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Technology infrastructure company PMG has selected a new EVP to leading its software and cloud platforms.

And, in connection with the hire, PMG has acquired the media management and workflow orchestration software that this new executive developed over the past seven years in anticipation of ATSC 3.0.

With the addition of Azita Manson and her software platform, PMG believes it can provide broadcasters with a “comprehensive, end-to-end orchestration solution to manage content workflows across platforms.”

As such, PMG says is now engaged to design, build and operate the Public Media Education Platform (PMEP) on behalf of public broadcasters across five states.

The PMEP is a national education datacasting service that will be initially deployed in ATSC 1.0 but is already optimized for ATSC 3.0. PMG’s software and cloud architecture will ingest educational content from stations, content producers and educators, and then deliver that targeted content to students across the country, with a focus on students that lack broadband connectivity.

As PMEP affiliates transition to ATSC 3.0, PMG’s software and cloud architecture will allow stations and educators to leverage new interactive and addressable features to further enhance the service.

“Bringing Azita and her software to PMG added another crucial piece to the PMG platform,” says PMG CEO Joe Chinnici. “Her software combined with the reach of our Single Frequency Networks allows us to provide both our commercial and public broadcast clients with an end-to-end solution to drive new ATSC 3.0 innovation and revenues.”

In the coming months, PMG will be announcing the launch of an open architecture application layer to allow for greater ATSC 3.0 innovation and use cases.

“By powering edge devices with PMG’s open architecture middleware and application software, the industry will benefit from a more entrepreneurial environment in which a greater number of businesses and industries participate in ATSC 3.0, driving greater value to, and demand for, broadcasters’ spectrum,” PMG says.

As part of this open architecture, PMG will make its application authoring tools available so that stations can customize their own NextGen TV apps.

Earlier in her career, Manson was the Director of Technology at TiVo and Senior Director of
Architecture at SeaChange International. For Comcast, TimeWarner and CableLabs, Manson
designed the first connected home protocol, and the security for the first downloadable
microchip software.

Telestream, a  provider of workflow automation, media processing, quality monitoring and test and measurement products for the production and distribution of video, says its Telestream Cloud Stream Monitor and Wirecast streaming solutions have each achieved “SRT Plugged” status by successfully completing interoperability testing at the SRT InterOp Plugfest.

SRT (Secure Reliable Transport) is an open-source video transport protocol, developed by Haivision and driven by the SRT Alliance, that enables the delivery of high-quality, secure, low-latency video across the public Internet. This allows for optimized streaming performance across unpredictable networks, bringing the best quality live video over the worst network connections. SRT represents an alternative to costly satellite links, purpose-built fiber networks, or proprietary transport solutions.

Telestream Cloud Stream Monitor and Wirecast live production and streaming software participated in the SRT Alliance’s recent “InterOp Plugfest” kick-off event. The event is held annually for developers to test interoperability and compatibility between different technologies and vendors using the SRT protocol. Stream Monitor now enables users to monitor live video quality from streams transported via SRT. By repeatedly demonstrating compatibility and interoperability with other SRT Alliance members, SRT Plugged status was validated. Tests confirmed interoperability with over 20 different SRT enabled devices from a variety of market-leading encoding and content delivery systems. The latest Wirecast release was used as a live video contribution source via the SRT protocol.

“This is great news for customers looking to either monitor or contribute video over SRT, which has become an emerging standard for anyone delivering live video over public internet and cloud backplanes,” said Kenneth Haren, Director of Product Management at Telestream.

Qligent, the provider of cloud-based media delivery quality assurance products, has appointed a 30-year broadcast industry veteran to serve as its Vice President of Sales.

Reporting to CEO Brick Eksten, Ken Dillard will lead all sales and business development initiatives in North American and the CALA region, and collaborate with Qligent sales representatives and partners worldwide.

Dillard brings a diverse range of broadcast experience industry to his new role. He spent nearly 15 years as a broadcast engineer for radio and television stations before transitioning to sales. He has since held roles of increasing responsibility with Harris Corporation, Dejero, Avid and TVU Networks, working his way up from regional to executive-level positions. His vast sales and engineering experience gives him strong knowledge and expertise across the entire media production and delivery workflow, including Qligent’s core monitoring and analysis business.

