 output (port P4). Port data is set by PTD4.
1
Do not set.
0
P5 output (port P5). Port data is set by PTD5.
1
B signal output. Polarity is set by PTD5.
0
“L” output (P0 output) or negative polarity output (BLNK0 output).
1
“H” output (P0 output) or positive polarity output (BLNK0 output).
0
“L” output (P1 output) or negative polarity output (R signal output).
1
“H” output (P1 output) or positive polarity output (R signal output).
0
“L” output (P2 output).
1
“H” output (P2 output).
0
“L” output (P3 output) or negative polarity output (G signal output).
1
“H” output (P3 output) or positive polarity output (G signal output).
0
“L” output (P2 output).
1
“H” output (P2 output).
0
“L” output (P5 output) or negative polarity output (B signal output).
1
“H” output (P5 output) or positive polarity output (B signal output).
0
“L” output (P6 output).
1
“H” output (P6 output).
0
“L” output (P7 output).
1
“H” output (P7 output).
PTC0
BLNK0 outputs blanking signal.
Blanking status is determined by BLK0,
BLK1, and DSP0 to DSP11 settings.
PTC1
PTC2
PTC3
PTC4
PTC5
P0 pin data control.
PTD0
P1 pin data control.
PTD1
PTD2
P2 pin exclusive port output state control.
P3 pin data control.
PTD3
PTD4
P4 pin exclusive port output state control.
P5 pin data control.
PTD5
PTD6
PTD7
P6 pin exclusive port output state control.
P7 pin exclusive port output state control.
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(3) Address 12216
Contents
DA
Register
Remarks
Status
0
HP0
(LSB)
0
Function
If HS is the horizontal display start location,
9
1
HS = T × ( Σ 2nHPn + N).
n=0
0
1
HP1
1
0
2
HP2
1
0
3
T: The cycle of display frequency
HSZ11
HSZ21
0
0
1
1
HSZ10
HSZ20
0
1
0
1
Horizontal display start location is
specified using the 10 bits from HP9
to HP0.
Note: HP9 to 0 = (00000000002) and
(00000101112) setting is forbidden
N
6
7
8
9
1000 settings are possible.
HP3
1
0
4
HP4
1
0
5
HP5
1
0
6
HP6
1
0
7
HP7
1
0
8
HP8
1
9
A
HP9
(MSB)
0
1
0
It should be fixed to “0”.
1
Can not be used.
TEST9
0
B
SPACE0
1
0
C
SPACE1
1
0
D
SPACE2
1
2
0
0
0
0
1
1
1
1
SPACE
1
0
0
1
1
0
0
1
1
0
0
1
0
1
0
1
0
1
Number of Lines and Space
(Í represents space)
12
1 Í 10 Í 1
2Í 8 Í2
3Í 6 Í3
4Í 4 Í4
5Í 2 Í5
6Í6
6ÍÍ6
Leave one line worth of space in the vertical direction.
For example, 6 Í 6 indicates two sets
of 6 lines with a line of spaces between
lines 6 and 7.
A line is 18 × N horizontal scan lines.
N is determined by the character size in
the vertical direction as follows:
×1 N = 1 ×2 N = 2
×3 N = 3 ×4 N = 4
Í represents one line worth of spaces.
7
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(4) Address 12316
Contents
DA
Remarks
Register
Function
Status
0
VP0
(LSB)
0
1
If VS is the vertical display start location,
VS = H × (
9
Σ 2nVPn).
n=0
0
1
VP1
H: Cycle with the horizontal synchronizing pulse
1023 settings are possible.
1
HOR
0
2
VP2
1
VP
0
VP3
1
0
4
HP
VERT
3
Character
displaying area
VP4
1
0
5
VP5
1
0
6
VP6
1
0
7
VP7
1
0
8
VP8
1
9
A
B
C
D
8
VP9
(MSB)
0
1
0
It should be fixed to “0”.
1
Can not be used.
0
It should be fixed to “0”.
1
Can not be used.
0
It should be fixed to “0”.
1
Can not be used.
0
It should be fixed to “0”.
1
Can not be used.
TEST0
TEST1
TEST2
TEST3
The vertical start location is specified
using the 10 bits from VP9 to VP0.
VP9 to VP0 = (00000000002) setting is
forbidden.
_
Note 1: In case of B/F register is “0”.
