Radiation diagram of dipole
2
I would like to realize the radiation diagram of the dipole half-wave on latex but I can't find the good program. May I have the solution or an help please.
I'd like something realize this,
And something like this without arrows
diagrams
asked Dec 29 '18 at 2:17
Aurélien
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
add a comment |
2
I would like to realize the radiation diagram of the dipole half-wave on latex but I can't find the good program. May I have the solution or an help please.
I'd like something realize this,
And something like this without arrows
diagrams
asked Dec 29 '18 at 2:17
Aurélien
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
3
Welcome to TeX.SE! The purpose of this site is to exchange information on LaTeX codes. So most of the users here expect you to post some code that shows what you've tried. For newcomers this requirement is sometimes waived but I must say that I do not quite understand what you want to draw. TikZ comes with a decorationexpanding waves(see p. 581 of the pgfmanual) and one can draw dipoles with pgfplots, say. Could you perhaps add a sketch of what you want?
– marmot
Dec 29 '18 at 2:24
add a comment |
2
2
2
I would like to realize the radiation diagram of the dipole half-wave on latex but I can't find the good program. May I have the solution or an help please.
I'd like something realize this,
And something like this without arrows
diagrams
asked Dec 29 '18 at 2:17
Aurélien
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
I would like to realize the radiation diagram of the dipole half-wave on latex but I can't find the good program. May I have the solution or an help please.
I'd like something realize this,
And something like this without arrows
diagrams
diagrams
asked Dec 29 '18 at 2:17
Aurélien
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked Dec 29 '18 at 2:17
Aurélien
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
edited 2 days ago
asked Dec 29 '18 at 2:17
Aurélien
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked Dec 29 '18 at 2:17
Aurélien
203
asked Dec 29 '18 at 2:17
Aurélien
203
203
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
New contributor
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Aurélien is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
3
Welcome to TeX.SE! The purpose of this site is to exchange information on LaTeX codes. So most of the users here expect you to post some code that shows what you've tried. For newcomers this requirement is sometimes waived but I must say that I do not quite understand what you want to draw. TikZ comes with a decorationexpanding waves(see p. 581 of the pgfmanual) and one can draw dipoles with pgfplots, say. Could you perhaps add a sketch of what you want?
– marmot
Dec 29 '18 at 2:24
add a comment |
3
Welcome to TeX.SE! The purpose of this site is to exchange information on LaTeX codes. So most of the users here expect you to post some code that shows what you've tried. For newcomers this requirement is sometimes waived but I must say that I do not quite understand what you want to draw. TikZ comes with a decorationexpanding waves(see p. 581 of the pgfmanual) and one can draw dipoles with pgfplots, say. Could you perhaps add a sketch of what you want?
– marmot
Dec 29 '18 at 2:24
3
3
Welcome to TeX.SE! The purpose of this site is to exchange information on LaTeX codes. So most of the users here expect you to post some code that shows what you've tried. For newcomers this requirement is sometimes waived but I must say that I do not quite understand what you want to draw. TikZ comes with a decoration
expanding waves (see p. 581 of the pgfmanual) and one can draw dipoles with pgfplots, say. Could you perhaps add a sketch of what you want?– marmot
Dec 29 '18 at 2:24
Welcome to TeX.SE! The purpose of this site is to exchange information on LaTeX codes. So most of the users here expect you to post some code that shows what you've tried. For newcomers this requirement is sometimes waived but I must say that I do not quite understand what you want to draw. TikZ comes with a decoration
expanding waves (see p. 581 of the pgfmanual) and one can draw dipoles with pgfplots, say. Could you perhaps add a sketch of what you want?– marmot
Dec 29 '18 at 2:24
add a comment |
1 Answer
1
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oldest
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5
for illustration should suffice the following sketch (copied from one of the mine lecture notes):
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style = {circle, draw, minimum size=22mm,
node contents={}},
every pin/.style = {align=center}
]
node (n1) [circ];
node (n2) [circ,right=of n1,
pin=60:Field\ Strength];
draw [dash dot]
(n1.north -| n1.east) -- (n1.south -| n1.east)
node[below] {Side view};
draw [thick]
($(n2.east)+(2, 0.1)$) -| ++ (0.2, 1)
($(n2.east)+(2,-0.1)$) -| ++ (0.2,-1)
node[below] {Short Dipole};
end{tikzpicture}
end{document}
addendum: an approximation of provided images ...