Dillard joins Qligent at a time of broadening horizons for the company. While Qligent remains an active force in the traditional broadcast space, the company continues to evolve its vision for emerging opportunities and a broader customer base of content providers. For example, Qligent’s core QoS, QoE and compliance monitoring strengths have been applied to event-based monitoring with Dymos, a SaaS-based cloud solution ideal for event-driven OTT originators and DTC content providers. Qligent has also put a stronger emphasis on data-driven analysis to help all customers better understand and service viewing audiences.

“Broadcast is an important staple of our business, and we see strong opportunities to help broadcasters leverage a very rich and granular level of data to monetize their OTA and OTT services,” said Dillard. “We are also working very closely with content creators and their distribution partners to bring core Qligent competencies in QoS/QoE monitoring to their services.”

Dillard is especially bullish on Dymos, which allows Qligent customer to spin up event-based streams and temporary channels in the cloud for sports, live events and special broadcasts, among other creative programming requirements. “The ability to offer our customers a way to spin up, monitor and spin down these channels on a consumption-based cost structure without an investment in on-premise equipment opens an entirely new wealth of programming and revenue-generating opportunities for broadcasters and content providers,” he said.

Dillard also sees opportunity to extend Qligent’s reach beyond the media and entertainment landscape, noting that Qligent’s Foresight solution can provide valuable data analytics for corporate AV, digital signage and other audience-driven video services.

“Ken joins Qligent at a time of growth and expansion into new and exciting business areas for the company,” said Eksten. “He brings a detailed understanding of how media enterprises are accelerating toward DTC business models, which represents the direction of where the broader media and entertainment industry is headed. These skillsets, along with his strong track record of successful sales and business development initiatives for leading industry vendors, makes him an ideal fit for helping Qligent customers monetize their content and improve client satisfaction.”

The author is owner-engineer of AM Detuning Service.

Currently there are more than 4,500 AM broadcast stations on the air in the U.S. These stations still rely, to a limited degree at least, on a technology that, at its heart, hasn’t changed much in over 80 years.

One area that uses well-established and core electronic techniques is the AM antenna system.

AM broadcast antenna systems rely heavily on the use of L/C (that is Inductor/Capacitor) networks to accomplish things like impedance matching, phase shifting, broadbanding, frequency trapping, harmonic filtering and numerous other applications.

The most common configuration of L/C components in an AM antenna system is the ubiquitous “T” Network, so named because of the circuit configuration.

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Nearly every AM antenna system uses one of these networks to match the complex impedance of the antenna to the impedance of the transmission line feeding it. We remember from early electronics training that when the source impedance (the impedance of the transmission line) equals the load impedance (the impedance of the antenna), we get the most efficient power transference to the load. Getting every last watt of power to the antenna is usually good thing!

AM antenna systems have a resistance value (R) and a reactive value (X). Most often, this is expressed as a complex number R+jX.

This complex number is the “impedance” of the antenna system and is measured at the operating frequency of the antenna.

When an engineer designs an AM antenna, its complex impedance can be estimated with a good degree of accuracy using empirical data gathered decades ago, or it can be even more accurately estimated using moment-method modeling. However, ground conductivity at the antenna, variations in the ground radials configuration and nearby structures may have some effect on that value.

The best way to determine the exact AM antenna base impedance is to use an impedance bridge or network analyzer and measure the impedance on the frequency of operation.

Fig. 1: Schematically, the components form the letter “T,” thus the descriptor “T network.” (Click here to enlarge.)

Component Arrangement

As noted, the “T” network gets its name from the schematic arrangement of the components in its makeup. As Fig. 1 shows, the components Xa, Xb, Xc are electrically connected in a way to form the letter “T.”

For those just getting into radio engineering, I’d like to mention that the components do not have to physically form the letter “T” when they are mounted in place, though they can if you desire. It is wise, though, to mount inductors perpendicular to each other, so they don’t inductively couple energy and do unpredictable things.

