Radio Northern Europe International Show #14

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Many thanks to SWLing Post contributor, Roseanna, with Radio Northern Europe International who shares the following announcement:

Hei alle,
RNEI show #14 is now on air complete with TIAEMS for February 2021!

February marks a year since the first RNEI broadcast on 6070 kHz, the 15th of February 2020 ?
To celebrate this we are starting the show with an acoustic version of the first song we played on RNEI followed by music like:

 A cute song from Beni Holm
• More great songs from Vionavega, BEHM and ISÁK
• Our second ever song from Estonia ??
• One of my favourite dance songs for the data section from LOKE

The extras for this show are:
 An MFSK 64 Song playlist embedded into the final song for all Editions of the show.
 HamDRM with our Animated HTML Playlist for WRMI, Onda and Channel 292 versions.
 Comb Stereo encoding for all Shortwave broadcasts compatible with any radio, for more information please see https://rnei.org/stereo/
 30 minutes of calming music on the WRMI edition to fill the extra time, hopefully you don’t fall asleep haha!

You can find our full up to date frequency schedule here: (https://rnei.org/listen)

Can’t tune into a radio or just want the music without the extras? We also have Spotify Playlists of all of our broadcasts available here: RNEI Spotify Profle

We thought we’d give a little shout-out, in the form of a map, for all of our listeners around the world, we love you all ?

 

Wishing you lovely listeners all the best for February,
– Roseanna

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Radio Waves: NRAO Turns Scope System Into Planetary Radar, WBCQ Seeks Engineers, Deep Space Network Upgrades, and 2021 Propagation Summit

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GBT-VLBA radar image of the region where Apollo 15 landed in 1971. The snake-like feature is Hadley Rille, a remnant of ancient volcanic activity, probably a collapsed lava tube. The crater at top, alongside the rille, is called Hadley C and is about 6 kilometers in diameter. This image shows objects as small as 5 meters across.
(Credit: NRAO/GBO/Raytheon/NSF/AUI)

Radio Waves:  Stories Making Waves in the World of Radio

Because I keep my ear to the waves, as well as receive many tips from others who do the same, I find myself privy to radio-related stories that might interest SWLing Post readers.  To that end: Welcome to the SWLing Post’s Radio Waves, a collection of links to interesting stories making waves in the world of radio. Enjoy!

Successful Test Paves Way for New Planetary Radar (NRAO)

The National Science Foundation’s Green Bank Observatory (GBO) and National Radio Astronomy Observatory (NRAO), and Raytheon Intelligence & Space conducted a test in November to prove that a new radio telescope system can capture high-resolution images in near-Earth space.

GBO’s Green Bank Telescope (GBT) in West Virginia — the world’s largest fully steerable radio telescope — was outfitted with a new transmitter developed by Raytheon Intelligence & Space, allowing it to transmit a radar signal into space. The NRAO’s continent-wide Very Long Baseline Array (VLBA) received the reflected signal and produced images of the Apollo 15 moon landing site.

The proof-of-concept test, culminating a two-year effort, paves the way for designing a more powerful transmitter for the telescope. More power will allow enhanced detection and imaging of small objects passing by the Earth, moons orbiting around other planets and other debris in the Solar System.

The technology was developed as part of a cooperative research and development agreement between NRAO, GBO, and Raytheon.

“This project opens a whole new range of capabilities for both NRAO and GBO,” said Tony Beasley, director of the National Radio Astronomy Observatory and vice president for Radio Astronomy at Associated Universities, Inc. (AUI). “We’ve participated before in important radar studies of the Solar System, but turning the GBT into a steerable planetary radar transmitter will greatly expand our ability to pursue intriguing new lines of research.”

Using the information collected with this latest test, the participants will finalize a plan to develop a 500-kilowatt, high-power radar system that can image objects in the Solar System with unprecedented detail and sensitivity. The increased performance also will allow astronomers to use radar signals as far away as the orbits of Uranus and Neptune, increasing our understanding of the Solar System.

“The planned system will be a leap forward in radar science, allowing access to never before seen features of the Solar System from right here on Earth,” said Karen O’Neil, the Green Bank Observatory site director.

