Mitsubishi microcomputers
M16C / 61 Group
SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER
Electrical characteristics (Vcc = 5V)
144
Note 1: The mean output current is the mean value within 100ms.
Note 2: The total I
OL
(peak) for ports P0, P1, P2, P8
6
, P8
7
, P9, and P10 must be 80mA max. The total I
OH
(peak) for ports P0, P1,
P2, P8
6
, P8
7
, P9, and P10 must be 80mA max. The total I
OL
(peak) for ports P3, P4, P5, P6, P7, and P8
0
to P8
4
must be
80mA max. The total I
OH
(peak) for ports P3, P4, P5, P6, P7
2
to P7
7
, and P8
0
to P8
4
must be 80mA max.
Note 3: Specify a product of –40 to 85
°
C to use it.
Note 4: The relationship between main clock input frequency and power supply voltage is as below.
Table 1.24.2. Recommended operating conditions (referenced to V
CC
= 2.7V to 5.5V at Ta = –20 to
85
o
C / –40 to 85
o
C (Note 3) unless otherwise specified)
2.7
5.5
Typ.
5.0
Vcc
0
0
Max.
Unit
Parameter
Vcc
AVcc
Vss
AVss
Supply voltage
Analog supply voltage
Supply voltage
Symbol
Min
Standard
V
V
V
Analog supply voltage
V
IH
V
IL
0.8Vcc
V
V
V
V
0.8Vcc
0.5Vcc
Vcc
Vcc
Vcc
0.2Vcc
0
LOW input voltage
HIGH input voltage
P7
2
to P7
7
, P8
0
to P8
7
, P9
0
to P9
7
, P10
0
to P10
7
,
X
IN
, RESET, CNV
SS
, BYTE
P7
0
, P7
1
P0
0
to P0
7
, P1
0
to P1
7
, P2
0
to P2
7
, P3
0
(during single-chip mode)
P0
0
to P0
7
, P1
0
to P1
7
, P2
0
to P2
7
, P3
0
(data input function during memory expansion
and microprocessor modes)
P3
1
to P3
7
, P4
0
to P4
7
, P5
0
to P5
7,
P6
0
to P6
7
,
V
P7
0
to P7
7
, P8
0
to P8
7
, P9
0
to P9
7
, P10
0
to P10
7
,
X
IN
, RESET, CNV
SS
, BYTE
P0
0
to P0
7
, P1
0
to P1
7
, P2
0
to P2
7
, P3
0
(during single-chip mode)
P3
1
to P3
7
, P4
0
to P4
7
, P5
0
to P5
7,
P6
0
to P6
7
,
I
OH (avg)
HIGH average output
current
mA
mA
V
V
0.2Vcc
0
0
0.16Vcc
I
OH (peak)
HIGH peak output
current
-5.0
-10.0
P0
0
to P0
7
, P1
0
to P1
7
,
P2
0
to P2
7
,P3
0
to P3
7
,
P4
0
to P4
7
, P5
0
to P5
7
,
P6
0
to P6
7
,P7
2
to P7
7
,
P8
0
to P8
4,
P8
6,
P8
7,
P9
0
to P9
7,
P10
0
to P10
7
P0
0
to P0
7
, P1
0
to P1
7
,
P2
0
to P2
7
,P3
0
to P3
7
,
P4
0
to P4
7
, P5
0
to P5
7
,
P6
0
to P6
7
,P7
2
to P7
7
,
P8
0
to P8
4,
P8
6,
P8
7,
P9
0
to P9
7,
P10
0
to P10
7
P0
0
to P0
7
, P1
0
to P1
7
,
P2
0
to P2
7
,P3
0
to P3
7
,
P4
0
to P4
7
, P5
0
to P5
7
,
P6
0
to P6
7
,P7
0
to P7
7
,
P8
0
to P8
4,
P8
6,
P8
7,
P9
0
to P9
7,
P10
0
to P10
7
P0
0
to P0
7
, P1
0
to P1
7
,
P2
0
to P2
7
,P3
0
to P3
7
,
P4
0
to P4
7
, P5
0
to P5
7
,
P6
0
to P6
7
,P7
0
to P7
7
,
P8
0
to P8
4,
P8
6,
P8
7,
P9
0
to P9
7,
P10
0
to P10
7
LOW peak output
current
10.0
5.0
mA
f
(X
IN
)
Main clock input oscillation
frequency
LOW average output
current
I
OL (peak)
mA
I
OL (avg)
10
f
(Xc
IN
)
Subclock oscillation frequency
kHz
50
32.768
P0
0
to P0
7
, P1
0
to P1
7
, P2
0
to P2
7
, P3
0
(data input function during memory expansion
and microprocessor modes)
V
CC
=4.0V to 5.5V
V
CC
=2.7V to 4.0V
5 X V
CC
–10.000
10
MHz
0.8Vcc
V
6.5
With wait
No wait
V
CC
=4.0V to 5.5V
V
CC
=2.7V to 4.0V
0
0
0
0
2.31
X
V
CC
+0.760
MHz
MHz
MHz
Main clock input oscillation frequency
(No wait)
AAAAAAA
5 X V
2.7
Supply voltage
[V]
(BCLK: no division)
AAAAAAA
AAAAAAA
AAAAAAA
AAAAAAA
AAAAAAA
AAAAAAA
10.0
3.5
0.0
4.2
5.5
O
f
Z
]
Main clock input oscillation frequency
(With wait)
2.31 X V
CC
–0.760MH
Z
AAAAAAA
Supply voltage
[V]
(BCLK: no division)
AAAAAAA
AAAAAAA
AAAAAAA
AAAAAAA
AAAAAAA
10.0
7.0
0.0
5.5
O
f
Z
]