Intrinsically safe temperature sensors play a critical role in hazardous-area operations where flammable gases, vapors, or dusts can turn a standard measurement device into an ignition source. Industries such as oil & gas, chemical production, refining, and manufacturing rely on sensors that are specifically engineered to operate safely in ATEX/IECEx certified environments.
In this guide, we break down everything you need to know about choosing the right intrinsically safe temperature sensor, including certifications, pricing, industrial use cases, and which models best support demanding hazardous-area applications.
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🔶 View Intrinsically Safe SensorsWhat Is an Intrinsically Safe Temperature Sensor?
An intrinsically safe temperature sensor is a measurement device designed to monitor temperature in hazardous environments without creating sparks, heat, or electrical energy capable of causing ignition. Rather than relying on heavy explosion-proof housings, intrinsically safe (IS) sensors limit energy at the circuit level so the device cannot ignite flammable atmospheres.
These sensors are widely used in:
Process manufacturing
Petrochemical plants
Oil & gas upstream and downstream operations
Pharmaceutical production
Grain handling and food processing
Hazardous storage and confined spaces
Their low-energy design and ATEX/IECEx certifications make them ideal for Zone 0, Zone 1, Zone 2, and Class I Division 1 (with appropriate barriers).
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How Do Intrinsically Safe Temperature Sensors Work?
Intrinsically safe temperature sensors operate on the principle of energy limitation. Electrical energy entering the device is restricted through:
Zener barriers
Galvanic isolators
Energy-limiting circuits
Even if the device fails, shorts, or is exposed to abnormal conditions, its circuitry cannot release enough heat or electrical energy to ignite a hazardous atmosphere.
Most IS temperature sensors use:
RTD elements (Pt100 or Pt1000)
Thermistors
Thermocouple inputs
Integrated digital temperature + humidity modules
A leading example is the E+E Elektronik EE100Ex, an ATEX Zone 1 certified humidity/temperature sensor designed for hazardous industrial applications. This model uses energy-limited circuits and supports intrinsically safe power sources or Zener barriers.
What Certifications Are Required for an Intrinsically Safe Temperature Sensor?
Certification is one of the most important aspects when selecting an intrinsically safe sensor. Below are the major global certifications and what they mean.
ATEX Certification
ATEX is the European directive governing equipment used in explosive atmospheres. Temperature sensors typically fall under:
ATEX Zone 0 – Continuous presence of explosive atmosphere
ATEX Zone 1 – Likely presence during normal operation
ATEX Zone 2 – Presence only in abnormal situations
The E+E Elektronik EE100Ex featured on Intrinsically Safe Store is ATEX Zone 1 certified, meaning it is approved for locations where hazardous vapors or gases may be present during normal operating conditions.
IECEx Certification
IECEx is an international certification system harmonized with ATEX. IECEx requirements validate:
Design safety
Ignition testing
Energy limitation
Compliance with Ex standards
The EE100Ex is also IECEx certified, making it suitable for global industrial deployments including South America, the Middle East, and Asia-Pacific markets.
Temperature Class Ratings
Temperature class (T-rating) identifies the maximum surface temperature of a device. Hazardous-area gases each have an ignition temperature; the device surface must stay well below that threshold.
Typical ratings include:
T6 – max 85°C
T5 – max 100°C
T4 – max 135°C
Intrinsic safety ensures the device never exceeds safe thermal limits—even during failure.
Understand Hazardous Location Safety Standards
Strengthen your knowledge with our essential guides on ATEX, IECEx, Class/Division ratings and intrinsically safe design.
What Applications Require an Intrinsically Safe Temperature Sensor?
Industries that contain flammable gases, vapors, or combustible dust rely on temperature sensors to monitor safety, process stability, and environmental conditions. Here are the most common applications.
Oil & Gas Operations
Temperature monitoring is essential in upstream, midstream, and downstream processes:
Tank farms
Wellheads
Gas compressors
Pump stations
Refinery units
LNG storage
Sensors like the EE100Ex allow measurement in areas where explosive atmospheres may form.
Process Manufacturing
Temperature affects chemical reactions, batch consistency, and safety. IS sensors are required in:
Chemical reactors
Mixing areas
Solvent-based processes
Flammable storage rooms
Maintaining precise measurement prevents runaway reactions and ensures process reliability.
Pharmaceutical & Biotech
Cleanrooms that handle volatile solvents rely on certified sensors to safely control:
Temperature
Humidity
Dew point
Frost point
A multi-variable sensor like the EE100Ex provides accurate readings for GMP and ISO-classified areas.
Food & Grain Processing
Combustible dust creates explosion hazards in:
Milling
Mixing
Packaging
Silos
Intrinsically safe sensors ensure dust does not ignite during routine monitoring.