Fig. 2: The physical layout for an AM antenna tuning unit “T” networks. Note that the layout doesn’t exactly resemble a letter “T,” but it could if desired. Also note that coils are physically mounted at right angles to one another to minimize mutual coupling. (Click here to enlarge.)

Fig. 2 shows a layout for a commercially-built ATU. You will notice the input component Xa is a capacitor-coil series combination. This coil in series with a capacitor “subtracts” from the capacitive reactance to allow a wide range of adjustment. Xc is the shunt coil of this “T” network, and one end is grounded through a paralleled pair of capacitors. Again, the series coil provides for adjustment of this leg. At the top right is Xb, which is the output inductor. Notice this inductor is mounted at a 90-degree angle to Xc, and in a different plane, to Xa. This is done to minimize mutual coupling between the coils. The component layout may not form the letter “T” mechanically, but electrically it does.

Impedance Matching

One function of the “T” network is impedance matching, that is, taking a high or low value of antenna impedance and transforming it to the same value as its transmission feedline.

Along with the impedance transformation, the “T” network also has some inherent shift of the current from the input to the output of the network. It’s possible to design either a phase-lagging or phase-leading network.

In many, but certainly not all, AM broadcast antenna tuning units, the “T” network is designed for a 90-degree phase shift. The focus of this article will be limited to 90-degree “T” networks.

One of the reasons for choosing a 90-degree phase shift is that this value simplifies the component calculation. The reactance values for Xa, and Xb are the same and Xc is the same numerical value but of opposite sign. Typically, in a phase-lagging network, Xa and Xb are equal value inductors and Xc is a capacitor of the same, but negative, reactance value. The opposite is true of phase-leading networks. But as we shall see, that’s not always the case.

Fig. 3: 90-degree “T” network equation and example calculation. (Click here to enlarge.)

To calculate the values for an example “T” network, the follow the equations in Fig. 3. For the moment, we will ignore the reactive part of the antenna’s impedance and use only the antenna resistance and the characteristic impedance of the transmission line.

In the example shown in Fig. 3, all three component reactances are calculated to be 70.7 ohms, but that doesn’t take into account the reactive component of the antenna impedance. What we need to do is to make that reactive part go away by adding an opposite sign reactance in the output leg of the “T” network.

To do this, we must add a negative 250-ohm reactance to the output leg of the “T” network. This gives us a network that looks like the one shown in Fig. 4.

Fig. 4: Block diagram of a complete “T” network, including a reactance to cancel antenna reactance. (Click here to enlarge.)

Now we can combine the two reactive components in the output arm of this network into one component by adding Xb + (– jX ) together to get  –j 179.3 ohms, which changes this arm of the network from inductive to capacitive. We calculated the capacitor value to replace both of these components to be 888 pF. This isn’t a standard value of transmitting capacitor, so we can either use a vacuum variable capacitor adjusted to that value or employ a standard-value capacitor with a slightly lower capacitance value and put an inductor in series with it. The value of the inductor is then adjusted to achieve the exact net let reactance that we need.

For example, using a 750 pF capacitor and a 10 µH coil, we would adjust the coil for a net combined reactance of –j 179.3 ohms in the output arm of the “T” network.

“T” networks with phase shift values different than 90 degrees require a bit more math. We’ll explore that in a future article.

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

The author started his radio career as an amateur radio operator in his teens and worked for various AM and FM stations in the Chicago region. After 30 years as a chief engineer he retired from radio, got bored shortly thereafter and started AM Detuning Service to mitigate wireless tower effects on AM antennas.

 

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Radio station owner SummitMedia has entered into a strategic partnership expected to accelerate growth for both companies in the fast-growing, global podcasting business.

The owner and operator of 47 radio stations in markets such as Honolulu and its home locale of Birmingham has inked an agreement with Los Angeles-based CurtCo Media.

CurtCo Media currently produces scripted and unscripted podcast programming, and the pact marks SummitMedia’s first formal alliance designed to advance the company’s foray into podcasting.

