Industry News

Another legendary AM news station owned by Entercom is expanding its footprint via the FM dial.

The company said that starting March 22, KMOX(AM) in St. Louis, which broadcasts on 1120 kHz, will simulcast on an FM translator at 98.7 MHz. The translator previously simulcast KFTK, “97.1 FM Talk.”

The KMOX branding will be “News Radio 1120 AM 98.7 FM – the voice of St. Louis.”

Entercom made a similar FM news move in Pittsburgh recently at KDKA. And in November in Philadelphia, it added an FM signal to carry the news programming of KYW(AM).

In St. Louis, it said the FM frequency of KMOX “will be heard throughout the city’s business district including downtown, Clayton, midtown, Creve Coeur, Maryland Heights and Kirkwood.

The company also adds “The Dave Glover Show” to its afternoon lineup; the show had been on KFTK.

The announcement was made by Senior Vice President and Market Manager Becky Domya and Brand Manager Steve Moore.

Moore was quoted in the announcement saying, “It’s important that KMOX is available on multiple platforms in order to keep the listeners in the business district informed with the latest news throughout the city.”

The station is also heard on the RADIO.COM app and website.

 

The post KMOX Will Add an FM Signal appeared first on Radio World.

As recently as December 21, 2020, public relations firm NRPR Group was busily pitching opportunities to chat with Charlie Nooney, CEO of MobiTV, on how cable television companies “can maintain its relevance” in the coming years as subscription video-on-demand (SVOD) continues to gain market share.

Now, NRPR and Nooney are fielding calls of a whole other nature: the pioneering Emeryville, Calif.-based company is voluntarily reorganizing by seeking federal bankruptcy protection.

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It’s Tuesday morning in Guam, a U.S. territory much closer to Tokyo and Manila than Tenleytown, in Northwest Washington D.C., or McLean, Va.

Yet, veteran communications law expert and Jacksonville, Fla.-based attorney John Wells King is well versed on the Hagatña radio scene. That’s because he’s the legal counsel for a licensee that’s parting ways with an AM on the Pacific island taken silent last year.

The incoming licensee? A broadcast ministry seeking donations for a new transmitter for its station serving Saipan, in the nearby U.S. commonwealth of the Northern Mariana Islands.

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Matrix Solutions’ Monarch Media Ad Sales Platform is now in place at one of the nation’s biggest owners of both radio and television stations.

As such, the company will now have what Matrix calls “complete visibility into their aggregated data while also providing extensive CRM capabilities and media intelligence designed to increase revenue opportunities and extend operational efficiencies.”

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When financial historians look back at the final three months of 2020 and take a microscope to the broadcast media sector, they’ll likely notice one very clear delineation point between those companies focused on audio content and their brethren with a lens on visual fare.

Radio station owners, even with political bumps that bolstered earnings, still suffered from steep double-digit revenue and profit dips in Q4.

Television station owners, thanks largely to retransmission consent fees and political ad dollars, took to their collective surfboards and collectively rode the high surf caused by COVID-19 across October, November and December 2020.

Add TEGNA to the list of companies that navigated the waves smoothly.

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LOS ANGELES — Facility management software maker Xytech has agreed to purchase Net Insight subsidiary ScheduALL.

The company says the acquisition provides Xytech “the ability to afford customers, and the marketplace as a whole, an end-to-end resource management system with scalability and configurability in a cloud-enabled platform.”

Xytech will continue to support the ScheduALL application and all ScheduALL clients.

Xytech also offers the MediaPulse facility management software and the MediaPulse Managed Cloud.

“With this transaction, we reach an important milestone in our journey towards a more focused and stronger Net Insight where we accelerate growth in our core Media Network’s business,” said Net Insight CEO Crister Fritzson. “ScheduALL has been a valuable part of the Net Insight portfolio, and I would like to thank all ScheduALL employees for their contribution over the years. We believe Xytech is the best future owner of the business and look forward to partnering with them to continue to serve shared customers across the media industry.”

— Katie Kailus

Volunteers prepare to install solar panels on the roof of the KUHS studio building.

