List of Surveys, Measurements, and Services products
- classification:Surveys, Measurements, and Services
136~180 item / All 30349 items
High precision of ±1 ppm, capable of measuring up to 60 channels within a temperature range of -200 to 962°C.
- Analysis and prediction system
High precision of ±0.8 mK, capable of measuring up to 60 channels within a temperature range of -200 to 962°C.
- Analysis and prediction system
High precision of ±0.8 mK, capable of measuring up to 60 channels within a temperature range of -200 to 962°C.
- Analysis and prediction system
High precision of ±0.8 mK, with a temperature range of -200 to 962°C, capable of measuring up to 60 channels.
- Analysis and prediction system
Conduct traceable calibration with a short lead time. Pressure: -1 to 500 MPa (including absolute pressure and atmospheric pressure) Temperature: -196 °C to +1200 °C
- Other measuring instruments
Oxygen-free oil treatment and oil and grease-free measures in WIKA's calibration technology.
Why is it important to have oxygen embargo processing and oil and grease-free conditions in the oxygen supply line? Oxygen itself is not flammable, but it can promote the combustion of other substances and can particularly trigger the spontaneous ignition of oils and fats. Substances that do not burn in the air may ignite spontaneously in oxygen or oxygen-enriched air. This phenomenon can occur even with an oxygen concentration of just a few percent, and especially oils and fats (including ointments, gels, and disinfectants) can react explosively when in contact with oxygen. WIKA has responded to the increasing market demand by developing a special cleaning method specifically for its products. Cleaning is performed after product completion and before packaging, and residual hydrocarbons are measured. The following values are set as standards: Hydrocarbon limit: maximum 200 mg/m² (according to ISO 15001:2012) Particles and fibers: limit value 1000 μm The results of the assessment are recorded in the inspection certificate. A protective cap is attached to the pressure connection of the cleaned and inspected digital pressure gauge, and the entire equipment is sealed with foil. Furthermore, the product label states "Contains no oxygen, oil, or grease." This measurement is conducted for each individual digital pressure gauge.
Conduct traceable calibration with a short lead time. Pressure: -1 to 500 MPa (absolute pressure, including atmospheric pressure) Temperature: -196 °C to +1200 °C
- Other measuring instruments
Oxygen-free oil treatment and oil and grease-free measures in WIKA's calibration technology.
Why is it important to have oxygen embargo processing and oil and grease-free conditions in the oxygen supply line? Oxygen itself is not flammable, but it can promote the combustion of other substances and can particularly trigger the spontaneous ignition of oils and fats. Substances that do not burn in the air may ignite spontaneously in oxygen or oxygen-enriched air. This phenomenon can occur even with an oxygen concentration of just a few percent, and especially oils and fats (including ointments, gels, and disinfectants) can react explosively when in contact with oxygen. WIKA has responded to the increasing market demand by developing a special cleaning method specifically for its products. Cleaning is performed after product completion and before packaging, and residual hydrocarbons are measured. The following values are set as standards: Hydrocarbon limit: maximum 200 mg/m² (according to ISO 15001:2012) Particles and fibers: limit value 1000 μm The results of the assessment are recorded in the inspection certificate. A protective cap is attached to the pressure connection of the cleaned and inspected digital pressure gauge, and the entire equipment is sealed with foil. Furthermore, the product label states "Contains no oxygen, oil, or grease." This measurement is conducted for each individual digital pressure gauge.
Conduct traceable calibration with ILAC-MRA certification in a short timeframe. Pressure range: -1 to 500 MPa (including absolute pressure and atmospheric pressure).
- Other measuring instruments
Conduct traceable calibration with ILAC-MRA certification in a short delivery time. Temperature range: -196 °C to +1200 °C.
- Other measuring instruments
Sanitary Level Transmitter (EMEA/410/01)
- Other measuring instruments
High precision of ±1 ppm, capable of measuring up to 60 channels within a temperature range of -200 to 962°C.
- Analysis and prediction system
High precision of ±1 ppm, capable of measuring up to 60 channels within a temperature range of -200 to 962°C.
- Analysis and prediction system
High precision of ±0.8 mK, with a temperature range of -200 to 962°C, capable of measuring up to 60 channels.
- Analysis and prediction system
High precision of ±0.8 mK, capable of measuring up to 60 channels within a temperature range of -200 to 962°C.
- Analysis and prediction system
World's highest precision performance in resistance thermometer measurements. High precision: 20 ppb, high resolution: 1 ppb specifications.
