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NAB Unveils Service to America Finalists
The National Association of Broadcasters has announced the radio and TV finalists in their 2020 Celebration of Service to America awards. Of corporate owners Townsquare Media, Gray television and Tegna garnered multiple nominations.
The awards, which are for outstanding community service by local broadcasters, were to have been handed out at a June 9 dinner in Washington but will now handed out via a prerecorded tribute that stations can air sometime in August.
The finalists are listed below:
Service to Community Award for Radio — Small Market
Bryan Broadcasting, KNDE(FM), College Station, Texas — 103 Charities
Townsquare Media, WKXW(FM), Trenton, N.J. — New Jersey Judges
Townsquare Media, WKXW(FM), Trenton, N.J. — Feel Better Bears
Milner Media Properties, WYUR(FM), WVLI(FM), WIVR(FM), WFAV(FM), Bourbonnais, Ill. — Serving the Kankakee River Valley
Service to Community Award for Radio — Medium Market
Alpha Media, WSGW(AM/FM), Saginaw, Mich. — Sharing Hope Radiothon
iHeartMedia, WRVE(FM), WGY(AM/FM), Albany, N.Y. — 2019 Cares for Kids Radiothon
Service to Community Award for Radio — Major Market
Bonneville International, KIRO(AM), Seattle — 710 ESPN Seattle and Coaching Boys into Men
Hubbard Broadcasting, KRWM(FM), Seattle/Tacoma — WARM 106.9 Community Activation
Cox Media Group, WSB(AM), Atlanta — 2019 WSB Careathon
Service to Community Award for Television — Small Market
Gray Television, KVLY(TV), Fargo, N.D. — Homeless Kids Need Help
Gray Television, KWQC(TV), Davenport, Iowa — 2019 Flood Relief
Gray Television, WJHG(TV), Panama City, Fla. — Remembering the Forgotten
Service to Community Award for Television — Medium Market
Gray Television, KWTX(TV), Waco, Texas — Food for Families
Tegna, WBIR(TV), Knoxville, Tenn. — The Reality of Suicide
Gray Television, WNDU(TV), South Bend, Ind. — Never Again: Preventing Bus Stop Tragedies
Tegna, WTOL(TV), Toledo, Ohio — 11 Investigates: Guilty Without Proof
Service to Community Award for Television — Large Market
Sinclair Broadcast Group, KABB(TV), WOAI(TV), San Antonio — Show Me Your Bill
Hubbard Broadcasting, KOB(TV), Albuquerque, N.M. — Protecting Our Enchanting Environment
Nexstar Media Group, KXAN(TV), Austin, Texas — Save Our Students: Solutions for Wellness and Safety
Nexstar Media Group, WDAF(TV), Kansas City, Mo. — FOX4 Band of Angels
Graham Media Group, WKMG(TV), Orlando, Fla. — Driving Change: Florida’s Texting and Driving Law
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LeGeyt Reiterates NAB Opposition to Performance Fees
A music performance fee would not only be “unjustified as a matter of policy,” but is “financially untenable for local radio broadcasters of all sizes.”
That’s the message from National Association of Broadcasters Chief Operating Officer Curtis LeGeyt testifying at a Senate Judiciary IP Subcommittee staff briefing. The topic was music rights within the Digital Millennium Copyright Act, or DMCA.
LeGeyt reiterated several arguments that broadcasters have cited for years in this debate, and brought them up to date to include ramifications of the pandemic.
“Without reliance on subscription fees like our streaming and satellite competitors, local radio is supported by advertising alone,” LeGeyt said, according to his prepared remarks, released by NAB.
“With local businesses – including restaurants, retailers and car dealers – ravaged by this pandemic, that advertising revenue is currently on life support and further illustrates the policy interest in keeping broadcast radio’s costs down. For these reasons, Congress has repeatedly considered the recording industry’s arguments and chosen not to impose a performance royalty on free, local radio.”
LeGeyt said that radio’s place in American culture is not accidental. “It is the product of policy choices and a resulting legal framework that enable broadcast radio to remain completely free and dedicated to communities.” Among those, he said, is the DMCA. That copyright law, he said, may be in need of review, but “its music licensing reforms are an incredible success story.”
LeGeyt said the DMCA “enabled the growth of lawful music streaming to the benefit of recording artists whose revenues hit record highs in 2019, all while preserving a free and local broadcast radio model that continues to benefit those same performers and serve the public interest.”
He thanked lawmakers who have expressed support for the Local Radio Freedom Act, which opposes performance fees for broadcast radio.
