MB90096PF [FUJITSU]
On-screen Display Controller; 屏幕显示控制器型号: | MB90096PF |
厂家: | FUJITSU |
描述: | On-screen Display Controller |
文件: | 总36页 (文件大小:370K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
FUJITSU SEMICONDUCTOR
DATA SHEET
DS04-28826-5E
ASSP For Screen Display Control
CMOS
On-screen Display Controller
MB90096
■ DESCRIPTION
The MB90096 is a multi-scan on-screen display controller that supports horizontal sync signal frequencies of 15
kHz to 120 kHz.The on-screen display configuration is up to 32 characters x 16 lines. The character configuration
isupto24dotsx32dotsforhighresolution, idealforwide-screenTV, HDTV, andhigh-resolutionpersonalcomputer
displays.
The character display functions include sprite character, character background display, and graphics functions,
contributing to the use of colorful GUI displays.
The MB90096 contains display memory (VRAM), character font ROM, and VCO, allowing characters to be dis-
played with a minimum of external components. This device also includes command table ROM for storage of
display command data, greatly reducing the load on the microcontroller.
■ PACKAGES
28-pin plastic SOP
28-pin plastic SH-DIP
(FPT-28P-M17)
(DIP-28P-M03)
MB90096
■ FEATURES
• Screen display capacity: Up to 32 characters x 16 lines (512 characters)
• Character configuration:
L size: 24 dots (horizontal) x 2h * dots (vertical)
M size: 18 dots (horizontal) x 2h * dots (vertical)
S size: 12 dots (horizontal) x 2h * dots (vertical)
*: h = 9 to 16
• L, M, S sizes can be selected by individual character
• Graphics characters can be displayed in L or S size only
• Two h values can be set per screen, and either of the two can be selected for each line on the screen.
• Font types: 512 different fonts included (user selectable over entire screen)
• Display modes:
Normal characters/graphic characters:
(set for each character)
Trimmed display (horizontal trimming/pattern back ground): (set for each screen)
Character background (fill/shaded background):
Line background (fill/shaded back ground):
(set for each character)
(set for each line)
Enlarged (normal, double width, double height, double width x double height): (set for each line)
Blinking: Blinking characters:
Blink period, duty ratio:
(set for each character)
(set for each screen)
• Sprite character display (graphics display only):
Capable of displaying one block of characters (maximum 2 x 2 characters) on main screen.
(Can move horizontally and vertically in 2-dot increments.)
Setting applies to the first 256 characters only (character codes 000 to 0FFH).
• Background character display (graphics display only):
Capable of displaying a repeated pattern (2 x 2 characters) on main screen.
Setting applies to the first 256 characters only (character codes 000 to 0FFH).
• Display colors: Character/background colors: 16 colors each (set for each character)
Line background/fill colors:
Screen background colors:
16 characters each (set for each line)
16 colors (set for each screen)
Graphics character dot colors: 16 colors (set for each dot)
Shading background frame colors (highlight/shadow):
16 colors each (set for each screen)
• Display position control:
Horizontal display start position:Set in 4-dot units (for each screen)
Vertical display start position: Set in 4-dot units (for each screen)
Line spacing control:
• Character/color signal output:
Set in 2-dot units (for each line)
ROUT, GOUT, BOUT, IOUT (color signals)
VOB1 (OSD display period output signal)
VOB2 (semi-transparent color period output signal)
• Command transfer function (macro service):
Command table ROM, 16Kbyte included
• Compatible horizontal sync signal frequencies:
15 kHz to 120 kHz (PLL circuit included)
• Microcontroller interface:
16-bit serial input (3 signal input pins)
SH-DIP-28, SOP-28
• Packages:
• Power supply voltage: +5 V
2
MB90096
■ PIN ASSIGNMENTS
(TOP VIEW)
CPOUT
AVSS
1
28
27
26
25
24
23
22
21
20
19
18
17
16
15
AV3V
2
AVCC
VCOIN
AVSS
3
CS
4
SIN
5
RESET
TEST
VSS
SCLK
6
TRE
7
VCC
8
DOCKI
DOCKO
FH
V3V
9
BOUT (C0)
ROUT (C1)
GOUT (C2)
IOUT (C3)
VOB1
VOB2
10
11
12
13
14
EVEN
HSYNC
VSYNC
DISP
(DIP-28P-M03)
(FPT-28P-M17)
3
MB90096
■ PIN DESCRIPTIONS
Pin
no.
Circuit
type
Pin name
CPOUT
VCOIN
I/O
O
I
Function
Horizontal sync phase comparison result signal output pin.
Connects to external low-pass filter.
1
A
B
Internal VCO voltage input pin.
3
8
Receives voltage signal input from external low-pass filter
Dot clock input pin.
Used only when operating on an externally generated dot clock signal. *1
When unused, the horizontal sync signal *2 should be input at this pin.
Internal pull-up resistance included.
DOCKI
I
D
Output pin for the dot clock signal generated by the internal VCO.
This signal can be fixed at “H” level by a command.
9
DOCKO
FH
O
O
C
C
10
Output pin for the horizontal sync signal generated by the PLL circuit.
Field control signal input pin.
This pin is disabled when noninterlaced display or internally generated
field control signals are selected by command.
Internal pull-up resistance included.
11
EVEN
I
D
Horizontal sync signal input pin.
The period of this signal is used to generate the dot clock signal. The
active level is programmable.
Internal pull-up resistance included.
12
13
HSYNC
VSYNC
I
I
D
D
Vertical sync signal input pin.
The active level is programmable.
Internal pull-up resistance included.
Display output (ROUT, GOUT, BOUT, IOUT, VOB1, VOB2) control pin.
When this pin is set to “L” level, the display control is forcibly set to
inactive. Normally, the horizontal and vertical blanking signals are input
here. *3
14
DISP
I
D
C
Internal pull-up resistance included.
17
18
19
20
IOUT (C3)
GOUT(C2)
ROUT(C1)
BOUT(C0)
Color signal output pins.
The active level is programmable.
O
Display period output pin.
The active level is programmable.
16
15
24
25
VOB1
VOB2
SCLK
SIN
O
O
I
C
C
D
D
Semi-transparent period output signal.
The active level is programmable.
Serial transfer shift clock input pin.
Internal pull-up resistance included.
Serial data input pin.
Internal pull-up resistance included.
I
Chip select pin.
26
CS
I
D
Set to “L” level for serial transfer.
Internal pull-up resistance included.
(Continued)
4
MB90096
(Continued)
Pin
no.