“Raytheon’s radar techniques could ultimately improve our ability to explore the Solar System,” said Steven Wilkinson, Principal Engineering Fellow at Raytheon Intelligence & Space. “Working with the astronomy community allows us to apply decades of radar know-how to a project that provides high-resolution images of near-Earth objects.”

“We are excited to be partnering with Raytheon and applying their radar expertise to transform our observatories’ telescopes in new science areas,” said AUI President Adam Cohen.

The National Radio Astronomy Observatory and the Green Bank Observatory are facilities of the National Science Foundation, operated under cooperative agreement by Associated Universities, Inc.[]

WBCQ: Radio transmitter engineers wanted

WBCQ Radio is seeking radio transmitter engineers to work at our 500KW shortwave station. Come to northern Maine and get away from it all. Nice working environment, good pay, great people, fun work with BIG transmitting and antenna equipment. Contact Allan and Angela Weiner at 207-538-9180. Please send resumes to [email protected].

Deep Space Network upgrades and new antennas increase vital communication capabilities (NASA)

NASA’s Deep Space Network, commonly referred to as the DSN, has welcomed a new dish, Deep Space Station 56, to its family of powerful ground listening stations around the world.

The now-operational 34-meter antenna joins the network’s Madrid Deep Space Communications Complex located 60 kilometers west of Madrid, Spain while other dishes within the network undergo critical upgrades.

The new dish is part of an ongoing series of enhancements to the DSN, which traces its roots back to January 1958 when the U.S. Army’s Jet Propulsion Lab was tasked with standing up a series of communications stations in Nigeria, Singapore, and the U.S. state of California to support orbital telemetry operations for the Explorer 1 mission.

This precursor to the Deep Space Network was transferred to NASA along with the Jet Propulsion Lab on 3 December 1958. The DSN was then formally commissioned by the U.S. space agency as a way to consolidate the pending deep space communication needs through centralized locations to avoid each mission having to create its own ground listening station(s).

The three Deep Space Network ground locations are spaced roughly 120 degrees from each other in Canberra, Australia; Goldstone, California; and Madrid, Spain. The location of the three facilities ensures deep space missions with a line of sight to Earth can communicate with at least one of the locations at any time.

Updates throughout the decades have increased the network’s capabilities, most notably for the two Voyager probes that continue to operate and send back science data having both long-passed out of the heliosphere and into the interstellar medium.

The network, nonetheless, is showing its age, with upgrades and refurbishments needed to ensure continuous operations. Part of this initiative is the recent addition of the new dish, Deep Space Station 56 (DSS-56), at the Madrid complex.

“After the lengthy process of commissioning, the DSN’s most-capable 34-meter antenna is now talking with our spacecraft,” said Bradford Arnold, DSN project manager at the Jet Propulsion Laboratory.[]

2021 Propagation Summit Session Recordings Available (ARRL News)

YouTube recordings and PDF files from the 2021 Propagation Summit hosted on January 23 by Contest University are available. More than 1,000 logged in for the sessions. Each presentation begins approximately on the hour. You can advance the video to the presentation you wish to view.

  • 11 AM – “Update on the Personal Space Weather Station Project and HamSCI Activities for 2021” by Dr. Nathaniel Frissell, W2NAF
  • 12 Noon – “Solar Cycle 25 Predictions and Progress” by Carl Luetzelschwab, K9LA
  • 1 PM – “Maximizing Performance of HF Antennas with Irregular Terrain” by Jim Breakall, WA3FET
  • 2 PM – “HF Propagation: What to Expect During the Rising Years of Solar Cycle 25,” by Frank Donovan, W3LPL.

Slides decks are available for each presentation in PDF format: FrissellLuetzelschwabBreakall, and Donovan. []

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The 2021 34th Winter SWL Fest is virtual this year!

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If you’ve thought about attending the annual Winter SWL Fest, but found it difficult to make the travel arrangements, this year you can get a taste of the Fest by attending virtually.

You’ll find the program below, but click here to view it at the Winter SWL Fest site, and click here to register (only $5 for both days including all presentations and the hospitality room).

