PIC17C44 Datasheet, PDF(100/241 Page) Microchip Technology – High-Performance 8-Bit CMOS EPROM/ROM Microcontroller

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PIC17C44 Datasheet, PDF (100/241 Pages) Microchip Technology – High-Performance 8-Bit CMOS EPROM/ROM Microcontroller

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PIC17C4X

14.1 Conï¬guration Bits

The PIC17CXX has up to seven conï¬guration locations

(Table 14-1). These locations can be programmed

(read as '0') or left unprogrammed (read as '1') to select

various device conï¬gurations. Any write to a conï¬gura-

tion location, regardless of the data, will program that

conï¬guration bit. A TABLWT instruction is required to

write to program memory locations. The conï¬guration

bits can be read by using the TABLRD instructions.

Reading any conï¬guration location between FE00h

and FE07h will read the low byte of the conï¬guration

word (Figure 14-1) into the TABLATL register. The TAB-

LATH register will be FFh. Reading a conï¬guration

location between FE08h and FE0Fh will read the high

byte of the conï¬guration word into the TABLATL regis-

ter. The TABLATH register will be FFh.

Addresses FE00h thorough FE0Fh are only in the pro-

gram memory space for microcontroller and code pro-

tected microcontroller modes. A device programmer

will be able to read the conï¬guration word in any pro-

cessor mode. See programming speciï¬cations for more

detail.

TABLE 14-1: CONFIGURATION

LOCATIONS

Bit

Address

FOSC0

FE00h

FOSC1

FE01h

WDTPS0

FE02h

WDTPS1

FE03h

PM0

FE04h

PM1

PM2 (1)

FE06h

FE0Fh (1)

Note 1: This location does not exist on the

PIC17C42.

Note:

When programming the desired conï¬gura-

tion locations, they must be programmed in

ascending order. Starting with address

FE00h.

14.2 Oscillator Conï¬gurations

14.2.1 OSCILLATOR TYPES

The PIC17CXX can be operated in four different oscil-

lator modes. The user can program two conï¬guration

bits (FOSC1:FOSC0) to select one of these four

modes:

â¢ LF:

â¢ XT:

â¢ EC:

â¢ RC:

Low Power Crystal

Crystal/Resonator

External Clock Input

Resistor/Capacitor

14.2.2 CRYSTAL OSCILLATOR / CERAMIC

RESONATORS

In XT or LF modes, a crystal or ceramic resonator is

connected to the OSC1/CLKIN and OSC2/CLKOUT

pins to establish oscillation (Figure 14-2). The

PIC17CXX Oscillator design requires the use of a par-

allel cut crystal. Use of a series cut crystal may give a

frequency out of the crystal manufacturers speciï¬ca-

tions.

For frequencies above 20 MHz, it is common for the

crystal to be an overtone mode crystal. Use of overtone

mode crystals require a tank circuit to attenuate the

gain at the fundamental frequency. Figure 14-3 shows

an example of this.

FIGURE 14-2: CRYSTAL OR CERAMIC

RESONATOR OPERATION

(XT OR LF OSC

CONFIGURATION)

OSC1

C1

XTAL

RF

SLEEP

OSC2

Note1

C2

PIC17CXX

To internal

logic

See Table 14-2 and Table 14-3 for recommended

values of C1 and C2.

Note 1: A series resistor may be required for AT strip

cut crystals.

DS30412C-page 100

Â© 1996 Microchip Technology Inc.

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