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 2009-2016 Microchip Technology Inc. DS40001365F-page 327

PIC18(L)F1XK22

TABLE 26-3: RC IDLE SUPPLY CURRENT

PIC18LF1XK22

Standard Operating Conditions (unless otherwise stated)

PIC18F1XK22

Standard Operating Conditions (unless otherwise stated)

Param.

No.

Device Characteristics Typ. Max. Units Conditions

D011

Supply Current (I

DD)

(1, 2, 4, 5)

25A -40°C

DD = 1.8V

OSC = 31 kHz

(4)

(RC_IDLE mode,

LFINTOSC source)

26A+25°C

39A+85°C

811A +125°C

D011A 4 8 A -40°C

DD = 3.0V

410A+25°C

513A+85°C

815A +125°C

D011 20 28 A -40°C

VDD = 2.3V

FOSC = 31 kHz

(4)

(RC_IDLE mode,

LFINTOSC source)

21 35 A +25°C

23 41 A +85°C

24 50 A +125°C

D011A 23 35 A -40°C

VDD = 3.0V

25 40 A +25°C

28 46 A +85°C

30 65 A +125°C

D011B 28 43 A -40°C

VDD = 5.0V

30 48 A +25°C

32 51 A +85°C

33 71 A +125°C

D012

0.30

0.45

-40°C to +125°C V

DD = 1.8V

OSC = 1 MHz

(RC_IDLE mode,

HF-INTOSC source)

D012A

0.45

0.60

-40°C to +125°C V

DD = 3.0V

D012

0.32

0.45

-40°C to +125°C VDD = 2.3V

FOSC = 1 MHz

(RC_IDLE mode,

HF-INTOSC source)

D012A

0.47

0.62

-40°C to +125°C VDD = 3.0V

D012B

0.63

0.78

-40°C to +125°C VDD = 5.0V

D013

0.89

1.20

-40°C to +125°C V

DD = 1.8V

OSC = 16 MHz

(RC_IDLE mode,

HF-INTOSC source)

D013A

1.45

2.00

-40°C to +125°C V

DD = 3.0V

D013

1.10

1.50

-40°C to +125°C VDD = 2.3V

FOSC = 16 MHz

(RC_IDLE mode,

HF-INTOSC source)

D013A

1.45

2.00

-40°C to +125°C VDD = 3.0V

D013B

1.53

2.20

-40°C to +125°C VDD = 5.0V

* These parameters are characterized but not tested.

Note 1: The test conditions for all I

DD measurements in active operation mode are: OSC1 = external square wave, from

rail-to-rail; all I/O pins tri-stated, pulled to V

DD; MCLR = VDD; WDT disabled.

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

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

consumption.

3: For RC oscillator configurations, current through R

EXT is not included. The current through the resistor can be extended

by the formula I

R = VDD/2REXT (mA) with REXT in k

4: FVR and BOR are disabled.

5: When a single temperature range is provided for a parameter, the specification applies to both industrial and extended

temperature devices.