Photometer

Labtro Photometer provides precise absorbance measurements with high accuracy for reliable results. Their compact design makes it ideal for limited laboratory spaces, enhancing efficiency. With a user-friendly interface, simplifies operation and data management tasks. These device supports various applications in environmental testing, clinical analysis, and quality control. Our Photometer are including Aerosol Photometer, Digital Flame Photometer.

  • Aerosol Photometer LT-AP201

    • Dynamic Range: Up to 600 μg/L
    • Sensitivity: 1% of reading in ≥ 0.01 to 100%
    • Repetitiveness: 0.5% of reading in ≥ 0.01 to 100%
    • Automatic Range: 0.0001% to 100.0% (automatic switching)
    • Supported Aerosol Solutions: PAO, DEHS, Ondina
  • Flame Photometer LT-FP102

    • Test Element: K/Na/Li/Ca
    • Channel: 4
    • Limit of Detection (LOD): K: ≤0.156 ppm
    • Linear Error: K: ≤0.195 ppm
    • Test Range: K: 0.15 to 100 ppm
  • Flame Photometer LT-FP101

    • Test Element: K/Na/Li/Ca/Ba
    • Channel: 5
    • Limit of Detection (LOD): K: ≤0.156 ppm
    • Linear Error: K: ≤0.195 ppm
    • Test Range: K: 0.15 to 100 ppm
  • Flame Photometer LT-FP103
    • Test Element: K/Na/Ca
    • Channel: 3
    • Limit of Detection (LOD): K: ≤0.156 ppm
    • Linear Error: K: ≤0.195 ppm
    • Test Range: K: 0.15 to 100 ppm
  • Flame Photometer LT-FP104
    • Test Element: K/Na/Li
    • Channel: 3
    • Limit of Detection (LOD): K: ≤0.156 ppm
    • Linear Error: K: ≤0.195 ppm
    • Test Range: K: 0.15 to 100 ppm
  • Flame Photometer LT-FP105

    • Test Element: K/Na
    • Channel: 2
    • Limit of Detection (LOD): K: ≤0.156 ppm
    • Linear Error: K: ≤0.195 ppm
    • Test Range: K: 0.15 to 100 ppm
  • Flame Photometer LT-FP106

    • Test Element: K/Na
    • Channel: 2
    • Limit of Detection (LOD): K: ≤0.156 ppm
    • Linear Error: K: ≤0.195 ppm
    • Test Range: K: 0.15 to 100 ppm

Frequently Asked Question

1. What is a Photometer?

A Photometer is an instrument used to measure the intensity of light or concentration of substances based on light absorption.

2. How does a Photometer work?

It works by passing light through a sample and measuring how much light is absorbed or transmitted.

3. What is a Photometer used for?

Photometers are used for water quality testing, chemical analysis, clinical diagnostics, and environmental monitoring.

4. What are the benefits of using a Photometer?

Photometers offer quick, accurate, and repeatable results for analyzing sample concentration.

5. What industries use Photometers?

Photometers are commonly used in laboratories, water treatment plants, healthcare, food processing, and environmental agencies.