Datasheet

Data Sheet AD5122/AD5142
Rev. 0 | Page 27 of 32
RDAC ARCHITECTURE
To achieve optimum performance, Analog Devices, Inc., has
patented the RDAC segmentation architecture for all the digital
potentiometers. In particular, the AD5122/AD5142 employ a
three-stage segmentation approach, as shown in Figure 41. The
AD5122/AD5142 wiper switch is designed with the transmission
gate CMOS topology and with the gate voltage derived from
V
DD
and V
SS
.
7-BIT/8-BIT
ADDRESS
DECODER
R
L
W
R
L
A
R
H
R
H
R
M
R
M
B
R
M
R
M
R
H
R
H
S
TS
S
BS
10880-041
Figure 41. AD5122/AD5142 Simplified RDAC Circuit
Top Scale/Bottom Scale Architecture
In addition, the AD5122/AD5142 include new positions to
reduce the resistance between terminals. These positions are
called bottom scale and top scale. At bottom scale, the typical
wiper resistance decreases from 130 Ω to 60 Ω (R
AB
= 100 k).
At top scale, the resistance between Terminal A and Terminal W is
decreased by 1 LSB, and the total resistance is reduced to 60
(R
AB
= 100 kΩ).
PROGRAMMING THE VARIABLE RESISTOR
Rheostat Operation—±8% Resistor Tolerance
The AD5122/AD5142 operate in rheostat mode when only two
terminals are used as a variable resistor. The unused terminal can
be floating, or it can be tied to Terminal W, as shown in Figure 42.
A
W
B
A
W
B
A
W
B
10880-042
Figure 42. Rheostat Mode Configuration
The nominal resistance between Terminal A and Terminal B, R
AB
,
is 10 kΩ or 100 kΩ, and has 128/256 tap points accessed by the
wiper terminal. The 7-bit/8-bit data in the RDAC latch is decoded
to select one of the 128/256 possible wiper settings. The general
equations for determining the digitally programmed output
resistance between Terminal W and Terminal B are
AD5122:
W
AB
WB
RR
D
DR +×=
128
)(
From 0x00 to 0x7F (1)
AD5142:
W
AB
WB
RR
D
DR +×=
256
)(
From 0x00 to 0xFF (2)
where:
D is the decimal equivalent of the binary code in the 7-bit/8-bit
RDAC register.
R
AB
is the end-to-end resistance.
R
W
is the wiper resistance.
In potentiometer mode, similar to the mechanical potentiometer,
the resistance between Terminal W and Terminal A also produces
a digitally controlled complementary resistance, R
WA
. R
WA
also
gives a maximum of 8% absolute resistance error. R
WA
starts at the
maximum resistance value and decreases as the data loaded into
the latch increases. The general equations for this operation are
AD5122:
W
AB
AW
RR
D
D
R
+×
=
128
128
)
(
From 0x00 to 0x7F (3)
AD5142:
W
ABAW
RR
D
DR +×
=
256
256
)(
From 0x00 to 0xFF (4)
where:
D is the decimal equivalent of the binary code in the 7-bit/8-bit
RDAC register.
R
AB
is the end-to-end resistance.
R
W
is the wiper resistance.
If the part is configured in linear gain setting mode, the resistance
between Terminal W and Terminal A is directly proportional
to the code loaded in the associate RDAC register. The general
equations for this operation are
AD5122:
W
ABAW
RR
D
DR +×=
128
)(
From 0x00 to 0x7F (5)
AD5142:
W
ABAW
RR
D
DR +×=
256
)(
From 0x00 to 0xFF (6)
where:
D is the decimal equivalent of the binary code in the 7-bit/8-bit
RDAC register.
R
AB
is the end-to-end resistance.
R
W
is the wiper resistance.