Circuit
type
Pin name
I/O
O
I
Function
Output pin for indicator that command transfer and fill operations are in
progress. Active “H” level output.
23
TRE
C
D
Reset input pin.
5
6
RESET
Input a “L” level signal *4 at power-on. Internal pull-up resistance included.
Test signal input pin.
TEST
I
D
Input “H” level (fixed) for normal operation.
Internal pull-up resistance included.
22
21
7
VCC
V3V
VSS
+5 V power supply pin.
Connect 0.1 µF capacitance between this pin and VSS.
Ground pin.
27
28
2, 4
AVCC
AV3V
AVSS
+5 V power supply pin for VCO.
Connect 0.1 µF capacitance between this pin and AVSS.
Ground pin for VCO.
*1: The clock signal should be input even during a reset interval.
*2: The active level of the horizontal sync signal input may be either “H” or “L” level. During reset intervals, including
power-on resets, apply a “L” level fixed signal or a horizontal sync signal with one or more “L” level intervals at
the DOCKI pin.
*3: The MB90096 display signals (IOUT, ROUT, GOUT, BOUT, VOB1, VOB2) may be output during horizontal or
vertical blanking intervals. Normally devices such as TV or monitors use a reverence color setting during hori-
zontal and vertical blanking intervals, so that during this period the MB90096 display signals must be masked
at the DISP pin signal.
*4: When power is switched on, apply a “L” level signal for 1ms or longer after the VCC (AVCC) is stabilized.
5
MB90096
■ I/O CIRCUIT TYPES
Type
Circuit
Remarks
• CMOS output (internal 3 V)
3-state output
(internal 3 V)
Pch
A
Nch
• Analog input
Nch
Pch
B
• CMOS output (5 V)
(5 V)
Pch
C
Nch
• CMOS hysteresis input
Pull-up resistance (approx. 50 kΩ) included
(5 V)
D
6
MB90096
■ BLOCK DIAGRAM
DISP
BOUT
ROUT
GOUT
IOUT
VSYNC
EVEN
RESET
Display
output
control
Display control
CS
Serial input
control
SIN
SCLK
VOB1
VOB2
TRE
Command
table ROM
control
Display memory
Font
ROM
VRAM
(512 char.)
(32 char. x 16 line)
Command
table ROM
Dot clock
(16 KByte)
DOCKI
HSYNC
Dot clock generator circuit
(PLL circuit)
FH
CPOUT
VCOIN
DOCKO
7
MB90096
■ ABSOLUTE MAXIMUM RATINGS
(VSS = AVSS = 0 V Typ)
Rating
Parameter
Symbol
Unit
Remarks
Min
Max
VSS + 6.0
VSS + 6.0
VSS + 3.6
VCC + 0.3
VCC + 0.3
600
VCC
AVCC
V3V, AV3V
VIN
VSS − 0.3
VSS − 0.3
VSS − 0.3
VSS − 0.3
VSS − 0.3
V
V
*
*
Power supply voltage
Capacitance pins
Input voltage
V
V
Output voltage
VOUT
V
Power consumption
Operating temperature
Storage temperature
Pd
mW
°C
°C
Ta
−40
−55
+85
Tstg
+150
*: AVcc and Vcc must have equal potential.
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 Typ)
Value
Symbol
Unit
Parameter
Remarks
Min
4.5
4.5
Max
5.5
VCC
AVCC
VIHS
V
V
Specification guarantee range
*1
Power supply voltage
5.5
“H” level input voltage
“L” level input voltage
0.8 × VCC VCC + 0.3
V
VILS2 VSS − 0.3 0.2 × VCC
V
Operating temperature Ta
−40
+85
°C
V
Analog input voltage
VIN
0
3.0
VCOIN input *2
Smoothing
Use a ceramic capacitor or other capacitor having
capacitor
CS
0.1
1.0
µF equivalent frequency characteristics. The capacitance
(capacitance pin)
at the Vcc and AVcc pins must be greater than Cs.
*1: AVcc and Vcc must have equal potential.
*2: This recommended input voltage range does not imply that stable PLL operation is warranted. For stable PLL
operation it is recommended that input voltage be between 1.0 V and 2.5 V. Note however that PLL operating
status is greatly affected by variations in the input horizontal sync signal period, as well as external filter settings
and operating temperature, etc. Thorough testing and evaluation is recommended.
WARNING: The recommended operating conditions are required in order to ensure the normal operation of the
semiconductor device. All of the device’s electrical characteristics are warranted when the device is
operated within these ranges.
Always use semiconductor devices within their recommended operating condition ranges. 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 representatives beforehand.
8
MB90096
■ ELECTRICAL CHARACTERISTICS
1. DC Characteristics
(VSS = AVSS = 0 V, Ta = -40 °C to +85 °C)
Value
Symbol
Parameter
Pin name
Condition
Unit
Min
Typ Max
VCC = AVCC = 4.5 V,
IOH = −4.0 mA
All output pins
except CPOUT pin
“H” level output voltage 1
“H” level output voltage 2
“L” level output voltage
Pull-up resistance
VOH1
VOH2
VOL
4.0
V
V
VCC = AVCC = 4.5 V,
IOH = −4.0 mA
CPOUT pin
2.5
VCC = AVCC = 4.5 V,
IOL = 4.0 mA
All output pins
0.4
100
10
V
All input pins
except VCOIN pin
RPULL
VCC = AVCC = 5.5 V
20
kΩ
µA
mA
VCC = AVCC = 5.5 V,
VSS < VIL < VCC
Input leak current
IIL
VCOIN pin
−10
VCC = AVCC = 5.5 V (no load),
Dot clock 60 MHz
40
Power supply current
ICC
VCC + AVCC
Dot clock 40 MHz
Dot clock 20 MHz
30
20
mA
mA
Other than power
supply and
Input capacitance
CIN
10
pF
capacitance pins *
*: Power supply pins: VCC, AVCC, VSS, AVSS, Capacitance pins: V3V, AV3V
9
MB90096
2. AC Characteristics
(1) Serial Input Timing
(VCC = AVCC = 5.0 V ± 10%, VSS = AVSS = 0 V, Ta = −40 °C to +85 °C)
Value
Parameter
Shift clock cycle time
Shift clock pulse width
Symbol
Pin name
SCLK
Unit
Remarks
Min
250
100
100
Max
tCYC
tWCH
tWCL
tCR
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
SCLK
200
200
Shift clock signal rise/fall time
SCLK
tCF
Shift clock start time
Data setup time
tSS
SCLK
SIN
100
100
50
tSU
Data hold time
tH
SIN
CS
Chip select end time
tEC
100
tCRC
tCFC
200
200
Chip select signal rise/fall time
CS
• Serial input timing
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
CS
tCRC
tSS
tCFC
tCYC
tEC
0.8 VCC
0.2 VCC
SCLK
tWCL
tWCH
tCF
tCR
tH
tSU
0.8 VCC
0.2 VCC
SIN
10
MB90096
(2) Vertical and horizontal sync signal input timing
(VCC = AVCC = 5.0 V ± 10%, VSS = AVSS = 0 V, Ta = −40 °C to +85 °C)
Value
Remarks
Parameter
Symbol
Pin name
HSYNC
Unit
Min
Max
500
500
500
500
Horizontal sync signal rise time
Horizontal sync signal fall time
Vertical sync signal rise time
Vertical sync signal fall time
tHR
tHF
tVR
tVF
ns
ns
ns
VSYNC
ns
18
Dot clock
Horizontal sync signal pulse
width *1
tWH
HSYNC
VSYNC
HSYNC
6
µs
Vertical sync signal pulse width
Horizontal sync signal setup time
Horizontal sync signal hold time
Vertical sync signal setup time
Vertical sync signal hold time
tWV
2
6
3
4
2
20
H
tDHST
tDHHD
tHVST
tHVHD
ns
ns
*2
*2
1H − 4
Dot clock
H
VSYNC
20
Vertical sync signal setup time
when field signal is generated
tEVST
VSYNC
VSYNC
18
18
Dot clock
Dot clock
*3
*3
Vertical sync signal hold time
when field signal is generated
tEVHD
*1:ThehorizontalsyncpulsetimeisappliedafterMB90096internaloperationshavepausedandhorizontaloperation
has been synchronized. For this reason it is necessary to leave an interval between commands so that writing
to VRAM (command 2, 4) is not performed more than once.
