HD64F2168 Datasheet, PDF(826/874 Page) Renesas Technology Corp – Renesas 16-Bit Single-Chip Microcomputer

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HD64F2168 Datasheet, PDF (826/874 Pages) Renesas Technology Corp – Renesas 16-Bit Single-Chip Microcomputer

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Item

Test

Symbol Min. Typ. Max. Unit Conditions

Analog

power

supply

current

During A/D, D/A conversion AIcc

A/D, D/A conversion

standby

ï£§ 1.0 2.0 mA

ï£§ 2.5 5.0 ÂµA

Reference

power

supply

current

During A/D conversion

AIref

During A/D, D/A conversion

ï£§ 0.1 1.0 mA

ï£§ 0.5 5.0

A/D, D/A conversion

standby

ï£§ 0.5 5.0 ÂµA

Input

All input pin

capacitance

RAM standby voltage

VCC start voltage

VCC rising edge

Cin

ï£§ï£§

VRAM

3.0 ï£§

VCCSTART ï£§

0

SVCC ï£§ ï£§

10 pF Vin = 0 V, f = 1 MHz,

Ta = 25 Â°C

ï£§V

0.8 V

20 ms/V

Notes:

1. Do not leave the AVCC, AVref, and AVSS pins open even if the A/D converter or D/A converter is

not used.

Even if the A/D converter or D/A converter is not used, apply a value in the range from 3.0 V to 3.6

V to the AVCC and AVref pins by connecting them to the power supply (VCC). The relationship

between these two pins should be AVref â¤ AVCC.

2. When noise cancel has been enabled.

3. An external pull-up resistor is necessary to provide high-level output from SCL5 to SCL0 and

SDA5 to SDA0 (ICE bit in ICCR is 1).

4. Port 8, C0 to C5, D6, and D7 are NMOS push-pull outputs.

Port 8, C0 to C5, D6, D7, and SCK0 to SCK2 (ICE bit in ICCR = 0) high levels are driven by

NMOS. An external pull-up resistor is necessary to provide high-level output from these pins when

they are used as an output.

5. Current consumption values are for VIH min = VCC â 0.2 V and VIL max = 0.2 V with all output pins

unloaded and the on-chip pull-up MOSs in the off state.

6. When VCC = 3.0 V, VIH min = VCC â 0.2 V, and VIL max = 0.2 V.

Rev. 3.00, 03/04, page 786 of 830

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