From 8f067262846ccfcfd4d447b1dccdf364cc18196b Mon Sep 17 00:00:00 2001 From: Tyler Perkins Date: Thu, 11 Nov 2021 17:15:01 -0500 Subject: [PATCH] Update for 11-11-21 17:15 --- tech/Antenna.wiki | 50 +++++++++++++++++++++++++++++++++++------------ tech/Ham.wiki | 1 + tech/SWR.wiki | 3 +++ 3 files changed, 41 insertions(+), 13 deletions(-) create mode 100644 tech/SWR.wiki diff --git a/tech/Antenna.wiki b/tech/Antenna.wiki index a040051..82268f4 100644 --- a/tech/Antenna.wiki +++ b/tech/Antenna.wiki @@ -1,35 +1,47 @@ = Antenna = -An antenna is some type of conductor, used to propogate radio signals. This is +An antenna is some type of conductor, used to propagate radio signals. This is done because an electric current in metal induces an electromagnetic field. -This can be transmitted and recieved by an antenna. When the antenna recieves +This can be transmitted and received by an antenna. When the antenna receives the signal, an electric current is induced in the antenna due to the intersection of the electromagnetic radiation in a conductor. *Polarization* is what orientation the electric field is from an antenna. This is the same orientation as the conductor of the antenna. To get the best -signal, the sending and recieving signals must be of the same polarization. +signal, the sending and receiving signals must be of the same polarization. -Due to how signals propagate through the atmostphere, their polarization -changes dramaticly, and therefore it often doesnt matter what oerientation an -antenna has when working with signals that propogate often (such as HF, see -[[frequency_range]]). This phenomenon is called eliptical polarization. +Due to how signals propagate through the atmosphere, their polarization +changes dramatically, and therefore it often doesn't matter what orientation an +antenna has when working with signals that propagate often (such as HF, see +[[frequency_range]]). This phenomenon is called elliptical polarization. == Feed line == A feed line delivers a signal to the antenna. The ratio of voltage to current -is [[Impedance]]. This is due to the ratio of the physical dimesnions of the +is [[Impedance]]. This is due to the ratio of the physical dimensions of the feed point, and the frequency of the signal. They are said to be in _resonance_ -when the feed point impedance is all resistance with no reactance. +when the feed point impedance is all resistance with no reactance. All feed +lines have a characteristic impedance. This is different then the resistance of +the feed line. Things like length, conductors, spacing, etc determine the +impedance. -The feed points impredance is heavily affected by nearby conductors and its +The feed points impedance is heavily affected by nearby conductors and its height above ground. +A common feed line in Coax, due to its ease of use. Most for radio +coax has an characteristic impedance of *50 ohms*. TV coax has an impedance of +75 ohms. + +Another common feed line is made of two leads, seperated by plastic. It is +called open wire, ladder line, window line, or twin lead. Becuase there is +little to no shielding, there is less loss than coax. However, it is very +sensitive to other nearby conductors. + == Gain == Gain is concentrating an antenna's radiated signals in a specific direction. Gain aids in concentrating the antenna in an intended direction. This is done -by creating waves that constructivly add in certain directions, and destruvily +by creating waves that constructively add in certain directions, and destructively subtract in others. *Omnidirectional antenna* radiate in all directions, and therefore have an @@ -44,5 +56,17 @@ reference. Gain is measured in decibels (dB) and is in reference to something, most often an isotropic antenna (abbr. dBi) or with respect to a dipoles peak gain (abbr. -dBd). The gain is often showns using an azimuthal and elevation diagram, -showing views from the top and side respecivly. +dBd). The gain is often shown using an azimuthal and elevation diagram, +showing views from the top and side respectively. + +Decibels are logarithmic in nature and therefore are calculated as shown + +dB = 10 log (power ratio) + +db = 20 log (voltage ratio) + +Example: what is the power change from 5W to 10W, in dB? + +10 log (10 / 5) = 10 (0.3010) = 3dB + + diff --git a/tech/Ham.wiki b/tech/Ham.wiki index 8d7a206..d16230c 100644 --- a/tech/Ham.wiki +++ b/tech/Ham.wiki @@ -35,3 +35,4 @@ see [[electronics]] [[Propagation]] [[Antenna]] +[[SWR]] diff --git a/tech/SWR.wiki b/tech/SWR.wiki new file mode 100644 index 0000000..1879e6e --- /dev/null +++ b/tech/SWR.wiki @@ -0,0 +1,3 @@ += SWR = + +Standing Wave Radio (SWR)