Datasheet
Section 27 Electrical Characteristics
(H8S/2695)
R01UH0166EJ0600 Rev. 6.00 Page 1125 of 1434
Mar 02, 2011
H8S/2633 Group, H8S/2633 F-ZTAT
TM
,
H8S/2633R F-ZTAT
TM
, H8S/2695
Item
Symbol
Min
Typ
Max
Unit
Test
Conditions
MOS input
pull-up current
Ports A to E –I
P
50 — 300 µA V
in
= 0 V
RES C
in
— — 30 pF Input
capacitance
NMI — — 30 pF
All input pins
except RES
and NMI
— — 15 pF
V
in
= 0 V
f = 1 MHz
T
a
= 25°C
Current
dissipation
*
2
Normal
operation
I
CC
*
4
— 70 84 mA f = 28 MHz
Sleep mode — 55 77 mA f = 28 MHz
All modules
stopped
— 40 — mA f = 28 MHz
(reference
values)
Medium-speed
mode (φ/32)
— 54 — mA f = 28 MHz
(reference
values)
— 0.1 5.0 µA T
a
≤ 50°C
Standby
mode
— — 20 50°C < T
a
During A/D
conversion
Al
CC
— 0.6 2.0 mA AV
CC
= 5.0 V Analog
power supply
current
Idle — 0.1
T
a
= 25°C
5.0 µA
During A/D
conversion
Al
CC
— 4.0 5.0 mA V
ref
= 5.0 V Reference
power supply
current
Idle — 0.1
T
a
= 25°C
5.0 µA
RAM standby voltage
*
3
V
RAM
2.0 — — V
Notes: 1. If the A/D converter is not used, do not leave the AV
CC
, V
ref
, and AV
SS
pins open. Apply a
voltage between 3.3 V and 5.5 V to the AV
CC
and V
ref
pins by connecting them to PV
CC
,
for instance. Set V
ref
≤ AV
CC
.
2. Current dissipation values are for V
IH
= AV
CC
(ports 4 and 9), or PV
CC
(other), and V
IL
= 0
V, with all output pins unloaded and the on-chip MOS pull-up transistors in the off state.
3. The values are for V
RAM
≤ PV
CC
< 3.0 V, V
IH
min = PV
CC
– 0.1 V, and V
IL
max = 0.1 V.
4. I
CC
depends on PV
CC
and f as follows:
I
CC
max = 15 (mA) + 0.45 (mA/(MHz × V)) × PV
CC
× f (normal operation)
I
CC
max = 15 (mA) + 0.40 (mA/(MHz × V)) × PV
CC
× f (sleep mode)