PIC18F6X2X Datasheet, PDF(333/386 Page) Microchip Technology – 64/80-Pin High Performance, 64-Kbyte Enhanced FLASH Microcontrollers with A/D

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PIC18F6X2X Datasheet, PDF (333/386 Pages) Microchip Technology – 64/80-Pin High Performance, 64-Kbyte Enhanced FLASH Microcontrollers with A/D

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PIC18F6X2X/8X2X

27.2 DC Characteristics: Power-Down and Supply Current

PIC18F6X2X/8X2X (Industrial, Extended)

PIC18LF6X2X/8X2X (Industrial) (Continued)

PIC18LF6X2X/8X2X

(Industrial)

Standard Operating Conditions (unless otherwise stated)

Operating temperature

-40Â°C â¤ TA â¤ +85Â°C for industrial

PIC18F6X2X/8X2X

(Industrial, Extended)

Standard Operating Conditions (unless otherwise stated)

Operating temperature

-40Â°C â¤ TA â¤ +85Â°C for industrial

-40Â°C â¤ TA â¤ +125Â°C for extended

Param

No.

Device

Typ Max Units

Conditions

Module Differential Currents (âIWDT, âIBOR, âILVD, âIOSCB, âIAD)

D022

(âIWDT)

Watchdog Timer <1 2.0 ÂµA

<1 1.5 ÂµA

-40Â°C

25Â°C

VDD = 2.0V

<1

3

ÂµA

85Â°C

3

10 ÂµA

-40Â°C

2.5

6

ÂµA

25Â°C

VDD = 3.0V

3

15 ÂµA

85Â°C

15 25 ÂµA

-40Â°C

12 20 ÂµA

25Â°C

VDD = 5.0V

12 25 ÂµA

85Â°C

D022A

Brown-out Reset 35 50 ÂµA -40Â°C to +85Â°C

VDD = 3.0V

(âIBOR)

45 65 ÂµA -40Â°C to +85Â°C

VDD = 5.0V

D022B

Low Voltage Detect 33 45 ÂµA -40Â°C to +85Â°C

VDD = 2.0V

(âILVD)

35 50 ÂµA -40Â°C to +85Â°C

VDD = 3.0V

45 65 ÂµA -40Â°C to +85Â°C

VDD = 5.0V

D025

Timer1 Oscillator 5.2 TBD ÂµA

-10Â°C

(âIOSCB)

5.2 TBD ÂµA

25Â°C

VDD = 2.0V

32 kHz on Timer1

5.2 TBD ÂµA

70Â°C

5.8 TBD ÂµA

-10Â°C

5.8 TBD ÂµA

25Â°C

VDD = 3.0V

32 kHz on Timer1

5.8 TBD ÂµA

70Â°C

7.2 TBD ÂµA

-10Â°C

7.2 TBD ÂµA

25Â°C

VDD = 5.0V

32 kHz on Timer1

7.2 TBD ÂµA

70Â°C

D026

(âIAD)

A/D Converter <1

2

ÂµA

<1

2

ÂµA

25Â°C

25Â°C

VDD = 2.0V

VDD = 3.0V

A/D on, not converting

<1

2

ÂµA

25Â°C

VDD = 5.0V

Legend:

Note 1:

2:

3:

Shading of rows is to assist in readability of the table.

The power-down current in SLEEP mode does not depend on the oscillator type. Power-down current is measured with

the part in SLEEP mode, with all I/O pins in high-impedance state and tied to VDD or VSS, and all features that add delta

current disabled (such as WDT, Timer1 Oscillator, BOR, etc.).

The supply current is mainly a function of operating voltage, frequency and mode. Other factors, such as I/O pin loading

and switching rate, oscillator type and circuit, internal code execution pattern and temperature, also have an impact on

the current consumption.

The test conditions for all IDD measurements in active operation mode are:

OSC1 = external square wave, from rail-to-rail; all I/O pins tri-stated, pulled to VDD;

MCLR = VDD; WDT enabled/disabled as specified.

For RC oscillator configurations, current through REXT is not included. The current through the resistor can be estimated

by the formula Ir = VDD/2REXT (mA) with REXT in kâ¦.

ï£© 2003 Microchip Technology Inc.

Advance Information

DS39612A-page 331

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