AD5207BRUZ50-RL7 Analog Devices Inc, AD5207BRUZ50-RL7 Datasheet - Page 11
AD5207BRUZ50-RL7
Manufacturer Part Number
AD5207BRUZ50-RL7
Description
DUAL 8-BIT POTENTIOMETER TAPE AND REEL
Manufacturer
Analog Devices Inc
Datasheet
1.AD5207BRUZ100.pdf
(16 pages)
Specifications of AD5207BRUZ50-RL7
Taps
256
Resistance (ohms)
50K
Number Of Circuits
2
Temperature Coefficient
500 ppm/°C Typical
Memory Type
Volatile
Interface
SPI, 3-Wire Serial
Voltage - Supply
2.7 V ~ 5.5 V, ±2.2 V ~ 2.7 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
14-TSSOP
Resistance In Ohms
50K
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
D
(DEC)
255
128
1
0
Note that in the zero-scale condition a finite wiper resistance of
45 Ω is present. Care should be taken to limit the current flow
between W and B in this state to a maximum current of no more
than 5 mA. Otherwise, degradation or possibly destruction of
the internal switch contacts can occur.
Similar to the mechanical potentiometer, the resistance of the
RDAC between the wiper W and Terminal A also produces a
digitally controlled resistance R
the B Terminal should be let open or tied to the wiper terminal.
Setting the resistance value for R
of resistance and decreases as the data loaded in the latch is
increased in value. The general equation for this operation is:
For example, when R
tied to W, the following output resistance, R
the following RDAC latch codes.
D
(DEC)
255
128
1
0
The typical distribution of R
within ± 1%. Device-to-device matching is process-lot depen-
dent and is possible to have ± 30% variation. The change in R
with temperature has a 500 ppm/°C temperature coefficient.
PROGRAMMING THE POTENTIOMETER DIVIDER
Voltage Output Operation
The digital potentiometer easily generates an output voltage
proportional to the input voltage. Let’s ignore the effect of
the wiper resistance for the moment. For example, when con-
necting A Terminal to 5 V and B Terminal to ground, it produces
a programmable output voltage at the wiper starting at zero
volts 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
R
WA
( )
D
=
R
( )
10006
5045
84
45
256
WB
256
R
( )
84
5045
10006
10045
–
WA
D
AB
×
Full-Scale (R
Output State
Midscale
1 LSB
Zero-Scale (Wiper Contact Resistance)
= 10 kΩ, B terminal is either open or
R
AB
AB
Table IV.
Table V.
WA
from channel to channel matches
+
R
. When these terminals are used,
WA
W
starts at a maximum value
Output State
Full-Scale (R
Midscale
1 LSB
Zero-Scale
AB
– 1 LSB + R
WA
, will be set for
AB
/256 + R
W
)
W
(2)
AB
)
position of the potentiometer divider. Since AD5207 is capable
for dual supplies, the general equation defining the output volt-
age with respect to ground for any given input voltage applied to
terminals AB is:
Operation of the digital potentiometer in the divider mode
results in more accurate operation over temperature. Unlike the
rheostat mode, the output voltage is dependent on the ratio of
R
reduces to 15 ppm/°C. There is no voltage polarity constraint
between Terminals A, B, and W as long as the terminal voltage
stays within V
RDAC CIRCUIT SIMULATION MODEL
The internal parasitic capacitances and the external capacitive
loads dominate the ac characteristics of the RDACs. Config-
ured as a potentiometer divider the –3 dB bandwidth of the
AD5207BRU10 (10 kΩ resistor) measures 600 kHz at half
scale. TPC 16 provides the large signal BODE plot characteris-
tics of the three available resistor versions 10 kΩ and 50 kΩ.
The gain flatness versus frequency graph, TPC 16, predicts
filter applications performance. A parasitic simulation model has
been developed and is shown in Figure 9. Listing I provides a
macro model net list for the 10 kΩ RDAC:
.PARAM D=255, RDAC=10E3
.SUBCKT DPOT (A,W)
CA A 0 45E-12
RAW A W {(1-D/256) RDAC+50}
CW W 0 70E-12
RBW W B {D/256 RDAC+50}
CB B 0 45E-12
.ENDS DPOT
WA
V
W
and R
( )
D
Listing I. Macro Model Net List for RDAC
WB
=
256
SS
and not the absolute values; therefore, the drift
D
C
A
< V
= 45pF
V
A
A
TERM
C
+
A
256
256
< V
−
RDAC
10k
DD
D
W
.
V
70pF
B
C
W
C
C
B
B
= 45pF
B
AD5207
(3)
Ω
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