PIC16F636T-I/SL(2005) View Datasheet(PDF) - Microchip Technology

Part Name

Description

Manufacturer

PIC16F636T-I/SL
(Rev.:2005)

8/14-Pin Flash-Based, 8-Bit CMOS Microcontrollers with nanoWatt Technology

Microchip Technology 

PIC12F635/PIC16F636/639

15.3 DC Characteristics: PIC12F635/PIC16F636-E (Extended)

DC CHARACTERISTICS

Standard Operating Conditions (unless otherwise stated)

Operating temperature -40°C ≤ TA ≤ +125°C for extended

Param

No.

Sym

Device Characteristics

Min Typ† Max Units

VDD

Conditions

Note

D010E IDD

Supply Current(1,2)

D011E

D012E

D013E

D014E

D015E

D016E

D017E

D018E

—

9

TBD μA

—

18 TBD μA

—

35 TBD μA

— 110 TBD μA

— 190 TBD μA

— 330 TBD μA

— 220 TBD μA

— 370 TBD μA

— 600 TBD μA

—

70 TBD μA

— 140 TBD μA

— 260 TBD μA

— 180 TBD μA

— 320 TBD μA

— 580 TBD μA

— TBD TBD μA

— TBD TBD μA

— TBD TBD mA

— 340 TBD μA

— 500 TBD μA

— 800 TBD μA

— 180 TBD μA

— 320 TBD μA

— 580 TBD μA

—

2.1 TBD mA

—

2.4 TBD mA

2.0 FOSC = 32.768 kHz

3.0 LP Oscillator mode

5.0

2.0 FOSC = 1 MHz

3.0 XT Oscillator mode

5.0

2.0 FOSC = 4 MHz

3.0 XT Oscillator mode

5.0

2.0 FOSC = 1 MHz

3.0 EC Oscillator mode

5.0

2.0 FOSC = 4 MHz

3.0 EC Oscillator mode

5.0

2.0 FOSC = 31 kHz

3.0 LFINTOSC

5.0

2.0 FOSC = 4 MHz

3.0 IHFINTOSC

5.0

2.0 FOSC = 4 MHz

3.0 EXTRC mode

5.0

4.5 FOSC = 20 MHz

5.0 HS Oscillator mode

Legend:

†

Note 1:

2:

3:

4:

TBD = To Be Determined

Data in ‘Typ’ column is at 5.0V, 25°C unless otherwise stated. These parameters are for design guidance only

and are not tested.

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 disabled.

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.

The peripheral current is the sum of the base IDD or IPD and the additional current consumed when this periph-

eral is enabled. The peripheral Δ current can be determined by subtracting the base IDD or IPD current from this

limit. Max values should be used when calculating total current consumption.

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.

DS41232B-page 152

Preliminary

© 2005 Microchip Technology Inc.

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