ENGLISH 简体中文 日本語 한국어  

MXL1001
Precision Operational Amplifier

Not Recommended for New Designs
Part Number Replacement Explanation
MXL1001 n/a This product was manufactured for Maxim by an outside wafer foundry using a process that is no longer available. It is not recommended for new designs. For further information, contact us. The data sheet remains available for existing users.

To the best of our knowledge, a second-source replacement for this part is available from Linear Technology.

MXL1001ACH n/a This product is no longer available.
MXL1001ACJ8 n/a
MXL1001ACN8 n/a
MXL1001ACN8+ n/a
MXL1001ACS8 n/a
MXL1001ACS8+ n/a
MXL1001AMH n/a
MXL1001AMJ8 n/a
MXL1001CH n/a
MXL1001CJ8 n/a
MXL1001CN8 n/a
MXL1001CN8+ n/a
MXL1001CS8 n/a
MXL1001CS8+ n/a
MXL1001MH n/a
MXL1001MJ8 n/a


  QuickView     Technical Documents     Ordering Info     More Information     User Comments (0)     All  
Data Sheet
FULL DATA SHEET (PDF, 60kB)
Download this datasheet in PDF formatDownload   Send this datasheet to any email addressE-Mail


Description
The MXL1001 offers significant specification improvement over earlier precision operational amplifiers and is pin-compatible with the industry-standard LT1001. Particular attention has been paid to the optimization of key parameters such as input offset voltage, common-mode rejection, and power-supply rejection. In addition, the high-performance MXL1001C commercial temperature device provides considerable cost savings when compared to equivalent grades of competing precision amplifiers.

The input offset voltage of all units is less than 60µV, allowing the premium military device, the MXL1001AM, to be specified at 15µV max. Power dissipation is close to half that of the industry-standard OP-07 precision op amp, without sacrificing noise or speed performance. A useful by-product of lower dissipation is decreased warm-up drift.

Key Features   Applications/Uses
  • Guaranteed Low Offset Voltage
    • MXL1001AM: 15µV max
    • MXL1001C: 60µV max
  • Guaranteed Low Drift
    • MXL1001AM: 0.6µV/°C max
    • MXL1001C: 1.0µV/°C max
  • Guaranteed Low Bias Current
    • MXL1001AM: 2nA max
    • MXL1001C: 4nA max
  • Guaranteed CMRR
    • MXL1001AM: 114dB min
    • MXL1001C: 110dB min
  • Guaranteed PSRR
    • MXL1001AM: 110dB min
    • MXL1001C: 106dB min
  • Low Power Dissipation
    • MXL1001AM: 75mW max
    • MXL1001C: 80mW max
  • Low Noise: 0.3µVp-p

 
  • High-Accuracy Data Acquisition
  • Low-Level Signal Processing
  • Strain-Gauge Amplifiers
  • Thermocouple Amplifiers

    Diagram
    MXL1001: Typical Operating Circuit
    Typical Operating Circuit

    Evaluation Kits
    none

    Reliability Reports
  • Show FIT data for:
  • Request Reliability Report for:

    Software/Models
    none

    Ordering Information
    Notes:

    1. Other options and links for purchasing parts are listed at: http://www.maxim-ic.com/sales.
    2. Didn't Find What You Need? Ask our applications engineers. Expert assistance in finding parts, usually within one business day.
    3. Part number suffixes: T or T&R = tape and reel; + = RoHS/lead-free; # = RoHS/lead-exempt. More: SeeFull Data Sheet or Part Naming Conventions.
    4. * Some packages have variations, listed on the drawing. "PkgCode/Variation" tells which variation the product uses. Note that "+", "#", "-" in the part number suffix describes RoHS status. Package drawings may show a different suffix character.


