AD5262BRU20 Analog Devices Inc, AD5262BRU20 Datasheet - Page 22
AD5262BRU20
Manufacturer Part Number
AD5262BRU20
Description
IC POT DUAL 20K 256POS 16TSSOP
Manufacturer
Analog Devices Inc
Datasheet
1.AD5260BRUZ200.pdf
(24 pages)
Specifications of AD5262BRU20
Mounting Type
Surface Mount
Package / Case
16-TSSOP
Rohs Status
RoHS non-compliant
Taps
256
Resistance (ohms)
20K
Number Of Circuits
2
Temperature Coefficient
35 ppm/°C Typical
Memory Type
Volatile
Interface
4-Wire SPI Serial
Voltage - Supply
4.5 V ~ 16.5 V, ±4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Resistance In Ohms
20K
Peak Reflow Compatible (260 C)
No
Supply Voltage
15V
Supply Voltage Max
16.5V
Leaded Process Compatible
No
Supply Voltage Min
4.5V
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
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Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD5262BRU20
Manufacturer:
Analog Devices Inc.
Quantity:
21
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Manufacturer:
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300
Part Number:
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AD5260/AD5262
ate state occurs that may not be acceptable for certain applications.
As a result, different devices can also be used in daisy-chaine
mode so that par
simultaneously.
RESISTANCE SCALING
The AD5260/AD5262 offer 20 kΩ, 50 kΩ, and 200 kΩ nominal
resistance. For users who need lower resistance and still main-
tain the numbers of step adjustment, they can place multip
devices in parallel. For example, Figure 68 shows a simple
scheme of paralleling both channels of the AD5262. To adjust
half of the resistance linearly per step, users need t
both channels coherently with the same settings.
Figure
68. Reduce Resistance by Half with Linear Adjustment Characteristics
Figure 67. Programmable Os
R1 = R1' = R2B = AD5262
D1 = D2 = 1N4148
2.2nF
ADJUSTMENT
C
FREQUENCY
ts can be programmed to the same setting
10kΩ
R
AD5262
B
A
LD
A1
B1
W
1kΩ
VN
R1
V
DD
W1
VP
cillator with Amplitude Control
B
A2
B2
W
10kΩ
OP1177
R2B
2.2nF
+5V
–5V
C'
A
W2
2.1kΩ D1
R2A
AMPLITUDE
ADJUSTMENT
A
10kΩ
W
U1
R'
B
D2
o program
V
O
le
Rev. A | Page 22 of 24
d
In voltage divider mode, a much lower resistance can be achieved
by paralleling a discrete resistor as shown in Figure 69. The
equivalent resistance becomes
Figure 68 and Figure 69 show that the digital potentiometers
change steps linearly. However, log taper adjustment is usually
preferred in applications like audio control. Figure 70 shows
another method of resistance scaling. In this circuit, the smaller
R2 is with respect to R
characteristic behaves.
R
R
Figure 70. Resistor Scaling with Log Adjustment Characteristics
WB
WA
_
_
eq
eq
=
=
Figure 69. Lowering the Nominal Resistance
⎛ −
⎜
⎝
256
1
D
256
(
R1
D
R1
R2
A
B
AB
V
//
⎞
⎟
⎠
i
(
, the more the pseudo-log taper
R2
R1
W
R2 << R1
)
//
+
R2
R2
R1
R
W
)
A
B
+
R
W
W
V
O
(16)
(17)
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