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Lee Hanken
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Episode: 756
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Title: HPR0756: Basics of RF
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Source: https://hub.hackerpublicradio.org/ccdn.php?filename=/eps/hpr0756/hpr0756.mp3
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Transcribed: 2025-10-08 01:57:47
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---
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Welcome to Hacker Public Radio. Today we're talking about the basics of our...
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Hello and welcome to Hacker Public Radio. Today we're going to talk about radio
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frequencies and radio. How does it work? My call signs W3 are AZ and I'm also
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known as Gorkon from the Linux Link Tech Show. Can graciously has allowed
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well a lot of us to actually put shows out on Hacker Public Radio feed and he
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actually asked a question if I can cover it and I want to try and cover this to
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the best of my abilities and that is what is RF exactly? What's radio
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frequencies? How does it work? And some basics that you may need to understand if
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you decide to go and take the Emature Radio exam. Now the next show I record I
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will detail from the US aspect on what you need to do to get your
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Emature Radio license. So first off what is radio frequencies or what is radio?
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Well if you see a light bulb near you or a television or anything that
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produces light you're actually looking at radio. Now what do I mean by that?
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Well radio quite simply is an electromagnetic transmission that is
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radiated from antenna. I'll get to more about some of that as we go further in.
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So what happens is radio frequencies radio is essentially light. That's why
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you know it is also guided by the speed of light. Your transmission is not
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going to go any faster than C or the speed of light. Now getting a little bit
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deeper into the physics than I wanted to but basically that's really what it is.
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And how they ended up coming up with radio remember I talked about spark gap
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transmitters and basically all they had to do was turn a sine wave on and turn a
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sine wave off. That's really all they did and Morse code was decided by short
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sine waves and long sine waves. So it's a combination of those that make up a
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character. So it's really that simple. Now the way a phone or conventional radio
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that most people are used to is how it works is you have like a microphone
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which a microphone is essentially the same thing as a speaker. It's definitely
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not exactly the same but it's essentially for all types of purposes is. There's a
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diaphragm that vibrates as you talk and moves back and forth as your voice
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comes out of your mouth and then translates that into a electrical signal. Now
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in radio at least conventional one methods of radio that we're used to most radio
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is analog. Now there is digital radio and I'm not gonna get too far into that
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because I really don't have any of those but it operates in the same principle. How
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it vibrates its diaphragm is different. So with radio what happens is that
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signal that you're getting from a microphone will then do what we call
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modulate a sine wave. Now most people have heard of what AM and FM. Those are both
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forms of modulation. Modulation can occur in pretty much two different modes. First
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one that was first invented was amplitude. So basically what happened is the
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sine wave would be modulated in the amplitude of the signal. By amplitude I mean
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that the louder your voice would be the bigger the sine wave the lower your
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voice would be the smaller your sine wave. And the sine wave that you're
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modulating is what's called a carrier. Now in the bandwidth terms when you look at
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an AM signal it actually is very wide compared to the next one I went out
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about which is single sideband. So an AM signal is essentially consists of
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what they call two sidebands. And because radio spectrum is finite in most in
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the basic sense of the term it's finite. There's only so much radio spectrum that's
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usable. And I say usable because the spectrum actually is infinite but you can't
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use for worldwide communication you cannot use high frequency like a
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microwave frequency. It's not going to work on why that is I'll get to that later on in
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the episode here. But sideband was invented because the AM signals took up
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so much space. So they basically locked off a sideband either the upper or the
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lower. And then that's how they were able to conserve bandwidth and let more
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stations use the spectrum that was given. Now there's a lot of physics involved in
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the circuitry and the superheterodine receivers and all that stuff. But I'm not
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really getting into that. I'm talking very basics. If you want to get deeper into
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this you're going to have to go do some of those sites I want to hopefully have
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some sites to pop in the show notes. And you can go ahead and check those out.
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So now the next mode is a mode that or the next kind of modulation is what most people
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listen to now if they listen to radio especially if you're listening to music and
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that's frequency modulation. So basically your voice then modulates the frequency of
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the carrier. Now you actually have really I don't only think there is a upper sideband
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lower sideband the probably is but we usually don't worry about that on that
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sound because you're usually using where I use FM most commonly is on the VHF or very
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high frequency band that's a two meters any amateur radio or UHF in that 70 centimeters.