It is necessary to set the horizontal sync signal pulse width and interval for writing to VRAM so that the horizontal
sync signal pulse width is less than the writing interval to VRAM.
*2: Applied when an external dot clock signal is input.
*3: Applied in interlaced display, when the EVEN signal is applied from an external source.
• Vertical and horizontal sync signal input timing
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
HSYNC
VSYNC
tHR
tHF
tWH
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
tVR
tVF
tWV
11
MB90096
• Horizontal sync signal setup and hold timing
0.8 VCC
0.2 VCC
DOCKI
tDHST
0.8 VCC
0.2 VCC
tDHHD
0.8 VCC
0.2 VCC
HSYNC
• Vertical sync signal setup and hold timing
HSYNC: VSYNC detection at front edge (VHE = 0)
tHVST
tHVHD
VSYNC
0.2 VCC
0.2 VCC
0.8 VCC
HSYNC
0.2 VCC
• Vertical sync signal setup and hold timing
HSYNC: VSYNC detection at back edge (VHE = 1)
tHVST
tHVHD
VSYNC
0.2 VCC
0.2 VCC
HSYNC
0.8 VCC
0.2 VCC
12
MB90096
• EVEN signal generation timing
Detection of EVEN = 1
(Valid with settings for internal field signal generation [FLD = 0], and dot clock internal generation [DCO = 0].)
3H/4
H/4
HSYNC
0.2 VCC
VSYNC
0.8 VCC
0.2 VCC
tEVHD
tEVST
Chip internal generation
field signal *
• EVEN signal generation timing
Detection of EVEN = 0
(Valid with settings for internal field signal generation [FLD = 0], and dot clock internal generation [DCO = 0].)
H/4
H/4
HSYNC
VSYNC
0.2 VCC
0.8 VCC
0.2 VCC
tEVHD
tEVST
Chip internal generation
field signal *
*: Sample of internal generation without field signal correction (command 11-0 FC = 0)
Note: In a normal NTSC signal, H/4 = 63.5 µs / 4 =: 15.9 µs, 3H/4 =: 47.6 µs.
13
MB90096
• EVEN signal input timing
(Valid with settings for external field signal input [FLD = 1].)
VSYNC
Video signal
EVEN
V blanking
V blanking
Note: There is no numerical standard for EVEN signal input timing.
Set so that the signal changes during the V blanking interval when no video signal is output.
14
MB90096
(3) Display signal timing
Parameter
(VCC = AVCC = 5.0 V ± 10%, VSS = AVSS = 0 V, Ta = −40 °C to +85 °C)
Value
Symbol
Pin name
Unit
Remarks
Min
7
Max
60
Dot clock input frequency
Dot clock input cycle time
fDCK
tDCK
DOCKI
MHz
ns
DOCKI
DOCKI
16.7
7
142.8
tDIWH
tDIWL
ns
Dot clock input pulse width
7
ns
ROUT, GOUT,
BOUT, IOUT,
VOB1, VOB2
Display signal output mask timing
tMASK
5
30
ns
Dot clock output delay
tDLIO
DOCKO
12
21
24
33
ns
ns
Display signal output delay 1
tRGB1
ROUT, GOUT,
BOUT, IOUT,
VOB1, VOB2
Display signal output hold time 1
Display signal output delay 2
Display signal output hold time 2
FH output delay
tRGB1HD
tRGB2
tRGB2HD
tRGB1 − 11
ns
ns
ns
ns
ROUT, GOUT,
BOUT, IOUT,
VOB1, VOB2
9
5
− 2
−5
tDLFH
FH
• Display signal output mask timing
DISP
0.8 VCC
0.2 VCC
tMASK
tMASK
ROUT, GOUT
IOUT, BOUT
VOB1, VOB2
0.8 VCC
0.2 VCC
Note: • Display related output logic is written in normal logic settings[command 13-0: DHX = DBX = DCX = 0].
• Sync signal input logic is written in inverse logic settings [command 13-0: SIX = 0].
15
MB90096
• Display signal output delay
Prescaler setting: 1/1 (DP1 = 0, DP0 = 0)
tDCK
tDIWH
tDIWL
0.8 VCC
0.8 VCC
0.2 VCC
0.8 VCC
DOCKI
0.2 VCC
0.2 VCC
tDLIO
0.8 VCC
0.8 VCC
DOCKO
tRGB2HD
tRGB2
tRGB1HD
tRGB1
ROUT, GOUT
0.8 VCC
0.8 VCC
0.2 VCC
IOUT, BOUT
VOB1,VOB2
VALID
0.2 VCC
• FH output delay
0.8 VCC
0.8 VCC
DOCKO
tDLFH
tDLFH
0.8 VCC
FH
0.2 VCC
16
MB90096
(4) Power supply input, reset input timing
(VCC = AVCC = 5.0 V ± 10 %, VSS = AVSS = 0 V, Ta = −40 °C to +85 °C)
Vlaue
Parameter
Symbol
Pin name
Unit
Remarks
Min
100
1
Max
Power supply rise time
tPON
tPRT
tRST
VCC, AVCC
RESET
RESET
µs
ms
µs
*
Reset input at power on
Reset input with power stabilized
10
*: Ensure that the slope of the power supply rise (∆V/∆t) does not exceed 0.05 V/µs.