The event takes place February 27-28, 2021. I strongly encourage you to attend!

2021 Winter SWL Fest Program and Forums Schedule

2021 34th “VIRTUAL” WINTER SWL FEST PROGRAM 

All sessions except the “Shindig” nominally one-hour but may run longer or shorter at the option of the presenter.

This schedule, accurate as of January 16th, is subject to change.

Friday February 26th, 2021 (UTC)

1800 UTC / 1300 EST / 1000 PST / 1900 CET / 0500 (Sat.) AEDT

The Well-Equipped Scannist – A Scanner For Every Purpose – Tom Swisher

. . . and the gadgets, doohickeys and trinkets to enhance your scanning pleasure.

2000 UTC / 1500 EST / 1200 PST / 2100 CET / 0700 (Sat.) AEDT

Easy Antennas for SWLs Who Want to Become HF Hams – Skip Arey

Communicating is just as much fun as listening. Can your shortwave receiving wires do the job or should you be rethinking your station’s antennas?  Uncle Skip will show you how to get on the air without mortgaging your house to do it.

2300 UTC / 1800 EST / 1500 PST / 0000 (Sat.) CET / 1000 (Sat.) AEDT

The Annual Free Radio Forum – Larry Will

Including:

— News, FCC actions or lack thereof

— Shortwave free radio year in review

— Everyone’s still doing the 6850-6980 area

— …But! There’s been a noticeable diversity in frequency use because of lousy DX

— …Noticeably in the 4000-4100 KHz and 5100-5200 KHz areas

— Most active stations

— Gallery of interesting QSLs and SSTVs from the past year

— Medium wave free radio, the world above 1700

— North American Pirate Radio Hall of Fame inductees for 2021

— Resources for the free radio listener

— archive.org

— swlingpost.com

— hfunderground

— free radio network

— Free Radio Weekly (25 years!)

Preparations are underway to simulcast this forum on WBCQ 6160 kHz. Watch this space!

 Saturday, February 27th, 2021 (UTC)

0100 UTC / 2000 (Fri.) EST / 1700 (Fri.) PST / 0200 CET / 1200 AEDT

The Shortwave Shindig in Exile – David Goren

From a secret location, David’s annual freeform celebration of the medium. This time it shapes up like this:

0100 – Shortwave-related music videos, a look at the recent Brooklyn Pirate Radio Sound Map update, and a review of radio-related bits and bobs from the past year.
0200 – Live on WRMI! (frequencies TBA) – with music, Meet the Archivist w/ Thomas Witherspoon and other special features.
0300 – A Replay of “Shortwaves/Long Distance” – the 2017 two-hour broadcast featuring the top submissions to NASWA’s and Wave Farm’s call for shortwave-related music and sound compositions.

1800 UTC / 1300 EST / 1000 PST / 1900 CET / 0500 (Sun.) AEDT

QRP General Coverage Transceivers: Bridge Between Transmitting and Listening – Thomas Witherspoon
We’ve seen an amazing array of full-featured general-coverage QRP transceivers hit the market in the past few years–during the doldrums of the solar cycle, no less. These rigs provide SWLs and even DXers a means to easily escape RFI and to experiment with portable listening posts. We’ll take a look at a number of QRP general-coverage transceivers I consider to be truly worthy, with a particular focus on the innovative Icom IC-705.

2000 UTC 1500 EST / 1200 PST / 2100 CET / 0700 (Sun.) AEDT

Mr. Robinson’s Neighborhood…er, Basement – Dan Robinson

Premium Receivers In A Time of Plummeting Shortwave
With All India Radio GOS in English all but gone from shortwave and Brazil shifting to DRM, among other depressing developments, Dan takes a look at the used receiver market in 2021, including premium receivers, and discusses the Japanese Buyee site.

2300 UTC / 1800 EST / 1500 PST / 0000 (Sun.) CET / 1000 (Sun.) AEDT

The Addictive Quality of Curiosity – Mark Fahey, Live from Freemans Reach, Australia

This building in the sleepy rural village of Freemans Reach in southeast Australia rarely needs heating. 18 receivers running 24x7x365 provide continuous coverage from 1kHz to 12.8GHz. Can the quest for knowledge ever be satisfied? This presentation is a live dive into the presenter’s Sisyphean obsession to monitor the world’s culture.

