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| M38027E8SP Datasheet, PDF (35/51 Pages) Mitsubishi Electric Semiconductor – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER | |||
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MITSUBISHI MICROCOMPUTERS
3802 Group
SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
VCC
Power source voltage
Input voltage P00âP07, P10âP17, P20âP27,
VI
P30âP37, P40âP47, P50âP57,
P60âP67,
VREF
VI
Input voltage RESET, XIN
VI
Input voltage CNVSS
Output voltage P00âP07, P10âP17, P20âP27,
VO
P30âP37, P40âP47, P50âP57,
P60âP67,
XOUT
Pd
Power dissipation
Topr
Operating temperature
Tstg
Storage temperature
Note: 300 mW in case of the flat package.
Conditions
All voltages are based on VSS.
Output transistors are cut off.
Ta = 25 °C
Ratings
Unit
â0.3 to 7.0
V
â0.3 to VCC +0.3
V
â0.3 to VCC +0.3
V
â0.3 to 13
V
â0.3 to VCC +0.3
V
1000 (Note)
mW
â20 to 85
°C
â40 to 125
°C
RECOMMENDED OPERATING CONDITIONS (Vcc = 3.0 to 5.5 V, Ta = â20 to 85°C, unless otherwise noted)
Symbol
Parameter
Limits
Unit
Min. Typ. Max.
Power source voltage (f(XIN) < 2 MHz) (Note 1)
VCC
Power source voltage (f(XIN) = 8 MHz) (Note 1)
3.0
5.0
5.5
V
4.0
5.0
5.5
VSS
Power source voltage
0
V
VREF
Analog reference voltage (when A-D converter is used)
Analog reference voltage (when D-A converter is used)
2.0
VCC
V
3.0
VCC
AVSS
Analog power source voltage
0
V
VIA
Analog input voltage
AN0âAN7
AVSS
VCC
V
VIH
âHâ input voltage
P00âP07, P10âP17, P20âP27, P30âP37, P40âP47,
P50âP57, P60âP67
0.8 VCC
VCC
V
VIH
âHâ input voltage
RESET, XIN, CNVSS
0.8 VCC
VCC
V
VIL
âLâ input voltage
P00âP07, P10âP17, P20âP27, P30âP37, P40âP47,
P50âP57, P60âP67
0
0.2 VCC V
VIL
âLâ input voltage
RESET, CNVSS
0
0.2 VCC V
VIL
âLâ input voltage
XIN
0
0.16 VCC V
ΣIOH(peak) âHâ total peak output current P00âP07, P10âP17, P20âP27, P30âP37 (Note 2)
â80 mA
ΣIOH(peak) âHâ total peak output current P40âP47,P50âP57, P60âP67 (Note 2)
â80 mA
ΣIOL(peak) âLâ total peak output current
P00âP07, P10âP17, P20âP27, P30âP37 (Note 2)
80 mA
ΣIOL(peak) âLâ total peak output current
P40âP47,P50âP57, P60âP67 (Note 2)
80 mA
ΣIOH(avg) âHâ total average output current P00âP07, P10âP17, P20âP27, P30âP37 (Note 2)
â40 mA
ΣIOH(avg) âHâ total average output current P40âP47,P50âP57, P60âP67 (Note 2)
â40 mA
ΣIOL(avg) âLâ total average output current P00âP07, P10âP17, P20âP27, P30âP37 (Note 2)
40 mA
ΣIOL(avg) âLâ total average output current P40âP47,P50âP57, P60âP67 (Note 2)
40 mA
IOH(peak)
âHâ peak output current
P00âP07, P10âP17, P20âP27, P30âP37, P40âP47,
P50âP57, P60âP67 (Note 3)
â10 mA
IOL(peak)
âLâ peak output current
P00âP07, P10âP17, P20âP27, P30âP37, P40âP47,
P50âP57, P60âP67 (Note 3)
10 mA
IOH(avg)
âHâ average output current
P00âP07, P10âP17, P20âP27, P30âP37, P40âP47,
P50âP57, P60âP67 (Note 4)
â5 mA
IOL(avg)
âLâ average output current
P00âP07, P10âP17, P20âP27, P30âP37, P40âP47,
P50âP57, P60âP67 (Note 4)
5 mA
f(XIN)
Internal clock oscillation frequency (VCC = 4.0 to 5.5 V)
Internal clock oscillation frequency (VCC = 3.0 to 4.0 V)
8
6 VCCâ16 MHz
Note
1:
The
minimum
power
source
voltage
is
X +16
6
[V]
(f(XIN)
=
XMHz)
on
the
condition
of
2
MHz
<
f(XIN)
<
8
MHz.
2: The total output current is the sum of all the currents flowing through all the applicable ports. The total average current is an aver-
age value measured over 100 ms. The total peak current is the peak value of all the currents.
3: The peak output current is the peak current flowing in each port.
4: The average output current IOL(avg), IOH(avg) in an average value measured over 100 ms.
35
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