AD5161BRMZ100 Analog Devices Inc, AD5161BRMZ100 Datasheet - Page 17

AD5161BRMZ100

Manufacturer Part Number

AD5161BRMZ100

Description

IC DGTL POT SPI 100K 10-MSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5161BRMZ10.pdf (20 pages)

Specifications of AD5161BRMZ100

Temperature Coefficient

45 ppm/°C Typical

Taps

256

Resistance (ohms)

100K

Number Of Circuits

Memory Type

Volatile

Interface

I²C, SPI

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

10-MSOP, Micro10™, 10-uMAX, 10-uSOP

Resistance In Ohms

100K

End To End Resistance

100kohm

No. Of Steps

256

Resistance Tolerance

Â± 30%

Supply Voltage Range

2.7V To 5.5V

Control Interface

Serial, I2C

No. Of Pots

Single

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The slave whose address corresponds to the transmitted

address responds by pulling the SDA line low during the

ninth clock pulse (this is termed 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 high, the master will read

from the slave device. On the other hand, if the R/ W bit is

low, the master will write to the slave device.

A write operation contains an extra instruction byte that a

read operation does not contain. Such an instruction byte

in write mode follows the slave address byte. The first bit

(MSB) of the instruction byte is a don’t care.

The second MSB, RS, is the midscale reset. A logic high on

this bit moves the wiper to the center tap where R

This feature effectively writes over the contents of the

RDAC will remain at midscale.

The third MSB, SD, is a shutdown bit. A logic high causes

an open circuit at terminal A while shorting the wiper to

terminal B. This operation yields almost 0 Ω in rheostat

mode or 0 V in potentiometer mode. It is important to

note that the shutdown operation does not disturb the

contents of the register. When brought out of shutdown,

the previous setting will be applied to the RDAC. Also,

during shutdown, new settings can be programmed. When

the part is returned from shutdown, the corresponding VR

setting will be applied to the RDAC.

The remainder of the bits in the instruction byte are don’t

cares (see Table 7).

After acknowledging the instruction byte, the last byte in

write mode is the 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 Table 7).

In the read mode, the data byte follows immediately after

the acknowledgment of the slave address byte. Data is

transmitted over the serial bus in sequences of nine clock

pulses (a slight difference with the write mode, where there

are eight data bits followed by an acknowledge bit).

Similarly, 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 41).

= R

Rev. A | Page 17 of 20

A repeated write function gives the user flexibility to update the

RDAC output a number of times after addressing and instructing

the part only once. During the write cycle, each data byte will

update the RDAC output. For example, after the RDAC has

acknowledged its slave address and instruction bytes, the RDAC

output will update after these two bytes. If another byte is written to

the RDAC while it is still addressed to a specific slave device

with the same instruction, this byte will update the output of

the selected slave device. If different instructions are needed, the

write mode has to start again with a new slave address, instruction,

and data byte. Similarly, a repeated read function of the RDAC

is also allowed.

Readback RDAC Value

The AD5161 allows the user to read back the RDAC values in the

read mode. Refer to Table 7 and Table 8 for the programming format.

Multiple Devices on One Bus

Figure 44 shows two AD5161 devices on the same serial bus.

Each has a different slave address since the states of their AD0

pins are different. This allows each RDAC within each device to

be written to or read from independently. The master device

output bus line drivers are open-drain pull-downs in a fully I

compatible interface.

MASTER

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 will pull the SDA

line high during the tenth clock pulse to establish a STOP

condition (see Figure 40). In read mode, the master will

issue a No Acknowledge for the ninth clock pulse (i.e., the

SDA line remains high). The master will then bring the

SDA line low before the tenth clock pulse which goes high

to establish a STOP condition (see Figure 41).

Figure 44. Multiple AD5161 Devices on One I

AD0

AD5161

SDA SCL

+5V

AD0

SDA SCL

AD5161

C Bus

AD5161

SDA

SCL

AD5161BRMZ100 Analog Devices Inc, AD5161BRMZ100 Datasheet - Page 17

AD5161BRMZ100

Specifications of AD5161BRMZ100

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