MB90091APF [FUJITSU]
Intelligent On-screen Display Controller (IOSDC); 智能屏幕显示控制器( IOSDC )型号: | MB90091APF |
厂家: | FUJITSU |
描述: | Intelligent On-screen Display Controller (IOSDC) |
文件: | 总46页 (文件大小:381K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
FUJITSU SEMICONDUCTOR
DATA SHEET
DS04-28823-2E
ASSP Image Control
CMOS
Intelligent On-screen Display
Controller (IOSDC)
MB90091A
■ DESCRIPTION
The MB90091A is the multisync, on-screen display controller that supports a variety of TV systems such as
NTSC, PAL, double-scan NTSC, double-scan PAL, 1250HDTV, and 1125HDTV as well as personal computer
monitor display systems such as VGA and XGA.
The MB90091A contains display memory (VRAM) and character font ROM, allowing characters to be displayed
with few external devices. The device also contains command table ROM storing display command data,
minimizing the load on the microcomputer.
The on-screen display configuration is up to 24 characters × 12 lines, with each character consisting of 24 × 32
dots. The font ROM integrates 512 different character patterns.
The character signal output is an RGB1 digital output. The display color of each character can be specified
from among 16 colors. A color/monochrome select signal output is also provided for display either in 16 different
colors or in 16-level gray scale.
The character display functions include character background display, shaded background display, and sprite
character display functions, contributing to providing colorful display screens.
■ PACKAGES
64 pin, Plastic SH-DIP
64 pin, Plastic QFP
(DIP-64P-M01)
(FPT-64P-M06)
MB90091A
■ FEATURES
• Screen display capacity
• Font size
: Up to 24 characters x 12 lines (288 characters)
: 24 x 32 dots (horizontal x vertical)
• Font types
: 512 different characters (character codes 000H to 1FFH)
8 different sprite characters (character codes 1F8H to 1FFH)
(Internal or external ROM selectable)
• Display modes
: Trimmed display (pattern background 0, 1, or none)
Character background (settable for each character)
Shaded background (settable for each character)
• Sprite character display
: Capable of displaying one character (selectable from among 8 types of char-
acters) on the screen
Sprite character colors : 8 colors
Sprite trimming colors : 8 colors
Sprite display position : Settable in 2-dot units on the screen
• Character sizes
• Display colors
: Normal, doublewidth, doubleheight, doublewidthxdoubleheight, quadruple
width, quadruple width x double height
(Set for each line)
: Character color
: 16 colors (set for each character)
Trimmed background color : 16 colors (set for each line)
Character background color : 16 colors (set for each character)
Screen background color
: 16 colors
• Display position control
: Horizontal display start position : Set in 8-dot units
Vertical display start position
Line spacing control
: Set in 2-dot units
: Set in 2-dot units (0 to 30 dots)
• Character/color signal output : ROUT, GOUT, BOUT, IOUT (color signals)
COLOR (color/monochrome control signal)
VOB1 (character + pattern background + character background + screen
background: all-output signal)
VOB2 (character + pattern background + character background: specified-
character output signal)
• Supported TV systems
• Intelligent features
: NTSC, PAL, double-scan NTSC, double-scan PAL, 1250HDTV, 1125HDTV,
etc.
Personal computer monitor display systems such as VGA
: Automatic control of operation using on command table ROM
Command table ROM: Internal 32K bytes + external 32K bytes available
• Microcontroller/microcomputer interface : 8-bit serial input (3 signal input pins
Chip select: SCS
Serial clock: SCLK
Serial data: SIN
• Package
: SH-DIP-64, QFP-64
• Miscellaneous
: Power-on reset circuit integrated
2
MB90091A
■ PIN ASSIGNMENTS
(TOP VIEW)
COLOR
DOCK
V SS
1
2
64
VOB2
VOB1
IOUT
BOUT
GOUT
ROUT
TRE
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
3
4
5
TESTCK
TESTSW
HBLNK
VBLNK
HSYNC
VSYNC
EVEN
FLTIN
AV SS
FLTOUT
AV CC
FH
6
7
8
9
V CC
SCS
SIN
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
SCLK
FSEL
TSEL
RA15
RA14
RA13
RA12
V SS
RESET
V CC
RD0
RD1
RD2
RD3
RA11
RA10
RA9
RD4
RA8
RD5
RD6
RD7
RA7
RA6
RA5
TEST
V SS
V SS
RA4
TA16
TA17
TA18
FCS
V CC
RA3
RA2
RA1
RA0
TCS
(SH-DIP-64P)
(Continued)
3
MB90091A
(Continued)
(TOP VIEW)
HSYNC
VSYNC
EVEN
FLTIN
AV SS
FLTOUT
AV CC
FH
1
2
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
TRE
V CC
3
4
5
SCS
SIN
SCLK
FSEL
TSEL
RA15
RA14
RA13
RA12
V SS
6
7
8
9
RESET
V CC
10
11
12
13
14
15
16
17
18
19
RD0
RD1
RD2
RD3
RD4
RA11
RA10
RA9
RD5
RD6
RA8
RA7
RD7
TEST
RA6
RA5
(FPT-64P-M06)
4
MB90091A
■ PIN DESCRIPTION
Pin No.
Pin name
I/O
Function
Horizontal sync signal input pin
DIP
8
QFP
1
2
HSYNC
VSYNC
I
I
Dot clock generation is based on the cycle of the signal.
9
Vertical sync signal input pin
Field control signal input pin
Input of an “L” level signal to this pin causes the font ROM address
LSB pin (RA0) to output an “L” level signal.
Input of an “H“ level signal to this pin causes the font ROM address
LSB pin (RA0) to output an “H” level signal (when normal-size
characters are displayed).
10
3
EVEN
I
This pin is disabled in noninterlaced mode.
Output pin for horizontal-sync phase comparison result signal
This pin is connected to an external lowpass filter.
11
4
FLTIN
O
Internal VCO voltage input pin
This pin inputs the voltage signal from the external lowpass filter.
13
15
16
6
8
9
FLTOUT
FH
I
O
I
Output pin for AFC-generated horizontal sync signal
Reset pin
RESET
This pin is enabled after release from a power-on reset.
18
19
20
21
22
23
24
25
11
12
13
14
15
16
17
18
RD0
RD1
RD2
RD3
RD4
RD5
RD6
RD7
External ROM data input pin
This pin inputs data from external font ROM or external command
data ROM.
I
Test signal input pin
This pin inputs an “L” level (fixed) signal during normal operation.
26
19
TEST
I
28
29
30
21
22
23
TA16
TA17
TA18
O
Test signal output pin
31
32
24
25
FCS
TCS
O
O
External font ROM chip select pin
Chip select pin for external command table ROM
(Continued)
5
MB90091A
(Continued)
Pin No.