“The recording industry is also well aware that NAB stands ready to continue discussions around alternative music licensing frameworks that could increase total royalties to performing artists while allowing broadcasters to expand our own streaming footprint,” LeGeyt also said. “However, any piecemeal terrestrial performance royalty unilaterally imposed on local radio stations is not justified as a matter of copyright policy and will further stress the economics of the current free and local broadcast model.”
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FCC, CISA Ask Governors to Support Communication Networks
The heads of two federal agencies are asking the nation’s governors to provide necessary access and resources to communications workers during the pandemic.
Radio and TV broadcasters are among the essential entities listed. Other networks include those related to 911 calls, telehealth, distance learning and telework. (The full list is at the end of this story.)
Federal Communications Commission Chairman Ajit Pai and Cybersecurity and Infrastructure Security Agency Director Christopher Krebs sent the letter, describing communications networks as “a lifeline during this challenging time.” CISA is a relatively new entity, established in 2018 and responsible for protecting the nation’s critical infrastructure from physical and cyber threats.
The letter asked the states to follow guidance from the Department of Homeland Security’s Cybersecurity and Infrastructure Security Agency updated earlier this month, specifically: Guidance on the Essential Critical Infrastructure Workforce and Guidelines for Executives: 911 Center Pandemic Recommendations.
Among other recommendations it also asked the governors to “consider prioritizing the distribution of personal protective equipment to communications personnel when availability permits’: to understand that communications retail customer service personnel at service centers are critical for helping customers, especially low-income families and veterans; and to facilitate maintenance and repair of communications infrastructure by providing more online access to relevant government functions such as the permit process.
Below is the list of infrastructure and entities that the FCC and CISA asked governors to treat as essential to COVID-19 response efforts:
- Businesses and personnel that provide communications support to medical and healthcare facilities, assisted care and living facilities, and people with disabilities;
- Radio and television broadcasters, cable operators, and Internet Protocol television (IPTV) providers;
- Telecommunications relay services providers and closed captioning providers;
- Public safety communications infrastructure (e.g., land mobile radio, broadband, Wi-Fi, high frequency radio, microwave, wireline, satellite voice, video, Radio over Internet Protocol, paging, data communications systems), including infrastructure that is owned, operated or maintained by commercial service providers in support of public safety and infrastructure in support of Emergency Communications Centers;
- Internet access service providers, telephone carriers, interconnected VoIP providers, mobile wireless providers, undersea cable operators, content delivery network operators, service integrators, and equipment vendors;
- Satellite operators; and
- Companies and individuals involved in the construction of new communications facilities and deployment of new and existing technology to address unprecedented levels of customer usage and close the digital divide for Americans who are sheltering at home.
The post FCC, CISA Ask Governors to Support Communication Networks appeared first on Radio World.
Inside the May 27 Issue of Radio World
Should the FCC allow “zoned” programming for FM stations in the United States? Read what major broadcast organizations had to say about this in our latest issue. Also: IP studios for managers; making connections during a business crisis; and using privacy slats to deter vandalism at your transmitter site.
Read it online here.Prefer to do your reading offline? No problem! Simply click on the digital edition, go to the left corner and choose the download button to get a PDF version.
The post Inside the May 27 Issue of Radio World appeared first on Radio World.
Let Your Dryer Work Out the Kinks
Bill Fike writes in to say that quite often he will receive, with a new piece of equipment, a power or audio cable or some other special connection cable. More often than not, the cable has been folded and tightly tied with a cable tie. Even after removing the tie, some of these cables will remain kinked indefinitely.
Bill has read that a heat gun can be used to warm up the cable and remove the kinks; but that’s a lot of work to go over the length of a long cable. Bill also worried about the risk of melting the inner conductors; some heat guns can get very hot.
Bill came up with an easy alternative method to relax the cable so it can be coiled or wrapped. His clothes dryer has a rack for drying sweaters, sneakers or other items that can’t be tumbled. He places the cables on the rack in the dryer, sets the dryer to high and runs it for about 10 minutes (Fig. 1). Some cables may need longer dryer time.
Fig. 1: A dryer rack holds cables as the dryer removes kinks (fabric softener sheets optional)When you pull out the cable, it’s warm and relaxed. It can then be coiled or wrapped properly, and it won’t have kinks.
The first time Bill did this, his wife asked why the drying rack was out. When she heard the answer, she just slowly shook her head and walked away. Some people don’t appreciate a good idea when they see one.
By the way, Bill is an Audible Approved Producer. Audible defines this as “a master of the craft, the best of the best; they excel in audiobook production, performance, generate positive customer reviews, and provide the Author and Rights Holder with a professional and smooth production experience. They typically submit audiobooks that do not require a resubmission by QA, and their titles are not terminated for reasons related to the production or their professionalism. Audible Approved Producers are hand-selected by the ACX team for their skill.”
