PIC16F684-I/SLG Microchip, PIC16F684-I/SLG Datasheet - Page 24

PIC16F684-I/SLG

Manufacturer Part Number

PIC16F684-I/SLG

Description

pic, flash, Microcontrollers, Microprocessors, Semiconductors and Actives, ic, mcu

Manufacturer

Microchip

Datasheet

1.PIC16F684IST.pdf (164 pages)

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PIC16F684

3.3.4

The External Resistor-Capacitor (RC) modes support

the use of an external RC circuit. This allows the

designer maximum flexibility in frequency choice while

keeping costs to a minimum when clock accuracy is not

required. There are two modes, RC and RCIO.

In RC mode, the RC circuit connects to the OSC1 pin.

The OSC2/CLKOUT pin outputs the RC oscillator

frequency divided by 4. This signal may be used to

provide a clock for external circuitry, synchronization,

calibration, test or other application requirements.

Figure 3-5 shows the RC mode connections.

FIGURE 3-5:

In RCIO mode, the RC circuit is connected to the OSC1

pin. The OSC2 pin becomes an additional general

purpose I/O pin. The I/O pin becomes bit 4 of PORTA

(RA4). Figure 3-6 shows the RCIO mode connections.

FIGURE 3-6:

The RC oscillator frequency is a function of the supply

voltage, the resistor (R

values and the operating temperature. Other factors

affecting the oscillator frequency are:

• threshold voltage variation

• component tolerances

• packaging variations in capacitance

The user also needs to take into account variation due

to tolerance of external RC components used.

DS41202C-page 22

Recommended values: 3 k

EXT

RA4

EXTERNAL RC MODES

OSC

OSC1

RCIO MODE

OSC1

OSC2/CLKOUT

RC MODE

I/O (OSC2)

EXT

> 20 pF

) and capacitor (C

EXT

PIC16F684

100 k

Internal

Clock

EXT

Preliminary

)

3.4

The PIC16F684 has two independent, internal

oscillators that can be configured or selected as the

system clock source.

The system clock speed can be selected via software

using the Internal Oscillator Frequency Select (IRCF)

bits.

The system clock can be selected between external or

internal clock sources via the System Clock Selection

(SCS) bit (see Section 3.5 “Clock Switching”).

3.4.1

The INTRC and INTRCIO modes configure the internal

oscillators as the system clock source when the device

is programmed using the Oscillator Selection (FOSC)

bits in the Configuration Word register (Register 12-1).

In INTRC mode, the OSC1 pin is available for general

purpose I/O. The OSC2/CLKOUT pin outputs the

selected internal oscillator frequency divided by 4. The

CLKOUT signal may be used to provide a clock for

external circuitry, synchronization, calibration, test or

other application requirements.

In INTRCIO mode, the OSC1 and OSC2 pins are

available for general purpose I/O.

3.4.2

The High-Frequency Internal Oscillator (HFINTOSC) is

a factory calibrated 8 MHz internal clock source. The

frequency

approximately ±12% via software using the OSCTUNE

The output of the HFINTOSC connects to a postscaler

and multiplexer (see Figure 3-1). One of seven

frequencies can be selected via software using the

IRCF bits (see Section 3.4.4 “Frequency Select Bits

(IRCF)”).

The HFINTOSC is enabled by selecting any frequency

between 8 MHz and 125 kHz (IRCF

system clock source (SCS = 1), or when Two-Speed

Start-up is enabled (IESO = 1 and IRCF

The HF Internal Oscillator (HTS) bit (OSCCON<2>)

indicates whether the HFINTOSC is stable or not.

The

Oscillator) is factory calibrated and operates at

8 MHz. The frequency of the HFINTOSC can be

user adjusted ±12% via software using the

OSCTUNE register (Register 3-1).

The

Oscillator) is uncalibrated and operates at

approximately 31 kHz.

Internal Clock Modes

INTRC AND INTRCIO MODES

HFINTOSC

LFINTOSC

HFINTOSC

the

HFINTOSC

 2004 Microchip Technology Inc.

(High-Frequency

(Low-Frequency

can

000) as the

000).

Internal

altered

PIC16F684-I/SLG Microchip, PIC16F684-I/SLG Datasheet - Page 24

PIC16F684-I/SLG

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