Pin name
I/O
Function
DIP
QFP
33
34
35
36
38
40
41
42
43
44
45
46
48
49
50
51
26
27
28
29
31
33
34
35
36
37
38
39
41
42
43
44
RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8
External ROM address signal output pin
This pin outputs the signal specifying the external font ROM or
external command table ROM address.
External font ROM addresses
RA0 to RA4 : Raster addresses
RA5 to RA11 : Character codes (M0 to M6)
RA12, RA13 : Character horizontal address
= (0, 0): Left byte
O
RA9
RA10
RA11
RA12
RA13
RA14
RA15
= (1, 0): Center byte
= (0, 1): Right byte
RA14, RA15 : Character codes (M7, M8)
Address control input pin for command table ROM
“L” level input : 0000H to 7FFFH Internal ROM
8000H to FFFFH External ROM
“H” level input : 0000H to 7FFFH External ROM
8000H to FFFFH Internal ROM
52
45
TSEL
I
I
Internal/external font ROM select pin
“L” level input : Select internal ROM.
“H” level input : Select external ROM.
53
46
FSEL
54
55
47
48
SCLK
SIN
I
I
Shift clock input pin for serial transfer
Serial data input pin
Chip select pin
For serial transfer, set this pin to the “L” level.
This pin is also used to cancel a power-on reset.
56
58
49
51
SCS
TRE
I
Output pin for the signal indicating internal operation
This pin outputs an “H” level signal during data transfer from
command table ROM.
O
Chrominance signal output pin
59
60
61
62
52
53
54
55
ROUT
GOUT
BOUT
IOUT
For output of a character, character background, pattern background,
shaded background, screen background, or sprite character
(including a pattern background), this pin outputs the chrominance
signal.
O
O
Pin for specifying the chrominance signal output period
This pin outputs an “H” level signal for output of a character, character
background, pattern background, shaded background, screen
background, or sprite character (including a pattern background.
63
64
56
57
VOB1
VOB2
Pin for specifying the specified character output period
When the command 6: ATH bit = “1”, this pin outputs an “H” level
signal in the character output period (24 x 32 dot period) when the
command 1: AT bit = “1”.
O
The pin can be used for display control by an external circuit, for
example, for halftone display control.
(Continued)
6
MB90091A
(Continued)
Pin No.
Pin name
I/O
Function
DIP
QFP
Color/monochrome select signal output pin
This pin allows “H” or “L” level output in each of the character,
character background, line background, screen background, and
sprite output periods to be specified depending on the internal
register setting.
1
58
COLOR
O
Color/monochrome display is controlled by an external circuit.
(The following correspondence is used for convenience:
“L” level: Monochrome display
“H” level: Color display)
Dot clock output pin
This pin outputs a dot clock signal when the command 11:DOT = “1”.
2
4
5
59
61
62
DOCK
O
I
Test signal input pin
This pin inputs an “H” level (fixed) signal during normal operation.
TESTCK
TESTSW
Test signal input pin
This pin inputs an “H” level (fixed) signal during normal operation.
I
Horizontal blanking signal input pin
This pin stops display signal output (“L” level output) when it inputs an
“L” level signal.
6
7
63
64
HBLNK
VBLNK
VCC
I
I
Vertical blanking signal input pin
This pin stops display signal output (“L” level output) when it inputs an
“L” level signal.
17
37
57
10
30
50
—
+5 V power supply pin
Ground pin
27
39
47
3
20
32
40
60
VSS
—
14
12
7
5
AVCC
AVSS
—
—
+5V power supply pin for VCO
Ground pin for VCO
7
MB90091A
■ BLOCK DIAGRAM
MB90091A
TRE
TSEL
SCS
SIN
Serial input
control
Command
table ROM
control
TCS
SCLK
RA0 to 15
RD0 to 7
Command
table ROM
FLTIN
FLTOUT
LPF
Dot clock
generator
FH
Command
table ROM
DOCK
FCS
Display
memory
control
HSYNC
VSYNC
EVEN
Font ROM
Font ROM
control
FSEL
Display
memory
(VRAM)
Font ROM
BOUT
ROUT
GOUT
IOUT
VOB 1
VOB 2
COLOR
Display data
output control
RESET
Resets each block.
8
MB90091A
■ ABSOLUTE MAXIMUM RATINGS
(VSS = AVSS = 0 V)
Ratings
Parameter
Symbol
Unit
Min.
VSS – 0.3
VSS – 0.3
VSS – 0.3
VSS – 0.3
—
Max.
VCC
VSS + 7.0
VSS + 7.0
VSS + 7.0
VSS + 7.0
500
V
V
Power supply voltage *1
AVCC
Input voltage *2
VIN
V
Output voltage *3
VOUT
Pd
V
Power consumption
Operating temperature
Storage temperature
mW
°C
°C
Ta
0
+ 70
Tstg
– 55
+ 150
*1: AVCC and VCC must have equal potential.
*2: Neither VIN nor VOUT must exceed “VCC + 0.3 V”.
WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current,
temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings.
■ RECOMMENDED OPERATING CONDITIONS
(VSS = AVSS = 0 V)
Values
Parameter
Power supply voltage *
“H” level input voltage
“L” level input voltage
Symbol
Unit
Remarks
Min.
4.75
Max.
5.25
VCC
AVCC
VIHS1
VIHS2
VILS1
VILS2
Ta
V
V
Specification guarantee range
4.75
5.25
2.4
VCC + 0.3
VCC + 0.3
0.45
V
RD0 to RD7 inputs
Other inputs
0.8 × VCC
– 0.3
VSS – 0.3
0
V
V
RD0 to RD7 inputs
Other inputs
0.2 × VCC
+ 70
V
Operating temperature
Analog input voltage
°C
V
VIN
0
VCC
FLTOUT input
* : AVCC and VCC must have equal potential.
WARNING: Recommended operating conditions are normal operating ranges for the semiconductor device. All
the device’s electrical characteristics are warranted when operated within these ranges.
Always use semiconductor devices within the recommended operating conditions. Operation outside
these ranges may adversely affect reliability and could result in device failure.
No warranty is made with repect to uses, operating conditions, or combinations not represented on
the data sheet. Users considering application outside the listed conditions are advised to contact their
FUJITSU representative beforehand.
9
MB90091A
■ ELECTRICAL CHARACTERISTICS
1. DC Characteristics
Values
Typ.
Parameter
Symbol
Pin
Conditions
VCC = 4.75 V
Unit
Min.
Max.
“H” level output voltage
“L” level output voltage
VOH
VOL
4.0
—
—
—
V
V
IOH = – 2.0 mA
All out-
put pins
VCC = 4.75 V
IOL = 4.0 mA
—
0.4
HSYNC
VSYNC
EVEN
RESET
RD0 to
RD7
TSEL
FSEL
SCLK
SIN
SCS
VCC = 5.25 V
IIL = 4.0 mA
Input current
IIL
—
—
—
– 50
mA
mA
HBLNK
VBLNK
VCC = AVCC = 5.25 V
DOCK = 42 MHz
No load
VCC
AVCC
Supply current
ICC
—
40
10
MB90091A
2. AC Characteristics
(1) Serial input timing
(VCC = AVCC = 5.0 V ± 5%, VSS = AVSS = 0 V, Ta = 0°C to +70°C)
Values
Parameter
Shift clock cycle time
Symbol
Pin
Unit
Min.