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(5) Address 12416
Contents
DA
0
1
2
3
4
5
6
7
8
9
A
B
C
D
Register
Remarks
Status
Function
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1. (Note)
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1.
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
Blanking is in the display mode specified by BLK0 and BLK1.
1
Blanking is in the display mode specified by except BLK0 and BLK1.
0
It should be fixed to “0”.
1
Can not be used.
0
It should be fixed to “0”.
1
Can not be used.
Sets the display mode of line 1.
DSP0
Sets the display mode of line 2.
DSP1
Sets the display mode of line 3.
DSP2
Sets the display mode of line 4.
DSP3
Sets the display mode of line 5.
DSP4
Sets the display mode of line 6.
DSP5
Sets the display mode of line 7.
DSP6
Sets the display mode of line 8.
DSP7
Sets the display mode of line 9.
DSP8
Sets the display mode of line 10.
DSP9
Sets the display mode of line 11.
DSP10
Sets the display mode of line 12.
DSP11
TEST4
TEST5
Note: Refer to DISPLAY FORM1.
9
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(6) Address 12516
Contents
DA
Register
Remarks
Status
0
0
LIN2
1
0
1
LIN3
1
0
2
LIN4
1
0
3
LIN5
1
0
4
LIN6
1
0
5
LIN7
1
0
6
LIN8
1
0
7
LIN9
1
0
8
V1SZ0
1
0
9
V1SZ1
1
0
A
VSZ1L0
1
0
B
VSZ1L1
1
0
C
VSZ1H0
1
0
D
VSZ1H1
1
10
Function
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
Character size setting in the vertical
direction for the 2nd line.
H: Cycle with the horizontal synchronizing pulse
Character size setting in the vertical
direction for the 1st line.
(display monitor 1 ~ 12 line)
V1SZ1 V1SZ0
0
0
0
1
1
0
1
1
Vertical direction size
1H/dot
2H/dot
3H/dot
4H/dot
H: Cycle with the horizontal synchronizing pulse
VSZ1L1 VSZ1L0 Vertical direction size
0
0
1H/dot
0
1
2H/dot
1
0
3H/dot
1
1
4H/dot
H: Cycle with the horizontal synchronizing pulse
VSZ1H1 VSZ1H0 Vertical direction size
1H/dot
0
0
2H/dot
0
1
3H/dot
1
0
4H/dot
1
1
Character size setting in the vertical
direction for the 3rd line.
Character size setting in the vertical
direction for the 4th line.
Character size setting in the vertical
direction for the 5th line.
Character size setting in the vertical
direction for the 6th line.
Character size setting in the vertical
direction for the 7th line.
Character size setting in the vertical
direction for the 8th line.
Character size setting in the vertical
direction for the 9th line.
Character size setting in the vertical
direction (display monitor 1 line) at “0”
state in register LIN2 ~ LIN17.
Character size setting in the vertical
direction (display monitor 1 line) at “1”
state in register LIN2 ~ LIN17.
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(7) Address 12616
Contents
DA
Register
Remarks
Status
0
0
LIN10
1
0
1
LIN11
1
0
2
LIN12
1
0
3
LIN13
1
0
4
LIN14
1
0
5
LIN15
1
0
6
LIN16
1
0
7
LIN17
1
0
8
V18SZ0
1
0
9
V18SZ1
1
0
A
VSZ2L0
1
0
B
VSZ2L1
1
0
C
VSZ2H0
1
0
D
VSZ2H1
1
Function
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
The first line is set by VSZ1L0 and VSZ1L1.
The second to 12th lines are set by VSZ2L0 and VSZ2L1.
The first line is set by VSZ1H0 and VSZ1H1.
The second to 12th lines are set by VSZ2H0 and VSZ2H1.
Character size setting in the vertical
direction for the 10th line.
H: Cycle with the horizontal synchronizing pulse
Character size setting in the vertical
direction for the 18th line.
(display monitor 1 ~ 12 line)
V18SZ1 V18SZ0 Vertical direction size
1H/dot
0
0
2H/dot
0
1
3H/dot
1
0
4H/dot
1
1
H: Cycle with the horizontal synchronizing pulse
VSZ2L1 VSZ2L0 Vertical direction size
0
0
1H/dot
0
1
2H/dot
1
0
3H/dot
1
1
4H/dot
H: Cycle with the horizontal synchronizing pulse
VSZ2H1 VSZ2H0 Vertical direction size
1H/dot
0
0
2H/dot
0
1
3H/dot
1
0
4H/dot
1
1
Character size setting in the vertical
direction for the 11th line.
