M37280MF Datasheet, PDF(123/178 Page) Mitsubishi Electric Semiconductor – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER and ON-SCREEN DISPLAY CONTROLLER　　　　

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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 Â°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

Â°C

â40 to 125

Â°C

22. RECOMMENDED OPERATING CONDITIONS (Ta = â10 Â°C to 70 Â°C, VCC = 5 V Â± 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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