PIC12CR509 Datasheet, PDF(40/113 Page) Microchip Technology

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PIC12CR509 Datasheet, PDF (40/113 Pages) Microchip Technology – 8-Pin, 8-Bit CMOS Microcontrollers

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PIC12C5XX

8.3.1 MCLR ENABLE

This configuration bit when unprogrammed (left in the

â1â state) enables the external MCLR function. When

programmed, the MCLR function is tied to the internal

VDD, and the pin is assigned to be a GPIO. See

Figure 8-7. When pin GP3/MCLR/VPP is configured as

MCLR, the internal pull-up is always on.

FIGURE 8-7: MCLR SELECT

MCLRE

WEAK

PULL-UP

GP3/MCLR/VPP

INTERNAL MCLR

8.4 Power-On Reset (POR)

The PIC12C5XX family incorporates on-chip Power-

On Reset (POR) circuitry which provides an internal

chip reset for most power-up situations.

The on-chip POR circuit holds the chip in reset until

VDD has reached a high enough level for proper opera-

tion. To take advantage of the internal POR, program

the GP3/MCLR/VPP pin as MCLR and tie through a

resistor to VDD or program the pin as GP3. An internal

weak pull-up resistor is implemented using a transistor.

Refer to Table 11-1 for the pull-up resistor ranges. This

will eliminate external RC components usually needed

to create a Power-on Reset. A maximum rise time for

VDD is specified. See Electrical Specifications for

details.

When the device starts normal operation (exits the

reset condition), device operating parameters (voltage,

frequency, temperature, ...) must be met to ensure

operation. If these conditions are not met, the device

must be held in reset until the operating parameters are

met.

A simplified block diagram of the on-chip Power-On

Reset circuit is shown in Figure 8-8.

The Power-On Reset circuit and the Device Reset

Timer (Section 8.5) circuit are closely related. On

power-up, the reset latch is set and the DRT is reset.

The DRT timer begins counting once it detects MCLR

to be high. After the time-out period, which is typically

18 ms, it will reset the reset latch and thus end the on-

chip reset signal.

A power-up example where MCLR is held low is

shown in Figure 8-9. VDD is allowed to rise and

stabilize before bringing MCLR high. The chip will

actually come out of reset TDRT msec after MCLR

goes high.

In Figure 8-10, the on-chip Power-On Reset feature is

being used (MCLR and VDD are tied together or the

pin is programmed to be GP3.). The VDD is stable

before the start-up timer times out and there is no

problem in getting a proper reset. However, Figure 8-

11 depicts a problem situation where VDD rises too

slowly. The time between when the DRT senses that

MCLR is high and when MCLR (and VDD) actually

reach their full value, is too long. In this situation, when

the start-up timer times out, VDD has not reached the

VDD (min) value and the chip is, therefore, not

guaranteed to function correctly. For such situations,

we recommend that external RC circuits be used to

achieve longer POR delay times (Figure 8-10).

Note:

When the device starts normal operation

(exits the reset condition), device operating

parameters (voltage, frequency, tempera-

ture, etc.) must be meet to ensure opera-

tion. If these conditions are not met, the

device must be held in reset until the oper-

ating conditions are met.

For additional information refer to Application Notes

âPower-Up Considerationsâ - AN522 and âPower-up

Trouble Shootingâ - AN607.

DS40139E-page 40

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