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Rectangular & Circular Waveguide: Equations & Fields

Visit the Anatech Electronics website

 

The following equations and images describe electromagnetic waves inside both rectangular waveguide and circular (round) waveguides. Oval waveguide equations are not included due to the mathematical complexity.

 

See the online cavity resonance calculator here.

Here is a waveguide selection chart.

Click here for a nice waveguide tutorial.

Click here for a transmission lines & waveguide presentation.

 

 

 

Rectangular Waveguide

Click here for a table of TE and TM mode field equations for rectangular waveguides.

Cutoff Frequency

The lower cutoff frequency (or wavelength) for a particular mode in rectangular waveguide is determined by the following equations:

Waveguide equation formula drawingWaveguide equation formula drawing (Hz)

Waveguide equation formula drawing (m)

where

a=
b=
m=
n=
e =
m =

Inside width
Inside height
Number of ½-wavelength variations of fields in the "a" direction
Number of ½-wavelength variations of fields in the "b" direction
Permittivity
Permeability

TE (Transverse Electric) Mode

The TE10 mode is the dominant mode of a rectangular waveguide with a>b, since it has the lowest attenuation of all modes. Either m or n can be zero, but not both.

Waveguide equation formula drawing fields
End View (TE10)

  Waveguide equation formula drawing fields
Side View (TE10)

Waveguide equation formula drawing fields
Top View (TE10)

 ____ Electric field lines
   _ _ _ Magnetic field lines

TM (Transverse Magnetic) Mode

 For TM modes, m=0 and n=0 are not possible, thus, TM11 is the lowest possible TM mode.

Waveguide equation formula drawing fields
End View (TM11)

  Waveguide equation formula drawing fields
Side View (TM11)

 ____ Electric field lines
   _ _ _ Magnetic field lines

 

 Circular Waveguide

Click here for a table of TE and TM mode field equations for circular waveguides.

TE (Transverse Electric) Mode

Waveguide equation formula drawing fields

The lower cutoff frequency (or wavelength) for a particular TE mode in circular waveguide is determined by the following equation:

Waveguide equation formula drawing fields (m),

where p'mn is

mp'm1p'm2p'm3
03.8327.01610.174
11.8415.3318.536
23.0546.7069.970

TM (Transverse Magnetic) Mode

The lower cutoff frequency (or wavelength) for a particular TM mode in circular waveguide is determined by the following equation:

Waveguide equation formula drawing fields (m),

where pmn is

mpm1pm2pm3
02.4055.5208.654
13.8327.01610.174
25.1358.41711.620

 

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