- Analysis and prediction system
World's highest precision performance in resistance thermometer measurements. High precision: 20 ppb, high resolution: 1 ppb specifications.
- Analysis and prediction system
World's highest precision performance in resistance thermometer measurements. High precision: 20 ppb, high resolution: 1 ppb specifications.
- Analysis and prediction system
World's highest precision performance in resistance thermometer measurements. High precision: 20 ppb, high resolution: 1 ppb specifications.
- Analysis and prediction system
World's highest precision performance in resistance thermometer measurements. High precision: 20 ppb, high resolution: 1 ppb specifications.
- Analysis and prediction system
It is a high-precision resistor with excellent long-term stability, low temperature coefficient, and made of durable stainless steel.
- Other measuring instruments
It is a high-precision resistor made of durable stainless steel, featuring excellent long-term stability and a low temperature coefficient.
- Other measuring instruments
It is a high-precision resistor with excellent long-term stability, low temperature coefficient, and made of durable stainless steel.
- Other measuring instruments
It is a high-precision resistor made of durable stainless steel, featuring excellent long-term stability and a low temperature coefficient.
- Other measuring instruments
It is a high-precision resistor with excellent long-term stability, low temperature coefficient, and made of durable stainless steel.
- Other measuring instruments
![[SINGLAS Certified Calibration] Pre...](https://image.www.ipros.com/public/product/image/609/2000689700/IPROS96768807553608798640.jpeg?w=280&h=280){kind=small}
Conduct traceable calibration with a short lead time. Pressure: -1 to 500 MPa (absolute pressure, including atmospheric pressure) Temperature: -196 °C to +1200 °C
- Other measuring instruments
Oxygen-free oil treatment and oil and grease-free measures in WIKA's calibration technology.
Why is it important to have oxygen embargo processing and oil and grease-free conditions in the oxygen supply line? Oxygen itself is not flammable, but it can promote the combustion of other substances and can particularly trigger the spontaneous ignition of oils and fats. Substances that do not burn in the air may ignite spontaneously in oxygen or oxygen-enriched air. This phenomenon can occur even with an oxygen concentration of just a few percent, and especially oils and fats (including ointments, gels, and disinfectants) can react explosively when in contact with oxygen. WIKA has responded to the increasing market demand by developing a special cleaning method specifically for its products. Cleaning is performed after product completion and before packaging, and residual hydrocarbons are measured. The following values are set as standards: Hydrocarbon limit: maximum 200 mg/m² (according to ISO 15001:2012) Particles and fibers: limit value 1000 μm The results of the assessment are recorded in the inspection certificate. A protective cap is attached to the pressure connection of the cleaned and inspected digital pressure gauge, and the entire equipment is sealed with foil. Furthermore, the product label states "Contains no oxygen, oil, or grease." This measurement is conducted for each individual digital pressure gauge.
Accuracy: 0.1 K (0.05 K at 0°C), display resolution: 0.1°C, temperature range: -10 … 0 … +100 °C temperature calibration bus.
- Other measuring instruments
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus with temperature setting possible from -45 to +300 °C.
- Other measuring instruments
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus capable of temperature setting from -45 to +300 °C.
- Other measuring instruments
Accuracy: 0.1 K (0.05 K at 0°C), display resolution: 0.1°C, temperature range: -10 … 0 … +100 °C temperature calibration bus.
- Other measuring instruments
Accuracy: 0.15 ... 0.25 K, Resolution: 0.001℃, Temperature Range: -55 ... +200 °C high-precision temperature calibration bus.
- Other measuring instruments
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus capable of temperature setting from -45 to +300 °C.
- Other measuring instruments
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus capable of temperature settings from -45 to +300 °C.
- Other measuring instruments
About the Calibration of Thermometers at WIKA - Meaning and Necessity
Calibration is not performed using the same testing method for all cases. The choice of testing method varies based on various factors such as process conditions, quality standards, and safety requirements. Depending on the testing method, it is also possible to demonstrate that the calibration item has a measurement accuracy that is twice as precise. This becomes an extremely important factor in enhancing process efficiency. Calibrating temperature measuring instruments is essential for various reasons and meanings. The calibration of thermocouples and resistance temperature detectors is becoming increasingly important in light of recent material shortages and the need for manufacturing process efficiency. Improving measurement accuracy leads to savings in materials and reductions in pollutant emissions, and the calibration of thermometers is also related to safety. For example, if the measuring instruments on a production line do not display correct values and process control is erroneous, there is a risk of accidents or quality defects. The importance of calibration is evident in everyday examples, such as household gas and water consumption meters and fuel gauges at service station fuel pumps. For these reasons, regular calibration of temperature measuring instruments is necessary to reconfirm the reliability of measurement values and to assess changes over time. When accuracy or operation becomes questionable, consider readjusting or replacing the thermometer.
