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 Type B 
 Temperature sensors 

High-temperature thermocouple for extreme applications up to 1800 °C, ideal for furnaces, metallurgy, and laboratory environments.

 Maximum precision
+/- 0,5°K

 Minimum temperature
600°C

 Maximum temperature
+1820°C

 Minimum dimensions
1 x 1 x 1

 Response time
Low

 Internal Resistance
High

 Linearity
High

Price
High

What is a Type B thermocouple ?Operating principleTechnical specificationsVoltage / Temperature CurveCompatibility / CompensationApplication areas

What is a Type B thermocouple ?


The type B thermocouple is a high-precision temperature sensor based on two alloys of platinum and rhodium.

It is specifically designed to measure extreme temperatures (up to +1,820 °C) while providing excellent long-term stability.

It is the preferred choice for laboratories, industrial furnaces, and glassworks.

Operating principle


The type B exploits the Seebeck effect: when there is a temperature difference between the hot junction and the cold junction, a voltage (in mV) is generated.

Simplified formul:

E = S × (T_hot - T_cold)

where S is the Seebeck coefficient, specific to each type of thermocouple.

For type B:

S ≈ 10 µV/°C around 1,000 °C

The voltage produced is proportional to the temperature difference between the two junctions.

Technical specifications


Parameter
Typical Value
Measurement range +600 °C → +1 820 °C
Sensitivity 10 µV/°C to 1 000 °C
Tension at 1,000 °C ≈ 6,4 mV
Tension at 1,800 °C ≈ 13,8 mV
Materials Pt-30Rh / Pt-6Rh
Oxidation resistance Excellent
Response time (6 mm diameter sheath) 6 to 10 s
Reference standard IEC 60584-1, ASTM E230

Voltage / Temperature Curve


The type B curve is almost linear at high temperatures, and the voltage remains nearly zero between 0 °C and 100 °C, making this thermocouple unsuitable for low temperatures.

Compatibility / Compensation


The type B thermocouple is used in 2 wires, connected to a measuring instrument via a compensation or extension cable suitable for type B.

Application areas


🧱 Industrial furnaces, metallurgy, ceramics, glass

🔬 Reference and calibration laboratories

⚙️ High-temperature process control

🧪 Research in materials and high-energy chemistry




Should I choose a Type B thermocouple ?

Strengths points

  • 🔥 King of High Temperatures
    → The type B measures up to +1,820 °C continuously without degrading — it is the choice for furnaces, glassworks, and melting laboratories.
  • ⚗️ Exceptional stability over time
    → Thanks to its platinum-based alloys, drift is almost nonexistent even after thousands of hours at high temperatures.
  • 🧠 Reproducible precision
    → His performances are extremely consistent, making him a benchmark for industrial calibrations.
Thermocouple type B sensors

Weaknesses points

  • 💸 High price
    → Platinum and rhodium are expensive: this sensor is reserved for critical applications, not for everyday use.
  • 🌡️ Insensitive to low temperatures
    → Below 600 °C, the signal becomes too weak for a reliable measurement.
  • 🐢 Slow response time
    → The refractory sheath necessary to withstand high temperatures slows down the thermal response.

Useful information

Here is some useful information regarding Type B thermocouples.

(Reference: cold junction at 0 °C, IEC 60584-1 standard)

Temperature (°C) Tension (mV) Temperature (°C) Tension (mV)
600 0,291 1 200 5,891
700 0,944 1 300 6,965
800 1,708 1 400 8,136
900 2,586 1 500 9,413
1 000 3,584 1 600 10,809
1 100 4,703 1 700 12,324
1 180 5,600 1 820 13,820

💡 Between 0 and 600 °C, the voltage remains almost zero (< 0.3 mV), which is why it is not used for low temperatures.

Class Tolerance (°C) Usage area
Description
Class 1 ±(0.5% of the value) 600 → 1 700 °C High precision
Class 2 ±(0.5% or ±2.5 °C, the greater of the two)** 600 → 1 700 °C Industrial standard
Class 3 – Not applicable The type B does not have a class 3 according to IEC
🔹 Even class 2 offers sufficient accuracy for the majority of industrial processes.

🔸 Example 1 – Calculation of the generated voltage

If the measured temperature is 1,200 °C,

and the cold weld is at 0 °C, then :

E = 5,891 mV

If the cold weld is at 25 °C, we correct with the equivalent voltage (~0.018 mV), so:

E_corrected = 5.891 - 0.018 = 5.873 mV

✅ Actual tension to read ≈ 5.87 mV


🔸 Example 2 – Calculating temperature from a measured voltage

Measured voltage: 10.809 mV (cold weld at 0 °C)

→ By consulting the IEC table, this value corresponds to:

T=1600°C

✅ Measured temperature ≈ 1,600 °C

The type B thermocouple produces a voltage of a few millivolts.

It therefore requires a precise differential amplifier, cold junction compensation, and a high-resolution analog-to-digital converter.

🔹 Typical components

Component
Function
Thermocouple type B (Pt30Rh / Pt6Rh)
Generate the Seebeck voltage
Differential amplifier (e.g., AD8495-B, INA333)
Amplify the signal µV → V
Compensation sensor (NTC or integrated sensor)
Measure the temperature of the cold weld
ADC 16–24 bits Convert the amplified signal
Microcontroller / data acquisition system
Calculate the final temperature
🔹 Functional diagram (ASCII)
[HOT JUNCTION]──(Thermocouple B)──[AMPLIFIER]──[ADC]──[µCONTROLLER]
│
└──(Compensation sensor)
💡 This setup ensures accurate measurement even at 1,800 °C, with an error of less than ±0.5 °C if properly calibrated.

 We integrate any sensor into any probe 

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 Waterproof

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 Bayonet

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 Slot

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 Atmosphere

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Stick-in

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Thread

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Contact

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Jacketed

PCBA Design

PCBA design

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Winding

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