High Accuracy 0-100NTU Lower Tubidity Sensor For Tap Water

High accuracy 0-100NTU lower Tubidity sensor for Tap water

Daruifuno OLTU601: Revolutionizing Turbidity Monitoring with Laser Precision

The Daruifuno OLTU601 stands as a groundbreaking innovation in liquid turbidity measurement, integrating a cutting-edge laser flow-through sensor with a built-in display. This sophisticated instrument delivers immediate, on-screen access to turbidity or suspended particle concentration data, removing the necessity for auxiliary devices. Operators can effortlessly monitor exact measurement values, units, and essential information directly on the integrated screen.

Mechanism Explained: Advanced Laser Scattering Principles

Fundamentally, the OLTU601 operates on the well-established principle of laser light scattering. A focused laser beam is directed through the liquid sample under analysis. When suspended particles present in the liquid interact with this laser, they induce light scattering. A high-precision light receiver then meticulously quantifies the intensity of this scattered light. The direct proportional relationship between the intensity of scattered light and the concentration of suspended particles guarantees highly precise and dependable measurements.

Unmatched Sensitivity and Optimized User Interaction

Elevating the benchmark for turbidity sensing, the Daruifuno OLTU601 delivers superior sensitivity and accuracy, surpassing the capabilities of conventional sensors. Its reliance on the distinct properties of laser beams enables exceptionally accurate readings, even at extremely low turbidity levels. The integrated display significantly enhances user convenience, providing an intuitive platform for real-time data visualization, thereby streamlining operational procedures and data acquisition processes.

Technical Parameters

Daruifuno OLTU601: Advanced Laser Flow Turbidity Sensor

The Daruifuno OLTU601 flow turbidity sensor leverages a sophisticated laser light scattering principle for highly precise liquid turbidity measurements. It works by directing a 660nm laser vertically into the water sample. When this laser light encounters suspended particles, it scatters. An integrated silicon photocell receiver, submerged in the water, accurately detects this scattered light at a 90° angle relative to the original laser beam, allowing for precise turbidity calculations.

Discover the Power of Compact Turbidity Monitoring: OLTU601 & OLTU600 Series
In today's demanding industrial and environmental landscapes, precise and efficient turbidity measurement is paramount. Introducing the OLTU601 and OLTU600 series, a line of advanced turbidity sensors designed to deliver exceptional performance in a compact, user-friendly package. These instruments are engineered to meet the challenges of diverse applications, from water treatment plants to process control in various industries.

• Key Benefits & InnovationsThe OLTU series stands out with its innovative design and feature set, addressing critical needs for modern monitoring systems
• Space-Saving Design: The miniaturized form factor of the OLTU601 and OLTU600 makes them ideal for installations where space is at a premium. Their compact footprint ensures seamless integration into existing setups without requiring extensive modifications.
• Superior Laser Performance: At the core of their accuracy is the 660nm laser technology. This advanced high-resolution laser system ensures rapid response times and exceptional precision, allowing for the effective monitoring of even subtle changes in turbidity.
• Reduced Operational Burden: Minimizing downtime and labor is crucial. With optional features like a viewing window and an automatic emptying system, these sensors significantly lower maintenance requirements, directly translating to enhanced operational efficiency and reduced costs.
• Eco-Conscious Operation: The OLTU series is designed with efficiency in mind. Its low injection flow requirements translate into minimized sample waste, contributing to more sustainable operations and reducing disposal needs.
• Effortless Calibration & Portability: Experience true "plug and play" functionality. The OLTU601 boasts smart calibration with internal data storage, enabling offline calibration. This feature provides genuine on-site portability and simplifies deployment, saving valuable time.
• Reliable Sample Interaction: Engineered as a flow cell type, the integrated flow cell design of these turbidity probes guarantees consistent and reliable interaction with the sample, ensuring repeatable and accurate measurements every time.
• Intuitive On-Board Control (OLTU601): Specifically for the OLTU601 model, an integrated display provides real-time access to measurement parameters. This is complemented by three user-friendly buttons, making easy calibration and parameter adjustments straightforward and accessible directly at the sensor.
• Seamless Digital Integration (OLTU601/OLTU600): Both the OLTU601 and OLTU600 models are equipped with RS485 Modbus RTU communication. This digital connectivity allows for effortless integration into a wide range of control systems, ensuring data can be easily accessed and managed within your existing infrastructure.
• The OLTU601 and OLTU600 series redefine what's possible in turbidity sensing, offering a powerful combination of precision, efficiency, and ease of use.

Advantage

• Benefits of Digital Low Turbidity Sensors
  Digital low turbidity sensors offer significant advantages across various applications, delivering enhanced performance and operational efficiency.

• Superior Precision and Stability
  These sensors employ digital technology for both measurement and data processing, ensuring exceptional accuracy and consistent stability. This directly translates to highly reliable turbidity readings, essential for well-informed decisions.

• Real-time Monitoring and Comprehensive Data
  Digital sensors excel in real-time monitoring, providing instant updates on turbidity levels. They also offer robust data logging capabilities, facilitating thorough historical analysis. This continuous data flow is crucial for identifying trends, detecting sudden shifts, and implementing proactive control measures.

• Adaptable and Customizable
  A key benefit of digital sensors is their flexibility and programmability. Users can easily customize parameters such as measurement ranges, sensitivity, and sampling frequencies to perfectly align with their specific application needs. This adaptability ensures optimal performance across diverse operating conditions.

• Reliable in Harsh Conditions
  Digital sensors are engineered with strong interference resistance. This allows them to maintain stable performance even in complex or electrically noisy environments, minimizing the impact of external disturbances on measurement accuracy and ensuring dependable operation.

• Seamless Integration and User-Friendly Design
  Designed for modern systems, digital sensors typically feature standardized interfaces and communication protocols. This simplifies their integration with existing equipment and control systems. Additionally, their user-friendly interfaces streamline both installation and daily operation, making them accessible to a wider range of users.

• Optimized Resource and Cost Efficiency
  Investing in digital low turbidity sensors leads to long-term savings. They generally have lower maintenance costs and extended lifespans. The capability for remote monitoring and fault diagnosis also significantly reduces downtime, contributing to substantial overall cost and resource savings.

  In summary, digital low turbidity sensors provide an impressive combination of precision, stability, real-time insights, adaptability, and cost-effectiveness. These attributes make them an ideal solution for a wide array of applications requiring accurate turbidity measurement and continuous monitoring.

Low turbidity sensors are often used in environments where high sensitivity and accuracy are required. Some of these applications include:

• Drinking Water and Wastewater Treatment: In drinking water and wastewater treatment plants, low turbidity sensors are used to monitor the concentration of suspended particles and contaminants in water to ensure that water quality meets relevant standards.
• Pharmaceutical industry: In the pharmaceutical process, low turbidity sensors are used to monitor tiny particles and impurities in pharmaceutical solutions or injections to ensure product quality and purity.
• Winemaking industry: In the winemaking process, low turbidity sensors are used to monitor the concentration of microorganisms and suspended particles in the fermentation broth to ensure the quality and stability of wine products.
• Food Processing: During food processing, low turbidity sensors are used to monitor the concentration of suspended particles and impurities in food to ensure food safety and quality.
• Semiconductor Manufacturing: In the semiconductor manufacturing process, low turbidity sensors are used to monitor tiny particles and impurities in ultrapure water and chemical solutions to ensure the accuracy and stability of the chip manufacturing process.
• Biomedical Research: In biomedical research, low turbidity sensors are used to monitor the concentration and purity of cells, proteins, and other biomolecules in biological samples to support scientific experiments and diagnostic applications.