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AD5165BUJZ100-R7

hotAD5165BUJZ100-R7

AD5165BUJZ100-R7

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Part Number AD5165BUJZ100-R7
Manufacturer Analog Devices Inc.
Description IC DGTL POT 100K LP TSOT23-8
Datasheet AD5165BUJZ100-R7 Datasheet
Package SOT-23-8 Thin, TSOT-23-8
In Stock 48,320 piece(s)
Unit Price $ 0.9954 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jun 2 - Jun 7 (Choose Expedited Shipping)
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Part Number # AD5165BUJZ100-R7 (Data Acquisition - Digital Potentiometers) is manufactured by Analog Devices Inc. and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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AD5165BUJZ100-R7 Specifications

ManufacturerAnalog Devices Inc.
CategoryIntegrated Circuits (ICs) - Data Acquisition - Digital Potentiometers
Datasheet AD5165BUJZ100-R7Datasheet
PackageSOT-23-8 Thin, TSOT-23-8
Series-
TaperLinear
ConfigurationPotentiometer
Number of Circuits1
Number of Taps256
Resistance (Ohms)100k
InterfaceSPI
Memory TypeVolatile
Voltage - Supply2.7 V ~ 5.5 V
Features-
Tolerance±20%
Temperature Coefficient (Typ)35 ppm/°C
Resistance - Wiper (Ohms) (Typ)160
Operating Temperature-40°C ~ 125°C
Package / CaseSOT-23-8 Thin, TSOT-23-8
Supplier Device PackageTSOT-23-8

AD5165BUJZ100-R7 Datasheet

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256-Position, Ultralow Power 1.8 V Logic-Level Digital Potentiometer AD5165 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 that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 www.analog.com Fax: 781.326.8703 © 2004 Analog Devices, Inc. All rights reserved. FEATURES Ultralow standby power IDD = 50 nA typical 256-position End-to-end resistance 100 kΩ Logic high voltage 1.8 V Power supply 2.7 V to 5.5 V Low temperature coefficient 35 ppm/°C Compact thin 8-lead TSOT-8 (2.9 mm × 2.8 mm) package Simple 3-wire digital interface Wide operating temperature −40°C to +125°C Pin-to-pin compatible to AD5160 with CS inverted APPLICATIONS Battery-operated electronics adjustment Remote utilities meter adjustment Mechanical potentiometer replacement Transducer circuit adjustment Automotive electronics adjustment Gain control and offset adjustment System calibration VCXO adjustment GENERAL OVERVIEW The AD5165 provides a compact 2.9 mm × 2.8 mm packaged solution for 256-position adjustment applications. These devices perform the same electronic adjustment function as mechanical potentiometers or variable resistors, with enhanced resolution, solid-state reliability, and superior low temperature coefficient performance. The AD5165’s supply voltage requirement is 2.7 V to 5.5 V, but its logic voltage requirement is 1.8 V to VDD. The AD5165 consumes very low quiescent power during standby mode and is ideal for battery-operated applications. Wiper settings are controlled through a simple 3-wire interface. The interface is similar to the SPI® digital interface except for the inverted chip-select function that minimizes logic power con- sumption in the idling state. The resistance between the wiper and either endpoint of the fixed resistor varies linearly with respect to the digital code transferred into the wiper register. Operating from a 2.7 V to 5.5 V power supply and consuming less than 50 nA typical standby power allows use in battery- operated portable or remote utility device applications. FUNCTIONAL BLOCK DIAGRAM WIPER REGISTER CS SDI CLK GND VDD A W B 04 74 9- 0- 00 1 3-WIRE INTERFACE Figure 1. PIN CONFIGURATION A B CS SDI 1 2 3 4 5 8 7 6 W VDD GND CLK TOP VIEW (Not to Scale) AD5165 04 74 9- 0- 00 2 Figure 2. TYPICAL APPLICATION 04 74 9- 0- 00 3 DIGITAL CONTROL LOGIC OR MICRO AD5165 5V 3.3V CS CLK SDI GND WIDE TERMINAL VOLTAGE RANGE: 0V < VA,VB,VW < 5V VA VW VB VOH = 1.8V MIN VDD Figure 3. Note: The terms digital potentiometer, RDAC, and VR are used interchangeably.

