PIC17C75X Datasheet, PDF(22/320 Page) Microchip Technology – High-Performance 8-Bit CMOS EPROM Microcontrollers

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PIC17C75X Datasheet, PDF (22/320 Pages) Microchip Technology – High-Performance 8-Bit CMOS EPROM Microcontrollers

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PIC17C75X

5.1 Power-on Reset (POR), Power-up

Timer (PWRT), Oscillator Start-up

Timer (OST), and Brown-out Reset

(BOR)

5.1.1 POWER-ON RESET (POR)

The Power-on Reset circuit holds the device in reset

until VDD is above the trip point (in the range of 1.4V -

2.3V). The devices produce an internal reset for both

rising and falling VDD. To take advantage of the POR,

just tie the MCLR/VPP pin directly (or through a resistor)

to VDD. This will eliminate external RC components

usually needed to create Power-on Reset. A minimum

rise time for VDD is required. See Electrical Speciï¬ca-

tions for details.

Figure 5-2 and Figure 5-3 show two possible POR cir-

cuits.

FIGURE 5-2: USING ON-CHIP POR

VDD

VDD

MCLR

PIC17CXXX

FIGURE 5-3:

EXTERNAL POWER-ON

RESET CIRCUIT (FOR SLOW

VDD POWER-UP)

VDD VDD

D

R

C

R1

MCLR

PIC17CXXX

Note 1: An external Power-on Reset circuit is

required only if VDD power-up time is too

slow. The diode D helps discharge the

capacitor quickly when VDD powers

down.

2: R < 40 kâ¦ is recommended to ensure

that the voltage drop across R does not

exceed 0.2V (max. leakage current spec.

on the MCLR/VPP pin is 5 ÂµA). A larger

voltage drop will degrade VIH level on the

MCLR/VPP pin.

3: R1 = 100â¦ to 1 kâ¦ will limit any current

ï¬owing into MCLR from external capaci-

tor C in the event of MCLR/VPP pin

breakdown due to Electrostatic Dis-

charge (ESD) or Electrical Overstress

(EOS).

5.1.2 POWER-UP TIMER (PWRT)

The Power-up Timer provides a ï¬xed 96 ms time-out

(nominal) on power-up. This occurs from the rising

edge of the POR signal and after the ï¬rst rising edge of

MCLR (detected high). The Power-up Timer operates

on an internal RC oscillator. The chip is kept in RESET

as long as the PWRT is active. In most cases the

PWRT delay allows VDD to rise to an acceptable level.

The power-up time delay will vary from chip to chip and

with VDD and temperature. See DC parameters for

details.

5.1.3 OSCILLATOR START-UP TIMER (OST)

The Oscillator Start-up Timer (OST) provides a 1024

oscillator cycle (1024TOSC) delay after MCLR is

detected high or a wake-up from SLEEP event occurs.

The OST time-out is invoked only for XT and LF oscil-

lator modes on a Power-on Reset or a Wake-up from

SLEEP.

The OST counts the oscillator pulses on the

OSC1/CLKIN pin. The counter only starts incrementing

after the amplitude of the signal reaches the oscillator

input thresholds. This delay allows the crystal oscillator

or resonator to stabilize before the device exits reset.

The length of the time-out is a function of the crys-

tal/resonator frequency.

Figure 5-4 shows the operation of the OST circuit. In

this ï¬gure the oscillator is of such a low frequency that

OST time out occurs after the power-up timer time-out.

FIGURE 5-4: OSCILLATOR START-UP

TIME

POR or BOR Trip Point

VDD

MCLR

OSC2

TOSC1

OST TIME_OUT

TOST

PWRT TIME_OUT

INTERNAL RESET

TPWRT

This ï¬gure shows in greater detail the timings involved

with the oscillator start-up timer. In this example the low

frequency crystal start-up time is larger than power-up

time (TPWRT).

Tosc1 = time for the crystal oscillator to react to an oscil-

lation level detectable by the Oscillator Start-up Timer

(ost).

TOST = 1024TOSC.

DS30264A-page 22

Preliminary

Â© 1997 Microchip Technology Inc.

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