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Shop Power & EnergyFeatured Product: E+E Elektronik EE100Ex Intrinsically Safe Humidity/Temperature Sensor
The screenshot provided shows the E+E Elektronik EE100Ex, a flagship ATEX/IECEx temperature and humidity sensor used widely in hazardous and industrial markets.
Key Features
ATEX Zone 1 certified
IECEx certified
Measures relative humidity and temperature
Dew point (Td) and frost point (Tf) calculations
Suitable for intrinsically safe power or Zener barrier systems
IP65 enclosure
Durable sensing head for harsh industrial environments
Best For
Oil & gas
Chemical plants
Hazardous manufacturing
Petrochemical storage
Pharmaceutical production
Pricing
Based on the product page:
$2,610.77 USD (subject to change depending on configurations and region availability).
How Much Does an Intrinsically Safe Temperature Sensor Cost?
Pricing varies depending on certification, sensing technology, and environmental protection levels. Below is a general breakdown for hazardous-area temperature sensors.
Typical Price Ranges
| Sensor Type | Price Range | Notes |
|---|---|---|
| Basic IS temperature probe | $800–$1,500 | RTD/thermocouple, simple housing |
| Humidity + temperature sensor (IS) | $1,600–$3,000 | ATEX/IECEx, multi-variable sensing |
| Advanced industrial sensor | $2,500–$5,000 | Specialized process applications |
| EE100Ex (featured) | $2,610.77 | ATEX Zone 1 / IECEx, humidity + temperature |
What Affects Pricing?
Key factors influencing cost:
Hazardous area certification (ATEX, IECEx)
Sensor type (RTD vs digital module)
Measurement accuracy requirements
Housing materials (aluminum, stainless steel, polymer)
Environmental protection (IP65–IP67)
Additional measurement capability (humidity, dew point, frost point)
High-end IS sensors often combine temperature, humidity, and dew-point sensing in one certified system—reducing installation costs but increasing product price.
How to Choose the Right Intrinsically Safe Temperature Sensor
Choosing the right sensor depends on process requirements and environmental conditions.
Determine the Hazardous Zone
Zone 0: Continuous hazard
Zone 1: Likely hazard (EE100Ex qualifies)
Zone 2: Occasional hazard
Always start with the hazardous classification of the installation area.
Choose the Correct Measurement Parameters
Do you need:
Temperature only?
Temperature + humidity?
Dew point/frost point?
Digital or analog output?
For multi-parameter industrial applications, a device like the EE100Ex provides more value.
Check Environmental Ratings
Key enclosure ratings:
IP65/IP66 – washdown, dust protection
Corrosion-resistant housings
Temperature operating ranges
Comparison Table: Intrinsically Safe Temperature Sensor Options
Below is a comparison of general sensor types including the EE100Ex.
| Feature | Basic IS Temperature Probe | IS Digital Temp Sensor | EE100Ex Humidity/Temp Sensor |
|---|---|---|---|
| ATEX/IECEx | Yes | Yes | Yes (Zone 1) |
| Measurement | Temperature | Temperature | Temp + RH + Td + Tf |
| Ideal For | Simple monitoring | Industrial control | Hazardous industrial environments |
| Enclosure | Stainless/Aluminum | Polymer/Metal | IP65-rated housing |
| Typical Price | $800–$1,500 | $1,200–$2,000 | $2,610.77 |
Need Help Selecting the Right Sensor?
Talk to our hazardous-area experts for guidance on ATEX/IECEx ratings, temperature ranges, and industrial requirements.
FAQs About Intrinsically Safe Temperature Sensors
Are intrinsically safe sensors the same as explosion-proof sensors?
No. Intrinsically safe sensors limit electrical energy to prevent ignition, while explosion-proof sensors contain explosions inside a housing. IS sensors are typically lighter and easier to install.
Can intrinsically safe temperature sensors be installed in Zone 1?
Yes. Many IS sensors—including the EE100Ex—are specifically certified for ATEX Zone 1 and IECEx environments.
Do I need a Zener barrier with an intrinsically safe sensor?
In most cases, yes. A Zener barrier or galvanic isolator ensures energy entering the sensor stays within safe limits.
Can these sensors measure dew point or frost point?
Some models, including the EE100Ex, calculate dew point (Td) and frost point (Tf) in addition to humidity and temperature.
Are intrinsically safe sensors suitable for outdoor use?
Yes, provided they have appropriate IP ratings. The EE100Ex is IP65, suitable for many outdoor and industrial environments.
Conclusion: Choosing the Best Intrinsically Safe Temperature Sensor
Selecting the right intrinsically safe temperature sensor depends on certification requirements, application conditions, and measurement needs. ATEX/IECEx sensors like the E+E Elektronik EE100Ex offer globally recognized safety approval, advanced multi-parameter measurement, and rugged construction for oil & gas, process manufacturing, chemical plants, and hazardous industrial sites.
For hazardous-area temperature and humidity monitoring solutions, browse the certified options available at Intrinsically Safe Store.
