The 8000EMR Series Flow Meters are advanced liquid flow measurement solutions designed for industrial applications that demand precision and reliability. As an EMI resistant flow meter, this series is engineered to perform flawlessly in harsh environments where electromagnetic and radio frequency interference (EMI/RFI) could compromise standard flow meters. Built for durability and exceptional noise immunity, the 8000EMR Series ensures stable and accurate readings even in the presence of high-frequency equipment. With features like rugged stainless-steel construction, multiple output options, and compatibility with various heat-transfer fluids, these flow meters deliver unmatched accuracy, reliability, and longevity for industries operating in challenging conditions.
EMI- and RFI-Resistant Flow Meters Explained
Electromagnetic Interference (EMI) and Radio Frequency Interference (RFI) are common in industrial environments where heavy machinery, RF power supplies, and high-frequency equipment operate. These interferences can disrupt traditional flow meters, leading to inaccurate readings or system malfunctions. An EMI resistant flow meter, like the 8000EMR Series, is designed to overcome this challenge. With exceptional noise immunity, it ensures precise and stable measurements, even in electrically noisy environments. This makes it ideal for industries that require uninterrupted flow monitoring and accurate data for process control, helping maintain efficiency and safety in high-interference zones.
Key Features of 8000EMR Series Flow Meters
- Exceptional Noise Immunity: Performs reliably in harsh, high-interference environments.
- Wide Flow Range: 1.9 to 227 LPM (0.5 to 60 GPM) for flexible applications.
- Temperature Capability: Handles -40 to 90 °C liquid temperatures at 30 °C ambient.
- Optional Thermocouple: Dry well supports user-supplied bayonet-type thermocouple.
- High Accuracy: ±3% of flow range with advanced digital signal processing.
- Multiple Output Options: 0–10 VDC, 0–5 VDC, and 4–20 mA outputs for easy integration.
- Onboard Relay & Safety: Redundant interlock with factory-programmed trip points.
- Rugged Design: NEMA 4X / IP66 stainless steel body, faceplate, and SAE fittings.
- Custom Calibration: Optional calibration for viscosity and temperature variations.
Applications in Industrial Environments
The 8000EMR Series Flow Meters are specifically engineered for industries where EMI and RFI resistance is crucial. They are widely used in:
- Power generation plants and RF equipment facilities
- Manufacturing and heavy industrial processing plants
- Chemical and heat-transfer systems
Their rugged design, high accuracy, and stability make them perfect for wet and high-noise industrial sites. By integrating an EMI resistant flow meter into your system, you ensure consistent performance even when exposed to electromagnetic and radio frequency interference. This results in reduced downtime, enhanced reliability, and long-term operational efficiency.
Benefits of Using 8000EMR Series Flow Meters
Enhanced Accuracy & Stability
The 8000EMR Series uses advanced digital signal processing to reduce interference-related errors, ensuring consistent and precise liquid flow readings even in high EMI and RFI industrial environments.
Long-Term Reliability
Constructed with durable stainless steel and NEMA 4X/IP66 protection, these flow meters resist corrosion, moisture, and mechanical stress, guaranteeing dependable operation in harsh and wet industrial conditions.
Versatile Integration
With multiple output options including 0–10 VDC, 0–5 VDC, and 4–20 mA, these flow meters easily integrate with various monitoring systems and work seamlessly with advanced heat-transfer fluids.
Customizable Performance
Optional custom calibration accounts for temperature fluctuations and fluid viscosity, allowing highly accurate, application-specific flow measurement tailored to your unique industrial process requirements.
By choosing an EMI resistant flow meter like the 8000EMR Series, industries can achieve uninterrupted flow monitoring, minimise interference-related issues, and maintain optimal performance across critical operations.
Conclusion
The 8000EMR Series Flow Meters are the ideal solution for industries operating in high EMI and RFI environments. Offering exceptional noise immunity, high accuracy, and a durable stainless-steel construction, they ensure reliable liquid flow measurement in the most demanding conditions. With versatile output options, compatibility with various fluids, and optional custom calibration, these meters provide unmatched flexibility and performance. Investing in an EMI resistant flow meter like the 8000EMR Series ensures your operations remain efficient, stable, and interference-free.
FAQs
Q1. What makes the 8000EMR Series flow meters EMI and RFI resistant?
They are designed with advanced digital signal processing and shielding to prevent interference from electromagnetic and radio frequencies.
Q2. Can these flow meters operate in extreme temperatures?
Yes, they can measure liquids from -40 to 90 °C while operating in ambient temperatures up to 30 °C.
Q3. Is custom calibration necessary for all applications?
Not always. It is optional but recommended for fluids with varying viscosities or temperature-dependent properties.
Q4. Do the 8000EMR Series flow meters provide safety features?
Yes, they include an onboard relay for redundant interlock, with a factory-programmed trip point to enhance operational safety.
Q5. What flow range do the 8000EMR Series flow meters cover?
They measure flows from 1.9 to 227 LPM (0.5 to 60 GPM), offering flexibility for various industrial liquid monitoring applications.
Q6. Are these flow meters suitable for wet or harsh environments?
Yes, the NEMA 4X / IP66 stainless steel construction ensures durability, corrosion resistance, and reliable performance in wet or rugged industrial conditions.
Q7. Which industries benefit most from using these flow meters?
Industries such as power generation, chemical processing, RF equipment facilities, and heat-transfer systems can obtain accurate, stable measurements even in high-noise or EMI/RFI-prone environments.