PIC16F707 Datasheet, PDF(211/284 Page) Microchip Technology – 40/44-Pin, Flash Microcontrollers with nanoWatt XLP and mTouch™ Technology

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PIC16F707 Datasheet, PDF (211/284 Pages) Microchip Technology – 40/44-Pin, Flash Microcontrollers with nanoWatt XLP and mTouch™ Technology

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PIC16F707/PIC16LF707

25.5 Thermal Considerations

Standard Operating Conditions (unless otherwise stated)

Operating temperature -40Â°C ï£ TA ï£ +125Â°C

Param

No.

Sym.

Characteristic

Typ.

Units

Conditions

TH01

ï±JA Thermal Resistance Junction to Ambient

60

ï°C/W 28-pin SPDIP package

80

ï°C/W 28-pin SOIC package

90

ï°C/W 28-pin SSOP package

27.5

ï°C/W 28-pin UQFN 4x4mm package

27.5

ï°C/W 28-pin QFN 6x6mm package

47.2

ï°C/W 40-pin PDIP package

46

ï°C/W 44-pin TQFP package

24.4

ï°C/W 44-pin QFN 8x8mm package

TH02

ï±JC Thermal Resistance Junction to Case

31.4

ï°C/W 28-pin SPDIP package

24

ï°C/W 28-pin SOIC package

24

ï°C/W 28-pin SSOP package

24

ï°C/W 28-pin UQFN 4x4mm package

24

ï°C/W 28-pin QFN 6x6mm package

24.7

ï°C/W 40-pin PDIP package

14.5

ï°C/W 44-pin TQFP package

20

ï°C/W 44-pin QFN 8x8mm package

TH03

TJMAX Maximum Junction Temperature

150

ï°C

TH04

TH05

PD Power Dissipation

PINTERNAL Internal Power Dissipation

â

W

PD = PINTERNAL + PI/O

â

W

PINTERNAL = IDD x VDD(1)

TH06

TH07

PI/O

PDER

I/O Power Dissipation

Derated Power

â

W

PI/O = ï (IOL * VOL) + ï (IOH * (VDD - VOH))

â

W

PDER = PDMAX (TJ - TA)/ï±JA(2)

Note 1: IDD is current to run the chip alone without driving any load on the output pins.

2: TA = Ambient Temperature

3: TJ = Junction Temperature

ï£ 2010 Microchip Technology Inc.

Preliminary

DS41418A-page 211

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