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta, bending, calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style args = {#1/#2}{circle, draw=#1, fill=#1!30, semitransparent,
minimum size=#2,
node contents={}},
circ/.default = gray/22mm,
every pin/.style = {pin distance=9mm, align=center},
arr/.style = {ultra thick, red, -{Triangle[bend]},
shorten <=-5mm, shorten >=-5mm}
]
foreach R in {0.25,0.5,...,1}
draw[very thin, dashed, gray] (0,0) circle[radius=R*22mm];
foreach ang in {0,30,...,330}
draw[very thin, dashed, gray] (0,0) -- (ang:2.2)
node[font=footnotesize,pos=1.15] {ang};
%
node (n0) [circ=cyan/33mm,
pin=75:Field Strength of\ the isotropic antenna];
node (n1) [circ, left];
node (n2) [circ,right,
pin=30:Field Strength\ of a dipole];
%
draw[arr] (n0.105) to [bend right=45] (n1.120);
draw[arr] (n0.290) to [bend right=45] (n2.300);
%
node (n3) [draw,minimum size=2mm,pin=330:baloon] at (0,5) {};
draw[{BarStraight Barb}-{Straight BarbBar}]
($(n3.north)+(-2.3,0.2)$) --
node[above] {$lambda/2$}
($(n3.north)+(2.3,0.2)$);
draw[ultra thick]
(n3.west) -- ++ (-2.2,0)
(n3.east) -- ++ ( 2.2,0);
draw[double=gray!20,double distance=1mm, very thin]
(n3.south) -- coordinate[pin=165:coax] ++ (0,-2.1);
end{tikzpicture}
end{document}
answered Dec 29 '18 at 3:52
Zarko
121k865156
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
add a comment |
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5
for illustration should suffice the following sketch (copied from one of the mine lecture notes):
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style = {circle, draw, minimum size=22mm,
node contents={}},
every pin/.style = {align=center}
]
node (n1) [circ];
node (n2) [circ,right=of n1,
pin=60:Field\ Strength];
draw [dash dot]
(n1.north -| n1.east) -- (n1.south -| n1.east)
node[below] {Side view};
draw [thick]
($(n2.east)+(2, 0.1)$) -| ++ (0.2, 1)
($(n2.east)+(2,-0.1)$) -| ++ (0.2,-1)
node[below] {Short Dipole};
end{tikzpicture}
end{document}
addendum: an approximation of provided images ...
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta, bending, calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style args = {#1/#2}{circle, draw=#1, fill=#1!30, semitransparent,
minimum size=#2,
node contents={}},
circ/.default = gray/22mm,
every pin/.style = {pin distance=9mm, align=center},
arr/.style = {ultra thick, red, -{Triangle[bend]},
shorten <=-5mm, shorten >=-5mm}
]
foreach R in {0.25,0.5,...,1}
draw[very thin, dashed, gray] (0,0) circle[radius=R*22mm];
foreach ang in {0,30,...,330}
draw[very thin, dashed, gray] (0,0) -- (ang:2.2)
node[font=footnotesize,pos=1.15] {ang};
%
node (n0) [circ=cyan/33mm,
pin=75:Field Strength of\ the isotropic antenna];
node (n1) [circ, left];
node (n2) [circ,right,
pin=30:Field Strength\ of a dipole];
%
draw[arr] (n0.105) to [bend right=45] (n1.120);
draw[arr] (n0.290) to [bend right=45] (n2.300);
%
node (n3) [draw,minimum size=2mm,pin=330:baloon] at (0,5) {};
draw[{BarStraight Barb}-{Straight BarbBar}]
($(n3.north)+(-2.3,0.2)$) --
node[above] {$lambda/2$}
($(n3.north)+(2.3,0.2)$);
draw[ultra thick]
(n3.west) -- ++ (-2.2,0)
(n3.east) -- ++ ( 2.2,0);
draw[double=gray!20,double distance=1mm, very thin]
(n3.south) -- coordinate[pin=165:coax] ++ (0,-2.1);
end{tikzpicture}
end{document}
answered Dec 29 '18 at 3:52
Zarko
121k865156
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
add a comment |
5
for illustration should suffice the following sketch (copied from one of the mine lecture notes):
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style = {circle, draw, minimum size=22mm,
node contents={}},
every pin/.style = {align=center}
]
node (n1) [circ];
node (n2) [circ,right=of n1,
pin=60:Field\ Strength];
draw [dash dot]
(n1.north -| n1.east) -- (n1.south -| n1.east)
node[below] {Side view};
draw [thick]
($(n2.east)+(2, 0.1)$) -| ++ (0.2, 1)
($(n2.east)+(2,-0.1)$) -| ++ (0.2,-1)
node[below] {Short Dipole};
end{tikzpicture}
end{document}
addendum: an approximation of provided images ...
