Nanovna смотреть последние обновления за сегодня на .
Для таких же начинающих как я. Как пользоваться NanoVNA и как выполнить калибровку NanoVNA. Купил Антенный анализатор для проверки своих самодельных антенн. Рассказываю и делюсь опытом, как его настроить, если вы первый раз в жизни держите его в руках. И пример работы , как работает нано вна. АНАЛИЗАТОР КУПИЛ ТУТ 🤍 TELEGRAM КАНАЛ: 🤍 Реклама: 🤍 Чат: 🤍
This video briefly shows how to setup and use the NanoVNA to sweep an antenna system (antenna, transmission line, transmatch, etc.) to measure its VSWR, Reflection Coefficient, etc., and then shows how you can use it to monitor the tuning behavior as you make adjustments. The basic steps include: - Setting the traces that you want to display (SWR, Smith, S11) - Setting the frequency range - Running a Calibration - Making the sweep - Using Markers Please see my previous videos on the VNA, Smith Chart, Transmission Lines, Terminations, etc. for more background. More on VNA calibration here: 🤍
The NanoVNA provides alot of value in a tiny size. It has features that go beyond what we need most of the time with amateur radio, so there is a bit more complexity to the unit. With that said, if you have a bit of patience you can learn how to use this for your antenna building. NanoVNA can be found on Amazon here: 🤍 As an Amazon Associate I earn from qualifying purchases. NOTE: I link to Amazon for cheap Chinese products so that if there is an issue, you can send it back to AMAZON without having to deal with the Chinese company directly or their sometimes difficult shipping. You can find the NanoVNA all over eBay and Alibaba, but you have to deal with their customer support if something goes wrong. Monthly newsletter, stickers, private content: 🤍 Links to products I have reviewed is here: 🤍 As an Amazon Associate I earn from qualifying purchases. Current Shack Config: ICOM 7300: 🤍 ICOM 2730a: 🤍 MFJ-4230DMP: 🤍 G5RV: 🤍 Souncloud................► 🤍 Discord.....................► 🤍 Facebook.................►🤍 Twitter......................► 🤍 Instagram.................► 🤍 SnapChat..................► 🤍Hoshnasi Companies can send demo products to: Josh Nass P.O Box 5101 Cerritos, Ca. 90703-5101
Купить на aliexpress: 🤍 🤍 🤍 Сайт с информацией о приборе: 🤍 Миниатюрный векторный анализатор ВЧ-цепей. Диапазон частот 10 кГц - 1500 МГц. Автономная работа от АКБ до 2 часов. Display: 2.8 inch TFT (320*240) Спасибо за просмотры и подписку! Для помощи каналу и благодарностей: ЯндекДеньги: 410017381931812 PayPal: savage🤍sinn.ru #радиосвязь #hamradio #радиостанции #связь #обзор Пишите комментарии, подписывайтесь на мой канал, не пропустите новые видеоролики. Группа ВКонтакте: 🤍 Instagram: 🤍 Facebook: 🤍 Яндекс ZEN: 🤍
Get it here: 🤍 Consider becoming a Patron 🤍 🤍 Follow me on Twitter. 🤍 Links to many of the things I use can be found here: 🤍 As an Amazon Associate I earn from qualifying purchases. Big Geek Battery Box: 🤍 Watch the video here: 🤍 Tri-Lam BuddiStick Pro Counterpoise Support: 🤍 K8MRD Radio Stuff Shirts: Happy Skull Guy: 🤍 Tower of Terror: 🤍 Links to other stuff (affiliate where possible) Save 15% off your Coax order at ABR Industries. Use code K8MRD at checkout. 🤍 The SkyHook Portable Mast Antenna Mount (non affiliate) 🤍 Use code K8MRDRADIO for 20% off Save 5% Off At Gigaparts With Code K8MRD: 🤍 Signal Stuff Signal Stick Antennas: BNC Antenna: 🤍 SMA Female Antenna: 🤍 SMA Male Antenna: 🤍 Signalstuff Antennas: 🤍 ~~~$15 off most purchases over $65 at Radioddity: 🤍 #hamradio #nanovna #k8mrd