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AD5165 Rev. 0 | Page 2 of 16 TABLE OF CONTENTS Electrical Characteristics—100 kΩ Version .................................. 3 Absolute Maximum Ratings............................................................ 5 Pin Configuration and Functional Descriptions.......................... 6 Typical Performance Characteristics ............................................. 7 Test Circuits..................................................................................... 11 3-Wire Digital Interface................................................................. 12 Theory of Operation ...................................................................... 13 Programming the Variable Resistor ......................................... 13 Programming the Potentiometer Divider ............................... 14 3-Wire Serial Bus Digital Interface .......................................... 14 ESD Protection ........................................................................... 14 Terminal Voltage Operating Range.......................................... 14 Power-Up Sequence ................................................................... 14 Layout and Power Supply Bypassing ....................................... 15 Evaluation Board ........................................................................ 15 Outline Dimensions ....................................................................... 16 Ordering Guide .......................................................................... 16 REVISION HISTORY 4/04—Revision 0: Initial Version

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AD5165 Rev. 0 | Page 3 of 16 ELECTRICAL CHARACTERISTICS—100 kΩ VERSION VDD = 5 V ± 10%, or 3 V ± 10%; VA = VDD; VB = 0 V; –40°C < TA < +125°C; unless otherwise noted. Table 1. Parameter Symbol Conditions Min Typ1 Max Unit DC CHARACTERISTICS—RHEOSTAT MODE Resistor Differential Nonlinearity2 R-DNL RWB, VA = no connect −1 ±0.1 +1 LSB Resistor Integral Nonlinearity2 R-INL RWB, VA = no connect −2 ±0.25 +2 LSB Nominal Resistor Tolerance3 ∆RAB/RAB TA = 25°C −20 +20 % Resistance Temperature Coefficient (∆RAB/RAB)/∆Tx106 VAB = VDD, wiper = no connect 35 ppm/°C Wiper Resistance RW VDD = 2.7 V/5.5 V 85/50 150/120 Ω DC CHARACTERISTICS—POTENTIOMETER DIVIDER MODE Resolution N 8 Bits Differential Nonlinearity4 DNL −1 ±0.1 +1 LSB Integral Nonlinearity4 INL −1 ±0.3 +1 LSB Voltage Divider Temperature Coefficient (∆VW/VW )/∆Tx106 Code = 0x80 15 ppm/°C Full-Scale Error VWFSE Code = 0xFF −0.5 −0.3 0 LSB Zero-Scale Error VWZSE Code = 0x00 0 0.1 0.5 LSB RESISTOR TERMINALS Voltage Range5 VA,B,W GND VDD V Capacitance6 A, B CA,B f = 1 MHz, measured to GND, Code = 0x80 90 pF Capacitance6 W CW f = 1 MHz, measured to GND, Code = 0x80 95 pF Common-Mode Leakage ICM VA = VB = VDD/2 1 nA DIGITAL INPUTS AND OUTPUTS Input Logic High VIH VDD = 2.7 V to 5.5 V 1.8 V Input Logic Low VIL VDD = 2.7 V to 5.5 V 0.6 V Input Capacitance6 CIL 5 pF POWER SUPPLIES Power Supply Range VDD RANGE 2.7 5.5 V Supply Current IDD Digital inputs = 0 V or VDD 0.05 1 µA VDD = 2.7 V, digital inputs = 1.8 V 10 µA VDD = 5 V, digital inputs = 1.8 V 500 µA Power Dissipation7 PDISS Digital inputs = 0 V or VDD 5.5 µW Power Supply Sensitivity PSS VDD = +5 V ± 10%, Code = Midscale ±0.001 ±0.005 %/% DYNAMIC CHARACTERISTICS6, 8 Bandwidth −3 dB BW Code = 0x80 55 kHz Total Harmonic Distortion THDW VA =1 V rms, VB = 0 V, f = 1 kHz, 0.05 % VW Settling Time tS VA = 5 V, VB = 0 V, ±1 LSB error band 2 µs Resistor Noise Voltage Density eN_WB RWB = 50 kΩ 28 nV/√Hz 1 Typical specifications represent average readings at +25°C and VDD = 5 V. 2 Resistor position nonlinearity error R-INL is the deviation from an ideal value measured between the maximum resistance and the minimum resistance wiper positions. R-DNL measures the relative step change from ideal between successive tap positions. Parts are guaranteed monotonic. 3 VAB = VDD, wiper (VW) = no connect. 4 INL and DNL are measured at VW with the RDAC configured as a potentiometer divider similar to a voltage output D/A converter. VA = VDD and VB = 0 V. 5 Resistor terminals A, B, and W have no limitations on polarity with respect to each other. 6 Guaranteed by design and not subject to production test. 7 PDISS is calculated from (IDD × VDD). CMOS logic level inputs result in minimum power dissipation. 8 All dynamic characteristics use VDD = 5 V.

