Magnet Surface Probe, -20 to +80°C, Type K
Magnet Surface Probe, -20 to +80°C, Type K
Magnet Surface Probe, -20 to +80°C, Type K
SKU:
133-016
  • Probe temperature range: -20 to +80°C
  • Response time: less than 30s
  • Accuracy to BS EN 60584-1:2013
  • Ideal for temperatures of magnetic metal surfaces
ETI
Magnet Surface Probe, -20 to +80°C, Type K
35,70 € *
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Thermocouple Leads Set
Thermocouple Leads Set
Thermocouple Leads Set
SKU:
816-100
  • accessory for MicroCal 1 thermocouple simulator
  • seven lead set with plugs
  • type K, J, T, R, N, S and E
  • allows simple testing of all these thermocouple types
    • ETI
    Thermocouple Leads Set
    160,65 € *
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    Stainless Steel Penetration probe, Type K Plug-Mounted...
    Stainless Steel Penetration probe, Type K Plug-Mounted Thermocouple, -75 to +250°C
    SKU:
    133-161
  • probe temperature range: -75 to +250°C
  • high accuracy
  • response time: less than 3s
  • probe length: 120mm
  • probe diameter: 3,3mm, pointed
    • ETI
    Stainless Steel Penetration probe, Type K Plug-Mounted Thermocouple, -75 to +250°C
    32,13 € *
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    • : 11 - 13 Workdays  (DE - int. shipments may differ)
    GTT-05-0150, Sheath Thermocouple Probe, Plug Mounted,...
    GTT-05-0150, Sheath Thermocouple Probe, Plug Mounted,...
    GTT-05-0150, Sheath Thermocouple Probe, Plug Mounted, Type K, Ø 0.5mm, Length: 150mm -200 to +1150°C
    SKU:
    GTT-05-0150
    • Very thin, flexible sheath thermocouple probe: Ø 0.5mm
    • Probe length EL: 150mm
    • Measuring range: -200 to +1150°C
    • Accuracy class 1
    Senseca
    GTT-05-0150, Sheath Thermocouple Probe, Plug Mounted, Type K, Ø 0.5mm, Length: 150mm -200 to +1150°C
    110,67 € *
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    • : 11 - 13 Workdays  (DE - int. shipments may differ)
    FEP (Plastic) Probe, Type K Plug-Mounted Thermocouple,...
    FEP (Plastic) Probe, Type K Plug-Mounted Thermocouple,...
    FEP (Plastic) Probe, Type K Plug-Mounted Thermocouple, -60 to +250°C
    SKU:
    133-155
  • probe for safety areas, i.e. air lines
  • probe temperature range: -60 to +250°C
  • response time: less than 3s
  • ideal for measuring food
  • probe length: 40mm
  • probe diameter: 3,2mm, pointed
    • ETI
    FEP (Plastic) Probe, Type K Plug-Mounted Thermocouple, -60 to +250°C
    39,27 € *
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    • : 11 - 13 Workdays  (DE - int. shipments may differ)
    Air or Gas Probe, Type K Plug-Mounted Thermocouple, -75...
    Air or Gas Probe, Type K Plug-Mounted Thermocouple, -75 to +250°C
    SKU:
    133-301
  • probe temperature range: -75 to +250°C
  • high accuracy
  • response time: less than 1s
  • probe length: 120mm
  • probe diameter: 3,3mm, perforated tip
    • ETI
    Air or Gas Probe, Type K Plug-Mounted Thermocouple, -75 to +250°C
    27,37 € *
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    • : 11 - 13 Workdays  (DE - int. shipments may differ)
    Ribbon Surface Probe, Type K Plug-Mounted Thermocouple,...
    Ribbon Surface Probe, Type K Plug-Mounted Thermocouple,...
    Ribbon Surface Probe, Type K Plug-Mounted Thermocouple, -75 to +250°C
    SKU:
    133-045
  • temperature range: -75 to +250°C
  • response time: less than 1s
  • length: 120mm, diameter: 8mm
    • ETI
    Ribbon Surface Probe, Type K Plug-Mounted Thermocouple, -75 to +250°C
    39,27 € *
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    • : 11 - 13 Workdays  (DE - int. shipments may differ)
    Ribbon Surface Probe, 90° Angled Sensor Head, -75 to...
    Ribbon Surface Probe, 90° Angled Sensor Head, -75 to...
    Ribbon Surface Probe, 90° Angled Sensor Head, -75 to +250°C
    SKU:
    133-046
  • temperature range: -75 to +250°C
  • response time: less than 1s
  • length: 120mm, diameter: 8mm
    • ETI
    Ribbon Surface Probe, 90° Angled Sensor Head, -75 to +250°C
    35,70 € *
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    • : 11 - 13 Workdays  (DE - int. shipments may differ)
    In stock
    Thermocouple, 1m PTFE Wires, Exposed Junction Plug, -75...
    Thermocouple, 1m PTFE Wires, Exposed Junction Plug, -75...
    Thermocouple, 1m PTFE Wires, Exposed Junction Plug, -75 to +250°C
    SKU:
    133-362
  • probe temperature range: -75 to +250°C
  • high accuracy
  • fast response time: <0,5s
  • exposed wires 
  • probe length: 1000mm, PTFE insulated 
  • probe diameter: 1.5mm
  • ETI #133-362
    • ETI
    Thermocouple, 1m PTFE Wires, Exposed Junction Plug, -75 to +250°C
    15,47 € *
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    • : 1 - 3 Workdays  (DE - int. shipments may differ)