1000
450
450
—
Max.
—
tCVC
tWCH
tWCL
tCR
SCLK
SCLK
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
—
Shift clock pulse width
—
200
200
—
Shift clock signal rise/fall time
SCLK
tCF
—
Shift clock start time
Data setup time
tSS
SCLK
SIN
200
200
100
500
—
tSU
—
Data hold time
tH
SIN
—
Chip select end time
tEC
SCS
—
tCRC
tCFC
200
200
Chip select signal rise/fall time
SCS
—
0.8 V CC
0.2 V CC
0.8 V CC
0.2 V CC
SCS
t CRC
t SS
t CYC
t EC
t CFC
0.8 V CC
0.2 V CC
SCLK
t WCH
t WCL
t SU
t CR
t CF
t H
0.8 V CC
0.2 V CC
SIN
11
MB90091A
(2) Vertical and horizontal sync signal input timings
(VCC = AVCC = 5.0 V ± 5%, VSS = AVSS = 0 V, Ta = 0°C to +70°C)
Values
Parameter
Symbol
Pin
Unit
Min.
—
—
—
—
1
Max.
200
200
200
200
—
Horizontal sync signal rise time
Horizontal sync signal fall time
Vertical sync signal rise time
Vertical sync signal fall time
tHR
tHF
HSYNC
HSYNC
VSYNC
VSYNC
HSYNC
VSYNC
VSYNC
VSYNC
ns
ns
ns
ns
µs
H
tVR
tVF
Horizontal sync signal pulse width
Vertical sync signal pulse width
Horizontal sync signal setup time
Vertical sync signal setup time
tWH
tWV
tHVST
tHVHD
2
—
5
—
µs
µs
5
—
0.8 V CC
0.8 V CC
HSYNC
VSYNC
0.2 V CC
0.2 V CC
t HR
t HF
t WH
0.8 V CC
0.2 V CC
0.8 V CC
0.2 V CC
t VF
t WV
t VR
0.8 V CC
HSYNC
VSYNC
t HVST
t HVHD
0.8 V CC
0.2 V CC
12
MB90091A
The MB90091A outputs display signals in synchronization with sync signals input from external circuits. The
signals required for controlling synchronization are the horizontal sync signal (input via the HSYNC pin), vertical
sync signal (input via the VSYNC pin), and field control signal (input via the EVEN pin).
The following examples illustrate external sync signal input timings applicable to general interlaced display.
Noninterlaced display does not require the EVEN pin signal.
• External sync signal input timing examples
(1) Field A
Slow*2
VSYNC
FH
(HSYNC)*1
EVEN
2
*
(2) Field B
Fast*2
VSYNC
FH
(HSYNC)*1
2
EVEN
*
*1: Input the horizontal sync signal to the HSYNC pin.
Input of a composite sync signal may change the FH signal cycle due to the PLL lock disturbed around
the VSYNC pulse, requiring a caution to be used for the timing of input to the EVEN pin. (See *2 below.)
*2: The input levels of the EVEN pin input signal in fields A and B are determined depending on the
relationship between the VSYNC and FH pulse positions. To the EVEN pin, input the “L” level signal in
the field in which the FH pulse after the rise of the VSYNC pulse appears fast. Pin the “H” level signal
in the field in which it appears slow.
The EVEN pin input signal should vary in the undisplay period such as around the VSYNC pulse.
13
MB90091A
(3) RESET signal input timing
(VCC = AVCC = 5.0 V ± 5%, VSS = AVSS = 0 V, Ta = 0°C to +70°C)
Values
Parameter
Symbol
Pin
Unit
Min.
Max.
Reset input pulse width
tWR
RESET
10
—
µs
RESET
0.2 V CC
0.2 V CC
t WR
14
MB90091A
(4) Address data hold timing
(VCC = AVCC = 5.0 V ± 5%, VSS = AVSS = 0 V, Ta = 0°C to +70°C)
Values
Parameter
Symbol
Pin
Unit
Min.
Max.
ROM read cycle
trcyc
tav
tai
—
Dot clock* x 8
—
ns
ns
ns
ns
ns
ns
Address valid delay
Address invalid delay
Read data setup
—
0
30
—
—
—
22
—
RA0 to
RA15
tds
tdh
tca
tci
30
0
RD0 to RD7
TCS, FCS
Read data hold
TCS, FCS active delay
TCS, FCS inactive delay
—
0
* : Dot clock = 84 to 42 MHz
t rcyc
8
1
2
3
4
5
6
7
8
1
DOCK
0.2 V CC
0.8 V CC
0.2 V CC
RA0 to 15
t av
t ai
0.8 V CC
0.2 V CC
TCS, FCS
RD0 to 7
t ci
t ca
0.8 V CC
0.2 V CC
t ds
t dh
15
MB90091A
(5) Display data output timing
(VCC = AVCC = 5.0 V ± 5%, VSS = AVSS = 0 V, Ta = 0°C to +70°C)
Values
Parameter
Symbol
Pin
Unit
Min.
Max.
ROUT, GOUT, BOUT
IOUT, VOB1, VOB2
COLOR
Display data output delay
t d1
0
22
ns
0.2 V CC
DOCK
t d1
ROUT, GOUT, BOUT
IOUT, VOB1, VOB2
COLOR
0.8 V CC
0.2 V CC
16
MB90091A
3. Power-on Reset Specifications
(1) Power ON-OFF timing
(Ta = 0°C to +70°C)
Values
Max.
Parameter
Symbol
Pin
Unit
Remarks
Min.
Power-on reset circuit
activating conditions
Power-supply rise time
t r
0.05
50
—
ms
VCC, AVCC
Conditions in which the
circuit repeatedly
Power-supply shut-off time
toff
1
ms
operate normally
4.75 V
0.2 V
0.2 V
0.2 V
V CC
t r
t off
Note: The power supply must be activated smoothly
17
MB90091A
(2) Power-on reset cancel timing
(Ta = 0°C to +70°C)
Values
Max.
Parameter
Time after rise
Symbol
Pin
Unit
Remarks
Min.
450
450
450
tWIT
tWRH
tWRL
—
—
—
ns
ns
ns
Power-on reset cancel
timing
SCS
Reset cancel pulse width
4.75 V
V CC
Internal reset
SCS
t WIT
0.8 V CC
0.2 V CC
SCS
t WRL
t WRH
t CRC
*
t CFC*
*: See the table in "(1) Serial timing" in Section 2 "AC Characteristics".
