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X9429

Obsolete

Single Digitally Controlled Potentiometer (XDCP™)

Features

  • Single Voltage Potentiometer
  • 64 Resistor Taps
  • 2-wire Serial Interface for Write, Read, and Transfer Operations of the Potentiometer
  • Wiper Resistance, 150Ω Typical at 5V
  • Non-Volatile Storage of Multiple Wiper Positions
  • Power-on Recall. Loads Saved Wiper Position on Power-up.
  • Standby Current 5µA Max
  • VCC: 2.7V to 5.5V Operation
  • 2.5kΩ, 10kΩ Total Pot Resistance
  • Endurance: 100,000 Data Changes per Bit per Register
  • 100 yr. Data Retention
  • 14 Ld TSSOP, 16 Ld SOIC
  • Low Power CMOS
  • Pb-Free Plus Anneal Available (RoHS Compliant)
Find Other Products in Digital Controlled Potentiometers (DCPs)
X9429 Functional Diagram
X9429 Functional Diagram

Description

Support is limited to customers who have already adopted these products.

The X9429 integrates a single digitally controlled potentiometer (XDCP) on a monolithic CMOS integrated circuit. The digital controlled potentiometer is implemented using 63 resistive elements in a series array. Between each element are tap points connected to the wiper terminal through switches. The position of the wiper on the array is controlled by the user through the 2-wire bus interface. The potentiometer has associated with it a volatile Wiper Counter Register (WCR) and a four non-volatile Data Registers that can be directly written to and read by the user. The contents of the WCR controls the position of the wiper on the resistor array though the switches. Powerup recalls the contents of the default data register (DR0) to the WCR. The XDCP can be used as a three-terminal potentiometer or as a two terminal variable resistor in a wide variety of applications including control, parameter adjustments, and signal processing.

Applications

  • CIRCUIT LEVEL APPLICATIONSbr
  • Vary the gain of a voltage amplifier
  • Provide programmable dc reference voltages for comparators and detectors
  • Control the volume in audio circuits
  • Trim out the offset voltage error in a voltage amplifier circuit
  • Set the output voltage of a voltage regulator
  • Trim the resistance in Wheatstone bridge circuits
  • Control the gain, characteristic frequency and Q-factor in filter circuits
  • Set the scale factor and zero point in sensor signal conditioning circuits
  • Vary the frequency and duty cycle of timer ICs
  • Vary the dc biasing of a pin diode attenuator in RF circuits
  • Provide a control variable (I, V, or R) in feedback circuitsbr SYSTEM LEVEL APPLICATIONSbr
  • Adjust the contrast in LCD displays
  • Control the power level of LED transmitters in communication systems
  • Set and regulate the DC biasing point in an RF power amplifier in wireless systems
  • Control the gain in audio and home entertainment systems
  • Provide the variable DC bias for tuners in RF wireless systems
  • Set the operating points in temperature control systems
  • Control the operating point for sensors in industrial systems
  • Trim offset and gain errors in artificial intelligent systems
Part NumberStatusSamplesStockPackageCarrier TypeMOQ
X9429WV14IZObsoleteN/AOut of StockTSSOPTube380
X9429WV14IZ-2.7ObsoleteN/AIn StockTSSOPTube760
X9429WV14Z-2.7ObsoleteN/AIn StockTSSOPTube760
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    Recommended Documents (1)

  1. Datasheet
    X9429 Datasheet
    RECOMMENDED
    PDF 829 KB x9429 Mar 10, 2005

    Datasheets (1)

  1. Datasheet
    X9429 Datasheet
    RECOMMENDED
    PDF 829 KB x9429 Mar 10, 2005

    Manuals & Guides (1)

  1. Manual - Development Tools
    Digital Potentiometer (DCP) Evaluation USB Kit Manual
    PDF 2.16 MB AN1555 Sep 17, 2025

    Application Notes & White Papers (13)

