X96010: Sensor Conditioner with Dual Look Up Table Memory and DACs

The X96010 is a highly integrated bias controller which incorporates two digitally controlled Programmable Current Generators and temperature compensation with dedicated look-up tables. All functions of the device are controlled via a 2-wire digital serial interface.

Two temperature compensated Programmable Current Generators, vary the output current with temperature according to the contents of the associated nonvolatile look-up table. The look-up table may be programmed with arbitrary data by the user via the 2- wire serial port, and an external temperature sensor may be used to control the output current response.

Key Features
  • Two Programmable Current Generators
    • ±3.2 mA max.
    • 8-bit (256 Step) Resolution
    • External Resistor Pins to Set Full Scale Current Output
  • External Sensor Input (Single Ended)
  • Integrated 8-bit A/D Converter
  • Internal Voltage Reference with Output/Input
  • Temperature Compensation
  • EEPROM Look-up Tables
  • Hot Pluggable
  • Write Protection Circuitry
    • Intersil BlockLock™
    • Logic Controlled Protection
  • 2-wire Bus with 3 Slave Address Bits
  • 3V to 5.5V, Single Supply Operation
  • Package
    • 14 Ld TSSOP
  • Pb-Free Plus Anneal Available (RoHS Compliant)
Applications
  • PIN Diode Bias Control
  • RF PA Bias Control
  • Temperature Compensated Process Control
  • Laser Diode Bias Control
  • Fan Control
  • Motor Control
  • Sensor Signal Conditioning
  • Data Aquisition Applications
  • Gain vs. Temperature Control
  • High Power Audio
  • Open Loop Temperature Compensation
  • Close Loop Current, Voltage, Pressure, Temperature, Speed, Position Programmable Voltage sources, electronic loads, output amplifiers, or function generator
Typical Diagram
Application Notes
TitleTypeUpdatedSizeOther Languages
AN174: Optimizing LDMOS Transistors Bias Control An Accurate Solution for Basestation RF Power AmplifiersPDF19 Jan 2016178 KB
AN133: Putting Analog On The BusPDF12 May 2015222 KB
AN139: Designing Power Supplies Using Intersil's XDCP Mixed Signal ProductsPDF13 Nov 2014314 KB
AN124: A Primer on Digitally-Controlled PotentiometersPDF13 Nov 2014158 KB
AN1155: Shaft Encoder Drives Multiple Intersil Digitally Controlled Potentiometers (XDCPs)PDF13 Nov 201445 KB
AN1145: A Compendium of Application Circuits for Intersil Digitally-Controlled (XDCP)PDF13 Nov 2014189 KB
AN1149: Application of Intersil Digitally Controlled Potentiometers (XDCP) as Hybrid Analog/Digital Feedback System Control ElementsPDF13 Nov 2014200 KB
Datasheets
TitleTypeUpdatedSizeOther Languages
X96010 DatasheetPDF19 Nov 2014428 KB
Order Information
Part NumberPackage TypeWeight(g)PinsMSL RatingPeak Temp (°C)RoHS Status
X96010V14I14 Ld TSSOP0.05414240
X96010V14IZ14 Ld TSSOP0.05414260RoHS
X9601XEVALN/A
X96010 Datasheet 19 Nov 2014
AN174: Optimizing LDMOS Transistors Bias Control An Accurate Solution for Basestation RF Power Amplifiers 19 Jan 2016
AN133: Putting Analog On The Bus 12 May 2015
AN139: Designing Power Supplies Using Intersil's XDCP Mixed Signal Products 13 Nov 2014
AN124: A Primer on Digitally-Controlled Potentiometers 13 Nov 2014
AN1155: Shaft Encoder Drives Multiple Intersil Digitally Controlled Potentiometers (XDCPs) 13 Nov 2014
AN1145: A Compendium of Application Circuits for Intersil Digitally-Controlled (XDCP) 13 Nov 2014
AN1149: Application of Intersil Digitally Controlled Potentiometers (XDCP) as Hybrid Analog/Digital Feedback System Control Elements 13 Nov 2014