It’s not easy running a low-power FM operation. Raising funds to build the station, construction of studio and transmitter facilities, growing and training a volunteer staff, creating a format that serves your niche and of course, the endless need for fundraising all have to be mastered.

One misstep in any of these areas can cause the organization to flounder. In spite of all these challenges, KUHS(LP) in Hot Springs, Ark., appears to have hit one out of the park.

Its combination of out-of-the-box engineering solutions, enlightened management and innovative fundraising has created a cultural resource for central Arkansas that has been operating successfully since 2015.

KUHS also holds the distinction of being the only solar-powered station in the state.

Powered by the sun …

The station story began when Zac Smith, a tuba player and amateur radio operator then living in Winston-Salem, N.C., read about the FCC’s plans to allocate part of the spectrum to LPFM.

“I thought, ‘How cool would it be if there were a deejay booth in a coffee shop and you could drop a tune, or talk about your latest philosophical revelations?’”

That thought led to Smith partnering with broadcast engineer Bob Nagy and Bill Solleder, founder of Hot Springs non-profit Low Key Arts. Their 2013 application was approved by the commission, and they spent the next 18 months raising $35,000 and preparing for sign-on.

The first step was finding a transmitter site. Smith and Nagy scouted the peak of nearby West Mountain, which was covered with cellular, radio and emergency service towers. They found a long-vacant AT&T microwave relay building that was available.

The KUHS transmitter is located in this former AT&T microwave relay building on top of West Mountain.

The power had been disconnected, and the two quickly did the math to calculate their LPFM’s power needs. They determined that a solar installation would be more cost-effective than restoring commercial power, and estimated a two-year payback period. The system cost $2.75/watt including batteries. Since the installation work was all volunteer, there were no labor costs.

Nagy designed a 2.4 kW solar system for the site, and took steps to keep as much of the equipment running directly off DC as possible, avoiding power-hungry DC-to-AC inverters.

The station purchased a Bext exciter that ran on 24 VDC. Nagy designed a system to convert the solar system’s native 12.8 VDC to +5VDC and other voltages for ancillary equipment.

Initially, the KUHS solar system used lead-acid batteries for power storage, which Smith admits was probably not the best choice.

“They were the least expensive option, but they turned out to be very high maintenance. Corrosion of the battery terminals was an ongoing issue, and the cells had to be kept topped off with deionized water.  Even worse was the damage to our other equipment from the corrosive gasses they released.”

When it came time to replace these, the station used 200 Ah sealed lead acid batteries — more expensive but virtually maintenance-free. The battery system has enough juice to power the transmitter site through a cloudy winter week.

In 2016, KUHS also installed a 6 kW solar array on the roof of the Hot Springs studio. It powers the lights, studio equipment and a portion of the HVAC. The system has a grid tie, so excess power is sold back to the power company. For that installation, they paid $2.15/watt. There was a lot of volunteer labor in the project, but the switchgear was installed by a licensed electrician.

To get programming from the downtown Hot Springs studios to West Mountain a mile and a half away, they selected a Cambium Networks 5 GHz WiFi system with PoE (Power over Ethernet). A pair of Barix boxes provided the A-D and D-A conversions.

… and by volunteers

KUHS took steps to upgrade in 2018. The frequency was changed from 97.9 to 102.5 MHz to reduce interference from other stations. A Pira P132 RDS encoder was purchased to add text to the signal, and a BW V2 30W TX exciter was purchased for better sound and remote management. The frequency swap was celebrated with a gala event at the local theatre.

Station DJs do a dry run with remote gear prior to a live broadcast.

The station runs with a staff of 60 to 65 DJs. One of the key factors for its success is that everyone at the station, including Smith and Nagy, is a volunteer. Smith said the idea came from Nagy.

“He was really adamant about that. He said that at every volunteer station he had been at, the moment you raise enough money to get one person on part time, everybody quits putting in the effort. They’re like, ‘Well, let the paid person do it.’’’ He adds that part of the KUHS culture involves urging volunteers to ask for help when they need it, but also emphasizing that no one is going to do your work for you.