Is this antenna good or bad, and for which frequency is it useful? A question I am often asked. Because a lousy antenna reduces the range of a device considerably. Or another question: Did the supplier cheat on this filter? At the end of this video, you will be able to answer these questions with confidence. And you know everything you always wanted to know about how to properly use a NanoVNA and the Smith Chart. I am a proud Patreon of 🤍GreatScott!, 🤍ElectroBOOM , 🤍Electronoobs , 🤍EEVblog , and others No Docker, No Microsoft Teams, Zoom, IKEA My HAMradio channel: 🤍 Links: LiteVNA 4" (currently best VNA): 🤍 or 🤍 2.8" SMA NanoVNA V2: 🤍 or 🤍 4" Type N NanoVNA V2: 🤍 RF Demo Kit: 🤍 nanoVNA Kit PCB: 🤍 Forum (Lots of info, up-to-date): 🤍 VNA_QT Software: 🤍 NanoVNA-Saver: 🤍 W2AEW Channel: 🤍 The links above usually are affiliate links which support the channel (no additional cost for you). Supporting Material and Blog Page: 🤍 Github: 🤍 My Patreon Page: 🤍 Discord: 🤍 If you want to support the channel, please use the links below to start your shopping. No additional charges for you, but I get a commission (of your purchases the next 24 hours) to buy new stuff for the channel My Amazon.com shop: 🤍 For Banggood 🤍 For AliExpress: 🤍 For Amazon.de: 🤍 For Amazon UK: 🤍 For ebay.com: 🤍 🤍 🤍 🤍 Please do not try to email me. This communication channel is reserved for my primary job As an Amazon Associate, I earn from qualifying purchases #no#midroll#ads
С помощью этого недорогого и небольшого приборчика,можно узнать характеристики антенны,ее сопротивление,резонансную частоту,реактивную емкость и индуктивность,КСВ. Также можно проверять и измерять частотные характеристики фильтров.В ролике показано,как откалибровать этот прибор,настроить и простые эксперименты с антенной- диполем
NanoVNA 🤍 🤍 🤍 Arinst: 🤍 🤍 RigExpert: 🤍 В видео показана работа анализаторов поочередно на различные нагрузки, например резистор и реальные КВ/УКВ антенны. Спасибо за просмотры и подписку! Для помощи каналу и благодарностей: ЯндекДеньги: 410017381931812 PayPal: savage🤍sinn.ru #радиосвязь #hamradio #радиостанции #связь #обзор Пишите комментарии, подписывайтесь на мой канал, не пропустите новые видеоролики. Группа ВКонтакте: 🤍 Instagram: 🤍 Facebook: 🤍 Яндекс ZEN: 🤍
This video shows, step-by-step, how to use the NanoVNA to measure a simple lowpass filter. The filter used in the video was originally featured in the Michigan Mighty Mite video (#228): 🤍 The video walks through trace selection and configuration, sweep setup, calibration and measurement. Please note that when running the calibration, the OPEN, SHORT and LOAD are connected to CH0 (not CH1). Please see my previous videos on VNA calibration, VNA basics, and other topics including Smith Charts to learn more. Notes from this video can be found here: 🤍 The filter design software I used was from here: 🤍
I've been chasing down some antenna issues... let's see if its the coax? I figured out that I had just enough above ground coax that I could pull the cable through the wall and connect both ends to the NanoVNA for an S21 LogMag Thru test. Let's get after it! The only reliable source for NanoVNAs is R and L Electronics: 🤍 Click the 👍 Like Button, 🤡 Leave a Comment, ❤️ Subscribe 👉 Support The Channel 👈 ❤️ Patreon: 🤍 📺 Youtube Memberships: 🤍 💸 Tip Jar: 🤍 👕 Merch: 🤍 🧰 Gear I Use: 🤍 🛒 Amazon Link: 🤍 📻 $15 off at Radioddity: 🤍 👉 Fun Stuff 👈 👉 TOADs Discord: 🤍 🕊️ Twitter: 🤍 😸 Github: 🤍 Where possible, all links are affiliate links, this youtube thing is an expensive endeavor and every little bit helps.
