Low-power broadcasting

Low-power broadcasting refers to a broadcast station operating at a low electrical power to a smaller service area than "full power" stations within the same region, but often distinguished from "micropower broadcasting" (more commonly "microbroadcasting") and broadcast translators. LPFM, LPAM and LPTV are in various levels of use across the world, varying widely based on the laws and their enforcement.


Radio communications in Canada are regulated by the Radio Communications and Broadcasting Regulatory Branch, a branch of Industry Canada, in conjunction with the Canadian Radio-television and Telecommunications Commission (CRTC). Interested parties must apply for both a certificate from Industry Canada and a license from CRTC in order to operate a radio station. Industry Canada manages the technicalities of spectrum space and technological requirements whereas content regulation is conducted more so by CRTC.

LPFM is broken up into two classes in Canada, Low (50 watts) and Very Low (10 watts). The transmitters therefore range from 1 to 50 watts, as opposed to 1 to 100 watts in the U.S. As of 2000, 500 licenses (very low and low-power FM) have been issued. These transmitters are generally only allowed in remote areas.

Stations in the low-power class are subject to the same CRTC licensing requirements, and will generally follow the same call sign format, as full-power stations. Stations in the very low-power class formerly had to have CRTC licenses as well, although a series of CRTC regulation changes in the early 2000s exempted most such stations from licensing; a station in this class will usually not have a conventional call sign, but will instead be identified in a naming format consisting of a four-digit number preceded by the letters CH for a television station or VF for a radio station.

The regulation of spectrum space is strict in Canada, as well having restrictions on second and third adjacent channels, along with other protections for AM and FM commercial radio. In addition, because there have been a few cases that found that FM frequencies have caused interference to the aeronautical navigation and communications (NAV/COM) spectrum (though evidence is not very concrete presently), pirate radio regulation has remained very strict as well. However, the two regulating bodies do have certain exemptions. For example, low-power announcement transmitters that meet the requirement of Broadcasting Equipment Technical Standards 1, Limited Duration Special Events Distribution Undertakings, Temporary Resource Development Distribution Undertakings, and Public Emergency Radio Undertakings are a few instances, which according to certain criteria, may be exempt from certificate/license requirements.[1]

In Canada, there is no formal transmission power below which a television transmitter is broadcasting at low power. Industry Canada, in most cases, considers a television transmitter to be low-power if the noise-limited bounding contours are less than 20 km from the antenna.[2]

New Zealand

In New Zealand residents are allowed to broadcast licence free-of-charge at a maximum of 1 watt EIRP in the FM guardbands from 87.6 to 88.3 and from 106.7 to 107.7 MHz under a General User Radio License (GURL), which is issued by Radio Spectrum Management, managed by the Ministry of Economic Development. Prior to June 2010, the lower band was located between 88.1 and 88.8 and a maximum of 500 mW EIRP allowed. Broadcasters on these frequencies are required to cease operations if they interfere with other, licensed broadcasters and have no protection from interference from other licensed or unlicensed broadcasters. Contact details must also be broadcast every hour.[3]

There exists a 25 km broadcast translator rule: one licensee may operate two transmitters anywhere (close together), but a third transmitter must be at least 25 km away from at least one of the first two transmitters.[3]

There are efforts on self-regulation of the broadcasters themselves. The NZRSM Radio Inspectors do however, regularly monitor and make random unannounced visits to broadcasters, and will impose fines for violations of the regulations. New broadcasters are also subject to an initial compulsory inspection.

United Kingdom

Temporary low-power stations are allowed at times via a Restricted Service Licence. Since 2001, longterm LPFM licences have been available in remote areas of the country. These are currently used for many establishments including military bases, universities and hospitals with fixed boundaries.

United States

FM radio

Low Power FM (LPFM) is a non-commercial educational broadcast service. LPFM licenses may be issued to non-commercial educational entities, and public safety and transportation organizations. Individuals and holders of other types of broadcast licenses are not eligible to hold an LPFM license.

LPFM classes

In addition, Class D educational licenses exist for stations of 10 watts transmitter power output (TPO) or less, regardless of ERP. These stations are all grandfathered operations, as no new licenses of this type have been issued since 1978. They are not considered to be LPFM stations, although they operate noncommercially and have similar coverage areas to Class L2 stations.


Origins of LPFM

In January 2000, the Federal Communications Commission established Low Power FM (LPFM) as a new designated class of radio station. These stations were allowed to operate at 1–10 or 50–100 watts of power, compared to the minimum requirement for commercial stations at 100 watts. (47 C.F.R. 73.211). Originally, it was supported by activists and groups and figures associated with American progressivism; music artists (such as Bonnie Raitt); church leaders; and educators (for example, American Library Association, the Communication Workers of America labor union, the National League of Cities, and the United Church of Christ).