Smith’s real job is brewmaster for the SQZBX Brewery and Pizza Joint, which is in the same building as KUHS. The two businesses sometimes fertilize each other, with visitors to the station patronizing the brewery, and brewery customers discovering KUHS.

A KUHS promotion asked listeners to post pictures of their pets on Instagram. Favorites were posted by the station, and the first-prize winner was awarded a radio.

The programming philosophy for KUHS is providing community access and airing eclectic genres of music that are neglected by mainstream media. Smith uses a community garden analogy to describe the programming.

“We’re not maximizing our slice of the radio spectrum for money, rather we’re maximizing it for access.” Volunteer DJs have a love for a particular type of music that they think is underrepresented on the airwaves of Hot Springs. Each one stakes out a 1-2-hour shift to bring their musical passion to the community.

Planet Sounds, hosted by DJ Modest, features all genres of world music. Sonny Kay, Danny P and Operator OT host “Finally Friday,” where they play “motivational, agitational and otherwise propellent punk and pop” guaranteed to get a Friday night moving. And “Half Machine Lip Moves” is where you’ll hear “alien soundtracks from the industrial underground,” bringing you EBM, industrial, power electronics and noise, dark ambient, no wave, synthpunk, cold wave/minimal wave, noise rock, the experimental sounds of inner and outer space, and more.

Unusual for 21st century century radio, the KUHS studios have turntables, and several of the volunteers build their shows around various genres of esoteric vinyl.

Most vinyl DJs bring their own material. The station has a small library of around 200 LPs, 50 singles and approximately 200 CDs. Most were donated when the station started.

“With the internet what it is in terms of a musical resource,” Smith said, “I decided early on that being an archivist was not going to be our strong point. With 60 or 70 DJs, what would you collect with limited space?”

Holding down a full-time job while managing KUHS requires some thoughtful time management. One trick Smith utilizes is automation.

“One of our board members is a programmer, and he has been able to automate a lot of small tasks I need to do and glue them together with Python.”

KUHS is a member of the Grassroots Radio Coalition, an offshoot of public radio that focuses on community access and volunteer involvement in station operations. In 2016, the station hosted the annual Grassroots Radio Conference.

The annual budget for KUHS is about $12,000. That relatively small number is possible due to the combination of an all-volunteer staff and regular contributions from a stable financial base that includes several large benefactors, major contributors and numerous Hot Springs merchants. Additional revenue comes from music festivals. All of this makes Smith very grateful, “No one really wants the job of going door to door asking for money.”

The post LPFM Powers Up With the Arkansas Sun appeared first on Radio World.

The author is a broadcast contract engineer who has a unique way of measuring the carrier frequency of the AM stations in his care.

Making off-air frequency measurements of AM broadcast stations can be a bit of a challenge.

Unless you are at the transmitter site and have a high-level RF sample of the transmitter output available, it’s unlikely that you can use a frequency counter to make the measurement. Another method has to be used to measure the low-level (millivolt-range) off-air signal. I have found an easy, “zero-beat” method that works reliably.

I use the following complement of equipment:

• Field intensity meter (such as PI FIM-21/41, RCA WX-2 or Nems-Clarke 120);
• RF signal generator with 0.01 Hz adjustability (such as Agilent E4430B);
• GPS-disciplined 10 MHz reference oscillator (such as HP Z3801A) and antenna;
• Loop antenna (such as Chris Scott LP-3).

Fig. 1: Equipment setup

The physical setup is shown in Fig. 1, and the measurement procedure is as follows:

