AT91SAM9G20_1 Datasheet, PDF(344/832 Page) ATMEL Corporation – AT91 ARM Thumb Microcontrollers

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AT91SAM9G20_1 Datasheet, PDF (344/832 Pages) ATMEL Corporation – AT91 ARM Thumb Microcontrollers

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Baud Rate = 1----6-M----Ã-C----CK-----D---

Figure 28-4. Baud Rate Generator

CD

CD

MCK

16-bit Counter

OUT

>1

1

0

0

Divide

by 16

Baud Rate

Clock

Receiver

Sampling Clock

28.4.2 Receiver

28.4.2.1

Receiver Reset, Enable and Disable

After device reset, the Debug Unit receiver is disabled and must be enabled before being used.

The receiver can be enabled by writing the control register DBGU_CR with the bit RXEN at 1. At

this command, the receiver starts looking for a start bit.

The programmer can disable the receiver by writing DBGU_CR with the bit RXDIS at 1. If the

receiver is waiting for a start bit, it is immediately stopped. However, if the receiver has already

detected a start bit and is receiving the data, it waits for the stop bit before actually stopping its

operation.

The programmer can also put the receiver in its reset state by writing DBGU_CR with the bit

RSTRX at 1. In doing so, the receiver immediately stops its current operations and is disabled,

whatever its current state. If RSTRX is applied when data is being processed, this data is lost.

28.4.2.2

Start Detection and Data Sampling

The Debug Unit only supports asynchronous operations, and this affects only its receiver. The

Debug Unit receiver detects the start of a received character by sampling the DRXD signal until

it detects a valid start bit. A low level (space) on DRXD is interpreted as a valid start bit if it is

detected for more than 7 cycles of the sampling clock, which is 16 times the baud rate. Hence, a

space that is longer than 7/16 of the bit period is detected as a valid start bit. A space which is

7/16 of a bit period or shorter is ignored and the receiver continues to wait for a valid start bit.

When a valid start bit has been detected, the receiver samples the DRXD at the theoretical mid-

point of each bit. It is assumed that each bit lasts 16 cycles of the sampling clock (1-bit period)

so the bit sampling point is eight cycles (0.5-bit period) after the start of the bit. The first sampling

point is therefore 24 cycles (1.5-bit periods) after the falling edge of the start bit was detected.

Each subsequent bit is sampled 16 cycles (1-bit period) after the previous one.

344 AT91SAM9G20 Preliminary

6384DâATARMâ04-May-09

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