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Engineering consultant Frank Hertel is always solving problems. Recently, he found an interesting link while searching for an older two-lead virtual ground IC.
The link takes you to a 2000 Engineering Application Note by Bruce Carter of Texas Instruments. Titled “A Single-Supply Op Amp Circuit Collection,” it is ideal for those engineers who still fabricate special devices, instead of buying something “off the shelf.”
This in-depth article provides useful information regarding the design and use of op-amps, especially in single voltage supply applications. The author explains that one of the biggest problems for designers arises when the circuit must be operated from a single voltage supply rather than a dual ±15 VDC supply. The application note includes working circuits that should be helpful.
The full article can be accessed at www.add.ece.ufl.edu/4924/docs/TI_SingleSupply.pdf
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Speaking of op amps:
Dan Slentz writes that though he is far from the best bench tech, he has replaced his share of op amps over the years. At WHIZ in Zanesville, Ohio, the AM/FM studios were in a different building, and Dan had a static or ground issue where he was constantly replacing op amps.
Dan alleviated the problem by adding an odd diode to the input/output of the op amp. This didn’t affect the audio, but did discharge anything over 1V to ground. This greatly reduced the replacement of op amps in his distribution amps.
Fig. 2 The Sparkos Labs website offers some interesting finds.As Dan was researching the issue, he came across “discrete op amps” that sounded interesting. A video associated with the site describes these devices as being better sonically. The company is Sparkos Labs; they use layered surface-mount devices mated to the familiar eight-pin DIP (Dual In-line Package) to create an op-amp alternative. In addition to a full data sheet, there’s a white paper on why discrete op-amps are superior to ICs.
PS: Dan keeps an eye via social media and enjoys seeing what “cotton-headed ninny muggins” are up to. (If you don’t know that phrase, watch the movie “Elf.”)
Today’s award winner is a hobbyist who built an FM transmitter powered by the 12 VDC of a car. With that kind of power, there’s small chance of this individual’s transmitter causing an interference problem. But what caught Dan’s eye was his closing statement, seeking referrals for upgrading to a higher-power transmitter!
***
We’ll wrap up this column with a little history lesson that Dan found.
Prior to the advent of the tape cartridge machine was a device called the MacKenzie Program Repeater. As one of the first designs of continuous loop tape playback devices, the MacKenzie Program Repeater was used by top 40 radio stations starting in the late 1950s.
Fig. 3: Read about the MacKenzie Program Repeater at the ReelRadio website.The MacKenzie Model 500 featured five decks stacked — though other models included up to 10 — all with a common capstan. Two independent tracks per magazine deck gave a total of 10 messages that could last up to 14 minutes. Tape was contained in mounted metal magazines.
Read about it at the ReelRadio website, which includes a drawing of how the tape was wound in the magazine. Visit www.reelradio.com/reports/mackenzi to read more.
Though the repeater found its way into top 40 radio, according to the article it was used initially at Disneyland and in Hollywood filmmaking. Louis G. MacKenzie, inventor of this device, received a technical citation for developing a selective sound effects repeater at the 1962 Academy Awards.
Contribute to Workbench. You’ll help your fellow engineers, and qualify for SBE recertification credit. Send Workbench tips to johnpbisset@gmail.com.
John Bisset has spent over 50 years in the broadcasting industry and is still learning. He handles western U.S. radio sales for the Telos Alliance. He holds CPBE certification with the Society of Broadcast Engineers and is a past recipient of the SBE’s Educator of the Year Award.
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Bob Groome Dies at 77
Bob Groome, a former radio chief engineer who went on to a 41-year career in broadcast sales, marketing and technical support, died this month at age 77.
According to his Facebook page, he passed away May 17 at his home in Florida after a long battle with cancer. At his death he worked in sales engineering for RF Specialties.
“Although his working career extended an extraordinary 59 years, he was particularly proud of his technical position in 1963, working on NASA’s Apollo project, as a lead (PWB) technician for General Electric, on contract supporting NASA in Daytona, Fla.,” according to an obituary on his Facebook page.
“But his love of music and technology ultimately led him to the broadcast industry, beginning with his very first job at WOOO radio (1310 AM) in Deland, Fla. in 1961, as chief engineer and DJ personality ‘Bob the Bachelor’ and later, chief engineer at WGCL radio, Fort Myers, Fla., from 1969–76.”