1. Connect the equipment as shown. The loop antenna can be oriented in any way and should be placed about a foot away from the FIM.
2. Tune the RF signal generator to the frequency of the station to be measured, then tune the FIM to that signal. It is not necessary to calibrate the FIM; it will only be used to receive the station and the actual field intensity reading is unimportant. You don’t even need to listen to the signal on the speaker or headphones. Set the meter to LIN mode, not Log mode.
3. Disconnect the loop antenna from the RF signal generator or disable its RF output. Orient the FIM to maximize the signal coming from the station. Adjust the FIM’s Range switch and Gain controls for a mid-scale indication (3–6) on its meter.
4. Reconnect the loop antenna or enable the RF output of the signal generator and adjust its output level so the meter swing remains within the limits of the scale. Set the RF output level based on the position of the FIM’s Range switch: for the 1 V/m range, start with –20 dBm; set it lower by 20 dB for each lower position of the Range switch. On my setup, I need around –10 dBm feeding the loop antenna for a usable indication on the FIM’s 1 V/m range. If necessary, change the RF signal generator’s frequency up or down by a few Hertz to see the meter swing back and forth due to the beat frequency.
5. Adjust the RF signal generator’s frequency to zero-beat the station so the meter swing is minimized and eventually stands still. Go right down to 0.01 Hz steps. Take your time as you get near the exact frequency, as the meter will be moving up or down very slowly. Make sure you’re not at a maximum or minimum of the zero-beat cycle. You want a position where changing the frequency up or down by 0.01 Hz causes the meter indication to reverse direction, indicating you’re as close as you can get. With practice you can dial in the exact zero-beat frequency in less than 30 seconds. Read the station’s exact carrier frequency on the RF signal generator.

Stations running IBOC, most of which are locked to a GPS reference frequency, are usually very close to their assigned frequency, within 0.1 Hz. Most modern analog transmitters will show some seasonal drift with temperature.

I am currently checking the carrier frequency of four local stations. The IBOC station (that is not using an external GPS antenna) has drifted up 0.04 Hz over five years. The others tend to move up or down by as much as 3 Hertz as the equipment temperature changes. The FCC rules require the carrier frequency to be within +/- 20 Hertz, so a few Hertz won’t matter.

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I’ve been using this method for more than eight years with results that match or exceed the commercial frequency measuring company’s reports.

I have the equipment listed above, but you can make substitutions if necessary. For example, in place of the Chris Scott loop antenna, a couple of clip leads and a series 30-50 ohm resistor can be used to form a loop that can be loosely draped on top of the FIM’s loop antenna. Even a short whip antenna can be used on the signal generator if the FIM is close enough to it.

An RF signal generator that lets you specify a frequency within 1 Hz or better can be used as long as it can utilize a 10 MHz reference signal. The carrier frequency you measure will only be as accurate as the equipment you have available to measure it with.

The 10 MHz reference signal could come from a rubidium oscillator, which has been adjusted to zero-beat a GPS-disciplined oscillator (GPSDO). These can often achieve accuracies of 0.0001 Hz on the 10 MHz signal.

An AM radio with a VTVM or DMM on its AVC line can also be used as an indicator if you don’t have an FIM.

RW welcomes your Tech Tips, email us at radioworld@futurenet.com.

The author is an amateur radio operator (WA1MIK) and FCC licensed contract radio engineer in Southern Connecticut. Email him at mailto:wa1mik@comcast.net.

The post Broadcast Frequency Measurement Methodology appeared first on Radio World.

The author is executive director of the National Federation of Community Broadcasters. NFCB commentaries are featured regularly at www.radioworld.com.

One of the stranger media industry stories surfaced last week as a cautionary tale for any organization not taking its leadership role seriously.

Nonprofit news outlet FairWarning closed Feb. 20 after allegations of inflammatory remarks by editor Myron Levin came to light on Twitter. According to a job candidate, Levin brushed off concerns of FairWarning’s lack of diversity in its board and staffing, offering various questionable hot takes in the interview. Controversy ensued. The staff went public to say Levin, who had already been planning to step down after an executive search, should resign.

[Read: Community Broadcaster: Unspoken]

Those involved in media for any length of time have seen other scandals play out similarly. In most cases, the leader in question apologizes and steps aside, so that the media organization can continue its needed work and retain the trust of its audience. In a jaw-dropping move, Levin and the board penned spirited defenses of the editor and a rebuke of the candidate. While charging the candidate of distorting the interview and making a point of saying he wasn’t hired, Levin does not outright say the account is a lie, either. The board then told the aggrieved staff they were out of jobs and that the whole operation was dissolving. Current dives further into this bizarre turn of events.

What can other organizations learn from such a colossal governance and leadership flop? How can your radio station avoid such issues?

