Datasheet

ManualsBrandsRENESAS ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller LQFP 176 (24x24) 32-Bit 100 MHz I/O number 133

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R01DS0098EJ0180 Rev.1.80 Page 135 of 208

May 13, 2014

RX63N Group, RX631 Group 5. Electrical Characteristics

Table 5.5 DC Characteristics (4) (for G Version (+85 < Ta ≤ +105°C))

Conditions: VCC = AVCC0 = VREFH = VCC_USB = V

BATT

= 2.7 to 3.6 V, VREFH0 = 2.7 V to AVCC0,

VSS = AVSS0 = VREFL/VREFL0 = VSS_USB = 0 V, T

= T

opr

Item Symbol Min. Typ. Max. Unit Test Conditions

Supply

current*

High-speed operating mode

Max.*

— — 115 mA ICLK = 100 MHz

PCLKA = 100MHz

PCLKB = 50 MHz

FCLK = 50 MHz

BCLK = 100MHz

Normal

Peripheral function: clock signal

supplied*

—52—

Peripheral function: clock signal

stopped*

—40—

Sleep mode — 25 80

All-module-clock-stop mode (reference value) — 20 53

Increased by BGO operation*

—15—

Low-speed operating mode 1*

—4 — ICLK = 1 MHz

Low-speed operating mode 2 — 1 — ICLK = 32.768 kHz

Software standby mode — 0.2 9

Deep software standby mode

Power supplied to RAM and USB resume

detecting unit

— 22 200 µA

Power not

supplied to RAM

and USB resume

detecting unit

Power-on reset circuit

and low-power

consumption function

disabled

—2160

Power-on reset circuit

and low-power

consumption function

enabled

—6.228

Increase when the RTC

is operating

When a crystal oscillator

for low clock loads is in

use

—1.0—

When a crystal oscillator

for standard clock loads

is in use

—3.0—

RTC operating while

VCC is off (with the

battery backup function,

only the RTC and sub-

clock oscillator operate)

When a crystal oscillator

for low clock loads is in

use

—0.9— V

BATT

= 2.0 V, VCC = 0V

—1.6— V

BATT

= 3.3 V, VCC = 0V

When a crystal oscillator

for standard clock loads

is in use

—1.7— V

BATT

= 2.0 V(for

products with 100 pins or

more), VBATT = 2.3 V

(for the 64-pin product),

VCC = 0V

—3.3— V

BATT

= 3.3 V, VCC = 0V

Analog

power

supply

current*

During 12-bit A/D conversion (including temperature

sensor)

AVCC0

—2.33.2mA

During 10-bit A/D conversion I

VREFH

— 1.0 1.65 mA

During D/A conversion (per unit) — 0.7 1.0 mA

Waiting for A/D, D/A conversion (all units)*

——2535µA

A/D, D/A converter in standby mode (all units)*

—0.15 µA

Reference

power

supply

current

During 12-bit A/D conversion I

VREFH0

—0.60.7mA

Waiting for 12-bit A/D conversion (per unit) — 0.5 0.6 mA

12-bit A/D converter in standby mode (per unit) — 0.1 2.0 µA

RAM standby voltage V

RAM

2.7 — — V

VCC rising gradient SrVCC 8.4 — 20000 µs/V

VCC falling gradient*

SfVCC 8.4 — — µs/V