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So but that's the basics of both amp to the food and frequency modulation and a little
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bit about sideband single sideband. So essentially in a voice mode that's your voice is modulating
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that carrier. The carrier is cycling and they actually in the old days of my grandfather they
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actually used to call that like a instead of a killer hurts or megahertz it's called a killer
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cycle or a mega cycle. So then Heinrich I think it's Heinrich anyway. Mr. Hertz then discovered
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some things and then they named it after him. That's why it's called megahertz. Anyway
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so your carrier is cycling at the rate that you tune your your transceiver to. For example
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if you're talking to a repeater that receives on and I'll get in the repeaters in a bit
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if it receives on 147.24 or 147.24 megahertz that's your carrier. Now your voice is going to
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actually go beyond that that's where what they're where the side bands come into play there.
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So I just wanted you to understand that even though you are tuning at 147.24 you're not actually
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only passing your information on that frequency you actually expand past that. So
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you know that's why a single side band was invented just because like I said it allowed more
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people to use the given frequencies. So now one little sidebar here I'm actually recording this
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for the handheld recorder as I walk along to the bus stop this morning and I just wanted to give
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you a reason why why I'm doing that. As emergency communications is part of amateur radio
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we often have to work in conditions that are not ideal. We often work you know on the side of road
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or out in a rain in a camp whatever you know excuse me anyway that's why I decided to record
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this episode with the handheld mic and why I will record some future episodes. I try not to do too
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many of them because I know that the noise can be a little distracting but one thing I do want
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you to know is why emergency communications is at the forefront of having an amateur radio license
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and it should be one not the only reason you get your license you should have fun doing it too
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but it should be a big reason you know I want to have a good way that you you as a hacker or a geek
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and serve the community amateur radio is the perfect hobby to serve the community.
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A lot of times people won't understand what us hackers worked on but they do understand you
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being able to hook up a desperate person who's lost their relatives
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Satan, Joplin, and Zuri with Tuscaloosa, Alabama they can
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the amateur radio operators can hook you up for those and get this important status messages
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in and out of the area so cybar over so back to the basics of radio frequency.
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So talk to a little bit about MFM what in our single is so let's talk about what you need to
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actually transmit one and detect one now most most people now instead of buying just a receiver
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just a transmitter will buy a transceiver transceiver does exactly what you would think
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it's a combination of transmitter and receiver so that's why they call it a transceiver because it
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can do both now each aspect of a radio is different receiving aspect is definitely a little bit
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different than the transmitting aspect but in the basic sense of the term this is actually not all
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that different so for for a receiver you need far less attention to some things that you do
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a transmitter now a critical piece is the antenna now for receive antenna you don't really
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need to have an antenna that is tuned to the receiving frequency it helps but it's not really
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needed you can attach your radio your receiver to a piece of metal and that will act as an antenna
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and absorb the radio frequency and convert that to audio and essentially the opposite method
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of you converting your voice to an RF wave so a receiver basically will use that antenna
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to absorb and pick up the received frequency produces it audio it's a very basics a very simple
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receiver is if you if you ever if you're my age I don't know if they do this anymore but if you're
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my age one of the things you might have done in science class was build build a crystal radio
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the crystal radio is a very simple receiver it consists of mainly of three parts a earphone
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a coil and actually four parts a earphone a coil a diode and an antenna the main circuit
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in question here is the diode well it's not really a circuit so much as it's a component
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but the diode is at the very central eight when you combine it with the coil which is an
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is an inductor special inductor it has to be you have to have access to the coils because that's
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how you're going to tune the radio okay and without those other parts that diode can't do its job
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but you don't even need a battery with a crystal radio because basically what happens is
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the antenna picks up the RF and then the diode converts that to an electrical signal
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that then vibrates the earphone so if you want some like a fun project that you can do a very
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simple project that you can do with your kids look up how to build a crystal radio now I can see
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if I can put a link in the show notes but yeah crystal radio is a very crude receiver
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and it doesn't have the what they call selectivity of a modern transceiver selectivity means
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you are only concerned with the signal that's modulating around the carrier that you're tuned to
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and you want to reject anything else so more selective radio is the more sensitive it is to
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picking up weak signals so what is needed for a transmitter well basically the reverse of a receiver
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you need a microphone a method to modulate the carrier and then antenna and an antenna in a
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transmitter is far more critical than it is in the in the receiver the antenna in a transmitter
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has to be tuned to be able to resonate at the frequencies that you want to resonate at
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now usually most basic antenna's amateurs start out with is a quarter wave antenna
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now it can be a whip it can be a dipole and a dipole what a whip is or a vertical whip or vertical is
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a essentially it's a wire it's cut to a certain length for example quarter wave length
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two meter antenna it's probably going to be around 19 inches long give or take
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now the further away it is from a resonant from resonance
