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Beckman Coulter LS 13 320 XR Laser Diffraction Particle Size Analyser 21 CFR Part 11

For big improvements that help you spot small differences.

The LS 13 320 XR offers best-in-class particle size distribution data from advanced PIDS technology,* which enables high-resolution measurements and an expanded dynamic range. Like the LS 13 320, the XR particle size analyzer provides fast, accurate results, and helps you streamline workflows to optimize efficiency. Some big improvements help you reliably spot small differences that can have a huge impact on your particle analysis data.

  • Direct measurement range from 10 nm – 3,500 µm
  • Automatically highlights pass/fail results for faster quality control
  • Enhanced software that simplifies method creation for standardized measurements
  • New control standards to adequately verify instrument/module performance

The LS 13 320 XR Particle Size Analyser is an easy-to-use laser diffraction analyser that yields fast, reliable particle size analysis data for dry and aqueous and non-aqueous samples.

  • Key Features

    Spot Small Differences
    • Expanded measurement range: 10 nm – 3,500 µm
    • Laser diffraction plus advanced Polarization Intensity Differential Scattering (PIDS) technology enable high-resolution measurement & reporting of real data down to 10 nm
    • Provides accurate, reliable detection of multiple particle sizes in a single sample
    Easy-to-use Software
    • ADAPT Software features automatic pass/fail check
    • Pre-configured methods deliver results with 3 clicks or less
    • Simplifies analyzer operation by experts & novice users alike
    • 1-click overlay with historical data
    • Intuitive user diagnostics keep you informed during sampling
    • Simplified method creation for standardized measurements
    ADAPT Software enables 21 CFR Part 11
    • Customizable security system to meet diverse needs
    • Choose from 4 security levels
    • High-security configuration supports 21 CFR Part 11
    PIDS Technology* for Direct Detection of 10 nm Particles
    • 3 light wavelengths (450, 600, & 900 nm) irradiate samples with vertical & horizontal polarized light
    • Analyser measures scattered light from samples over a range of angles
    • Differences between horizontally & vertically radiated light for each wavelength yield high-resolution particle size distribution data

  • Technical Specs

    Technology

    Low-angle forward light scattering with additional PIDS(Polarization Intensity Differential Scattering) Technology. Analysis of vertical and horizontal polarized light at six different angles using three additional wavelengths. Full implementation of both Fraunhofer and Mie Theories.
    Light Source

    Diffraction: Laser Diode (785 nm)
    PIDS: Tungsten lamp with high-quality band-pass filters (475, 613 and 900 nm)
    Particle size analysis range

    Measurement range: 10 nm – 3,500 µm
    Dry Powder System Module (DPS): 400 nm – 2,000 µm
    Universal Liquid Module (ULM): 10 nm – 2,ooo µm
    Electrical interface

    USB
    Power consumption

    ≤ 6 amps @ 90 – 125 VAC
    ≤ 3 amps @ 220 – 240 VAC
    Temperature range

    10 – 40°C (50 – 104°F)
    Humidity

    0 – 90% without condensation
    Compliance

    Creates 21 CFR Part 11 enabling features
    RoHS
    Certifications:
    – EU EMC Directive 2014/30/EU
    – CISPR 11:2009/A1:2010
    – Australia and New Zealand RCM Mark
    Data export file formats

    XLSX, TSV, PDF
    File import capability

    From all LS 13 320 Legacy and LS 13 320 XR system
    *Software operating system

    Requires Microsoft Windows 10, 64-bit environment
    (US, English regional settings only)
    Dimensions

    Height: 19.5″ (49.53 cm)
    Width: 37″ (93.98 cm)
    Depth: 10″ (25.4 cm)
    Weight

    52 lbs (23.5 kg)

  • Accessories

    Dry Powder System

    Analytical size range: 400 nm – 3,500 µm

    • Measures entire sample as required by the ISO 13 320 Standard
    • Programmable Obscuration setting to optimize sample feed rate
    • User-selectable vacuum pressure for maximum dispersion control

    Universal Liquid Module

    Analytical size range: 10 nm – 2,000 µm

    • Fully automatic with auto-dilution, auto-filling and auto-rinsing
    • Analyses samples suspended in aqueous as well as non-aqueous diluents for maximum flexibility
    • Wetted materials list: Teflon®, 316 Stainless Steel, Glass, Kal-rez® and PEEK

    Sonicator Control Unit
    • Needle probe sonicator for additional dispersion control of wet samples
    • Fully adjustable power settings
    • In-situ sonication with ULM before/during the run, can also be operated external to module

    EU Vacuum Cleaner
    • Vacuum pressure range fully adjustable
    • Integrated vacuum control unit for optimised vacuum/obscuration settings
    • Two vacuum systems to choose from

  • Applications

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  • Capabilities

    The LS 13 320 XR particle size analyzer uses advanced laser diffraction and PIDS technology for the sizing of non-spherical, sub-micron particles. Initially, particle sizing by laser diffraction was limited to the use of the Fraunhofer diffraction theory. Laser diffraction offers a number of advantages – laser diffraction analyzers go beyond simple diffraction effects. General approaches are now based on the Mie theory and the measurement of scattering intensity over a wide scattering angular range is employed.

    Using PIDS Technology

    Pioneered by Beckman Coulter, most laser diffraction manufacturers use the above two approaches, i.e., wide angular detecting range and short wavelength, to size small particles. However, sizing even smaller particles (tens of nanometers in diameter), cannot be achieved using only these two approaches. Any further increase in scattering angle will not yield any significant improvement due to the everslower angular variation. Figure 2 is a 3-D display that illustrates the very slow angular variation for small particles. For particles smaller than 200 nm, even by taking advantage of the above two approaches, it is still difficult to obtain an accurate size.

    Read more

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