MET09-W Series
Total Zinc Analyzer
The total zinc analyzer delivers high accuracy, excellent repeatability, and long-term stability, maintaining reliable measurement performance even under severe water quality fluctuations or harsh wastewater conditions. The system is equipped with high-quality pumps, valves, and critical components, featuring low reagent consumption and minimal waste discharge. This not only complies with environmental and regulatory requirements but also effectively reduces long-term operating and maintenance costs.
Designed with an embedded hardware–software architecture and modular construction, the analyzer ensures stable operation and easy maintenance. Its compact size and flexible installation options make it ideal for long-term continuous monitoring applications. Supporting RS485 standard communication, the system can be seamlessly integrated with PLCs, SCADA systems, human–machine interfaces, and cloud-based monitoring platforms, enabling remote monitoring, historical data retrieval, and concentration trend analysis. It is a key solution for building an intelligent, high-efficiency water quality monitoring and management system, supporting sustainable water resource management initiatives.
Designed with an embedded hardware–software architecture and modular construction, the analyzer ensures stable operation and easy maintenance. Its compact size and flexible installation options make it ideal for long-term continuous monitoring applications. Supporting RS485 standard communication, the system can be seamlessly integrated with PLCs, SCADA systems, human–machine interfaces, and cloud-based monitoring platforms, enabling remote monitoring, historical data retrieval, and concentration trend analysis. It is a key solution for building an intelligent, high-efficiency water quality monitoring and management system, supporting sustainable water resource management initiatives.
Features
General
Built-in Auto Calibration, Alarm and Log Functions
4~20 mA Analog Output
Auto Measuring After Power Failure Recovery
Low Reagent Alarm
Installation
Flow through
Measurement Method
- Output Signal: RS485 (Modbus RTU protocol), 19,200 bps, 8 data bits, no parity, 1 stop bit; 4~20 mA
- Data Resolution: 16 bits (0.001% FS)
- Surge Protection: 4000 V DC
- Power: 5~12 V DC, 60 mA
- Protection: polarity, overload, short
- Safety: CE, FCC
Built-in Auto Calibration, Alarm and Log Functions
4~20 mA Analog Output
Auto Measuring After Power Failure Recovery
Low Reagent Alarm
Installation
Flow through
Measurement Method
| Model No | Measurement Method | ||||||||
| MET07 Iron (Fe) |
The sample undergoes a chemical digestion and reaction which iron compound is converted to colored complex. Incident UV light is absorbed by the sample and measured by the detector. The measurement value depends on the concentation of the sample | ||||||||
Applications
Drinking water, surface water, groundwater, industry, water treatment, wastewater
Specifications
General
Built-in Auto Calibration, Alarm and Log Functions
4~20 mA Analog Output
Auto Measuring After Power Failure Recovery
Low Reagent Alarm
Installation
Flow through
Measurement Method
- Output Signal: RS485 (Modbus RTU protocol), 19,200 bps, 8 data bits, no parity, 1 stop bit; 4~20 mA
- Data Resolution: 16 bits (0.001% FS)
- Surge Protection: 4000 V DC
- Power: 5~12 V DC, 60 mA
- Protection: polarity, overload, short
- Safety: CE, FCC
Built-in Auto Calibration, Alarm and Log Functions
4~20 mA Analog Output
Auto Measuring After Power Failure Recovery
Low Reagent Alarm
Installation
Flow through
Measurement Method
| Model No | Measurement Method | ||||||||
| MET09-W Zinc (Zn) |
The sample undergoes a chemical digestion and reaction which iron compound is converted to colored complex. Incident UV light is absorbed by the sample and measured by the detector. The measurement value depends on the concentation of the sample | ||||||||
Models
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