SAM7S256_14 Datasheet, PDF(374/775 Page) ATMEL Corporation – ARM-based Flash MCU

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SAM7S256_14 Datasheet, PDF (374/775 Pages) ATMEL Corporation – ARM-based Flash MCU

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31.6.3.6 Multidrop Mode

If the PAR field in the Mode Register (US_MR) is programmed to the value 0x6 or 0x07, the USART runs in Multi-

drop Mode. This mode differentiates the data characters and the address characters. Data is transmitted with the

parity bit at 0 and addresses are transmitted with the parity bit at 1.

If the USART is configured in multidrop mode, the receiver sets the PARE parity error bit when the parity bit is high

and the transmitter is able to send a character with the parity bit high when the Control Register is written with the

SENDA bit at 1.

To handle parity error, the PARE bit is cleared when the Control Register is written with the bit RSTSTA at 1.

The transmitter sends an address byte (parity bit set) when SENDA is written to US_CR. In this case, the next byte

written to US_THR is transmitted as an address. Any character written in US_THR without having written the com-

mand SENDA is transmitted normally with the parity at 0.

31.6.3.7 Transmitter Timeguard

The timeguard feature enables the USART interface with slow remote devices.

The timeguard function enables the transmitter to insert an idle state on the TXD line between two characters. This

idle state actually acts as a long stop bit.

The duration of the idle state is programmed in the TG field of the Transmitter Timeguard Register (US_TTGR).

When this field is programmed at zero no timeguard is generated. Otherwise, the transmitter holds a high level on

TXD after each transmitted byte during the number of bit periods programmed in TG in addition to the number of

stop bits.

As illustrated in Figure 31-15, the behavior of TXRDY and TXEMPTY status bits is modified by the programming of

a timeguard. TXRDY rises only when the start bit of the next character is sent, and thus remains at 0 during the

timeguard transmission if a character has been written in US_THR. TXEMPTY remains low until the timeguard

transmission is completed as the timeguard is part of the current character being transmitted.

Figure 31-15. Timeguard Operations

Baud Rate

Clock

TG = 4

TG = 4

TXD

Write

US_THR

Start

Bit

D0

D1

D2

D3

D4

D5

D6

D7

Parity Stop

Bit Bit

Start

Bit

D0

D1

D2

D3

D4

D5

D6

D7

Parity Stop

Bit Bit

TXRDY

TXEMPTY

SAM7S Series [DATASHEET]

6175MâATARMâ26-Oct-12

374

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