PT100 Resistor 3850 RTD Sensor Element Ceramics

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PT100 Resistor 3850 RTD Sensor Element Ceramics

Customization:

Customized packaging（Min.Order: 1000 pieces）

Probe Size（Min.Order: 1000 pieces）

Cable Length（Min.Order: 1000 pieces）

Connector Type（Min.Order: 1000 pieces）

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PT100 Resistor 3850 RTD Sensor Element Ceramics

Name: PT100 Resistor 3850 RTD Sensor Element Ceramics
Brand: Senstech Ltd.
SKU: 60097696613_1
Price: 0.70 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Temperature Measurement: The PT100 Resistor 3850 RTD Sensor Element Ceramics measures temperature by detecting changes in electrical resistance, with a temperature coefficient of 3850 ppm/°C for precise readings.
Ceramic Construction: Designed with a ceramic substrate for enhanced durability, chemical resistance, and thermal stability, ensuring reliable performance in harsh environments.

Key features

1. Advanced Ceramic Material Technology

With a ceramic sensor element, achieve exceptional thermal stability and corrosion resistance, ensuring reliable performance in extreme environments. This material outperforms plastic-based sensors in durability and precision*.

2. High-Precision 3850 Resistance Temperature Coefficient

With a 3850 ppm/°C temperature coefficient, deliver precise temperature measurements (±0.1°C accuracy) compared to standard RTD sensors with lower coefficients*. Ideal for applications requiring minimal error margins.

3. Industrial-Grade Performance Parameters

Engineered for high-temperature environments (-200°C to 850°C), this RTD sensor element outperforms thermocouples in precision and repeatability, making it ideal for critical industrial processes*.

4. Versatile Scenario Solutions

Designed for continuous operation in industrial systems, power plants, and HVAC equipment, this sensor ensures uninterrupted monitoring where stability and longevity are paramount*.

5. PT100 Standard Compliance

Complies with international PT100 standards (IEC 60751), guaranteeing compatibility with global industrial systems and traceable calibration across industries*.

Product details

The PT100 Resistor 3850 RTD Sensor Element Ceramics is a precision temperature measurement device designed for industrial and scientific applications. Its ceramic construction ensures stability and durability, while the PT100 standard (3850 ppm/°C temperature coefficient) guarantees reliable performance across a wide range of temperatures.

Technical specifications

Feature	Specification	Benefit
Sensor Type	PT100 RTD	High-precision temperature measurement
Temperature Coefficient	3850 ppm/°C	Industry-standard accuracy for calibration
Material	Ceramic	Resists corrosion and thermal shock
Accuracy	±0.1°C (Pro Model)	Ensures critical process control
Operating Range	-200°C to 600°C (Pro)	Versatile for extreme environments
Packaging	Bulk or individual	Flexible storage and handling

Customization guide

Adjustable parameters include lead length (customizable up to 50cm), material composition (e.g., platinum-coated ceramic for harsh environments), and tolerance ranges (±0.03°C for high-precision applications).

Get inspired

Use the PT100 RTD Sensor in industrial furnaces, HVAC systems, or laboratory equipment to monitor and regulate temperature with unmatched accuracy.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Temperature Range	-50°C to 300°C	-100°C to 500°C	-200°C to 600°C
Accuracy	±0.3°C	±0.15°C	±0.1°C
Response Time	5s	3s	2s (20% faster than industry benchmarks)
Material	Standard Ceramic	Enhanced Ceramic	Premium Ceramic + Platinum Coating

Supplier's note

Technical Breakthroughs:
- Ceramic Construction: With ceramic material, you can achieve long-term stability in corrosive or high-vibration environments.
- ±0.1°C Accuracy: The Pro Model’s precision enables critical applications like semiconductor manufacturing.
- -200°C to 600°C Range: Outperforms industry standards, enabling use in cryogenic or high-temperature industrial processes.
Optimal Version Selection:
- Base Model: Ideal for standard HVAC or lab settings where cost-efficiency is prioritized.
- Advanced Model: Suited for food processing or pharmaceuticals requiring mid-range accuracy and durability.
- Pro Model: Essential for aerospace or energy sectors needing extreme temperature tolerance and precision. For instance, its platinum-coated ceramic ensures minimal drift in oil refinery operations.

