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M37280MF Datasheet, PDF (123/178 Pages) Mitsubishi Electric Semiconductor – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER and ON-SCREEN DISPLAY CONTROLLER | |||
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MITSUBISHI MICROCOMPUTERS
M37280MFâXXXSP, M37280MKâXXXSP
M37280EKSP
SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER
and ON-SCREEN DISPLAY CONTROLLER
21. ABSOLUTE MAXIMUM RATINGS
Symbol
VCC, AVCC
VI
VI
VO
VO
IOH
IOL1
IOL2
IOL3
IOL4
Pd
Topr
Tstg
Parametear
Power source voltage VCC, AVCC
Input voltage
CNVSS
Input voltage
P00âP07, P10âP17, P20âP27,
P30, P31, P40âP46, P64, P63,
P__7_0_ â_ P_72, XIN, HSYNC, VSYNC,
RESET
Output voltage
P03, P10âP17, P20âP27, P30â
P32, P47, P51âP57, P60âP62,
P65âP67, SOUT, SCLK, XOUT,
OSC2
Output voltage
P00âP02, P04âP07, P50
Circuit current
P52âP55, P10, P03, P15âP17,
P20âP27, P30, P31
Circuit current
P52âP57, P10, , P03, P15âP17,
P20âP27, P65âP67, SOUT, SCLK
Circuit current
P11âP14
Circuit current
P00âP02, P04âP07, P32, P47, P50
P51, P60âP62
Circuit current
P30, P31
Power dissipation
Operating temperature
Storage temperature
Conditions
All voltages are
based on VSS.
Output transistors
are cut off.
Ta = 25 °C
Ratings
Unit
â0.3 to 6
V
â0.3 to 6
V
â0.3 to VCC + 0.3
V
â0.3 to VCC + 0.3
V
â0.3 to 13
V
0 to 1 (See note 1)
mA
0 to 2 (See note 2)
mA
0 to 6 (See note 2)
mA
0 to 1 (See note 2)
mA
0 to 10 (See note 3)
mA
550
mW
â10 to 70
°C
â40 to 125
°C
22. RECOMMENDED OPERATING CONDITIONS (Ta = â10 °C to 70 °C, VCC = 5 V ± 10 %, unless otherwise noted)
Symbol
Parameter
VCC, AVCC
VCC, AVCC
VSS
VIH1
VIH2
VIL1
VIL2
VIL3
IOH
IOL1
IOL2
IOL3
IOL4
f(XIN)
f(XCIN)
fosc
RL
fhs1
fhs2
fhs3
fhs4
VI
Power source voltage (See note 4), During CPU, OSD, data slicer operation
RAM hold voltage (when clock is stopped)
Power source voltage
HIGH input voltage
P00âP07, P10âP17, P20âP27, P30, P31,
P40âP46, P63, P64, P70âP72, HSYNC,
VSYNC, RESET, XIN
HIGH input voltage
SCL1, SCL2, SDA1, SDA2
LOW input voltage
P00âP07, P10âP17, P20âP27, P30, P31,
P40âP46, P63, P64, P70âP72
LOW input voltage
SCL1, SCL2, SDA1, SDA2
LOW input voltage (See note 6)
RESET, XIN, OSC1, HSYNC, VSYNC,
INT1, INT2, INT3, TIM2, TIM3, SCLK, SIN
HIGH average output current (See note 1)
P52âP55, P10, P03, P15âP17,
P20âP27, P30, P31
LOW average output current (See note 2)
P51âP57, P10, P03, P15âP17,
P20âP27, SOUT, SCLK, P47, P65âP67
LOW average output current (See note 2) P11âP14
LOW average output current (See note 2)
P00âP02, P04âP07, P32, P47,
P50, P51, P60âP62
LOW average output current (See note 3) P30, P31
Oscillation frequency (for CPU operation) (See note 5) XIN
Oscillation frequency (for sub-clock operation)
XCIN
Oscillation frequency (for OSD)
OSC1
LC oscillating mode
Ceramic oscillating mode
Load resistance
During R,G,B analog output
Input frequency
TIM2, TIM3, INT1, INT2, INT3
Input frequency
SCLK
Input frequency
SCL1, SCL2
Input frequency
Horizontal sync. signal of video signal
Input amplitude video signal
CVIN
Min.
4.5
2.0
0
0.8VCC
0.7VCC
0
0
0
7.9
29
11.0
25.5
20.0
15.262
1.5
Limits
Typ.
5.0
0
Unit
Max.
5.5 V
5.5 V
0V
VCC V
VCC V
0.4 VCC V
0.3 VCC V
0.2 VCC V
1 mA
2 mA
6 mA
1 mA
10 mA
8.0
8.1 MHz
32
35 kHz
27.0
MHz
26.5
27.5
15.734
2.0
100
1
400
16.206
2.5
kHz
MHz
kHz
kHz
V
Rev. 1.0
123
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