PIC18LF4610T-I Datasheet, PDF(43/376 Page) Microchip Technology – 28/40/44-Pin Flash Microcontrollers

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PIC18LF4610T-I Datasheet, PDF (43/376 Pages) Microchip Technology – 28/40/44-Pin Flash Microcontrollers

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4.2 Master Clear (MCLR)

The MCLR pin provides a method for triggering an

external Reset of the device. A Reset is generated by

holding the pin low. These devices have a noise filter in

the MCLR Reset path which detects and ignores small

pulses.

The MCLR pin is not driven low by any internal Resets,

including the WDT.

In PIC18F2X1X/4X1X devices, the MCLR input can be

disabled with the MCLRE Configuration bit. When

MCLR is disabled, the pin becomes a digital input. See

Section 9.5 âPORTE, TRISE and LATE Registersâ

for more information.

4.3 Power-on Reset (POR)

A Power-on Reset pulse is generated on-chip

whenever VDD rises above a certain threshold. This

allows the device to start in the initialized state when

VDD is adequate for operation.

To take advantage of the POR circuitry, tie the MCLR

pin through a resistor (1 kÎ© to 10 kÎ©) to VDD. This will

eliminate external RC components usually needed to

create a Power-on Reset delay. A minimum rise rate for

VDD is specified (parameter D004). For a slow rise

time, see Figure 4-2.

When the device starts normal operation (i.e., exits the

Reset condition), device operating parameters (volt-

age, frequency, temperature, etc.) must be met to

ensure operation. If these conditions are not met, the

device must be held in Reset until the operating

conditions are met.

POR events are captured by the POR bit (RCON<1>).

The state of the bit is set to â0â whenever a POR occurs;

it does not change for any other Reset event. POR is

not reset to â1â by any hardware event. To capture

multiple events, the user manually resets the bit to â1â

in software following any POR.

PIC18F2X1X/4X1X

FIGURE 4-2:

EXTERNAL POWER-ON

RESET CIRCUIT (FOR

SLOW VDD POWER-UP)

VDD VDD

D

R

C

R1

MCLR

PIC18FXXXX

Note 1:

External Power-on Reset circuit is required

only if the VDD power-up slope is too slow.

The diode D helps discharge the capacitor

quickly when VDD powers down.

2: R < 40 kÎ© is recommended to make sure that

the voltage drop across R does not violate

the deviceâs electrical specification.

3: R1 â¥ 1 kÎ© will limit any current flowing into

MCLR from external capacitor C, in the event

of MCLR/VPP pin breakdown, due to

Electrostatic Discharge (ESD) or Electrical

Overstress (EOS).

Â© 2009 Microchip Technology Inc.

DS39636D-page 45

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