Character size setting in the vertical
direction for the 12th line.
Character size setting in the vertical
direction for the 13th line.
Character size setting in the vertical
direction for the 14th line.
Character size setting in the vertical
direction for the 15th line.
Character size setting in the vertical
direction for the 16th line.
Character size setting in the vertical
direction for the 17th line.
Character size setting in the vertical
direction (display monitor for 2 ~ 12 line)
at “0” state in register LIN2 ~ LIN17.
Character size setting in the vertical
direction (display monitor for 2 ~ 12 line)
at “1” state in register LIN2 ~ LIN17.
11
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(8) Address 12716
Contents
DA
Register
Remarks
Status
0
0
RR
1
0
1
RG
1
0
2
Function
RB
0
0
0
0
1
1
1
1
RG
0
0
1
1
0
0
1
1
RR
0
1
0
1
0
1
0
1
Color
Black
Red
Green
Yellow
Blue
Magenta
Cyan
White
Sets the color of all blankings.
BB
0
0
0
0
1
1
1
1
BG
0
0
1
1
0
0
1
1
BR
0
1
0
1
0
1
0
1
Color
Black
Red
Green
Yellow
Blue
Magenta
Cyan
White
Sets the blanking color of the Border
size, or the shadow size.
RB
1
0
3
FR
1
0
4
FG
1
0
5
FB
1
6
7
8
9
A
0
It should be fixed to “0”.
1
Can not be used.
0
It should be fixed to “0”.
1
Can not be used.
0
It should be fixed to “0”.
1
Can not be used.
0
Matrix-outline display (12 × 18 dot)
1
Matrix-outline display (14 × 18 dot)
0
T: Display frequency cycle
TEST6
TEST7
TEST8
BETA14
HSZ10
1
0
B
HSZ11
1
0
C
HSZ20
1
0
D
HSZ21
1
12
HSZ11
0
0
1
1
HSZ10
0
1
0
1
Vertical direction size
1T/dot
2T/dot
3T/dot
4T/dot
T: Display frequency cycle
VSZ21
0
0
1
1
HSZ20
0
1
0
1
Vertical direction size
1T/dot
2T/dot
3T/dot
4T/dot
Set this register to the character font
set by display RAM BR, BG and BB.
Character size setting in the vertical
direction for the first line.
Character size setting in the vertical
direction for the 2nd line to 12th line.
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
(9) Address 12816
Contents
DA
Register
Remarks
Status
0
2
3
4
0
Blanking of BLK0, BLK1
1
All raster blanking
0
Synchronize with the leading edge of horizontal synchronization.
1
Synchronize with the trailing edge of horizontal synchronization.
0
Do not mask by VERT input signal
1
Mask by VERT input signal
0
VERT pin polarity is negative electrode
1
VERT pin polarity is positive electrode
0
HOR pin polarity is negative electrode
1
HOR pin polarity is positive electrode
B/F
VMASK
BLK0
0
BLK1
1
7
8
9
A
BLK
Blanking mode
Matrix-outline size
Character size
Border size
Matrix-outline size
0
Border display of character
1
Shadow display of character
0
RAM not erased
Set HOR pin polarity.
1
RAM erased
0
Oscillation of clock for display
1
Stop the oscillation of clock for display
0
Display OFF
1
Display ON
Set blanking mode. (Note 1)
An example of blanking mode at
BCOL = “0”, DSPn = “0” (n = 0 ~ 11)
shown left.
(Note 2)
There is no need to reset because
there is no register for this bit.
RAMERS
STOP
R, G, B and BLNK0 output can be
altered.
Display can be altered.
DSPON
BLINK0
0
BLINK1
1
D
Set VERT pin polarity.
SYAD
1
C
0
0
1
0
1
1
0
0
1
1
0
B
This register has or do not have mask
at phase comparison operating.
POLH
1
6
Synchronize with the front porch or
back porch of the horizontal
synchronazation signal.
POLV
0
5
Sets all raster blanking
BCOL
__
1
Function
Blinking duty ratio can be altered.