The original purpose of LPFM was to serve as an alternative to "radio homogenization", as described in the J&MC Quarterly Journal, as "... Necessary to offset the growing consolidation of station ownership in the wake of the Telecommunications Act of 1996, which removed caps on radio ownership, as well as the decline of locally produced radio programming."[4] The main opposition to LPFMs came from the National Association of Broadcasters (NAB), which opposed the act on grounds to "maintain spectrum integrity" for commercial broadcasting, according to NAB President Edward O. Fritts.[4]

Radio Broadcasting Preservation Act of 2000

Pressure from the National Association of Broadcasters urged Congress to slip the Radio Broadcasting Preservation Act of 2000 into a general spending bill that circulated through Congress. President Bill Clinton signed the bill in December 2000, albeit reluctantly. The actual bill that went through Congress was meant to tighten standards for LPFM stations, in an effort to make it harder for stations to be approved in order to protect full-power FM stations had these provisions:

  1. The FCC has the ability and jurisdiction to license LPFM stations.[5]
  2. Third adjacent channel interference protections require LPFM stations to be separated by at least 0.6 MHz from all other stations with the intent of preventing signal interference.
  3. Applicants who have engaged in the unlicensed operation of any station cannot receive LPFM licenses.
  4. The FCC agreed to commission studies on the interference effects and economic impact of LPFM on full-power stations (the findings, later published in the MITRE Corporation Report, suggest that third adjacent channel interference protections may not be necessary).[6]

This act basically shifted policy making from the FCC to Congress, which was considered an insult against the FCC. (Stavisky, Alan G., Robert K. Avery, and Helena Vanhala. "From Class D to LPFM: The High-Powered Politics of Low-Power Radio." Journalism & Mass Communication Quarterly 78 (2001): 340–54.)

Local Community Radio Act of 2005

The Local Community Radio Act of 2005 was introduced by Senators John McCain, Maria Cantwell and Patrick Leahy. After the FCC complied with the provisions of the Radio Broadcasting Act of 2000 by commissioning the MITRE Report to test if there was significant interference from LPFM stations on the full-power stations, the study showed that the interference of LPFM is minimal and would not have a significant effect on other stations.[7] According to Sen. Leahy, "This bill will open up the airwaves to truly local broadcasting while protecting full-power broadcasters from unreasonable interference and preserving important services such as reading services for the blind."[8]

Local Community Radio Act of 2007

Sponsored in the U.S. House of Representatives by Congressmen Mike Doyle and Lee Terry and in the United States Senate by Senators Maria Cantwell and John McCain, the Local Community Radio Act of 2007 failed to be voted on. The House bill, H.R. 2802, was referred to the Subcommittee on Telecommunications and the Internet on June 21, 2007.[9] Since the bill was not passed in FY 2007, the bill was removed from the docket as Never Passed.

Local Community Radio Act of 2009

This bill was an update of the Local Community Radio Act of 2007. It would have required the FCC to alter current rules in order to get rid of the minimum distance separation between low-power FM stations and third-adjacent channel stations.[10] Previously, there was a minimum distance requirement; however the FCC found that LPFM stations did not cause any interference on third-adjacent channel stations, thus eliminating the need for such a requirement.[11]

The Local Community Radio Act of 2009 also would have required that the FCC keep the rules that offer interference protection to third-adjacent channels that offer a radio reading service (the reading of newspapers, books or magazines for those who are blind or hearing impaired).[12] This protection will ensure that such channels are not subject to possible interference by LPFM stations.[9]

The final part of the bill required that when giving out licenses to FM stations, the FCC must make sure that these licenses are also available to LPFM stations and that licensing decisions are made with regard to local community needs.[10] The bill had unanimous bipartisan support from FCC leadership. It was passed by the House and referred to the Senate.[13]

Local Community Radio Act of 2010

The Local Community Radio Act of 2010 (based upon the legislation originally introduced in 2005) was signed into law by President Barack Obama on January 4, 2011 as Pub.L. 111–371, after passage in the House on December 17, 2010, and the U.S. Senate on December 18, 2010. In a statement after the bill became law, Federal Communications Commission chairman Julius Genachowski said, "Low power FM stations are small, but they make a giant contribution to local community programming. This important law eliminates the unnecessary restrictions that kept these local stations off the air in cities and towns across the country." The Act states that the Federal Communications Commission, when licensing new FM translator stations, FM booster stations, and low-power FM stations, should ensure that licenses are available to FM translator stations, FM booster stations, and low-power FM stations; such decisions are made based on the needs of the local community; and FM translator stations, FM booster stations, and low-power FM stations remain equal in status and secondary to existing and modified full-service FM stations.

