MB90092 [FUJITSU]
ON-Screen Display Controller (OSDC-360); 屏幕显示控制器( OSDC - 360 )![MB90092](http://pdffile.icpdf.com/pdf1/p00045/img/icpdf/MB90092_234240_icpdf.jpg)
型号: | MB90092 |
厂家: | ![]() |
描述: | ON-Screen Display Controller (OSDC-360) |
文件: | 总49页 (文件大小:539K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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FUJITSU SEMICONDUCTOR
DATA SHEET
DS04-28824-1E
ASSP for Screen Display Control
CMOS
ON-Screen Display Controller (OSDC-360)
MB90092
■ DESCRIPTION
The MB90092 is the display controller for displaying text and graphics on the TV screen.
The MB90092 incorporates display memory (VRAM), a font memory interface, and a video signal generator,
allowing text and graphics to be displayed in conjunction with a small number of external components.
The MB90092 can provide two screens, called the main screen and the sub-screen, either independently or
overlayed one on top of the other.
The main screen consists of 24 characters by 12 lines and allows data to be set for each character. The
sub-screen consists of 24 characters by 12 lines or up to 32 characters by 16 lines. Data can be set either for
each line in the former configuration or collectively for the entire screen in the latter configuration.
The characters supported by the MB90092 are the normal characters made up of 24 by 32 dots and the 8 ×
32-dot graphic characters that can be displayed in any of eight different colors in character units.
If filled with only graphic characters, the main screen is 192 (horizontal) × 384 (vertical) dots. In the same case,
the sub-screen is 192 (horizontal) × 384 (vertical) dots, or 256 (horizontal) × 512 (vertical) dots. (The actual
display screen depends on the dot clock frequency in the horizontal direction and on the number of rasters of the
televisionsystemintheverticaldirection.) TheMB90092usesRAMasfontmemory, enablingfreegraphicsdisplay.
The MB90092 can use up to 16384 types of characters including normal and graphic characters in total. It can
control up to 16M bits of external font memory.
For output of video signals, the MB90092 has the composite video signal, Y/C-separated video signal, and RGB
digital output pins. The MB90092 also has video signal input pins, allowing superimpose display over either
composite video signals and Y/C-separated video signals.
■ PACKAGE
80-pin Plastic QFP
(FPT-80P-M06)
MB90092
■ FEATURES
Main Screen Display
• Screen display capacity: 24 characters × 12 lines (up to 288 characters)
• Character sizes:
Standard, double width, double height, double width × double height, quadruple
width × double height (Setting possible for each line)
• Display position control: Horizontal display start position: Set in 1/3-character units
Vertical display start position:
Line spacing control:
Set in raster units
Set in raster units (0 to 15 rasters)
• Display priority control: Capable of controlling display priority over the sub-screen (for each line)
• Normal mode display
• Normal character exclusive display mode:
Screen capacity:
Character types:
24 characters × 12 lines (up to 288 characters)
8192 different characters (8 M addresses)
• Character display:
Character dot configuration: 24 × 32 dots (per character)
Character color:
8 colors (for each character) × 4 phases (for each line)
Character background color: 8 colors (for each character)
Display mode:
Selectable from among the pattern background/
solid-fill backgroundor/no background modes
• Extended graphics mode display
• Mode for displaying individually selected, normal and graphic characters mixed:
Screen capacity:
24 characters × 12 lines (up to 288 characters)
192 horizontal dots × 384 vertical dots (entire screen)
Character types:
16384 different characters (16 M addresses)
• Normal character display: Character dot configuration: 24 horizontal dots × 32 vertical dots
Character color:
Line background color:
Display mode:
8 colors (for each character) × 4 phases (for each line)
8 colors (for each line)
Selectable from among the pattern background/
solid-fill background/no background modes
Shaded background display available (set for each
character)
• Graphic character display:Character dot configuration: 8 horizontal dots × 32 vertical dots
Character color: 8 colors (for each dot) × 4 phases (for each character)
Sub-Screen Display
Screen display position: Settable horizontally and vertically in 2-dot units
• Normal screen mode
Screen capacity:
32 characters × 12 lines (up to 384 characters)
256 horizontal dots × 384 vertical dots (graphics
characters only) (The actual display screen depends
on the television system and dot clock frequency.
Normal character/graphic character display
selectable for each line (Header display character
code is specified for each line.)
Character string length:
Selectable from among 1, 2, 4, 8, 16, 24, and 32 digits
• Normal character display: Character dot configuration: 24 horizontal dots × 32 vertical dots
Character color: 8 colors (for each line)
Pattern background color: 8 colors (entire screen)
• Graphic character display:Character dot configuration: 8 horizontal dots × 32 vertical dots
Character color:
8 colors (for each dot) × 4 phases (for each line)
2
MB90092
• Full-screen mode
Screen capacity:
32 characters × 16 lines (up to 512 characters)
256 horizontal dots × 512 vertical dots
(The actual display screen depends on the television
system and dot clock frequency.)
Virtual screen capacity:
Mode A: 32 characters × 16 lines (× 32 screens)
256 horizontal dots × 512 vertical dots
Mode B: 512 characters × 32 lines
4096 horizontal dots × 1024 vertical dots
• Normal character display: Character dot configuration: 24 horizontal dots × 32 vertical dots
Character color: 8 colors (set for the entire screen)
Pattern background color: 8 colors (set for the entire screen)
• Graphic character display:Character dot configuration: 8 horizontal dots × 32 vertical dots
Character color:
8 colors (for each dot) × 4 phases (set for the entire
screen)
Screen Background Display
Screen background color: 8 colors (set for the entire screen)
Analog Inputs
• Composite video signal input
• Y/C-separated inputs
Analog Outputs
• Composite video signal output
• Y/C-separated outputs
Digital Outputs
• G (Green), R (Red), and B (Blue) output
• VOC (character) output, VOB (character + background) output
• Characters, character background, line background, and screen background each capable of being displayed
in eight colors
Internal Synchronization Control (Video Signal Generator)
• Internal video signal generator supporting the NTSC and PAL systems
• Interlaced/noninterlaced display selectable
External Synchronization Control
• Separated sync signal input/composite sync signal input selectable
External Interface
• 8-bit serial inputs (3 signal input pins)
Chip select: CS
Serial clock: SCLK
Serial data: SIN
Package
• QFP-80
Miscellaneous
• Internal power-on reset circuit
3
MB90092
■ PIN ASSIGNMENT
Figure 1 shows the pin assignment of the MB90092.
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
ADR10
ADR9
VCC
IC
VOC
VOB
VSS
1
2
3
4
5
ADR8
ADR7
ADR6
ADR5
ADR4
ADR3
ADR2
ADR1
ADR0
VSS
B
R
G
6
7
CS
SCLK
SIN
8
9
MB90092
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
VCC
EXHSYN
EXVSYN
HSYNC
VSYNC
VBLNK
EXS
DA7
DA6
DA5
DA4
DA3
DA2
DA1
XS
[NC]
FSCO
CBCK
PDS
DA0
READ
VCC
VSS
AVCC1
AVSS
Figure 1 MB90092 Pin Assignment
4
MB90092
■ PIN DESCRIPTIONS
Pin name
IC
Pin no.
I/O
Function
1
I
Internal color generation mode setting pin
This pin outputs the internally generated color burst signal to the video
signal output in response to Low-level input during external
synchronization control operation.
The pin can also be used as a reset signal input pin by Low-level input to
the TEST pin. In this case, Low-level input to this pin resets the
MB90092.
The pin is a hysteresis input with an internal pull-up resistor.
VOC
VOB
2
3
O
O
Character interval signal output pin
The output signal represents the character dot output interval.
Character/background internal signal output pin
During internal synchronization control operation, the output signal
represents the character, character background, line background, or
screen background output interval.
B
R
G
5
6
7
O
O
O
Color signal output pins
These pins output the character, character background, line
background, and screen background color signals.
CS
8
I
Chip select pin
For serial transfer, set this pin to the Low level.
This pin is also used to release a power-on reset.
The pin is a hysteresis input with an internal pull-up resistor.
