RS PRO Type K Mineral Insulated Thermocouple 200mm Length, 6mm Diameter → +1100°C
Technical documents
Specifications
Brand
RS ProThermocouple Type
K
Probe Diameter
6mm
Probe Length
200mm
Probe Material
Stainless Steel
Maximum Temperature Sensed
+1100°C
Termination Type
Compact KNS Head
Standards Met
IEC, RoHS Compliant
Country of Origin
United Kingdom
Product details
RS Pro IEC Mineral Insulated Type K Thermocouple with KNS Terminal Head
From RS Pro a range of type K thermocouple temperature sensors or probes that conform to IEC 584 standards. These thermocouple temperature probes have durable construction and feature a 310 stainless steel mineral insulated flexible probe sheath that can be bent and formed to suit a wide range of applications. The thermocouple has a single element insulated hot junction for a reduction in electrical interference. One end of the thermocouple is terminated with a compact KNS terminal head that provides access to and protects the connections
How does a Thermocouple Work?
A thermocouple is a sensor used to measure temperature in a range of different processes and consists of two wire legs made from different metals joined together at their two ends to form two junctions. The hot, or measuring junction is connected to the body whose temperature is going to be measured. The cold junction or reference junction is connected to a body of known temperature. When the measuring junction is placed on something hot a voltage or potential difference between this and the reference junction occurs. This voltage can then be converted into a temperature measurement using thermocouple reference tables. This process is also known as the Seebeck Effect
What is an Insulated Junction?
An insulated or ungrounded junction is where the thermocouple wires are welded together and fully covered by but insulated from the outer protective sheath, often by the use of mineral insulation. The advantage of this is that there is a reduction in electrical interference and a stable reading
What is Mineral Insulation?
Mineral insulation is used to insulate the thermocouple wires from one another and from the metal probe sheath that surrounds them. The sheath is filled with a highly compacted magnesium oxide powder that prevents the conductors from making contact with one another other than at the fixed junction. The high density of the mineral powder enables the thermocouple to have a rapid response as it promotes a fast heat transfer between the conductor and the sheath. Mineral insulation also helps to protect the thermocouple wire from environmental damage including corrosion, prevents electrical interference and allows the cable to be flexible whilst maintaining its mechanical strength
What is a Terminal Head?
A terminal head is designed to provide access to the connections between the sensor and instrument wiring and providing protection from the elements. The KNS terminal head on this thermocouple has a cast aluminium finish and is IP67 rated. Built into the head is a 2 way ceramic block, a 1/8 BSP base probe entry and an M16 x 1.5 mm side cable entry with a brass plated cable gland. The head can handle a maximum temperature of up to 170°C and features a screw cap and retaining chain
Key Features and Benefits
Insulated hot junction for reduced electrical interference
Mineral insulation for flexibility, durability and high performance
Conforms to IEC 584 standards
Flexible, can be bent into shape for easy installation
310 stainless steel sheath for resistance to corrosion and oxidation
6 mm diameter probe
Wide temperature range of -40° to +1100°C
IP 67 rated
Termination head for connection access and protection
M16 x 1.5 mm brass plated cable gland
Applications
Type K Thermocouples (Nickel-Chromium / Nickel-Aluminium) are the most common type of thermocouple and are both accurate and flexible with a wide temperature range. Typical applications for these mineral insulated Type-K thermocouple probes include heat exchangers, power stations, brick and cement kilns, heat treatment and annealing furnaces, thermostats, food thermometers, vehicle diagnostics and in laboratories
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Technical documents
Specifications
Brand
RS ProThermocouple Type
K
Probe Diameter
6mm
Probe Length
200mm
Probe Material
Stainless Steel
Maximum Temperature Sensed
+1100°C
Termination Type
Compact KNS Head
Standards Met
IEC, RoHS Compliant
Country of Origin
United Kingdom
Product details
RS Pro IEC Mineral Insulated Type K Thermocouple with KNS Terminal Head
From RS Pro a range of type K thermocouple temperature sensors or probes that conform to IEC 584 standards. These thermocouple temperature probes have durable construction and feature a 310 stainless steel mineral insulated flexible probe sheath that can be bent and formed to suit a wide range of applications. The thermocouple has a single element insulated hot junction for a reduction in electrical interference. One end of the thermocouple is terminated with a compact KNS terminal head that provides access to and protects the connections
How does a Thermocouple Work?
A thermocouple is a sensor used to measure temperature in a range of different processes and consists of two wire legs made from different metals joined together at their two ends to form two junctions. The hot, or measuring junction is connected to the body whose temperature is going to be measured. The cold junction or reference junction is connected to a body of known temperature. When the measuring junction is placed on something hot a voltage or potential difference between this and the reference junction occurs. This voltage can then be converted into a temperature measurement using thermocouple reference tables. This process is also known as the Seebeck Effect
What is an Insulated Junction?
An insulated or ungrounded junction is where the thermocouple wires are welded together and fully covered by but insulated from the outer protective sheath, often by the use of mineral insulation. The advantage of this is that there is a reduction in electrical interference and a stable reading
What is Mineral Insulation?
Mineral insulation is used to insulate the thermocouple wires from one another and from the metal probe sheath that surrounds them. The sheath is filled with a highly compacted magnesium oxide powder that prevents the conductors from making contact with one another other than at the fixed junction. The high density of the mineral powder enables the thermocouple to have a rapid response as it promotes a fast heat transfer between the conductor and the sheath. Mineral insulation also helps to protect the thermocouple wire from environmental damage including corrosion, prevents electrical interference and allows the cable to be flexible whilst maintaining its mechanical strength
What is a Terminal Head?
A terminal head is designed to provide access to the connections between the sensor and instrument wiring and providing protection from the elements. The KNS terminal head on this thermocouple has a cast aluminium finish and is IP67 rated. Built into the head is a 2 way ceramic block, a 1/8 BSP base probe entry and an M16 x 1.5 mm side cable entry with a brass plated cable gland. The head can handle a maximum temperature of up to 170°C and features a screw cap and retaining chain
Key Features and Benefits
Insulated hot junction for reduced electrical interference
Mineral insulation for flexibility, durability and high performance
Conforms to IEC 584 standards
Flexible, can be bent into shape for easy installation
310 stainless steel sheath for resistance to corrosion and oxidation
6 mm diameter probe
Wide temperature range of -40° to +1100°C
IP 67 rated
Termination head for connection access and protection
M16 x 1.5 mm brass plated cable gland
Applications
Type K Thermocouples (Nickel-Chromium / Nickel-Aluminium) are the most common type of thermocouple and are both accurate and flexible with a wide temperature range. Typical applications for these mineral insulated Type-K thermocouple probes include heat exchangers, power stations, brick and cement kilns, heat treatment and annealing furnaces, thermostats, food thermometers, vehicle diagnostics and in laboratories