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Digital Automatic Refractometer LMDR-501 offers refractive index range of 1.3000 to 1.7000 (nD) for various sample analysis. It is capable of measuring sugar concentration, honey moisture, and salinity with high efficiency. Equipped with a 7-inch color touchscreen for effortless navigation and intuitive operation. Integrated with USB, RS232, Ethernet, SD card, and U disk for flexible data transfer. Our Digital Automatic Refractometer is designed with compact and lightweight structure for convenient placement and portability.
Specifications
| Radius | 1.3000 to 1.7000(nD) |
| Resolution | 0.0001(nD) |
| Precision | ±0.0001 |
| Brix Measuring Range | 0 to 100% (Brix) |
| Brix Measuring Accuracy | ±0.01% (Brix) |
| Test Mode | Refractive index / sugar content/honey moisture/ salinity |
| Temperature Control Mode | Peltier-based system |
| Temperature Range | 0℃ to 100℃ |
| Temperature Control Range | 5℃ to 65℃ |
| Temperature Stability | ±0.03℃ |
| Display | 7-inch touch color screen |
| Light Source | LED |
| Wavelength | 589nm |
| Prism Material | Sapphire class |
| Sample Cell | Stainless steel |
| Detection Mode | Linear CCD |
| Output Mode | USB, RS232, Ethernet interface, SD card, U disk |
| Connectivity | Wireless Wi-Fi |
| Printer | Wireless Laser Printing |
| Power Supply | 220V/50Hz |
| Dimension | 300×350×150 mm |
| Gross Weight | 5 kg |
Pricing
| Product | Price | Unit | Action |
|---|---|---|---|
| Digital Automatic Refractometer LMDR-501 | $ 7125 | Each of 1 |
Features
Peltier-Based Thermal Control
Sapphire-Class Prism
Stainless Steel Sample Cell
Optical LED light source
Linear CCD Detection
Wireless Laser Printing
Low Power Consumption
Applications
Digital Automatic Refractometer LMDR-501 is essential for honey moisture and sugar content analysis in agriculture and aids in formulation testing, concentration measurement, and purity analysis in pharmaceuticals.
Frequently Asked Questions
1 What is a Digital Automatic Refractometer?
A Digital Automatic Refractometer is an apparatus designed to measure the refractive index of liquids or solids digitally and automatically, improving accuracy and reducing user intervention.
2 How does Digital Automatic Refractometer work?
It works by shining light through a sample and measuring how it bends, or refracts.
3 How is Digital Automatic Refractometer used in the food and beverage industry?
It is used in the food and beverage industry to measure sugar content (Brix), concentration of juices, soft drinks, sauces, and other liquid products.
4 How can Digital Automatic Refractometer help in pharmaceutical formulation?
It helps in pharmaceutical formulation by accurately measuring the concentration of solutions, verifying the purity of compounds, and supporting compliance with regulatory standards.
5 What role does Digital Automatic Refractometer play in environmental monitoring?
It plays a role in environmental monitoring by analyzing water quality, chemical runoff, and wastewater characteristics, helping to assess pollution levels and chemical concentrations.
6 Is Digital Automatic Refractometer applicable in quality control of cleaning products?
It is applicable in the quality control of cleaning products by measuring the concentration of active ingredients like surfactants and solvents.
7 What is the use of Digital Automatic Refractometer in agriculture?
It is used in agriculture to test the ripeness and sugar content of fruits and vegetables, aiding in harvest decisions and crop evaluation.
8 How is Digital Automatic Refractometer applied in the testing of industrial lubricants?
It is applied in testing industrial lubricants to monitor consistency, contamination, and degradation by checking refractive index values.
9 Can Digital Automatic Refractometer be used in the dairy processing industry for milk standardization?
It is used in the dairy processing industry for milk standardization.
10 How does Digital Automatic Refractometer assist in monitoring the fermentation process?
It assists in monitoring fermentation by measuring sugar depletion and alcohol formation to track progress and endpoint.