Specific Electric Loading using Output Coefficient AC Calculator

✖Output coefficient AC is, Substitution of equations of electric loading and magnetic loadings in the power equation, we have, where C0 is called the output coefficient.(11 Bav q Kw η cos Φ x 10-3).ⓘ Output Coefficient AC [C_o(ac)]			+10% -10%
✖Specific Magnetic loading is defined as the total flux per unit area over the surface of the armature periphery and is denoted by B_av for any electrical machine.ⓘ Specific Magnetic Loading [B_av]			+10% -10%
✖The winding factor, also known as the pitch factor or the distribution factor, is a parameter used in the design and analysis of electrical machines, such as motors and generators.ⓘ Winding Factor [K_w]			+10% -10%

✖Specific Electric Loading is defined as the electric loading/unit length of armature periphery and is denoted by "q".ⓘ Specific Electric Loading using Output Coefficient AC [q_av]

⎘ Copy

👎

Formula

LaTeX

Reset

👍

Download AC Machines Formulas PDF PDF Image

Specific Electric Loading using Output Coefficient AC Solution

STEP 0: Pre-Calculation Summary

Formula Used

Specific Electric Loading = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Winding Factor)
q_av = (C_o(ac)*1000)/(11*B_av*K_w)
This formula uses 4 Variables

Variables Used

Specific Electric Loading - (Measured in Ampere Conductor per Meter) - Specific Electric Loading is defined as the electric loading/unit length of armature periphery and is denoted by "q".
Output Coefficient AC - Output coefficient AC is, Substitution of equations of electric loading and magnetic loadings in the power equation, we have, where C0 is called the output coefficient.(11 Bav q Kw η cos Φ x 10-3).
Specific Magnetic Loading - (Measured in Tesla) - Specific Magnetic loading is defined as the total flux per unit area over the surface of the armature periphery and is denoted by B_av for any electrical machine.
Winding Factor - The winding factor, also known as the pitch factor or the distribution factor, is a parameter used in the design and analysis of electrical machines, such as motors and generators.

STEP 1: Convert Input(s) to Base Unit

Output Coefficient AC: 0.85 --> No Conversion Required
Specific Magnetic Loading: 0.458 Weber per Square Meter --> 0.458 Tesla (Check conversion here)
Winding Factor: 0.9 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

q_av = (C_o(ac)*1000)/(11*B_av*K_w) --> (0.85*1000)/(11*0.458*0.9)

Evaluating ... ...

q_av = 187.464161263288

STEP 3: Convert Result to Output's Unit

187.464161263288 Ampere Conductor per Meter --> No Conversion Required

FINAL ANSWER

187.464161263288 ≈ 187.4642 Ampere Conductor per Meter <-- Specific Electric Loading

(Calculation completed in 00.012 seconds)

You are here -

Home » Engineering » Electrical » Electrical Machine Design » AC Machines » Electrical Parameters » Specific Electric Loading using Output Coefficient AC

Credits

Created by swapanshil kumar

ramgarh engineering college (REC), ramgarh

swapanshil kumar has created this Calculator and 25+ more calculators!

Verified by Parminder Singh

Chandigarh University (CU), Punjab

Parminder Singh has verified this Calculator and 500+ more calculators!

< Electrical Parameters Calculators

Specific Electric Loading

LaTeX Go Specific Electric Loading = (Armature Current*Number of Conductors)/(pi*Number of Parallel Paths*Armature Diameter)

Output Power of Synchronous Machine

LaTeX Go Output Power = Output Coefficient AC*1000*Armature Diameter^2*Armature Core Length*Synchronous Speed

Specific Electric Loading using Output Coefficient AC

LaTeX Go Specific Electric Loading = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Winding Factor)

Winding Factor using Output Coefficient AC

LaTeX Go Winding Factor = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Specific Electric Loading)

Specific Electric Loading using Output Coefficient AC Formula

LaTeX Go

Specific Electric Loading = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Winding Factor)
q_av = (C_o(ac)*1000)/(11*B_av*K_w)

What is Output equation of synchronous machines?

output equation formula relates the output and main dimensions of the machine and it is basically provides the power developed in the armature of an electrical machine in kilowatt(Kw).

What is the general range of electric loading?

Most electric motors are designed to run at 50% to 100% of rated load. Maximum efficiency is usually near 75% of rated load. Thus, a 10-horsepower (hp) motor has an acceptable load range of 5 to 10 hp; peak efficiency is at 7.5 hp. A motor's efficiency tends to decrease dramatically below about 50% load.

How to Calculate Specific Electric Loading using Output Coefficient AC?

Specific Electric Loading using Output Coefficient AC calculator uses Specific Electric Loading = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Winding Factor) to calculate the Specific Electric Loading, The Specific Electric Loading using output coefficient ac formula is defined as the electric loading/unit length of armature periphery and is denoted by "q". Specific Electric Loading is the current density in amperes per square meter (A/m²) or amperes per square millimeter (A/mm²). Output Coefficient is the specific output or output coefficient of the AC machine design. Specific Electric Loading is denoted by q_av symbol.

How to calculate Specific Electric Loading using Output Coefficient AC using this online calculator? To use this online calculator for Specific Electric Loading using Output Coefficient AC, enter Output Coefficient AC (C_o(ac)), Specific Magnetic Loading (B_av) & Winding Factor (K_w) and hit the calculate button. Here is how the Specific Electric Loading using Output Coefficient AC calculation can be explained with given input values -> 187.4642 = (0.85*1000)/(11*0.458*0.9).

FAQ

What is Specific Electric Loading using Output Coefficient AC?

The Specific Electric Loading using output coefficient ac formula is defined as the electric loading/unit length of armature periphery and is denoted by "q". Specific Electric Loading is the current density in amperes per square meter (A/m²) or amperes per square millimeter (A/mm²). Output Coefficient is the specific output or output coefficient of the AC machine design and is represented as q_av = (C_o(ac)*1000)/(11*B_av*K_w) or Specific Electric Loading = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Winding Factor). Output coefficient AC is, Substitution of equations of electric loading and magnetic loadings in the power equation, we have, where C0 is called the output coefficient.(11 Bav q Kw η cos Φ x 10-3), Specific Magnetic loading is defined as the total flux per unit area over the surface of the armature periphery and is denoted by B_av for any electrical machine & The winding factor, also known as the pitch factor or the distribution factor, is a parameter used in the design and analysis of electrical machines, such as motors and generators.

How to calculate Specific Electric Loading using Output Coefficient AC?

The Specific Electric Loading using output coefficient ac formula is defined as the electric loading/unit length of armature periphery and is denoted by "q". Specific Electric Loading is the current density in amperes per square meter (A/m²) or amperes per square millimeter (A/mm²). Output Coefficient is the specific output or output coefficient of the AC machine design is calculated using Specific Electric Loading = (Output Coefficient AC*1000)/(11*Specific Magnetic Loading*Winding Factor). To calculate Specific Electric Loading using Output Coefficient AC, you need Output Coefficient AC (C_o(ac)), Specific Magnetic Loading (B_av) & Winding Factor (K_w). With our tool, you need to enter the respective value for Output Coefficient AC, Specific Magnetic Loading & Winding Factor and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Specific Electric Loading?

In this formula, Specific Electric Loading uses Output Coefficient AC, Specific Magnetic Loading & Winding Factor. We can use 1 other way(s) to calculate the same, which is/are as follows -

Specific Electric Loading = (Armature Current*Number of Conductors)/(pi*Number of Parallel Paths*Armature Diameter)

Home

FREE PDFs

🔍 Search