BLINK
1
0
0
1
1
0
0
1
0
1
Duty
Blinking OFF
25%
50%
75%
0
Divided into 64 of vertical synchronous signal
1
Divided into 32 of vertical synchronous signal
Blinking frequency can be altered.
BLINK2
Notes 1: Refer to DISPLAY FORM 1
2: Refer to DISPLAY FORM 3
13
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
DISPLAY FORM1
Table 1 shows display form of blanking.
Table 1. Display mode
Standard blanking
BCOL
BLK1
BLK0
0
0
0
1
When the all of registers
DSPn (Note 2) are set to “0”
When some of registers DSPi are set to “1”
DSPn = 0
BLNK0 output
DSPn = 1
Matrix-outline and border display.
color set: FR, FG, FB
or display RAM (Note 4)
Matrix-outline and border display.
color set: FR, FG, FB
or display RAM (Note 4)
Matrix-outline display
color set: display RAM
(Note 3)
DSPn = “0” line
Character
Border display
color set: display RAM
(Note 3)
DSPn = “0” line→Character size
Character
DSPn = “0” line→Border size
Matrix-outline size
DSPn = “1” line
DSPn = “1” line→Border size
0
1
1
0
1
Border display
color set: display RAM
(Note 3)
Border display
color set: display RAM
(Note 3)
Matrix-outline display
color set: display RAM
(Note 3)
Matrix-outline display
color set: display RAM
(Note 3)
Matrix-outline display
color set: display RAM
(Note 3)
Character
DSPn = “0” line→Matrix-outline size
DSPn = “1” line→Character size
0
0
Matrix-outline and border display.
color set: FR, FG, FB
or display RAM (Note 4)
Matrix-outline and border display.
color set: FR, FG, FB
or display RAM (Note 4)
Matrix-outline display
color set: display RAM
(Note 3)
0
1
Character
Character
Border display
color set: display RAM
(Note 3)
1
0
Border display
color set: display RAM
(Note 3)
Border display
color set: display RAM
(Note 3)
Matrix-outline display
color set: display RAM
(Note 3)
1
1
Matrix-outline display
color set: display RAM
(Note 3)
Matrix-outline display
color set: display RAM
(Note 3)
Character
1
(Note 1)
All blanking size
Notes 1: Color setting of raster area is set by register RR, RG and RB.
2: DSPn (n = 0 ~ 11)
3: Set by BR, BG and BB of display RAM.
4: Set border by register FR, FG and FB. Set matrix-outline by BR, BG and BB of display RAM.
14
DSPn = “1” line→Matrix-outline size
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
Display form 2
M35045-XXXSP has the following four display forms.
(1) Character size
: Blanking same as the character size.
(2) Border size
: Blanking the background as a size from character.
(3) Matrix-outline size
: Blanking the background 12 × 18 dot.
When set register BETA14 to “1”, setting of blanking the
background 14 × 18 dot is possible.
(4) All blanking size
: When set register BCOL to “1”, all raster area is blanking.
〈 Register BCOL = “0” 〉
12dots
12dots
12dots
12dots
Scanning
Set border color by
display RAM∗1
Set character color by display
RAM∗1 (address 0 to 11F16)
Set border
color by register
FR,FG and FB
Set matrix - outline
color by display
RAM∗3
R,G or B output
Set matrix - outline
color by RAM
for display∗3
BLNK0 output
(2) Border display
(border size)
(1) Character display
(character size)∗2
(3) Matrix - outline
display
(matrix-outline size)
(4) Matrix - outline
and border display
(matrix-outline size)
〈 Register BCOL = “1” 〉
12dots
12dots
12dots
12dots
Scanning
Set character color by display
RAM∗1 (address 0 to 11F16)
Set raster area
color by register
RR,RG and RB
Set matrix - outline
color by display
RAM∗3
Set border
color by register
FR,FG and FB
Set border color by
display RAM∗1
Set matrix - outline
color by display
RAM∗3
R,G or B output
“H” level
BLNK0 output GND level
(1) Character display
(all blanking size)∗2
(2) Border display
(all blanking size)
(3) Matrix - outline
display
(all blanking size)
(4) Matrix - outline
and border display
(all blanking size)
∗1 Red,Blue,Yellow,Green,Magenta,Cyan, White and Black are set possible.
∗2 ( ) is blanking mode.
∗3 All matrix - outline horizontal direction size is able to set to 14dots by register BETA14
(BLNK0 output by 14dots).
