MN101LR05D/04D/03D/02D
8-bit Single-chip Microcontroller
PubNo. 21705-019E
C. DC Characteristics
VSS = 0 V
Ta = -40 ï°C to +85ï ï°C
Parameter
Symbol
Condition
Limits
Unit
MIN TYP MAX
HALT0 mode
C9
IDD9 fHRCCLK = 8 MHz
-- 0.24 0.33 mA
VDD30 = 3.0 V, VDD18 = 1.1 V
HALT2 mode
C10
fSOSCCLK = 32.768 kHz
IDD10 VDD30 = 3.0 V, VDD18 = 1.1 V
--
0.2 0.4
Ta = 25 ï°C
(HOSCCLK/HRCCLK/SRCCLK are stopped)
Supply current in
HALT3 mode
HALT
fSOSCCLK = 32.768 kHz
C11
IDD11 VDD30 = 3.0 V, VDD18 = 1.1 V
--
Ta = 25 ï°C, HALTMOD = 1
(HOSCCLK/HRCCLK/SRCCLK are stopped)
0.5 0.7
HALT3 mode
C12
fSOSCCLK = 32.768 kHz
IDD12 VDD30 = 3.0 V, VDD18 = 1.1 V
ïA
--
--
2.9
Ta = 85 ï°C, HALTMOD = 1
(HOSCCLK/HRCCLK/SRCCLK are stopped)
C13
Supply current in
STOP
C14
IDD13
IDD14
VDD30 = 3.0 V, VDD18 = 1.1 V
Ta = 25 ï°C
(HOSCCLK/HRCCLK/
SOSCCLK/SRCCLK are stopped)
VDD30 = 3.0 V, VDD18 = 1.1 V
Ta = 85 ï°C
(HOSCCLK/HRCCLK/
SOSCCLK/SRCCLK are stopped)
-- 0.06 0.24
--
--
2.6
*13 The supply current is measured with Ta = 25 ï°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.
IDD1, 5 (Operating supply current): After setting all input and output pins to the input mode, VDD18 (the Logic supply voltage) to 1.8 V,
the oscillation mode to NORMAL (the external oscillation), hold the input pins to VDD30 level and input the 10/4 MHz square wave,
which has the amplitude from VDD30 to VSS, from OSC1 pin.
IDD2, 3, 4 (Operating supply current): After setting all input and output pins to the input mode, VDD18 (the Logic supply voltage) to 1.8
V, the oscillation mode to NORMAL (the internal high-oscillation: 10/8 MHz), hold the input pins to VDD30 level.
IDD6 (Operating supply current): After setting all input and output pins to the input mode, VDD18 (the Logic supply voltage) to 1.3 V,
the oscillation mode to NORMAL (the internal high-oscillation: 1 MHz), hold the input pins to VDD30 level.
IDD7 (Operating supply current): After setting all input and output pins to the input mode, VDD18 (the Logic supply voltage) to 1.1 V,
the oscillation mode to SLOW (the external oscillation), hold the input pins to VDD30 level and input the 32.768 kHz square wave,
which has the amplitude from VDD11 to VSS, from XI pin.
IDD8 (Operating supply current): After setting all input and output pins to the input mode, VDD18 (the Logic supply voltage) to 1.1 V,
the oscillation mode to SLOW (the internal low-oscillation: 40 kHz), hold the input pins to VDD30 level.
IDD9 (Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT0 (the internal
high-oscillation), hold the input pins to VDD30 level.
IDD10 (Supply current in HALT): After setting all input and output pins to the input mode, the oscillation mode to HALT2 (the external
low-oscillation), hold the input pins to VDD30 level and input the 32.768 kHz square wave, which has the amplitude from VDD11 to
VSS, from XI pin.
IDD11,12 (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), hold the input pins to VDD30 level and input the 32.768 kHz square wave, which has the amplitude from VDD11 to
VSS, from XI pin.
IDD13,14 (Supply current in STOP): After setting VDD18 (the Logic supply voltage) to 1.1 V and the oscillation mode to STOP, hold the
input pins to VDD30 level and make OSC1 and XI pins open.
Publication date: October 2014
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