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta, bending, calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style args = {#1/#2}{circle, draw=#1, fill=#1!30, semitransparent,
minimum size=#2,
node contents={}},
circ/.default = gray/22mm,
every pin/.style = {pin distance=9mm, align=center},
arr/.style = {ultra thick, red, -{Triangle[bend]},
shorten <=-5mm, shorten >=-5mm}
]
foreach R in {0.25,0.5,...,1}
draw[very thin, dashed, gray] (0,0) circle[radius=R*22mm];
foreach ang in {0,30,...,330}
draw[very thin, dashed, gray] (0,0) -- (ang:2.2)
node[font=footnotesize,pos=1.15] {ang};
%
node (n0) [circ=cyan/33mm,
pin=75:Field Strength of\ the isotropic antenna];
node (n1) [circ, left];
node (n2) [circ,right,
pin=30:Field Strength\ of a dipole];
%
draw[arr] (n0.105) to [bend right=45] (n1.120);
draw[arr] (n0.290) to [bend right=45] (n2.300);
%
node (n3) [draw,minimum size=2mm,pin=330:baloon] at (0,5) {};
draw[{BarStraight Barb}-{Straight BarbBar}]
($(n3.north)+(-2.3,0.2)$) --
node[above] {$lambda/2$}
($(n3.north)+(2.3,0.2)$);
draw[ultra thick]
(n3.west) -- ++ (-2.2,0)
(n3.east) -- ++ ( 2.2,0);
draw[double=gray!20,double distance=1mm, very thin]
(n3.south) -- coordinate[pin=165:coax] ++ (0,-2.1);
end{tikzpicture}
end{document}
answered Dec 29 '18 at 3:52
Zarko
121k865156
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
add a comment |
5
5
5
for illustration should suffice the following sketch (copied from one of the mine lecture notes):
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style = {circle, draw, minimum size=22mm,
node contents={}},
every pin/.style = {align=center}
]
node (n1) [circ];
node (n2) [circ,right=of n1,
pin=60:Field\ Strength];
draw [dash dot]
(n1.north -| n1.east) -- (n1.south -| n1.east)
node[below] {Side view};
draw [thick]
($(n2.east)+(2, 0.1)$) -| ++ (0.2, 1)
($(n2.east)+(2,-0.1)$) -| ++ (0.2,-1)
node[below] {Short Dipole};
end{tikzpicture}
end{document}
addendum: an approximation of provided images ...