Fig. 3 Display form
15
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
Display form 3
When border display mode, if set SYAD = “0” to “1”, it change to
shadow display mode.
Border and shadow display are shown below.
Border display
Fig. 4 Border and shadow display
Set shadow display color by display RAM or register FR, FG and FB.
16
Shadow display
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
DATA INPUT EXAMPLE
Data of display RAM and display control registers can be set by the
serial input function. Example of data setting is shown in Figure 5.
Example of data setting by the serial input function (M35045-XXXSP/FP)
DAF DAE DAD DAC DAB DAA DA9 DA8 DA7 DA6 DA5 DA4 DA3 DA2 DA1 DA0
200 msec hold
1
address 12016
0
0
0
2
data
12016
0
0
0
3
data
12116
0
0
4
data
12216
0
0
0
5
data
12316
0
0
6
data
12416
0
7
data
12516
8
data
9
0
0
0
0
1
0
Addition
System set-up
0
1
0
0
0
0
0
Address set
Setting frequency
DIVS1 DIVS0 DIV10 DIV9 DIV8 DIV7 DIV6 DIV5 DIV4 DIV3 DIV2 DIV1 DIV0 dividing value (Note 1)
PTD7 PTD6
1
PTD4
1
PTD2
1
1
1
0
1
0
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Display form setting
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Character size setting
12616
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Character size setting
data
12716
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
10 data
12816
0
0
0
0
0
0
0
1
0
1
1
0
0
0
Color,
character size setting
Display OFF,
display form (Note 2)
C6
C5
C2
C1
C0
Output setting
HP9 HP8 HP7 HP6 HP5 HP4 HP3 HP2 HP1 HP0 Horizontal display
location setting
VP9 VP8 VP7 VP6 VP5 VP4 VP3 VP2 VP1 VP0 Vertical display
location setting
POLH POLV
200 msec hold
11 data
0
…………
………
…………
12
00016
BB
BG
BR BLINK
Character
background
color
B
G
R
C7
Character
color
Blinking
C4
C3
Character code
Character setting
297
298 data
11F16
0
BB
BG
299 address 12816
0
0
0
0
300 data
0
0
0
0
12816
BR BLINK
B
G
R
C7
C6
C5
C4
C3
C2
C1
C0
0
0
0
1
0
0
1
0
1
0
0
0
Address setting
0
1
0
0
0
1
1
0
0
0
Display ON, display
form (Note 2)
POLH POLV
Notes 1: Input horizontal synchronous signal to HOR pin.
2: Matrix-outline display in this data.
Fig. 5 Example of data setting by the serial input function
17
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
SERIAL DATA INPUT TIMING
(1)
(2)
(3)
(4)
Serial data should be input with the LSB first.
The address consists of 16 bits.
The data consists of 16 bits.
__
The 16 bits in the SCK after the CS signal has fallen are the
address, and for succeeding input data, the address is
incremented every 16 bits.
CS
SCK
SIN
LSB
MSB LSB
Address(16 bits)
MSB
Data(16 bits)
N
LSB
MSB
Data(16 bits)
N+1
N = 1,2,3………
Fig. 6 Serial input timing
18
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
CHARACTER FONT
Images are composed on a 12 × 18 dot matrix, and characters can
be linked vertically and horizontally with other characters to allow the
display the continuous symbols.
18 dots
12 dots
When the character extends
to the top line of the matrix,
no border is left at the top.
When the character extends
to the bottom(18th) line of
the matrix, no border is left
at the bottom.
Note : Hatching represents
border.
Fig. 7 Example for displaying a continuous pattern after combining characters in the horizontal or vertical direction
Character code FF 16 is fixed as a blank without background.
Therefore, you cannot register a character font in this code.
19
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
TIMING REQUIREMENTS (Ta = –20°C to + 85°C, VDD = 5±0.25V, unless otherwise noted)
Parameter
Symbol
tw(SCK)
__
tsu(CS)
__
th(CS)
tsu(SIN)
th(SIN)
tword
Min.
200
200
2
200
200
10
SCK width
__
CS
setup time
__
CS hold time
SIN setup time
SIN hold time
1 word writing time
Limits
Typ.
—
—
—
—
—
—
Remarks
Unit
Max.
—
—
—
—
—
—
ns
ns
µs
ns
ns
See Figure 8
µs
tw(CS)
1ms(min.)