In general, the FCC was to modify its rules to eliminate third-adjacent minimum distance separation requirements between low-power FM stations; and full-service FM stations, FM translator stations, and FM booster stations.

Arguments for LPFM

A New York Times article[16] focusing on a LPFM station called KOCZ highlights a number of key arguments for LPFM:

Former President Bill Clinton is a known advocate of LPFM saying it is "giving voice to the voiceless", including schools, community groups, churches, and ethnic groups.[17]

Brown Paper Tickets CEO Steve Butcher supports LPFM, stating in a letter to the FCC, "We hear from event producers frequently who can't afford radio ad buys on commercial stations. These local entrepreneurs can afford underwriting on smaller stations that can help build awareness about their events."[18]

LPFM stations are considered to be affordable compared to an average FM station, whose operating costs can run up to a million dollars, and could only afforded by businesses and the very wealthy. An antenna and transmitter can cost between $2,000 and $5,000.[19]

Arguments against LPFM

LPFM vs. broadcast translators

Unlike the former FM class D license, an LPFM station has no priority over broadcast translators in the allocation of available spectrum. This is problematic insofar as the regulations for broadcast translators exempts non-commercial stations from the requirement that translators be within the coverage area of the original station that they rebroadcast. However, this provision only affects translators in the non-commercial portion of the band. Stations in the commercial part of the spectrum must be fed over the air unless they are within the actual service area of the primary station. Since the translator window of 2003 was only open for commercial channels, the use of directly-fed via satellite FM translators, commonly called "Satellators", was never a factor in the 2003 window.

The FCC licensing window for new translator applications in 2003 resulted in over 13,000 applications being filed,[26] most of them coming from a few religious broadcasters. However even though all translators on commercial frequencies must be fed by a direct, over-the-air source, regardless of who owns the translator per FCC rule 74.1231(b),[27] the actual over-the-air source (the primary station) can be satellite fed, just as commercial stations can be fed by satellite. This leads to programming from a single station (retransmitted by many others) ending up on several hundred different translators. One station cannot apply for hundreds or thousands of translators nationwide, using automated means to generate license applications for all available channels, unless all of their applications are exclusively on the non-commercial part of the broadcast band (88–91.9 MHz). (47 C.F.R. 74.1231(b)) As with any new service that shares the FM spectrum, when translators are added to an area, they can reduce or eliminate the availability of channels both for new LPFM applicants and for relocation of any existing LPFM stations displaced by full-service broadcasters. Unlike an LPFM station, a translator is not required to (and legally not authorized to) originate any local content except as permitted by 47 C.F.R. 74.1231(g). Thus there is competition for spectrum in some locations between the LPFM service and the FM translator service.

AM radio

Under the FCC rules, there is no such thing legally as "LPAM" like there is LPFM. LPAM is only an acronym applied to licensed low-power AM operations and to Part 15 transmissions as well. The use of 'LPAM' in this description is not a legal term and is only used as an abbreviation. Any licensed LPAM operations in the United States are low-power nighttime or post-sunset/pre-sunrise authorizations for higher-power licensed AM stations. These are Class D AM broadcast stations, which would have been limited to daytime-only operations before regulations changed in the 1980s. Many, but not all, Class D stations have been granted authority to broadcast at night with enough power to be heard within a few miles of their transmitter sites.

Other LPAM operations are known as Travelers' Information Stations (TIS), sometimes also called highway advisory radio (HAR). Authorized under FCC Part 90.242, these are stations licensed to local transportation departments or other governmental or quasi-governmental agencies to provide bulletins to motorists regarding traffic conditions. These are often near highways and airports, and occasionally other tourism attractions such as national parks. Some are used by chemical and nuclear facilities for emergency evacuation information systems, others by public safety entities for mobile operations. They are normally authorized for 10 watts or less, although some higher authorizations exist, primarily in locations where emergency evacuation may become necessary. The 60 watt TIS stations on 1640 and 1680 kHz at Dallas–Fort Worth International Airport are the most powerful of the full-time TIS stations. Music is disallowed on TIS/HAR stations and only 3 kHz wide audio is allowed as well, compared to 10 kHz audio on AM broadcast stations and 15 kHz audio on FM stations.


