EVAL-ADG2128EB Analog Devices Inc, EVAL-ADG2128EB Datasheet - Page 19

EVAL-ADG2128EB

Manufacturer Part Number

EVAL-ADG2128EB

Description

BOARD EVAL FOR ADG2128

Manufacturer

Analog Devices Inc

Datasheet

1.ADG2128BCPZ-HS-RL7.pdf (28 pages)

Specifications of EVAL-ADG2128EB

Main Purpose

Interface, Crosspoint Switch/Multiplexer

Embedded

Utilized Ic / Part

ADG2128

Primary Attributes

8 x 12 Analog Multiplexer, 8 ~ 12V or +/- 5V

Secondary Attributes

Graphic User Interface

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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SERIAL INTERFACE

The ADG2128 is controlled via an I

The parts are connected to this bus as a slave device (no clock

is generated by the switch).

HIGH SPEED I

In addition to standard and full speed I

supports the high speed (3.4 MHz) I

models provide this added performance. See the Ordering

Guide for details.

SERIAL BUS ADDRESS

The ADG2128 has a 7-bit slave address. The four MSBs are

hard coded to 1110, and the three LSBs are determined by the

state of Pin A0, Pin A1, and Pin A2. By offering the facility to

hardware configure Pin A0, Pin A1, and Pin A2, up to eight

of these devices can be connected to a single serial bus.

The 2-wire serial bus protocol operates as follows:

The master initiates data transfer by establishing a start

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

SDA line occurs while SCL is high. This indicates that an

address/data stream follows. 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 an R/ W bit that determines the direction of the data

transfer, that is, whether data is written to or read from the

slave device.

C INTERFACE

C-compatible serial bus.

C interface. Only the -HS

C, the ADG2188 also

Rev. A | Page 19 of 28

Refer to Figure 33 and Figure 34 for a graphical explanation

of the serial data transfer protocol.

The peripheral whose address corresponds to the trans-

mitted address responds by pulling the SDA line low

during the ninth clock pulse, known as the acknowledge

bit. At this stage, all other devices on the bus remain idle

while the selected device waits for data to be written to or

read from its serial register. If the R/ W bit is 1 (high), the

master reads from the slave device. If the R/ W bit is 0

(low), the master writes to the slave device.

Data is transmitted over the serial bus in sequences of

nine clock pulses: eight data bits followed by an acknowl-

edge bit from the receiver of the data. Transitions on the

SDA line must occur during the low period of the clock

signal, SCL, and remain stable during the high period of

SCL, because a low-to-high transition when the clock is

high can be interpreted as a stop signal.

When all data bits have been read or written, a stop

condition is established by the master. A stop condition

is defined as a low-to-high transition on the SDA line

while SCL is high. In write mode, the master pulls the SDA

line high during the 10th clock pulse to establish a stop

condition. In read mode, the master issues a no acknowledge

for the ninth clock pulse (that is, the SDA line remains

high). The master then brings the SDA line low before the

10th clock pulse and then high during the 10th clock pulse

to establish a stop condition.

ADG2128

EVAL-ADG2128EB Analog Devices Inc, EVAL-ADG2128EB Datasheet - Page 19

EVAL-ADG2128EB

Specifications of EVAL-ADG2128EB

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