CS
tsu(CS)
tw(SCK)
tw(SCK)
tsu(SIN)
th(SIN)
th(CS)
SCK
SIN
CS
tword
more than 2 µs
SCK
1
2
… 12
Fig. 8 Serial input timing requirements
20
13
14
15
16
1
… 12
13
14
15
16
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
EXAMPLE OF THE M35045-XXXSP/FP CLOCK PERIPHERAL CIRCUIT
Horizontal synchronous signal (5V)
Synchronous signal
generator
Vertical synchronous signal (5V)
1
2.4kΩ(Note1)
4700pF(Note2)
+ –
0.1mF(Note2)
3
4
5
Microcomputer
6
7
8
9
10
+ 5V
VDD2
CPOUT
VIR
VERT
AC
HOR
CS
SCK
SIN
TCK
VDD1
M35045 - XXXSP
1µF
2
+ 5V
P5/B
P4
P3/G
P2
P1/R
P6
P0/BLNK0
P7
VSS
20
19
18
17





G 
 Mixing
 video pre - amp

R 

BLNK0 
B
16
15
14
13
12
11
100µF
+ –
100µF
– +
1µF
1µF
0.01µF
0.01µF
Note 1 : Use this 1% precision element.
Note 2 : Use this 10% precision element.
Fig. 9 Example of the M35045-XXXSP peripheral circuit (M35045-XXXFP peripheral circuit is same as that of M35045-XXXSP)
Note for waveform timing of the horizontal signals to the HOR pin.
Set horizontal synchronous signal edge∗ waveform timing to under
5ns and input to HOR pin.
_
Set only the side which set by B/F register waveform timing under
5ns and input to HOR pin.
_
∗: Set front porch edge or back porch edge by B/F register.
tf
tr
90%
Horizontal synchronous signal input
10%
21
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
VDD
Supply voltage
VI
Input voltage
VO
Output voltage
Pd
Power dissipation
Topr
Tstg
Ratings
Unit
–0.3 to +6.0
V
VSS –0.3 < VI < VDD +0.3
V
Conditions
With respect to VSS.
VSS < VO < VDD
V
300
mW
Operating temperature
–20 to +85
°C
Storage temperature
–40 to +125
°C
Ta = 25°C
RECOMMENDED OPERATING CONDITIONS (VDD = 5V, Ta = –20 to +85°C, unless otherwise noted)
Symbol
Parameter
VDD
Supply voltage
VIH
“H” level input voltage SIN, SCK, CS, AC HOR, VERT
VIL
“L” level input voltage SIN, SCK, CS, AC HOR, VERT
FOSC
Oscillating frequency for display
__
__
__
__
Min.
4.75
Limits
Typ.
5.0
Max.
5.25
0.8VDD
VDD
VDD
0
0
30.0
—
Unit
V
V
0.2VDD
V
80.0
MHz
ELECTRICAL CHARACTERISTICS (VDD = 5V, Ta = 25°C, unless otherwise noted)
Symbol
VDD
Supply voltage
Ta = –20 to +85°C
IDD
Supply current
VDD = 5.25V
VOH
“H” level output voltage
VOL
“L” level output voltage
__
RI
22
Test conditions
Parameter
P0 ~ P7
VDD = 4.75V, IOH = 0.4mA
CPOUT
VDD = 4.75V, IOH = 0.05mA
P0 ~ P7
VDD = 4.75V, IOL = 0.4mA
CPOUT
VDD = 4.75V, IOL = 0.05mA
__
Pull-up resistance SCK, AC, CS, SIN
VDD = 5.0V
Min.
Limits
Typ.
Max.
4.75
5.0
5.25
—
30
50
3.5
—
—
V
—
—
0.4
V
30
100
kΩ
10
Unit
V
mA
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
Note for Supplying Power
__
Timing of power supplying to AC pin
The internal circuit of M35045-XXXSP/FP
is reset when the level of
__
the auto clear input pin AC is “L”. This pin in hysteresis
input with the
__
pull-up resistor. The timing about power supplying of AC pin is shown
in Figure 10.
Timing of power supplying to VDD1 and VDD2.
Supply power to VDD1 and VDD2 at the same time.
