AD5383BST-3 Analog Devices Inc, AD5383BST-3 Datasheet - Page 28

AD5383BST-3

Manufacturer Part Number

AD5383BST-3

Description

IC DAC 12BIT 32CH 3V 100-LQFP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5383BSTZ-5.pdf (40 pages)

Specifications of AD5383BST-3

Design Resources

32 Channels of Programmable Voltage with Excellent Temperature Drift Performance Using AD5383 (CN0014) AD5383 Channel Monitor Function (CN0015)

Settling Time

6µs

Number Of Bits

Data Interface

Serial, Parallel

Number Of Converters

Voltage Supply Source

Single Supply

Power Dissipation (max)

39mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

100-LQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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AD5383

The AD5383 features an I

consisting of a serial data line (SDA) and a serial clock line

(SCL). SDA and SCL facilitate communication between the

AD5383 and the master at rates up to 400 kHz. Figure 6 shows

the 2-wire interface timing diagram that incorporates three

different modes of operation. In selecting the I

mode, first configure serial operating mode (SER/ PAR = 1) and

then select I

Logic 1. The device is connected to the I

(that is, no clock is generated by the AD5383). The AD5383 has

a 7-bit slave address 10101 (AD1) (AD0). The 5 MSBs are hard-

coded and the 2 LSBs are determined by the state of the AD1

and AD0 pins. The facility to hardware-configure AD1 and

AD0 allows four of these devices to be configured on the bus.

One data bit is transferred during each SCL clock cycle. The

data on SDA must remain stable during the high period of the

SCL clock pulse. Changes in SDA while SCL is high are control

signals that configure START and STOP conditions. Both SDA

and SCL are pulled high by the external pull-up resistors when

the I

START and STOP Conditions

A master device initiates communication by issuing a START

condition. A START condition is a high-to-low transition on

SDA with SCL high. A STOP condition is a low-to-high

transition on SDA while SCL is high. A START condition from

the master signals the beginning of a transmission to the

AD5383. The STOP condition frees the bus. If a repeated

START condition (Sr) is generated instead of a STOP condition,

the bus remains active.

Repeated START Conditions

A repeated START (Sr) condition may indicate a change of data

direction on the bus. Sr may be used when the bus master is

writing to several I

the bus.

Acknowledge Bit (ACK)

The acknowledge bit (ACK) is the ninth bit attached to any

8-bit data-word. ACK is always generated by the receiving

device. The AD5383 devices generate an ACK when receiving

an address or data by pulling SDA low during the ninth clock

period. Monitoring ACK allows for detection of unsuccessful

data transfers. An unsuccessful data transfer occurs if a receiving

device is busy or if a system fault has occurred. In the event of

an unsuccessful data transfer, the bus master should reattempt

communication.

C Data Transfer

C SERIAL INTERFACE

C bus is not busy.

C mode by configuring the SPI /I

C devices and wants to maintain control of

C-compatible, 2-wire interface

C bus as a slave device

C pin to a

C operating

Rev. B | Page 28 of 40

AD5383 Slave Addresses

A bus master initiates communication with a slave device by

issuing a START condition followed by the 7-bit slave address.

When idle, the AD5383 waits for a START condition followed

by its slave address. The LSB of the address word is the read/

write (R/ W ) bit. The AD5383 is a receive-only device; when

communicating with the AD5383, R/ W = 0. After receiving the

proper address 10101 (AD1) (AD0), the AD5383 issues an ACK

by pulling SDA low for one clock cycle.

The AD5383 has four different user-programmable addresses

determined by the AD1 and AD0 bits.

Write Operation

There are three specific modes in which data can be written to

the AD5383 DAC.

4-Byte Mode

When writing to the AD5383 DACs, the user must begin with

an address byte (R/ W = 0) after which the DAC acknowledges

that it is prepared to receive data by pulling SDA low. The

address byte is followed by the pointer byte; this addresses the specific

channel in the DAC to be addressed and is also acknowledged by the

DAC. Two bytes of data are then written to the DAC, as shown

update a single channel within the AD5383 at any time and

requires four bytes of data to be transferred from the master.

3-Byte Mode

In 3-byte mode, the user can update more than one channel in a

write sequence without having to write the device address byte

each time. The device address byte is only required once; sub-

sequent channel updates require the pointer byte and the data

bytes. In 3-byte mode, the user begins with an address byte

(R/ W = 0), after which the DAC acknowledges that it is

prepared to receive data by pulling SDA low. The address byte is

followed by the pointer byte. This addresses the specific channel

in the DAC to be addressed and is also acknowledged by the

DAC. This is then followed by the two data bytes. REG1 and

REG0 determine the register to be updated.

If a STOP condition does not follow the data bytes, another

channel can be updated by sending a new pointer byte followed

by the data bytes. This mode only requires three bytes to be sent

to update any channel once the device has been initially addressed,

and reduces the software overhead in updating the AD5383

channels. A STOP condition at any time exits this mode. Figure 32

shows a typical configuration.

Figure 31

. A STOP condition follows. This allows the user to

AD5383BST-3 Analog Devices Inc, AD5383BST-3 Datasheet - Page 28

AD5383BST-3

Specifications of AD5383BST-3

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