Frequently asked questions

Which RTD sensor is best for high-precision HVAC systems?
How to clean and store PT100 RTD sensor elements?
Ceramic vs. Metal Sheath: Which RTD sensor material suits chemical exposure?
Can PT100 RTD sensors be customized for food processing equipment?
Is PT100 RTD sensor 3850 compliant with industrial standards?
What makes PT100 RTD sensors better than thermocouples in labs?
How does the PT100 RTD sensor handle extreme temperature fluctuations?
What storage conditions are required for bulk PT100 RTD elements?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Temperature Range	Industrial furnaces, cryogenic systems	Industry Standard: -50°C to 500°C Our Base: -200°C to 600°C▲ Our Advanced: -250°C to 850°C▲▲	Wider range for extreme environments (e.g., aerospace, deep-freeze storage)	Higher cost for extreme ranges▲▲ (e.g., $150 vs. $80 for Base)
Accuracy	Precision labs, HVAC control systems	Industry Standard: ±0.5°C (IEC 60751) Our Base: ±0.3°C▲ Our Advanced: ±0.15°C▲▲	Minimizes calibration needs (e.g., ±0.15°C ensures ±0.5% error in process control)	Advanced sensors require specialized interfaces▲▲
Response Time	Dynamic process monitoring	Industry Standard: 30 sec (ISO 15197) Our Base: 20 sec▲ Our Advanced: 10 sec▲▲	Real-time feedback in fast-acting systems (e.g., semiconductor manufacturing)	Faster sensors may require cooling systems▲▲
Chemical Resistance	Chemical plants, food processing	Industry Standard: ASTM D543 (basic acids/alkalis) Our Base: ASTM D543 + oils/gases▲ Our Advanced: ASTM F739 (harsh solvents)▲▲	Withstands aggressive chemicals (e.g., sulfuric acid exposure at 80°C)	Advanced versions need protective coatings▲▲
Mounting Type	Harsh environments (e.g., offshore)	Industry Standard: Threaded mount (IP65) Our Base: Waterproof IP68▲ Our Advanced: Explosion-proof IP69K▲▲	Submersible in seawater▲ or withstands high-pressure washdowns▲▲	IP69K requires thicker housing (adds 20% weight)▲▲
Operating Environment	Vibration-heavy machinery	Industry Standard: 5-5000 Hz, 5g acceleration Our Base: 5-10,000 Hz, 10g▲ Our Advanced: 5-20,000 Hz, 20g▲▲	Stable readings in turbine engines▲▲ or heavy machinery▲▲	Advanced versions may require recalibration after extreme shocks▲▲

PT100 Resistor 3850 RTD Sensor Element Ceramics

PT100 Resistor 3850 RTD Sensor Element Ceramics

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Advanced Ceramic Material Technology

2. High-Precision 3850 Resistance Temperature Coefficient

3. Industrial-Grade Performance Parameters

4. Versatile Scenario Solutions

5. PT100 Standard Compliance

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which RTD sensor is best for high-precision HVAC systems?

How to clean and store PT100 RTD sensor elements?

Ceramic vs. Metal Sheath: Which RTD sensor material suits chemical exposure?

Can PT100 RTD sensors be customized for food processing equipment?

Is PT100 RTD sensor 3850 compliant with industrial standards?

What makes PT100 RTD sensors better than thermocouples in labs?

How does the PT100 RTD sensor handle extreme temperature fluctuations?

What storage conditions are required for bulk PT100 RTD elements?

Product comparison

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