PIC18F1220_07 Datasheet, PDF(133/308 Page) Microchip Technology – 18/20/28-Pin High-Performance, Enhanced Flash Microcontrollers with 10-bit A/D and nanoWatt Technology

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PIC18F1220_07 Datasheet, PDF (133/308 Pages) Microchip Technology – 18/20/28-Pin High-Performance, Enhanced Flash Microcontrollers with 10-bit A/D and nanoWatt Technology

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16.0 ENHANCED ADDRESSABLE

UNIVERSAL SYNCHRONOUS

ASYNCHRONOUS RECEIVER

TRANSMITTER (EUSART)

The Enhanced Addressable Universal Synchronous

Asynchronous Receiver Transmitter (EUSART) mod-

ule can be configured as a full-duplex asynchronous

system that can communicate with peripheral devices,

such as CRT terminals and personal computers. It can

also be configured as a half-duplex synchronous

system that can communicate with peripheral devices,

such as A/D or D/A integrated circuits, serial

EEPROMs, etc.

The Enhanced Addressable USART module

implements additional features, including automatic

baud rate detection and calibration, automatic wake-up

on Sync Break reception and 12-bit Break character

transmit. These features make it ideally suited for use

in Local Interconnect Network (LIN) bus systems.

The EUSART can be configured in the following

modes:

â¢ Asynchronous (full duplex) with:

- Auto-wake-up on character reception

- Auto-baud calibration

- 12-bit Break character transmission

â¢ Synchronous â Master (half duplex) with

selectable clock polarity

â¢ Synchronous â Slave (half duplex) with selectable

clock polarity

The RB1/AN5/TX/CK/INT1 and RB4/AN6/RX/DT/KBI0

pins must be configured as follows for use with the

Universal Synchronous Asynchronous Receiver

Transmitter:

â¢ SPEN (RCSTA<7>) bit must be set ( = 1),

â¢ PCFG6:PCFG5 (ADCON1<5:6>) must be set ( = 1),

â¢ TRISB<4> bit must be set ( = 1) and

â¢ TRISB<1> bit must be set ( = 1).

Note:

The EUSART control will automatically

reconfigure the pin from input to output as

needed.

The operation of the Enhanced USART module is

controlled through three registers:

â¢ Transmit Status and Control (TXSTA)

â¢ Receive Status and Control (RCSTA)

â¢ Baud Rate Control (BAUDCTL)

These are detailed in on the following pages in

Register 16-1, Register 16-2 and Register 16-3,

respectively.

PIC18F1220/1320

16.1 Asynchronous Operation in Power

Managed Modes

The EUSART may operate in Asynchronous mode

while the peripheral clocks are being provided by the

internal oscillator block. This makes it possible to

remove the crystal or resonator that is commonly

connected as the primary clock on the OSC1 and

OSC2 pins.

The factory calibrates the internal oscillator block out-

put (INTOSC) for 8 MHz (see Table 22-6). However,

this frequency may drift as VDD or temperature

changes and this directly affects the asynchronous

baud rate. Two methods may be used to adjust the

baud rate clock, but both require a reference clock

source of some kind.

The first (preferred) method uses the OSCTUNE

register to adjust the INTOSC output back to 8 MHz.

Adjusting the value in the OSCTUNE register allows for

fine resolution changes to the system clock source (see

Section 3.6 âINTOSC Frequency Driftâ for more

information).

The other method adjusts the value in the Baud Rate

Generator (BRG). There may not be fine enough

resolution when adjusting the Baud Rate Generator to

compensate for a gradual change in the peripheral

clock frequency.

Â© 2007 Microchip Technology Inc.

DS39605F-page 131

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