SCLK
SIN
9
I
I
I
Shift clock input pin for serial transfer
This pin is a hysteresis input with an internal pull-up resistor.
10
12
Serial data input pin
The pin is a hysteresis input with an internal pull-up resistor.
EXHSYN
External horizontal sync signal input pin
This pin can also serve as a composite sync signal input pin depending
on the internal register setting.
The pin is a hysteresis input with an internal pull-up resistor.
EXVSYN
HSYNC
13
14
I
External vertical sync signal input pin
Input to this pin is disabled when composite sync signal input has been
selected by setting the internal register.
O
Horizontal sync signal output pin
This pin can also output composite sync signals depending on the
internal register setting.
The pin outputs the signal (FSC) resulting from dividing the 4FSC clock
frequency by setting the TEST pin to the Low level.
VSYNC
15
O
Vertical sync signal output pin
This pin is fixed at the High level when composite sync signal output has
been selected by setting the internal register.
The pin outputs the dot clock oscillator signal when the TEST pin goes
Low.
(Continued)
5
MB90092
Pin name
Pin no.
I/O
Function
VBLNK
16
O
Vertical blanking interval signal output pin
This pin outputs the Low-level signal in the vertical blanking interval.
EXS
XS
17
18
I
O
External circuit pins for color burst clock generator
Connect an external crystal oscillator (14.31818 MHz for NTSC or
17.734475 MHz for PAL) and load capacitance (C) to these pins to form
a crystal oscillator circuit.
FSCO
20
O
Internal color burst clock output pin
This pin controls internal color burst clock output depending on the FO
bit of command 7.
CBCK
PDS
21
22
31
I
External color burst clock input pin
O
O
Pin for output of the result of color burst clock phase comparison
YOUT
Luminance signal output pin
This pin outputs a signal of 2 VP-P (pedestal level 1.57 V, sink chip level
1 V).
YIN
32
34
35
37
38
I
O
I
Luminance signal input pin for superimpose display
This pin inputs a DC-reproduced (DC-clamped) signal of 2 VP-P
(pedestal level 1.57 V, sink chip level 1 V).
COUT
CIN
Saturation signal output pin
This pin outputs a signal at 1.57 VDC and a color burst signal amplitude
of 0.57 VP-P.
Saturation signal input pin for superimpose display
This pin inputs a signal at 1.57 VDC and a color burst signal amplitude
of 0.57 VP-P.
VOUT
VKIN
O
I
Composite video signal output pin
This pin outputs a signal of 2 VP-P (pedestal level 1.57 V, sink chip level
1 V).
Background level control input pin for halftone background display of
external input composite video signals (input to the VIN pin and output
from the VOUT pin)
Halftone background display is controlled by setting the KID bit of
command 5 to “1”.
VKOUT
VIN
39
40
O
I
Background level control output pin for halftone background display of
external input composite video signals (input to the VIN pin and output
from the VOUT pin)
Halftone background display is controlled by setting the KID bit of
command 5 to “1”.
Composite video signal input pin for superimpose display
This pin inputs a DC-reproduced (DC-clamped) signal of 2 VP-P
(pedestal level 1.57 V, sink chip level 1 V).
(Continued)
6
MB90092
Pin name
READ
Pin no.
I/O
Function
External font memory read control pin
43
O
This pin outputs the Low-level signal in the font memory read period.
The pin enters the high impedance state when the TSC pin inputs a
Low-level signal.
DA0
DA1
DA2
DA3
DA4
DA5
DA6
DA7
44
45
46
47
48
49
50
51
I
I
I
I
I
I
I
I
External font memory data input pins
These pins are TTL level inputs with an internal pull-up resistor.
ADR0
ADR1
ADR2
ADR3
ADR4
ADR5
ADR6
ADR7
53
54
55
56
57
58
59
60
61
63
64
66
67
68
69
70
71
72
73
74
75
O
External font memory address output pins
These pins enter the high impedance state when the TSC pin inputs a
Low-level signal.
ADR0
ADR1
ADR2
Raster address
ADR3
ADR4
ADR5
ADR6
ADR7
ADR8
ADR9
M0, SM0
M1, SM1
M2, SM2
ADR10
ADR11
ADR12
ADR13
ADR14
ADR15
ADR16
ADR17
ADR18
ADR19
ADR20
ADR8
ADR9
M3, SM3
M4, SM4
Character code (Lower bits)
ADR10
ADR11
ADR12
ADR13
ADR14
ADR15
ADR16
ADR17
ADR18
ADR19
ADR20
M5, SM5
M6, SM6
Data distinction bits
(12,13 = 00: Left, 10: Center, 01: Right)
M7, SM7
M8, SM8
M9, SM9
MA, SMA
MB, SMB
MC, SMC
MD, SMD
Character code (Higher bits)
TSC
77
78
I
I
Tristate control input pin for external font memory control bus
When this pin inputs a Low-level signal, the ADR0 to ADR20 pins and
the READ pin enter the high impedance state.
The pin is a hysteresis input with an internal pull-up resistor.
TEST
Test signal input pin
This pin usually inputs a High-level (fixed) signal.
EXD
XD
79
80
I
O
External circuit pins for display dot clock generator
Connect these pins to external “L” and “C” to form an LC oscillator
circuit.
(Continued)
7
MB90092
(Continued)
Pin name
[N.C]
Pin no.
I/O
Function
19
25
26
27
28
—
—
—
—
—
Leave these pins unconnected.
VCC
11
42
62
76
—
—
—
—
Power-supply pins (+5 V)
Ground pins
VSS
4
—
—
—
—
23
52
65
AVCC1
41
33
—
—
Analog power pin for composite video signals (VIN-VOUT)
AVCC2
Analog power pin for luminance (YIN-YOUT) and chroma (CIN-COUT)
signals
AVSS
24
29
30
36
—
—
—
—
Analog circuit ground pins
Set these pins to the same level as the VSS pin.
8
MB90092
■ BLOCK DIAGRAM
Figure 2 is a block diagram of the MB90092.
SIN
SCLK
CS
Serial input control
Each control and data
TEST
VIN
YIN
VOUT
YOUT
Analog SW
CIN
VKIN
COUT
VKOUT
EXHSYN
EXVSYN
H/V separation
circuit
Video signal
generator
IC
HSYNC
VSYNC
VBLNK
NTSC/PAL signal
generator
B
R
G
Display memory
control
Output control
VOB
VOC
ADR0 to ADR20
VRAM
CG memory
control
READ
DA0 to DA7
TSC
XS
EXS
CBCK
PDS
FSCO
Phase comparator
(color burst)
4FSC clock oscillator
Each block
XD
Dot clock oscillator
Each block
EXD
Figure 2 Block Diagram
9
MB90092
■ ABSOLUTE MAXIMUM RATINGS
Value
Parameter
Symbol
Unit
Remarks
Min.
VSS – 0.3
VSS – 0.3
VSS – 0.3
VSS – 0.3
VSS – 0.3
—
Max.
VSS + 7.0
VSS + 7.0
VSS + 7.0
VSS + 7.0
VSS + 7.0
600
VCC
V
V
*1
*1
*1
*2
*2
Supply voltage
AVCC1
AVCC2
VIN
V
Input voltage
V
Output voltage
VOUT
Pd
V
Power consumption
Operating temperature
Storage temperature
mW
°C
°C
Ta
–40
+85
Tstg
–55
+150
*1: AVSS and VSS 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)
Value
Parameter
Symbol
VCC
Unit
Remarks
Min.
Max.
Specification guarantee
range
4.5
5.5
V
Supply voltage
AVCC1
AVCC2
VIHS1
VIHS2
VILS1
4.5
4.5
5.5
5.5
V
V
*1, *2
*1, *3
2.2
VCC + 0.3
VCC + 0.3
0.8
V
DA0 to DA7
Except DA0 to DA7
DA0 to DA7
Except DA0 to DA7
“H” level input voltage
“L” level input voltage
0.8 × VCC
–0.3
–0.3
–40
V
V
VILS2
0.2 × VCC
+85
V
Operating temperature Ta
Analog input voltage
*1: AVSS and VSS must have equal potential.
