The MFP 075 GA-LM030 is a high-precision guided microwave level sensor engineered for reliable filling level measurement in industrial liquid applications. Designed with advanced TDR sensing technology, this industrial level transmitter provides continuous and stable monitoring of water-based media in tanks, reservoirs, and process systems. Its mono rod probe design with a 300 mm sensor length delivers accurate level detection while maintaining dependable performance in demanding environments.
This industrial fill level sensor is ideal for automation systems requiring precise liquid level control, long-term operational reliability, and maintenance-free performance. The robust stainless steel construction, digital display programming, and analog 4…20 mA output make it suitable for process industries seeking dependable tank monitoring solutions.
Key Features
- Precise measurement with guided microwave TDR technology
- Mono rod probe with 300 mm sensing length
- Analog output signal 4…20 mA for process automation
- Programmable configuration with integrated digital display
- Suitable for aqueous media with DK values greater than 20
- Reliable operation independent of conductivity and viscosity
- Wear-free sensing without moving mechanical parts
- IP67 protection for industrial environments
- Stainless steel AISI 316 Ti and PTFE media-contact materials
- Compact aluminum housing with M12 electrical connection
Application
The MFP 075 GA-LM030 is widely used for reliable liquid level monitoring in industrial tanks, storage vessels, water treatment systems, process automation equipment, and fluid management applications. It performs effectively in water-based liquids where stable and accurate continuous level measurement is required.
Industries using this sensor include:
- Industrial manufacturing plants
- Chemical processing systems
- Water treatment facilities
- Process automation environments
- Industrial liquid storage systems
- Machine coolant monitoring systems
- Fluid handling and dosing applications
Design & Functionality
The sensor operates using guided microwave TDR measurement technology, enabling accurate fill level detection regardless of conductivity, viscosity, or media consistency. The single probe construction provides stable signal transmission and dependable level monitoring even in challenging industrial conditions.
Its programmable digital display allows simplified configuration and monitoring directly at the sensor. The analog 4…20 mA output supports integration into PLC systems, industrial controllers, and automated monitoring platforms.
The stainless steel AISI 316 Ti probe combined with PTFE insulation ensures long service life and compatibility with industrial process media. The IP67-rated aluminum housing protects the sensor from dust and moisture, making it suitable for harsh operating environments.
Total Crossed Beams
The advanced guided microwave sensing system ensures stable signal guidance throughout the probe length, allowing accurate level detection with minimized interference in industrial tanks and vessels.
Beam Pitch Options
The optimized mono rod probe configuration supports reliable sensing performance for aqueous and conductive media while maintaining stable measurement consistency across the complete sensing range.
Intrinsic Synchronism
Integrated TDR signal processing maintains synchronized and continuous measurement accuracy, helping industrial systems achieve reliable process control and stable liquid management.
Operational Advantages
The MFP 075 GA-LM030 offers maintenance-free operation with no moving parts, reducing wear and minimizing downtime in industrial processes. Its high measurement accuracy, programmable setup, and durable construction provide long-term operational stability for demanding liquid monitoring applications.
Users benefit from:
- Improved tank level monitoring accuracy
- Reduced overflow and dry-run risks
- Stable continuous level control
- Reliable industrial automation integration
- Low maintenance operational performance
- Long service life in process environments