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AD5165 Rev. 0 | Page 4 of 16 TIMING CHARACTERISTICS—100 kΩ VERSION VDD = +5 V ± 10%, or +3 V ± 10%; VA = VDD; VB = 0 V; −40°C < TA < +125°C; unless otherwise noted. Table 2. Parameter Symbol Conditions Min Typ1 Max Unit 3-WIRE INTERFACE TIMING CHARACTERISTICS2, , 3 4 (specifications apply to all parts) Clock Frequency fCLK= 1/( tCH+ tCL) 25 MHz Input Clock Pulse Width tCH, tCL Clock level high or low 20 ns Data Setup Time tDS 5 ns Data Hold Time tDH 5 ns CS Setup Time tCSS 15 ns CS Low Pulse Width tCSW 40 ns CLK Fall to CS Rise Hold Time tCSH0 0 ns CLK Fall to CS Fall Hold Time tCSH1 0 ns CS Fall to Clock Rise Setup tCS1 10 ns 1 Typical specifications represent average readings at +25°C and VDD = 5 V. 2 Guaranteed by design and not subject to production test. 3 All dynamic characteristics use VDD = 5 V. 4 See and for location of measured values. All input control voltages are specified with tFigure 34 Figure 35 R = tF = 2 ns (10% to 90% of 3 V) and timed from a voltage level of 1.5 V.

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AD5165 Rev. 0 | Page 5 of 16 ABSOLUTE MAXIMUM RATINGS TA = +25°C, unless otherwise noted.1, 2 Table 3. Parameter Value VDD to GND –0.3 V to +7 V VA, VB, VW to GND VDD Maximum Current IWB, IWA Pulsed IWB Continuous (RWB ≤ 1 kΩ, A open)2 IWA Continuous (RWA ≤ 1 kΩ, B open)2 ±20 mA ±5 mA ±5 mA Digital Inputs and Output Voltage to GND 0 V to +7 V Operating Temperature Range –40°C to +125°C Maximum Junction Temperature (TJMAX) 150°C Storage Temperature –65°C to +150°C Lead Temperature (Soldering, 10 – 30 sec) 245°C Thermal Resistance2 θJA: TSOT-8 200°C/W 1 Maximum terminal current is bounded by the maximum current handling of the switches, maximum power dissipation of the package, and maximum applied voltage across any two of the A, B, and W terminals at a given resistance. 2 Package power dissipation = (TJMAX − TA)/θJA. Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. ESD CAUTION ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily accumulate on the human body and test equipment and can discharge without detection. Although this product features proprietary ESD protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance degradation or loss of functionality.

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AD5165 Rev. 0 | Page 6 of 16 PIN CONFIGURATION AND FUNCTIONAL DESCRIPTIONS A B CS SDI 1 2 3 4 5 8 7 6 W VDD GND CLK TOP VIEW (Not to Scale) AD5165 04 74 9- 0- 00 2 Figure 4. Table 4. Pin Name Description 1 W Wiper terminal. GND ≤ VA ≤ VDD. 2 VDD Positive Power Supply. 3 GND Digital Ground. 4 CLK Serial Clock Input. Positive-edge triggered. 5 SDI Serial Data Input (data loads MSB first). 6 CS Chip Select Input, active high. When CS returns low, data is loaded into the wiper register. 7 B B terminal. GND ≤ VA ≤ VDD. 8 A A terminal. GND ≤ VA ≤ VDD.

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AD5165 Rev. 0 | Page 7 of 16 TYPICAL PERFORMANCE CHARACTERISTICS –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 R H E O S T A T M O D E I N L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 01 1 5.5V 2.7V Figure 5. R-INL vs. Code vs. Supply Voltages –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 R E H O S T A T M O D E D N L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 01 3 5.5V 2.7V Figure 6. R-DNL vs. Code vs. Supply Voltages –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 P O T E N T IO M E T E R M O D E IN L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 00 6 –40°C +25°C +85°C +125°C Figure 7. INL vs. Code vs. Temperature , VDD = 5 V –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 P O T E N T IO M E T E R M O D E D N L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 00 8 –40°C +25°C +85°C +125°C Figure 8. DNL vs. Code vs. Temperature, VDD = 5 V –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 P O T E N T IO M E T E R M O D E IN L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 00 7 5.5V 2.7V Figure 9. INL vs. Code vs. Supply Voltages –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 P O T E N T IO M E T E R M O D E D N L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 00 9 5.5V 2.7V Figure 10. DNL vs. Code vs. Supply Voltages

