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Lee Hanken
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hpr_transcripts/hpr2296.txt
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hpr_transcripts/hpr2296.txt
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Episode: 2296
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Title: HPR2296: Baofeng UV5R VHF/UHF Handset part 2
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Source: https://hub.hackerpublicradio.org/ccdn.php?filename=/eps/hpr2296/hpr2296.mp3
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Transcribed: 2025-10-19 00:58:39
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---
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This episode of HBR is brought to you by Ananasthos.com.
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At 15% discount on all shared hosting with the offer code HBR15, that's HBR15.
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Better web hosting that's honest and fair at Ananasthos.com.
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Hello and welcome, Hacker Public Radio Audience. My name is Mr X. As usual, I'd like to start by thanking the people at HBR for making this service available.
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If we all contributed a show with more shows than we know to do with, the show is provided by the community for the community.
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It's actually very easy. I've gone to a great deal of effort to streamline the whole process and it's actually quite quite easy.
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The hardest part I find is getting down to writing the show notes.
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It's just about picking up a microphone and hitting the record button.
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We should must have something interesting that we'd all love to hear.
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This is part two of my podcast covering the bullthing UV5R feature, a few HF handheld transceiver.
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Today I'm going to cover the general specification of the radio.
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Remember, if you find this boring, this is all the blame of Cain Fallon. You know who to blame.
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Sit back and enjoy.
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Let's cover the general specification of the radio.
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First of all, it's got a standard broadcast radio receiver and it's looking listen to standard FM radio stations.
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That's within 65 MHz and 108 MHz general frequency band.
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That's international isn't it? It's with normal radio broadcasts happen.
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If you're out and about and you get a bit bored, you can just listen to the radio. That's quite handy.
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It's also covers the VHF band.
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It won't allow you to transmit on the 65 to 108 MHz section of the band for obvious reasons.
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What's the main primary uses for VHF and VHF use?
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The range that it covers, this particular radio covers a subset of the frequencies of the VHF band.
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VHF extends from 30 MHz to 3 GHz.
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This radio does on a VHF band it does 136 MHz to 170 more than 174 MHz, both receive and transmit.
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It also covers a portion of the VHF section of the band and in this case it covers 400 MHz to 480 MHz and that's both receives and transmit as well.
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The Amateur bands that we use in the UK is around around about 145 MHz section for 2 MHz and it's 430 MHz for the VHF part of the band for Amateur use at 70 cm.
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The radio is equipped with 128 channels which you can program using software.
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It claims a frequency stability of 2.5 PPM that's parts per million.
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How much drifts, how much radio will drift off its frequency?
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The radio tends to be channelised so you can jump and set certain steps.
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You can select 2.5 KHz steps, 5 KHz steps, 6.25 KHz steps, 10 KHz steps, 12.5 and 25 KHz steps.
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For Amateur use that would be typically 12.5 KHz steps, I'm sure it's 12.5 KHz steps, used to be 25 here but for 2 m but I think it's now 12.5 KHz.
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The antenna impedance is 50 ohms, that's the type of impedance of the antenna.
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Operating temperature can operate between minus 20 and plus 60 degrees centigrade.
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Supply voltage, rechargeable lithium ion battery, 7.4 volts and 1,800 mAh.
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Consumption in standby, less than or equal to 75 milliamps.
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Consumption in reception, 380 milliamps.
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Consumption in transmission, less than 1.4 amps.
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You can see that the huge difference between receiving transmits and receiving is 1,380 milliamps is 0.38 of an amp.
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So between 0.4 and 1.4, so 3 times as much.
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So you've got the radio last 3 times as long in reception as transmission.
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Generally when they give, they'll mention so much talk time or so much reception time or a ratio of the two and that gives you how long the radio is going to last or thing.
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Modive operation, simplex or semi-duplex.
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I'm going to explain that later on.
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Oh yeah, here's what talks about duty cycle.
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So 03, 03, 54.
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So it's assumed to be a reception for three minutes on transmission for three minutes and on standby for 54 minutes.
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That's how they get their operating time.
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So I don't see here, but other thing is of course is if you transmit too long, the radio might get too warm.
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And there's the circuit in there to stop that if you were to take the transmit button down, it wouldn't overheat.
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It would protect itself, I would assume.
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Weight is 130 grams, approximately.
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So transmitter, it says RF power 4 watts or 1 watts, that's selectable.
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Time for modulation FM, that's frequency modulation.
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Modulation, another rabbit hole.
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It's a way of encoding the audio signal onto the radio signal and so it can be...
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You can't just set...
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I mean if you were to just...
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An audio signal, you couldn't just shout 15 miles, it would be hell of a loud.
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You've got to be sent via radio waves.
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So they've got to encode that audio onto the radio wave so it can be pulled out and decoded on the other side.
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And there's a number of ways that you can do that.
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So you're modifying something in sympathy with something else, that's what modulation is.
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So common ways you can do via FM, frequency modulation or AM, amplitude modulation.
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And frequency modulation, as you talk, the frequency of radio, ever so slightly,
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waivers up and down between a certain type of signal frequency.
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An AM, the amplitude of the radio wave varies very slightly in sympathy with your voice.
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That's the difference between AM and FM.
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Emission class.
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These are just classifications for the emission.
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I don't fully know all this.
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I'll have waffle mean 16k.
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F3E, that's a class, that's a classification for FM, I'm not sure.
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But you can ignore that, or I don't understand it.
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Maximum deviation.
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Less than or equal to plus or minus 5 kilohertz.
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I don't know if that's for the VHF and UTF part of the spectrum.
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I'm guessing that's what it is.
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But anyway, sparse emissions less than minus 60 dB.
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So that's just saying that how many, when the transmitter's never completely pure
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and there's always, I cannot explain it.
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You'll get very, very slight emissions on harmonics of the frequency of transmitting on.
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A multiple of that frequency, because nothing's perfect and you get some emissions.
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But there will be 60 dB down below the main frequency that you're transmitting on.
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So that's what that's stating.
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Receiver sensitivity is 0.2 microvolt at, this is getting very complicated.
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At 12 decibels.
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So now I don't understand half of this.
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Intermodulation 60 dBs.
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Audio output 100 milliwatts.
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That's how loud it is.
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Adjacent channel selectivity.
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65 dB, 65 and 60 dBs.
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So that's how much attenuation frequencies outside the band you're listening to.
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It's attenuated by, it gets reduced by, so that if you get a very, very strong signal
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and it might end up kind of appearing on the channel you're listening to.
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But it's not really there.
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It's somewhere else.
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The video just can't reject the unwanted signal.
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But I mean, that's pretty reasonable.
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65 dBs down.
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That would be VHF and 60 for UTF.
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So that's the general specification badly covered.
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I hope that it all makes sense.
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Okay, that's about it for part two of the both in UE5R, VHF, HF and HL transceiver.
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If you want to contact me, I can be contacted at MrX at hpr at googlemail.com.
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So until next time, thank you and goodbye.
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Thank you.
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You've been listening to heckaPublicRadio at heckaPublicRadio.org.
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We are a community podcast network that releases shows every weekday Monday through Friday.
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Today's show, like all our shows, was contributed by an hpr listener like yourself.
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If you ever thought of recording a podcast, then click on our contributing to find out how easy it really is.
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HeckaPublicRadio was founded by the digital dog pound and the infonomicom computer club
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If you have comments on today's show, please email the host directly.
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Leave a comment on the website or record a follow-up episode yourself.
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