Panasonic MN101L Series User Manual page 47

C. DC Characteristics
Parameter
C9
C10
Supply current in
HALT
C11
C12
C13
Supply current in
STOP
C14
*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 (Operating supply current): After setting all input and output pins to the input mode, V
DD1, 5
the oscillation mode to NORMAL (the external oscillation), fix the input pins to V
which has the amplitude from V
I (Operating supply current): After setting all input and output pins to the input mode, V
DD2, 3, 4
V, the oscillation mode to NORMAL (the internal high-oscillation; 10/8 MHz), fix the input pins to V
I (Operating supply current): After setting all input and output pins to the input mode, V
DD6
the oscillation mode to NORMAL (the internal high-oscillation; 1 MHz), fix the input pins to V
I (Operating supply current): After setting all input and output pins to the input mode, V
DD7
the oscillation mode to SLOW (the external oscillation), fix the input pins to V
which has the amplitude from V
I (Operating supply current): After setting all input and output pins to the input mode, V
DD8
the oscillation mode to SLOW (the internal low-oscillation; 40 kHz), fix the input pins to V
I (Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT0 (the internal
DD9
high-oscillation), fix the input pins to V
I (Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT2 (the external
DD10
low-oscillation), fix the input pins to V
from XI pin.
I (Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT3 (the exter-
DD11,12
nal low-oscillation), fix the input pins to V
V , from XI pin.
SS
I (Supply current in STOP): After setting V
DD13,14
input pins to V level and make OSC1 and XI pins open.
DD30
C1, C5: MN101LR02D is not applicable.
Symbol
HALT0 mode
f = 8 MHz
I
HRCCLK
DD9
V = 3.0 V, V
DD30
HALT2 mode
f = 32.768 kHz
SOSCCLK
I
V = 3.0 V, V
DD10
DD30
Ta = 25 °C
(HOSCCLK/HRCCLK/SRCCLK are stopped)
HALT3 mode
f = 32.768 kHz
SOSCCLK
I
V = 3.0 V, V
DD11
DD30
Ta = 25 °C, HALTMOD = 1
(HOSCCLK/HRCCLK/SRCCLK are stopped)
HALT3 mode
f = 32.768 kHz
SOSCCLK
I
V = 3.0 V, V
DD12
DD30
Ta = 85 °C, HALTMOD = 1
(HOSCCLK/HRCCLK/SRCCLK are stopped)
V = 3.0 V, V
DD30
Ta = 25 °C
I
DD13
(HOSCCLK/HRCCLK/
SOSCCLK/SRCCLK are stopped)
V = 3.0 V, V
DD30
Ta = 85 °C
I
DD14
(HOSCCLK/HRCCLK/
SOSCCLK/SRCCLK are stopped)
to V , from OSC1 pin.
DD30 SS
to V , from XI pin.
DD30 SS
level.
DD30
level and input the 32.768 kHz square wave, which has the amplitude from V
DD30
level and input the 32.768 kHz square wave, which has the amplitude from V
DD30
(the Logic supply voltage) to 1.1 V and the oscillation mode to STOP, fix the
DD18
Condition
= 1.1 V
DD18
= 1.1 V
DD18
= 1.1 V
DD18
= 1.1 V
DD18
= 1.1 V
DD18
= 1.1 V
DD18
level and input the 10/4 MHz square wave,
DD30
level and input the 32.768 kHz square wave,
DD30
Ta = -40 °C to +85 °C
Limits
MIN TYP MAX
-- 0.24 0.33
-- 0.2 0.4
-- 0.5 0.7
-- -- 2.9
-- 0.06 0.24
-- -- 2.6
(the Logic supply voltage) to 1.8 V,
DD18
(the Logic supply voltage) to 1.8
DD18
level.
DD30
(the Logic supply voltage) to 1.3 V,
DD18
level.
DD30
(the Logic supply voltage) to 1.1 V,
DD18
(the Logic supply voltage) to 1.1 V,
DD18
level.
DD30
DD30
Electrical Characteristics
Chapter 1
Overview
V = 0 V
SS
Unit
mA
µA
to V ,
SS
to
DD30
I - 25