    Thermocouples: Fundamentals of Temperature Measurement

    Thermocouples are specialized sensors used for measuring temperatures in a wide range of applications. They operate based on the principle of the thermoelectric effect, where voltage is generated when two different metals are connected and exposed to different temperatures. This effect enables the measurement of temperature differences, allowing precise temperature values to be determined. Thermocouples are particularly suitable for use in extreme environments, as they provide reliable results at both very high and very low temperatures. Their simple yet effective functionality makes them an indispensable tool in many technical and scientific fields.

    How Thermocouples Are Used in Industry

    In industry, thermocouples play a crucial role in monitoring and controlling temperatures in various processes. Whether in metal processing, chemical production, or energy generation, thermocouples are used wherever precise temperature control is required. Their durability and ability to provide accurate measurements even under challenging conditions make them an ideal choice for industrial applications. Accurate temperature measurement is essential in many processes to ensure product quality or to keep machinery and equipment operating within optimal parameters.

    The Functionality of Thermocouples in Detail

    Thermocouples work based on two differently conductive metals that are connected at one point. When the temperature at this point increases, an electric voltage is generated, which is proportional to the temperature difference. This voltage can be measured and converted into a temperature value. Due to their construction, thermocouples are particularly robust and can be manufactured in different designs to meet the specific requirements of various applications. Their functionality is simple yet highly effective, making them one of the most widely used temperature measurement methods in science and technology.

    Thermocouples and Their Importance in Research

    In scientific research, thermocouples are an essential tool for conducting precise and reliable temperature measurements. Particularly in experiments carried out under extreme temperature conditions, thermocouples offer the advantage of providing stable and accurate values even under heavy stress. The precise monitoring of temperatures is crucial in many research fields to analyze processes and gain scientific insights. Thanks to their versatility and high reliability, thermocouples are used across a wide range of scientific disciplines, from materials research to physics and chemistry.

    How to find the thermocouple for my application?

    How to Find the Right Temperature Sensor for Your Application – A Comprehensive Guide

    Choosing the right temperature sensor is essential for accurate measurements and the smooth operation of your application – whether in industrial settings, laboratories, building automation, or private use. However, with the wide range of available sensors, making the right decision can be challenging. In this guide, you will learn what to look out for in order to select the ideal temperature sensor for your specific application.

    1. What Is a Temperature Sensor?

    A temperature sensor – also known as a temperature probe – is an electronic component that converts temperature differences into an electrical signal. This signal can then be used for display, control, or data recording. The most common types include:

    • PT100 / PT1000 (Platinum Resistance Thermometers)

    • Thermocouples (e.g., Type K, J, T)

    • NTC / PTC Thermistors

    • Digital Temperature Sensors

    Each of these sensor types has specific characteristics that make them particularly suitable for certain applications.

    2. Application Areas Determine the Type of Sensor

    To begin with, you should ask yourself where and for what purpose you intend to use the temperature sensor. Typical areas of application include:

    Process Engineering & Industrial Automation

    PT100 / PT1000 sensors or thermocouples are often used here, as they offer high accuracy, fast response times, and a wide temperature range.

    Building Automation & HVAC

    For monitoring room temperatures, heating systems, or ventilation units, NTC sensors or digital sensors are often suitable due to their easy integration.

    Food Industry & Medical Technology

    High hygiene standards and fast response times require special, often waterproof sensors with appropriate certifications.

    Research & Laboratory

    In sensitive measuring environments, highly precise resistance thermometers (e.g., PT100 in 1/10 DIN class) are recommended.

    3. Key Selection Criteria for Temperature Sensors

    To find the right sensor, you should consider the following criteria:

    Temperature Range

    Determine the minimum and maximum temperatures the sensor needs to measure. Thermocouples, for example, are ideal for extreme temperatures.