First, whether you are interviewing job candidates, volunteers or prospective board members, it’s important to remember that they’re interviewing you as much as you’re interviewing them. Word choice matters. Such conversations are formal exchanges about your organization, its values and your leadership style. When you’re looked at as a resource, it’s at times easy to forget those conversations are not simply between you and the person you’re talking with, but are a chance to convey your organization’s vision for how its workplace functions.

Second, no matter if you believe Levin is completely innocent, covering up, or falls somewhere in the middle, clearly the subject of accountability bears reflection. At times, our words may not have been heard as we think they should be when someone else hears them. And when they aren’t, the old-school go-to of blame the listener does not cut it in today’s world. Salting your response by presenting others’ accounts as an “attack,” or cloaking yourself in self-righteousness only makes you look guilty. Apologizing and humbly accepting how one’s words were heard and pledging to do better shouldn’t be so hard, yet people sometimes make it so.

Finally, governance training for media organizations, especially nonprofit radio stations, is essential. Nonprofit boards have historically been taught that they have three core responsibilities. Among those is what is called the duty of loyalty, or operating the organization in its best interests above personalities. Boards supervise executives and, when it is time, replace them to ensure continuity of services, so that the nonprofit keeps delivering what its constituents expect. It may be hard for any established media organization to comprehend how a nine-person board (including Levin) would simply shut down a media outlet in response to criticism. In many instances, a lack of board training may be the issue.

 

The post Community Broadcaster: Things Fall Apart appeared first on Radio World.

Matt Levin is chief engineer for River Radio in Columbus, Ohio, and does contract engineering for several stations. Our interview with him is from the Radio World ebook “Trends in Audio Processing for Radio.”

Radio World: We’re asking users and manufacturers for their take on key trends in processing.

Matt Levin: I think the biggest development in processing is the shift from conventional dedicated hardware boxes to software that can run on a server with an alternative method for the MPX audio to get to the transmitter.

By shifting to software, it allows you to do your processing on your own server hardware, either on a physical box or in a virtual machine, or in the cloud via hosted services. Virtualization is the direction pure IT infrastructure went years ago and now the radio industry is finally embracing this concept from automation vendors to now processing vendors.

One of the keys to allowing this to work fully was the invention of the MicroMPX codec by Hans van Zutphen and his employee Mathijs Vos, and now through their collaboration with the Telos Alliance, we’re seeing products employing this technology. We are seeing further innovation by Telos and Nautel to synchronize the HD Radio and FM audio across the internet, which was the last major problem to solve before this becomes the norm for processing moving forward.

The other major benefit to this model is that it brings the cost of good processing capability down, as there is no expensive hardware box to design, build, maintain and support by the manufacturers. It’s just a server that most IT savvy engineers can maintain on their own, so really it’s a win-win for everyone!

RW: What should we know about differences in processing for various types of platform?

Levin: The needs are very different.

The worst thing an engineer could do would be to take the OTA FM signal and feed it into a web encoder. Low-bitrate webstream encoders do not deal well with a lot of density, or clipping, both of which are employed for FM OTA.

For FM OTA processing we are trying to overcome both the inherent noise in the FM analog broadcast system, and the road noise in automobiles, as studies have proven that most FM OTA listening is done while driving. Even with FM HD OTA we want some density there to overcome the road noise I spoke of, although you obviously don’t want all the clipping designed for the FM analog system.

Streaming in my opinion always needs its own separate processing which uses gentle, low-ratio compression, mainly for consistency between each piece of audio, and with some light lookahead limiting for peak protection on the encoder.

The other thing I’ve discovered through my own experience with low-bitrate webstream encoders, both MP3 and HE-AAC, is that they don’t deal well with excessive stereo enhancing or excessive warm bass/low mid-range material.

This seems to muddy everything in the codec, and too much stereo energy also causes havoc in the encoder, so careful shaping of the audio to pull some of the muddy area out, and use of very light spatial enhancing should be employed here.

Since podcasts deal primarily with speech, but are still typically low-bitrate-encoded audio files, the same rules apply from my previous streaming comments with the added aspect to keep the voice region clean, intelligible, and consistent.

