EVAL-AD5263EBZ Analog Devices Inc, EVAL-AD5263EBZ Datasheet - Page 17

EVAL-AD5263EBZ

Manufacturer Part Number

EVAL-AD5263EBZ

Description

EVALUATION BOARD I.C.

Manufacturer

Analog Devices Inc

Datasheet

1.AD5263BRUZ200.pdf (28 pages)

Specifications of EVAL-AD5263EBZ

Main Purpose

Digital Potentiometer

Embedded

Utilized Ic / Part

AD5263

Primary Attributes

4 Channel, 256 Position

Secondary Attributes

I²C & SPI Interfaces

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 17 of 28
Download datasheet (731Kb)

OPERATION

The AD5263 is a quad-channel, 256-position, digitally

controlled, variable resistor (VR) device.

To program the VR settings, refer to the SPI-Compatible Digital

Interface (DIS = 0) section and the I

Interface (DIS = 1) section. The part has an internal power-on

preset that places the wiper at midscale during power-on,

simplifying the fault condition recovery at power-up. In

addition, the shutdown ( SHDN ) pin of AD5263 places the

RDAC in an almost zero-power consumption state where

Terminal A is open circuited and the wiper W is connected to

Terminal B, resulting in only leakage current consumption in

the VR structure. During shutdown, the VR latch settings are

maintained or new settings can be programmed. When the part

is returned from shutdown, the corresponding VR setting is

applied to the RDAC.

PROGRAMMING THE VARIABLE RESISTOR

Rheostat Operation

The nominal resistance of the RDAC between Terminal A and

Terminal B is available in 20 kΩ, 50 kΩ, and 200 kΩ. The final

two or three digits of the part number determine the nominal

resistance value, for example, 20 kΩ = 20; 50 kΩ = 50;

200 kΩ = 200. The nominal resistance (R

256 contact points accessed by the wiper terminal, plus the B

terminal contact. The 8-bit data in the RDAC latch is decoded to

select one of the 256 possible settings. Assuming a 20 kΩ part is

used, the wiper’s first connection starts at the B terminal for data

0x00. Because there is a 60 Ω wiper contact resistance, such a

connection yields a minimum of 2 × 60 Ω resistance between the

W and B terminals. The second connection is the first tap point,

and corresponds to 198 Ω (R

60 Ω) for Data 0x01. The third connection is the next tap point

representing 216 Ω (R

and so on. Each LSB data value increase moves the wiper up the

resistor ladder until the last tap point is reached at 19,982 Ω

Figure 45. AD5263 Equivalent RDAC Circuit

SD BIT

DECODER R

LATCH

RDAC

AND

= 78 Ω × 2 + 2 × 60 Ω) for Data 0x02,

= R

/256 + R

C-Compatible Digital

) of the VR has

= 78 Ω + 2 ×

Rev. B | Page 17 of 28

the equivalent RDAC circuit, where the last resistor string is not

accessed; therefore, there is 1 LSB less of the nominal resistance at

full scale in addition to the wiper resistance.

The general equation determining the digitally programmed

output resistance between the W and B terminals is

where:

D is the decimal equivalent of the binary code loaded in the 8-bit

RDAC register.

internal switch.

In summary, if R

the RDAC latch codes in Table 5 result in the corresponding output

resistance, R

Table 5. Codes and Corresponding R

D (Dec)

255

128

Note that in the zero-scale condition a finite wiper resistance of

120 Ω is present. Care should be taken to limit the current flow

between W and B in this state to a maximum pulse current of

no more than 20 mA. Otherwise, degradation or possible

destruction of the internal switch contact can occur.

Similar to the mechanical potentiometer, the resistance of the

RDAC between the W wiper and Terminal A also produces a

digitally controlled complementary resistance, R

terminals are used, the B terminal can be opened. Setting the

resistance value for R

and decreases as the data loaded in the latch increases in value.

The general equation for this operation is

For R

latch codes in Table 6 result in the corresponding output

resistance R

Table 6. Codes and Corresponding R

D (Dec)

255

128

is the wiper resistance contributed by the on-resistance of one

is the end-to-end resistance.

– 1 LSB + 2 × R

= 20 kΩ and the B terminal is open circuited, the RDAC

(

)

19,982

10,120

198

120

)

256

(Ω)

256

= 20 kΩ and the A terminal is open circuited,

198

10,120

19,982

20,060

−

). Figure 45 shows a simplified diagram of

Output State

Full-scale (R

Midscale

1 LSB

Zero-scale (wiper contact resistance)

(Ω)

starts at a maximum value of resistance

− 1 LSB + R

Output State

Full scale

Midscale

1 LSB

Zero scale

Resistances

)

. When these

AD5263

(2)

(1)

EVAL-AD5263EBZ Analog Devices Inc, EVAL-AD5263EBZ Datasheet - Page 17

EVAL-AD5263EBZ

Specifications of EVAL-AD5263EBZ

Related parts for EVAL-AD5263EBZ