Radio World readers will know him best for his work with numerous prominent equipment and service companies including Audio Associates, Harris Broadcast, Allied Broadcast Equipment, Arrakis Systems, Jampro Antennas, Electronic Research Incorporated (ERI) and RF Specialties.
“As a member of Society of Broadcast Engineers, Bob authored and presented papers at local, regional and national conferences. Bob presented to Mexico’s Ametra, Japan’s InterBEE and Canada’s CCBE meetings. He presented papers and was invited to attend engineering roundtables at professional conferences held by Texas Association of Broadcasters, Broadcasters’ Clinic, Iowa Public Symposium, Tampa’s SBE Symposium, among others.”
According to the obituary, Groome was a spiritual man and a devoted Christian. His interests included technical projects such as building an electric car, computers, collecting music, woodworking, and visiting the traces of the “old Florida” of his youth.
“He loved his wife [Philippa Jeffreys], Krispy Kremes, Rod McKuen poetry, the ocean, and Tina Turner. He watched ‘Young Frankenstein’ at least once a year. Everyone loved his crooked smile.”
Groome maintained a website, the Sweet Old Bob Website, www.bobgroome.us that includes FM and AM formula calculators “to help his radio broadcasting comrades with their work. This site is up and helping others at the time of this writing, and we hope to maintain this website to honor Sweet Old Bob, the wonderful husband, dad, brother, grandfather and friend who touched so many lives and will be dearly missed.”
A family service is planned at a future date.
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Who’s Buying What: Online Station Studio Brussels Opts for SmartRadio
At Belgian public broadcaster VRT, online music station Studio Brussels launched a new digital channel, Stubru #ikluisterbelgisch, using SmartRadio. Three additional online radio streams from VRT, including ’90s and ’00s from its youth station MNM, were recently launched by VRT, also utilizing SmartRadio.
A cloud- and web-based radio-as-a-service platform developed by Broadcast Partners, SmartRadio provides a software-based product to broadcasters, consisting of microservices that run in a virtualized Windows environment. SmartRadio can operate either online for streaming and other services or can provide production, editing and streaming services to terrestrial broadcasters.
Orban Labs partnered with Broadcast Partners to add Smart Processing capability to this platform. Using Smart Processing, stations can select parameters for processing to create their own custom, unique “sound.” Algorithms used in Smart Processing are comparable to Orban’s Optimod hardware processors.
Radio World welcomes submissions for the Who’s Buying What column from both buyers and sellers. Email radioworld@futurenet.com with “Who’s Buying What” in the subject line.
The post Who’s Buying What: Online Station Studio Brussels Opts for SmartRadio appeared first on Radio World.
Grounding: GroundLinx Advocates for New Approach
Tom LaBarge is CEO of GLxT Holdings and its manufacturing subsidiary GroundLinx Technologies. The company makes a system called Gradiance that it promotes as providing a new approach to electrical grounding.
Radio World: Don’t we know pretty much what we need to know about grounding?
Tom LaBarge: The necessity for electrical grounding has indeed been well known for over two centuries. But well known and well understood are not always synonymous.
The current industry specifications to achieve compliance in a grounding installation are woefully outdated and dangerously anemic with respect to the electronics-rich culture of contemporary society.
Even “enhanced” grounding systems exclusively rely on a humble ground rod — inspired by Ben Franklin — which, in fact, has only a single point of primary dissipation for fault currents, as well as no capability for high-frequency dispersion.
Regardless, engineers continue to specify not only antiquated technology, but also inaccurate models of grounding performance and on point-in-time resistance-to-ground measurements made with low-voltage, low-frequency test equipment.
“Significant research is now available that shows dissipation of dangerous fault currents can be accomplished very successfully if novel combinations of new materials and electrode structures are employed.” — Tom LaBarge
These meters cannot capture the dynamic characteristics of an entire fault event. Thus, the limitations of basic ground rods, combined with grounding system designs built only to achieve snapshot-quality resistance measurements, result in much less than optimal protection of the broadcasting plant.
However, significant research is now available that shows dissipation of dangerous fault currents can be accomplished very successfully if novel combinations of new materials and electrode structures are employed.
Such designs can properly manage high frequencies in these currents, as well as more efficiently disperse all aspects of a fault pulse over time through better management of differences of impedance in elements of a grounding system.
Existing technology — as discussed within the broadcasting industry for many years — is not able to achieve these essential results, thus causing increasing failures of critical equipment.
In fact, there is a tremendous amount of new information to review and understand with respect to effective grounding — particularly as the financial and operating demands of broadcasters evolve.
RW: You’ve said systems can fail “in spite of their adherence to commonly accepted design standards.” It sounds like the standards themselves need to change, no?