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Photos of the new Tecsun GR-99 emergency radio

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Many thanks to SWLing Post contributor, Mei Tao, who writes:

Hi Thomas:

I’m happy to tell you that yesterday [January 29, 2021] Tecsun released a new model Emergency Radio. I’ve included some photos:

The GR-99 includes FM, AM and SW bands. As most of today’s radios, it is also based on the DSP chip which offers good performance. It can be powered by the built-in Ni-MH battery and two AA batteries.

This radio also features hand crank power generator which can charge your device such as smartphone through the micro-USB cable. In case of emergency, GR-99 with flashlight and SOS alarm can give you a hand.

Nearly a month ago, I helped to test the prototype of this radio and gave them my advice. Now it’s great to see it on sale.

At last, provide you with a photo of me, almost two years ago. I took this selfie with my radios.

Oh I must admit that several radio in this photo were my friends’.

Sincerely

Mei Tao

Ha ha!!! I love the photo, Mei Tao–absolutely brilliant!

I’m happy to see that not only is Tecsun still producing an emergency radio with an analog dial (which requires less of the battery than a digital display), but also is still including the shortwave bands.

Thank you very much for reporting on this early production run Tecsun radios, Mei Tao!

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How to build a PC keyer and AM modulator for the EMTX emergency transmitter

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Many thanks to SWLing Post contributor, Kostas (SV3ORA), for sharing the following guest post which originally appeared on his radio website. Note that this project builds on the EMTX emergency transmitter project:

PC keyer and AM modulator: A 15-components versatile keyer and powerful PSU modulator for the EMTX (Emergency Transmitter)

by Kostas (SV3ORA)

Schematic of the keyer and modulator (on the left) for the EMTX. The EMTX schematic is shown as well on the right, to determine the connections to the keyer/modulator.

Introduction

My very successful emergency transmitter (EMTX) was only capable of CW or other slow speed ON/OFF keying modes. Then I thought, why not “give voice” to the design? CW is good, but it is half of the fun. If you could use your simple CW transmitter to send out your voice as well, this would be great. You could now chat comfortably on the nets or use any digital radio amateur mode and have much more fun. The simplest modulation you can apply to an existing CW transmitter, is the AM modulation. And whereas this is an old modulation, mostly abandoned by HAMs due to beeing inefficient, there are still AM nets on HF. But do not forget, AM can also be heard by SSB receivers by zero-beating the receiver to the AM carrier. So you could still use your simple AM transmitter to QSO with the SSB guys!

Along with the modulator, there is also a versatile keyer embedded to the circuit, so that the EMTX can be manually keyed with different ways or automatically keyed by audio tones from the PC. For more information on the keyer, keep reading.

The AM modulator

In the old days, the most common way to apply AM modulation was to modulate the high voltage to the plate of the tubes, using a transformer and a powerful audio amplifier. In low voltage solid state circuits, you can still do it using transformers, but you can also use series transistors instead of the transformer. All these things require many components and/or powerful AF amplifiers if one is to modulate higher power transmitters. This does not match the keep-it-simple design I am trying to achieve here.

So I thought of a simple trick with the use of the extremely common LM317 regulator, used as a modulated power supply. This modulator uses just a few common cheap components and it is able to achieve remarkably good modulation levels for it’s parts-count, just from line audio input. It juices every bit of the internal circuicity of the LM317, just look at where the base current of the 2N2222 comes from.

The AM modulator is a kind of novelty. Whereas there is nothing special in a modulated power supply, this circuit has some interesting properties. It is amazingly sensitive and it is able to provide lots of modulated current to any low power transmitter that it can feed. It can be easily driven by the line output of any laptop (around 20% volume) and provide a very good depth modulation to the transmitter. Charles Wenzel was kind enough to do a simulation on the circuit I developed, which is shown below.