There are more than 2,450 licensed low-power television (LPTV) stations in the U.S., which are located in markets of all sizes, from New York City (five stations, though more exist in the market from other cities of license) down to Junction City, Kansas (two stations).

LPTV (-LP) is common in the U.S., Canada and most of the Americas, where most stations originate their own programming. Stations that do not originate their own programming are designated as translators (-TX). The Community Broadcasters Act of 1998 directed the FCC to create a classification of LPTV licenses called Class A (-CA). Digital low-power and Class-A television stations have an ERP limit of 3,000 watts (3 kW) for VHF, and 15 kilowatts for UHF.[28]

The LPTV service is considered a secondary service by the FCC, which means the licensee is not guaranteed protection from interference or displacement. An LPTV station must accept harmful interference from full-service television stations and may not cause harmful interference to any full-service television station (the FCC defines what interference levels are deemed to be "harmful"). The problem with potential displacement was made evident during the transition of broadcasting in the United States from analog to digital. All television stations operating on UHF channels 52 and above were required to move to channel 51 or below. Full-service stations were guaranteed a place to land in the new compressed band while LPTV stations operating on channels 52 and above were forced to find their own channel to move to. If a station was not able to find a displacement channel, it runs the risk of losing its license.

Class A LPTV stations

The FCC provided for a one-time filing opportunity for existing LPTV stations to become Class A stations. The designation was available only to those LPTV stations that were producing two hours per week of local programming. Class A status provides for protected channel status and Class A stations are required to produce two hours per week of local programming, maintain a production studio within their Grade B contour, and comply with many of the requirements placed on full-service television stations.


One of the key distinctions between full-service television stations and low-power stations is cable television and direct broadcast satellite (DBS) carriage. Full-service stations are guaranteed carriage in their local television market through "must-carry" whereas LPTV stations are not. In 2008, there was an effort put forward by FCC chairman Kevin Martin to grant must-carry rights to Class A LPTV stations. The effort failed due to a lack of support from the other FCC Commissioners.

Network affiliates

Though many low-power television stations are either unaffiliated, or broadcast programming from small networks meant for their use, some LPTV stations are affiliated with major broadcast networks like Fox, The CW or MyNetworkTV. Examples include in Youngstown, Ohio, where a pair of LPTV stations based at WYFX-LD broadcast Fox programming, along with the digital subchannel of the co-owned CBS affiliate, WKBN-TV, or in the Lima, Ohio area, whose low-power stations are affiliates of major networks, such as CBS and ABC.

Digital transition

On July 15, 2011, the FCC issued an order to low-power broadcasters that effectively requires all remaining television transmitters to vacate channels 52 to 69 by December 31, 2011. In that same order, the FCC effectively requires all remaining analog transmitters to shut down by March 29, 2016.

Unlike FM and AM, unlicensed use of television bands is prohibited for broadcasting. The amateur television channels do allow for some very limited non-entertainment transmissions however, with some repeaters airing NASA TV during Space Shuttle missions when they are not in local use.

The low-power television industry was represented by the Community Broadcasters Association (CBA), which held its annual convention each year in October and an annual meeting each year in April at the National Association of Broadcasters Convention in Las Vegas. The meeting was always held on the Monday night of the NAB convention in Ballroom B of the Las Vegas Hilton and was open to anyone interested in the low-power television industry. On August 13, 2009, the CBA announced in a statement that it would shut down after 20 years of representing LPTV stations. One reason given was the "restrictive regulations that kept the Class A and LPTV industry from realizing its potential". Another was the inability to reach most viewers, partly due to Multichannel Video Programming Distributors refusing to carry these channels. In addition, Amy Brown, former CBA executive director, said, "some 40% of Class A and LPTV station operators believe they will have to shut down in the next year if they are not helped through the digital transition."[29]

In February 2006, the FCC released its Notices of Proposed Rules for Digital Radio. The Commission reaffirms its commitment to provide broadcasters with the opportunity to take advantage of digital audio broadcasting (DAB) technology, proposed criteria for evaluating models and systems, such as the In Band On Channel (IBOC) system, and inquired on the needs for a mandatory DAB transmission standard.

