ATMEGA1281V-8MU Atmel, ATMEGA1281V-8MU Datasheet - Page 219

IC MCU AVR 128K FLASH 64-QFN

ATMEGA1281V-8MU

Manufacturer Part Number

ATMEGA1281V-8MU

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 ATMEGA1281V-8MU

Core Processor

AVR

Core Size

8-Bit

Speed

8MHz

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)

1.8 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, USART

Maximum Clock Frequency

8 MHz

Number Of Programmable I/os

54

Number Of Timers

6

Operating Supply Voltage

2.7 V to 5.5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

3rd Party Development Tools

EWAVR, EWAVR-BL

Minimum Operating Temperature

- 40 C

On-chip Adc

10 bit

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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21.7.2

2549M–AVR–09/10

Asynchronous Data Recovery

Figure 21-5. Start Bit Sampling

When the clock recovery logic detects a high (idle) to low (start) transition on the RxDn line, the

start bit detection sequence is initiated. Let sample 1 denote the first zero-sample as shown in

the figure. The clock recovery logic then uses samples 8, 9, and 10 for Normal mode, and sam-

ples 4, 5, and 6 for Double Speed mode (indicated with sample numbers inside boxes on the

figure), to decide if a valid start bit is received. If two or more of these three samples have logical

high levels (the majority wins), the start bit is rejected as a noise spike and the Receiver starts

looking for the next high to low-transition. If however, a valid start bit is detected, the clock recov-

ery logic is synchronized and the data recovery can begin. The synchronization process is

repeated for each start bit.

When the receiver clock is synchronized to the start bit, the data recovery can begin. The data

recovery unit uses a state machine that has 16 states for each bit in Normal mode and eight

states for each bit in Double Speed mode.

the parity bit. Each of the samples is given a number that is equal to the state of the recovery

unit.

Figure 21-6. Sampling of Data and Parity Bit

The decision of the logic level of the received bit is taken by doing a majority voting of the logic

value to the three samples in the center of the received bit. The center samples are emphasized

on the figure by having the sample number inside boxes. The majority voting process is done as

follows: If two or all three samples have high levels, the received bit is registered to be a logic 1.

If two or all three samples have low levels, the received bit is registered to be a logic 0. This

majority voting process acts as a low pass filter for the incoming signal on the RxDn pin. The

recovery process is then repeated until a complete frame is received. Including the first stop bit.

Note that the Receiver only uses the first stop bit of a frame.

Figure 21-7 on page 220

of the start bit of the next frame.

(U2X = 0)

(U2X = 1)

Sample

Sample

(U2X = 0)

(U2X = 1)

Sample

Sample

RxD

RxD

0

0

IDLE

0

1

1

1

1

shows the sampling of the stop bit and the earliest possible beginning

2

2

3

2

3

2

ATmega640/1280/1281/2560/2561

4

4

5

3

5

3

6

6

Figure 21-6

7

4

7

4

8

8

START

BIT n

9

5

9

5

10

10

shows the sampling of the data bits and

11

11

6

6

12

12

13

13

7

7

14

14

15

15

8

8

16

16

1

1

1

1

2

BIT 0

3

2

219

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