His simulated circuit is a slight variation (for measurement purposes). The resistor to ground on the base stabilizes the bias and the ratio of R1 and R2 set the output voltage (0.6 volts across R2 gives about 8 volts across R1). He put in an emitter resistor just for good measure. Same for the series resistor from the source. Charles words, “I don’t know how believable these results are but it looks pretty darned good!”.

The circuit is being used as a current booster, the current being the supply to the transmitter and dependent on the voltage it produces. The LM317 always tries to keep 1.25V between it’s output pin and “adj” pin but where we benefit here is the current at the “adj” pin is very low, so it is easier to apply audio to it. Effectively, the error amplifier inside the voltage regulator is used as an additional amplifier stage. The output pin voltage varies according to the voltage on the “adj” pin so if we use it to bias the transistor we get negative feedback which improves the quality of the modulation. More output voltage = more bias current = lower output voltage. The result, is a very cheap, low components-count, very sensitive AM modulator that can supply lots of power to easily drive the transmitter and produce a clean and deep AM modulation!

The AM modulator bias is set with the 1M potentiometer. Depended on the bias level, the idle carrier on the EMTX can be set from about 0.5W all the way up to 8W. Needless to say that this modulator can modulate any similar power transmitter, not just the EMTX.

The keyer

If it is to modulate the EMTX from the PC, so as to use the different digital modes, there must be a way to key it also from the PC. This is why I decided to embed into the same circuit, a PC keyer which is triggered by the line audio of the PC, but also triggered manually (internal or external key). Keying by audio tones was decided, because modern PCs do not have LPT ports to trigger directly by DC. This keyer uses a reed relay to reliably, fastly and scilently key the EMTX, which is activated by a transistor. The base current for the transistor is derived from the audio signal after rectification. The incoming audio from the PC line passes through the mini audio transformer to increase its voltage, it is rectified and then charges the shunt capacitor to drive the base of the transistor. The keyer “speed” (decay) is determined by the shunt capacitor size. The circuit starts to trigger from about 50-60% of my sound card output signal level.

The relay used to key the EMTX, must be able to tolerate at least 1A of switching and carrying current. Note that the relay contacts switching current is not the same as the contacts carrying current. Reed relays are the best especially if you want long relay life, noiseless operation and very fast switching speeds, like the ones used in Hellshreiber. If you can’t find such a relay, you can use a reed switch capable of 1A of switching and carrying current and then place a suitable electromagnet close to it, so you can build the relay yourself. If you do so, find the best point where the reed switch responds to the electromagnet.

The keyer relay must be as close as possible to the emitter of the transistor used in the EMTX. The connectors at the back of the EMTX and the keyer/modulator have been physically placed so that when the two units are side by side, a very short link cable is required for this purpose. With the two devices placed close together, you can now use any length of cable for your manual external key, which is now connected to the “EXT” connector of the keyer/modulator.

The keyer does also have an internal mini straight key. I find this idea very nice, to avoid extra cables. It is not the most convenient key in the world, but it is there along with the transmitter every time you need it. By using a special panel switch from apem, I was able to triple this switch usage for the different modes of the keyer. The vinyl lever cap you see in the next picture, is the original part of the switch, to make it easier to key with your finger. But you may build such a part on your own, to fit on other switches types.

The switch is an ON-OFF-(ON momentary) switch type. In the default (middle) position, only the PC keying action is activated. In the top position (ON), the keyer is always active, which is useful for broadcasting audio (into a dummy load). The bottom (ON momentary) position, is the manual PTT action. This is used as a straight key on OOK operation, or as a PTT on AM voice operation. Simple and effective!

Initially, I used one channel of the PC sound card for triggering the keyer and also as an AF signal for the AM modulator, but this caused several problems of unreliable keying or distortion. So I decided to use a second separate AF input (KAF) to key the keyer. This second input, uses the other channel of the stereo sound card. With the addition of this input, there is no interaction between the keyer and the modulator. The AF levels that the keyer and the modulator require, can be set independently. Instead of adding more hardware for the purpose, I have chosen to set these levels by adjusting the volume and the balance of the sound card, which works great. Also, programs like Fldigi, have options for using one of the two channels of the stereo sound card as a keying interface (PTT channel), which makes the keying efen more reliable. When the program is in transmit mode, a continuous tone is heard on the PTT channel. This steady tone, is used by the keyer as a reliable keying signal, independent of the audio signal of the digital mode that modulates the modulator. This solution works very reliably for any mode. But if the program you are using does not have an option for a PTT channel, that is ok, as the keyer works reliably even without this feature. For voice communication or broadcasting music (into a dummy load) you just use the internal key switch as a PTT to handle these modes.

