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Healthcare

Application of Y07-20D1-1002-01GZ-100 Lead Screw Stepper Motor in Fully Automated Biochemical Analyzers.
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Fully automated biochemical analyzers play a pivotal role in modern laboratories by providing high-throughput, accurate analyses of biological samples. These sophisticated machines require precise control of mechanical components to ensure reliable performance and accurate results. The Y07-20D1-1002-01GZ-100 lead screw stepper motor, with its high precision and reliable performance characteristics, is well-suited for integration into such systems. This article explores how the Y07-20D1-1002-01GZ-100 stepper motor enhances the functionality of fully automated biochemical analyzers.
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// OUR Application //

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High Precision and Accuracy

Biochemical analyzers require precise control over their mechanical movements to ensure accurate sample handling and analysis. The Y07-20D1-1002-01GZ-100 stepper motor features a stepping angle of 1.8°, allowing for fine resolution and precise step control. With a step length of just 0.005mm, this motor can achieve very small increments in movement, making it ideal for applications that require high precision. This level of accuracy is crucial for tasks such as positioning sample containers, adjusting reagent dispensers, and moving optical components.
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Robust Mechanical Performance

The Y07-20D1-1002-01GZ-100 motor is designed to handle the rigorous demands of automated biochemical analysis. It operates at a rated voltage of 24V DC and a rated current of 0.6A, which provides the necessary power for smooth and reliable operation. The motor’s inductance of 3±20% mH and resistance of 9±15% Ω contribute to its stable performance, ensuring consistent motion and minimal electrical noise. Additionally, the holding torque of 22mN.m ensures that the motor can maintain its position under load, which is vital for maintaining the accuracy of the analyzer's movements.
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Durability and Reliability

In a laboratory setting, equipment must endure frequent use and varying environmental conditions. The Y07-20D1-1002-01GZ-100 stepper motor is built with durability in mind, featuring Class B insulation and an insulation resistance of 100MΩmin (500V DC). This construction ensures that the motor can withstand prolonged operation and exposure to potential contaminants or varying temperatures. The motor's weight of approximately 180g reflects its robust design, contributing to its long-term reliability in demanding applications.
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Fine Control and Smooth Operation

The motor's ability to deliver precise control and smooth operation is essential for the accurate performance of biochemical analyzers. The small step length of 0.005mm allows for fine adjustments in mechanical positioning, which is critical for operations such as pipetting, sample transfer, and calibration. The motor's moment of inertia of about 3g.cm² ensures that it responds quickly to control signals and maintains stability during operation, reducing the likelihood of errors and improving overall system performance.
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Integration into Automated Systems

The Y07-20D1-1002-01GZ-100 stepper motor is well-suited for integration into fully automated biochemical analyzers due to its precise control capabilities and robust performance characteristics. Its ability to execute fine movements and hold positions reliably makes it an ideal choice for driving lead screws and other mechanical components within the analyzer. This integration enhances the overall efficiency and accuracy of the analyzer, contributing to more reliable test results and streamlined laboratory workflows.
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Conclusion

The Y07-20D1-1002-01GZ-100 lead screw stepper motor is a valuable component in fully automated biochemical analyzers, providing high precision, robust performance, and reliable operation.

Its features, including fine stepping control, durable construction, and smooth operation, make it an excellent choice for ensuring the accuracy and efficiency of automated biochemical testing processes.

By incorporating this stepper motor into their systems, manufacturers can enhance the performance of their analyzers, leading to improved test results and more efficient laboratory operations.