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Analytical Balance EZL-AB103 offers precise measurements with a capacity range from 0 to 310g, ensuring accurate weight determination. It has a high-stability mode that ensures consistent and reliable measurements, minimizing fluctuations for enhanced accuracy. Our balance offers automatic data output after each weighing, simplifying data collection. This offers a readability of 1mg, ensuring precise measurements for accurate weighing tasks.
Capacity | 0 to 310 g |
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Readability | 1mg |
Linearity | ±3mg |
Repeatability | ±2 mg |
Stability Time | ≤2s |
Working Temperature | 15 to 35 °C |
Pan Size | Φ110mm |
Output Interface | RS232 |
Calibration Mode | External calibration |
Power Supply | AC 110 to 240 V/DC9V |
Dimensions(L×W×H) | 28×18×28cm |
Weight | 3300 g |
Analytical Balance EZL-AB103 is applied for the precise weighing of samples in laboratories, pharmaceuticals, and educational institutions. It is commonly used for formulation, quality control, and analytical testing.
Ezilab Analytical Balance includes a magnetic sensor that detects magnetic field changes and converts them into a readable output. Their bubble level feature ensures accuracy by helping users achieve proper leveling. They operate on a power supply ranging from AC to DC, accommodating a wide voltage range. The RS232 communication ensures reliable data transfer and easy integration with other devices and systems. Our Analytical Balance ensures rapid stabilization, enabling quick and accurate measurements for improved workflow efficiency.
Ezilab Precision Balance includes piece-counting function that provides precise measurement of individual item quantities by reducing measuring errors. Their intelligent calibration enhances measurement accuracy, ensuring consistent results. The large pan allows weighing of larger samples, improving its versatility and measurement capability. They ensure accurate measurements by necessary stabilization time before recording results. Our Precision Balance has adjustable feet for stabilizing uneven surfaces and improving accuracy.