18
MB90091A
■ Command List
• List of display control commands
First byte
Second byte
Data
Command code/data
Function
76543
2
1
0
7
6
5
4
3
2
1
0
0
1
2
3
4
5
6
10000
0
A8
A7
B1
0
0
0
0
0
0
0
A6
A5
A4
A3
CI
A2 A1
A0 Set write address
10001 AT BS
10010
10011 X9
10100
BG BR BB
CG CR CB Set character color
0
M8 M7
M6 M5 M4 M3 M2 M1 M0 Set character code
X8
0
X7
0
0
0
G2 G1 G0 KGR KGD KGU Line control 1
0
0
PC
PI
PG PR
PB Line control 2
10101 ATK ATR ATB
10110 SC CC BC
W3 W2 W1 W0 K24 P0
ATH UC UON UI
DC Screen control 1
UG UR UB Screen control 2
Set vertical display start
position
10111
10111
0
1
0
0
0
0
0
Y6
X6
Y5
X5
Y4
X4
Y3
X3
Y2 Y1
X2 X1
Y0
X0
7
Set horizontal display start
position
0
0
0
8
9
11000 SP2 SP1 SP0
SCG SCR SCB SBP SBG SBR SBB Sprite control
Set sprite vertical display
position
11001
0
0
SY8 SY7
SX8 SX7
SY6 SY5 SY4 SY3 SY2 SY1 SY0
SX6 SX5 SX4 SX3 SX2 SX1 SX0
Set sprite horizontal display
position
10 11010
0
11011
11
0
1
DOT
0
0
0
1*2
DK6 DK5 DK4 DK3 DK2 DK1 DK0 Synchronization control 2
SA6 SA5 SA4 SA3 SA2 SA1 Set transfer start address 1
0
PR1 PR0
0
SC1 SC0 Synchronization control 1
11011
0
0
0
0
1*2
SA0*2
11100
12
0
SA7
SAF
EA7
0
11100
1
0
SAE SAD SAC SAB SAA SA9 SA8 Set transfer start address 2
EA6 EA5 EA4 EA3 EA2 EA1 EA0 Set transfer end address 1
EAE EAD EAC EAB EAA EA9 EA8 Set transfer end address 2
11101
13
0
0
11101
1
VBS EAF
0
14 11110
15 11111
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
(Reserved)
(Reserved)
*1: The SA0 and EA0 bits can only be set to “0“ and “1”, respectively.
*2: Set the bits to “1”.
19
MB90091A
1. Command 0 (Set Write Address)
• Command format
MSB
LSB
A7
1
0
0
0
0
0
A8
A1
First byte
MSB
0
LSB
A0
A6
A5
A4
A3
A2
Second byte
A8 to A0: VRAM address
• Function
Command 0 specifies the write address in display memory (VRAM). Before writing data using commands 1
and 2, use this command to determine the address to write that data at.
• Description
To set the VRAM address, specify the vertical column address (A8 to A5) and horizontal row address (A4 to
A0). The VRAM address is incremented automatically when a character code is set (by command 2).
A8 to A0: VRAM address
Set the VRAM address.
The A8 to A5 bits specify the vertical column address; the A4 to A0 bits specify the horizontal row address.
The row address is valid between 00H to 17H.
The column address is valid between 0H to BH.
Do not set the column or row address to any value outside the above valid range.
20
MB90091A
2. Command 1 (Set Character Color)
• Command format
MSB
LSB
BI
1
0
0
0
1
AT
BS
CR
First byte
MSB
0
LSB
CB
BG
BR
BB
CI
CG
Second byte
: Specify character qualification display.
AT
(Specify display of a character background, blinking, inverted shading.)
: Specify shaded background display.
BS
: Set a character background color.
: Set a character color.
B1 to BB
C1 to CB
• Function
Command 1 sets the character color and character background color and specifies character qualification
display and shaded background display.
• Description
The character color, character background color, character qualification display, and shaded background dis-
play can be set/specified for each character. Character background display, blinking, and inverted shading
can be used for characters for which character qualification display is specified.
These settings are written to VRAM and applied to the display screen the moment command 2 (Set Character
Code) is issued.
AT: Specify character qualification display.
(Specify display of a character background, blinking, inverted shading.)
AT = 0: Normal display (without character qualification)
This setting suppresses character background display, blinking, and inverted shading in shaded
background display.
The output level at the VOB2 pin becomes “L“.
AT = 1: Character qualification display
This setting enables character background display, blinking, and inverted shading in shaded back-
ground display.
“H“ level output is enabled at the VOB2 pin.
Setting the command 5 (Screen Control 1) ATR bit to “1“ specifies character background display.
Setting the ATB bit for command 5 (Screen Control 1) to “1“ specifies blinking.
Setting both the ATK and BS bits for command 5 (Screen Control 1) to “1“ specifies inverted
shading.
Setting the command 6 (Screen Control 2) ATH bit to “1“ sets the output level at the VOB2 pin to “H“.
BS: Specify shaded background display.
BS = 0: Normal display (without shaded background display)
BS = 1: Shaded background display
Setting both the ATK and AT bits for command 5 (Screen Control 1) to “1“ specifies inverted
shading.
C1, CG, CR, CB: Set the character color.
B1, BG, BR, BB: Set the background color.
21
MB90091A
3. Command 2 (Set Character Code)
• Command format
MSB
LSB
M7
1
0
0
1
0
0
M8
M1
First byte
MSB
0
LSB
M0
M6
M5
M4
M3
M2
Second byte
M8 to M0: Character code
• Function
Command 2 writes a character code to display memory (VRAM).
• Description
The character code data set by this command is written to display memory (VRAM) along with the character
color, character background color, shaded background display, and character qualification display data set by
command 1 (Set Character Color).
Character code is represented by nine bits from M8 to M0, enabling use of 512 different character patterns
from 000H to 1FFFH stored in internal or external font ROM.
Upon completion of writing data, the write address is incremented automatically.
M8 to M0: Character code
000H to 1FFFH can be set to specify 512 different characters.
22
MB90091A
4. Command 3 (Line Control 1)
• Command format
MSB
LSB
X7
1
First byte
0
0
0
1
1
X9
X8
MSB
0
LSB
KGR KGD KGU
Second byte
G2
G1
G0
X9 to X7 : Line horizontal display start position
G2 to G0 : Character size
KGR
KGD
KGU
: Specify shaded background left/right joint display
: Specify shaded background downward joint display
: Specify shaded background upward joint display
• Function
Command 3 sets the line horizontal display start position, character size, and shaded background joint display
for each line.
• Description
Line control data set by this command is applied to the display screen when command 4 (Line Control 2) is
issued.
X9 to X7: Line horizontal display start position
The offset value can be set for each line, relative to the horizontal display start position set by
command 7-1 (Set Horizontal Display Start Position).