Voltage
[V]
VDD
Supply voltage
0.8 × VDD
VAC
(AC pin input voltage)
0.2 × VDD
tW
tS
Time t [s]
more than 1ms
Fig. 10 Timing of power supplying to AC pin
After supplying the power (VDD and VSS) to M35045-XXXSP/FP and
the supply voltage__
becomes more than 0.8 × VDD, it needs to keep
VIL time; tw of the AC pin for more than 1ms.__
Start inputting from microcomputer after AC pin supply voltage
becomes more than 0.8 ✕ VDD and keeping 200ms wait time.
PRECAUTION FOR USE
DATA REQUIRED FOR MASK ROM ORDERING
Notes on noise and latch-up
In order to avoid noise and latch-up, connect a bypass capacitor
(≈0.1µF) directly between the VDD1 pin and VSS pin, and the VDD2 pin
and VSS pin using a heavy wire.
Please send the following data for mask orders.
(1) M35045-XXXSP/FP mask ROM order confirmation form
(2) 20P4B mask specification form
(3) ROM data (EPROM 3 sets)
(4) Floppy disks containing the character font generating program
+ character data
23
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
STANDARD ROM TYPE : M35045-002SP/FP
M35045-002SP/FP is a standard ROM type of M35045-XXXSP/FP.
The character patterns are fixed to the contents of Figure
11 to 16.
0016
0116
0216
0316
0416
0516
0616
0716
0816
0916
0A16
0B16
0C16
0D16
0E16
0F16
1016
1116
1216
1316
1416
1516
1616
1716
1816
1916
1A16
1B16
1C16
1D16
1E16
1F16
2016
2116
2216
2316
2416
2516
2616
2716
2816
2916
2A16
2B16
2C16
2D16
2E16
2F16
3016
3116
3216
3316
3416
3516
3616
3716
3816
3916
3A16
3B16
3C16
3D16
3E16
3F16
Fig. 11 M35045-002SP/FP character patterns (1)
24
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
4016
4116
4216
4316
4416
4516
4616
4716
4816
4916
4A16
4B16
4C16
4D16
4E16
4F16
5016
5116
5216
5316
5416
5516
5616
5716
5816
5916
5A16
5B16
5C16
5D16
5E16
5F16
6016
6116
6216
6316
6416
6516
6616
6716
6816
6916
6A16
6B16
6C16
6D16
6E16
6F16
7016
7116
7216
7316
7416
7516
7616
7716
7816
7916
7A16
7B16
7C16
7D16
7E16
7F16
Fig. 12 M35045-002SP/FP character patterns (2)
25
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
8016
8116
8216
8316
8416
8516
8616
8716
8816
8916
8A16
8B16
8C16
8D16
8E16
8F16
9016
9116
9216
9316
9416
9516
9616
9716
9816
9916
9A16
9B16
9C16
9D16
9E16
9F16
A016
A116
A216
A316
A416
A516
A616
A716
A816
A916
AA16
AB16
AC16
AD16
AE16
AF16
B016
B116
B216
B316
B416
B516
B616
B716
B816
B916
BA16
BB16
BC16
BD16
BE16
BF16
Fig. 13. M35045-002SP/FP character patterns (3)
26
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
C016
C116
C216
C316
C416
C516
C616
C716
C816
C916
CA16
CB16
CC16
CD16
CE16
CF16
D016
D116
D216
D316
D416
D516
D616
D716
D816
D916
DA16
DB16
DC16
DD16
DE16
DF16
E016
E116
E216
E316
E416
E516
E616
E716
E816
E916
EA16
EB16
EC16
ED16
EE16
EF16
F016
F116
F216
F316
F416
F516
F616
F716
F816
F916
FA16
FB16
FC16
FD16
FE16
FF16 blank
Fig. 14 M35045-002SP/FP character patterns (4)
27
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
GZZ-SH00-36B<65AØ>
Mask ROM number
MASK ROM ORDER CONFIRMATION FORM
SCREEN DISPLAY IC M35045-XXXSP/FP
MITSUBISHI ELECTRIC
Receipt
Data :
Section head Supervisor
signature
signature
❈ Customer
Data
issued
❈
TEL
Company
name
(
Date :
Program version name
M045R
)
Issuance
signature
Note : Please fill in all items marked ❈,
Responsible
officer
.
Supervisor
V
❈ Remarks
● Return the Character Font Preparation Program after use.
● Three EPROMs are required. Specify the type of EPROMs submitted. (All the three EPROMs must be same types.
