PIC16F737-I Datasheet, PDF(180/276 Page) Microchip Technology – 28/40/44-Pin, 8-Bit CMOS Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC16F737-I Datasheet, PDF (180/276 Pages) Microchip Technology – 28/40/44-Pin, 8-Bit CMOS Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC16F7X7

15.10.1 REFERENCE VOLTAGE SET POINT

The internal reference voltage of the LVD module may

be used by other internal circuitry (the Programmable

Brown-out Reset). If these circuits are disabled (lower

current consumption), the reference voltage circuit

requires a time to become stable before a low-voltage

condition can be reliably detected. This time is invariant

of system clock speed. This start-up time is specified in

electrical specification parameter #36. The low-voltage

interrupt flag will not be enabled until a stable reference

voltage is reached. Refer to the waveform in Figure 15-6.

15.10.2 CURRENT CONSUMPTION

When the module is enabled, the LVD comparator and

voltage divider are enabled and will consume static cur-

rent. The voltage divider can be tapped from multiple

places in the resistor array. Total current consumption,

when enabled, is specified in electrical specification

parameter #D022B.

15.11 Operation During Sleep

When enabled, the LVD circuitry continues to operate

during Sleep. If the device voltage crosses the trip

point, the LVDIF bit will be set and the device will wake-

up from Sleep. Device execution will continue from the

interrupt vector address if interrupts have been globally

enabled.

15.12 Effects of a Reset

A device Reset forces all registers to their Reset state.

This forces the LVD module to be turned off.

Note:

If the LVD is enabled and the BOR module

is not enabled, the band gap will require a

start-up time of no more than 50 Âµs before

the band gap reference is stable. Before

enabling the LVD interrupt, the user

should ensure that the band gap reference

voltage is stable by monitoring the IRVST

bit in the LVDCON register. The LVD could

cause erroneous interrupts before the

band gap is stable.

15.13 Time-out Sequence

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

PWRT delay starts (if enabled) when a POR occurs;

then, OST starts counting 1024 oscillator cycles when

PWRT ends (LP, XT, HS); when the OST ends, the

device comes out of Reset.

If MCLR is kept low long enough, all delays will expire.

Bringing MCLR high will begin execution immediately.

This is useful for testing purposes or to synchronize

more than one PIC16F7X7 device operating in parallel.

Table 15-3 shows the Reset conditions for the Status,

PCON and PC registers, while Table 15-4 shows the

Reset conditions for all the registers.

15.14 Power Control/Status Register

(PCON)

The Power Control/Status register, PCON, has two bits

to indicate the type of Reset that last occurred.

Bit 0 is Brown-out Reset status bit, BOR. Bit BOR is

unknown on a Power-on Reset. It must then be set by

the user and checked on subsequent Resets to see if

bit BOR cleared, indicating a Brown-out Reset

occurred. When the Brown-out Reset is disabled, the

state of the BOR bit is unpredictable.

Bit 1 is Power-on Reset Status bit, POR. It is cleared on

a Power-on Reset and unaffected otherwise. The user

must set this bit following a Power-on Reset.

DS30498C-page 178

ï£© 2004 Microchip Technology Inc.

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