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HD6413002 Datasheet, PDF (535/700 Pages) Renesas Technology Corp – High-performance single-chip microcontroller
Table 18-2 DC Characteristics (cont)
Conditions: VCC = 5.0 V ± 10%, AVCC = 5.0 V ± 10%, VREF = 4.5 V to AVCC ,
VSS = AVSS = 0 V*1, Ta = –20°C to +75°C (regular specifications),
Ta = –40°C to +85°C (wide-range specifications)
Item
Symbol Min
Typ
Max Unit Test Conditions
Input leakage STBY, NMI, |Iin|
—
—
1.0
µA Vin = 0.5 to
current
RES,
VCC – 0.5 V
MD2 to MD0
Port 7
—
—
1.0
µA Vin = 0.5 to
AVCC – 0.5 V
Three-state Ports 4, 6,
|ITS1|
—
—
1.0
µA Vin = 0.5 to
leakage
8 to B, A19 to
VCC – 0.5 V
current
A0, D15 to D8
(off state) RESO
—
—
10.0 µA Vin = 0.5 to
VCC – 0.5 V
Input pull-up Port 4
current
–IP
50
—
300
µA Vin = 0 V
Input
NMI
Cin
—
—
50
pF Vin = 0 V
capacitance All input pins
—
—
15
f = 1 MHz
except NMI
Ta = 25°C
Current
Normal
ICC*4
—
45
70
mA f = 16 MHz
dissipation*2 operation
—
53
85
f = 17 MHz
Sleep mode
—
30
50
mA f = 16 MHz
—
38
63
f = 17 MHz
Standby
—
mode*3
—
Analog power During A/D AICC
—
supply current conversion
0.01
5.0
µA Ta ≤ 50°C
—
20.0
50°C < Ta
1.2
2.0
mA
Idle
—
0.01
5.0
µA
Reference
current
During A/D
conversion
AICC
—
0.3
0.6
mA VREF = 5.0 V
Idle
—
0.01
5.0
µA
RAM standby voltage
VRAM
2.0
—
—
V
Notes: 1. If the A/D converter is not used, do not leave the AVCC, AVSS, and VREF pins open.
Connect AVCC and VREF to VCC, and connect AVSS to VSS.
2. Current dissipation values are for VIHmin = VCC – 0.5 V and VILmax = 0.5 V with all output
pins unloaded and the on-chip pull-up transistors in the off state.
3. The values are for VRAM ≤ VCC < 4.5 V, VIHmin = VCC × 0.9, and VILmax = 0.3 V.
4. When 16 MHz, ICC depends on f as follows:
ICC max = 5.0 (mA) + 4.06 (mA/MHz) × f [normal mode]
ICC max = 5.0 (mA) + 2.81 (mA/MHz) × f [sleep mode]
ICC typ = 5.0 (mA) + 2.50 (mA/MHz) × f [normal mode]
ICC typ = 5.0 (mA) + 1.56 (mA/MHz) × f [sleep mode]
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