PIC16F887I-PT Datasheet, PDF(219/338 Page) Microchip Technology – 28/40/44-Pin Flash-Based, 8-Bit CMOS Microcontrollers

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PIC16F887I-PT Datasheet, PDF (219/338 Pages) Microchip Technology – 28/40/44-Pin Flash-Based, 8-Bit CMOS Microcontrollers

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PIC16F882/883/884/886/887

14.2.5 TIME-OUT SEQUENCE

On power-up, the time-out sequence is as follows: first,

PWRT time-out is invoked after POR has expired, then

OST is activated after the PWRT time-out has expired.

The total time-out will vary based on oscillator

configuration and PWRTE bit status. For example, in

EC mode with PWRTE bit erased (PWRT disabled),

there will be no time-out at all. Figures 14-4, 14-5

and 14-6 depict time-out sequences. The device can

execute code from the INTOSC while OST is active by

enabling Two-Speed Start-up or Fail-Safe Monitor (see

Section 4.7.2 âTwo-Speed Start-up Sequenceâ and

Section 4.8 âFail-Safe Clock Monitorâ).

Since the time-outs occur from the POR pulse, if MCLR

is kept low long enough, the time-outs will expire. Then,

bringing MCLR high will begin execution immediately

(see Figure 14-5). This is useful for testing purposes or

to

synchronize

more

than

one

PIC16F882/883/884/886/887 device operating in par-

allel.

Table 14-5 shows the Reset conditions for some

special registers, while Table 14-4 shows the Reset

conditions for all the registers.

14.2.6 POWER CONTROL (PCON)

REGISTER

The Power Control register PCON (address 8Eh) has

two Status bits to indicate what type of Reset that last

occurred.

Bit 0 is BOR (Brown-out Reset). BOR is unknown on

Power-on Reset. It must then be set by the user and

checked on subsequent Resets to see if BOR = 0,

indicating that a Brown-out has occurred. The BOR

Status bit is a âdonât careâ and is not necessarily

predictable if the brown-out circuit is disabled

(BOREN<1:0> = 00 in the Configuration Word

Register 1).

Bit 1 is POR (Power-on Reset). It is a â0â on Power-on

Reset and unaffected otherwise. The user must write a

â1â to this bit following a Power-on Reset. On a

subsequent Reset, if POR is â0â, it will indicate that a

Power-on Reset has occurred (i.e., VDD may have

gone too low).

For more information, see Section 3.2.2 âUltra

Low-Power Wake-upâ and Section 14.2.4

âBrown-out Reset (BOR)â.

TABLE 14-1: TIME-OUT IN VARIOUS SITUATIONS

Oscillator Configuration

Power-up

PWRTE = 0

PWRTE = 1

XT, HS, LP

LP, T1OSCIN = 1

RC, EC, INTOSC

TPWRT +

1024 â¢ TOSC

TPWRT

TPWRT

1024 â¢ TOSC

â

â

Brown-out Reset

PWRTE = 0

PWRTE = 1

TPWRT +

1024 â¢ TOSC

TPWRT

TPWRT

1024 â¢ TOSC

â

â

Wake-up from

Sleep

1024 â¢ TOSC

â

â

TABLE 14-2: STATUS/PCON BITS AND THEIR SIGNIFICANCE

POR

BOR

TO

PD

Condition

0

x

1

1

u

0

1

1

u

u

0

u

u

u

0

0

u

u

u

u

u

u

1

0

Legend: u = unchanged, x = unknown

Power-on Reset

Brown-out Reset

WDT Reset

WDT Wake-up

MCLR Reset during normal operation

MCLR Reset during Sleep

TABLE 14-3: SUMMARY OF REGISTERS ASSOCIATED WITH BROWN-OUT

Name

Bit 7 Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

Register on

Page

PCON

â

â ULPWUE SBOREN â

â

POR

BOR

38

STATUS

IRP

RP1

RPO

TO

PD

Z

DC

C

31

Legend: u = unchanged, x = unknown, â = unimplemented bit, reads as â0â, q = value depends on condition.

Shaded cells are not used by BOR.

Note 1: Other (non Power-up) Resets include MCLR Reset and Watchdog Timer Reset during normal operation.

ï£ 2006-2012 Microchip Technology Inc.

DS41291G-page 219

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