°C
V
AVIN
0
VCC
*2: “AVCC1 = AVSS” is allowed if composite video signals (VIN-VOUT pins) are not used.
*3: “AVCC2 = AVSS” is allowed if Y/C-separated video signals (YIN-YOUT and CIN-COUT pins) are not used.
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 respect 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.
10
MB90092
■ ELECTRICAL CHARACTERISTICS
1. DC Characteristics
(Ta = –40°C to +85°C, VSS = AVSS = 0 V)
Values
Symbol
Unit
Parameter
Pin
VOC
VOB
B
Conditions
VCC = 4.5 V
Remarks
Min.
Typ.
Max.
“H” level
output
voltage
VOH
4.0
—
—
V
IOH = –2 mA
R
G
HSYNC
VSYNC
VBLNK
FSCO
READ
ADR0 to
ADR20
“L” level
output
voltage
VCC = 4.5 V
IOL = 4.0 mA
VOL
—
—
0.4
V
IC
CS
SCLK
SIN
EXHSYN
EXVSYN
CBCK
DA0 to DA7
TSC
Input
current
VCC = 5.5 V
VIL = 0.0 V
IIL
–200
—
–50
µA
TEST
VCC = AVCC1 = AVCC2 = 5.5 V
4fsc = 17.734475 MHz
fDC = 16.0 MHz
VCC
AVCC1
AVCC2
Supply
current
ICC
—
—
—
—
50
30
mA
mA
No load
VCC = AVCC1 = AVCC2 = 5.5 V
4fsc = fDC = 0 MHz
AVIN = 1.65 V
Analog
supply
current
AVCC1
AVCC2
IA
No load
VIN-VOUT
YIN-YOUT
CIN-COUT
VIN-VKOUT
VKIN-VOUT
ON
resistance
VCC = AVCC1 = AVCC2 = 4.5 V
IOL = 100 µA
RON
—
100
320
Ω
VIN
YIN
CIN
VKIN
Off
leakage
current
VCC = AVCC1 = AVCC2 = 5.5 V
AVIN = 5.5 V
IOFF
—
0.1
—
10
µA
VOUT
YOUT
COUT
VKOUT
Output
resistance
VCC = AVCC1 = AVCC2 = 4.5 V
IOL = 100 µA
ROUT
100
1800
Ω
(Continued)
11
MB90092
Values
Typ.
Symbol
Unit
Parameter
Pin
Conditions
Remarks
Min.
Max.
VCC = AVCC1 = AVCC2 = 5.0 V
Yellow
High level
VOUT
See Figure
7.
VYELH
VYELL
VCYAH
VCYAL
VGREH
VGREL
VMAGH
VMAGL
VREDH
VREDL
VBLUH
VBLUL
VBSTH
VBSTL
VBSTL
2.89
3.00
2.14
3.00
1.74
2.77
1.74
2.60
1.57
2.60
1.34
2.26
1.34
1.91
1.23
1.23
3.11
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
Yellow
Low level
2.03
2.89
1.63
2.66
1.63
2.49
1.46
2.49
1.23
2.15
1.23
1.80
1.12
1.12
2.25
3.11
1.85
2.88
1.85
2.71
1.68
2.71
1.45
2.37
1.45
2.02
1.34
1.34
Cyan
High level
Cyan
Low level
Green
High level
Green
Low level
Magenta
High level
Magenta
Low level
Red
High level
Red
Low level
Blue
High level
Blue
Low level
Color burst
High level
Color burst
Low level
Color burst
Low level
(Continued)
12
MB90092
Values
Typ.
Symbol
Unit
Parameter
Pin
Conditions
Remarks
See
Figures
7 and 8.
Min.
Max.
VCC = AVCC1 = AVCC2 = 5.0 V
White level
3
φ = 270°
VOUT
YOUT
VWHT3
YWHT3
2.83
2.94
2.83
2.71
2.60
3.05
V
White level
2
φ = 180°
VWHT2
YWHT2
2.72
2.60
2.49
2.94
2.82
2.71
V
V
V
White level
1
φ = 90°
VWHT1
YWHT1
White level
0
φ = 0°
VWHT0
YWHT0
Gray
level 6
VGRY6
YGRY6
2.43
2.26
2.15
1.98
1.86
1.69
2.54
2.37
2.26
2.09
1.97
1.80
2.65
2.48
2.37
2.20
2.08
1.91
V
V
V
V
V
V
Gray
level 5
VGRY5
YGRY5
Gray
level 4
VGRY4
YGRY4
Gray
level 3
VGRY3
YGRY3
Gray
level 2
VGRY2
YGRY2
Gray
level 1
VGRY1
YGRY1
Black
level 3
φ = 270°
VBLK3
YBLK3
1.92
1.80
1.69
1.57
2.03
1.91
1.80
1.68
2.14
2.02
1.91
1.79
V
V
V
V
Black
level 2
φ = 180°
VBLK2
YBLK2
Black
level 1
φ = 90°
VBLK1
YBLK1
Black
level 0
φ = 0°
VBLK0
YBLK0
Pedestal
level
VPDS
YPDS
1.46
0.84
1.57
1.00
1.68
1.16
V
V
SYNC
level
VTIP
YTIP
(Continued)
13
MB90092
(Continued)
Values
Typ.
Symbol
Unit
Parameter
Pin
Conditions
Remarks
Min.
Max.
VCC = AVCC1 = AVCC2 = 5.0 V
Yellow
High level
COUT
See Figure
9.
CYELH
CYELL
CCYAH
CCYAL
CGREH
CGREL
CMAGH
CMAGL
CREDH
CREDL
CBLUH
CBLUL
CBSTH
CBSTL
CPDSC
1.92
2.03
1.11
2.20
1.00
2.09
1.06
2.09
1.06
2.20
1.00
2.03
1.11
1.91
1.23
1.57
2.14
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
Yellow
Low level
1.00
2.09
0.89
1.98
0.95
1.98
0.95
2.09
0.89
1.92
1.00
1.80
1.12
1.46
1.22
2.31
1.11
2.20
1.17
2.20
1.17
2.31
1.11
2.14
1.22
2.02
1.34
1.68
Cyan
High level
Cyan
Low level
Green
High level
Green
Low level
Magenta
High level
Magenta
Low level
Red
High level
Red
Low level
Blue
High level
Blue
Low level
Color burst
High level
Color burst
Low level
Pedestal
level
14
MB90092
V
V
YELH
V
CYAH
V
GREH
V
V
V
V
WHT0 to 3
GRY6
V
MAGH
V
REDH
GRY5
GRY4
V
BLUH
V
V
V
V
GRY3
YELL
GRY2
V
CYAL
GRY1
V
GREL
BLK0 to 3
V
V
V
BSTH
V
MAGL
PDS
V
REDL
V
BLUL
BSTL
V
TIP
Figure 7 VOUT Output
Y
Y
Y
Y
WHT0 to 3
GRY6
GRY5
GRY4
Y
Y
Y
Y
GRY3
GRY2
GRY1
BLK0 to 3
Y
PDS
Y
TIP
Figure 8 YOUT Output
CCYAH
CGREH
CMAGH
CREDH
CYELH
CBLUH
C
C
C
BSTH
PDS
BSTL
CYELL
CBLUL
CCYAL
CGREL
CMAGL
CREDL
Figure 9 COUT Output
15
MB90092
2. AC Characteristics
(Ta = –40°C to +85°C, VCC = 5.0 V±10%, VSS = 0 V)
Values
Parameter
Shift clock cycle time
Shift clock pulse width
Symbol
Pin
SCLK
Unit
Remarks
Min.
1000
450
450
—
Max.
—
tCYC
tWCH
tWCL
tCR
tCF
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
µs
H
See Figure
10.