LaBarge: We absolutely advocate for standards to be changed — based on a new understanding of fault current characteristics, dramatic limitations of present grounding technology and the shortcomings of contemporary grounding system analysis techniques.
The quantity and sophistication of electronics required in broadcasting of any type, whether commercial, public safety, industrial or transportation, among many other uses, has leapfrogged the published performance goals of traditional grounding. We seek to be the change agents toward substantially improving protection of expensive equipment, and reduction in injuries and loss of lives.
RW: Your GroundLinx Gradiance system aims to provide a solution. What is it?
LaBarge: Through the use of novel combinations of materials not previously found in grounding devices, these products are capable, first, of non-sacrificially dissipating current frequencies exceeding 60 MHz, the point where copper begins to lose effectiveness, and second, creating an “impedance gradient” that dramatically reduces the possibility of reflection of a fault current, throughout the event, back into systems and devices that a grounding strategy was designed to protect.
Traditional ground rods are not able to offer these protective features. With GroundLinx Gradiance systems we’ve reimagined and redesigned the “business end” of grounding to protect the super-sensitive electronics of the contemporary broadcast plant at a significantly higher level.
An image from the GroundLinx Gradiance website. (Click on the image to view a larger version.)RW: What are the major deficiencies in common grounding systems?
LaBarge: In a nutshell we can group major causes of the significant deficiencies into two megacategories: absence of research and development over several decades, and a general lack of understanding of the physics behind grounding performance overall. Additionally, within the world of traditional grounding, there is little consensus on system design standards.We’ve heard it said that if one puts 10 grounding design engineers in a room, 11 opinions will emerge.
In terms of industry codes, grounding has always been an exercise, necessary to achieve a stated resistance-to-ground target — which is of very limited value with respect to true, full-fault-event dissipation. This rote activity is repeated all over the world. As a result, the U.S. insurance industry alone reports over $1 billion in lightning losses every year. (This excludes fire damage initiated by lightning.) European Union organizations site “billions of Euros” lost annually due to lightning and fault current events.
Due to antiquated modeling, inaccurate representations of fault current behavior and a “We’ve always done it this way” attitude, the use of everything from highly insufficient conductor size or deployment, to exclusive reliance on soil moisture, to creation of “ground loops” that allow fault currents to return to structures and equipment, the range and amount of dangerous errors in grounding system design are rather amazing.
As an example, at a recent site inspection at an eastern U.S. larger-market television tower, three chain-link fence posts embedded in concrete were being used as grounding for this tower more than 1,000 feet tall. Not surprisingly, the facility suffers equipment damage exceeding $50,000 annually.
Reviews at smaller-market radio facilities nearly always show major disregard for grounding necessities. As a result, off-air time, or signal disruption events at a minimum, are far too common.
In all cases, the throttling of major fault currents into small ground rods, regardless of quantity, that have a huge disparity in impedance relative to surrounding soils (and possibly amendments) far too often results in completely insufficient dispersal of the fault, and therefore equipment damage, or worse.
We see this situation in well over 90% of the sites we review.
In our experience, U.S. broadcast facilities of all types and applications are generally designed to achieve compliance with the current published standards and codes. They are often tested and certified to comply with specified static/point-in-time resistance-to-ground readings. However, as I said, such measurement is only a snapshot of system performance made with simple test meters — which cannot emulate the performance of a grounding system over time during a major fault event where over 30,000 amps and 250,000 volts at frequencies exceeding 200 MHz may be encountered.
Broadcasters need to up their grounding game, and do so quickly.
RW: What else should we know?
LaBarge: Steep waveforms at the initiation of lightning strikes and fault surges are now understood to contain a simultaneous mélange of frequencies that often exceed 100 MHz. It is the inability to deal with this toxic onslaught that is often to blame for signal loss, equipment damage and worse. Immediate dissipation of the high-frequency barrage — before its reflection back into equipment can occur — is paramount. Unfortunately, copper is only optimally effective up to 60 MHz, and loses effectiveness quickly above that level. Therefore, rethinking of grounding system materials and structures, and overall grounding strategies, is necessary.
Quite simply, the “criticality” of greatly improved grounding in broadcasting operations through attention to fault frequencies and grounding impedance mismatches cannot be overstated. For operating consistency and financial prudence, we encourage radio broadcasting engineers to become far more “acquainted“ with grounding systems of their facility.
Information about the company’s grounding systems can be found at www.groundlinx.com.
Radio World welcomes comments on this or any story. Email radioworld@futurenet.com with “Letter to the Editor” in the subject field.
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