The valid range of values is 0 to 7H (In 2-character units: 0 to 14 characters)
• Line horizontal display start position
(X6 to X7)
(X9, X8, X7)
0
1
2
3
4
5
6
7
F
8
G
A
9
H
B
10
I
= (0, 0, 0)
= (0, 0, 1)
= (1, 0, 0)
A
B
C
D
E
2 characters
C
8 characters
23
MB90091A
G2 to G0: Character size
G2
0
G1
0
G0
0
Character size
Normal
0
0
1
Single height x double width
Double height x single width
Double height x double width
Single height x quadruple width
(Setting prohibited)
0
1
0
0
1
1
1
0
0
1
0
1
1
1
0
Double height x quadruple width
(Setting prohibited)
1
1
1
Note: The horizontal display start position for “double width x single or double height“ display is shifted three dots
to the right from that for normal-size display. The horizontal display start position for “quadruple width x single
or double height“ display is shifted nine dots to the right from that for normal-size display. Be careful when
displaying normal-size and enlarged lines at the same time.
KGR: Specify shaded background left/right joint display.
KGR = 0: Display the shaded backgrounds horizontally adjacent to each other, joined together (without
display their adjacent, vertical sides).
KGR = 1: Displaytheshadedbackgroundshorizontallyadjacenttoeachother, separatelyforeachcharacter
(while displaying their adjacent, vertical sides).
KGD: Specify shaded background downward joint display.
KGD = 0: Display the shaded background including its lower side.
KGD = 1: Display the shaded background excluding its lower side.
KGU: Specify shaded background upward joint display
KGU = 0: Display the shaded background including its lower side.
KGU = 1: Display the shaded background excluding its lower side.
24
MB90091A
5. Command 4 (Line Control 2)
• Command format
MSB
LSB
0
1
First byte
0
0
1
0
0
0
0
0
MSB
0
LSB
Second byte
PC
PI
PG
PR
PB
PC
: Control the pattern background color.
PI to PB : Set the pattern background color.
• Function
Command 4 sets the pattern background color and controls it between color and monochrome modes.
• Description
The data set by this command is written to the column RAM specified by the VRAM column address set by
command 0 (Set Write Address), along with the line control data set by command 3 (Line Control 1).
The Line Control 1 and 2 data is applied to the display screen and the column address is incremented the
moment this command is issued.
PC: Control the pattern background color.
PC = 0: Display the pattern background in monochrome.
During the pattern background color output period, the COLOR pin remains at the “L“ output level.
PC = 1: Display the pattern background in color.
During the pattern background color output period, the COLOR pin remains at the “H“ output level.
PI, PG, PR, PG: Set the pattern background color.
25
MB90091A
6. Command 5 (Screen Control 1)
• - Command format
MSB
LSB
ATB
1
First byte
0
1
0
1
ATK
K24
ATR
P0
MSB
0
LSB
DC
Second byte
W3
W2
W1
W0
: Control inverted shading.
ATK
: Control character background display.
: Control blinking.
: Control the line spacing.
: Specify the shadow frame szize.
: Control the pattern background.
: Control displ
ATR
ATB
W3 to W0
K24
P0
DC
• Function
Command 5 controls the display screen.
• Description
ATK: Control inverted shading.
ATK = 0: Normal display
Inverted display is disabled.
ATK = 1: Enable inverted display.
This mode displays those characters in reverse video (with the inverted, shaded background)
for which the BS and AT bits for command 1 (Set Character Color) have been both set to “1“.
ATR: Control character background display.
ATR = 0: Normal display
Character background display is disabled.
ATR = 1: Enable character background display.
Character background display applies to those characters for which the BS and AT bits for
command 1 (Set Character Color) have been set to “0“ and “1“, respectively.
ATB: Control blinking.
ATB = 0: Normal display
Blinking is disabled.
ATB = 1: Enable blinking.
This mode causes those characters to blink for which the AT bit for command 1 (Set Character
Color) has been set to “1“.
W3 to W0: Control the line spacing.
Set the line spacing in 2-dot units.
0 to 30 dots can be specified.
26
MB90091A
K24: Specify the shadow frame size.
K24 = 0: Set the height of shadow frames for shaded background display to 32 dots.
K24 = 1: Set the height of shadow frames for shaded background display to 24 dots.
P0: Control the pattern background.
P0 = 0: Set pattern background mode “pattern background 0“.
ROM data “1“ is displayed as a character dot.
P0 = 1: Set pattern background mode “pattern background 1“.
Character and pattern background dots are separately generated automatically from a ROM
data array.
Note: Note: As the pattern background mode, set the mode used when the relevant font was designed.
DC: Control display.
DC = 0: Disable output operation for displaying characters and sprite characters.
Only the screen background color can be output.
DC = 0: Enable output operation for displaying characters and sprite characters.
The screen background color can also be output.
27
MB90091A
7. Command 6 (Screen Control 2)
• Command format
MSB
LSB
BC
1
First byte
0
1
1
0
SC
UG
CC
UR
MSB
0
LSB
UB
Second byte
ATH
UC
UON
UI
SC
CC
BC
ATH
UC
: Control the sprite character color.
: Control the character color.
: Control the character background.
: Control specified character output.
: Control the screen background color.
UON
: Control screen beckground color output.
UI to UB: Set the screen background color.
• Function
Command 6 specifies the character color, character background color, screen background color, sprite char-
acter color, color/monochrome mode, specified character output. This command also enables or disables
screen background color output and sets the screen background color.
• Description
SC: Control the sprite character color.
SC = 0: Display the sprite character and sprite pattern background in monochrome.
During the sprite character/pattern background output period, the COLOR pin outputs the “L“
level signal.
SC = 1: Display the sprite character and sprite pattern background in color.
During the sprite character/pattern background output period, the COLOR pin outputs the “H“
level signal.
CC: Control the character color.
CC = 0: Display characters in monochrome.
During the character output period, the COLOR pin outputs the “L“ level signal.
CC = 1: Display characters in color.
During the character output period, the COLOR pin outputs the “H“ level signal.
BC: Control the character background.
BC = 0: Display the character background in monochrome.
During the character background output period, the COLOR pin outputs the “L“ level signal.
BC = 1: Display the character background in color.
During the character background output period, the COLOR pin outputs the “H“ level signal.
Note: Note: Use an external circuit to control display mode between monochrome and color using the COLOR pin.
28
MB90091A
ATH: Control specified character output.
ATH = 0: Normal display
The VOB2 pin outputs the “L“ level signal.
ATH = 1: The VOB2 pin outputs the “H“ level signal during the output period (24 x 32b dots period) for
those characters for which the AT bit for command 1 (Set Character Color) has been set to 1.
Note: Note: Use an external circuit to handle the VOB2 pin signal, allowing the specified character to be displayed
in halfbright, translucent, and other special display mode.
UC: Control the screen background color.
UC = 0: Display the screen background in monochrome.
During the screen background output period, the COLOR pin outputs the “L“ level signal.
UC = 1: Display the screen background in color.