—
SCLK
SCLK
—
200
200
—
Shift clock signal rise/fall time
—
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
CS
—
tCRC
tCFC
tHR
tHF
200
200
200
200
200
200
8.0
5
Chip select signal rise/fall time
CS
—
Horizontal sync signal rise time
Horizontal sync signal fall time
Vertical sync signal rise time
Vertical sync signal fall time
Horizontal sync signal pulse width
Vertical sync signal pulse width
EXHSYN
EXHSYN
EXVSYN
EXVSYN
EXHSYN
EXVSYN
EXHSYN
EXHSYN
—
See Figure
11.
—
tVR
—
tVF
—
*1 tWH
4.0
1
*1 tWV
Horizontal sync detection pulse width *2 tWH
4.0
13
8.0
28
µs
µs
Vertical sync detection pulse width
Reset input pulse width
*2 tWH
tWR
See Figure
12.
IC
10
—
µs
(TEST = Low)*3
*1: The values assume H/V-separated sync signal input.
*2: The values assume composite sync signal input.
*3: When the TEST pin is a Low-level input, the IC pin serves as a reset pin input. (The IC and TEST pins can be
Low level at the same time.)
16
MB90092
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
CS
t
CRC
t
SS
t
CYC
t
EC
t
CFC
0.8 VCC
0.2 VCC
SCLK
t
WCH
t
WCL
t
CR
t
CF
t
H
t
SU
0.8 VCC
0.2 VCC
SIN
Figure 10 Serial Input Timings
EXHSYN
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
tHR
tWH
tHF
EXVSYN
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
tVR
tWV
tVF
Figure 11 Vertical and Horizontal Sync Signal Input Timings
IC
0.2 VCC
0.2 VCC
tWR
Figure 12 Reset Signal Input Timing
17
MB90092
Values
Parameter
Symbol
*1 trcyc
Pin
Unit
Remarks
Min.
Max.
500
60
ROM read cycle
EXD
250
—
—
30
30
0
ns
ns
ns
ns
ns
ns
ns
ns
ns
See Figure
13.
ADR0 to ADR20
READ
Address valid delay
READ active delay
Read data setup time
Read data hold time
Address invalid delay
READ inactive delay
Tristate address delay
Tristate READ delay
tab
tra
38
tds
tdh
tai
DA0 to DA7
DA0 to DA7
ADR0 to ADR20
READ
—
—
—
tri
0
—
ADR0 to ADR20
READ
ttad
ttrd
—
—
100
100
See Figure
14.
*1: Depends on the dot clock oscillation frequency. (trcyc = 4/fDC)
18
MB90092
t
rcyc
4
1
2
3
4
1
2
3
4
1
0.8 VCC
0.2 VCC
EXD
ADR
to
ADR20
0.8 VCC
0.2 VCC
Main screen data address *
Sub-screen data address *
t
ab
t
ai
0.8 VCC
0.2 VCC
READ
t
ra
t
ri
DA0
to
DA7
0.8 VCC
0.2 VCC
Main screen data *
Sub-screen data *
t
ds
t
dh
*: The main screen and sub-screen have the same address data timings.
Figure 13 Address Data Hold Timings
ADR0
to
ADR20
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
READ
TSC
0.2 VCC
t
trd
t
tad
Figure 14 Address and READ Signal Delays at TCS Signal Input
19
MB90092
3. Clock Timing Specifications
Values
Typ.
Parameter
Symbol
fDC
Pin
EXD
Unit
Remarks
Min.
Max.
Display dot clock
*
8
—
16
MHz
XD
Color burst clock (NTSC) *
Color burst clock (PAL)
—
—
14.318185
17.734475
—
—
MHz
MHz
EXS
XS
4 fSC
*
* : Input the signal with a duty cycle of 50%.
4. Power-on Reset Specifications
(Ta = –40°C to +85°C)
Values
Parameter
Symbol
Pin
Unit
Remarks
Min.
Max.
Conditions which activate
the power-on reset circuit.
(Figure 15)
Power-supply rise time
tr
0.05
1
50
ms
VCC
Conditions in which the
circuit repeatedly operate
normally. (Figure 15)
Power-supply off time
toff
—
ms
Time after power-supply rise
Reset cancel pulse width
tWIT
tWRH
tWRL
450
450
450
—
—
—
ns
ns
Power-on reset cancel
timing (See Figure 16.)
CS
20
MB90092
4.5 V
0.2 V
0.2 V
0.2 V
V CC
t r
t off
Note: The power supply must be activated smoothly.
Figure 15 Power ON/OFF Timing
4.5 V
V CC
Internal reset
CS
t WIT
0.8 V CC
0.2 V CC
CS
t WRL
t WRH
*t CRC
*t CFC
* : See Section 4, “AC Characteristics”.
Figure 16 Power-on Reset Cancel Timing
21
MB90092
5. Recommended Input Timings
(a) Composite sync signal input timing
Parameter
Number of frame scan lines
Field frequency
NTSC
PAL
625
Unit Remarks
Lines
525
60 (59.94)
50
Hz *1
Line frequency
15750 (15734.264)
15625
25
Hz *1
Vertical retrace blanking interval
First equalizing pulse interval
Vertical sync pulse interval
Second equalizing pulse interval
Equalizing pulse width
Equalizing pulse cycle
19 to 21
H
H
*2
*2
*2
*2
3
2.5
3
2.5
H
3
2.29 to 2.54
0.5
2.5
H
2.34 to 2.36
0.5
µs
H
*2
*2
Cut-in pulse width
3.81 to 5.34
0.5
4.5 to 4.9
0.5
µs
H
Cut-in pulse cycle
Horizontal sync signal cycle
Horizontal sync signal pulse width
63.492 (63.5555)
4.19 to 5.71 (4.7±0.1)
64
µs
4.5 to 4.9
11.7 to 12.3
µs *1
µs *1
Horizontal retrace blanking interval 10.2 to 11.4 (10.5 to 11.4)
*1: Parenthesized values are specifications for color information display.
*2: 1 H is assumed to be one horizontal sync signal period.
(b) H/V-separated sync signal input timing
Parameter
NTSC
60 (59.94)
PAL
50
Unit Remarks
Vertical sync signal frequency
Vertical sync signal pulse width
Horizontal sync signal frequency
Horizontal sync signal pulse width
Hz *1
1 to 5
1 to 4
64
H
*2
63.492 (63.5555)
4.19 to 5.71 (4.7±0.1)
µs *1
µs *1
4.5 to 4.9
*1: Parenthesized values are specifications for color information display.
*2: 1 H is assumed to be one horizontal sync signal period.
22
MB90092
6. Output Timings
(a) Horizontal timing
Symbol
HPS
NTSC
PAL
Remarks
0
0
42
84
See Figure 17.
EQP1E
HPE
34
68
BSTS
76
100
140
BSTE
112
143
388
455
489
842
888
910
HBLKE
SEP1S
EQP2S
EQP2E
SEP2S
HBLKS
186
484
568
610
1050
1106
1135
* (1137)
IHCLR
Note: The values in the above list are 4fSC count values.
* : Parenthesized values assume the last raster in each V cycle (field).
(b) Vertical timing
NTSC
PAL
Symbol
Remarks
Interlaced
Noninterlaced
Interlaced
Noninterlaced
VPS
0
6
0
6
0
5
0
5
See Figures 18
(NTSC) and 19
(PAL).
VPE
EQPE
VBLKE
VBLKS
VPS
12
36
519
525
12
36
519
526
10
45
620
625
10
45
620
624
Note: The values in the above list are 1/2H count values.
23
MB90092
Video signal
Horizontal sync signal
Horizontal retrace blanking interval
Burst flag
Equalizing pulse
Cut-in pulse
EQP2E
EQP2S
IHCLR
HBLKS
SEP1S
SEP2S
HBLKE
BSTE
BSTS
HPE
EQP1E
HPS
HBLKS
Figure 17 NTSC/PAL Horizontal Timings
24
MB90092
25
MB90092
26
MB90092
■ DISPLAY CONTROL COMMANDS
Table 1 lists the MB90092 display control commands.
Table 1 List of Display Control Commands
First byte
Second byte
Data
Command
no.
