EVAL-AD5143DBZ Analog Devices, EVAL-AD5143DBZ Datasheet - Page 26
EVAL-AD5143DBZ
Manufacturer Part Number
EVAL-AD5143DBZ
Description
Digital Potentiometer Development Tools EVALUATION BOARD I.C.
Manufacturer
Analog Devices
Series
AD5143r
Datasheet
1.EVAL-AD5143DBZ.pdf
(28 pages)
Specifications of EVAL-AD5143DBZ
Rohs
yes
Product
Evaluation Boards
Tool Is For Evaluation Of
AD5143
Resistance
10 kOhms/100 kOhms
Operating Supply Voltage
5.5 V
Interface Type
I2C
Maximum Operating Temperature
+ 125 C
Factory Pack Quantity
1
AD5123/AD5143
In the bottom scale condition or top scale condition, a finite
total wiper resistance of 40 Ω is present. Regardless of which
setting the part is operating in, limit the current between
Terminal A to Terminal B, Terminal W to Terminal A, and
Terminal W to Terminal B, to the maximum continuous
current of ±6 mA or to the pulse current specified in Table 5.
Otherwise, degradation or possible destruction of the internal
switch contact can occur.
PROGRAMMING THE POTENTIOMETER DIVIDER
Voltage Output Operation
The digital potentiometer easily generates a voltage divider at
wiper-to-B and wiper-to-A that is proportional to the input voltage
at A to B, as shown in Figure 38.
Connecting Terminal A to 5 V and Terminal B to ground
produces an output voltage at the Wiper W to Terminal B
ranging from 0 V to 5 V. The general equation defining the
output voltage at V
input voltage applied to Terminal A and Terminal B is
where:
R
R
Operation of the digital potentiometer in the divider mode
results in a more accurate operation over temperature. Unlike
the rheostat mode, the output voltage is dependent mainly on
the ratio of the internal resistors, R
absolute values. Therefore, the temperature drift reduces to
5 ppm/°C.
TERMINAL VOLTAGE OPERATING RANGE
The
for protection. These diodes also set the voltage boundary of
the terminal operating voltages. Positive signals present on
Terminal A, Terminal B, or Terminal W that exceed V
clamped by the forward-biased diode. There is no polarity
constraint between V
than V
WB
AW
(D) can be obtained from Equation 1 and Equation 2.
(D) can be obtained from Equation 3 and Equation 4.
AD5123/AD5143
V
W
DD
(
D
or lower than V
)
Figure 38. Potentiometer Mode Configuration
R
WB
R
AB
(
W
D
with respect to ground for any valid
)
A
V
V
, V
A
B
are designed with internal ESD diodes
V
W
SS
A
, and V
.
A
B
R
AW
R
W
AB
(
B
AW
D
, but they cannot be higher
V
)
and R
OUT
V
B
WB
, and not the
DD
are
Rev. A | Page 26 of 28
(7)
POWER-UP SEQUENCE
Because there are diodes to limit the voltage compliance at
Terminal A, Terminal B, and Terminal W (see Figure 39), it is
important to power up V
Terminal A, Terminal B, and Terminal W. Otherwise, the diode
is forward-biased such that V
ideal power-up sequence is V
and V
not important as long as they are powered after V
Regardless of the power-up sequence and the ramp rates of the
power supplies, once V
activates, which restores EEPROM values to the RDAC registers.
LAYOUT AND POWER SUPPLY BIASING
It is always a good practice to use a compact, minimum lead
length layout design. Ensure that the leads to the input are as
direct as possible with a minimum conductor length. Ground
paths should have low resistance and low inductance. It is also
good practice to bypass the power supplies with quality capacitors.
Apply low equivalent series resistance (ESR) 1 μF to 10 μF
tantalum or electrolytic capacitors at the supplies to minimize
any transient disturbance and to filter low frequency ripple.
Figure 40 illustrates the basic supply bypassing configuration
for the AD5123/AD5143.
W
. The order of powering V
Figure 39. Maximum Terminal Voltages Set by V
V
V
DD
SS
Figure 40. Power Supply Bypassing
+
+
C3
10µF
C4
10µF
DD
DD
is powered, the power-on preset
first before applying any voltage to
DD
C1
0.1µF
C2
0.1µF
SS
is powered unintentionally. The
, V
DD
A
, V
, digital inputs, and V
V
V
B
, V
DD
SS
AD5123/
AD5143
GND
W
, and digital inputs is
V
A
W
V
B
DD
SS
Data Sheet
DD
SS
and V
and V
SS
A
DD
, V
.
B
,
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