Benefits of Using Vernier dissolved oxygen sensor in Aquatic Research

Aquatic research plays a crucial role in understanding and preserving the delicate ecosystems that exist in our oceans, rivers, and lakes. One key aspect of this research is monitoring the levels of dissolved oxygen in water, as it is a critical factor in the health and survival of aquatic organisms. To accurately measure dissolved oxygen levels, researchers often rely on specialized equipment such as the Vernier dissolved oxygen sensor.

The Vernier dissolved oxygen sensor is a valuable tool for aquatic researchers due to its accuracy and reliability. This sensor uses a unique optical technology to measure the concentration of dissolved oxygen in water, providing precise and consistent results. By using this sensor, researchers can obtain real-time data on dissolved oxygen levels, allowing them to monitor changes in water quality over time.

Product Model MFC-8800
Communication port The uplink slave channel Modbus RTU protocol RS485 port is connected with DTU and DCS
Downlink master channel RS485 port of Modbus RTU protocol is connected with data acquisition terminal
4~20mA output 1 channel two-wire type  Maximum loop resistance 400Ω
4~20mA Input  2 channel channel two-wire type( initiative feed)
DI Input                  2channels Photoelectric isolation logic switch
DO Output 3 channels relay 1 SPDT  AC220V; 3A(MAX)
(only for drive signal) 2 SPST  AC220V; 3A(MAX)
1channel  Photoelectric switch    Proportional pulse/frequency
 Load capacity:100mA/DC30V
 Data acquisition Data acquisition collection,with 3 channels DC24V sensor power supply  
Display mode 3.5”(or 4”)colorful LCD touch screen
Power supply Wide power range :(12-24)V
Consumption <5W
Environment requirements Environment temp:(5~45)℃;  relative humidity:≤90%。
Hole dimension (91×91)mm hole dimension;panel dimension(100*100)mm
Model POP-8300 free chlorine online analyzer
Measurement range (0.00-2.00)mg/L(ppm)  (0.00-20.00)mg/L(ppm)
Accuracy Indication error 10%
Resolution 0.01mg/L(ppm)
Communication interface RS485 MODBUS RTU communication protocol
Analog output Double channel (4-20)mA output; Isolated, reversible, completely adjustable, instrument/transmitter dual mode; ±0.1mA transmission accuracy
Control output Double channels, Load capacity 50mA(Max),AC/DC 30V
Power supply Connected to electric supply AC80-260V;50/60Hz, compatible with all international market power standards(110V;220V;260V;50/60Hz).
Working environment Temperature:(5-50)℃;relative humidity:≤85% RH(non-condensation)
Power Consumption <20W
Storage environment Temperature:(-20-70)℃;relative humidity:≤85%RH(non-condensation)
Installation Wall mounted (with the preset back cover)
Cabinet weight ≤10kg
Cabinet dimension 570*mm*380mm*130mm(H×W×D)

One of the key benefits of using the Vernier dissolved oxygen sensor is its ease of use. This sensor is designed to be user-friendly, with simple instructions and a straightforward setup process. Researchers can easily calibrate the sensor and begin collecting data with minimal training, making it an ideal tool for both experienced scientists and students conducting research projects.

In addition to its ease of use, the Vernier dissolved oxygen sensor is also highly versatile. This sensor can be used in a wide range of aquatic environments, from freshwater lakes to saltwater estuaries. Its durable construction ensures that it can withstand harsh conditions, making it suitable for long-term monitoring projects in the field.

Another advantage of the Vernier dissolved oxygen sensor is its high level of accuracy. This sensor is calibrated to provide precise measurements of dissolved oxygen levels, allowing researchers to make informed decisions based on reliable data. By using this sensor, researchers can ensure that their findings are accurate and reproducible, enhancing the credibility of their research.

Furthermore, the Vernier dissolved oxygen sensor is a cost-effective solution for monitoring dissolved oxygen levels in aquatic environments. Compared to traditional methods of measuring dissolved oxygen, such as chemical titration or electrode-based sensors, the Vernier sensor offers a more affordable and efficient option. Researchers can save time and resources by using this sensor, allowing them to focus on analyzing data and drawing meaningful conclusions from their research.

Overall, the Vernier dissolved oxygen sensor is a valuable tool for aquatic researchers looking to monitor and study dissolved oxygen levels in water. Its accuracy, ease of use, versatility, and cost-effectiveness make it an essential instrument for conducting research in aquatic environments. By using this sensor, researchers can gather reliable data on dissolved oxygen levels, contributing to our understanding of aquatic ecosystems and helping to protect these valuable resources for future generations.

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