ATmega1284PR231 Atmel Corporation, ATmega1284PR231 Datasheet - Page 208

ATmega1284PR231

Manufacturer Part Number

ATmega1284PR231

Description

Manufacturer

Atmel Corporation

Datasheets

1.AT86RF231.pdf (198 pages)

2.ATMEGA1284PR231.pdf (380 pages)

3.ATMEGA1284PR231.pdf (20 pages)

Specifications of ATmega1284PR231

Flash (kbytes)

128 Kbytes

Max. Operating Frequency

20 MHz

Max I/o Pins

Spi

Twi (i2c)

Uart

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

Analog Comparators

Crypto Engine

AES

Sram (kbytes)

Eeprom (bytes)

4096

Operating Voltage (vcc)

1.8 to 3.6

Timers

Frequency Band

2.4 GHz

Max Data Rate (mb/s)

Antenna Diversity

Yes

External Pa Control

Yes

Power Output (dbm)

Receiver Sensitivity (dbm)

-101

Receive Current Consumption (ma)

13.2

Transmit Current Consumption (ma)

14.4

Link Budget (dbm)

104

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19.2.2

19.3

19.3.1

19.3.2

8059D–AVR–11/09

Data Transfer and Frame Format

Electrical Interconnection

Transferring Bits

START and STOP Conditions

The Power Reduction TWI bit, PRTWI bit in

must be written to zero to enable the 2-wire Serial Interface.

As depicted in

pull-up resistors. The bus drivers of all TWI-compliant devices are open-drain or open-collector.

This implements a wired-AND function which is essential to the operation of the interface. A low

level on a TWI bus line is generated when one or more TWI devices output a zero. A high level

is output when all TWI devices trim-state their outputs, allowing the pull-up resistors to pull the

line high. Note that all AVR devices connected to the TWI bus must be powered in order to allow

any bus operation.

The number of devices that can be connected to the bus is only limited by the bus capacitance

limit of 400 pF and the 7-bit slave address space. A detailed specification of the electrical char-

acteristics of the TWI is given in

specifications are presented there, one relevant for bus speeds below 100 kHz, and one valid for

bus speeds up to 400 kHz.

Each data bit transferred on the TWI bus is accompanied by a pulse on the clock line. The level

of the data line must be stable when the clock line is high. The only exception to this rule is for

generating start and stop conditions.

Figure 19-2. Data Validity

The Master initiates and terminates a data transmission. The transmission is initiated when the

Master issues a START condition on the bus, and it is terminated when the Master issues a

STOP condition. Between a START and a STOP condition, the bus is considered busy, and no

other master should try to seize control of the bus. A special case occurs when a new START

condition is issued between a START and STOP condition. This is referred to as a REPEATED

START condition, and is used when the Master wishes to initiate a new transfer without relin-

quishing control of the bus. After a REPEATED START, the bus is considered busy until the next

STOP. This is identical to the START behavior, and therefore START is used to describe both

START and REPEATED START for the remainder of this datasheet, unless otherwise noted. As

SDA

SCL

Figure

19-1, both bus lines are connected to the positive supply voltage through

Data Stable

”SPI Timing Characteristics” on page

Data Change

”PRR0 – Power Reduction Register 0” on page 46

Data Stable

ATmega1284P

328. Two different sets of

208

ATmega1284PR231 Atmel Corporation, ATmega1284PR231 Datasheet - Page 208

ATmega1284PR231

Specifications of ATmega1284PR231

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