The TAF Mass Flow Meter is engineered for precise measurement of low gas flow rates in industrial, laboratory, and automation environments. Designed specifically for non-corrosive gases, this compact device ensures stable and accurate flow monitoring across a wide range of applications. Its reliable performance and linear output signal make it a preferred choice for engineers and system integrators requiring consistent gas flow control.
Key Features
- High accuracy measurement for low gas flow ranges
- Compact and lightweight design for easy installation
- Linear 0–5 VDC output for seamless system integration
- Wide power input compatibility (12VDC to 24VDC)
- Stable performance with minimal signal drift
Application
The TAF Mass Flow Meter is widely used in laboratory gas analysis systems, industrial automation processes, semiconductor manufacturing, and environmental monitoring equipment. It is ideal for applications where precise gas flow measurement is critical to maintaining process efficiency and product quality.
Design & Functionality
Built with precision sensing technology, the device ensures accurate flow detection even at very low flow rates. Its robust construction allows for consistent performance under varying operating conditions. The compact housing and standard connection make installation simple and efficient.
Total Crossed Beams
The sensing mechanism is optimized to provide stable signal detection, ensuring reliable gas flow measurement without fluctuations or inconsistencies.
Beam Pitch Options
Carefully engineered internal structure allows uniform flow distribution, improving measurement accuracy across different flow ranges.
Intrinsic Synchronism
The system maintains synchronization between flow sensing and signal output, ensuring real-time responsiveness and precise control in dynamic environments.
Operational Advantages
The TAF Mass Flow Meter enhances operational efficiency by delivering accurate and repeatable measurements. It reduces system errors, improves process control, and minimizes downtime. Its compatibility with various power inputs and output systems makes it adaptable for diverse industrial and research applications.
