ATMEGA8535L_14 Datasheet, PDF(174/321 Page) ATMEL Corporation – Nonvolatile Program and Data Memories

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ATMEGA8535L_14 Datasheet, PDF (174/321 Pages) ATMEL Corporation – Nonvolatile Program and Data Memories

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Two-wire Serial

Interface

Features

â¢ Simple yet Powerful and Flexible Communication Interface, only Two Bus Lines Needed

â¢ Both Master and Slave Operation Supported

â¢ Device can Operate as Transmitter or Receiver

â¢ 7-bit Address Space Allows up to 128 Different Slave Addresses

â¢ Multi-master Arbitration Support

â¢ Up to 400 kHz Data Transfer Speed

â¢ Slew-rate Limited Output Drivers

â¢ Noise Suppression Circuitry Rejects Spikes on Bus Lines

â¢ Fully Programmable Slave Address with General Call Support

â¢ Address Recognition Causes Wake-up when AVR is in Sleep Mode

Two-wire Serial Interface

Bus Definition

The Two-wire Serial Interface (TWI) is ideally suited for typical microcontroller applica-

tions. The TWI protocol allows the systems designer to interconnect up to 128 different

devices using only two bi-directional bus lines, one for clock (SCL) and one for data

(SDA). The only external hardware needed to implement the bus is a single pull-up

resistor for each of the TWI bus lines. All devices connected to the bus have individual

addresses, and mechanisms for resolving bus contention are inherent in the TWI

protocol.

Figure 76. TWI Bus Interconnection

V CC

Device 1

Device 2

Device 3 ........

Device n

R1

R2

TWI Terminology

SDA

SCL

The following definitions are frequently encountered in this section.

Table 73. TWI Terminology

Term

Description

Master

The device that initiates and terminates a transmission. The Master also

generates the SCL clock.

Slave

The device addressed by a Master.

Transmitter The device placing data on the bus.

Receiver The device reading data from the bus.

174 ATmega8535(L)

2502KâAVRâ10/06

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