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HD64F2357VF13 Datasheet, PDF (762/1049 Pages) Renesas Technology Corp – Old Company Name in Catalogs and Other Documents
Item
Symbol Min
Typ Max
Unit Test Conditions
Output high
voltage
Output low
voltage
All output pins VOH
All output pins VOL
Ports 1, A to C
Input leakage RES
| I in |
current
STBY, NMI,
MD2 to MD0
Port 4
VCC – 0.5 —
—
VCC – 1.0 —
—
—
— 0.4
—
— 1.0
—
— 10.0
—
— 1.0
—
— 1.0
V
I OH = –200 µA
V
I OH = –1 mA
V
I OL = 1.6 mA
V
VCC ≤ 4.0 V
I OL = 5 mA
4.0 < VCC ≤ 5.5 V
I OL = 10 mA
µA Vin = 0.5 V to VCC
µA – 0.5 V
µA Vin = 0.5 V to AVCC
– 0.5 V
Three-state Ports 1 to 3, I TSI —
leakage
5, 6, A to G
current
(off state)
— 1.0
µA Vin = 0.5 V to VCC
–0.5 V
MOS input
Ports A to E –I P
10
pull-up current
Input
capacitance
RES
NMI
Cin
—
—
All input pins
—
except RES
and NMI
Current
Normal
I CC*4
—
dissipation*2 operation
— 300
— 80
— 50
— 15
µA VCC = 3.0 to
5.5 V, Vin = 0 V
pF Vin = 0 V
f = 1 MHz
pF
Ta = 25°C
pF
32 80
(3.3 V)
mA f = 13 MHz
Sleep mode
—
22 55
mA f = 13 MHz
(3.3 V)
Standby
—
mode*3
—
Analog power During A/D Al CC
—
supply current and D/A
conversion
0.01 5.0
— 20
0.3 2.0
(3.3 V)
µA Ta ≤ 50°C
50°C < Ta
mA
Idle
—
0.01 5.0
µA
Reference
During A/D Al CC
—
current
and D/A
conversion
1.6 3.0
mA
(3.3 V)
Idle
—
0.01 5.0
µA
RAM standby voltage
VRAM
2.0
——
V
Notes: 1. If the A/D and D/A converters are 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 VIH min = VCC –0.5 V and VIL max = 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 < 3.0 V, VIH min = VCC × 0.9, and VIL max = 0.3 V.
4. I CC depends on VCC and f as follows:
I CC max = 1.0 (mA) + 1.1 (mA/(MHz × V)) × VCC × f [normal mode]
I CC max = 1.0 (mA) + 0.75 (mA/(MHz × V)) × VCC × f [sleep mode]
Rev.6.00 Oct.28.2004 page 732 of 1016
REJ09B0138-0600H