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AD5165 Rev. 0 | Page 8 of 16 –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 R H E O S T A T M O D E I N L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 01 0 –40°C +25°C +85°C +125°C Figure 11. R-INL vs. Code vs. Temperature, VDD = 5 V –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 R H E O S T A T M O D E D N L ( L S B ) 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 01 2 –40°C +25°C +85°C +125°C Figure 12. R-DNL vs. Code vs. Temperature, VDD = 5 V –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 F S E ( L S B ) 4020–20 0–40 60 80 100 120 TEMPERATURE (°C) 04 74 9- 0- 02 3 FSE @ VDD = 5.5V FSE @ VDD = 2.7V Figure 13. Full-Scale Error vs. Temperature –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 Z S E ( L S B ) 4020–20 0–40 60 80 100 120 TEMPERATURE (°C) 04 74 9- 0- 02 2 ZSE @ VDD = 5.5V ZSE @ VDD = 2.7V Figure 14. Zero-Scale Error vs. Temperature –0.5 –0.4 –0.3 –0.2 –0.1 0 0.1 0.2 0.3 0.4 0.5 S U P P L Y C U R R E N T ( µA ) 4020–20 0–40 60 80 100 120 TEMPERATURE (°C) 04 74 9- 0- 02 0 IDD @ VDD = 5.5V IDD @ VDD = 2.7V Figure 15. Supply Current vs. Temperature 0.01 0.1 1 10 100 1000 10000 I D D ( µA ) 0 1 2 3 4 5 VIH (0) (V) 04 74 9- 0- 02 5 VDD = VA = 5V VDD = VA = 2.7V Figure 16. Supply Current vs. Digital Input Voltage

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AD5165 Rev. 0 | Page 9 of 16 0.01 0.1 1 10 100 1000 I D D ( µA ) 0 1 2 3 4 5 VIH (1MHz) (V) 04 74 9- 0- 02 6 VDD = VA = 5V VDD = VA = 2.7V Figure 17. Supply Current vs. Digital Input Voltage –20 –15 –10 –5 0 5 R H E O S T A T M O D E T E M C O ( p p m /° C ) 10 15 20 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 01 5 Figure 18. Rheostat Mode Tempco ∆RWB/∆T vs. Code –8 –6 –4 –2 0 2 P O T E N T IO M E T E R M O D E T E M P C O ( p p m /° C ) 4 6 8 1289632 640 160 192 224 256 CODE (Decimal) 04 74 9- 0- 01 4 Figure 19. Potentiometer Mode Tempco ∆VWB/∆T vs. Code 1k 10k 100k 1M 0 –6 –12 –18 –24 –30 –36 –42 –48 –54 –60 0x80 0x40 0x20 0x10 0x08 0x04 0x02 0x01 REF LEVEL 0.000dB /DIV 6.000dB MARKER 54 089.173Hz MAG (A/R) –9.052dB START 1 000.000Hz STOP 1 000 000.000Hz 04 74 9- 0- 04 8 Figure 20. Gain vs. Frequency vs. Code, RAB = 100 kΩ 10k 10M –5.5 –6.0 –6.5 –7.0 –7.5 –8.0 –8.5 –9.0 –9.5 –10.0 –10.5 REF LEVEL –5.000dB /DIV 0.500dB START 1 000.000Hz STOP 1 000 000.000Hz R = 100kΩ 100kΩ – 54kHz 04 74 9- 0- 04 7 Figure 21. –3 dB Bandwidth @ Code = 0x80 P S R R ( – d B ) 0 20 40 60 80 FREQUENCY (Hz) 1k100 10k 100k 1M 04 74 9- 0- 01 9 CODE = 80H, VA = VDD, VB = 0V PSRR @ VDD = 5V DC ± 10% p-p AC PSRR @ VDD = 3V DC ± 10% p-p AC Figure 22. PSRR vs. Frequency

AD5165BUJZ100-R7 Reviews

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Alic*****athur

May 10, 2020

Arrived as described and well packaged. Sent very quickly after payment.

Veroni*****donald

May 4, 2020

Wish there were some documentation but I guess if you're buying you kinda should know.

Niko*****Garner

April 30, 2020

The specs range is wide for a selection and the customer service is great.

Kie*****Saha

April 29, 2020

Great item at a great price. Quick shipping. Nice seller. Rad transaction!

Drav*****arson

April 22, 2020

Resonators were genuine Murata components and arrived in 3 days from Hongkong

Jax*****Kumar

April 20, 2020

Received Quickly. Excellent Communication. Capacitors Look Excellent.

Nola*****obar

April 19, 2020

Work great, great price, I use a lot of them for battery chargers, not the first time ordered.

Lizb*****Hardin

April 19, 2020

Always have what I need, fast and easy for making an order, fast shipping and great service! That about covers it! Many Thanks!

Barr*****Doshi

April 18, 2020

arrived well within time bracket, put this firm on my suppliers list, many thanks

Alo*****Heath

April 9, 2020

Every time I order, I always get faster than promised. For a small-time operator like me, you guys are the best!

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