Relative Pitch of Wound Conductor Solution

STEP 0: Pre-Calculation Summary
Formula Used
Relative Pitch of Wound Conductor = (Length of Spiral/(2*Radius of Layer))
Pcond = (Ls/(2*rlayer))
This formula uses 3 Variables
Variables Used
Relative Pitch of Wound Conductor - Relative pitch of wound conductor is the relative pitch refers to the spacing or arrangement between turns of a wound conductor in transmission lines or antennas.
Length of Spiral - (Measured in Meter) - The length of spiral in a transmission line or antenna depends on several factors, including the desired operating frequency and the physical dimensions of the spiral itself.
Radius of Layer - (Measured in Meter) - Radius of layer is the radius of a transmission line typically refers to the physical radius or the size of the conductors used in the transmission line structure.
STEP 1: Convert Input(s) to Base Unit
Length of Spiral: 8 Meter --> 8 Meter No Conversion Required
Radius of Layer: 3.01 Meter --> 3.01 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Pcond = (Ls/(2*rlayer)) --> (8/(2*3.01))
Evaluating ... ...
Pcond = 1.32890365448505
STEP 3: Convert Result to Output's Unit
1.32890365448505 --> No Conversion Required
FINAL ANSWER
1.32890365448505 1.328904 <-- Relative Pitch of Wound Conductor
(Calculation completed in 00.004 seconds)

Credits

Created by Vidyashree V
BMS College of Engineering (BMSCE), Bangalore
Vidyashree V has created this Calculator and 25+ more calculators!
Verified by Saiju Shah
Jayawantrao Sawant College of Engineering (JSCOE), Pune
Saiju Shah has verified this Calculator and 25+ more calculators!

15 Transmission Line Characteristics Calculators

Reflection Coefficient in Transmission Line
Go Reflection Coefficient = (Load Impedance of Transmission Line-Characteristics Impedance of Transmission Line)/(Load Impedance of Transmission Line+Characteristics Impedance of Transmission Line)
Resistance at Second Temperature
Go Final Resistance = Initial Resistance*((Temperature Coefficient+Final Temperature)/(Temperature Coefficient+Initial Temperature))
Impedance Matching in Single Section Quarter Wave Line
Go Characteristics Impedance of Transmission Line = sqrt(Load Impedance of Transmission Line*Source Impedance)
Insertion Loss in Transmission Line
Go Insertion Loss = 10*log10(Power Transmitted Before Insertion/Power Received After Insertion)
Return Loss by Means of VSWR
Go Return Loss = 20*log10((Voltage Standing Wave Ratio+1)/(Voltage Standing Wave Ratio-1))
Bandwidth of Antenna
Go Bandwidth of Antenna = 100*((Highest Frequency-Lowest Frequency)/Centre Frequency)
Length of Wound Conductor
Go Length of Wound Conductor = sqrt(1+(pi/Relative Pitch of Wound Conductor)^2)
Characteristic Impedance of Transmission Line
Go Characteristics Impedance of Transmission Line = sqrt(Inductance/Capacitance)
Voltage Standing Wave Ratio (VSWR)
Go Voltage Standing Wave Ratio = (1+Reflection Coefficient)/(1-Reflection Coefficient)
Conductance of Distortionless Line
Go Conductance = (Resistance*Capacitance)/Inductance
Relative Pitch of Wound Conductor
Go Relative Pitch of Wound Conductor = (Length of Spiral/(2*Radius of Layer))
Current Standing Wave Ratio (CSWR)
Go Current Standing Wave Ratio = Current Maxima/Current Minima
Standing Wave Ratio
Go Standing Wave Ratio (SWR) = Voltage Maxima/Voltage Minima
Wavelength of Line
Go Wavelength = (2*pi)/Propagation Constant
Phase Velocity in Transmission Lines
Go Phase Velocity = Wavelength*Frequency

Relative Pitch of Wound Conductor Formula

Relative Pitch of Wound Conductor = (Length of Spiral/(2*Radius of Layer))
Pcond = (Ls/(2*rlayer))

What is the purpose of Stranded aluminum conductor with stranded steel core (ACSR)?

The purpose of introducing a steel core inside the stranded aluminum conductors is to obtain a high strength-to-weight ratio. A stranded conductor offers more flexibility and easier to manufacture than a solid large conductor. However, the total resistance is increased because the outside strands are larger than the inside strands on account of the spiraling.

How to Calculate Relative Pitch of Wound Conductor?

Relative Pitch of Wound Conductor calculator uses Relative Pitch of Wound Conductor = (Length of Spiral/(2*Radius of Layer)) to calculate the Relative Pitch of Wound Conductor, The Relative Pitch of Wound Conductor formula is defined as the ratio of length of the spiral to the twice the radius of the layer. Relative pitch of wound conductor is the relative pitch refers to the spacing or arrangement between turns of a wound conductor in transmission lines or antennas. Relative Pitch of Wound Conductor is denoted by Pcond symbol.

How to calculate Relative Pitch of Wound Conductor using this online calculator? To use this online calculator for Relative Pitch of Wound Conductor, enter Length of Spiral (Ls) & Radius of Layer (rlayer) and hit the calculate button. Here is how the Relative Pitch of Wound Conductor calculation can be explained with given input values -> 1.328904 = (8/(2*3.01)).

FAQ

What is Relative Pitch of Wound Conductor?
The Relative Pitch of Wound Conductor formula is defined as the ratio of length of the spiral to the twice the radius of the layer. Relative pitch of wound conductor is the relative pitch refers to the spacing or arrangement between turns of a wound conductor in transmission lines or antennas and is represented as Pcond = (Ls/(2*rlayer)) or Relative Pitch of Wound Conductor = (Length of Spiral/(2*Radius of Layer)). The length of spiral in a transmission line or antenna depends on several factors, including the desired operating frequency and the physical dimensions of the spiral itself & Radius of layer is the radius of a transmission line typically refers to the physical radius or the size of the conductors used in the transmission line structure.
How to calculate Relative Pitch of Wound Conductor?
The Relative Pitch of Wound Conductor formula is defined as the ratio of length of the spiral to the twice the radius of the layer. Relative pitch of wound conductor is the relative pitch refers to the spacing or arrangement between turns of a wound conductor in transmission lines or antennas is calculated using Relative Pitch of Wound Conductor = (Length of Spiral/(2*Radius of Layer)). To calculate Relative Pitch of Wound Conductor, you need Length of Spiral (Ls) & Radius of Layer (rlayer). With our tool, you need to enter the respective value for Length of Spiral & Radius of Layer and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!