AD5242BRZ1M Analog Devices Inc, AD5242BRZ1M Datasheet - Page 13

AD5242BRZ1M

Manufacturer Part Number

AD5242BRZ1M

Description

IC POT DGTL DUAL 256POS 16SOIC

Manufacturer

Analog Devices Inc

Datasheet

1.AD5242BRUZ100-RL7.pdf (20 pages)

Specifications of AD5242BRZ1M

Taps

256

Resistance (ohms)

Number Of Circuits

Temperature Coefficient

30 ppm/°C Typical

Memory Type

Volatile

Interface

I²C, 2-Wire Serial

Voltage - Supply

2.7 V ~ 5.5 V, ±2.3 V ~ 2.7 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (3.9mm Width)

Resistance In Ohms

1.00M

End To End Resistance

1Mohm

Track Taper

Linear

No. Of Steps

256

Resistance Tolerance

+50, -30%

Supply Voltage Range

2.7V To 5.5V, Â± 2.3V To Â± 2.7V

Control Interface

I2C, Serial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

EVAL-AD5242EBZ - BOARD EVALUATION FOR AD5242

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD5242BRZ1M

Manufacturer:

ADI

Quantity:

1 299

Current page: 13 of 20
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The typical distribution of the nominal resistance R

channel to channel matches within ±1% for AD5242. Device-

to-device matching is process lot dependent, and it is possible to

have ±30% variation. Because the resistance element is processed in

thin film technology, the change in R

more than a 30 ppm/°C temperature coefficient.

PROGRAMMING THE POTENTIOMETER DIVIDER

Voltage Output Operation

The digital potentiometer easily generates output voltages at

wiper-to-B and wiper-to-A to be proportional to the input

voltage at A-to-B. Unlike the polarity of V

be positive, voltage across terminal A to terminal B, terminal W

to terminal A, and terminal W to terminal B can be at either

polarity provided that V

If ignoring the effect of the wiper resistance for approximation,

connecting Terminal A to 5 V and Terminal B to ground produces

an output voltage at the wiper-to-B starting at 0 V up to 1 LSB less

than 5 V. Each LSB of voltage is equal to the voltage applied across

Terminal AB divided by the 256 positions of the potentiometer

divider. Because AD5241/AD5242 can be supplied by dual

supplies, the general equation defining the output voltage at V

with respect to ground for any valid input voltage applied to

Terminal A and Terminal B is

which can be simplified to

where D is the decimal equivalent of the binary code between 0

to 255 that is loaded in the 8-bit RDAC register.

For a more accurate calculation, including the effects of wiper

resistance, V

where R

Equation 2.

Operation of the digital potentiometer in divider mode results

in a more accurate operation over temperature. Unlike rheostat

mode, the output voltage is dependent on the ratio of the internal

resistors, R

the temperature drift reduces to 5 ppm/°C.

( )

(D) and R

and R

can be found as

256

(

, and not the absolute values; therefore,

)

(D) can be obtained from Equation 1 and

is powered by a negative supply.

256

−

(

)

with temperature has no

, which must

from

Rev. C | Page 13 of 20

(3)

(4)

(5)

DIGITAL INTERFACE

2-Wire Serial Bus

The AD5241/AD5242 are controlled via an I

serial bus. The RDACs are connected to this bus as slave devices.

Referring to Figure 3 and Figure 4, the first byte of AD5241/

AD5242 is a slave address byte. It has a 7-bit slave address and

an R/ W bit. The five MSBs are 01011 and the following two bits

are determined by the state of the AD0 and AD1 pins of the

device. AD0 and AD1 allow users to use up to four of these

devices on one bus.

The 2-wire, I

The master initiates a data transfer by establishing a start

condition, which is when a high-to-low transition on the SDA

line occurs while SCL is high (see Figure 4). The following

byte is the Frame 1, slave address byte, which consists of the

7-bit slave address followed by an R/ W bit (this bit determines

whether data is read from or written to the slave device).

The slave whose address corresponds to the transmitted

address responds by pulling the SDA line low during the

ninth clock pulse (this is 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

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

slave device.

A write operation contains an extra instruction byte more

than the read operation. The Frame 2 instruction byte in

write mode follows the slave address byte. The MSB of the

instruction byte labeled A /B is the RDAC subaddress select. A

low selects RDAC1 and a high selects RDAC2 for the dual-

channel AD5242. Set A /B to low for the AD5241. The

second MSB, RS, is the midscale reset. A logic high of this

bit moves the wiper of a selected RDAC to the center tap

where R

logic high on SD causes the RDAC to open circuit at

Terminal A while shorting the wiper to Terminal B. This

operation yields almost a 0 Ω rheostat mode or 0 V in

potentiometer mode. This SD bit serves the same function

as the SHDN pin except that the SHDN pin reacts to active

low. The following two bits are O

programmable logic outputs that users can use to drive

other digital loads, logic gates, LED drivers, analog switches,

and the like. The three LSBs are don’t care (see

After acknowledging the instruction byte, the last byte in

write mode is the, Frame 3 data byte. Data is transmitted

over the serial bus in sequences of nine clock pulses (eight

data bits followed by an acknowledge bit). The transitions

on the SDA line must occur during the low period of SCL

and remain stable during the high period of SCL (see Figure 4).

C serial bus protocol operates as follows:

= R

. The third MSB, SD, is a shutdown bit. A

AD5241/AD5242

and O

C-compatible

. They are extra

Figure 4

AD5242BRZ1M Analog Devices Inc, AD5242BRZ1M Datasheet - Page 13

AD5242BRZ1M

Specifications of AD5242BRZ1M

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