Labotronics electronic analytical balance is a precision weighing instrument utilizing advanced electronic technology. Designed for accurate measurement of mass, it employs a high-resolution sensor and digital display for precise readings. This balance is crucial in scientific laboratories, pharmaceuticals, and research settings, ensuring meticulous weighing of substances for experiments and formulations. Its electronic components enhance speed and precision, offering a reliable tool for precise analytical work, where even minute quantities matter. The device is equipped with features such as tare functionality and user-friendly controls, facilitating efficient and error-free measurements in diverse scientific applications.
Capacity |
200 g |
Readability |
0.0001g |
Linearity error |
±0.0003 g |
Calibration type |
External |
Capacity |
120 g |
Readability |
0.0001g |
Linearity error |
±0.0003 g |
Calibration type |
External |
Capacity |
320 g |
Readability |
0.0001g |
Linearity error |
±0.0003 g |
Calibration type |
External |
Capacity |
300 g |
Readability |
0.0001g |
Linearity error |
±0.0003 g |
Calibration type |
External |
Labotronics classic electronic balance is a precise weighing instrument commonly used in laboratories and scientific research. It operates on the principle of electromagnetic force compensation, offering accurate measurements of mass. These balances feature a digital display for easy reading and typically have a range of capacities and readability options to suit various applications. They are known for their reliability and repeatability, ensuring consistent results. Classic electronic balances often include features like tare functionality, calibration modes, and overload protection. They are essential tools for tasks that demand precision, such as chemical analysis, quality control, and formulation in diverse scientific disciplines.
Weighing capacity |
100 g |
Minimum weighing |
0.01 g |
Pan size |
130 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
500 g |
Minimum weighing |
0.01 g |
Pan size |
130 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
2000 g |
Minimum weighing |
0.1 g |
Pan size |
160 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
600g |
Minimum weighing |
0.01 g |
Pan size |
130 mm |
Operational temperature |
5 °C - 25 °C |
Our hydrostatic balances, also known as hydrostatic weighing systems, are specialized instruments used for determining the density and volume of objects, especially in underwater or buoyant conditions. They operate on the principle of Archimedes' buoyancy theory, which states that an object submerged in a fluid experiences an upward buoyant force equal to the weight of the fluid displaced. Hydrostatic balances consist of a submerged platform and a precision weight measurement system. When an object is placed on the platform, it displaces an amount of fluid equal to its volume. The hydrostatic balance measures the buoyant force exerted on the object, allowing for precise determination of its density and volume. Our instruments find applications in fields like material science, archaeology, and geology, where accurate density and volume measurements are essential for research and analysis, particularly for objects that cannot be measured using conventional methods.
Weighing capacity |
5000 g |
Minimum weighing |
0.1 g |
Pan size |
165 * 165 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
200 g |
Minimum weighing |
0.01 g |
Pan size |
165 * 165 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
500 g |
Minimum weighing |
0.01 g |
Pan size |
165 * 165 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
2000 g |
Minimum weighing |
0.1 g |
Pan size |
165 * 165 mm |
Operational temperature |
5 °C - 25 °C |
Our double-beam balance is a mechanical weighing instrument used for precise measurements of mass in scientific and laboratory settings. It consists of two parallel beams, with a pan suspended from each end. The object to be weighed is placed on one pan, and calibrated weights are added to the other pan until equilibrium is achieved, allowing accurate measurement of the object's mass. Double-beam balances offer high precision and readability, often featuring Vernier scales and sliding weights for fine adjustments. They are known for their durability and are resistant to external influences, making them suitable for various applications, including chemical analysis, educational purposes, and quality control. Our instruments provide reliable results, ensuring the integrity of scientific research and laboratory work.
Capacity |
2000 g |
Division |
0.1 g |
First rod |
10 × 0.1 g |
Second rod |
500 × 100 g |
Our ordinary electronic balance, widely used in laboratories and various applications, is a precise weighing instrument that operates based on electromagnetic force compensation. These balances feature a digital display for reading measurements, and they come in different capacities and readability options to suit various needs. They offer high accuracy and repeatability, ensuring consistent and reliable results. Typical features include tare functionality for zeroing out containers, calibration modes for accuracy verification, and overload protection to prevent damage. Our ordinary electronic balances are essential tools for tasks requiring accurate measurements, including chemical analysis, formulation, and quality control, playing a critical role in ensuring the precision and reliability of scientific experiments and industrial processes.
Weighing capacity |
200 g |
Minimum weighing |
1 mg |
Pan size |
80 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
10000 g |
Minimum weighing |
0.1 g |
Pan size |
165 × 165 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
3000 g |
Minimum weighing |
0.1 g |
Pan size |
165 × 165 mm |
Operational temperature |
5 °C - 25 °C |
Weighing capacity |
5000 g |
Minimum weighing |
0.1 g |
Pan size |
165 × 165 mm |
Operational temperature |
5 °C - 25 °C |