Mitsubishi microcomputers
M16C / 61 Group
SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER
Electrical characteristics (Vcc = 5V)
145
Table 1.24.3.
Electrical characteristics (referenced to V
CC
= 5V, V
SS
= 0V at Ta = 25
o
C, f(X
IN
) =
10MH
Z
unless otherwise specified)
V
CC
= 5V
V
OH
V
OH
V
OH
V
OL
V
OL
V
OL
V
V
4.7
V
X
OUT
3.0
3.0
V
2.0
0.45
V
V
X
OUT
2.0
2.0
3.0
I
OH
=-5mA
I
OH
=-1mA
I
OH
=-200μA
I
OH
=-0.5mA
With no load applied
With no load applied
I
OL
=5mA
I
OL
=1mA
I
OL
=0.5mA
With no load applied
With no load applied
I
OL
=200μA
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
2
to P7
7
, P8
0
to P8
4
,
P8
6
, P8
7
, P9
0
to P9
7
, P10
0
to P10
7
HIGHPOWER
LOWPOWER
HIGHPOWER
LOWPOWER
HIGHPOWER
LOWPOWER
X
COUT
3.0
1.6
V
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
V
T+-
V
T-
CLK
2
,TA2
OUT
to TA4
OUT
,NMI,
KI
0
to KI
3
, RxD
0
to RxD
2
0.2
0.8
V
TB0
IN
to TB2
IN
, INT
0
to INT
2
,
AD
TRG
, CTS
0
to
, CLK
to
HOLD, RDY, TA0
IN
to TA4
IN
,
V
X
COUT
0
0
HIGHPOWER
LOWPOWER
Symbol
Parameter
Unit
Standard
Min
Typ.
Max.
HIGH output
voltage
HIGH output
voltage
HIGH output
voltage
HIGH output
voltage
LOW output
voltage
LOW output
voltage
LOW output
voltage
LOW output
voltage
Hysteresis
I
IH
I
IL
V
RAM
Icc
V
T+-
V
T-
0.2
1.8
V
5.0
μA
2.0
V
1.0
μA
mA
RESET
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
7
,
P9
0
to P9
7
, P10
0
to P10
7,
X
IN
, RESET, CNVss, BYTE
20.0
V
I
=5V
V
I
=0V
-5.0
19.0
38.0
f(X
IN
)=10MHz
Square wave, no division
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
,
P6
0
to P6
7
, P7
0
to P7
7
, P8
0
to P8
7
,
P9
0
to P9
7
, P10
0
to P10
7,
X
IN
, RESET, CNVss, BYTE
4.0
μA
f(X
CIN
)=32kHz
Square wave
90.0
μA
R
fXIN
R
fXCIN
X
IN
X
CIN
6.0
1.0
R
PULLUP
50.0
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
V
I
=0V
30.0
167.0
Hysteresis
HIGH input
current
LOW input
current
Pull-up
resistance
Feedback resistance
Feedback resistance
RAM retention voltage
Power supply current
μA
When clock is stopped
In single-chip
mode, the
output pins
are open
and other
pins are V
SS
f(X
CIN
)=32kHz
When a WAIT instruction is
executed(Note)
Ta=85
°
C
when clock is stopped
Ta=25
°
C
when clock is stopped
Measuring condition
k
k
M
M
M
M
Note: With one timer operated using fc
32.