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta, bending, calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style args = {#1/#2}{circle, draw=#1, fill=#1!30, semitransparent,
minimum size=#2,
node contents={}},
circ/.default = gray/22mm,
every pin/.style = {pin distance=9mm, align=center},
arr/.style = {ultra thick, red, -{Triangle[bend]},
shorten <=-5mm, shorten >=-5mm}
]
foreach R in {0.25,0.5,...,1}
draw[very thin, dashed, gray] (0,0) circle[radius=R*22mm];
foreach ang in {0,30,...,330}
draw[very thin, dashed, gray] (0,0) -- (ang:2.2)
node[font=footnotesize,pos=1.15] {ang};
%
node (n0) [circ=cyan/33mm,
pin=75:Field Strength of\ the isotropic antenna];
node (n1) [circ, left];
node (n2) [circ,right,
pin=30:Field Strength\ of a dipole];
%
draw[arr] (n0.105) to [bend right=45] (n1.120);
draw[arr] (n0.290) to [bend right=45] (n2.300);
%
node (n3) [draw,minimum size=2mm,pin=330:baloon] at (0,5) {};
draw[{BarStraight Barb}-{Straight BarbBar}]
($(n3.north)+(-2.3,0.2)$) --
node[above] {$lambda/2$}
($(n3.north)+(2.3,0.2)$);
draw[ultra thick]
(n3.west) -- ++ (-2.2,0)
(n3.east) -- ++ ( 2.2,0);
draw[double=gray!20,double distance=1mm, very thin]
(n3.south) -- coordinate[pin=165:coax] ++ (0,-2.1);
end{tikzpicture}
end{document}
answered Dec 29 '18 at 3:52
Zarko
121k865156
for illustration should suffice the following sketch (copied from one of the mine lecture notes):
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style = {circle, draw, minimum size=22mm,
node contents={}},
every pin/.style = {align=center}
]
node (n1) [circ];
node (n2) [circ,right=of n1,
pin=60:Field\ Strength];
draw [dash dot]
(n1.north -| n1.east) -- (n1.south -| n1.east)
node[below] {Side view};
draw [thick]
($(n2.east)+(2, 0.1)$) -| ++ (0.2, 1)
($(n2.east)+(2,-0.1)$) -| ++ (0.2,-1)
node[below] {Short Dipole};
end{tikzpicture}
end{document}
addendum: an approximation of provided images ...
documentclass[tikz,margin=3.141592]{standalone}
usetikzlibrary{arrows.meta, bending, calc, positioning}
begin{document}
begin{tikzpicture}[
node distance = 0pt,
circ/.style args = {#1/#2}{circle, draw=#1, fill=#1!30, semitransparent,
minimum size=#2,
node contents={}},
circ/.default = gray/22mm,
every pin/.style = {pin distance=9mm, align=center},
arr/.style = {ultra thick, red, -{Triangle[bend]},
shorten <=-5mm, shorten >=-5mm}
]
foreach R in {0.25,0.5,...,1}
draw[very thin, dashed, gray] (0,0) circle[radius=R*22mm];
foreach ang in {0,30,...,330}
draw[very thin, dashed, gray] (0,0) -- (ang:2.2)
node[font=footnotesize,pos=1.15] {ang};
%
node (n0) [circ=cyan/33mm,
pin=75:Field Strength of\ the isotropic antenna];
node (n1) [circ, left];
node (n2) [circ,right,
pin=30:Field Strength\ of a dipole];
%
draw[arr] (n0.105) to [bend right=45] (n1.120);
draw[arr] (n0.290) to [bend right=45] (n2.300);
%
node (n3) [draw,minimum size=2mm,pin=330:baloon] at (0,5) {};
draw[{BarStraight Barb}-{Straight BarbBar}]
($(n3.north)+(-2.3,0.2)$) --
node[above] {$lambda/2$}
($(n3.north)+(2.3,0.2)$);
draw[ultra thick]
(n3.west) -- ++ (-2.2,0)
(n3.east) -- ++ ( 2.2,0);
draw[double=gray!20,double distance=1mm, very thin]
(n3.south) -- coordinate[pin=165:coax] ++ (0,-2.1);
end{tikzpicture}
end{document}
answered Dec 29 '18 at 3:52
Zarko
121k865156
edited 2 days ago
answered Dec 29 '18 at 3:52
Zarko
121k865156
answered Dec 29 '18 at 3:52
Zarko
121k865156
answered Dec 29 '18 at 3:52
Zarko
121k865156
121k865156
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
add a comment |
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
Thanks !!! And do you know how can I add the diagram of the isotropic antenna behind the diagram of the dipole like we can see on internet ? This is just to compare both antenna.
– Aurélien
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
@Aurélien, this is possible, however, that i can do this at least you need to provide me a link to the picture which you have in mind.
– Zarko
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok it's done, thanks!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
ok thanks very much !!
– Aurélien
2 days ago
add a comment |
Aurélien is a new contributor. Be nice, and check out our Code of Conduct.
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3
Welcome to TeX.SE! The purpose of this site is to exchange information on LaTeX codes. So most of the users here expect you to post some code that shows what you've tried. For newcomers this requirement is sometimes waived but I must say that I do not quite understand what you want to draw. TikZ comes with a decoration
expanding waves(see p. 581 of the pgfmanual) and one can draw dipoles with pgfplots, say. Could you perhaps add a sketch of what you want?– marmot
Dec 29 '18 at 2:24