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it means you get something what they call a standing wave
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a standing wave will actually work to reduce the amount of signal that your antenna is radiating
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now what we call the standing wave ratio is a ratio that's measured with a special
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piece of equipment in the SRW meter or SWR meter I'm sorry anyway a good standing wave ratio is
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two to one okay you put out one what like a good example is you put out one it's this is
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greatly simplified but you put out one one for every two that you put in perfect as in 100%
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100% of that two watts would be one to one
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anything higher than two you're really starting to lose a lot of your transmission
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and therefore your range the more power you transmit the closer you are to that one-to-one ratio
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the more power you're going to transmit the further your signal will go
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so in order to have an antenna you're going to want to look at quarter waves half waves
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and very very rarely full wave antenna now full wave antenna is essentially exactly the
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it's the same basically this has the same bandwidth as the same width as your signal
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all right so if a 144 megahertz antenna is 19 inches at a quarter imagine how learned that the antenna
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will be at a full wave that's why you're not using full wave antennas mostly so
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and then we actually can get for even further into it take a dipole antenna dipole is essentially
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two pieces of wire one going on each side of the feed point and each of those wires
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well I'm trying to remember how it's been a while since I built a dipole a base basically your
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dipole is cut to certain bandwidth to a certain wave and one antenna that is an improvement
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upon a dipole design is called a yagi antenna which was invented by I'm trying to remember the
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last name of him was yagi and that was a Japanese name yagi uda and basically two amateurs in Japan
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and what they do is they take different lengths of wire metal
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and they put one behind the the dipole so for example inadvertently polarize antenna
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you're all your connectors are going to go up and down in a horizontally polarized you're going
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to be going they're going to be basically flat against the earth not against the earth you know
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it'll be up on a pole but so in a vertically polarized it's perpendicular to the earth
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that that might be a little bit easier to understand I think
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anyway they put two connectors on either side of that dipole
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one connector is larger than the dipole the other connector is smaller than the dipole
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and there's a whole lot of math involved with this fortunately a lot of that has been figured out
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for us by some companies that you know see interest and and money making opportunities in making
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these antennas so you can generally buy one for I'm trying to think I probably paid about forty
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fifty dollars for my antenna my yagi antenna but what does that do what do those things do with
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that antenna well the the element behind that goes what I would say behind the larger element
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is what they call the reflector and the one on the other side of the antenna is called the
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director all right and essentially the reflector reflects signal in one direction and the director
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helps direct that same signal in the direction that basically antenna is pointing so basically a
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yagi antenna is a way to give your radio signal some direction and it's basically after vertical
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in a dipole antenna it's probably the next one that a lot of people look at
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they can get far more complicated than that but they're the basics of antenna
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manufacturing and making your own antenna is very very very same very much
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all right so card a little bit about AMFM sideband radio frequency what is it how do you receive it
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how do you transmit now what do you do with it well you communicate and there are many modes you know
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with a lot of modes that we already covered talked about there's AMFM sideband and those are
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both all what they call phone modes because I think back in the day they actually use something
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you look like a phone oh and one one important thing I forgot is back in early times of radio
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you didn't buy a transceiver you bought a receiver and you bought a transmitter so you had to buy both
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so you essentially back then probably had to have two antennas unfortunately now with a transceiver
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you only have to have one antenna so that's a good thing but so as radios themselves got a little
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bit more complicated some of the other things got a little more simple so what like I said what
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can we do with this stuff well you have a conversation with your friends talked to very many people
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over the years 2013 will be my 20th year as an amateur radio operator and I've just had a good
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time just chatting that that's my favorite mode right now it is what they call an analog mode
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digital voice modes very similar to voiceover IP technology like asterisk
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they exist however the downside to those modes right now is very few there's not really
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a standard I guess is what I want to say the standards are mostly manufactured different the standards of
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those modes right now for example Icom which is a Japanese amateur radio company they have something
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called D star and then I'm trying to think if Kenwood has their own standard or Kenwood is and
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actually I want to say I thought Kenwood was an American company but I think they're now
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Jeff Japanese as well most of the companies are Japanese or Chinese companies we're out of Taiwan
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like Yezi I think Yezi is Chinese they're Japanese also but I mean that digital modes for voice
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they're a little rare most voice communication on the amateur man are still happening over analog
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frequencies TV may have gave it up but radio has not they have not given up the the analog stuff so
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now the one unique thing with amateur radio is there still are digital modes that are different
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than phone or voiceover you know digital voice modes like D stars for example there are on the
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two meter and VHF UHF frequencies or something called it's called packet radio packet radio
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we'll take a digital packet and it uses the ones and zeros to modulate that signal in a certain way
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and then transmits it on the handbands then on the receiver side they pick the same signal up
