Full current is expected to reach the desired destination when sent along a conductive wire under perfect conditions. However, some current is usually lost during the transmission, making this to be impossible in the real world. Several factors make some current to be lost during the transmission. However, this loss of current can be managed by insulating conductive wires using resistant sheath. This is what Insulation tester is all about.
Sometimes the current is lost if the insulating sheath is made from imperfect materials. Machinery and electric circuits are greatly affected when there is leakage of current due to imperfect cladding. Such a case can be controlled by frequently testing the insulating material to determine its perfectness. Testing the material frequently can help to catch problems in advance before injuries or device failure happens because of loss of current.
This testing process is done using a pieces of equipment referred to as an cladding tester. The equipment tests the integrity of the cladding by measuring its resistance to the flow of current across it. If the cladding is of high quality, it means that very little current will escape through it. On the contrary, if the cladding offers very little resistance, then a higher amount of current will flow across it.
When measuring the quality of cladding, testers measure different types of currents. Absorption, capacitive, and leakage current are the three kinds of current that are measured. When voltage is first applied to a conductor, there is an initial burst of current that flows. This initial burst of current is referred to as capacitive current.
Capacitive current is the same as the first burst of water that flows out of a hose when the tap is first opened. The flow of water is usually very high initially, but it rapidly drops as the hose becomes fully filled with water. In this case, it is the conductor becoming fully charged that leads to the drop in the current flow.
Just like capacitive current, absorption current initially flows in large amount before dropping. However, the rate at which absorption current drops is much lower compared to that of capacitive current. Potential energy is stored in the cladding making the flow of absorption current to drop gradually. When testing the cladding of a material using time resistance method, absorption current is a very important aspect.
The third type of current tested is leakage current, which is also called conduction current. Unlike the other currents which drop over time, this type of current is small and steady. The current occurs both over and through the insulating sheath. Sheath that deteriorates in quality over time causes the leakage current to increase as time passes. The increase in leakage current as resistance decreases is indicated by an insulation test meter.
Currently, different types of cladding testers are available in the market. Different manufacturers from different countries produce these devices. The manufacturer of the equipment largely influences its quality. Different models of cladding testers are used to perform different functions. For instance, some testers are designed to perform testing in residential settings while other testers are meant to be used for testing equipment in industries.
Sometimes the current is lost if the insulating sheath is made from imperfect materials. Machinery and electric circuits are greatly affected when there is leakage of current due to imperfect cladding. Such a case can be controlled by frequently testing the insulating material to determine its perfectness. Testing the material frequently can help to catch problems in advance before injuries or device failure happens because of loss of current.
This testing process is done using a pieces of equipment referred to as an cladding tester. The equipment tests the integrity of the cladding by measuring its resistance to the flow of current across it. If the cladding is of high quality, it means that very little current will escape through it. On the contrary, if the cladding offers very little resistance, then a higher amount of current will flow across it.
When measuring the quality of cladding, testers measure different types of currents. Absorption, capacitive, and leakage current are the three kinds of current that are measured. When voltage is first applied to a conductor, there is an initial burst of current that flows. This initial burst of current is referred to as capacitive current.
Capacitive current is the same as the first burst of water that flows out of a hose when the tap is first opened. The flow of water is usually very high initially, but it rapidly drops as the hose becomes fully filled with water. In this case, it is the conductor becoming fully charged that leads to the drop in the current flow.
Just like capacitive current, absorption current initially flows in large amount before dropping. However, the rate at which absorption current drops is much lower compared to that of capacitive current. Potential energy is stored in the cladding making the flow of absorption current to drop gradually. When testing the cladding of a material using time resistance method, absorption current is a very important aspect.
The third type of current tested is leakage current, which is also called conduction current. Unlike the other currents which drop over time, this type of current is small and steady. The current occurs both over and through the insulating sheath. Sheath that deteriorates in quality over time causes the leakage current to increase as time passes. The increase in leakage current as resistance decreases is indicated by an insulation test meter.
Currently, different types of cladding testers are available in the market. Different manufacturers from different countries produce these devices. The manufacturer of the equipment largely influences its quality. Different models of cladding testers are used to perform different functions. For instance, some testers are designed to perform testing in residential settings while other testers are meant to be used for testing equipment in industries.
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Find details about the benefits you get when you use an insulation tester. If you have any questions, see the main page at http://www.rossengineeringcorp.com.
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