Intrinsically Safe Humidity and Temperature Transmitters

The intrinsically safe humidity and temperature transmitter is an amazing device certified for ATEX and CSA use in potentially explosive environments, making it perfect for a variety of settings. It’s also IP65 / NEMA 4 rated, meaning it’s resistant to dust and water. Plus, it features a dew point temperature function, making it even more versatile. Whether you’re looking to monitor conditions in a hazardous area or just want peace of mind knowing that your data is accurate, this transmitter is the perfect solution. The intrinsically safe humidity and temperature transmitters are reliable in explosion hazard areas. Due to the robust metal IP65 enclosure and the wide choice of filter caps, the EE100Ex performs reliably in demanding applications such as utility tunnels, hazardous storage rooms, or the pharmaceutical industry. With a remote sensor probe The 2-part enclosure facilitates easy installation and dismounting for calibration without time-consuming wiring, power supply, and outputs. Apart from the measurement of relative humidity and temperature, it also calculates dew point [Tf] and frost point temperature [Td]. The intrinsically safe humidity and temperature transmitter sensors feature two galvanically isolated 4-20 mA outputs in 2-wire technology. The robust and easy-to-clean stainless steel housing is optimized for the pharmaceutical and chemical industries. The well-proven E+E humidity sensor technology enables reliable, long-term stable measurements in challenging applications. Typical applications include explosive and hazardous storage rooms, and utility tunnels for hazardous areas.

Selecting the Right Transmitter for Your Application

Accurate and reliable monitoring of relative humidity and temperature is essential for process safety, quality control, and operational efficiency in hazardous locations. Intrinsically safe humidity and temperature transmitters are specifically engineered to perform this critical function by limiting electrical and thermal energy to levels incapable of igniting flammable gases, vapors, or dusts. As an instrumentation and controls professional, selecting the correct transmitter is a crucial decision that requires a detailed analysis of your specific operational environment and safety requirements.

Chemical Plants vs. Grain Silos: A Tale of Two Hazards

The environmental challenges in a chemical processing facility are vastly different from those in a grain storage silo, and your transmitter choice must reflect this. Each environment presents unique risks that demand specific design features and certifications.

  • Chemical Plants: These environments often contain corrosive vapors and a wide range of flammable gases, requiring transmitters with robust material construction, such as 316L stainless steel, and specific gas group ratings (e.g., IIC, IIB). The sensor must be resistant to chemical contamination to ensure long-term accuracy and reliability in aggressive atmospheres.
  • Grain Silos and Agricultural Facilities: The primary hazard here is combustible dust. Transmitters used in these locations must carry a rating for Class II, Division 1 environments to prevent the ignition of dust clouds. Furthermore, they require high IP (Ingress Protection) ratings to prevent dust from entering the electronics, and they must be able to withstand wide ambient temperature fluctuations and potential moisture condensation common in storage applications.

Understanding Accuracy, Range, and Certification

Evaluating a transmitter’s technical specifications is paramount to ensuring it meets your process control and safety needs. Focus on these three critical parameters:

  • Accuracy: The transmitter’s accuracy (e.g., ±1% RH, ±0.2°C) directly impacts the quality of your process control. For applications requiring tight environmental control, such as pharmaceutical manufacturing or specialty chemical production, higher accuracy is non-negotiable. Always verify the accuracy across the full measurement range.
  • Operating Range: Ensure the device’s specified humidity and temperature range exceeds the operational extremes of your process. A transmitter operating outside its designed range will provide unreliable data and may fail prematurely. Look for features like temperature compensation that maintain humidity reading accuracy across fluctuating temperatures.
  • Certification: This is the most critical safety parameter. The transmitter’s certification must match the classification of your hazardous area. Look for markings from recognized bodies like ATEX (Europe), IECEx (International), and UL/CSA (North America). The markings will detail its suitability, such as `Ex ia IIC T4 Ga` for gas environments or `Ex ia IIIC T135°C Da` for dust, defining the zone, protection method, gas/dust group, and temperature class.

Featured Products

Our curated selection of intrinsically safe humidity and temperature transmitters provides solutions for a wide array of hazardous area applications. In this category, you will find robust devices featuring combined RH and temperature sensors in a single unit, minimizing installation complexity. We offer models with industry-standard 4-20mA loop-powered outputs for seamless integration with your existing PLC or DCS systems. Choose from various mounting configurations, including wall-mount, duct-mount, and remote sensor probes, to suit your specific installation point. Each product is built with durable housing materials and is fully certified for use in designated explosive atmospheres.

Get Expert Help from Our Instrumentation Specialists

Navigating the complexities of hazardous area classifications and product specifications can be challenging. Our team of instrumentation specialists is here to help. We possess deep technical knowledge of intrinsic safety principles and can assist you in selecting the ideal transmitter that not only meets your performance criteria but also ensures full compliance with your site’s safety standards. Contact us today for a consultation to guarantee you find the right solution for your critical application.

Frequently Asked Questions

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