Why choose DONGYA?
advantages

Flexibility - Interchangeable shunts are designed to allow for flexibility in current range measurements. With interchangeable shunts, users can easily switch out the shunts to measure different current ranges, eliminating the need for multiple devices.

Accuracy - Interchangeable shunts typically provide high accuracy current measurement across a wide range of currents. This is particularly useful for applications where there are wide variations in current flow.

Ease of Use - Interchangeable shunts are easy to install and use, requiring minimal technical expertise to operate. This makes them ideal for use in a variety of settings, including industrial, laboratory, and scientific environments.

Cost Effective - Interchangeable shunts are a cost - effective solution for current measurement applications. As they can be easily swapped out, there is no need to purchase additional devices when measuring different current ranges.

Wide Range of Options - Interchangeable shunts are available in a wide range of values, making it easy to find a shunt that suits the specific needs of a particular application.

What is a shunt?
A shunt is an instrument for measuring DC current, which is made according to the principle that a voltage is generated at both ends of a resistor when a DC current passes through it. Shunts are often used in power systems to measure the current flowing through high-current circuits, especially for systems where large currents exceed the capacity of normal current measuring devices or meters. Shunts consist of low resistance components, usually made of copper or other low resistance high thermal conductivity material. Resistors are usually placed inside metal enclosures to provide electrical isolation and heat dissipation. Then place the shunt in series with the circuit and measure the voltage drop across the shunt with an instrument such as a voltmeter.
advantages
How to choose a interchangeable shunt?

Dongya Interchangeable shunts are often used in electrical circuits to measure current. When selecting an interchangeable shunt, the following factors should be considered.

Shunt Accuracy: Make sure that the current reading taken from the shunt is as close as possible to the actual current in the circuit.

Shunt Resistor: The lower the resistance value, the better the sensitivity, but it also results in a larger voltage drop across the shunt.

Shunt Operating Current: Make sure the shunt is capable of measuring the maximum current of the circuit.

Temperature Coefficient: Consider any temperature changes in the application and select the shunt that best fits the expected temperature range.

Current Waveform: Consider the type of current waveform in your circuit, whether it is AC, DC, or pulsed.

Shunt Material: The shunt material must have a low temperature coefficient of resistance and low thermal resistance.

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