Radio propagation beacon

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(ITU sponsored beacons)
(Notes and references)
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# Rose, R., Hunsucker, R.D. and Lott G.K.: "Results from a year-long Auroral-E measurement campaign", ''Naval Command, Control and Ocean Surveillance Center'', San Diego, CA, April 1993.
# Rose, R., Hunsucker, R.D. and Lott G.K.: "Results from a year-long Auroral-E measurement campaign", ''Naval Command, Control and Ocean Surveillance Center'', San Diego, CA, April 1993.
# Martin Harrison, G3USF: "Getting started in... beacons, part 1", ''RadCom'', '''89'''(02), [[Radio Society of Great Britain]], pp. 22, February 2013.
# Martin Harrison, G3USF: "Getting started in... beacons, part 1", ''RadCom'', '''89'''(02), [[Radio Society of Great Britain]], pp. 22, February 2013.
# IPS Radio and Space Services: [ Radio Beacon VL8IPS] (dead link)
==See also==
==See also==

Revision as of 10:00, 18 February 2013

DK0WCY & DRA5 beacons

A radio propagation beacon is a radio beacon, which is mainly used for investigating the propagation of radio signals. Currently most radio propagation beacons use amateur radio frequencies. They can be found on HF, VHF, UHF, and microwave frequencies. Microwave beacons are also used as signal sources to test and calibrate antennas and receivers.[1] [2] Andy Talbot, G4JNT, gives the following definition for beacons licensed in the Amateur Radio service: A station in the Amateur Service or Amateur Satellite Service that autonomously transmits in a fixed format, which may include repeated data or information, for the study of propagation, determination of frequency or bearing, or for other experimental purposes.[1]



The earliest record of radio propagation beacons goes back to World War II, when the German military operated propagation beacons on wavelengths of approximate 80 m and 10 m. Many propagation beacons were installed during the International Geophysical Year 1957-1958 These included amateur radio beacons OZ7IGY and GB3IGY (later GB3RAL) on 144 MHz, which are still operational, as well as the now defunct DM3IGY in East Germany on 28001 kHz. (19)

Transmission characteristics

A CW beacon keyer based on discrete CMOS digital chips.

The majority of propagation beacons operate in continuous wave (CW or A1A) and transmit their identification (callsign and location) in Morse code. Some of them send long dashes (sometimes at varying power levels) to facilitate signal strength measurement. A small number of beacons transmit Morse code by frequency shift keying (F1A). A few beacons transmit signals in digital modulation modes, like radioteletype (F1B) and PSK31 (G1B).

Most beacons consist of a simple digital keyer, based on discrete digital electronics or a microcontroller, and a low power transmitter or tranceiver. FT-897, a budget HF tranceiver produced by Yaesu/Vertex, has a programmable beacon mode and is used in some temporary propagation beacon installations. Recently K6HX published a versatile Morse code keyer design based on the popular Arduino microcontroller platform.

Antennas usually are types with low directivity. There are exceptions, however, like the high power beacons with directional antennas, specifially set up for transatlantic VHF propagation experiments.

160 meters beacons

The IARU Region 2 (North and South America) bandplan reserves the range 1999 kHz to 2000 kHz for propagation beacons.

60 meters beacons

In addition to the DARC and RSBG beacon projects on 5195 and 5290 kHz (see below), Eddie Bellerby of UDXF discovered in March 2011 a new CW beacon on 5206 kHz, sending LX0HF, presumably from Luxembourg.[13] Further intelligence indicates that the beacon is operated by Philippe LX2A/LX7I of the Luxembourg Amateur Radio Society.[14] Two more european beacons are listed on 5 MHz, OV1BCN on 5290 kHz, operated by OZ1FJB and OK1IF on 5258.5 kHz from the Czech Republic, though their current status is unclear.

Callsign Frequency Locator Details
DRA5 5195.0 kHz JO44VQ DARC
LX0HF 5205.3 kHz
OK1IF 5258.5 kHz JO40HG Inactive. Recording: [1]
GB3RAL 5290.0 kHz IO91IN RSGB
GB3WES 5290.0 kHz IO84QN RSGB
GB3ORK 5290.0 kHz IO89JA RSGB
OV1BCN 5290.0 kHz JO55SI Op OZ1FJB [2]
SZ1SV 5398.5 kHz KM17UX Op SV1IW & SV1JG. Inactive.

30 meters beacons

Callsign Frequency Locator Details
DK0WCY 10144.0 kHz JO44VQ DARC
IK3NWX 10137.3 kHz JN55VF nr Monselice, PD 15m asl

10 meters beacons

QSL card from K5DZE 28 MHz beacon at Dry Ridge, KY.