During the screen background output period, the COLOR pin outputs the “H“ level signal.
UON: Control screen background color output.
UON = 0: Prevent the screen background color from being output.
During the screen background color output period, the IOUT, GOUT, ROUT, BOUT, and VOB1
pins output “L“ level signals.
UON = 1: Output the screen background color.
During the screen background color output period, the IOUT, GOUT, ROUT, and BOUT pins
output the screen background color and the VOB1 pin outputs the “L“ level signal.
UI, UG, UR, UB: Set the screen background color.
29
MB90091A
8. Command 7-0 (Set Vertical Display Start Position)
• Command format
MSB
LSB
0
1
First byte
0
1
1
1
0
0
MSB
0
LSB
Second byte
Y6
Y5
Y4
Y3
Y2
Y1
Y0
Y6 to Y0: Set the vertical display start position.
• Function
Command 7-0 sets the vertical display start position.
• Description
Y6 to Y0: Set the vertical display start position.
Set the position to start vertical display. The valid range of values is 00H to 7FH for setting in 2-dot
units (0 to 254 dots).
The following illustrates the relationship between the vertical display start position and the *VSYNC
signal.
• Vertical display start position
VSYNC
20H
Vertical display
start position
30
MB90091A
9. Command 7-1 (Set Horizontal Display Start Position)
• Command format
MSB
LSB
0
1
First byte
0
1
1
1
1
0
MSB
0
LSB
Second byte
X6
X5
X4
X3
X2
X1
X0
X6 to X0: Set the horizontal display start position.
• Function
Command 7-0 sets the horizontal display start position.
• Description
X6 to X0: Set the horizontal display start position.
Set the position to start horizontal display. The valid range of values is 00H to 7FH for setting in 8-
dot units.
The following illustrates the relationship between the horizontal display start position and the YSYNC
signal.
• Horizontal display start position
Horizontal operation
started*
Horizontal display start position
HSYNC
* : Character size: About 100-dot clock for normal display
Double or quadruple width display is shifted further to the right from the above value.
For details, see Page 24
31
MB90091A
10.Command 8 (Sprite Control)
• Command format
MSB
LSB
SP0
1
First byte
1
0
0
0
SP2
SP1
MSB
0
LSB
SBB
Second byte
SCG SCR
SCB SBP
SBG SBR
SP2 to SP0 : Set sprite character code.
SCG to SCB : Set the sprite character color.
SBP : Set the sprite pattern background.
SBG to SBB : Set the sprite pattern background color.
• Function
Command 8 sets the sprite character code, character color, pattern background display, and pattern back-
ground color.
• Description
SP2 to SP0: Set sprite character code.
Specify the sprite character type from among character codes 1F8H to 1FFH representing eight
character types.
SP2
0
SP1
0
SP0
0
Sprite character
1F8H
0
0
1
1F9H
0
1
0
1FAH
0
1
1
1FBH
1
0
0
1FCH
1
0
1
1FDH
1
1
0
1FEH
1
1
1
1FFH
SCG to SCB: Set the sprite character color.
SBP: Control sprite pattern background display.
SBP = 0: Display no pattern background for the sprite.
Thisdisplaymodeis“Nopatternbackground“(displayingonlythosecharacterdotsdisplayed
in “Pattern background 1“ mode).
SBP = 1: Display a pattern background for the sprite.
This display mode is “Pattern background 1“.
SBG to SBB: Set the sprite pattern background color.
32
MB90091A
11.Command 9 (Set Sprite Vertical Display Position)
• Command format
MSB
LSB
SY7
1
First byte
1
0
0
1
0
SY8
MSB
0
LSB
SY0
Second byte
SY6
SY5
SY4 SY3
SY2 SY1
SY8 to SY0: Set the sprite vertical display position.
• Function
Command 9 sets the sprite character vertical display position.
• Description
SY8 to SY0: Set the sprite vertical display position.
Set the vertical display position of the sprite character.
The valid range of values is 000H to 1FFH for setting in 2-dot units (0 to 1022 dots).
The following illustrates the relationship between the sprite vertical display position and the
VSYNC signal.
• Sprite vertical display position
VSYNC
20H
Sprite vertical
display position
33
MB90091A
12.Command 10 (Set Sprite Horizontal Display Position)
• Command format
MSB
LSB
SX7
1
First byte
1
0
1
0
0
SX8
MSB
0
LSB
SX0
Second byte
SX6
SX5
SX4 SX3
SX2 SX1
SX8 to SX0: Set the sprite horizontal display position.
• Function
Command 10 sets the sprite character horizontal display position.
• Description
SY8 to SY0: Set the sprite horizontal display position.
Set the horizontal display position of the sprite character.
The valid range of values is 000H to 1FFH for setting in 2-dot units (0 to 1022 dots).
Setting these bits to 000H disables sprint display.
The following illustrates the relationship between the sprite horizontal display position and the
HSYNC signal.
• Sprite horizontal display position
Sprite horizontal display started*
Sprite horizontal display position
HSYNC
* : About 80-dot clock.
34
MB90091A
13.Command 11-0 (Synchronization Control 1)
• Command format
MSB
1
LSB
0
First byte
1
0
0
1
1
0
0
DOT
SC1
MSB
0
LSB
SC0
Second byte
1*
PR1 PR0
DOT
: Control dot clock output.
PR1, PR0 : Control the prescaler.
SC1, SC0 : Control the scan system.
*: Set this bit to "1".
• Function
Command 10 controls synchronization.
• Description
DOT: Control dot clock output.
DOT = 0: Do not output the dot clock signal to the DOCK pin.
DOT = 1: Output the dot clock signal to the dock pin.
PR1, PR0: Control the prescaler.
PR1
PR0
Prescaler operation
Corresponding dot clock
0
0
1
1
0
1
0
1
÷2
÷3
÷5
÷6
25.0 to 42.0 MHz
16.7 to 28.3 MHz
10.0 to 17.0 MHz
8.4 to 14.1 MHz
SC1, SC0: Control the scan system.
SC1
SC2
Scan system
0
0
1
1
0
1
0
1
Interlaced scan
Noninterlaced scan
Step scan
(Setting prohibited)
Interlaced or step scan operation requires the field control signal to be input to the EVEN pin.
35
MB90091A
14.Command 11-1 (Synchronization control 2)
• Command format
MSB
1
LSB
1*
First byte
1
0
1
1
1
0
MSB
0
LSB
Second byte
DK6
DK5
DK4 DK3
DK2 DK1
DK0
DK6 to DK0: Control dot clock signals.
*: Set this bit to "1".
• Function
Command 11-1 controls dot clock signals.
• Description
DK6 to DK0: Control dot clock signals.
Set the divisor in 16-dot units for generating dot clock signals by dividing the FH (horizontal
frequency). The valid range of values is 00H to 7FH.
This enables the horizontal frequency to be divided by up to 2032.
