TLD Cube

Compact and Precise TLD Reader

The TLD Cube is a versatile and user-friendly manual TLD reader designed for the measurement, analysis, and evaluation of thermoluminescent (TL) materials. With a modern, lightweight design and advanced software, it delivers highly accurate dosimetry results while ensuring ease of use in radiation monitoring applications.

Key Features

• Compact and Portable:  Small, lightweight design with a carrying case for easy transport.
• Advanced Heating Technology: Available in two models: TLD Cube 400 (max 400°C) and TLD Cube 700 (max 700°C) with precise temperature control (±1 K).
• Flexible Sample Compatibility: Accepts chips, rods, discs, and loose powder with an exchangeable stainless-steel base plate.
• High-Precision Measurements: Features a sealed measuring chamber with nitrogen purging and a thermoelectrically stabilized PMT detector (230-700 nm).
• Efficient Data Management: Windows software with calibration and QA features, plus data export to XML or Excel for streamlined reporting.
• Multiple Applications: Ideal for personnel dosimetry, radiation protection, environmental research, radiation therapy quality control, experimental physics, and food irradiation monitoring.

Technical Specifications

• Heating Control: Adjustable linear ramps (up to 20 K/s)
  
• Readout Accuracy: ±1% S.D. over multiple readings
  
• Signal Processing: 24-bit full digital evaluation system
  
• Optical Filters: KG3 + BG 25 (optional neutral density filter)
  
• Power Supply: 100-240V, 50-60 Hz | Consumption – 200 VA
  
• Data Output: LAN connection to PC
  
• Shielding and Cooling Gas: Requires nitrogen (approx. 300 ml per measurement)
  
• Dimensions: 15 cm x 15 cm x 29 cm | Weight – ~6.7 kg
  

Why Choose TLD Cube?

Whether in a research lab, medical facility, or radiation protection setting, the TLD Cube ensures highly accurate, repeatable, and efficient TLD readouts. Its state-of-the-art design and software make it the perfect solution for professionals seeking precision and reliability in thermoluminescent dosimetry.