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Automated Pipetting System

An automated pipetting system, also known as an automated liquid handling system, is a sophisticated laboratory instrument designed to accurately and precisely dispense and aspirate liquids in a high-throughput and automated manner. These systems are used in a wide range of applications, including genomics, drug discovery, clinical diagnostics, and analytical chemistry. Here are some key features and uses of automated pipetting systems:
Liquid Handling: Automated pipetting systems are capable of handling various types of liquids, including reagents, samples, and solvents. They can accurately dispense specific volumes with high precision, reducing the risk of human error and variability in manual pipetting.
High Throughput: These systems are designed for high-throughput applications, allowing for the rapid processing of multiple samples in a short amount of time. This is particularly valuable in research, diagnostics, and drug discovery laboratories.
Customizable Protocols: Users can program the automated pipetting system to execute specific protocols, such as serial dilutions, plate replication, and sample transfers. This flexibility enables the system to adapt to a wide range of experimental needs.
Multiple Pipetting Modes: Automated pipetting systems can perform various pipetting modes, including single-channel, multi-channel, and even 96-channel or 384-channel pipetting. This versatility is essential for accommodating different lab workflows and plate formats.
Accuracy and Precision: These systems offer consistent accuracy and precision, which is vital for applications that require highly reproducible results, such as quantitative PCR (qPCR) and next-generation sequencing (NGS).
Reduced Contamination Risk: Automation minimizes the risk of cross-contamination, as disposable tips can be used and changed for each sample or reagent, preventing carryover between samples.
Integration with Other Equipment: Automated pipetting systems can often be integrated with other laboratory equipment, such as plate readers, incubators, and liquid handlers, to create a fully automated workflow.
Sample Tracking and Data Management: Many systems include software for sample tracking and data management, helping to keep records of the pipetting steps and the samples processed.
Liquid Sensing: Some systems are equipped with liquid level sensing and detection capabilities to ensure that the correct volumes are dispensed even when dealing with variable liquid levels.
User-Friendly Interfaces: These systems typically feature user-friendly software interfaces, making it easier to program and operate, even for individuals with varying levels of laboratory experience.
Compliance and Validation: In regulated industries, automated pipetting systems are designed to comply with regulatory requirements and often come with validation documentation to ensure data integrity and reliability.
Automated pipetting systems play a crucial role in various laboratory settings where precision, speed, and reproducibility are essential. They are especially valuable in genomics, drug discovery, clinical diagnostics, and high-throughput screening applications, where the efficient handling of liquids and samples is critical to the success of experiments and research.
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Zhejiang ZSup Medical Technology Co., Ltd.

Zhejiang ZSup Medical Technology Co., Ltd was established in 2018, Is a Automated Pipetting System Manufacturers and Automated Pipetting System Suppliers, by expert Teams of mold manufacturing, polymer materials, biomedicine, and IOT. We produce high-quality laboratory consumables in GMP qualified 100,000-level cleanliness level purification workshop. We also undertake manufacture of high-precision injection mold, customized bio supplies. We strive to provide one-stop solutions to our customers.
Manufacture of high-precision mold: Technical team own excellent experiences in producing of high-precision molds for bio supplies, particularly for thin-walled, multi-cavity, high-speed injection molds.
Manufacture of injection molding products: Top level production of laboratory supplies by world class QC and QA management, including
· General consumables: centrifuge tubes, tips, PCR, cell culture products, etc.;
· Customized consumables: all kinds of automated special biological experiment consumables;
· OEM customization: sharing equipment, molds, production lines, and available for OEM manufacture.
We offer a great balance of quality and affordability, while maintaining high-quality standards by leveraging economies of scale, optimizing production processes, and sourcing materials.

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How does the Automated Pipetting System ensure high precision and accuracy of liquid transfer?

Automated Pipetting Systems play a vital role in biological laboratories, chemical analysis, and drug development. One of its most critical characteristics is to ensure high precision and accuracy of liquid transfer. In order to achieve this goal, the system integrates a variety of advanced technologies and strict operating procedures.
First of all, the system adopts precision mechanical design to ensure that every step of the operation reaches micron-level accuracy. Core components such as stepper motors, transmission mechanisms and guide systems have been manufactured and tested strictly to ensure stability and durability during long-term operation. This design ensures precise alignment of the tip and liquid container, reducing liquid transfer deviations due to mechanical tolerances.
Secondly, the Automated Pipetting System is equipped with advanced liquid sensing technology. Liquid level sensors and weight sensors can monitor the presence and volume of liquid in real time and provide accurate feedback data to the control system. These sensors are highly sensitive and stable, maintaining stable performance even in complex environments. Through real-time monitoring and precise control, the system can avoid excessive or insufficient liquid transfer, ensuring the accuracy and reliability of experiments.
In addition, the system uses a precise liquid distribution algorithm. These algorithms perform complex calculations based on the physical properties of the liquid, the shape and size of the tip, and environmental factors to arrive at optimal aspiration and discharge speeds and durations. These algorithms have been verified and optimized through multiple experiments to achieve precise liquid transfer under various conditions.
In addition to hardware and algorithm support, regular calibration and maintenance are key to ensuring high precision and accuracy. The system regularly performs tip calibration, liquid sensor calibration, and system parameter adjustment to ensure that each component is in optimal condition. At the same time, a professional maintenance team will regularly conduct comprehensive inspections and maintenance of the system to ensure long-term and stable operation of the system.
Finally, user operation training is also an important part of ensuring high precision and accuracy. Although the Automated Pipetting System has a high degree of automation, correct operation is still the key to ensuring the success of the experiment. Therefore, system suppliers provide comprehensive user training, including correct tip selection, sample preparation, program setup, and solutions to common problems. Through training, users can master the operation methods of the system, reduce human errors, and improve the accuracy and reliability of experiments.
To sum up, the Automated Pipetting System ensures high precision and accuracy through comprehensive measures such as precision mechanical design, advanced liquid sensing technology, precise liquid distribution algorithm, regular calibration and maintenance, and user operation training. of liquid transfer. This makes the system an indispensable tool in biological laboratories and other scientific research fields, providing researchers with a reliable and efficient liquid handling solution.