LV860 LEVEL SENSOR

7.Minimum sensor

Turn the potentiometer screw clockwise until the LED extinguishes. Then slowly turn counterclockwise (+) until the LED indicates.

Adjust the screw a further full turn clockwise (-) to compensate for any tolerance.

8.Maximum sensor

Turn the potentiometer screw clockwise until the LED indicates. Then slowly turn counterclockwise (+) until the LED extinguishes.

Adjust the screw a further full turn counterclockwise (+) to compensate for any tolerance.

9.Replace and tighten the female plug.

10.Replace the clamping piece and bushing in the female plug.

11.Tighten the cable gland nut (PG9).

The Level Sensor is now connected, adjusted and ready for operation.

5 - Operating Difficulties

Problem: The level sensor fails to operate correctly.

Solution:

-Drop medium level below the sensor.

-Remove the level sensor.

-Clean the sensor probe carefully.

The level sensor may be steam-cleaned.

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Omega Engineering LV860 manual Operating Difficulties, Minimum sensor, Maximum sensor, Solution

LV860 specifications

Omega Engineering's LV860 is an advanced and versatile precision measurement instrument designed primarily for the intricate field of temperature monitoring and control. With its robust features and innovative technologies, the LV860 has carved a niche for itself in both industrial and scientific applications.

One of the standout features of the LV860 is its multi-channel capability. This allows users to monitor multiple temperature sources simultaneously, making it ideal for environments where monitoring various locations is essential. The instrument supports a wide range of temperature sensors, including thermocouples, RTDs, and thermistors, providing flexibility and adaptability to different applications.

The LV860 is equipped with a high-resolution LCD display that offers a clear and intuitive interface for data visualization and real-time monitoring. Users can effortlessly navigate through the menu to access various settings and configurations, ensuring that they can customize the instrument to their specific requirements. The data logging capability is another significant advantage, as it enables users to record temperature variations over time, which can be crucial for quality control and analysis.

In terms of connectivity, the LV860 features USB and Ethernet options. This allows for easy data transfer to computers and integration into larger automated systems. The instrument is also compatible with various software solutions, providing users with advanced analysis tools and the ability to create comprehensive reports.

One of the key technologies embedded in the LV860 is signal conditioning, which enhances measurement accuracy and reliability. The device incorporates advanced algorithms that filter out noise and improve the precision of the readings. Additionally, the LV860 can be calibrated easily, ensuring that measurements remain within specified tolerances over time.

Another notable characteristic of the LV860 is its rugged design, making it suitable for harsh industrial environments. Its robust housing protects it from physical impact, moisture, and dust, ensuring lasting performance in challenging conditions.

In conclusion, Omega Engineering's LV860 is a state-of-the-art temperature measurement instrument characterized by its multi-channel capability, high-resolution display, advanced connectivity options, and excellent durability. Its combination of versatility and accuracy makes it an invaluable asset in various industries, including manufacturing, research, and quality assurance. Whether for critical control processes or data logging applications, the LV860 stands out as a reliable choice for temperature measurement needs.