ATMEGA1281-16MU Atmel, ATMEGA1281-16MU Datasheet - Page 265

IC MCU AVR 128K FLASH 64-QFN

ATMEGA1281-16MU

Manufacturer Part Number

ATMEGA1281-16MU

Description

IC MCU AVR 128K FLASH 64-QFN

Manufacturer

Atmel

Series

AVR® ATmegar

Datasheets

1.ATMEGA640V-8CU.pdf (38 pages)

2.ATMEGA640V-8CU.pdf (444 pages)

Specifications of ATMEGA1281-16MU

Core Processor

AVR

Core Size

8-Bit

Speed

16MHz

Connectivity

EBI/EMI, I²C, SPI, UART/USART

Peripherals

Brown-out Detect/Reset, POR, PWM, WDT

Number Of I /o

54

Program Memory Size

128KB (64K x 16)

Program Memory Type

FLASH

Eeprom Size

4K x 8

Ram Size

8K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 5.5 V

Data Converters

A/D 8x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

64-MLF®, 64-QFN

Processor Series

ATMEGA128x

Core

AVR8

Data Bus Width

8 bit

Data Ram Size

8 KB

Interface Type

2-Wire, SPI, UART

Maximum Clock Frequency

16 MHz

Number Of Programmable I/os

54

Number Of Timers

6

Operating Supply Voltage

4.5 V to 5.5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

3rd Party Development Tools

EWAVR, EWAVR-BL

Development Tools By Supplier

ATAVRDRAGON, ATSTK500, ATSTK600, ATAVRISP2, ATAVRONEKIT, ATAVRRZ541, ATAVRRAVEN, ATAVRRZRAVEN, ATAVRRZUSBSTICK, ATAVRISP2, ATAVRRZ201

Minimum Operating Temperature

- 40 C

On-chip Adc

10 bit, 8 channel

For Use With

ATSTK600-TQFP64 - STK600 SOCKET/ADAPTER 64-TQFPATAVRDB101 - MODULE DISPLAY LCD/RGB BACKLIGHT770-1007 - ISP 4PORT ATMEL AVR MCU SPI/JTAGATAVRISP2 - PROGRAMMER AVR IN SYSTEMATJTAGICE2 - AVR ON-CHIP D-BUG SYSTEM

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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23.8

2549M–AVR–09/10

Multi-master Systems and Arbitration

Note that data is transmitted both from Master to Slave and vice versa. The Master must instruct

the Slave what location it wants to read, requiring the use of the MT mode. Subsequently, data

must be read from the Slave, implying the use of the MR mode. Thus, the transfer direction must

be changed. The Master must keep control of the bus during all these steps, and the steps

should be carried out as an atomical operation. If this principle is violated in a multimaster sys-

tem, another Master can alter the data pointer in the EEPROM between steps 2 and 3, and the

Master will read the wrong data location. Such a change in transfer direction is accomplished by

transmitting a REPEATED START between the transmission of the address byte and reception

of the data. After a REPEATED START, the Master keeps ownership of the bus. The following

figure shows the flow in this transfer.

Figure 23-19. Combining Several TWI Modes to Access a Serial EEPROM

If multiple masters are connected to the same bus, transmissions may be initiated simultane-

ously by one or more of them. The TWI standard ensures that such situations are handled in

such a way that one of the masters will be allowed to proceed with the transfer, and that no data

will be lost in the process. An example of an arbitration situation is depicted below, where two

masters are trying to transmit data to a Slave Receiver.

Figure 23-20. An Arbitration Example

Several different scenarios may arise during arbitration, as described below:

•

•

Two or more masters are performing identical communication with the same Slave. In this

case, neither the Slave nor any of the masters will know about the bus contention.

Two or more masters are accessing the same Slave with different data or direction bit. In this

case, arbitration will occur, either in the READ/WRITE bit or in the data bits. The masters

trying to output a one on SDA while another Master outputs a zero will lose the arbitration.

Losing masters will switch to not addressed Slave mode or wait until the bus is free and

transmit a new START condition, depending on application software action.

S

S = START

SDA

SCL

Transmitted from master to slave

SLA+W

TRANSMITTER

Device 1

MASTER

A

Master Transmitter

ADDRESS

TRANSMITTER

ATmega640/1280/1281/2560/2561

Device 2

MASTER

Device 3

RECEIVER

A

SLAVE

Rs = REPEATED START

Rs

Transmitted from slave to master

........

SLA+R

Device n

V

CC

A

Master Receiver

R1

DATA

R2

P = STOP

A

P

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