A nanoVNA is a portable and affordable vector network analyzer used for measuring and analyzing the performance of radio frequency (RF) circuits and antennas. The process of making an SWR reading looks daunting but it isn't as hard as it looks! Current Shack and Mobile Config: YSU-FTM-200DR.....▶ 🤍 Commet CMA-GP3......▶ 🤍 Commet Mobile SS-460SB NMO .....▶ 🤍 #hamradio #yaesu
This short tutorial video shows how to use the NanoVNA to measure the impedance of an unmarked piece of coax transmission line. It uses the unique impedance transformation that occurs with a quarter-wavelength transmission line. By measuring the resistive component of the line at a frequency at which the line is a quarter-wavelength long, the unknown line impedance is simply the square root of the product of the termination impedance and the measured value. See this playlist of additional tutorials using the NanoVNA: 🤍 Notes from this video can be found here: 🤍
Which NanoVNA Should I Buy - TheSmokinApe In the "Lid Tips" series where we discuss topics of intereast to Ham or Amateur Radio Operators. In this episode we discuss my buddy Stan and his desire to purchase a NanoVNA. Links to products in the video: 🤍 As an Amazon Associate I earn from qualifying purchases. Support TheSmokinApe Channel on Patreon Here: 🤍 Check out my Lid Tips Playlist Here: 🤍 NanoVNA for HAM Radio Introduction: 🤍 Check out my Antenna Playlist: 🤍 Check out my NanoVNA Playlist: 🤍 If you liked this video you can see more like it here: 🤍 You can also follow me on Twitter and Instagram: 🤍 🤍
NanoVNA -F 🤍 NanoVNA-F Комплект эталонных нагрузок 🤍 NanoVNA-H 1500 MHz 🤍 NanoVNA-F Урок 1 Обзор 🤍 NanoVNA-F Урок 2 Характеристики 🤍 NanoVNA-F Урок 3 С чего начать 🤍 NanoVNA-F Урок 4 Практическая работа 🤍 NanoVNA-F Урок 5 Обновление прошивки, расширение диапазона, добавление функций 🤍 NanoVNA -F How to update the firmware (где взять софт и как обновить прошивки) 🤍 NanoVNA Manual(Руководство пользователя) 🤍 Использовать Google Переводчик (англ. Google Translate) Очередной недорогой и очень интересный китайско-японский приборчик, который наделал много шума.
В начале затрагиваю тему про исследования радиоприёмников. 4й класс радио не подходит для этого. Кто смотрел мои предыдущие ролики, поймёт. Дальше на примере замера тракта промежуточной частоты радиоприёмника 465 кГц рассказываю, с какими трудностями я сталкиваюсь каждый раз, доставая nanoVNA с полки. Продолжение следует, подписывайтесь. А в моем Дзен-канале 🤍 разворачиваются настоящие баталии в комментариях, присоединяйтесь. 🤍
TWO Part video: Part 1 shows how to use the Transform function in the NanoVNA to measure coax length or distance to fault. Part 2 (starting at about 4:40) digs a bit deeper into the effects of a transmission line on the observed impedance and SWR, how this is represented on the Smith Chart, and some of the "magic" of quarter-wavelength long lines. I refer to a video on a T/R Switch that uses PIN Diodes and a 1/4 wavelength line: 🤍 Here are the notes and charts used during this video: 🤍 🤍 🤍
In this video I will show you how to measure impedance, capacitance and inductance with reasonable reliably using a nanoVNA. In fact, these principples apply to any VNA you might have to occasion to use. I am also going to show you you how to apply a Port Extension to your calibrated VNA so you can add cables and/or adapters as needed to interface with your unit under test. Antenna analyzers also purport themselves to be able to make these sorts of measurements. I will investigate the accuracy of two different antenna analyzers in this capacity: MFJ-259C The Rig Expert (AA-600). I was told that the RigExpert allows for user calibration which has the potential of significantly improving its accuracy. What you will see here is the "off the shelf" accuracy which is still pretty good, especially when compared to the MFJ. As a note on the MFJ-259C, I sent it into MFJ to have it recalibrated five months ago. In the accompanying letter, I was clear that I was interested in accurately measuring impedance, capacitors and inductors. Since it's return, it has spent the VAST majority of its life snuggled cozily in its protective case in a climate controlled shop. SPEED OF LIGHT VALUES 11802.85E6 inches/sec 29979.24E6 cm/sec Time Markers for Your Convenience 00:05 Introductory Comments 01:19 The Reality of Strays 02:54 Why a VNA? 04:50 Connecting to Our Component 04:53 Reconnoiter the Playing Field 05:24 Determine your Test Frequency 05:50 Component Self-Resonance 07:17 How are we going to calibrate our VNA? 10:00 What if all you have are the SMA standards? Introducing Port Extensions 11:11 The kind of calibration we are interested in ... 12:18 My Test Parameters 12:35 DEMO#1: Calibrate at the end of a cable & measure 16:37 DEMO#2: Measuring Loose Components 20:16 DEMO#3: Using a Port Extension 25:38 Using an Antenna Analyzer to Measure 25:42 The MFJ-259C 28:48 The Rig Expert (AA-600) 29:48 Conclusions and advise 30:19 Parting comments and toodle-oots -
This method is not for higher frequency characterization of components. It simply allows a person to determine the basic low frequency values of inductors and capacitors to identify or confirm their values. 0:15 - explanation of the test setup reference: 🤍 2:30 - calibrating the nanoVNA 3:23 - looking at an inductor 6:24 - shunt configuration accuracy reference: 🤍 9:20 - looking at a capacitor Reference regarding shunt method accuracy and why I chose to make measurements at 50 ohms or 90 degrees S11 phase: 🤍 Aug 2021 - For clarity, I would like to address the fact that measuring the reactive device under test at 50 ohms is not done because it “matches” the source impedance in the traditional sense that this concept would be understood by amateur radio operators with regards to maximum power transfer theory. This is not the intent at all. Rather, as has been stated in the video and supporting documentation, 50 ohms is used primarily because it lies within the shunt method’s best accuracy region. Secondary reasons include: it’s at 90 degrees on the smith chart (the top or bottom depending on what you’re measuring), is easy to remember, makes measurements consistent, keeps people away from going too low in frequency, avoids the self resonant frequency of the device and test fixture.