• Power-on and reset input timing
tPON
VCC, AVCC
0.8 VCC
0.2 VCC
RESET
tPRT
tRST
0.2 VCC
0.2 VCC
0.2 VCC
AC rating measurement conditions
C = 28 pF
tr = 5 ns
tf = 5 ns
VOH = 0.8 VCC
VOL = 0.2 VCC
VIH = 0.8 VCC
VIL = 0.2 VCC
17
MB90096
■ COMMAND LIST
1. Command List
Command code/data
Command
Function
no.
15 to 12 11
10
9
8
7
6
5
4
3
2
1
0
0
Set VRAM write address
0000 AY3 AY2 AY1 AY0 FL
0
0
AX4 AX3 AX2 AX1 AX0
1
Character data 1
0001 MS1 MS0 MM1 MM0 MB3 MB2 MB1 MB0 MC3 MC2 MC1 MC0
0010 MR MG MBL M8 M7 M6 M5 M4 M3 M2 M1 M0
0011 LHS LW2 LW1 LW0 LFD LFC LFB LFA LF3 LF2 LF1 LF0
2
Character data 2
3
Line control data 1
Line control data 2
Screen output control 1
Screen output control 2
4
0100 LDS
0
0
1
LG1 LG0 LD
SDS UDS PDS DSP
FM1 FM0 BT1 BT0 BD1 BD0
LE LM1 LM0 L3
L2
0
L1
0
L0
0
5-0
5-1
0101
0101
0
0
0
0
0
0
0
0
0
Vertical display position
control
5-2
5-3
6-0
6-1
0101
0101
0110
0110
1
1
0
0
0
1
0
1
0
0
Y8
X8
0
Y7
X7
0
Y6
X6
Y5
X5
Y4
X4
Y3
X3
0
Y2
X2
Y1
X1
Y0
X0
Horizontal display
position control
Character vertical size
control
0
HB2 HB1 HB0
HA2 HA1 HA0
Shading background
frame color control
0
0
BH3 BH2 BH1 BH0 BS3 BS2 BS1 BS0
Transparent / semi-
transparent color control
6-2
6-3
7-1
0110
0110
0111
1
1
0
0
1
1
TC
HC TC3 TC2 TC1 TC0 HC3 HC2 HC1 HC0
Graphic color control
GF GC GF3 GF2 GF1 GF0 GC3 GC2 GC1 GC0
Screen background
character control 1
1
1
1
0
PM7 PM6 PM5 PM4 PM3 PM2 PM1 PM0
PH2 PH1 PH0 U3 U2 U1 U0
Screen background
character control 2
7-3
0111
1
1
0
8-1
Sprite character control 1 1000
Sprite character control 2 1000
Sprite character control 3 1001
Sprite character control 4 1001
0
1
0
1
0
1
1
0
1
0
0
0
0
0
1
0
SD1 SD0 SM7 SM6 SM5 SM4 SM3 SM2 SM1 SM0
SBL SH2 SH1 SH0
8-2
1
0
0
0
0
0
9-0
SY9 SY8 SY7 SY6 SY5 SY4 SY3 SY2 SY1 SY0
SX9 SX8 SX7 SX6 SX5 SX4 SX3 SX2 SX1 SX0
9-1
11-0
11-2
11-3
13-0
Sync control
1011
1011
1011
1101
0
0
0
EG1 EG0
0
FC0 FLD
0
0
0
0
0
Dot clock control 1
Dot clock control 2
I/O pin control
DO
0
0
DP1 DP0
0
DC0
DK9 DK8 DK7 DK6 DK5 DK4 DK3 DK2 DK1 DK0
0
0
VHE
0
0
0
0
0
SIX
0
0
DHX DBX DCX
CROM transfer start
address 1
14-0
14-1
14-2
14-3
1110
1110
1110
1110
0
0
0
0
0
0
1
1
TSD TSC TSB TSA TS9 TS8
CROM transfer start
address 2
1
0
1
0
0
TS7 TS6 TS5 TS4 TS3 TS2 TS1
0
CROM transfer end
address 1
0
0
TED TEC TEB TEA TE9 TE8
CROM transfer end
address 2
TSV TE7 TE6 TE5 TE4 TE3 TE2 TE1
1
(Continued)
18
MB90096
(Continued)
Notes: • Initial values are undefined for the VRAM and line VRAM settings in commands 0, 1, 2, 3, and 4. Therefore
all VRAM and line VRAM values must be initialized by issuing commands. (FIL functions are valid for all
VRAM initializations.)
• Theinitialvalueforcommand5-0andcommand13-0is"0"forallbits. However, toprotectagainstabnormal
operation due to causes such as external noise, initial settings should be made to all commands *.
*: Initial settings should be made for all commands other than the command ROM transfer commands (command
14-0 through 14-3). Note that initial settings for command 0 through command 9-1 may be stored in command
ROM, and initialized by command ROM transfer.
2. Command content
• Command 0 (Set VRAM write address)
15
0
14
0
13
0
12
0
11
10
9
8
7
6
0
5
0
4
3
2
1
0
AY3 AY2 AY1 AY0 FL
AX4 AX3 AX2 AX1 AX0
AY3-AY0 : Line address (0 to FH)
AX4-AX0 : Column address (0 to 1FH)
FL : VRAM file setting (0 : OFF, 1 : ON)
[Functions]
Command 0 specifies the write address in VRAM memory.
This command is used to specify the line and column address before using commands 1 and 2 to set character
data, and to specify the line address before using commands 3 and 4 to set line control data.
[Description]
• Normal writing (writing in units of 1 character data or 1 line control data) is done with the VRAM fill setting
OFF (FL = 0).
• After executing command 2, the VRAM address is incremented automatically. (At the end of a column, the
address is incremented to the head of the next column, and at the end of the last line the address is incremented
to the head of the next page.)