Results

Prior to building the keyer and the modulator in the same device, I had tested the circuits independently quite a few times, to ensure the results can be reproduced. The modulation quality and depth out of the AM modulator have to be listenned to be believed. I have not made any linearity measurements, I just trust my ears on this one. It works great on music as well as on voice. Apart from that, this is the most sensitive AM modulator I have ever built, requiring only a small fraction of the line level output of the PC sound card.

When modulated by this modulator, the EMTX shows no audible signs of FM modulation. I switched my receiver to SSB and I could perfectly zero beat the AM modulated music signal which stayed on frequency and it’s tone did not change during loud audio signal music. Switching back and forth from SSB to AM modulation on the receiver, I did not notice any difference in the audio quality, apart of course from the narrower bandwidth on SSB modulation, due to the narrower IF filter inside the receiver on SSB.

The AM/OOK switch is used to select the modulation applied to the EMTX. When the keyer is set to be triggered by audio from the PC, at the OOK position, the EMTX is just switched on and off by the audio tones applied to the keyer, or by the manual key, internal or external (connected to the “EXT” connector). At AM position, the EMTX is switched on by the audio signal applied to the KAF connector and at the same time AM modulated by whatever audio signal is applied to the AF connector. On voice communications, the momentary position of the internal key is used as a PTT. On music broadcasting (into a dummy load) the non-momentary position of the internal key is used to keep the keyer always active.

Photos

Back connections to the EMTX.

Pictures of the finished keyer/modulator. You don’t have to build it that nice-looking if you don’t care.

Modulator prototype and EMTX built on a breadboard. Yes it worked just fine onto a piece of wood.

Thank you so much for sharing this brilliant and simple project with us, Kostas. Your handiwork is absolutely brilliant too!

Click here to check out Kostas’ website.

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“Our Little Rendezvous” has a shortwave reference

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Many thanks to SWLing Post contributor, Gregg Freeby, who writes:

Heres another one for you. I know we are always watching for short wave radios in popular movies but what about pop music? Turns out Chuck Berry’s song, “Our Little Rendezvous” recorded in 1960 has a reference to a short wave radio. You can listen to it here:

How very cool! The grandfather of rock’n’roll never disappoints.  Thank you for sharing, Gregg!

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KMRT: “Your one stop shortwave shopping experience”

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Many thanks to SWLing Post contributor, Fastradioburst23, who shares the following announcement (originally posted on Reddit):

Please join us for the grand opening of KMRT, your one stop shortwave shopping experience! If frequency hopping has got you down, then park your dial in the aisles of 9395 kHz at 00:00 UTC Monday 1st February 2021. On KMRT we dare to sell you the muzak you’re already listening to, but just don’t know it yet, because these subliminal tunes have been beaming to you from our corporate headquarters for years! We also have the specially priced radio culture you’ll need to survive in the years to come.

A cavalcade of special guest hosts, including the Store Manager, alongside KMRT regulars breathlessly parade the goods you need and instant-compose new modern music classics as the show progresses from the meat market to the candy aisle, on down to the home goods section. And if you bring your kiddies along, we have a FREE toy they can download over the airwaves, if you get our special proprietary KMRT radio.

As the folks who installed our audio system told us, “Something as simple as a mallsofted music selection, and a bit of retro in-style vaporwave, along with choice library cuts, muzak and ‘happy buyer’ spatial oddities within a store can completely change a listeners radio shopping experience.”

We have ensured your that the sound levels will all be uniform and consistent, because a soundtrack not only creates a mood and experience within a store, but also creates a culture around the KMRT sound.

Love it! Thanks for sharing and we look forward to tuning in!

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