Is the NanoVNA suitable to measure/adjust a typical antenna duplexer? This video compares the NanoVNA-H4 and the SAA-2N VNAs with a professional VNA (Tektronix TTR506A). Will the limited dynamic range of the NanoVNA get in the way of making a good measurement, or limit the ability to adjust the duplexer? Watch and find out...
Video demonstrating the NanoVNA, proper connector care, torquing, making measurements and my LabView interface for it. Link to my eevblog posts 🤍 groups.io 🤍 The latest documentation and software may be found here: 🤍 If you have comments or suggestions on the documentation, feel free to leave them on the EEVBlog site at: 🤍 Characterizing crystals 🤍 Attenuators 🤍 My review for the NanoVNA V2 Plus 4 (demonstrates the new software as well) 🤍 HCXQS Group's Tindie store 🤍
MAJOR SHIFT FOR DAVE! How to use a nanoVNA for SWR in theory and practice. We look at some key terms for you to understand so that your nanoVNA makes sense. Also. we look at using it in context with a real antenna. #nanovna #swr #vswr #trace #stimulus #vector #format Subscribe: 🤍 To learn more about me, visit: 🤍 To support my channel financially: 🤍 (offers several options) To pose an Ask Dave question: 🤍 or 🤍 Theme music is "Sour Tennessee Red," by John Deley and the 41 Players, courtesy YouTube Music Library. You can listen to the entire song here: 🤍 I use drawings from OpenClipArt.org, including the "walking man" Technician training videos, see 🤍 General training videos, see 🤍 Amateur Extra training videos, see 🤍 Thanks to my sweet wife, Loretta, KBØVWW, for both audio and video assistance! (Her website is 🤍aldea-art.com.) My primary website: 🤍 The ham radio part of my website (direct link): 🤍 My publishing website: 🤍, where you can find my fantasy and science fiction books. My Amazon author page, which lists my print and Kindle books: 🤍 Twitter: 🤍dcasler
Made Easy - NanoVNA-H4 - HAM Radio - TheSmokinApe In this video we take a look at the NanoVNA-H4 and use it to perform a quick analysis on an End Fed antenna. We will also run through simple configuration and calibration settings. Links to products in the video: 🤍 As an Amazon Associate I earn from qualifying purchases. I got mine here: 🤍 NanoVNA for HAM Radio Introduction: 🤍 Check out my Antenna Playlist: 🤍 Check out my NanoVNA Playlist: 🤍 Check out my HAM Radio, Scanner, Walkie Talkie Playlist: 🤍 If you liked this video you can see more like it here: 🤍 You can also follow me on Twitter and Instagram: 🤍 🤍 Thanks, TheSmokinApe
When building an amateur radio station, it’s good to have the skills and abilities to test your coax and antenna to determine whether they are functioning as expected... In this video, while working on station repairs, I calibrate the nanoVNA to examine my 80 meter NVIS dipole antenna at it's feedpoint while mounted at 35'. Some unexpected discoveries are made! Subjects: Using the nanoVNA to measure antenna feedpoint SWR, impedance, and resonance. Testing coax cable for loss using the return loss method. Does antenna height effect antenna impedance? The video wound up running on in time so I was not able to answer all the questions I had originally set out to investigate, so I will have to continue this experiment in a future video. 0:10 - Welcome to my Amateur Radio hobby workbench. 0:45 - Topics for today's video. 1:12 - A surprise package in the mail! 3:53 - DG0SA 1:1 current balun failure. 5:07 - What was I thinking when I built my NVIS station? 5:51 - Theoretical dipole antenna feedpoint impedance as a function of height above ground. 