• If the VRAM fill setting (FL=1) is used, the same character data (specified by commands 1, 2) is written to all
addresses from the line and column address specified by command 0 to the end of the page. VRAM fill is
executed by the set character data 2 command (command 2). When this command is executing, the TRE pin
output is at "H" level.
Notes: • Whencommand3and4settings(linecontroldata)areineffect, thecolumnaddressvaluesinthiscommand
(AX4-AX0) are ignored.
• VRAM addresses are not incremented automatically by executing commands 3 and 4 (line control data).
• VRAM fill settings are valid only for commands 1 and 2 (character data).
• When VRAM fill is executing, commands 1-4 may not be issued.
19
MB90096
• Command 1 (Character data 1)
15
0
14
0
13
0
12
1
11
10
9
8
7
6
5
4
3
2
1
0
MS1 MS0 MM1 MM0 MB3 MB2 MB1 MB0 MC3 MC2 MC1 MC0
MC3-MC0: Character color (16 colors)
MB3-MB0: Character background color
(16 colors)
MS1, MS0: Character horizontal size control
0, 0: 12-dot
0, 1: 18-dot
MM1, MM0:Character background control
(0, 0 : OFF)
1, 0: 24-dot
1, 1: (prohibited)
(0, 1 : Fill in)
(1, 0 : Shaded concave)
(1, 1 : Shaded convex)
[Function]
Command 1 sets character data. This data is written in VRAM and displayed on the screen by executing the
character data 2 command (command 2).
[Description]
• The character color, background color, character background type, and horizontal size can be set in any
combination, for each character separately.
• Shading can be oriented towards, top, bottom, right, or left using a combination of the MR bit in command 2
and the LD and LE bits in command 4.
• Shading background frame color settings are made using command 6-1.
Note: These settings are not available for M size graphics characters.
20
MB90096
• Command 2 (Character data 2)
15
0
14
0
13
1
12
0
11
10
9
8
7
6
5
4
3
2
1
0
MR MG MBL M8 M7 M6 M5 M4 M3 M2 M1 M0
MR: Shaded background right-character fusion
control
(0: No fusion with right-character)
(1: Fusion with right-character)
M8-M0: Character code
MG: Character/graphics character control
(0: character, 1: graphics character)
MBL: Blinking control (0: OFF, 1: ON)
[Function]
Command 2 writes the character data set by the character data 1 command (command 1) as well as the data
contained in this command to the VRAM address specified by the VRAM write address command (command 0).
After command 2 is executed, the VRAM write address is automatically incremented.
[Description]
• The blinking control setting (MBL=1) causes the display to blink according to the settings of the BT1, BT0,
BD1, BD0 bits in command 5-1.
• The shaded background right-character fusion control bit (MR) is used only with characters having the shading
setting specified in command 1 (MM1=1).
Notes: • Because all VRAM settings are undefined after a reset, it is necessary to enter all VRAM settings before
executing a display.
•These settings are not available for M size graphics characters.
• Command 3 (Line control data 1)
15
0
14
0
13
1
12
1
11
10
9
8
7
6
5
4
3
2
1
0
LHS LW2 LW1 LW0 LFD LFC LFB LFA LF3 LF2 LF1 LF0
LHS: Line character vertical size type
(0: Character vertical size A)
LFD, LFC: Trimming output control
(0,0: All OFF)
(1: Character vertical size B)
(0,1: Trimming ON for characters without
background only)
LW2-LW0: Line spacing control
(0-14 dots, in 2-dot increments)
LF3-LF0: Trimming color (16 colors)
(1,0: Trimming ON for characters without
background and filled characters only)
(1,1: Trimming output ON)
LFB, LFA: Trimming control
(0,0: Trimming OFF)
(0,1: Right trimming)
(1,0: Left trimming)
(1,1: Left and right trimming)
[Function]
Command 3 sets line control data. This data is written in VRAM and reflected on the screen display when the
line data 2 command (command 4) is executed.
[Description]
• Command 6-0 (Character vertical size control) determines the specification of the actual size of the characters
controlled by the line character vertical size type setting (LHS).
• The trimming format is specified by the FM1, FM0 bits in command 5-1 (Trimming format control).
21
MB90096
• Command 4 (Line control data 2)
15
0
14
1
13
0
12
0
11
10
0
9
8
7
6
5
4
3
2
1
0
LDS
LG1 LG0 LD
LE LM1 LM0 L3
L2
L1
L0
LDS: Line character output control
(0: OFF, 1: ON)
LE: Character background expansion control
(0: Normal, 1: Expanded)
LG1, LG0: Line expansion control
(0:,0: Normal)
LD: Shaded background lower side fusion control
(0: Not fused, 1: Lower side fused)
LM1, LM0: Line background control
(0,0: OFF)
(0,1: Double width)
(1,0: Double height)
(1,1: Double height and width)
(0,1: Fill display)
(1,0: Shaded concave display)
(1,1: Shaded convex display)
L3-L0: Line background color (16 colors)
[Function]
Command 4 writes the line control data set by the line control data 1 command (command 3) as well as the data
contained in this command to the VRAM address specified by the VRAM write address command (command 0).
Notes: • Because all VRAM settings are undefined after a reset, it is necessary to enter all VRAM settings before
executing a display.
• Executing this command does not cause automatic incrementing of the VRAM write address. The address
must be set by command 0 for each line for which this command is executed.
• Command 5-0 (Screen output control 1)
15
0
14
1
13
0
12
1
11
0
10
0
9
0
8
0
7
6
5
4
3
0
2
0
1
0
0
0
SDS UDS PDS DSP
SDS: Sprite character output control
(0: OFF, 1: ON)
PDS: Screen background character output control
(0: OFF, 1: ON)
UDS: Screen background output control
(0: OFF, 1: ON)
DSP: Display output control
(Character + trimming + character
background + line background control)
(0: OFF, 1: ON)
[Function]
Command 5-0 controls screen display output.
Note: When the display is turned ON by turning the SDS, PDS, UDS, DSP bits ON, starting from a state in which
at least one of those bits is already ON, it may happen that the display screen (characters) appear displaced
vertically by the amount of the initial field in the setting.
