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AD5222 Schematic ( PDF Datasheet ) - Analog Devices

Teilenummer AD5222
Beschreibung Increment/Decrement Dual Digital Potentiometer
Hersteller Analog Devices
Logo Analog Devices Logo 




Gesamt 10 Seiten
AD5222 Datasheet, Funktion
a
FEATURES
128-Position, 2-Channel
Potentiometer Replacement
10 k, 50 k, 100 k, 1 M
Very Low Power: 40 A Max
؎2.7 V Dual Supply Operation or
2.7 V to 5.5 V Single Supply Operation
Increment/Decrement Count Control
APPLICATIONS
Stereo Channel Audio Level Control
Mechanical Potentiometer Replacement
Remote Incremental Adjustment Applications
Instrumentation: Gain, Offset Adjustment
Programmable Voltage-to-Current Conversion
Line Impedance Matching
Increment / Decrement
Dual Digital Potentiometer
AD5222
FUNCTIONAL BLOCK DIAGRAM
VDD AD5222
U/D
UP/DOWN
COUNTER
DECODE
CS
MODE
DACSEL
CLK
GND
POR
DAC
SELECT
AND
ENABLE
UP/DOWN
COUNTER
DECODE
A1
W1
B1
A2
W2
B2
VSS
GENERAL DESCRIPTION
The AD5222 provides a dual channel, 128-position, digitally
controlled variable-resistor (VR) device. This device performs
the same electronic adjustment function as a potentiometer or
variable resistor. These products were optimized for instrument
and test equipment push-button applications. Choices between
bandwidth or power dissipation are available as a result of the
wide selection of end-to-end terminal resistance values.
The AD5222 contains two fixed resistors with wiper contacts that
tap the fixed resistor value at a point determined by a digitally
controlled up/down counter. The resistance between the wiper
and either end point of the fixed resistor provides a constant
resistance step size that is equal to the end-to-end resistance
divided by the number of positions (e.g., R STEP = 10 k/128 =
78 ). The variable resistor offers a true adjustable value of
resistance, between Terminal A and the wiper, or Terminal B
and the wiper. The fixed A-to-B terminal resistance of 10 k,
50 k, 100 k, or 1 Mhas a nominal temperature coefficient
of –35 ppm/°C.
The chip select CS, count CLK and U/D direction control inputs
set the variable resistor position. The MODE determines whether
both VRs are incremented together or independently. With
MODE at logic zero, both wipers are incremented UP or DOWN
without changing the relative settings between the wipers. Also,
the relative ratio between the wipers is preserved if either wiper
reaches the end of the resistor array. In the independent MODE
(Logic 1) only the VR determined by the DACSEL pin is changed.
DACSEL (Logic 0) changes RDAC 1. These inputs, which con-
trol the internal up/down counter, can be easily generated with
mechanical or push-button switches (or other contact closure
devices). This simple digital interface eliminates the need for
microcontrollers in front panel interface designs.
The AD5222 is available in the surface-mount (SO-14) package.
For ultracompact solutions, selected models are available in the
thin TSSOP-14 package. All parts are guaranteed to operate
over the extended industrial temperature range of –40°C to
+85°C. For 3-wire, SPI-compatible interface applications, see
the AD5203/AD5204/AD5206, AD7376, and AD8400/AD8402/
AD8403 products.
U/D
INCREMENT
5V
CS
U/D
CLK
VDD
A1
W1
B1
DACSEL
MODE
GND
A2
W2
B2
VSS
Figure 1. Typical Push-Button Control Application
REV. 0
Information furnished by Analog Devices is believed to be accurate and
reliable. However, no responsibility is assumed by Analog Devices for its
use, nor for any infringements of patents or other rights of third parties
which may result from its use. No license is granted by implication or
otherwise under any patent or patent rights of Analog Devices.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700 World Wide Web Site: http://www.analog.com
Fax: 781/326-8703
© Analog Devices, Inc., 1999






AD5222 Datasheet, Funktion
AD5222
1200
1000
800
600
A – VDD = 5.5V
CODE = 15H
B – VDD = 3.3V
CODE = 15H
C – VDD = 5.5V
CODE = 3FH
D – VDD = 3.3V
CODE = 3FH
400
TA = 25؇C
AB
200
C
0D
1 10k 100k 1M 10M
FREQUENCY – Hz
Figure 15. IDD, ISS Supply Current vs. Clock Frequency
100
TA = 25؇C
90
80
VDD/VSS = 2.7V/0V
70
60
50
VDD/VSS = ؎2.7V
40
30
VDD/VSS = 5.5V/0V
20
10
–3
–2 –1
0 12 3
COMMON MODE – Volts
4
56
Figure 16. Incremental Wiper Contact Resistance vs.
VDD/ VSS
1
LOGIC = 0V OR VDD
0.1
0.01
VDD = 2.7V
VDD = 5.5V OR VDD/VSS = ؎2.7V
0.001
–40
–15 10
35
TEMPERATURE – ؇C
60
85
Figure 17. Supply Current vs. Temperature
10
VDD = 5.5V
1 VA = 5.5V
0.1 VDD/VSS = ؎2.5V
VA = 2.5V
0.01
0.001
0
VDD = 2.7V
VA = 2.7V
12 34 5
INPUT LOGIC VOLTAGE – V
6
Figure 18. Supply Current vs. Input Logic Voltage
VDD = 2.7V
VA = 2.7V
VB = 0V
VW
20mV/DIV
2V/DIV
CLK
Figure 19. Midscale Transition 3FH to 40H
VDD = 2.7V
VA = 2.7V
VB = 0V
VWA
VWB
20mV/DIV
CLK
2V/DIV
Figure 20. Stereo Step Transition, Mode = 0
–6– REV. 0

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