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HD6413003RF Datasheet, PDF (544/715 Pages) Renesas Technology Corp – Microcontroller (MCU)
Table 18-2 DC Characteristics (cont)
Conditions: VCC = 3.0 V to 5.5 V, AVCC = 3.0 V to 5.5 V, VREF = 3.0 V to AVCC,
VSS = AVSS = 0 V*1, Ta = –20°C to +75°C (normalspecification product),
Ta = –40°C to +85°C (extended temperature range specification product)
Item
Three-state
leakage
current
(off state)
Ports 4, 5, 6,
8 to C, A19 to
A0, D15 to D8
RESO
Input pull Ports 4 and 5
-up current
Symbol Min
|ITS1|
—
—
–IP
10
Input
NMI
CIN
—
capacitance All input pins
—
except NMI
Current
Normal
dissipation*2 operation
ICC*4
—
—
Sleep
—
—
Standby*3-[
—
—
Analog
During A/D
AICC
—
power
conversion
—
supply
A/D conversion
—
standby
Typ Max
— 1.0
— 10.0
— 300
— 50
— 15
38 45
(5.0 V) (5.5 V)
27 34
(5.0 V) (5.5 V)
0.01 5.0
— 20.0
1.0 2.0
1.2 —
0.01 5.0
Unit Test Conditions
µA VIN = 0.5 to
VCC – 0.5 V
µA
µA VCC = 3.0 V to
5.5 V,
VIN = 0 V
pF VIN = 0 V
pF f = 1MHz
Ta = 25°C
mA f = 10 MHz
mA f = 10 MHz
µA Ta ≤ 50°C
50°C < Ta
mA AVCC = 3.0 V
AVCC = 5.0 V
µA
Reference During A/D
AICC
—
power
conversion
—
supply
current
A/D conversion
—
standby
0.2 0.4
0.3 —
0.01 5.0
mA VREF = 3.0 V
VREF = 5.0 V
µA
RAM standby voltage
VRAM
2.0
——
V
Notes: 1. When the A/D converter is not used, do not leave the AVCC, VREF, and AVSS pins open.
Connect the AVCC and VREF pins to VCC, and the AVSS pin to VSS.
2. The current dissipation value is the value when all output pins are unloaded and the on-
chip pull-up MOS is off under the following conditions: VIH min = VCC to 0.5 V, VIL
max = 0.5 V.
3. When VRAM ≤ VCC < 3.0 V, the value is for the case where VIHmin = VCC × 0.9, and
VILmax = 0.3 V.
4. ICC is dependent upon VCC and f in accordance with the following formulas.
ICCmax = 1.0 (mA) + 0.8 (mA/MHz · V) × VCC × f [normal mode]
ICCmax = 1.0 (mA) + 0.6 (mA/MHz · V) × VCC × f [sleep mode]
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