Command code/data
Function
76543
2
1
0
7
6
5
4
3
2
1
0
VRAM address setting
0
10000 VSL RA8 RA7
0
RA6 RA5 CA4 CA3 CA2 CA1 CA0
BG BR BB
CG CR CB MC
Main screen
1-1
10001
10010
MA MB
M9 M8
AT
0
character control 1*
(GR) (BS) (MD)
Main screen
character control 2
2-1
1-2
2-2
1-3
2-3
M7
0
0
0
0
0
0
M6 M5 M4 M3 M2 M1 M0
SCG SCR SCB SMC SGR SDC SMD
SM6 SM5 SM4 SM3 SM2 SM1 SM0
Sub-screen line
control 1
10001 SMA SMB
Sub-screen line
control 2
10010 SM9 SM8 SM7
Main screen line
control 1
10001 OF1 OF0
0
0
0
0
PC PG PR PB
Main screen line
control 2
10010
G2
G1
G0
SOC VD DG KC KG KR KB
VRAM write
control
3
10011
10100
FIL
IE
0
0
0
0
0
0
0
0
0
0
4
5
IN
EB
0
0
EO CM ZM NP
P2
P0
DC Screen control 1
10101 KID APC GYZ
BH2 BH1 BH0 W3 W2 W1 W0 Screen control 2
Main screen line
6
10110
G2
G1
G0
0
SOC VD DG N3
N2
N1
N0
control 3
Main screen vertical
position control
7
8
10111
11000
EC
SC
LP
0
FO
FC
0
0
0
0
Y5
X5
Y4
X4
Y3
X3
Y2
X2
Y1
X1
Y0
X0
Main screen horizontal
position control
Kanji font display
control
9
11001
11010
0
0
0
0
GRM
RB
0
0
0
0
0
0
0
0
0
0
10
11
BK CC BC UC UG UR UB Color control
Sub-screen
11011 SG2 SG1 SG0
11100 SGA SY7
SX8 SX7
0
SCC SBC SGC SBG SBR SBB
control
Sub-screen vertical
position control
12
13
0
0
0
SY6 SY5 SY4 SY3 SY2 SY1 SY0
SX6 SX5 SX4 SX3 SX2 SX1 SX0
Sub-screen horizontal
position control
11101
0
14
15
11110
11111
—
—
—
—
—
—
0
0
—
—
—
—
—
—
—
—
—
—
—
—
—
—
(Reserved)
(Reserved)
* : Parenthesized bit names are used for extended graphics mode.
27
MB90092
1. Command 0 (VRAM Address Setting)
[Command format]
MSB
LSB
VSL RA8 RA7
First byte
1
0
0
0
0
0
LSB
CA3 CA2 CA1 CA0
MSB
Second byte
RA6 RA5 CA4
VSL
: VRAM write control
RA8 to RA5 : VRAM row address setting (00 to BH)
CA4 to CA0 : VRAM column address setting (00 to 17H)
[Description]
VSL
: VRAM write control
RA8 to RA5 : VRAM row address setting (00 to BH)
CA4 to CA0 : VRAM column address setting (00 to 17H)
VSL
RA8 RA7 RA6 RA5 CA4 CA3 CA2 CA1 CA0
Operation
Set the main screen
0
Row address (0 to BH)
Row address (0 to BH)
Row address (0 to BH)
Column address (0 to 17H)
character control RAM address.
Set the sub screen
—
—
—
—
—
—
—
—
0
1
row control RAM address.
1
Set the main screen
row control RAM address.
(1) In normal mode (Command 9: GRM = 0)
MC to M0 : Set a character code.
The character code can be specified between 0000H to 1FFFH.
Up to 8192 different characters can be used.
AT
: Specify character attribute display.
AT = 0 :Specify normal display.
AT = 1 :Specify attribute display.
Solid-fill background (when command 10: RB = 1)
Blinking (when command 10: BK = 1)
Shaded background (when command 1: BS = 1)
Note:If shaded background display and solid-fill background display or blinking display
are specified, the shaded background display setting takes priority over the other
setting.
CG, CR, CG : Character colors
BG, BR, BB : Character background colors
28
MB90092
Character color signal output/Character background color signal output
CG/BG
CR/BR
CB/BB
Digital output
Video output
Monochrome
Gray 0 (Black)
G
L
R
L
B
L
Color
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
Black
Blue
L
L
H
L
Gray 1
L
H
H
L
Red
Gray 2
L
H
L
Magenta
Green
Cyan
Gray 3
H
H
H
H
Gray 4
L
H
L
Gray 5
H
H
Yellow
White
Gray 6
H
Gray 7 (White)
(2) In extended graphics mode (Command 9: GRM = 1)
MD to M0 : Set a character code.
The character code can be specified between 0000H to 3FFFH.
Up to 16384 different characters can be used.
AT
: Specify character attribute display.
AT = 0 :Specify normal display.
AT = 1 :Turn attribute display ON.
Solid-fill background (when command 10: RB = 1)
Blinking (when command 10: BK = 1)
Shaded background (when command 1: BS = 1)
Note:If shaded background display and solid-fill background display or blinking display
are specified, the shaded background display setting takes priority over the other
setting.
GR
BS
: Specify normal character/graphic character display.
GR = 0 : Specify normal character display.
Characters made up of 24 horizontal dots × 32 vertical dots
GR = 1 : Specify graphic character display
Characters made up of 8 horizontal dots × 32 vertical dots (color settable for each dot)
Note: Do not set BS = 1.
: Specify shaded background display.
BS = 0 : Specify normal display.
BS = 1 : Specify shaded background display.
Characters for which AT = 0 has been set are shaded on the background.
Characters for which AT = 1 has been set are shaded on the background in reverse
video.
29
MB90092
2. Commands 1 and 2 (VRAM Data Settings 1 and 2)
Writing main screen character control data (when command 0: VSL = 0)
[Command format]
Command 1-1 (Main screen character control data setting 1)
MSB
LSB
LSB
First byte
1
0
0
0
1
MA
MB
BR
AT
BB
MSB
Second byte
BG
(GR) (BS)
0
CG
CR
CB
MC
(MD)
*
*: Parenthesized bit names are used for extended graphics mode.
Command 2-1 (Main screen character control data setting 2)
MSB
LSB
M7
M9
M2
M8
M1
First byte
1
0
0
1
0
LSB
MSB
Second byte
M6
M5
M4
M3
M0
0
(MD), MC to M0 : Character code
AT
: Specify character attribute display.
: Character colors
: Character background colors
: Specify normal character/graphic character display.
: Specify shaded background display.
CG, CR, CB
BG, BR, BB
(GR)
(BS)
(1) In normal character display mode (GR = 0)
CG, CR, CB : Character colors
(2) In graphic character display mode (GR = 1)
CG
: Graphic color transparency control
CG = 0 : Normal display
CG = 1 : Transparent display
This setting replaces the “black” graphic color display with transparent display.
: Graphic color phase control
CR, CB
These bits control the color phase of video signal outputs (VOUT pin and COUT pin outputs).
CR CB
Graphic color phase
+0 degree
0
0
1
1
0
1
0
1
+90 degrees
+180 degrees
+270 degrees
30
MB90092
Writing sub-screen line control data (when command 0: VSL = 1, CA0 = 0)
Set sub-screen line control data.
[Command format]
Command 1-2 (Sub-screen line control data setting 1)
MSB
LSB
LSB
SMA SMB
0
First byte
1
0
0
0
0
1
MSB
Second byte
SCG SCR SCB SMC SGR SDC SMD
Command 2-2 (Sub-screen line control data setting 2)
MSB
LSB
SM9 SM8 SM7
First byte
1
0
0
1
0
LSB
SM6 SM5 SM4 SM3 SM2 SM1 SM0
MSB
Second byte
0
SMD to SM0
SDC
: Sub-screen line first character code
: Sub-screen line output control
SGR
SCG to SCB
SCG
: Sub-screen line character display control
: Sub-screen line character colors (when SGR = 0)
: Sub-screen line graphic color transparency control (when SGR = 1)
: Sub-screen line graphic color phase control (when SGR = 1)
SCR, SCB
[Description]
SMD to SM0: Sub-screen line first character code
SDC: Sub-screen line output control
SDC = 0 : Disable sub-screen line display output.