22
MB90096
• Command 5-1 (Screen output control 2)
15
0
14
1
13
0
12
1
11
0
10
1
9
8
7
6
5
4
3
0
2
0
1
0
0
0
FM1 FM0 BT1 BT0 BD1 BD0
BT1, BT0: Blinking period control
(0,0: 16 V)
FM1, FM0: Trimming format control
(0,0: Horizontal trimming 1 dot)
(0,1: Horizontal trimming 2 dots)
(1,0: Pattern background 1)
(1,1: Pattern background 2)
(0,1: 32 V)
(1,0: 48 V)
(1,1: 64 V)
BD1, BD0: Blinking duty control
(0,0: On:off = 1:0 (always on))
(0,1: On:off = 1:1)
(1,0: On:off = 1:3)
(1,1: On:off = 3:1)
[Function]
Command 5-1 controls screen display output.
[Description]
The blinking control bits of this command are applied to characters for which blinking control is specified (MBL=1)
in command 2, as well as sprite characters for which blinking control is specified (SBL=1) in command 8-2.
• Command 5-2 (Vertical display position control)
15
0
14
1
13
0
12
1
11
1
10
0
9
0
8
7
6
5
4
3
2
1
0
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
Y8-Y0: Vertical display position control
(0-2044, in 4-dot units)
[Function]
Command 5-2 controls the vertical display position on the screen.
• Command 5-3 (Horizontal display position control)
15
0
14
1
13
0
12
1
11
1
10
1
9
0
8
7
6
5
4
3
2
1
0
X8
X7
X6
X5
X4
X3
X2
X1
X0
X8-X0: Horizontal display position control
(0-2044, in 4-dot units)
[Function]
Command 5-3 controls the horizontal display position on the screen.
23
MB90096
• Command 6-0 (Character vertical size control)
15
0
14
1
13
1
12
0
11
0
10
0
9
0
8
0
7
0
6
5
4
3
0
2
1
0
HB2 HB1 HB0
HA2 HA1 HA0
HB2-HB0: Character vertical size control B
(18-32 dots, in 2-dot units)
HA2-HA0: Character vertical size control A
(18-32 dots, in 2-dot units)
[Function]
Command 6-0 controls the vertical size of character types A and B.
[Description]
This command specifies the actual values of the vertical size settings (LHS=0: Size A, LHS=1: Size B) for
individual lines in command 3.
• Command 6-1 (Shading background frame color)
15
0
14
1
13
1
12
0
11
0
10
1
9
0
8
0
7
6
5
4
3
2
1
0
BH3 BH2 BH1 BH0 BS3 BS2 BS1 BS0
BH2-BH0: Shaded background frame highlight
color (16 colors)
BS2-BS0: Shaded background frame shadow
color (16 colors)
[Function]
Command 6-1 controls the frame color of the shading background.
[Description]
• This command sets the frame color for characters for which shaded character background is specified in
command 1 (MM1=1), as well as shading background for lines for which shaded line background is specified
in command 4 (LM1=1).
• The highlight color indicates the color of the left and top edges of the character area when convex shaded
character background is selected, or the color of the top edge of the line area when convex shaded line
background is selected.
• The shadow color indicates the color of the right and bottom sides of the character area when convex shaded
character background is selected, or the color of the bottom edge of the line area when convex shaded line
background is selected.
• When concave shaded character background or concave shaded line background is selected, the highlight
and shadow colors are the reverse of those selected for convex display.
24
MB90096
• Command 6-2 (Transparent / semi-transparent color control)
15
0
14
1
13
1
12
0
11
1
10
0
9
8
7
6
5
4
3
2
1
0
TC HC TC3 TC2 TC1 TC0 HC3 HC2 HC1 HC0
TC: Transparent color control (0: OFF, 1: ON)
TC3-TC0: Transparent color code (16 colors)
HC: Semi-transparent color control (0: OFF, 1: ON) HC3-HC0: Semi-transparent color code (16 colors)
[Function]
Command 6-2 controls the transparent and semi-transparent color settings.
[Description]
• The setting TC=1 causes areas of the designated transparent color (TC3-TC0) to be excluded (so that the
color behind those areas shows through).
• The setting HC=1 causes areas of the designated semi-transparent color (HC3-HC0) to be excluded at the
same time a semi-transparent interval signal output from the VOB2 pin, so that the signal can be used by
external circuits to reduce brightness, etc.
Notes: • If both the transparent and semi-transparent settings are selected at the same time, they should be set for
different colors.
• The semi-transparent interval signal output from the VOB2 pin is applied to areas other than the main
screen character, trimming, and graphics areas.
• Command 6-3 (Graphic color control)
15
0
14
1
13
1
12
0
11
1
10
1
9
8
7
6
5
4
3
2
1
0
GF GC GF3 GF2 GF1 GF0 GC3 GC2 GC1 GC0
GF: Graphic color trimming color replacement
control (0: OFF, 1: ON)
GF3-GF0: Trimming color replacement color code
(16 colors)
GC: Graphic color character color replacement
control (0: OFF, 1: ON)
GC3-GC0:Character color replacement color code
(16 colors)
[Function]
Command 6-3 controls the replacement of a specified color in graphics characters with the character color or
trimming color.
[Description]
• Graphics characters are registered in font ROM in fixed colors, but this command allows two of the 16 colors
to be designated for replacement as the trimming color and character color.
• The setting GF=1 causes areas of the color specified as the trimming color to be replaced by the color that is
designated as the trimming color for that line (by command 3).
• The setting GC=1 causes areas of the color specified as the character color to be replaced by the color that
is designated as the character color for that line (by command 1).
Notes: • This command applies only to colors of graphics characters in a main screen display.
• If both the trimming color replacement and character color replacement settings are selected at the same
time, they should be set for different colors.
• Transparent and semi-transparent colors are applied to colors after replacement.
25
MB90096
• Command 7-1 (Screen background character control 1)
15
0
14
1
13
1
12
1
11
0
10
1
9
1
8
1
7
6
5
4
3
2
1
0
PM7 PM6 PM5 PM4 PM3 PM2 PM1 PM0
PM7-PM0: Screen background character code
(000H to 0FFH, 256 types)
[Function]
Command 7-1 controls screen background characters.
[Description]
• The display can be started by using command 5-0 to turn screen background character output control ON
(PDS-1).
• Vertical character size can be set by command 7-3 for screen background character vertical size control (PH2-
PH0).
Notes: • Screenbackgroundcharacterscanonlybeselectedfromthefirst256orthe512characters, usingcharacter
codes in multiples of 4 (PM1=0, PM0=0).
• Only graphics character arrays of 2 characters wide x 2 characters high may be designated.
• Screen background character replacement colors (command 6-3) may not be applied.
• Command 7-3 (Screen background character control 2)
15
0
14
1
13
1
12
1
11
1
10
1
9
1
8
0
7
0
6
5
4
3
2
1
0
PH2 PH1 PH0 U3
U2
U1
U0
PH2-PH0: Screen background character vertical
size control (18-32 dots, in 2-dot units)
U3-U0:
[Function]
Command 7-3 controls screen background characters and the screen background color.