“SummitMedia’s partnership with CurtCo Media provides us with an exciting opportunity to develop and explore the rapid-growing podcast medium,” said SummitMedia Chairman/CEO Carl Parmer. “We’ve known and watched CurtCo create engaging and innovative content for years, and value the integrity and quality they bring to the media industry.”

CurtCo Media CEO Bill Curtis added, “Having a strategic alliance and investment from SummitMedia makes this partnership the most powerful moment to date in our business development. We’re so excited to work with Greg Kelly, Carl and their team to create new dynamic programming and combine Summit’s powerful radio platform with CurtCo Media in the fast-growing world of podcasting. We believe this strategic partnership will provide sustainable value for our business and expand our audience.”

Through this final rule, the Commission fosters the efficient and robust use of broadcast spectrum capacity for the provision of Broadcast internet services consistent with statutory directives. In this document, the Commission concludes that ancillary and supplementary (A&S) fees should be calculated based on the gross revenue received by the broadcaster, without regard to the gross revenue of an unaffiliated third party, such as a spectrum lessee; should retain the existing standard of derogation of broadcast service, but amend the wording of the rules to eliminate the outdated reference to analog television; and should reaffirm that noncommercial educational television broadcast stations (NCEs) may offer Broadcast internet services. The Commission also reinterprets the application to permit noncommercial educational stations (NCEs) to devote the substantial majority of their spectrum not just to free over-the-air television but also ancillary and supplementary services; lowers the ancillary and supplementary service fee for certain NCE services; and clarifies that NCEs may offer limited Broadcast internet services to donors without transforming those donations into feeable ancillary and supplementary service revenue.

Delta Broadcasting, LLC enters into consent decree to resolve political file investigation

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Tri-Rivers Broadcasting Company enters into consent decree to resolve political file investigation

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Issued a Notice of Apparent Liability for Forfeiture in the amount of $1,500 to Voice of Eupora for failure to timely file a license renewal application for Station WEHS-LP, Eupora, Mississippi

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Requests that the Commission delete channel 4 from Superior and allot it to York, Nebraska, and substitute channel 24 for channel 4 at York in the Table consistent with the technical parameters set forth in the Amended Petition

Requests the substitution of channel 26 for channel 13 at Corpus Christi, Texas, in the DTV Table of Allotments

The Bureau cancels the Notice of Apparent Liability issued to Letcher County Broadcasting

Requests the substitution of channel 36 for channel 11 at Lubbock, Texas in the DTV Table of Allotments

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With Monday’s Closing Bell on the Nasdaq GlobalSelect exchange, Urban One’s common stock finished at $6.88.

While the gain was a 8.5% improvement from Friday, and was followed by an immediate 2.6% decline in early after-hours trading, one thing is rock solid about the company superserving African American consumers.

Urban One stock appears to have solidified a “new normal” nearly seven times as high as where its shares were before the coronavirus and George Floyd became universally known.

And, it comes on a report that it is teaming up for ownership of a $517 million casino resort in Richmond.

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A low-power FM radio station in Mississippi faces a $1,500 fine from the Federal Communications Commission for failing to file for license renewal on time.

The station is WEHS in Eupora, Miss., licensed to Voice of Eupora. Its president told the FCC that his mother had been ill and subsequently died, which is why he’d been out of town for several months, causing the application to be filed more than two months late in April of 2020.

“Although we are sympathetic to the licensee’s president’s loss, we find that issuing a notice of apparent liability is still appropriate here,” the commission’s Audio Division ruled.

“The commission has long held that ‘licensees are responsible for the acts and omissions of their employees and independent contractors,’ and has consistently ‘refused to excuse licensees from forfeiture penalties where the actions of employees or independent contractors have resulted in violations.’ The licensee itself was ultimately responsible for ensuring it complied with the rules by filing a timely renewal application. It did not do so.”

The base penalty is $3,000 but the commission reduced it to $1,500 based on circumstances, including the fact that LPFMs are a secondary service.

The station has 30 days to pay or file a reply to the notice of apparent liability.

 

 

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