6:46 - Planning to match the feedpoint impedance of the balanced dipole antenna to the 50 ohm characteristic impedance unbalanced feedline. 8:09 - Using the nanoVNA to analyze the mounted antenna (35' up in the air) - The "reference plane". 9:53 - Setting up the nanoVNA H4. Calibration for testing the coax cable feed line loss. (This assumes you know the basic calibration steps). 12:17 - Using the "return loss method" of measuring coax cable feed line loss. 13:17 - First reading with end of coax open. 13:24 - The "return loss method" - formula for calculating the feed line loss. 13:58 - Installing the short, taking the second measurement with the nanoVNA. 14:37 - Doing the math and discussing the result. 16:03 - Why keep records of station parameters? 17:16 - Calibrating the nanoVNA to analyze the antenna. 18:20 - Verifying the calibration. 20:07 - Questions I would like to answer. 20:38 - The dipole antenna being used for this test. 21:02 - Initial readings using the nanoVNA. 21:45 - Lowest SWR and antenna resonance. 21:58 - What is resonance? How to find the antenna's resonant frequency. 24:11 - Does "resonance" mean that the SWR of the antenna is 1:1? 24:31 - Dipole antenna feedpoint impedance vs antenna height. Theory vs actual readings. 25:39 - How to tell if your dipole antenna is too long or too short using nanoVNA readings? The readings (capacitive vs inductive) are exactly backwards to what was expected! I have yet to figure out why… 26:20 - Unexpected result for the measured antenna feedpoint impedance and what will the measured impedance be when the antenna is lowered a bit? 27:54 - Another unexpected result after lowering the antenna! 28:54 - The value of taking real readings at your location rather than relying on theory to assume antenna behaviour. 29:21 - More questions for a future video... 29:52 - Final thoughts and closing! 73 VE6WGM (VE6WO)
W tym filmie pokazuję, jak używać analizatora antenowego NanoVNA w podstawowym zakresie - jak zmienić zakres pomiarowy, skalibrować przyrząd i zmierzyć parametry anteny (SWR i impedancję). Strona internetowa Sierra Echo - 🤍 Grupa Radio-Aktywni na Facebooku - 🤍 Strona Sierra Echo na Facebooku - 🤍 #NanoVNA #analizatorantenowy #krótkofalarstwo
Today we will be setting up and calibrating our NanoVNA H4. Previously we did the firmware upgrade on the NanoVNA H4 which removed all of my previous settings and calibrations. NanoVNA H4 Firmware Upgrade: 🤍 NanoVNA H4 (Affiliate Link): 🤍 SMA Calibration Kit for NanoVNA (Affiliate Link): 🤍 Please note: It is necessary to rerun the calibration whenever a new frequency range has been selected. This is based on what I have read in the NanoVNA website and manual.
This was a fun journey/project to play with and I learned a lot. Let me share the journey with you and how you can tell if your Nano is good or not. 👉 The Trusted Source for NanoVNAs is R and L electronics in Ohio: 🤍 👉 Firmware Update for NanoVNA-H: 🤍 Click the 👍 Like Button, 🤡 Leave a Comment, ❤️ Subscribe 👉 Support The Channel 👈 ❤️ Patreon: 🤍 📺 Youtube Memberships: 🤍 💸 Tip Jar: 🤍 👕 Merch: 🤍 🧰 Gear I Use: 🤍 🛒 Amazon Link: 🤍 📻 $15 off at Radioddity: 🤍 👉 Fun Stuff 👈 👉 Discord: 🤍 🕊️ Twitter: 🤍 😸 Github: 🤍 Where possible, all links are affiliate links, this youtube thing is an expensive endeavor and every little bit helps. 0:00 Intro 0:56 Touch Screen Problems 4:05 Sweep an Antenna 5:30 Comparing against a Good NanoVNA 7:20 Firmware Update #3 9:45 Switches to Center Mode? 10:38 Physical Comparison 13:24 Test Dummy Load on the K9WEN Unit 14:24 NanoVNA Test Procedure 19:00 Bad NanoVNA 22:33 Conclusion 23:19 Thanks for Being Awesome!
