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| ATMEGA8_08 Datasheet, PDF (135/308 Pages) ATMEL Corporation – 8-bit with 8K Bytes In-System Programmable Flash | |||
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ATmega8(L)
Figure 62. Clock Generation Logic, Block Diagram
UBRR
Prescaling
Down-Counter
fosc
UBRR+1
/2
OSC
U2X
/4
/2
0
1
DDR_XCK
0
txclk
1
XCK
Pin
xcki
xcko
Sync
Register
Edge
Detector
0
UMSEL
1
DDR_XCK
UCPOL
1
rxclk
0
Signal description:
txclk Transmitter clock. (Internal Signal)
rxclk Receiver base clock. (Internal Signal)
xcki Input from XCK pin (internal Signal). Used for synchronous slave operation.
xcko Clock output to XCK pin (Internal Signal). Used for synchronous master
operation.
fosc XTAL pin frequency (System Clock).
Internal Clock
Generation â The
Baud Rate Generator
Internal clock generation is used for the asynchronous and the Synchronous Master modes of
operation. The description in this section refers to Figure 62.
The USART Baud Rate Register (UBRR) and the down-counter connected to it function as a
programmable prescaler or baud rate generator. The down-counter, running at system clock
(fosc), is loaded with the UBRR value each time the counter has counted down to zero or when
the UBRRL Register is written. A clock is generated each time the counter reaches zero. This
clock is the baud rate generator clock output (= fosc/(UBRR+1)). The Transmitter divides the
baud rate generator clock output by 2, 8, or 16 depending on mode. The baud rate generator
output is used directly by the Receiverâs clock and data recovery units. However, the recovery
units use a state machine that uses 2, 8, or 16 states depending on mode set by the state of the
UMSEL, U2X and DDR_XCK bits.
Table 52 contains equations for calculating the baud rate (in bits per second) and for calculating
the UBRR value for each mode of operation using an internally generated clock source.
2486TâAVRâ05/08
135
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