RW: With “hybrid” platforms, a listener might tune to an FM but then drive out of market and the receiver switches to the online stream. What “matching” challenges does this present?

Levin: As this technology becomes more prevalent, paying attention to your web stream processing becomes more and more important, as it won’t just be in homes and offices anymore, but now in cars as well and for the masses.

This is where creating your “sonic signature” on both your OTA and your stream is so important. While the needs of processing for streaming differ greatly, you can still create a certain “sound” for your station that stays consistent on all platforms.

Take the time to listen to your FM, HD and web stream and come up with something that sounds comparable on all platforms.

RW: Where might further dramatic improvements in processing power come from?

Levin: Unfortunately, I think the needs today are more about trying to repair the damage done to the music by poor mastering techniques used by the record labels, and/or the damage done by using lossy codecs in the distribution process. Processing has become more than just compression, limiting and clipping.

Modern processors of today also have to repair the audio before it ever hits the compression stages. Different manufacturers are finding different ways to do this; these tools aim either to declip and add dynamics to audio that the mastering process has over-processed and over-clipped, or restore missing spectrum and remove artifacts from lossy compression.

Those that implement these repair tools in their processors have a cleaner product going into the compression stages, and will end up with a much-better-sounding product on the output, and I think we will continue to see more of these kinds of tools.

Additionally, there has been effort put into preparing the output audio or processors feeding low-bitrate codecs (i.e. streaming or HD) to prevent artifacts from being generated in the codec itself; all in an effort to get the best sounding audio to the user.

RW: We’ve also been asking folks if radio processing has attained such a condition of “hypercompression” that there has been little further change in how loud one can make over-the-air audio.

Levin: I have actually seen a significant amount of development from several of the leading processor manufacturers to create cleaner and cleaner clipping structures. Each employs different techniques to do this, so each has different side effects, but as a whole, the loudness levels we are able to achieve today while still keeping the audio clean and free of clipping grunge, distortion, and artifacts out of the top boxes on the market is actually a huge improvement over the boxes of 10+ years ago.

Now, how the engineers are turning the knobs on these boxes at their individual stations is another story. I think in some cases engineers are still abusing even these modern clippers and driving them past the point of sounding good, and further damaging the end user experience by over modulating significantly, causing massive amounts of distortion in modern DSP receivers.

I’m finding as I travel that most modern DSP-based HD capable receivers start to induce distortion on anything over 110%, and while many markets and engineers stay below this and can maintain clean audio, there are others that choose to carelessly overmodulate by as much as 140%, and you can imagine how bad that can sound on a modern receivers.

As much effort as the manufacturers have put into cleaning up the audio and providing a better product for the end user, it’s still up to the engineer installing and setting up their air chain and processing to make sure that they are using the tools at their disposal to provide the best possible product to their listeners.

I remember a day when radio sounded better than the music you would buy and listen to on your own, when processing actually improved the sound. With the power of modern processors, this is still possible today, but so many markets I’ve driven through recently this is sadly not the case. I long for the day when we as an industry strive for that goal once again, to sound better than the other streaming services and listening options out there.

RW: Could radio see loss of potential audience due to listening fatigue?

Levin: We as an industry are driving listeners away by bad practices, not only by overcompression, overclipping and overmodulating, but let’s add overusing Voltair to that list as well. I’ve traveled to some markets where all I hear is PPM tones adding flange effect and reverb effect to everything going over the air.

We have to do a better job of caring what our product sounds like if we hope to stay relevant in the future. Now sure, there may be some listeners out there who don’t care; but there are a lot that do.

While they may not be able to tell you why they can’t stand to listen to a particular radio station for more than a few songs or a few minutes before it drives them crazy or makes them want to turn the volume down, I wager that if you had the same content on a much cleaner-sounding delivery system, they would suddenly find it much less annoying and actually find themselves turning the volume up, instead of down or off.

Give listeners a reason to turn the volume up, make your station sound good!

Comment on this or any article. Email radioworld@futurenet.com with “Letter to the Editor” in the subject field.

 

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