15.Command 12-0 (Set Transfer Start Address 1)
• Command format
MSB
LSB
SA7
1
First byte
1
1
0
0
0
0
MSB
0
LSB
SA2 SA1 SA0*
Second byte
SA6
SA5
SA4 SA3
SA7 to SA0: Lower address for starting transfer from command table ROM
*: The SA0 bit can only be set to "0".
• Function
Command 12-0 sets the lower address for starting transfer of data from command table ROM.
• Description
SA7 to SA0: Lower address for starting transfer from command table ROM
These bits can be set only to an even address. The SA0 bit is set internally to “0“.
Data transfer from ROM is initiated by issuing command 13-1 (Set Transfer End Address 2).
36
MB90091A
16.Command 12-1 (Set Transfer Start Address 2)
• Command format
MSB
LSB
SAF
1
First byte
1
1
0
0
1
0
MSB
0
LSB
SA8
Second byte
SAE SAD
SAC SAB
SAA SA9
SAF to SA8: Upper address for starting transfer from command table ROM
• Function
Command 12-1 sets the upper address for starting transfer of data from command table ROM.
• Description
SAF to SA8: Upper address for starting transfer from command table ROM
Data transfer from ROM is initiated by issuing command 13-1 (Set Transfer End Address 2).
17.Command 13-0 (Set Transfer End Address 1)
• Command format
MSB
1
LSB
EA7
First byte
1
1
0
1
0
0
MSB
0
LSB
EA0*
Second byte
EA6
EA5
EA4 EA3
EA2 EA1
EA7 to SA0: Lower address for ending transfer from command table ROM
*: The EA0 bit can onlybe set to "1".
• Function
Command 13-0 sets the lower address for ending transfer of data from command table ROM.
• Description
EA7 to EA0: Lower address for ending transfer from command table ROM
These bits can be set only to an odd address. The EA0 bit is set internally to “1“.
Data transfer from ROM is initiated by issuing command 13-1 (Set Transfer End Address 2).
37
MB90091A
18.Command 13-1 (Set Transfer End Address 2)
• Command format
MSB
LSB
EAF
1
First byte
1
1
0
1
1
VBS
MSB
0
LSB
EA8
Second byte
EAE EAD
EAC EAB
EAA EA9
VBS
: Control the ROM transfer period.
EAF to EA8 : Upper address for ending transfer from command table ROM
• Function
Command 13-1 sets the upper address for ending data transfer from command table ROM and specifies the
ROM transfer period to initiate ROM data transfer.
• Description
VBS: Control the ROM transfer period.
VBS = 0: Transfer data during the horizontal and vertical blanking intervals.
VBS = 1: Transfer data during the vertical blanking interval.
EAF to EA8: Upper address for ending transfer from command table ROM
Issuing this command initiates command table ROM transfer operation and sets the TRE pin output to the “H“
level. Upon completion of transfer operation, the TRE pin output becomes the “L“ level.
When the TRE pin output is at the “H“ level, do not issue command 0 to 4, 11, 12, or 13 by serial input
(commands 5 to 10 can be issued).
38
MB90091A
■ APPLICATION EXAMPLES
This section provides useful information for designing application systems using the MB90091A.
1. Power Supply
The MB90091A pairs of digital (VCC, VSS) and analog (AVCC, AVSS) power-supply and ground pins. The VCC and
AVCC power-supply pins are independent of each other; the VSS and AVSS ground pins are internally common.
Since the analog power supply supplies power and control voltage to the internal VCO, it requires special
consideration separately from the digital power supply.
In general, pay attention to the following points:
• Design the system so that the ground and power supply impedances are suppressed. In addition, the ground
line should be laid out on a ground plane including peripheral analog circuits.
• The digital (VCC, VSS) and analog (AVCC, AVSS) power supplies must be separated from each other. The VCC
and AVCC pins, and the VSS and AVSS pins must not have a potential different in between.
• To supply digital and analog power from the same power source, separately route the wires from the source
and use a choke coil to prevent digital noise from interfering with the analog subsystem via the power source.
• Insert a relatively high-capacity (20 to 100 µF) electrolytic capacitor as a bypass capacitor between the power
supply and ground, separately between the digital and analog subsystems.
2. Interface with a Microcontroller or Microcomputer
Operation of the MB90091 is controlled by a micro (controller or microcomputer). The MB90091 interfaces with
the micro by 8-bit serial transfer using four signal liens as shown below:
• Microcontroller/microcomputer interface
MB90091A
Micro
Data
SO
TC
SIN
Serial clock
Chip select
SCLK
SCS
TRE
Port
Port
Internal operation flag
(or interrupt input)
Although most micros can be used for controlling the MB90091A, the one with an 8-bit serial interface (serial
port) is recommended because it can be connected directly to the MB90091A for high-speed command/data
transfer by means of hardware. (The micro with a 4-bit serial interface can transfer data in two separate blocks.)
Note: Keep in mind that some micros cannot be connected to the serial port depending on the type. Fujitsu 4- and
8-bit microcontrollers have no problem with the MB90091A.
39
MB90091A
3. Treatment of Unused Pins
Pins unused on the MB90091A must be treated as follows.
• Treatment of unused pins
Pin No.
Pin name
I/O
Treatment
DIP
8
QFP
1
2
3
4
6
8
9
HSYNC
VSYNC
EVEN
I
I
—
9
—
10
11
13
15
16
I
Connect the pin to VCC or leave it open.
FLTIN
FLTOUT
FH
O
I
—
—
O
I
Leave the pin open.
RESET
Connect the pin to VCC or leave it open.
18
19
20
21
22
23
24
25
11
12
13
14
15
16
17
18
RD0
RD1
RD2
RD3
RD4
RD5
RD6
RD7
I
I
I
I
I
I
I
I
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
26
19
TEST
I
Connect the pin to VSS.
28
29
30
21
22
23
TA16
TA17
TA18
O
O
O
Leave the pin open.
Leave the pin open.
Leave the pin open.
31
32
24
25
FCS
TCS
O
O
Leave the pin open.
Leave the pin open.
33
34
35
36
38
40
41
42
43
44
45
46
48
49
50
51
26
27
28
29
31
33
34
35
36
37
38
39
41
42
43
44
RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
RA9
RA10
RA11
RA12
RA13
RA14
RA15
52
53
54
55
45
46
47
48
TSEL
FSEL
SCLK
SIN
I
I
I
I
—
—
—
—
(Continued)
40
MB90091A
(Continued)
Pin No.
Pin name
I/O
Treatment
DIP
56
58
59
60
61
62
63
64
1
QFP
49
51
52
53
54
55
56
57
58
59
61
62
63
64
SCS
TRE
I
—
O
O
O
O
O
O
O
O
O
I
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
Leave the pin open.
ROUT
GOUT
BOUT
IOUT
VOB1
VOB2
COLOR
DOCK
TESTCK
TESTSW
HBLNK
VBLNK
2
4
Connect the pin to VCC or leave it open.