Check @ in the appropriate box.)
27256
27512
(1) The font data prepared by the Character Font Preparation Program is saved as a binary type object file
(addresses 0000h to 7FFFh). Three sets of these EPROMs are required.
(2) Attach the erase protect seals on three EPROMs. Each seal bears the type name (M35045), and ROM No.
(–...SP/FP).
● Write the checksum code (hexadecimal notation) for entire EPROM areas.
Checksum
● Select the marking type (Check @ in the appropriate box).
Special mark
....... Fill in the Mark Specification Form (20P4B for M35045-XXXSP, 20P2Q-A for
M35045-XXXFP) and attach to the Mask ROM Order Confirmation Form.
Standard Mark
....... No writing is required.
● The package type
....... SDIP type (M35045-XXXSP)
....... SSOP type (M35045-XXXFP)
❈ ● Comments
(1/6)
28
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
GZZ-SH00-36B<65AØ>
Mask ROM number
❈2. Character patterns (The patterns with the mark “#” are test patterns)
#
#
#
#
#
#
#
#
(See the next page)
(2/6)
29
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
0016
0116
0216
0316
0416
0516
0616
0716
0816
0916
0A16
0B16
0C16
0D16
0E16
0F16
1016
1116
1216
1316
1416
1516
1616
1716
1816
1916
1A16
1B16
1C16
1D16
1E16
1F16
2016
2116
2216
2316
2416
2516
2616
2716
2816
2916
2A16
2B16
2C16
2D16
2E16
2F16
3016
3116
3216
3316
3416
3516
3616
3716
3816
3916
3A16
3B16
3C16
3D16
3E16
3F16
(3/6)
30
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
4016
4116
4216
4316
4416
4516
4616
4716
4816
4916
4A16
4B16
4C16
4D16
4E16
4F16
5016
5116
5216
5316
5416
5516
5616
5716
5816
5916
5A16
5B16
5C16
5D16
5E16
5F16
6016
6116
6216
6316
6416
6516
6616
6716
6816
6916
6A16
6B16
6C16
6D16
6E16
6F16
7016
7116
7216
7316
7416
7516
7616
7716
7816
7916
7A16
7B16
7C16
7D16
7E16
7F16
(4/6)
31
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
8016
8116
8216
8316
8416
8516
8616
8716
8816
8916
8A16
8B16
8C16
8D16
8E16
8F16
9016
9116
9216
9316
9416
9516
9616
9716
9816
9916
9A16
9B16
9C16
9D16
9E16
9F16
A016
A116
A216
A316
A416
A516
A616
A716
A816
A916
AA16
AB16
AC16
AD16
AE16
AF16
B016
B116
B216
B316
B416
B516
B616
B716
B816
B916
BA16
BB16
BC16
BD16
BE16
BF16
(5/6)
32
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
C016
C116
C216
C316
C416
C516
C616
C716
C816
C916
CA16
CB16
CC16
CD16
CE16
CF16
D016
D116
D216
D316
D416
D516
D616
D716
D816
D916
DA16
DB16
DC16
DD16
DE16
DF16
E016
E116
E216
E316
E416
E516
E616
E716
E816
E916
EA16
EB16
EC16
ED16
EE16
EF16
F016
F116
F216
F316
F416
F516
F616
F716
F816
F916
FA16
FB16
FC16
FD16
FE16
FF16 Blank
(6/6)
33
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
20P2Q-A (20-PIN SHRINK SOP) MARK SPECIFICATION FORM
34
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
20P4B (20-PIN DIP) MARK SPECIFICATION FORM
35
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
PACKAGE OUTLINE
20P4B
20P2Q-A
36
MITSUBISHI MICROCOMPUTERS
M35045-XXXSP/FP
SCREEN CHARACTER and PATTERN DISPLAY CONTROLLERS
MITSUBISHI DATA BOOK
SINGLE-CHIP 4-BIT MICROCOMPUTERS
Enlarged
edition
Dec. First Edition 1996 H-DF463-A
Editioned by
Committee of editing of Mitsubishi Semiconductor Data Book
Published by
Mitsubishi Electric Corp., Semiconductor Division
This book, or parts thereof, may not be reproduced in any form without permission of
Mitsubishi Electric Corporation.
©1996 MITSUBISHI ELECTRIC CORPORATION Printed in Japan