![[Range: -35 to +165°C] Temperature ...](https://image.www.ipros.com/public/product/image/4c0/2000687516/IPROS98041706638408433517.png?w=280&h=280){kind=small}
Accuracy: ±0.2K, Resolution: 0.1, Multi-functional temperature calibration bus capable of temperature setting in the range of -35 to +165°C.
- Other measuring instruments
About the calibration of thermometers at WIKA - Implementation at accredited calibration laboratories according to ISO and ILAC-MRA.
In Germany, ISO and ILAC-MRA accredited calibration is typically carried out at calibration testing facilities accredited by the German Accreditation Body (DAkkS). Many measurement instrument manufacturers also have such facilities in-house. These facilities operate independently of the products and perform complex calibration-related tasks. Complex tasks range from checking in-house standards to calibrating customer-specific products, such as assembled multi-point thermometers. It is also possible for customers and quality managers of calibration testing facilities to collaborate in developing the necessary calibration processes for the factory. It is essential to define situations where standard checks are sufficient, where customer-specific solutions are meaningful, or where using accredited mobile calibration testing facilities can reduce process downtime. Therefore, communication between the customer and the personnel of the calibration testing facility is conducted to define the relevant temperature points and measurement uncertainties. Following such processes, decisions are made regarding the equipment used for calibration.
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus capable of temperature setting from -45 to +300 °C.
- Other measuring instruments
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus capable of temperature setting from -45 to +300 °C.
- Other measuring instruments
About the Calibration of Thermometers at WIKA - Meaning and Necessity
Calibration is not performed using the same testing method for all cases. The choice of testing method varies based on various factors such as process conditions, quality standards, and safety requirements. Depending on the testing method, it is also possible to demonstrate that the calibration item has a measurement accuracy that is twice as precise. This becomes an extremely important factor in enhancing process efficiency. Calibrating temperature measuring instruments is essential for various reasons and meanings. The calibration of thermocouples and resistance temperature detectors is becoming increasingly important in light of recent material shortages and the need for manufacturing process efficiency. Improving measurement accuracy leads to savings in materials and reductions in pollutant emissions, and the calibration of thermometers is also related to safety. For example, if the measuring instruments on a production line do not display correct values and process control is erroneous, there is a risk of accidents or quality defects. The importance of calibration is evident in everyday examples, such as household gas and water consumption meters and fuel gauges at service station fuel pumps. For these reasons, regular calibration of temperature measuring instruments is necessary to reconfirm the reliability of measurement values and to assess changes over time. When accuracy or operation becomes questionable, consider readjusting or replacing the thermometer.
Accuracy: 0.1 K (0.05 K at 0°C), display resolution: 0.1°C, temperature range: -10 … 0 … +100 °C temperature calibration bus.
- Other measuring instruments
About the Calibration of Thermometers at WIKA - What is the Role of a Trusted Partner?
WIKA provides both fixed-point calibration and comparative calibration services, and the appropriate calibration method is determined by the accuracy requirements and the type of test item. Calibration of thermometers can be performed over a temperature range from -196°C to +1200°C. Calibration certificates can be selected from general calibration EN3.1 inspection certificates (factory calibration) or DKD/DAkkS certificates (ILAC-MRA compliant). For thermometer calibration, a calibration cycle of one year is generally recommended. WIKA also calibrates products from manufacturers other than our own. We support the calibration of electrical thermometers with transmitters, resistance temperature detectors, thermocouples, and more. Since 1982, WIKA has been a member of the German national standard calibration service (DKD) and actively participates in DKD working groups and standardization committees. Our calibration laboratory and mobile calibration services are accredited in accordance with DIN EN ISO / IEC 17025.
Accuracy: 0.15 ... 0.25 K, Resolution: 0.001℃, Temperature Range: -55 ... +200 °C high-precision temperature calibration bus.