In section 39 of the Notice, the FCC inquires as how to balance incentives for broadcasters to switch to digital systems with incumbents of new entrance opportunities, stating that they “seek analyses of the minimum power levels that would preserve service within protected service areas in an all-digital environment, and alternatively, the levels that would not result in significant disruptions to current listening patterns.”[30]

The DAB system that has been identified as the best fit for LPFM is IBOC system. This is a hybrid system that uses existing frequencies and can operate carrying digital information along with analog broadcast signal on the sidebands. However, the digital carriers require the bandwidth to be widened, which would cause interference to stations on the first adjacent channel. If LPFM adopts IBOC, then LPFM would also need to accept a second adjacent channel restriction between two LPFM stations, as there is a potential that the sidebands of two LPFM stations would overlap causing interference. Currently, imposing a second adjacent channel restriction would impact less than 10 LPFM stations.[31]

See also


  1. Industry Canada. Radiocommunications and Broadcasting Regulatory Branch, Spectrum and Telecommunications Management. (2000), Frequently asked questions on low power FM broadcasting (RIC-40), Ottawa, Canada: Spectrum Publications
  2. "Part 10: Application and Procedures and Rules for Digital Television (DTV) Undertakings" (PDF).
  3. 1 2 "Radiocommunications Regulations (General User Licence for Low Power FM Broadcasting) Notice 2010".
  4. 1 2 Alan G. Stavisky; Robert K. Avery; Helena Vanhala (2001). "From Class D to LPFM: The High-Powered Politics of Low-Power Radio". Journalism & Mass Communication Quarterly. 78: 340–54.
  5. "H.R. 3439 [106th]: Radio Broadcasting Preservation Act of 2000". 1999. Retrieved February 12, 2008.
  6. "FCC Reports LPFM Interference Findings to Congress" (PDF). Radio Magazine. March 1, 2004. Retrieved March 3, 2008.
  7. Current.org "Mitre study on LPFM" Check |url= value (help).
  8. "United States Senator John McCain :: Press Office :".
  9. 1 2 "H.R. 2802: Local Community Radio Act of 2007". 2007. Retrieved February 12, 2008.
  10. 1 2 "H.R. 1147, The Local Community Radio Act of 2009". Washington Watch. 2009. Retrieved May 23, 2009.
  11. "FCC Reports LPFM Interference Findings to Congress" (PDF). RADIO magazine - The Radio Technology Leader. 2004. Retrieved May 24, 2009.
  12. "About". KPBS Radio Reading Service. Retrieved May 23, 2009.
  13. United States Congress (September 18, 2009). "FCC: Unanimous, bipartisan support for LPFM". Free Press (organization).
  14. "Local Radio Now". Free Press. 2008. Retrieved February 12, 2008.
  15. "About Prometheus Radio Project". Prometheus Radio Project. 2009. Retrieved February 10, 2011.
  16. B. Stelter (January 11, 2011). "Low-Power FM Radio to Gain Space on the Dial".
  17. Mike Janssen (January 15, 2001). "Intervention by Congress slashes LPFM licensing 80%". Current. Retrieved February 11, 2008.
  18. "Brown Paper Tickets CEO Makes Voice Heard for Low Power FM". Brown Paper Tickets. September 13, 2011. Retrieved September 13, 2011.
  19. "What is low-power FM LPFM?". HowStuffWorks. 2000. Retrieved February 12, 2008.
  20. "LPFM Report Fatally Flawed". Radio TechCheck. National Association of Broadcasters. 2003-10-20. Archived from the original on 2009-01-14. Retrieved 2011-10-14.
  21. Ron Whittaker (June 14, 2007). "Elements of Mass Communication: AM FM Waves and Sound". Retrieved February 12, 2008.
  22. "Factsheets". Retrieved May 29, 2008.
  23. Everhart, Karen (2008-05-12). "Pubradio rejects higher status for low-power". Current. Retrieved 2011-10-14.
  24. Everhart, Karen; jonathan (2008-05-21). "Once again NPR opposes expansion of low-power FM". reclaimthemedia.org. Retrieved 2011-10-14.
  25. MacBride, Marsha J.; Timmerman, Jerianne; Bobeck, Ann W. (2005-08-22), "Comments of the National Association of Broadcasters", Before the FEDERAL COMMUNICATIONS COMMISSION, National Association of Broadcasters, archived from the original (PDF) on 2009-01-14, retrieved 2011-10-14
  26. Naina Narayana Chernoff (10 September 2003). "Translator 'Flood' Causes Concern". Retrieved 2015-06-01.
  27. 47 C.F.R. 74.1231(b)
  28. "FCC Slideshow, slide 56".
  29. "Community Broadcasters Association to Shutter". Broadcasting & Cable. 2009-08-13. Retrieved 2009-08-14.
  30. "Review of fcc proposed rules for digital radio and impact for lpfm". Prometheus Radio Project, Initials. February 12, 2006.
  31. Michelle Eyre (September 21, 2008). "A Comparitive[sic] overview of digital audio broadcasting (dab) systems".
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