SDC = 1 : Enable sub-screen line display output.
SGR: Sub-screen line character display control
SGR = 0 : Display normal characters.
SGR = 1 : Display graphic characters.
(1) In sub-screen line normal character display mode (SGR = 0)
SCG to SCB : Sub-screen line character colors
(2) In sub-screen line graphic character display mode (SGR = 1)
SCG
: Sub-screen line graphic color transparency control
SCG = 0: Normal display
SCG = 1: Transparent display
This setting replaces “black” graphic color display with transparent display.
SCR, SCB : Sub-screen line graphic color phase control
These bits control the color phase of graphic character video signal outputs (VOUT pin and
COUT pin outputs).
31
MB90092
SCR
SCB
Sub-screen line graphic color phase
+0 degree
0
0
1
1
0
1
0
1
+90 degrees
+180 degrees
+270 degrees
Writing main screen control data (when command 0: VSL = 1, CA0 = 1)
[Command format]
Command 1-3 (Main screen line control data setting 1)
MSB
LSB
LSB
First byte
1
0
0
0
0
0
0
1
OF1 OF0
0
MSB
Second byte
0
PC
PG
PR
PB
Command 2-3 (Main screen line control data setting 2)
MSB
LSB
LSB
First byte
1
0
0
1
0
G2
KG
G1
KR
G0
KB
MSB
Second byte
0
SOC VD
DG
KC
OF1, OF0
PC
PG, PR, PB
G2, G1, G0
SOC
: Character color phase control
: Shaded pattern background color/monochrome control
: Shaded pattern background color
: Character size control
: Output priority control
VD
: Video signal output control
DG
: Digital signal output control
KC
KG, KR, KB
: Line background color/monochrome control
: Line background color
[Description]
OF1, OF0 : Character color phase control
OF1
OF0
Character color phase
0
0
1
1
0
1
0
1
+0 degree
+90 degrees
+180 degrees
+270 degrees
32
MB90092
PC
: Shaded pattern background color/monochrome control (Valid only in extended graphics mode)
PC = 0 : Display the shaded pattern background of video signal outputs in monochrome.
PC = 1 : Display the shaded pattern background of video signal outputs in color.
PG, PR, PB: Shaded pattern background color (Valid only in extended graphics mode)
G2 to G0 : Character size
G2
0
G1
0
G0
0
Character size
Standard
0
0
1
Double width
0
1
0
Double width × double height
Quadruple width × double height
Standard
0
1
1
1
0
0
1
0
1
Double width
1
1
0
Double width × double height
Double height
1
1
1
SOC
VD
: Output priority control
SOC = 0 : Give display priority to the main screen.
This setting displays the main screen on top of the sub-screen.
SOC = 1 : Give display priority to the sub-screen.
This setting displays the sub-screen on top of the main screen.
: Video signal output control
VD = 0 : Disableoutputofmainscreencharacterinformationtothevideooutputpin(VOUT, YOUT,
or COUT pin).
VD = 1 : Output main screen character information to the video output pins (VOUT, YOUT, and
COUT pins).
DG
KC
: Digital signal output control
DG = 0 : Disable output of main screen character information to the digital output pin (G, R, B,
VOB, or VOC pin).
DG = 1 : Output main screen character information to the digital output pins (G, R, B, VOB, and
VOC pins).
: Line background color/monochrome control
(Valid only in extended graphics mode)
KC = 0 : Display the line background of video signal outputs in monochrome.
KC = 1 : Display the line background of video signal outputs in color.
KG, KR, KB: Line background color
(Valid only in extended graphics mode)
33
MB90092
3. Command 3 (VRAM Write Control)
[Command format]
MSB
LSB
LSB
First byte
1
0
0
0
0
0
1
0
1
0
FIL
0
0
0
0
0
MSB
Second byte
FIL: VRAM fill control
[Description]
FIL
: VRAM fill control
FIL = 0:Do not fill VRAM.
FIL = 1:Fill VRAM.
VSL
CA0
—
0
Area to be filled
0
1
1
Main screen character control RAM
Sub-screen line control RAM
Main screen line control RAM
1
4. Command 4 (Screen Control 1)
[Command format]
MSB
LSB
First byte
1
0
0
1
0
0
IE
IN
EB
LSB
MSB
Second byte
EO
CM
ZM
NP
P2
P0
DC
IE
IN
EB
EO
CM
ZM
NP
: Internal/external synchronization control
: Interlaced/noninterlaced display control
: Screen background display control
: Field control
: Color/monochrome display control
: Zoom-in control
: NTSC/PAL control
P2, P0 : Pattern background control
DC : Display control
[Description]
IE
: Internal/external synchronization control
IE = 0 : Specify internal synchronization control operation.
IE = 1 : Specify external synchronization control operation.
IN
: Interlaced/noninterlaced display control
IN = 0 : Specify interlaced scan display.
IN = 1 : Specify noninterlaced scan display.
34
MB90092
EB
EO
: Screen background display control
EB = 0: Specify normal display.
EB = 1: Display the screen background.
: Field control
EO = 0: Specify normal display.
EO = 1: Replace display output data to the even-numbered and odd-numbered fields with each
other.
Display output data to each field is replaced with that to the other when the horizontal/
vertical separated sync signal input involves phase shift during external synchronization
control operation.
CM
: Color/monochrome display control
CM = 0: Monochrome display
CM = 1: Color display
ZM
: Zoom-in control
ZM = 0: Normal display
ZM = 1: Zoom into the main screen.
NP
: NTSC/PAL control
NP = 0: Output display signals using the NTSC system.
NP = 1: Output display signals using the PAL system.
P2, P0
: Pattern background control
Specify the pattern background mode for normal character display.
P2
0
P0
0
Pattern background mode
Pattern background 1
Pattern background 0
Pattern background 2
Pattern background 3
0
1
1
0
1
1
Figure 3 shows examples of pattern background display.
Font data
: 001000110000 (12 abstracted bits)
Pattern background 0
Pattern background 1
Pattern background 2
Pattern background 3
: Blank dot
: Character dot
: Pattern background dot
Figure 3 Pattern Background Display Examples
DC
: Display control
DC = 0: Display neither the main screen nor the sub-screen.
Only the screen background can be displayed.
DC = 1: Enable display output operation.
35
MB90092
5. Command 5 (Screen Control 2)
[Command format]
MSB
LSB
APC GYZ
First byte
1
0
0
1
0
1
KID
W2
LSB
MSB
Second byte
BH2 BH1 BH0
W3
W1
W0
KID
APC
GYZ
: Halftone control
: APC control
: Main screen line enlargement control
BH2 to BH0 : Color phase control
W3 to W0 : Main screen line spacing control
[Description]
KID
: Halftone control
KID = 0 : Perform normal display, disabling halftone display.
KID = 1 : Enable halftone display.
APC
GYZ
: APC control
APC = 0 : Turn the APC function OFF.
APC = 1 : Turn the APC function ON.
: Main screen line enlargement control
GYZ = 0 : Shift the display positions of the lines downward that follow a line on the main screen
when that line is being displayed enlarged, to bring all the lines into view.
GYZ = 1 : Undisplay (conceal) the line that follows a line on the main screen when that line is being
displayed enlarged, and display the remaining lines without changing their original
positions.
BH2 to BH0 : Color phase control
With APC turned on, these bits are used for color phase control if there is a difference between
the external input color phase and internal color phase for some reason such as a circuit delay.
BH2
0
BH1
0
BH0
0
Color phase offset
0 degree
0
0
1
45 degrees
0
1
0
90 degrees
0
1
1
135 degrees
180 degrees
225 degrees
270 degrees
315 degrees
1
0
0
1
0
1
1
1
0
1
1
1
W3 to W0
: Main screen line spacing control
Set the line spacing on the main screen.
The line spacing can be specified between 0 and 15 rasters in increments of one raster.