Using a Vector Network Analyzer (VNA) to measure and understand RLC parasitics in radio / wireless design and construction. Looks at resistors, capacitors, and inductors and their non-ideal behaviors at radio and microwave frequencies. Also includes brief discussions of EM fields, both in free space and around circuit components.
In this video, we take a look at using a NanoVNA L/C match function to bring a load into resonance. This exercise will mimic one of the ways that Ham Radio operators will tune or match an antenna. 👉Support TheSmokinApe Channel on Patreon Here: 🤍 Links to products in the video: 👉NanoVNA Test Board: 🤍 👉NanoVNA: 🤍 👉🤍 As an Amazon Associate, I earn from qualifying purchases. If you liked this video you can see more like it here: 🤍 You can also follow me on Twitter and Instagram: 🤍 🤍
Today we are checking out the NanoVNA-H4 analyzer. This little gem does a lot more than just SWR, so check out this video and other videos on YouTube to see all about it. Available for purchase at this link: 🤍 Interested in obtaining your ham radio license? The best way to get started is at 🤍 Use the code eric20 at checkout to save 20%. You will pass the exam on your first try or your money back. SUBSCRIBE to HamRadioConcepts #nanovna #analyzer #hamradio
Это видео об измерении параметров антенн КВ диапазона при помощи векторного анализатора NanoVNA. На примере своих антенн я покажу как определить резонансную частоту, посмотреть зависимость КСВ антенны от частоты, узнать реальное входное сопротивление антенны, а так же ее полосу пропускания. Измерять будем вертикальную дельту на 27мГц, а так же Inverted-V на диапазон 80м.
NanoVNA Какой выбрать? Сравнение динамического диапазона. NanoVNA V2 Plus4 до 4400МГц 🤍 NanoVNA-F V2 до3000МГц 🤍 NanoVNA-F до 1500МГц 🤍
Today I welcome TheSmokinApe onto the channel who has several good videos up about the NanoVNA device. We will walk through calibration of the NanoVNA-saver software and scanning 2 different antennas with the NanoVNA H4 device. TheSmokinApe - 🤍 NanoVNA Calibration - 🤍 Purchase link: 🤍 ★★★ IMPORTANT LINKS★★ ✅New MERCH Site!!! - 🤍 ✅SUBSCRIBE for more Ham Radio video: 🤍 Checkout my WEBSITE: 🤍 ✅PATREON: 🤍 ✅SUBSCRIBESTAR: 🤍 📜 Be sure to support my sponsors, who make this series possible: 📜 🤍 🤍 🤍 👀Check out my Amazon Store, where I make small commissions on some items: 🤍 😎 Ham Radio 2.0 Is Now Multi-Platform! 😎 Bitchute - 🤍 Full30 - 🤍 LinkedIn: 🤍 ★ MORE HAM RADIO ON YOUTUBE★ Livestreams first and third Sunday evening of each month, check this link for times: 🤍 ★ FIND ME ELSEWHERE ON YOUTUBE★ Craft Beer: 🤍 How To Make Videos on YouTube: 🤍 DOG Rescuing and Fostering: 🤍 ✔ SOURCES ✔ AREDN Mesh Networking Hardware: 🤍 Get a DMR or NXDN ID: 🤍 TAPR DCC of 2019: 🤍 ALL the DMR Radios: 🤍 How to write a DMR codeplug: 🤍 Get your TECHNICIAN License! 🤍 Upgrade to GENERAL! 🤍 DMR, DSTAR and YSF Hotspots: 🤍 ✉ JOIN MY NEWSLETTER ✉ All Patreon contributors receive a monthly Newsletter. Please consider supporting the cause today! - 🤍 Theme and background music courtesy of 🤍 ⚑ SUBSCRIBE TO MY CHANNEL ⚑ If you are interested in my videos like this and want to support my efforts, please consider subscribing - 🤍 ツ CONNECT WITH ME ツ Leave a comment on this video and it'll get a response. Or you can connect with me on different social platforms too: Discord: 🤍 Facebook: 🤍 Patreon: 🤍 Instagram: 🤍 Twitter: 🤍 LinkedIn: 🤍 - MERCH! T-shirts and Hats to support the show! 🤍 iTunes................► 🤍 Discord.....................► 🤍 Facebook.................►🤍 Twitter......................► 🤍 Instagram.................► 🤍 Mail: 2150 W. Northwest Highway STE114-1163, Grapevine TX 76051 Thanks for watching! #Hamradio #kc5hwb #nanovna