Screen background color (16 colors)
[Description]
• The screen background color is displayed by using command 5-0 to turn the screen background output control
ON (UDS=1).
• The screen background characters are displayed by using command 5-0 to turn the screen background
character output control ON (PDS=1).
26
MB90096
• Command 8-1 (Sprite character control 1)
15
1
14
0
13
0
12
0
11
0
10
1
9
8
7
6
5
4
3
2
1
0
SD1 SD0 SM7 SM6 SM5 SM4 SM3 SM2 SM1 SM0
SD1, SD0: Sprite character configuration control SM7-SM0:Sprite character codes
(0,0: 1 character)
(000H to 0FFH, 256 types)
(0,1: Horizontal 2 characters)
(1,0: Vertical 2 characters)
(1,1: Vertical 2 x horizontal 2 characters)
[Function]
Command 8-1 controls sprite characters.
[Description]
• Sprite character display is started by using command 5-0 to turn sprite character output control ON (SDS=1).
• The sprite character start position is set by command 9-0 and command 9-1.
• Vertical size is controlled by using command 8-2 to set the sprite character vertical size control (SH2-SH0),
and blinking is controlled by the sprite character blinking control bit (SBL).
• The sprite character blinking period and duty are controlled by the BT1, BT0, BD1, and BD0 bits in command
5-1.
Notes: • Sprite characters may only be selected from the first 256 of the 512 characters.
• For configurations of 2 characters or greater, only characters codes in multiples of 4 (SM1=0, SM0=0) may
be used.
• Sprite characters are always displayed in graphic character displays
• Replacement color control (command 6-3) cannot be applied to sprite characters.
• Command 8-2 (Sprite character control 2)
15
1
14
0
13
0
12
0
11
1
10
0
9
1
8
7
0
6
5
4
3
0
2
0
1
0
0
0
SBL
SH2 SH1 SH0
SBL:Sprite character blinking control
(0: OFF, 1: ON)
SH2-SH0:Sprite character vertical size control
(18-32 dots, in 2-dot units)
[Function]
Command 8-2 controls sprite characters.
• Command 9-0 (Sprite character control 3)
15
1
14
0
13
0
12
1
11
0
10
0
9
8
7
6
5
4
3
2
1
0
SY9 SY8 SY7 SY6 SY5 SY4 SY3 SY2 SY1 SY0
SY9-SY0: Sprite character vertical display position
control (0-2046, in 2-dot units)
[Function]
Command 9-0 controls the sprite character vertical display position.
27
MB90096
• Command 9-1 (Sprite character control 4)
15
1
14
0
13
0
12
1
11
1
10
0
9
8
7
6
5
4
3
2
1
0
SX9 SX8 SX7 SX6 SX5 SX4 SX3 SX2 SX1 SX0
SX9-SX0: Sprite character horizontal display
position control (0-2046, in 2-dot units)
[Function]
Command 9-1 controls the sprite character horizontal display position.
[Description]
For information related to sprite character settings, see the description under command 8-1.
• Command 11-0 (Sync control)
15
1
14
0
13
1
12
1
11
0
10
0
9
0
8
0
7
6
5
0
4
3
2
0
1
0
0
0
EG1 EG0
FC0 FLD
FC0: Field 0 correction control
Field E-0 conversion
(0: No correction, 1: Correction)
FLD: Field 0 signal input control
(0: Internal separation generation,
1: External input)
EG1, EG0: Vertical enlargement control
(0,0: Interlaced)
(0,1: Non-interlaced )
(1,0: Setting prohibited)
(1,1: Vertical 2x)
[Function]
Command 11-0 controls the synchronization system.
[Description]
• The vertical display area is adjusted by the combination of vertical enlargement control (EG1, EG0) and the
scan method. This setting is applied to all vertical count parameters (display position, dot size).
• If interlaced display (EG1=0, EG0=0) is used, the field 0 signal input control (FLD) is used to select either an
internally generated field signal or an externally input signal. If an external input is used the field signal must
be input from the EVEN pin.
28
MB90096
• Command 11-2 (Dot clock control 1)
15
1
14
0
13
1
12
1
11
1
10
0
9
8
0
7
0
6
0
5
4
3
0
2
0
1
0
0
DO
DP1 DP0
DC0
DO: Dot clock pin output control
(0: OFF, 1: ON)
DC0: Dot clock selection control
(0: external input, 1: internal VCO (H-PLL)
DP1, DP0: Dot clock prescaler control
(0,0: 1/1)
(0,1: 1/2)
(1,0: 1/4)
(1,1: 1/8)
[Function]
Command 11-2 controls the dot clock signal.
[Description]
The internal dot clock signal can be output from the DOCKO pin by setting the dot clock pin output control to
ON (DO=1).
Note: If no external dot clock signal is needed, it is recommended that the dot clock pin output control be set to
OFF (DO=0) to keep noise to a minimum.
• Command 11-3 (Dot clock control 2)
15
1
14
0
13
1
12
1
11
1
10
1
9
8
7
6
5
4
3
2
1
0
DK9 DK8 DK7 DK6 DK5 DK4 DK3 DK2 DK1 DK0
DK9-DK0: Dot clock multiplier value (4-dot units)
[Function]
Command 11-3 adjusts the dot clock frequency.
[Description]
This command sets the number by which the prescaler multiplies the input dot clock signal to produce the
horizontal sync signal period (in 4-dot units).
Notes: • Settings lower than 040H may not be used.
• This setting is necessary only when an internal VCO signal is used.
29
MB90096
• Command 13-0 (I/O pin control)
15
1
14
1
13
0
12
1
11
0
10
0
9
0
8
7
0
6
0
5
4
0
3
0
2
1
0
VHE
SIX
DHX DBX DCX
SIX: Sync signal input logic control
(0: inverse logic, 1: normal logic)
DCX: Display color signal output logic control
(0: normal logic, 1: inverse logic)
DBX: Display output period signal logic control
(0: normal logic, 1: inverse logic)
VHE: Vertical sync detection HSYNC edge
selection (0: Front edge, 1: back edge)
DHX: Semi-transparent period signal output logic
control (0: normal logic, 1: inverse logic)
[Function]
Command 13-0 controls the input-output pin functions.
[Description]
This command can eliminate vertical movement (dancing) by using the vertical sync detection HSYNC edge
selection (VHE) to adjust the vertical sync signal and horizontal sync signal input timing.