36
MB90092
6. Command 6 (Main Screen Line Control)
[Command format]
MSB
LSB
LSB
First byte
1
0
0
1
1
0
G2
N2
G1
N1
G0
N0
MSB
Second byte
SOC VD
DG
N3
G2 to G0
SOC
: Character size control
: Output priority control
VD
DG
N3 to N0
: Video signal output control
: Digital signal output control
: Line specification
[Description]
G2 to G0
: Character size control
G2
0
G1
0
G0
0
Character size
Standard
0
0
1
Double width
0
1
0
Double width × double height
Quadruple width × double height
Standard
0
1
1
1
0
0
1
0
1
Double width
1
1
0
Double width × double height
Double height
1
1
1
SOC
VD
: Output priority control
SOC = 0 : Give display priority to the main screen.
This setting displays the main screen on top of the sub-screen.
SOC = 1 : Give display priority to the sub-screen.
This setting displays the sub-screen on top of the main screen.
: Video signal output control
VD = 0 : Disable output of main screen character information to the video output pin (VOUT,
YOUT, or COUT pin).
VD = 1 : Output main screen character information to the video output pins (VOUT, YOUT, and
COUT pins).
DG
: Digital signal output control
DG = 0 : Disable output of main screen character information to the digital output pin (G, R, B,
VOB, or VOC pin).
DG = 1 : Output main screen character information to the digital output pins (G, R, B, VOB, and
VOC pins).
N3 to N0
: Line specification
Specify the line on the main screen, for which control data is to be set.
The N3 to N0 bits correspond to the RA8 to RA5 bits for VRAM addresses.
37
MB90092
7. Command 7 (Main Screen Vertical Display Position Control)
[Command format]
MSB
LSB
FO
First byte
1
0
0
0
1
1
1
EC
Y2
LP
Y1
LSB
MSB
Second byte
Y5
Y4
Y3
Y0
EC
LP
FO
: Sync signal output control
: Simple NTSC/PAL control
: Color phase signal output control
Y5 to Y0
: Main screen vertical display position control
[Description]
EC
: Sync signal output control
EC = 0 : Set the HSYNC pin as a composite sync signal output and the VSYNC pin as a fixed
High-level output.
EC = 1 : Set the HSYNC pin as a horizontal sync signal output and the VSYNC pin as a vertical
sync signal output.
LP
: Simple NTSC/PAL control
LP = 0 : Normal operation
LP = 1 : Simple NTSC/PAL operation
FO
: Color phase signal output control
FO = 0 : Set the FSCO pin as a fixed Low-level output
FO = 1 : Set the FSCO pin to output the signal representing an internal color burst phase.
Y5 to Y0
: Main screen vertical display position control (in dot units)
38
MB90092
8. Command 8 (Main Screen Horizontal Display Position Control)
[Command format]
MSB
LSB
LSB
First byte
1
0
1
0
0
0
0
SC
X2
0
FC
MSB
Second byte
X5
X4
X3
X1
X0
SC
FC
X5 to X0
: Sync signal input control
: Sync signal input 3 µs filter control
: Main screen horizontal display position control
[Description]
SC
: Sync signal input control bit
SC = 0 : Set the EXHSYN pin as a composite sync signal input and disable EXVSYN pin input.
SC = 1 : Set the EXHSYN pin as a horizontal sync signal input and the EXVSYN pin as a vertical
sync signal input.
FC
: Sync signal input 3 µs filter control
FC = 0 : Enable the 3 µs digital filter function of the EXHSYN pin input.
The Low pulse signal inputs of 3 µs or less are ignored.
FC = 1 : Disable the 3 µs digital filter function of the EXHSYN pin input.
The input signal drives the function directly.
X5 to X0
: Main screen horizontal display position control (in 8-dot units)
9. Command 9 (Kanji Font Display Control)
[Command format]
MSB
LSB
GRM
First byte
1
0
1
0
0
0
0
0
1
0
0
0
0
0
LSB
MSB
Second byte
0
GRM
: Main screen display mode control
[Description]
GRM
: Main screen display mode control
GRM = 0 : Display the main screen in normal mode.
The main screen can display only normal characters.
The character background color can be set for each character.
GRM = 1 : Display the main screen in extended graphic mode.
The main screen can display both normal and graphic characters at the same time.
39
MB90092
10. Command 10 (Color Control)
[Command format]
MSB
LSB
LSB
First byte
1
0
1
0
1
0
0
0
RB
MSB
Second byte
BK
CC
BC
UC
UG
UR
UB
RB
BK
CC
BC
: Main screen solid-fill background display control
: Main screen blink display control
: Main screen character color/monochrome control
: Main screen character background color/monochrome control
(Main screen graphic color/monochrome control)
: Screen background color/monochrome control
UC
UG, UR, UB : Screen background color
[Description]
RB
: Main screen solid-fill background display control
RB = 0 : Normal display
RB = 1 : The main screen is displayed with a solid-fill background.
BK
CC
BC
: Main screen blink display control
BK = 0 : Normal display
BK = 1 : Display characters blinking on the main screen.
: Main screen character color/monochrome control
CC = 0 : Display video signal output characters on the main screen in monochrome.
CC = 1 : Display video signal output characters on the main screen in color.
:
(1) Main screen character background color/monochrome control (in normal mode with GRM = 0)
BC = 0 : Display the background of video signal output characters on the main screen in
monochrome.
BC = 1 : Display the background of video signal output characters on the main screen in color.
(2) Main screen character background color/monochrome control (in extended graphics mode with GRM = 1)
BC = 0 : Display video signal output graphics on the main screen in monochrome.
BC = 1 : Display video signal output graphics on the main screen in color.
UC
: Screen background color/monochrome control
UC = 0 : Display the video signal output screen background in monochrome.
UC = 1 : Display the video signal output screen background in color.
UG, UR, UB : Screen background color
40
MB90092
11. Command 11 (Sub-Screen Control)
[Command format]
MSB
LSB
SG2 SG1 SG0
First byte
1
0
1
0
0
1
1
LSB
SBG SBR SBB
MSB
Second byte
SGC
SCC SBC
SG2 to SG0
SCC
SBC
: Sub-screen configuration control
: Sub-screen character color/monochrome control
: Sub-screen character background color/monochrome control
: Sub-screen graphic color/monochrome control
SGC
SBG, SBR, SBB : Sub-screen pattern background color
[Function]
Command 11 controls sub-screen display.
[Description]
SG2 to SG0
: Sub-screen configuration control
Specify the display configuration of the sub-screen.
SG2
0
SG1
0
SG0
0
Sub-screen configuration
1 character × 12 lines
0
0
1
2 characters × 12 lines
4 characters × 12 lines
8 characters × 12 lines
16 characters × 12 lines
24 characters × 12 lines
32 characters × 12 lines
0
1
0
0
1
1
1
0
0
1
0
1
1
1
0
Full-screen display mode
(32 characters × 16 lines)
1
1
1
SCC
SBC
: Sub-screen character color/monochrome control
SCC = 0 : Display video signal output characters on the sub-screen in monochrome.
SCC = 1 : Display video signal output characters on the sub-screen in color.
: Sub-screen character background color/monochrome control
SBC = 0 : Display the background of video signal output characters on the sub-screen in
monochrome.
SBC = 1 : Display the background of video signal output characters on the sub-screen in color.
SGC
: Sub-screen graphic color/monochrome control
SGC = 0 : Display video signal output graphic characters on the sub-screen in monochrome.
SGC = 1 : Display video signal output graphic characters on the sub-screen in color.
SBG, SBR, SBB : Sub-screen background color
41
MB90092
12. Command 12 (Sub-Screen Vertical Position Control)
[Command format]
MSB
LSB
SY7
First byte
1
0
1
1
0
0
SGA
0
LSB
SY0
MSB
Second byte
SY6
SY5
SY4
SY3 SY2
SY1
SGA
: Sub-screen full-screen mode control
SY7 to SY0 : Sub-screen vertical display position
[Description]
SGA
: Sub-screen full-screen mode control
Select a full-screen display mode for the sub-screen.