Most HF radio propagation beacons are found in the 10 meters (28 MHz) frequency band, where they are good indicators of Sporadic E ionospheric propagation. According to IARU bandplans, the following 28 MHz frequencies are allocated to radio propagation beacons:

IARU Region Beacon allocations
  • 28190-28199 Regional Time Shared
  • 28199-28201 WW Time Shared
  • 28201-28225 Continuous Duty
  • 28190-28199 Regional Time Shared
  • 28199-28201 IBP/NCDXF
  • 28201-28225 Beacons, continuous duty
  • 28225-28300 Shared
  • 28190-28200 IBP

40 MHz beacons

  • The first radio propagation beacon on 40 MHz is OZ7IGY in Jystrup, Denmark (JO55WM) and transmits on 40021 kHz. Transmitted power is 22 W to a dipole antenna. Modulation is F1A keying (frequency Shift Keying), with a shift of 250 Hz. [3]
  • The Radio Society of Great Britain has a license for beacon transmissions from GB3RAL (Didcot, UK) on 40050 & 60050 kHz.

6 meters (50 MHz) beacons

Antenna tower of LX0SIX and LX0FOUR beacons

In the 6 meters (50 MHz) band, beacons operate in the lower part of the band, in the range 50000 kHz to 50080 kHz. The ARRL bandplan recommends 50060  to 50080 kHz for beacons in the United States. Due to unpredictable and intermittent long distance propagation, usually achieved by a combination of ionospheric conditions, beacons are very important in providing early warning for 50 MHz openings.

4 meters (70 MHz) beacons

General beacon operations

Numerous beacons operate on 70 MHz in recent years. Their main purrpose is to dected the relativley rare and extreme Es (sporadic E) opennings, which exceed 70 MHz.

There is no definite international beacon allocation, due to various countries having different amateur radio allocations in this band. Generally beacons operate near the bottom end (70.000-70.100 MHz).(11) (12). Most respect the RSGB bandplan, staying below 70.050 MHz.

  • 70.000-70.050 MHz: UK beacon allocation, including personal beacons on 70.030 MHz

Special beacon allocations

  • USA: 70.005 MHz is allocated to the WE9XFT beacon. Transmits from Bedford, VA, under an FCC experimental license issued to Brian Justin, WA1ZMS, with a power of 3 kW. In 2012 this beacon shall transmit from the same location under new callsign WF9XRU.
  • Austria: 70.045 MHz is allocated to the OE5QL beacon.
  • Hong Kong: 71.757 MHz is allocated to the VR2FOUR beacon.

VHF/UHF beacons

GB3VHF propagation beacon (144 MHz)

Beacons on 144 MHz and higher frequencies are mainly used to identify tropospheric radio propagation openings. It is not uncommon for VHF and UHF beacons to use directional antennas. Frequency allocations for beacons on VHF and UHF bands vary widely in different ITU/IARU regions and countries.

Band Beacon Sub-band (MHz)
2 m 144.400-144.490 144.275–144.300 Unknown
1.25 m N/A 222.050–222.060 N/A
70 cm 432.800-432.990 432.300–432.400 Unknown
33 cm N/A Varies Locally N/A
23 cm 1,296.800-1,296.990 1,296.070-1,296.080 Unknown
13 cm 2,320.800-2,320.990 2,304.300-2,304.400 Unknown

The current allocation in the United Kingdom, which also reflects IARU Region 1 recommendations, is the following:[4]

Band Beacon allocation (kHz)
4 m 70,000-70,030
2 m 144,400-144,490
70 cm 432,800-432,990
23 cm 1296,800-1296,990

ON0EME moon beacon

A beacon specifically for earth-moon-earth (EME or "moonbounce") reception became operational in 2012 in Belgium. The beacon uses call sign ON0EME and transmits on 1296.0 MHz with a very high power of 1000 kW ERP. The antenna is a solid parabolic reflector with a diameter of 3.7 m. [17]

SHF and microwave beacons

In addition to identifying propagation, microwave beacons are also used as signal sources to test and calibrate antennas and receivers. SHF beacons are not as common as beacons on the lower bands, and beacons above the 3 cm (10 GHz) band are unusual.

Band Beacon Sub-band (MHz)
9 cm 3,400.800-3,400.995 3,456.300-3,456.400 Unknown
5 cm 5,760.800-5,760.995 5,760.300-5,760.400 Unknown
3 cm 10,368.800-10,368.995 10,368.300-10,368.400 Unknown
1.2 cm Beacons are rare

Optical and infrared beacons

Recently some groups of radio amateurs, especially in Britain, experiment with two-way communications on optical wavelengths. This activity has led to the design and installation of a few beacons operating on optical wavelengths. These beacons transmit modulated light using high intensity LEDs and are used mainly for equipment setting and calibration. An interesting example is the optical beacon located at GB3CAM (Wyton, UK) operating at 628 nm.[16]

License-free experimental beacons

Main articles: LowFER, HiFER.

