Power Losses for TEM Mode Calculator

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✖Attenuation Constant is a function of the microstrip geometry, the electrical properties of the dielectric substrate and the conductors, and frequency.ⓘ Attenuation Constant [α]			+10% -10%
✖Transmitting Power is the movement of energy from its place of generation to a location where it is applied to perform useful work .ⓘ Transmitting Power [P_t]			+10% -10%

✖Power Losses for the TEM Mode is the total loss of power in in coaxial lines or circular waveguides which is required to be minimized to avoid wastage of power lost.ⓘ Power Losses for TEM Mode [P_loss]

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Power Losses for TEM Mode

Formula

`"P"_{"loss"} = 2*"α"*"P"_{"t"}`

Example

`"2.2386W"=2*"0.91dB/m"*"1.23W"`

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Power Losses for TEM Mode Solution

STEP 0: Pre-Calculation Summary

Formula Used

Power Losses for the TEM Mode = 2*Attenuation Constant*Transmitting Power
P_loss = 2*α*P_t
This formula uses 3 Variables

Variables Used

Power Losses for the TEM Mode - (Measured in Watt) - Power Losses for the TEM Mode is the total loss of power in in coaxial lines or circular waveguides which is required to be minimized to avoid wastage of power lost.
Attenuation Constant - (Measured in Decibel per Meter) - Attenuation Constant is a function of the microstrip geometry, the electrical properties of the dielectric substrate and the conductors, and frequency.
Transmitting Power - (Measured in Watt) - Transmitting Power is the movement of energy from its place of generation to a location where it is applied to perform useful work .

STEP 1: Convert Input(s) to Base Unit

Attenuation Constant: 0.91 Decibel per Meter --> 0.91 Decibel per Meter No Conversion Required
Transmitting Power: 1.23 Watt --> 1.23 Watt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_loss = 2*α*P_t --> 2*0.91*1.23

Evaluating ... ...

P_loss = 2.2386

STEP 3: Convert Result to Output's Unit

2.2386 Watt --> No Conversion Required

FINAL ANSWER

2.2386 Watt <-- Power Losses for the TEM Mode

(Calculation completed in 00.004 seconds)

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Created by Sai Sudha Vani Priya Lanka

Dayananda Sagar University (DSU), Bengaluru, Karnataka, India-560100

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< 17 Microwave Devices Calculators

Propagation Constant

Go Propagation Constant = Angular Frequency*(sqrt(Magnetic Permeability*Dielectric Permittivity))*(sqrt(1-((Cut-off Frequency/Frequency)^2)))

Attenuation for TEmn mode

Go Attenuation for the TEmn mode = (Conductivity*Intrinsic Impedance)/(2*sqrt(1-((Cut-off Frequency)/(Frequency))^2))

Attenuation for TMmn mode

Go Attenuation for the TMmn mode = ((Conductivity*Intrinsic Impedance)/2)*sqrt(1-(Cut-off Frequency/Frequency)^2)

Cut-off Frequency of Rectangular Waveguide

Go Cut-off Frequency = (1/(2*pi*sqrt(Magnetic Permeability*Dielectric Permittivity)))*Cut-off Wave Number

Surface Resistance of Guide Walls

Go Surface Resistance = sqrt((pi*Frequency*Magnetic Permeability)/(Conductivity))

Power Density of Spherical Wave

Go Power Density = (Power Transmitted*Transmitting Gain)/(4*pi*Distance between Antennas)

Wavelength for TEmn Modes

Go Wavelength for TEmn modes = (Wavelength)/(sqrt(1-(Cut-off Frequency/Frequency)^2))

Force Exerted on Particle

Go Force Exerted on Particle = (Charge of a Particle*Velocity of a Charged Particle)*Magnetic Flux Density

Cut-off Frequency of Circular Waveguide in Transverse Electric 11 Mode

Go Cut-off Frequency Circular Waveguide TE11 = ([c]*1.841)/(2*pi*Radius of Circular Waveguide)

Cut-off Frequency of Circular Waveguide in Transverse Magnetic 01 Mode

Go Cut-off Frequency Circular Waveguide TM01 = ([c]*2.405)/(2*pi*Radius of Circular Waveguide)

Characteristic Wave Impedance

Go Characteristic Wave Impedance = (Angular Frequency*Magnetic Permeability)/(Phase Constant)

Quality Factor

Go Quality Factor = (Angular Frequency*Maximum Stored Energy)/(Average Power Loss)

Maximum Stored Energy

Go Maximum Stored Energy = (Quality Factor*Average Power Loss)/Angular Frequency

Power Received by Antenna

Go Power Received by Antenna = Power Density of Antenna*Effective Area Antenna

Power Losses for TEM Mode

Go Power Losses for the TEM Mode = 2*Attenuation Constant*Transmitting Power

Critical Frequency for Vertical Incidence

Go Critical Frequency = 9*sqrt(Maximum Electron Density)

Phase Velocity of Rectangular Waveguide

Go Phase Velocity = Angular Frequency/Phase Constant

Power Losses for TEM Mode Formula

Power Losses for the TEM Mode = 2*Attenuation Constant*Transmitting Power
P_loss = 2*α*P_t

How many conductors are required to support TEM mode?

To support TEM mode, a minimum of two conductors are required. Parallel plate and stripline transmission lines support only the TEM mode of wave propagation. However, with non-idealities in the conductors and dielectric, the characteristics of the wave propagation vary.

How to Calculate Power Losses for TEM Mode?

Power Losses for TEM Mode calculator uses Power Losses for the TEM Mode = 2*Attenuation Constant*Transmitting Power to calculate the Power Losses for the TEM Mode, Power Losses for TEM Mode formula is defined as the total loss of power in coaxial lines or circular waveguides. It is calculated in order to avoid or minimize the wastage of power loss. Power Losses for the TEM Mode is denoted by P_loss symbol.

How to calculate Power Losses for TEM Mode using this online calculator? To use this online calculator for Power Losses for TEM Mode, enter Attenuation Constant (α) & Transmitting Power (P_t) and hit the calculate button. Here is how the Power Losses for TEM Mode calculation can be explained with given input values -> 2.2386 = 2*0.91*1.23.

FAQ

What is Power Losses for TEM Mode?

Power Losses for TEM Mode formula is defined as the total loss of power in coaxial lines or circular waveguides. It is calculated in order to avoid or minimize the wastage of power loss and is represented as P_loss = 2*α*P_t or Power Losses for the TEM Mode = 2*Attenuation Constant*Transmitting Power. Attenuation Constant is a function of the microstrip geometry, the electrical properties of the dielectric substrate and the conductors, and frequency & Transmitting Power is the movement of energy from its place of generation to a location where it is applied to perform useful work .

How to calculate Power Losses for TEM Mode?

Power Losses for TEM Mode formula is defined as the total loss of power in coaxial lines or circular waveguides. It is calculated in order to avoid or minimize the wastage of power loss is calculated using Power Losses for the TEM Mode = 2*Attenuation Constant*Transmitting Power. To calculate Power Losses for TEM Mode, you need Attenuation Constant (α) & Transmitting Power (P_t). With our tool, you need to enter the respective value for Attenuation Constant & Transmitting Power 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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