Nexisense Industrial General Pressure Transmitter: A Reliable Partner for Industrial Monitoring

Definition and Overview

The industrial general pressure transmitter converts medium pressure into standard electrical signals and is widely used in process control and monitoring. Nexisense products are optimized for general industrial applications, suitable for various media and working conditions.

In complex industrial environments, pressure fluctuations can reduce efficiency or create safety hazards. Nexisense transmitters address these challenges through innovative design, ensuring reliable data and proven value across multiple industries.

Measurement Method and Principle

The Nexisense industrial general pressure transmitter primarily uses the diffusion silicon piezoresistive principle. Medium pressure acts on the sensitive element, causing resistance changes, which are processed to output a standard 4-20mA signal.

Core technologies include glass frit bonding and a fully elastic structure, preventing leakage at the source. The built-in digital temperature compensation automatically corrects thermal drift, ensuring accuracy across a wide temperature range. The measurement process responds rapidly and supports dynamic monitoring. Combined with anti-interference design, it remains stable in complex electromagnetic environments.

Structure Analysis

The Nexisense transmitter is compact and durable. Its core uses glass frit technology to ensure no leakage under high pressure. The fully elastic design enhances impact resistance.

The stainless steel housing protects against corrosion, and the probe and electronics compartment are also resistant. Built-in modules prevent lightning damage and radio frequency electromagnetic interference. High protection level and customizable pressure ports and electrical connections facilitate on-site integration. This structure ensures long-term operation in harsh environments.

Main Advantages

The Nexisense industrial general pressure transmitter offers significant advantages. First, reliable sealing: glass frit bonding and elastic structure prevent leakage, suitable for high-pressure applications. Second, strong anti-interference: lightning and electromagnetic protection ensure accurate data.

Wide temperature adaptability: digital compensation maintains stable operation across wide temperature ranges, reducing calibration needs. High overload capacity withstands sudden fluctuations, extending service life. Flexible adaptation: broad range, multiple interfaces, selectable outputs, easy integration with systems. Corrosion and wear resistance reduce maintenance costs, making it highly efficient and reliable for industrial monitoring.

Application Scenarios

• Industrial process control: monitors pressure changes in real time to optimize processes.

• Pump station and water treatment systems: provides pipeline pressure data to ensure efficiency and safety.

• Automated inspection and mechanical manufacturing: used in hydraulic and pneumatic systems to prevent overload.

• Other scenarios: compressed air systems and general production lines. Its versatility helps enterprises achieve intelligent monitoring.

Technical Parameters

Measurement range: wide, e.g., 0–100MPa (customizable), accuracy ±0.5% FS. Output: 4–20mA, power supply 12–36VDC.

Operating temperature: -40°C to 85°C, high overload capacity. Protection: IP67. Interfaces: multiple options. Fast response and strong stability. Consider media type and environment to ensure compatibility.

Installation and Maintenance

Select suitable interface for installation and ensure sealed connections. Pay attention to electrical interference and use protective functions.

Maintenance: inspect structure every six months and clean contact surfaces. Calibrate zero and full scale annually using standard sources. In harsh environments, perform regular inspections. Nexisense design simplifies maintenance, extends service life, and reduces costs.

FAQ

How do temperature fluctuations affect measurement?
Digital compensation ensures stability across wide temperatures.

Is it suitable for corrosive media?
Stainless steel structure resists corrosion, compatible with various fluids.

Is it safe under high pressure?
Glass frit technology prevents leakage, with strong overload capability.

How to choose the interface?
Supports customization to fit different systems.

Conclusion

The Nexisense industrial general pressure transmitter provides reliable protection in industrial monitoring with advanced technology, stable performance, and flexible adaptability. From principles to applications, it helps enterprises control pressure and achieve safe, efficient production. Proper usage and maintenance maximize its value and promote high-quality industrial development. Selecting a model according to site conditions ensures a robust monitoring foundation.