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is using same concepts and then it converts a back to the digital bytes so that you can read it on
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your computer screen that's greatly simplified but if you want to look at an idea of what packet
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radio is like go back to the old days of your modem essentially that's what a terminal no
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controller is that's what you use to hook up that's basically what you hook up to your radio in
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order to use packet radio now they're the old ones used to use a purely a serial cable because it
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is a serial mode and new ones there are devices that basically let you use your sound card and
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software as a TNC now it's more efficient to use a kind of cool to use a regular terminal
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no controller because a terminal no controller in many ways is the computer it usually has a
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processor on it it has some memory for storage and basically if you want to leave your
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transceiver on all day because the terminal no controller has your call sign plugged into it
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that makes it legal so you can leave that on all day you would know you're you're not necessarily
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at the control point you're still within the legal mounts as long as you can get to that receiver
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or that a station and turn off that radio you're still in control anyway you can leave that terminal
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no controller in the radio on all day and people can actually send messages that would arrive on
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your terminal no controller and there will be a little message like the lights up and you log into a
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like a like a terminal program you'd hit the serial port and talk to the terminal no controller
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and then get your packet email and there is even the ability with packet radio to send an email to
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somebody all the way other other other side of the United States and I was doing this before the
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internet really came into play so that's one one way amateur radio continues to just kind of
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move on and do things and a lot of times it seems a little bit archaic but you got to remember in
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some of these cases amateur radio operators themselves invented the mode and came up with it
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like for example the APRS or automatic position reporting system which is another use of packet
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radio that was invented by WA4 APR Bob Bruninga and the original APRS program was written on DOS
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there is of course windows APRS programs there's a Linux one called Exaster
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and then there's also a Mac one called Mac APRS I think that Mac APRS still exists and then there's
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also a Java based APRS program called Java APRS you can also view APRS maps on the internet so in fact
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I've got a program on my phone well I can get a program for my phone called APRS Joy
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and basically I can get my phone out and I can look at the APRS map I think it will even actually
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somehow I don't know exactly how but digit peak my position with my cellular
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now cellular phones there really is no analogy in amateur radio to cellular phones there's no
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cellular phone that I know of that operates on the amateur radio bands now that I mentioned cellular
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phones there one important thing that you need to remember and I actually had somebody right
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after my first show ask about this but he asked if there was a way that he could receive hold on
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in it this is what I call talking about non-ideal situations anyway um he asked me if he could
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actually receive the internet using an amateur radio well technically it's very possible
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but because we're limited in bandwidth right now the maximum packet bandwidth that we can use is
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9600 that's slower than your old 144 modal slower than your 288 modal right so it's not
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going to be very usable for a modern day internet not like your phone is there's also a different
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aspect of that because there is a there's this thing that we'll get into a little bit when we
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talk about the licensing call the pecuniary interest basically you cannot make money using I
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mean you can make money selling things for amateur radio but you cannot make money
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as a result of your amateur radio license i.e. if you want to transmit a message for somebody
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to a disaster area you can't take money for it if there's an amateur radio operator that
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works anywhere in the company there's these things we'll talk a little bit later I might
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do this I think I'll probably do a special show on repeaters be a little bit shorter than this one
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but uh there's this thing called an auto patch basically it's a way that you can make a phone call
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via amateur radio now in a disaster situation you can't call pizza place or pizza
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for the people at your location okay but only in a disaster situation for example if I'm on my
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home I whip out my radio to order a pizza because there might be a person that works for
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dinados or for whoever I'm ordering pizza hum that may have an amateur radio license that would be
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any legal transmission same thing goes for the internet you know because there's a chance
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that somebody who is an amateur radio operator could be making money as a result of your transmission
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on the internet over amateur radio then you basically cannot do it plus you're also
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not allowed to use potty mouth on amateur radio bands because kids listen to it kids can go
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I think the youngest kid I've heard of when the amateur radio license was set okay the cover
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today was a lot of technical information some of it should be correct a lot of it should be correct
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and if I made any mistakes let me know you email me at gorken at gmail.com or you can also
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email me at gorken at tllts.org thank you for listening I'm actually recording this live at the
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booth the links link tech show booth at southeast linux fest uh by the time this comes out you missed
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the show uh hopefully I might well just listen to tllts and uh we'll definitely have a show or two
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out that we record down here so I want to thank you listening to hacker public radio got a lot of good
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comments in the last show keep listening to hacker public radio I want to have some more
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information I have an amateur radio and uh limits and whatever else I decide to record thanks for
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listening thank you for listening to hacker public radio for more information on the show
|
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and how to contribute your own shows visit hacker public radio dot org
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you
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