Iron Loss in Maxwell Bridge Calculator

✖Current 1 in Maxwell Bridge is the current flowing through the first arm of the maxwell bridge.ⓘ Current 1 in Maxwell Bridge [I_1(max)]			+10% -10%
✖Effective Resistance in Maxwell Bridge refers to the equivalent resistance seen by the current flowing through the inductor with unknown inductance in bridge circuit.ⓘ Effective Resistance in Maxwell Bridge [R_eff(max)]			+10% -10%
✖Coil Winding Resistance in Maxwell Bridge is the resistance of the coil winding of the bridge.ⓘ Coil Winding Resistance in Maxwell Bridge [R_c(max)]			+10% -10%

✖Iron Loss in Maxwell Bridge is the additional resistive component in the inductance measurement caused by hysteresis and eddy current losses in the ferromagnetic core material.ⓘ Iron Loss in Maxwell Bridge [W_(max)]

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Iron Loss in Maxwell Bridge Solution

STEP 0: Pre-Calculation Summary

Formula Used

Iron Loss in Maxwell Bridge = Current 1 in Maxwell Bridge^2*(Effective Resistance in Maxwell Bridge-Coil Winding Resistance in Maxwell Bridge)
W_(max) = I_1(max)^2*(R_eff(max)-R_c(max))
This formula uses 4 Variables

Variables Used

Iron Loss in Maxwell Bridge - (Measured in Watt) - Iron Loss in Maxwell Bridge is the additional resistive component in the inductance measurement caused by hysteresis and eddy current losses in the ferromagnetic core material.
Current 1 in Maxwell Bridge - (Measured in Ampere) - Current 1 in Maxwell Bridge is the current flowing through the first arm of the maxwell bridge.
Effective Resistance in Maxwell Bridge - (Measured in Ohm) - Effective Resistance in Maxwell Bridge refers to the equivalent resistance seen by the current flowing through the inductor with unknown inductance in bridge circuit.
Coil Winding Resistance in Maxwell Bridge - (Measured in Ohm) - Coil Winding Resistance in Maxwell Bridge is the resistance of the coil winding of the bridge.

STEP 1: Convert Input(s) to Base Unit

Current 1 in Maxwell Bridge: 1.2 Ampere --> 1.2 Ampere No Conversion Required
Effective Resistance in Maxwell Bridge: 13 Ohm --> 13 Ohm No Conversion Required
Coil Winding Resistance in Maxwell Bridge: 1.3 Ohm --> 1.3 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

W_(max) = I_1(max)^2*(R_eff(max)-R_c(max)) --> 1.2^2*(13-1.3)

Evaluating ... ...

W_(max) = 16.848

STEP 3: Convert Result to Output's Unit

16.848 Watt --> No Conversion Required

FINAL ANSWER

16.848 Watt <-- Iron Loss in Maxwell Bridge

(Calculation completed in 00.004 seconds)

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< Maxwell Bridge Calculators

Unknown Resistance in Maxwell Inductance Bridge

LaTeX Go Unknown Resistance in Maxwell Bridge = (Known Resistance 3 in Maxwell Bridge/Known Resistance 4 in Maxwell Bridge)*(Variable Resistance in Maxwell Bridge+Decade Resistance in Maxwell Bridge)

Unknown Inductance in Maxwell Inductance Bridge

LaTeX Go Unknown Inductance in Maxwell Bridge = (Known Resistance 3 in Maxwell Bridge/Known Resistance 4 in Maxwell Bridge)*Variable Inductance in Maxwell Bridge

Iron Loss in Maxwell Bridge

LaTeX Go Iron Loss in Maxwell Bridge = Current 1 in Maxwell Bridge^2*(Effective Resistance in Maxwell Bridge-Coil Winding Resistance in Maxwell Bridge)

Quality Factor of Maxwell Inductance-Capacitance Bridge

LaTeX Go Quality Factor in Maxwell Bridge = (Angular Frequency*Unknown Inductance in Maxwell Bridge)/Effective Resistance in Maxwell Bridge

Iron Loss in Maxwell Bridge Formula

LaTeX Go

Iron Loss in Maxwell Bridge = Current 1 in Maxwell Bridge^2*(Effective Resistance in Maxwell Bridge-Coil Winding Resistance in Maxwell Bridge)
W_(max) = I_1(max)^2*(R_eff(max)-R_c(max))

What Principle is used in the working of Maxwell Bridge?

The Maxwell Bridge is a type of bridge that uses a capacitor to provide a high impedance path to AC signals. The bridge is operated by a principle known as the Kelvin-Voigt model, which uses the capacitor to block high-frequency signals and allow low-frequency signals to pass through. This allows the bridge to act as a low-pass filter, making it useful for applications such as signal averaging and filtering.

How to Calculate Iron Loss in Maxwell Bridge?

Iron Loss in Maxwell Bridge calculator uses Iron Loss in Maxwell Bridge = Current 1 in Maxwell Bridge^2*(Effective Resistance in Maxwell Bridge-Coil Winding Resistance in Maxwell Bridge) to calculate the Iron Loss in Maxwell Bridge, The Iron Loss in Maxwell Bridge formula is defined as the loss due to additional resistive component in the inductance measurement caused by hysteresis and eddy current losses in the ferromagnetic core material. Iron Loss in Maxwell Bridge is denoted by W_(max) symbol.

How to calculate Iron Loss in Maxwell Bridge using this online calculator? To use this online calculator for Iron Loss in Maxwell Bridge, enter Current 1 in Maxwell Bridge (I_1(max)), Effective Resistance in Maxwell Bridge (R_eff(max)) & Coil Winding Resistance in Maxwell Bridge (R_c(max)) and hit the calculate button. Here is how the Iron Loss in Maxwell Bridge calculation can be explained with given input values -> 16.848 = 1.2^2*(13-1.3).

FAQ

What is Iron Loss in Maxwell Bridge?

The Iron Loss in Maxwell Bridge formula is defined as the loss due to additional resistive component in the inductance measurement caused by hysteresis and eddy current losses in the ferromagnetic core material and is represented as W_(max) = I_1(max)^2*(R_eff(max)-R_c(max)) or Iron Loss in Maxwell Bridge = Current 1 in Maxwell Bridge^2*(Effective Resistance in Maxwell Bridge-Coil Winding Resistance in Maxwell Bridge). Current 1 in Maxwell Bridge is the current flowing through the first arm of the maxwell bridge, Effective Resistance in Maxwell Bridge refers to the equivalent resistance seen by the current flowing through the inductor with unknown inductance in bridge circuit & Coil Winding Resistance in Maxwell Bridge is the resistance of the coil winding of the bridge.

How to calculate Iron Loss in Maxwell Bridge?

The Iron Loss in Maxwell Bridge formula is defined as the loss due to additional resistive component in the inductance measurement caused by hysteresis and eddy current losses in the ferromagnetic core material is calculated using Iron Loss in Maxwell Bridge = Current 1 in Maxwell Bridge^2*(Effective Resistance in Maxwell Bridge-Coil Winding Resistance in Maxwell Bridge). To calculate Iron Loss in Maxwell Bridge, you need Current 1 in Maxwell Bridge (I_1(max)), Effective Resistance in Maxwell Bridge (R_eff(max)) & Coil Winding Resistance in Maxwell Bridge (R_c(max)). With our tool, you need to enter the respective value for Current 1 in Maxwell Bridge, Effective Resistance in Maxwell Bridge & Coil Winding Resistance in Maxwell Bridge and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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