  1. Application Note
    AN1425: Get Precision Performance from a Digitally Controlled Potentiometer (DCP)
    PDF 281 KB an1425 May 22, 2008
    AI-generated Summary: Digitally Controlled Potentiometers (DCPs) offer precise resistance control with configurations in both serial and parallel modes, featuring fixed resistors and various resistance options. The ISL22317 model provides 1% precision with 128 taps and can function as a two-terminal variable resistor or three-terminal potentiometer, delivering high accuracy and low temperature coefficient. DCPs can outperform DACs in fine tuning within limited ranges, offering better resolution with fewer bits. Resolution varies with voltage and tap count, as detailed in the provided tables. Usage guidelines and liability disclaimers emphasize proper application and safety considerations.
  2. Application Note
    AN139: Designing Power Supplies Using Intersil's XDCP Mixed Signal Products
    PDF 750 KB an139 Jun 30, 2005
    AI-generated Summary: The document details the design of power supplies using Intersil’s XDCP mixed signal products. It explains four key circuit schematics: Front End, Power Mesh, Secondary Control, and Primary Control, highlighting their interconnections. The Front End converts AC line power to an unregulated 320V DC, incorporating protection and EMI filtering components. The Power Mesh is a single switch forward DC/DC converter that regulates 320V DC to 12V DC at 10A, using a cascode transistor arrangement and a digitally controlled switching frequency to meet EMI requirements.
  3. Application Note
    AN133: Putting Analog On The Bus
    PDF 534 KB an133 Jun 06, 2005
    AI-generated Summary: The document explains how digitally controlled potentiometers (XDCPs) enable programmability in amplifier circuits by adjusting cutoff frequency and gain. It details the design of a non-inverting amplifier with variable resistors forming an RC low pass filter and gain control. Techniques to reduce potentiometer resistance for high-frequency applications are described, allowing gain from 1 to 2 and cutoff frequency from 130kHz to over 1MHz. The amplifier’s parameters are controlled via a serial bus, enabling computer-based customization.
  4. Application Note
    AN1149: Application of Intersil Digitally Controlled Potentiometers (XDCP) as Hybrid Analog/Digital Feedback System Control Elements
    PDF 467 KB an1149 May 03, 2005
    AI-generated Summary: The document details circuits using Intersil digitally controlled potentiometers (X9C103, X9312) combined with op amps (LT1226, OP37, LT1028) for applications like null adjustment, amplifier biasing, and proportional-integral temperature control. It explains modes controlled by NADJ/ADJ signals, automatic nulling via feedback loops, and bias stabilization in high-output buffer amplifiers. The circuits optimize gain, bandwidth, noise, and minimize distortion and power consumption. It also covers clocking options for nulling and temperature control using digital potentiometers and comparators.
  5. Application Note
    AN1157: Power Supply and DC to DC Converter Control using Intersil Digitally Controlled Potentiometers (XDCPs)
    PDF 280 KB an1157 Apr 29, 2005
    AI-generated Summary: Digitally controlled potentiometers (XDCPs) enable precise power supply and DC to DC converter control by allowing cascading configurations for fine and coarse voltage adjustments. These devices store wiper settings in nonvolatile memory, ensuring long-term reliability and simplifying manufacturing and testing. XDCPs improve repeatability, reduce human error, and enhance resistance to environmental stress, making them superior to mechanical potentiometers in power applications.
    6. View More (13)

    Marketing Collateral (1)

  1. Brochure
    Analog ICs Brochure
    PDF 5.43 MB R07CL0009EJ0800 Rev.8.00 日本語 Nov 10, 2025

    Other (1)

  1. Document
    TB458: Converting a Fixed PWM to an Adjustable PWM
    PDF 315 KB tb458 Jan 19, 2004
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    Software & Tools (1)

  1. Library
    DCP Evaluation Board Software v6.03
    EXE 2.56 MB renesas-dcp-installer Nov 17, 2017
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