ATMEGA8_08 Datasheet, PDF(174/308 Page) ATMEL Corporation – 8-bit with 8K Bytes In-System Programmable Flash

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ATMEGA8_08 Datasheet, PDF (174/308 Pages) ATMEL Corporation – 8-bit with 8K Bytes In-System Programmable Flash

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TWI (Slave) Address

Register â TWAR

Using the TWI

Bit

Read/Write

Initial Value

7

TWA6

R/W

1

6

TWA5

R/W

1

5

TWA4

R/W

1

4

TWA3

R/W

1

3

TWA2

R/W

1

2

TWA1

R/W

1

1

TWA0

R/W

1

0

TWGCE

R/W

0

TWAR

The TWAR should be loaded with the 7-bit Slave address (in the seven most significant bits of

TWAR) to which the TWI will respond when programmed as a Slave Transmitter or Receiver,

and not needed in the Master modes. In multimaster systems, TWAR must be set in masters

which can be addressed as Slaves by other Masters.

The LSB of TWAR is used to enable recognition of the general call address (0x00). There is an

associated address comparator that looks for the slave address (or general call address if

enabled) in the received serial address. If a match is found, an interrupt request is generated.

â¢ Bits 7..1 â TWA: TWI (Slave) Address Register

These seven bits constitute the slave address of the TWI unit.

â¢ Bit 0 â TWGCE: TWI General Call Recognition Enable Bit

If set, this bit enables the recognition of a General Call given over the Two-wire Serial Bus.

The AVR TWI is byte-oriented and interrupt based. Interrupts are issued after all bus events, like

reception of a byte or transmission of a START condition. Because the TWI is interrupt-based,

the application software is free to carry on other operations during a TWI byte transfer. Note that

the TWI Interrupt Enable (TWIE) bit in TWCR together with the Global Interrupt Enable bit in

SREG allow the application to decide whether or not assertion of the TWINT Flag should gener-

ate an interrupt request. If the TWIE bit is cleared, the application must poll the TWINT Flag in

order to detect actions on the TWI bus.

When the TWINT Flag is asserted, the TWI has finished an operation and awaits application

response. In this case, the TWI Status Register (TWSR) contains a value indicating the current

state of the TWI bus. The application software can then decide how the TWI should behave in

the next TWI bus cycle by manipulating the TWCR and TWDR Registers.

Figure 77 is a simple example of how the application can interface to the TWI hardware. In this

example, a Master wishes to transmit a single data byte to a Slave. This description is quite

abstract, a more detailed explanation follows later in this section. A simple code example imple-

menting the desired behavior is also presented.

174 ATmega8(L)

2486TâAVRâ05/08

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