Datasheet
RX610 Group 5. Electrical Characteristics
R01DS0097EJ0120 Rev.1.20 Page 58 of 84
Feb 20, 2013
Item
Symbol
Min.
Typ.
Max.
Unit
Test Conditions
Input pull-up resistor
current
Ports A to E -I
p
10 300 μA V
CC
= 3.0 to 3.6 V
,
V
in
= 0 V
Input capacitance
All input pins
(except port 0, ports 14 to 17)
C
in
15 pF
V
in
= 0 V,
f = 1 MHz,
T
a
= 25°C
Port 0, ports 14 to 17 30
Supply current*
3
In operation Max.*
4
I
CC
*
5
100 mA
ICLK = 100 MHz
PCLK = 50 MHz
BCLK = 25 MHz
Normal*
6
35
Increased by BGO
operation
*
7
15
Sleep 18 52
All-module-clock-stop mode*
8
14 28
Standby
mode
Software standby mode 0.08 3.0
Deep software
standby mode
RAM retained 15 200 μA
RAM power
supply halted
0.9 26
Analog power supply
current
During A/D conversion (per unit) AI
CC
0.8 1.2 mA
During D/A conversion (per unit) 0.3 1.0 μA
Idle (all units) 0.3 1.0
Reference power
supply current
During A/D conversion (per unit) 0.06 0.1 mA
During D/A conversion (per unit) 0.4 0.6
Idle (all units) 0.3 1.0 μA
RAM standby voltage V
RAM
2.5 V
V
CC
start voltage*
9
V
CCSTART
0.8 V
V
CC
rising gradient*
9
SV
CC
20 ms/V
Notes: 1. This does not include the pins, which are multiplexed as ports 0, and 14 to 17 for 5 V tolerant.
2. This includes the multiplexed pins, but RIIC input pins for ports 14 to 17 are excluded.
3. Supply current values are with all output pins unloaded, all input pins for V
IH
= V
CC
and V
IL
= 0 V, and all input pull-up
resistors in the off state.
4. Measured with clocks supplied to the peripheral functions. This does not include the BGO operation.
5. I
CC
depends on f (ICLK) as follows. (ICLK : PCLK : BCLK = 8 : 4: 2)
I
CC
max. = 0.89 x f + 11 (max.)
I
CC
typ. = 0.30 x f + 5 (normal operation)
I
CC
max. = 0.41 x f + 11 (sleep mode)
6. Measured with clocks not supplied to the peripheral functions. This does not include the BGO operation.
7. Incremented if data is written to or erased from the ROM or data flash for data storage during the program execution.
8. The values are for reference.
9. This can be applied when the RES# pin is held low at power-on.