- Other measuring instruments
About the Calibration of Thermometers at WIKA - Meaning and Necessity
Calibration is not performed using the same testing method for all cases. The choice of testing method varies based on various factors such as process conditions, quality standards, and safety requirements. Depending on the testing method, it is also possible to demonstrate that the calibration item has a measurement accuracy that is twice as precise. This becomes an extremely important factor in enhancing process efficiency. Calibrating temperature measuring instruments is essential for various reasons and meanings. The calibration of thermocouples and resistance temperature detectors is becoming increasingly important in light of recent material shortages and the need for manufacturing process efficiency. Improving measurement accuracy leads to savings in materials and reductions in pollutant emissions, and the calibration of thermometers is also related to safety. For example, if the measuring instruments on a production line do not display correct values and process control is erroneous, there is a risk of accidents or quality defects. The importance of calibration is evident in everyday examples, such as household gas and water consumption meters and fuel gauges at service station fuel pumps. For these reasons, regular calibration of temperature measuring instruments is necessary to reconfirm the reliability of measurement values and to assess changes over time. When accuracy or operation becomes questionable, consider readjusting or replacing the thermometer.
Accuracy: 0.15 ... 0.25 K, Resolution: 0.001℃, Temperature Range: -55 ... +200 °C high-precision temperature calibration bus.
- Other measuring instruments
Calibration of Thermometers at WIKA - Requirements and Traceability
Calibration of thermometers is often something that many customers cannot perform in-house. This is especially true for calibration processes certified according to ILAC-MRA certification, ISO 9001, or equivalent quality assurance systems. From a quality assurance perspective, regular checks of measuring instruments are necessary, and at the same time, traceability must be ensured. Simply put, traceability means that "in order to reliably compare measurement results, the measurement results must be able to be 'traced back' to standards (national or international) through a chain of comparative measurements." In relation to this standard, when the readings of the measuring instruments used and the measured values of the materials are compared, it becomes possible to perform calibration at a higher level. During these stages, calibration is conducted against standards that have been previously calibrated by higher precision calibration instruments. Standards are defined according to ranks established by law, which extends from working standards or factory standards to reference standards and national standards. Based on this ranking, the calibration hierarchy of the implementing organization is defined. This ranking spans a wide range, from in-house calibration testing facilities to accredited calibration laboratories and national meteorological institutes.
Accuracy: ±0.2K, Resolution: 0.1, Temperature range: Calibration bus with a wide temperature range capable of temperature settings from -40 to +255°C.
- Other measuring instruments
Accuracy: ±0.2K, Resolution: 0.1, Temperature range: Calibration bus capable of temperature setting from -40 to +255°C.
- Other measuring instruments
About the Calibration of Thermometers at WIKA - Meaning and Necessity
Calibration is not performed using the same testing method for all cases. The choice of testing method varies based on various factors such as process conditions, quality standards, and safety requirements. Depending on the testing method, it is also possible to demonstrate that the calibration item has a measurement accuracy that is twice as precise. This becomes an extremely important factor in enhancing process efficiency. Calibrating temperature measuring instruments is essential for various reasons and meanings. The calibration of thermocouples and resistance temperature detectors is becoming increasingly important in light of recent material shortages and the need for manufacturing process efficiency. Improving measurement accuracy leads to savings in materials and reductions in pollutant emissions, and the calibration of thermometers is also related to safety. For example, if the measuring instruments on a production line do not display correct values and process control is erroneous, there is a risk of accidents or quality defects. The importance of calibration is evident in everyday examples, such as household gas and water consumption meters and fuel gauges at service station fuel pumps. For these reasons, regular calibration of temperature measuring instruments is necessary to reconfirm the reliability of measurement values and to assess changes over time. When accuracy or operation becomes questionable, consider readjusting or replacing the thermometer.
Accuracy: ±0.2K, Resolution: 0.1, Temperature range: Calibration bus with temperature setting possible from -40 to +255°C.
- Other measuring instruments
Accuracy: 0.15 ... 0.25 K, Resolution: 0.001℃, Temperature Range: -55 ... +200 °C high-precision temperature calibration bus.
- Other measuring instruments
Accuracy: ±0.02K, Resolution: 0.1℃, Temperature range: Heating and cooling calibration bus capable of temperature setting from -45 to +300 °C.
- Other measuring instruments
Accuracy: ±0.2K, Resolution: 0.1, Temperature range: Multi-functional temperature calibration bus capable of temperature settings from -35 to +165°C.
- Other measuring instruments
Accuracy: ±0.2K, Resolution: 0.1, Multi-functional temperature calibration bus capable of temperature setting in the range of -35 to +165°C.
- Other measuring instruments
Accuracy: 0.15 ... 0.25 K, Resolution: 0.001℃, Temperature Range: -55 ... +200 °C high-precision temperature calibration bus.
- Other measuring instruments