SGA = 0: Full-screen mode A
Virtual screen : 32 characters × 16 lines × 32 screens
(Display screen capacity : 32 characters × 16 lines)
SGA = 1: Full-screen mode B
Virtual screen : 512 characters × 32 lines
(Display screen capacity : 32 characters × 16 lines)
SY7 to SY0 : Sub-screen vertical display position (in 2-dot units)
13. Command 13 (Sub-Screen Horizontal Position Control)
[Command format]
MSB
LSB
SX7
First byte
1
0
1
1
0
1
0
SX8
SX1
LSB
SX0
MSB
Second byte
SX6
SX5
SX4
SX3 SX2
SX8 to SX0 : Sub-screen horizontal display position
[Description]
SX8 to SX0 : Sub-screen horizontal display position (in 2-dot units)
42
MB90092
■ SCREEN CONFIGURATION
The MB90092 provides two screens: the main screen on which data can be set for each character and the sub-
screen on which data can be set for each line (or for the entire screen). The overall background can be
represented using the screen background color.
Figure 4 shows an example of main screen and sub-screen merged.
Main screen
Sub-screen
Screen background color display
Figure 4 Example of Main Screen and Sub-Screen Merged
1. Main screen configuration
The main screen displays up to 24 characters by 12 lines. It offers a choice of two display modes: the normal mode
for displaying only normal characters and the extended graphics mode in which both normal and graphic characters
can be displayed, selectable character by character.
Main Screen Features
• Normal mode and extended graphics mode
• Screen configuration: 24 characters × 12 lines (data settable for each character)
• Character sizes: Five different types (selectable for each line)
• Line spacing: 0 to 15 rasters
• Display position control (Vertical: In raster units, Horizontal: In 1/3-character units)
• Setting display priority over the sub-screen (for each line)
• Output control (for each line)
2. Sub-screen configuration
The sub-screen offers a choice of two screen modes: the normal screen mode on which data can be set for each
line and the full-screen moe A or B for full-screen display.
In the normal screen mode, the sub-screen displays up to 32 characters by 12 lines. The number of horizontal
characters can range from 1 to 32 (1, 2, 4, 8, 16, 24, or 32 characters) depends on the SG2-SG0 setting of command
11 (sub-screen control).
Setting the code for the character to be displayed at the left end of each line allows a string of continuous characters
of the same character code (address) to be displayed as many as the specified number of horizontal characters.
The full-screen mode enables display using the entire screen (screen display area: 32 characters × 16 lines). Setting
the code for the character to be displayed at the upper left corner of the screen allows a string of continuous
characters of the same character code to be displayed on the entire screen. Full-screen mode A or B is selected
depending on the display area setting.
Sub-screen Features
• Normal screen mode/full-screen mode A/full-screen mode B
• Display position control (Vertical: In raster units, Horizontal: In 2-dot units)
• Setting display priority over the main screen (for each line on the main screen)
• Output control (for each line)
43
MB90092
■ CHARACTER CONFIGURATION
1. Normal and Graphic Characters
The MB90092 can display two types of characters: normal characters and graphic characters.
Normal characters each consist of 24 horizontal dots × 32 vertical dots. Graphic characters each consists of 8
horizontal dots × 32 vertical dots. The normal and graphic characters are the same in size (3 horizontal dots for
normal characters equal to one horizontal dot for graphic characters). The display color can be set for each dot of
only graphic characters.
Figure 5 shows character configuration examples.
(1) Normal character configuration example:
24 dots
: Character dot
: Pattern background dot
: Blank dot
(2) Graphic character configuration example:
8 dots
: Graphic dot color 0
: Graphic dot color 1
: Graphic dot color 2
: Graphic dot color 3
: Graphic dot color 4
: Graphic dot color 5
: Graphic dot color 6
: Graphic dot color 7
Figure 5 Character Configuration Examples
44
MB90092
2. Character Sizes
Five different character sizes are available: standard, double width, double height, double width × double height,
and double height × quadruple width. The character size can be specified for only the main screen. The sub-screen
can display only the standard size of characters.
Figure 6 shows character configuration examples of each character size.
(1) Standard character size
24 dots
(2) Double width character size
48 dots
32 dots
32 dots
(4) Double width × double height character size
(3) Double height character size
24 dots
48 dots
64 dots
64 dots
(5) Double height × quadruple width character size
96 dots
64 dots
Note: The number of horizontal dots is based on the normal character dot as a unit dot.
One dot for graphic characters is equivalent to three horizontal dots for normal characters.
Figure 6 Zoom-in display function
2. Zoom-in display function
The zoom-in display function displays each character on the main screen using 48 vertical dots by vertically doubling
only the upper 24 dots of font data which is 32 dots in height.
Characters enlarged by the zoom-in function can be further enlarged by separately specifying the desired character
size.
45
MB90092
■ CHARACTER DISPLAY FUNCTIONS
The character display functions available in the normal character display mode of the MB90092 include: “pattern
background display” for displaying arbitrarily shaped patterns around character dots, “solid-fill background display”
for filling the entire character cell made up of 24 × 32 dots with a background color, “shaded background display”
for adding 3D shading to the perimeter of the solid-fill background, and “blink display” for blinking.
The MB90092 also provides “kanji font display” functions for framing and boldfacing of kanji fonts (such as the kanji
ROM font) for easier viewing.
■ GRAPHIC CHARACTER DISPLAY FUNCTIONS
The MB90092 can display graphic characters as well as normal characters. Graphic characters consist of 8 × 32
dots each of which can be displayed in the color selected from among eight different colors. Color display information
is included in font data. The character size is the same as that of normal characters. (One dot for graphic characters
is equivalent to three dots for normal characters.)
Graphic character display has the following features:
• Dot configuration
• Main screen display
• Display control
: 8 × 32 dots (horizontal × vertical)
: Normal and graphic characters selected for each character can be displayed at the
same time. (Mixed display enabled only in extended graphics mode)
• Display character color : 8 colors (for each dot) × 4 phases (for each character) or 8 gradient colors (color or
monochrome specified for the entire screen)
• Sub-screen display
• Display control
: Normal and graphic characters selected for each line can be displayed at the same
time. (Mixed display enabled only in extended graphics mode)
• Display character color : 8 colors (for each dot) × 4 phases (for each line) or 8 gradient colors (color or
monochrome specified for the entire screen)
Note: Do not specify graphic display for those characters in the kanji font area. Otherwise, they cannot be displayed
correctly.
46
MB90092
■ ORDERING INFORMATION
Part number
Package
Remarks
64-pin, plastic QFP
(QFP-80P-M06)
MB90092PF
47
MB90092
■ PACKAGE DIMENSION
80-pin Plastic QFP
(FPT-80P-M06)
23.90±0.40(.941±.016)
20.00±0.20(.787±.008)
3.35(.132)MAX
(Mounting height)
0.05(.002)MIN
(STAND OFF)
64
41
65
40
12.00(.472)
REF
14.00±0.20 17.90±0.40
(.551±.008) (.705±.016)
16.30±0.40
(.642±.016)
INDEX
80
25
"A"
1
24
LEAD No.
0.80(.0315)TYP
0.35±0.10
(.014±.004)
0.15±0.05(.006±.002)
Details of "B" part
M
0.16(.006)
Details of "A" part
0.25(.010)
0.30(.012)
"B"
0.10(.004)
0
10°
0.18(.007)MAX
0.58(.023)MAX
18.40(.724)REF
0.80±0.20
(.031±.008)
22.30±0.40(.878±.016)
C
Dimensions in mm (inches)
1994 FUJITSU LIMITED F80010S-3C-2
48
MB90092
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) 754-3763
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
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.
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
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.).
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.
Fax: (408) 432-9044/9045
Europe
FUJITSU MIKROELEKTRONIK GmbH
Am Siebenstein 6-10
63303 Dreieich-Buchschlag
Germany
Tel: (06103) 690-0
Fax: (06103) 690-122
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.
F9707
FUJITSU LIMITED Printed in Japan
49
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MB90099LGA
CRT Character/Graphics Display Controller, 28 X 12 Characters, CMOS, PBGA20, PLASTIC, FLGA-20
FUJITSU
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