Chapter 1
Overview
Electrical Characteristics I - 25
C9
Supply current in
HALT
I
DD9
HALT0 mode
f
HRCCLK
= 8 MHz
V
DD30
= 3.0 V, V
DD18
= 1.1 V
-- 0.24 0.33 mA
C10
I
DD10
HALT2 mode
f
SOSCCLK
= 32.768 kHz
V
DD30
= 3.0 V, V
DD18
= 1.1 V
Ta = 25 °C
(HOSCCLK/HRCCLK/SRCCLK are stopped)
-- 0.2 0.4
µA
C11
I
DD11
HALT3 mode
f
SOSCCLK
= 32.768 kHz
V
DD30
= 3.0 V, V
DD18
= 1.1 V
Ta = 25 °C, HALTMOD = 1
(HOSCCLK/HRCCLK/SRCCLK are stopped)
-- 0.5 0.7
C12
I
DD12
HALT3 mode
f
SOSCCLK
= 32.768 kHz
V
DD30
= 3.0 V, V
DD18
= 1.1 V
Ta = 85 °C, HALTMOD = 1
(HOSCCLK/HRCCLK/SRCCLK are stopped)
-- -- 2.9
C13
Supply current in
STOP
I
DD13
V
DD30
= 3.0 V, V
DD18
= 1.1 V
Ta = 25 °C
(HOSCCLK/HRCCLK/
SOSCCLK/SRCCLK are stopped)
-- 0.06 0.24
C14
I
DD14
V
DD30
= 3.0 V, V
DD18
= 1.1 V
Ta = 85 °C
(HOSCCLK/HRCCLK/
SOSCCLK/SRCCLK are stopped)
-- -- 2.6
*12 The supply current is measured with Ta = 25 °C, no-load, and all the analog part in the power-down state. (The pull-up/down resis-
tors are not connected.) Each supply current is measured with the following conditions.
I
DD1, 5
(Operating supply current): After setting all input and output pins to the input mode, V
DD18
(the Logic supply voltage) to 1.8 V,
the oscillation mode to NORMAL (the external oscillation), fix the input pins to V
DD30
level and input the 10/4 MHz square wave,
which has the amplitude from V
DD30
to V
SS
, from OSC1 pin.
I
DD2, 3, 4
(Operating supply current): After setting all input and output pins to the input mode, V
DD18
(the Logic supply voltage) to 1.8
V, the oscillation mode to NORMAL (the internal high-oscillation; 10/8 MHz), fix the input pins to V
DD30
level.
I
DD6
(Operating supply current): After setting all input and output pins to the input mode, V
DD18
(the Logic supply voltage) to 1.3 V,
the oscillation mode to NORMAL (the internal high-oscillation; 1 MHz), fix the input pins to V
DD30
level.
I
DD7
(Operating supply current): After setting all input and output pins to the input mode, V
DD18
(the Logic supply voltage) to 1.1 V,
the oscillation mode to SLOW (the external oscillation), fix the input pins to V
DD30
level and input the 32.768 kHz square wave,
which has the amplitude from V
DD30
to V
SS
, from XI pin.
I
DD8
(Operating supply current): After setting all input and output pins to the input mode, V
DD18
(the Logic supply voltage) to 1.1 V,
the oscillation mode to SLOW (the internal low-oscillation; 40 kHz), fix the input pins to V
DD30
level.
I
DD9
(Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT0 (the internal
high-oscillation), fix the input pins to V
DD30
level.
I
DD10
(Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT2 (the external
low-oscillation), fix the input pins to V
DD30
level and input the 32.768 kHz square wave, which has the amplitude from V
DD30
to V
SS
,
from XI pin.
I
DD11,12
(Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT3 (the exter-
nal low-oscillation), fix the input pins to V
DD30
level and input the 32.768 kHz square wave, which has the amplitude from V
DD30
to
V
SS
, from XI pin.
I
DD13,14
(Supply current in STOP): After setting V
DD18
(the Logic supply voltage) to 1.1 V and the oscillation mode to STOP, fix the
input pins to V
DD30
level and make OSC1 and XI pins open.
C1, C5: MN101LR02D is not applicable.
C. DC Characteristics
V
SS
= 0 V
Ta = -40 °C to +85 °C
Parameter Symbol Condition
Limits
Unit
MIN TYP MAX
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