PDF AD5222 Data sheet ( Hoja de datos )

Número de pieza	AD5222
Descripción	Increment/Decrement Dual Digital Potentiometer
Fabricantes	Analog Devices
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No Preview Available ! 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 kΩ/128 = 78 Ω). 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 kΩ, 50 kΩ, 100 kΩ, or 1 MΩ has 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 1 page 70 60 50 40 30 20 10 0 –10 –20 –30 0 1M⍀ VERSION 10k⍀ VERSION 100k⍀ VERSION 50k⍀ VERSION VDD/VSS = 2.7V/0V TA = 25؇C 16 32 48 64 80 CODE – Decimal 96 112 128 Figure 9. ⌬VWB /⌬T Potentiometer Mode Tempco 120 100 80 100k⍀ VERSION VDD/VSS = 2.7V/0V TA = 25؇C 60 50k⍀ VERSION 40 20 0 –20 –40 10k⍀ VERSION –60 1M⍀ VERSION –80 0 16 32 48 64 80 96 112 128 CODE – Decimal Figure 10. ⌬RWB /⌬T Rheostat Mode Tempco 0 CODE = 3FH 20H –10 10H –20 08H 04H –30 02H 01H –40 TA = 25؇C SEE TEST CIRCUIT FIGURE 32 –50 10 100 1k 10k 100k 1M 10M FREQUENCY – Hz Figure 11. 10 kΩ Gain vs. Frequency vs. Code AD5222 9 VDD = +2.7V 6 VSS = –2.7V DATA = 40H 3 VA = 50mV rms VB = 0V 0 10k⍀ –3 –6 –9 –12 –15 –18 –21 100 A W OP42 1M⍀ 50k⍀ B BW 10k⍀ 50k⍀ 100k⍀ 1M⍀ 764kHz 132kHz 64kHz 6.6kHz 100k⍀ 1k 10k 100k FREQUENCY – Hz 1M Figure 12. Gain vs. Frequency vs. RAB 10 FILTER = 22kHz VDD = ؎2.7V VIN = 1V rms TA = 25؇C 1.0 0.1 0.01 SEE TEST CIRCUIT FIGURE 25 SEE TEST CIRCUIT FIGURE 26 0.001 10 100 1k 10k FREQUENCY – Hz 100k Figure 13. Total Harmonic Distortion Plus Noise vs. Frequency 1M⍀ SEE TEST CIRUIT 27 VDD = 2.7V VSS = –2.7V VA = 50mV rms VB = 0V DATA = 40H A W OP42 100k⍀ 10k⍀ 50k⍀ B 10 100 1k 10k 100k 1M FREQUENCY – Hz Figure 14. Normalized Gain Flatness vs. Frequency REV. 0 –5– 5 Page

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