    Devices: 1-20 of 20

    MXL1001 Free
    Sample
    Buy
    Package: TYPE PINS FOOTPRINT
      DRAWING CODE/VAR *
    Temp RoHS/Lead-Free?
    Materials Analysis
    MXL1001ACJ8  
    Ceramic DIP;8 pin;
    Dwg: 21-0045 (PDF)
    Use pkgcode/variation: J8-2*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001MJ8  
    Ceramic DIP;8 pin;
    Dwg: 21-0045 (PDF)
    Use pkgcode/variation: J8-2*
    -40°C to +85°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001CJ8  
    Ceramic DIP;8 pin;
    Dwg: 21-0045 (PDF)
    Use pkgcode/variation: J8-2*
    -40°C to +85°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001AMJ8  
    Ceramic DIP;8 pin;
    Dwg: 21-0045 (PDF)
    Use pkgcode/variation: J8-2*
    -55°C to +125°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001ACH  
    Gold Can -TO;8 pin;
    Dwg: 21-0022 (PDF)
    Use pkgcode/variation: G99-8*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001CH  
    Gold Can -TO;8 pin;
    Dwg: 21-0022 (PDF)
    Use pkgcode/variation: G99-8*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001AMH  
    Gold Can -TO;8 pin;
    Dwg: 21-0022 (PDF)
    Use pkgcode/variation: G99-8*
    -55°C to +125°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001MH  
    Gold Can -TO;8 pin;
    Dwg: 21-0022 (PDF)
    Use pkgcode/variation: G99-8*
    -55°C to +125°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001CN8+  
    PDIP;8 pin;
    Dwg: 21-0043 (PDF)
    Use pkgcode/variation: P8+1*
    0°C to +70°C RoHS/Lead-Free: Lead Free
    Materials Analysis
    MXL1001CN8  
    PDIP;8 pin;
    Dwg: 21-0043 (PDF)
    Use pkgcode/variation: P8-1*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001ACN8  
    PDIP;8 pin;
    Dwg: 21-0043 (PDF)
    Use pkgcode/variation: P8-1*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001ACN8+  
    PDIP;8 pin;
    Dwg: 21-0043 (PDF)
    Use pkgcode/variation: P8+1*
    0°C to +70°C RoHS/Lead-Free: Lead Free
    Materials Analysis
    MXL1001CS8+  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8+2*
    0°C to +70°C RoHS/Lead-Free: Lead Free
    Materials Analysis
    MXL1001ACS8+T  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8+2*
    0°C to +70°C RoHS/Lead-Free: Lead Free
    Materials Analysis
    MXL1001ACS8+  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8+2*
    0°C to +70°C RoHS/Lead-Free: Lead Free
    Materials Analysis
    MXL1001CS8-T  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8-2*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001CS8  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8-2*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001ACS8-T  



    0°C to +70°C See data sheet
    MXL1001ACS8  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8-2*
    0°C to +70°C RoHS/Lead-Free: No
    Materials Analysis
    MXL1001CS8+T  
    SOIC;8 pin;
    Dwg: 21-0041 (PDF)
    Use pkgcode/variation: S8+2*
    0°C to +70°C RoHS/Lead-Free: Lead Free
    Materials Analysis

    Notes and Comments
  • Precision LT1001 second source

    Didn't Find What You Need?
  • Next Day Product Selection Assistance from Applications Engineers
  • Parametric Search
  • Applications Help
  •  QuickView   Technical Documents   Ordering Info   More Information  
     Description 
     Key Features 
     Applications/Uses 
     Key Specifications 
     Diagram 

     Data Sheet 
     Application Notes 
     Design Guides 
     Engineering Journals 
     Reliability Reports 
     Software/Models 
     Evaluation Kits 

     Price and Availability 
     Samples 
     Buy Online 
     Package Information 
     Lead-Free Information 

     Related Products 
     Notes and Comments 
     Evaluation Kits 

    Document Ref.: 19-0286; Rev 1; 1994-08-01
    This page last modified: 2007-01-12



          Privacy Policy    Legal Notices

          Copyright © 2008 by Maxim Integrated Products, Dallas Semiconductor