Connect the pin to VCC.
5
I
6
I
Connect the pin to VCC or leave it open.
Connect the pin to VCC or leave it open.
7
I
41
MB90091A
■ APPLIED CIRCUIT EXAMPLE
MB90091A
V
CC
1
HSYNC
VSYNC
EVEN
ROUT 52
Sync signal
separation
V
CC
: +5 V (digital)
2
3
53
54
55
56
58
57
59
GOUT
BOUT
IOUT
VOB1
COLOR
VOB2
DOCK
GND : Ground (digital)
AV CC : +5 V (analog)
AGND : Grond (analog)
HBLNK
VBLNK
63
64
Display control
49
48
47
51
SCS
SIN
SCLK
TRE
Micro
This circuit is not required when internal ROM is used.
V
V
CC
(512-character font ROM)
64K-byte ROM
10 K
A0
A1
A2
A3
A4
A5
RA0 26
RA1 27
RA2 28
FSEL
46
29
31
RA3
RA4
GND
GND
CC
RA5 33
RA6 34
RA7 35
RA8 36
RA9 37
RA10 38
RA11 39
RA12 41
RA13 42
RA14 43
RA15 44
10 K
A6
O1
O2
O3
O4
O5
O6
O7
O8
A7
A8
A9
A10
A11
A12
A13
A14
A15
45 TSEL
21
22
23
19
TA16
TA17
TA18
TEST
NC
NC
NC
24
FCS
OE
CE
GND
V
CC
GND
62 TESTSW
61 TESTCK
(Command table ROM)
32K-byte ROM
NC
FH
8
A0
A1
A2
A3
A4
A5
V
CC
10
30
50
V
V
V
CC
CC
CC
+
10µ
0.1µ
−
20
32
40
60
V
V
V
V
SS
SS
SS
SS
A6
A7
O1
O2
O3
O4
O5
O6
O7
O8
A8
A9
A10
A11
A12
A13
A14
GND
V
CC
10 K
9
RESET
+
TCS 25
OE
CE
47
− 1µ
GND
GND
GND
AV CC
RD7 18
RD6 17
AV CC
AV SS
7
5
+
10µ
0.1µ
16
RD5
RD4 15
RD3 14
RD2 13
−
AGND
RD1
12
RD0 11
6
4
FLTIN
FLTOUT
330
+
1µ
51
−
AGND
Adjustment is required depending on synchronization system.
42
MB90091A
■ ORDERING INFORMATION
Part number
Package
Remarks
64-pin plastic SH-DIP
(DIP-64P-M01)
MB90091AP
64-pin plastic QFP
(FPT-64P-M06)
MB90091APF
43
MB90091A
■ PACKAGE DIMENSIONS
64 pin, Plastic SH-DIP
(DIP-64P-M01)
58.00+–00..5252
+.008
2.283–.022
INDEX-1
INDEX-2
17.00±0.25
(.669±.010)
5.65(.222)MAX
3.00(.118)MIN
0.25±0.05
(.010±.002)
1.00+–00.50
0.45±0.10
(.018±.004)
0.51(.020)MIN
19.05(.750)
TYP
.039+–0.020
15°MAX
1.778±0.18
(.070±.007)
1.778(.070)
MAX
55.118(2.170)REF
C
1994 FUJITSU LIMITED D64001S-3C-4
Dimensions in mm (inches).
(Continued)
44
MB90091A
64 pin, Plastic QFP
(FPT-64P-M06)
24.70±0.40(.972±.016)
20.00±0.20(.787±.008)
3.35(.132)MAX
(Mounting height)
51
33
0.05(.002)MIN
(STAND OFF)
52
32
14.00±0.20 18.70±0.40
(.551±.008) (.736±.016)
12.00(.472)
REF
16.30±0.40
(.642±.016)
INDEX
64
20
"A"
1
19
LEAD No.
0.15±0.05(.006±.002)
Details of "B" part
1.00(.0394)
TYP
0.40±0.10
(.016±.004)
M
0.20(.008)
Details of "A" part
0.25(.010)
"B"
0.30(.012)
0.18(.007)MAX
0.63(.025)MAX
0.10(.004)
18.00(.709)REF
22.30±0.40(.878±.016)
0
10°
1.20±0.20
(.047±.008)
C
1994 FUJITSU LIMITED F64013S-3C-2
Dimensions in mm (inches).
45
MB90091A
FUJITSU LIMITED
For further information please contact:
Japan
FUJITSU LIMITED
Corporate Global Business Support Division
Electronic Devices
KAWASAKI PLANT, 4-1-1, Kamikodanaka
Nakahara-ku, Kawasaki-shi
Kanagawa 211-88, Japan
Tel: (044) 754-3753
All Rights Reserved.
The contents of this document are subject to change without
notice. Customers are advised to consult with FUJITSU sales
representatives before ordering.
Fax: (044) 754-3329
North and South America
FUJITSU MICROELECTRONICS, INC.
Semiconductor Division
3545 North First Street
San Jose, CA 95134-1804, U.S.A.
Tel: (408) 922-9000
The information and circuit diagrams in this document presented
as examples of semiconductor device applications, and are not
intended to be incorporated in devices for actual use. Also,
FUJITSU is unable to assume responsibility for infringement of
any patent rights or other rights of third parties arising from the
use of this information or circuit diagrams.
Fax: (408) 432-9044/9045
FUJITSU semiconductor devices are intended for use in
standard applications (computers, office automation and other
office equipment, industrial, communications, and measurement
equipment, personal or household devices, etc.).
Europe
FUJITSU MIKROELEKTRONIK GmbH
Am Siebenstein 6-10
63303 Dreieich-Buchschlag
Germany
Tel: (06103) 690-0
Fax: (06103) 690-122
CAUTION:
Customers considering the use of our products in special
applications where failure or abnormal operation may directly
affect human lives or cause physical injury or property damage,
or where extremely high levels of reliability are demanded (such
as aerospace systems, atomic energy controls, sea floor
repeaters, vehicle operating controls, medical devices for life
support, etc.) are requested to consult with FUJITSU sales
representatives before such use. The company will not be
responsible for damages arising from such use without prior
approval.
Asia Pacific
FUJITSU MICROELECTRONICS ASIA PTE. LIMITED
#05-08, 151 Lorong Chuan
New Tech Park
Singapore 556741
Tel: (65) 281 0770
Fax: (65) 281 0220
Any semiconductor devices have inherently a certain rate of
failure. You must protect against injury, damage or loss from
such failures by incorporating safety design measures into your
facility and equipment such as redundancy, fire protection, and
prevention of over-current levels and other abnormal operating
conditions.
If any products described in this document represent goods or
technologies subject to certain restrictions on export under the
Foreign Exchange and Foreign Trade Control Law of Japan, the
prior authorization by Japanese government should be required
for export of those products from Japan.
F9704
FUJITSU LIMITED Printed in Japan
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