Campbell Scientific CS400 KPSI Series 169 Instruction Manual

Campbell Scientific CS400 KPSI Series 169 Sensor manual cover
Pages 18
Year 0
Language(s)
English en

Campbell Scientific CS400 KPSI Series 169 Sensor Specification

The Campbell Scientific CS400 KPSI Series 169 Sensor is a precision instrument designed to provide accurate pressure measurements for various environmental and industrial applications. This sensor employs a highly reliable piezoresistive sensing element, which ensures exceptional performance in monitoring groundwater and surface water levels, as well as other fluid measurement scenarios. The device is engineered for durability and long-term stability, featuring a robust stainless steel construction that is both corrosion-resistant and suitable for harsh environments.

The CS400 KPSI Series 169 is available in multiple pressure ranges, allowing users to select the optimal configuration for their specific needs. Its design minimizes errors due to thermal effects, offering a wide operating temperature range and temperature compensation to maintain accuracy under fluctuating conditions. The sensor provides an analog output, compatible with a variety of data loggers and data acquisition systems, facilitating seamless integration into existing monitoring setups.

The sensor's compact form factor and submersible capabilities make it ideal for deployment in remote and confined locations, enhancing its versatility across diverse applications. Its electrical connection options support straightforward installation and maintenance, ensuring minimal downtime and operational efficiency. With a focus on reliability and precision, the Campbell Scientific CS400 KPSI Series 169 Sensor is an invaluable tool for professionals requiring consistent and accurate pressure data in dynamic environments.

Campbell Scientific CS400 KPSI Series 169 Sensor F.A.Q.

How do I connect the CS400 KPSI Series 169 Sensor to a data logger?

To connect the CS400 KPSI Series 169 Sensor to a data logger, ensure you match the sensor's wiring to the corresponding channels on the data logger. Refer to the sensor's wiring diagram for specific color codes and connect them to the appropriate analog inputs, ground, and power supply on the data logger.

What is the recommended maintenance schedule for the CS400 KPSI Series 169 Sensor?

The recommended maintenance schedule for the CS400 KPSI Series 169 Sensor includes regular inspections every 6 months. Check for any signs of wear or damage to the cable and sensor housing, clean the sensor diaphragm gently with a soft brush and mild detergent, and verify calibration annually.

How can I troubleshoot a CS400 KPSI Series 169 Sensor that is not providing data?

First, check the power supply and ensure the sensor is receiving the correct voltage. Verify all connections between the sensor and the data logger. Inspect the cable for any damage. If the issue persists, perform a zero-point calibration to ensure the sensor's accuracy.

What is the maximum operating depth for the CS400 KPSI Series 169 Sensor?

The maximum operating depth for the CS400 KPSI Series 169 Sensor is specified by the manufacturer. It varies based on the model configuration, but generally, it can operate effectively up to a depth of 200 meters. Always refer to the specific model's datasheet for detailed specifications.

Can the CS400 KPSI Series 169 Sensor be used in saltwater applications?

Yes, the CS400 KPSI Series 169 Sensor can be used in saltwater applications. However, it is essential to ensure that the sensor's materials are compatible with saline environments to prevent corrosion. Regular maintenance and inspection are advised to prolong its lifespan.

How do I perform a calibration check on the CS400 KPSI Series 169 Sensor?

To perform a calibration check, you need a known reference pressure. Submerge the sensor in a controlled environment and compare its readings to the known reference. Adjust the data logger's calibration settings if necessary to match the reference pressure.

What should I do if the CS400 KPSI Series 169 Sensor shows erratic readings?

If the sensor shows erratic readings, check for electrical interference from nearby equipment. Ensure the sensor cable is properly shielded and grounded. Inspect the sensor for physical damage or debris on the diaphragm. Recalibrate the sensor if needed.

How should the CS400 KPSI Series 169 Sensor be stored when not in use?

When not in use, the CS400 KPSI Series 169 Sensor should be stored in a clean, dry environment. Protect the sensor's diaphragm from dust and mechanical damage by placing a protective cap over it. Avoid exposure to extreme temperatures.

What is the typical response time of the CS400 KPSI Series 169 Sensor?

The typical response time of the CS400 KPSI Series 169 Sensor is generally less than 50 milliseconds. However, this can vary based on the specific model and configuration. Refer to the technical specifications for precise details.

Why is it important to regularly inspect the cable of the CS400 KPSI Series 169 Sensor?

Regular inspection of the cable is crucial to ensure the longevity and accuracy of the CS400 KPSI Series 169 Sensor. Damaged cables can lead to signal loss or inaccuracies in data transmission. Check for cuts, abrasions, and ensure proper strain relief to prevent damage.