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| Number of Samples | 260 |
| Analysis Mode | Energy spectrum |
| Sample Feeding Method | Automatic conveyor belts |
| Sample Containers | 20ml standard bottle |
| Multi-channel Analyser | 2 × 2048 channels |
| Temperature Control Devices | System built-in |
| Energy Range | α: 3 to 10 MeV; β: 0 to 5 MeV |
| Recovery Efficiency | 14C: more than equal to 95% |
| Background | less than 2.0 cpm (20 ml containing 40% water,3H efficiency>25%), 3H (0 to 18.6 keV<20 cpm;14C (0 to 156keV) less than 25cpm. |
| Lower Detection Limit | 1.5 Bq/L (12 ml scintillation solution + 8 ml tritium water sample measured for 1000 min) |
| Memory 14C | Depends on the equipped computer |
| Standard Storage | 2GB |
| Hard Drive | 320GB |
| Built-in Storage | Not available (Requires connection to a computer) |
| Consumables | 10L Ultima GOLD LLT Scintillation Fluid Unquenched standard source (One bottle each of 3H, 14C and Background) 3H Series Quench Standard Source 14C Series Quench Standard Source |
| 24h Instability | Count change less than 0.2%/24h |
| Energy Resolution | 0.01 keV/ch (³H) |
| Operating Temperature | 5°C to 35°C |
| Operating Humidity | 30% to 80% (25°C, no frosting) |
| Communication Methods | USB, RJ45 |
| Power Supply | AC 220V ±10%, 50Hz ±10% |
| Power | Mainframe 200W, temperature control system 500W |
| Dimension | 1245 × 900 × 1145 mm |
| Packaging Dimension | 1300 × 1020 × 1450 mm |
| Net Weight | 380 Kg |
| Gross Weight | 520 Kg |
Dual multi-channel analysis technology
Supports double marker separation
Provides automatic sample exchange
Advanced data processing
Logarithmic and linear spectrograms
Liquid Scintillation Counter LSCL-A10 accurately measures low levels of ³H and ¹⁴C and monitors radioactive effluents from nuclear power plants.
Accessories Name | Specification | Quantity (Pcs/set/ bottle) |
10-position sample holder | Auto sampler | 26 pcs |
Control & analysis software | Spectral acquisition and analysis | 1 set |
All-in-one PC | 23” | 1 set |
Power line | 1.5m | 1 pcs |
Polyethylene bottle | 20ml | 20 pcs |
Samplers and pipettes | 5ml | 1 pc |
Antistatic fluid | 500ml | 1 bottle |
Consumable Names | Quantity |
20 ml Polyethylene Bottle | 1000 pcs |
20 ml Low Potassium Glass Bottle | 500 pcs |
20 ml PTEE Coated Plastic Bottle | 100 pcs |
Download catalog for
Liquid Scintillation Counter LSCL-A10 Catalog
Labtron Liquid Scintillation Counter features dual-position machine control for separate sample handling and measurement. They offer versatile modes like count, DPM measurement, and Quenched sample measurement with quench correction. They have a spectrum analyzer to identify various types of radiation. Our Liquid Scintillation Counter have high sample capacity and strong data processing capabilities.
The Labtron LSCL-A10 is a versatile and efficient liquid scintillation counter designed for high-precision radiation measurements. It can process up to 260 samples at a time, making it suitable for large-scale experiments. The system operates in energy spectrum analysis mode, providing an in-depth analysis of sample properties. Samples are stored in 20ml standard bottles, ensuring compatibility with most laboratory setups. The LSCL-A10 employs advanced 3+3 coincidence and anti-coincidence detection techniques, paired with the TDCR quench correction technique to ensure accurate and reliable results. Additionally, the system supports both relative and absolute measurements, which can be scaled without requiring a standard source, offering flexibility in various research applications.
The LSCL-A10 uses a combination of advanced detection technologies to achieve high precision in measurements. It features 3+3 coincidence and anti-coincidence detection techniques, which help reduce background noise and enhance the accuracy of radiation detection. Additionally, the TDCR quench correction technique is employed to account for any quenching effects that could interfere with the measurement, ensuring that the system provides accurate readings even in challenging conditions. This powerful combination of technologies allows researchers to confidently measure the radiation levels in various samples, such as alpha and beta nuclides, with high reliability.
The LSCL-A10 supports both relative and absolute measurements, offering flexibility in data analysis. Relative measurements involve comparing the sample's radiation level to known standards or previously measured samples, while absolute measurements involve direct quantification of a sample's radiation without the need for comparison to other sources. Both types of measurements can be scaled, which means that researchers can adjust the system to accommodate different sample types or radiation levels without needing a standard source. This makes the LSCL-A10 suitable for a wide range of applications, from environmental monitoring to radiopharmaceutical research.
Yes, the LSCL-A10 is highly automated and can be programmed for unattended measurements. This allows researchers to set up multiple tasks and run them simultaneously, increasing productivity and reducing the need for constant monitoring. The system performs fully automatic sample exchange, enabling continuous multi-tasking without manual intervention. Researchers can configure the system to process up to 260 samples in one batch, making it ideal for high-throughput environments. The ability to perform continuous measurement and manage multiple tasks simultaneously is a key feature that enhances the efficiency of the LSCL-A10 in research and analytical labs.
The LSCL-A10 is equipped with powerful data processing capabilities to analyze and process the results of radiation measurements. It offers both automatic and manual modes for calculating critical parameters such as peak area, count rate, and detection efficiency. The system also provides logarithmic and linear spectrograms, allowing researchers to choose the most suitable method for visualizing and interpreting the data. Additionally, the pre-programmed database of 70 nuclides ensures that the system can handle a wide range of experimental applications. If required, the database can be expanded to include additional nuclides, providing further flexibility for specialized research.
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Labtron Equipment Ltd., Quatro House, Lyon Way, Camberley, Surrey GU16 7ER United Kingdom
Email: info@labtron.com Whatsapp: +44 73 4441 2688 Phone: +44 2080 043608