    Accuracy & Tolerance Class

    Choose the accuracy level required for your application – for example, Class A or B for PT100 sensors.

    Response Time

    In dynamic processes, a fast response time is crucial for reliable measurement.

    Design and Installation Method

    Whether you need an immersion sleeve, screw-in sensor, surface sensor, or penetration probe – the design must match your specific setup.

    Media Resistance & Protection Rating

    Ensure the sensor materials (e.g., stainless steel, Teflon) and protection class (e.g., IP65, IP68) are suitable for the environment – especially in humid or chemically aggressive conditions.

    Signal Processing / Output Signal

    Do you need an analog signal (e.g., 4–20 mA), a digital signal (e.g., I²C, One-Wire), or a direct resistance signal?

    4. Custom Solutions and Expert Consultation

    In many cases, it is worthwhile to seek expert advice from a specialist distributor or measurement technology expert, especially if you need custom solutions or have specific requirements – such as applications in hazardous areas (ATEX) or demanding hygienic environments.

    5. Conclusion: How to Choose the Right Temperature Sensor

    The ideal temperature sensor depends on a range of factors – from the temperature range and environmental conditions to the signal type. Start by clearly defining your requirements and consult an expert if in doubt. This ensures that your temperature measurement is reliable, accurate, and durable.

    Need help finding the right temperature sensor?
    We are happy to support you with our many years of experience in professional measurement technology. Contact us at priggen@priggen.com for personal advice or browse our wide selection of temperature sensors for every application at www.priggen.com.

    Gerne! Hier ist die einwandfreie englische Übersetzung des Textes über kalibrierte Thermoelemente:

    Are Calibrated Thermocouples Available? – Everything You Need to Know

    If your application depends on precise temperature measurements, you will eventually ask yourself: Are calibrated thermocouples available – and what are their benefits?
    The answer is: Yes, thermocouples can be calibrated, and in many industries – such as manufacturing, laboratory environments, medical technology, or quality assurance – calibration is either required or highly recommended.

    In this article, we’ll explain what a calibrated thermocouple is, what to consider when selecting one, and the advantages of using calibrated sensors.

    What Is a Thermocouple?

    A thermocouple is a type of temperature sensor made from two different metallic conductors joined at one end. Due to the thermoelectric effect, a voltage is generated that changes with temperature. This voltage can be measured and converted into a temperature reading.

    Common types include:

    • Type K (Nickel-Chromium / Nickel) – widely used, robust, broad temperature range

    • Type J (Iron / Copper-Nickel) – suitable for lower temperatures

    • Type T (Copper / Copper-Nickel) – highly accurate at low temperatures

    • Types N, S, R, B – for high-temperature or specialized applications

    What Does "Calibrated Thermocouple" Mean?

    A calibrated thermocouple is a sensor whose measurement accuracy has been tested and documented in a calibration laboratory. The calibration is carried out over a defined temperature range, where the thermocouple is compared to a traceable reference sensor. The deviation from the standard curve is then recorded.

    The result is a calibration certificate, which typically includes:

    • The measured temperature range

    • Actual values and deviations from the target values

    • Measurement uncertainty

    • Traceability to national or international standards (e.g., DAkkS, ISO 17025)

    Why Are Calibrated Thermocouples Important?

    Calibrated thermocouples provide verified accuracy and reliable results. They are especially important in the following areas:

    • Quality assurance under ISO 9001

    • Validated processes in the pharmaceutical, food, or medical industries

    • Precise temperature monitoring in industrial furnaces, test benches, or laboratories

    • Comparative measurements and certifications

    Only calibrated sensors ensure your temperature data is reliable, comparable, and compliant with industry standards.

    Where Can You Get Calibrated Thermocouples?

    At priggen.com, we offer a wide selection of high-quality thermocouples, available with or without calibration certificates, depending on your specific needs.

    You can choose from the following calibration options:

    • Factory calibration – suitable for most industrial applications

    • UKAS-/ DAkkS calibration – for highest accuracy and full traceability

    • Custom calibration ranges – tailored to your requirements

    • Multi-point calibration – across several temperature points if needed

    Our team will gladly assist you in selecting the right sensor and calibration method – customized for your application.

    Conclusion: Calibrated Thermocouples – Accurate, Reliable, and Traceable

    Yes, calibrated thermocouples are available – and in many cases, they are indispensable for achieving compliant, safe, and precise temperature measurements. If your application relies on accurate data or operates within a regulated industry, using calibrated sensors is a must.

    Need help selecting a calibrated thermocouple?
    The team at priggen.com is here to support you with expert advice. Contact us at priggen@priggen.com or visit our online store for professional measurement technology, featuring a wide range of temperature sensors, calibration services, and accessories.