Note: The sync signal input logic control bit (SIX) is applied to both the vertical sync signal and horizontal sync signal.
• Command 14-0 (Command ROM transfer start address 1)
15
1
14
1
13
1
12
0
11
0
10
0
9
0
8
0
7
0
6
0
5
4
3
2
1
0
TSD TSC TSB TSA TS9 TS8
TSD-TS8: Command ROM transfer start address 1
(high address)
[Function]
Command 14-0 is used for the command ROM transfer start address 1 setting.
[Description]
This command sets the upper half of the starting address for a command ROM transfer.
• Command 14-1 (Command ROM transfer start address 2)
15
1
14
1
13
1
12
0
11
0
10
0
9
1
8
0
7
6
5
4
3
2
1
0
0
TS7 TS6 TS5 TS4 TS3 TS2 TS1
TS7-TS1: Command ROM transfer start address 2
(low address)
[Function]
Command 14-1 is used for the command ROM transfer start address 2 setting.
[Description]
This command sets the lower half of the starting address for a command ROM transfer.
30
MB90096
• Command 14-2 (Command ROM transfer end address 1)
15
1
14
1
13
1
12
0
11
0
10
1
9
0
8
0
7
0
6
0
5
4
3
2
1
0
TED TEC TEB TEA TE9 TE8
TED-TE8: Command ROM transfer end address 1
(high address)
[Function]
Command 14-2 is used for the command ROM transfer end address 1 setting.
[Description]
This command sets the upper half of the ending address for a command ROM transfer.
• Command 14-3 ( Command ROM transfer end address 2)
15
1
14
1
13
1
12
0
11
0
10
1
9
1
8
7
6
5
4
3
2
1
0
1
TSV TE7 TE6 TE5 TE4 TE3 TE2 TE1
TSV: Command ROM transfer sync control
(0: Not synchronized, 1: V synchronized)
TE7-TE1: Command ROM transfer end address 2
(low address)
[Function]
Command 14-3 is used for the command ROM transfer end address 2 setting.
[Description]
• This command sets the lower half of the ending address for a command ROM transfer.
• Turn the command ROM transfer sync control ON (TSV=1) to start a transfer in sync with the front edge of the
vertical sync signal.
• When the command ROM transfer sync control is OFF (TSV=0), a transfer is started when this command is
issued.
Note: If command ROM transfer sync control is used, it is necessary to use the screen output control command
(command 5-0) to turn one of the output control bits (SDS, PDS, UDS, DSP) ON.
31
MB90096
■ SAMPLE APPLICATION CIRCUIT
VCC : +5 V (digital)
GND : Ground (digital)
AVCC : +5 V (analog)
AGND : Ground (analog)
MB90096
12
13 VSYNC
20
19
18
17
16
15
9
HSYNC
BOUT
ROUT
Sync
separation
Display
controller
14
11
8
DISP
GOUT
EVEN
DOCKI
IOUT
VOB1
VOB2
26
25
24
23
CS
DOCKO
SIN
Microcontroller
SCLK
VCC
TEST
6
5
TRE
VCC
VCC
22
Reset
RESET
10 µF
0.1 µF
+
21 V3V
0.1 µF
7
VSS
GND
*
3
1
VCOIN
AVCC
R1
27
28
AVCC
CPOUT
10 µF
0.1 µF
+
AV3V
C2
R2
0.1 µF
AGND
2
4
AVSS
C1
AGND
AVSS
AGND
* : Must be adjusted according to usage conditions
32
MB90096
■ ORDERING INFORMATIONS
Part number
Package
Remarks
28-pin plastic SH-DIP
(DIP-28P-M03)
MB90096P
28-pin plastic SOP
(FPT-28P-M17)
MB90096PF
33
MB90096
■ PACKAGE DIMENSIONS
28-pin plastic SH-DIP
(DIP-28P-M03)
+0.20
–0.30
26.00
1.024 +–..001028
INDEX-1
9.10±0.25
(.358±.010)
INDEX-2
4.85(.191)MAX
3.00(.118)MIN
0.51(.020)MIN
0.25±0.05
(.010±.002)
0.45±0.10
(.018±.004)
+0.50
–0
1.00
15°MAX
.039 +–0.020
10.16(.400)
TYP
1.778±0.18
(.070±.007)
1.778(.070)
MAX
23.114(.910)REF
Dimensions in mm (inches) .
(Continued)
C
1994 FUJITSU LIMITED D28012S-3C-3
34
MB90096
(Continued)
28-pin plastic SOP
(FPT-28P-M17)
.007 –.002
28
15
11.80±0.30
(.465±.012)
*28.60±0.20
(.339±.008)
INDEX
Details of "A" part
2.65±0.15
(.104±.006)
(Mounting height)
0.25(.010)
1
14
"A"
0~8˚
1.27(.050)
0.47±0.08
(.019±.003)
M
0.13(.005)
0.80±0.20
(.031±.008)
0.20±0.15
(.008±.006)
(Stand off)
0.88±0.15
(.035±.006)
0.10(.004)
C
2002 FUJITSU LIMITED F28048S-c-3-4
Dimensions in mm (inches) .
35
MB90096
FUJITSU LIMITED
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.
The information, such as descriptions of function and application
circuit examples, in this document are presented solely for the
purpose of reference to show examples of operations and uses of
Fujitsu semiconductor device; Fujitsu does not warrant proper
operation of the device with respect to use based on such
information. When you develop equipment incorporating the
device based on such information, you must assume any
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assumes no liability for any damages whatsoever arising out of
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function and schematic diagrams, shall not be construed as license
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from the use of information contained herein.
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and manufactured as contemplated for general use, including
without limitation, ordinary industrial use, general office use,
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and manufactured as contemplated (1) for use accompanying fatal
risks or dangers that, unless extremely high safety is secured, could
have a serious effect to the public, and could lead directly to death,
personal injury, severe physical damage or other loss (i.e., nuclear
reaction control in nuclear facility, aircraft flight control, air traffic
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extremely high reliability (i.e., submersible repeater and artificial
satellite).
Please note that Fujitsu will not be liable against you and/or any
third party for any claims or damages arising in connection with
above-mentioned uses of the products.
Any semiconductor devices have an inherent chance of failure. You
must protect against injury, damage or loss from such failures by
incorporating safety design measures into your facility and
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over-current levels and other abnormal operating conditions.
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of those products from Japan.
F0303
FUJITSU LIMITED Printed in Japan
相关型号:
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