EVAL-ADT7410EBZ AD [Analog Devices], EVAL-ADT7410EBZ Datasheet - Page 17

EVAL-ADT7410EBZ

Manufacturer Part Number

EVAL-ADT7410EBZ

Description

Manufacturer

AD [Analog Devices]

Datasheet

1.EVAL-ADT7410EBZ.pdf (24 pages)

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SERIAL INTERFACE

Control of the ADT7410 is carried out via the I

serial interface. The ADT7410 is connected to this bus as a slave

and is under the control of a master device.

Figure 14 shows a typical I

SERIAL BUS ADDRESS

Like all I

address. The five MSBs of this address for the ADT7410 are set

to 10010. Pin A1 and Pin A0 set the two LSBs. These pins can

be configured two ways, low and high, to give four different

address options. Table 20 shows the different bus address options

available. The recommended pull-up resistor value on the SDA

and SCL lines is 10 kΩ.

Table 20. I

Binary

The serial bus protocol operates as follows:

The master initiates data transfer by establishing a start

condition, defined as a high-to-low transition on the serial

data line, SDA, while the serial clock line, SCL, remains

high. This indicates that an address/data stream is going

to follow. All slave peripherals connected to the serial bus

respond to the start condition and shift in the next eight

bits, consisting of a 7-bit address (MSB first) plus a read/

write (R/ W ) bit. The R/ W bit determines whether data is

written to, or read from, the slave device.

C-compatible devices, the ADT7410 has a 7-bit serial

C Bus Address Options

C interface connection.

ON MICROCONTROLLER

TO INTERRUPT PIN

10kΩ

PULL-UP

C-compatible

Figure 14. Typical I

10kΩ

PULL-UP

Hex

0x48

0x49

0x4A

0x4B

Rev. 0 | Page 17 of 24

INT

ADT7410

C Interface Connection

GND

SDA

SCL

It is not possible to mix read and write in one operation because

the type of operation is determined at the beginning and cannot

subsequently be changed without starting a new operation.

The peripheral with the address corresponding to the

transmitted address responds by pulling the data line low

during the low period before the ninth clock pulse, known

as the acknowledge bit. All other devices on the bus then

remain idle while the selected device waits for data to be

read from or written to it. If the R/ W bit is a 0, the master

writes to the slave device. If the R/ W bit is a 1, the master

reads from the slave device.

Data is sent over the serial bus in sequences of nine clock

pulses, eight bits of data followed by an acknowledge bit

from the receiver of data. Transitions on the data line must

occur during the low period of the clock signal and remain

stable during the high period as a low-to-high transition when

the clock is high, which can be interpreted as a stop signal.

When all data bytes have been read or written, stop condi-

tions are established. In write mode, the master pulls the

data line high during the 10

condition. In read mode, the master device pulls the data

line high during the low period before the ninth clock

pulse. This is known as a no acknowledge. The master

takes the data line low during the low period before the

assert a stop condition.

0.1µF

clock pulse, then high during the 10

10kΩ

PULL-UP

10kΩ

clock pulse to assert a stop

clock pulse to

ADT7410

EVAL-ADT7410EBZ AD [Analog Devices], EVAL-ADT7410EBZ Datasheet - Page 17

EVAL-ADT7410EBZ

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