The Microtrac S3500 is a industry-preferred Laser Diffraction (LD) analyzer, ideally suited for various particle characterization tasks. It is the first particle size analyzer that uses three precisely placed red laser diodes to accurately characterize particles like never before.
The patented Tri-Laser System provides accurate, reliable and repeatable particle size analysis for a diverse range of applications by utilizing the proven theory of Mie compensation for spherical particles and the proprietary principle of Modified Mie calculations for non-spherical particles. The S3500 measures particle size from 0.02 to 2,800 µm.
Laser Diffraction with red and blue lasers: BLUEWAVE
Features
- Tri–laser, red, multi-detector, multi-angle optical system
- Algorithms that utilize Mie compensation and Modified Mie calculations for non-spherical particles
- Measurement capability from 0.02 to 2,800 µm
- Wet and dry measurements
- Enclosed optical path ensures complete protection of the optical components leading to little or no operator intervention
Product Advantages
- Utilizing three red lasers, increases the range of measurement, giving you the flexibility to conduct analysis on a wide range of samples
- Proprietary Modified Mie calculations allow users to accurately measure complex particles that other particle analyzer struggle to accurately characterize
- Seamless transition from wet to dry measurement reduces down time
- Fixed detectors provide rugged durability and assure proper positioning
- Small bench footprint reduces demand on valuable laboratory space
Particle Size and Shape Analyzer S3500 Reviews from our customers
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Typical Applications
Used in various fields such as: beverages, biotechnology, chemicals, food, medicine / pharmaceuticals, metal powders, metals, pigments, ...
chemicals
battery materials
powders
To find the best solution for your particle characterization needs, visit our application database
Particle Size Analyzer S3500 Technical Data
| Measuring range | 0.02 µm - 2.8 mm |
|---|---|
| Measuring principle | Laser diffraction |
| Lasers | 3x Red 780 nm |
| Laser power | 3 mW nominal |
| Detection system | Two fixed photo-electric detectors with logarithmically spaced segments placed at correct angles for optimal scattered light detection from 0.02 to 165 degrees using 151 detector segments. |
| Data | Volume, number and area distributions as well as percentile and other summary data |
| Data format | Stored in ODBC format in encrypted Microsoft Access Databases to ensure compatibility with external statistical software applications. |
| Data integrity | Data integrity may be ensured using FDA 21 CFR Part 11 compliant security features including password protection, electronic signatures and assignable permissions |
| Measuring time | ~ 10 to 30 seconds |
| Power requirements | AC input: 90 - 132 VAC, 47 - 63 Hz, single phase 200 to 265 VAC, 47 - 63 Hz, single phase |
| Power consumption | 25 W nominal, 50 W max. (depending on options installed) |
| Environmental conditions | Temperature: 5° to 40° Celsius (50° to 95° Fahrenheit) Humidity: 90% RH, non- condensing maximum Storage temperature: -10° to 50° Celsius (14° to 122° Fahrenheit) (dry only) Pollution: Degree 2 |
| Physical specifications | Case Material: Steel and impact resistant plastic Exterior surfaces are finished with corrosion resistant paint or plating |
| Dimensions (W x H x D) | ~ 560 x 360 x 460 mm (22 x 14 x 18 in) |
| Weight | ~ 27 kg (60 lbs ) |
| Eductor air supply | 100 psi (689 kPa) maximum pressure 5 CFM (8,5 m3/h) at 50 psi (345 kPa) minimum flow rate Free of dry contaminants, moisture and oil |
| Vacuum | Vacuum must exceed 50 CFM |
Particle Size Analyzer S3500 Downloads
Product data sheet S3500
Product Overview
10 Most Common Errors in Particle Analysis - And How to Avoid Them
Particle analysis is an integral part of the quality control of bulk materials and is routinely performed in numerous laboratories. The methods used have often been established for years and are hardly ever questioned. Nevertheless, the procedure should be critically reviewed from time to time because a whole series of sources of error can negatively influence the results of a particle analysis. This white paper is intended to provide food for thought to make methods for particle characterization more reliable and accurate.
21 CFR Part 11 Compliance Matrix for Microtrac Instruments
This document explains how Microtrac FLEX software has been designed to satisfy and comply with regulations in 21 CFR Part 11 for electronic records and electronic signatures.
A Conceptual, Non-Mathematical Explanation on the Use of Refractive Index in Laser Particle Size Measurement
An explanation of Mie scattering and how Microtrac laser diffraction analyzers evaluate scattering signal from small particles.