These are extremely low power experimental beacons which operate legally without a license on specific bands, which are reserved for very short range radio transmissions or for industrial, scientific and medical devices (ISM) and in which a limited level of radiated RF energy is allowed. They are operated as radio propagation experiments by radio amateurs and other radio hobbyists.

Type Frequencies Countries FCC Part 15 rules
LowFER 160-190 kHz USA, Canada § 15.217
MedFER 510 & 1704 kHz
(510-1705 kHz)
USA, Canada § 15.219
BeFER 6776 kHz Canada -
HiFER 13553-13567 kHz USA, Canada § 15.225
49ers 49846 kHz
(49820-49900 kHz)
USA § 15.235

Beacon projects

Most radio propagation beacons are operated by individual radio amateurs or amateur radio societies and clubs. As a result, there are frequent additions and deletions to the lists of beacons. There are, however a few major projects coordinated by organizations like the International Telecommunications Union and the International Amateur Radio Union.

IARU Beacon Project


The International Beacon Project (IBP), which is coordinated by the Northern California DX Foundation (NCDXF) and the International Amateur Radio Union (IARU), consists of 18 HF propagation beacons worldwide, which transmit in turns on 14100 kHz, 18110 kHz, 21150 kHz, 24930 kHz, and 28200 kHz. [5] The IARU/NDXF beacons transmit in turns on the five designated frequencies according to the following schedule, which repeats every 3 minutes:

Slot DXCC entity Call Location Latitude Longitude Grid Sq 14100 18110 21150 24930 28200 Operator
01 United Nations 4U1UN New York City 40º 45' N 73º 58' W FN3ØAS 00.00 00.10 00.20 00.30 00.40 UNRC
02 Canada VE8AT Eureka, Nunavut 79º 59' N 85º 57' W EQ79AX 00.10 00.20 00.30 00.40 00.50 RAC
03 United States W6WX Mt. Umunhum 37º 09' N 121º 54' W CM97BD 00:20 00.30 00:40 00.50 01:00 NCDXF
04 Hawaii KH6WO Laie 21º 38' N 157º 55' W BL11AP 00.30 00.40 00.50 01.00 01.10 (Off)
05 New Zealand ZL6B Masterton 41º 03' S 175º 36' E RE78TW 00.40 00.50 01.00 01.10 01.20 NZART
06 Australia VK6RBP Rolystone 32º 06' S 116º 03' E OF87AV 00.50 01.00 01.10 01.20 01.30 WIA
07 Japan JA2IGY Mt. Asama 34º 27' N 136º 47' E PM84JK 01.00 01.10 01.20 01.30 01.40 JARL
08 Russia RR9O Novosibirsk 54º 59' N 82º 54' E NO14KX 01.10 01.20 01.30 01.40 01.50 SRR
09 Hong Kong VR2B Hong Kong 22º 16' N 114º 09' E OL72BG 01.20 01.30 01.40 01.50 02.00 HARTS
10 Sri Lanka 4S7B Colombo 6º 6' N 80º 13' E NJ06CC 01.30 01.40 01.50 02.00 02.10 RSSL
11 South Africa ZS6DN Pretoria 25º 54' S 28º 16' E KG44DC 01:40 01.50 02:00 02:10 02:20 ZS6DN
12 Kenya 5Z4B Kariobangi 1º 15' S 36º 53' E KI88KS 01.50 02.00 02.10 02.20 02.30 ARSC
13 Israel 4X6TU Tel Aviv 32º 03' N 34º 46' E KM72JB 02:00 02:10 02:20 02.30 02:40 IARC
14 Finland OH2B Lohja 60º 19' N 24º 50' E KP2Ø 02:10 02:20 02:30 02:40 02:50 SRAL
15 Madeira CS3B Santo da Serra 32º 43' N 16º 48' W IM12OR 02.20 02.30 02.40 02.50 00.00 ARRM
16 Argentina LU4AA Buenos Aires 34º 37' S 58º 21' W GFØ5TJ 02:30 02:40 02:50 00.00 00:10 ARC
17 Peru OA4B Lima 12º 04' S 76º 57' W FH17MW 02.40 02.50 00.00 00.10 00.20 RCP
18 Venezuela YV5B Caracas 10º 25' N 66º 51' W FK6ØNJ 02:50 00.00 00:10 00:20 00:30 RCV

The original NCDXF/IARU beacon project, coordinated by John W6ISQ, consisted of nine 100W beacons which operated only on 14100 kHz on a coordinated 10 minute sequence. The beacons used to send a longer callup sequence, like "QST DE 4U1UN/B BEACON" followed by dashes with 100 W, 10 W, 1 W, and 100 mW, finally ending with "4U1UN/B SK". The original beacons were 4U1UN/B, W6WX/B, KH6O/B, JA2IGY, 4X6TU, OH2B, CT3B, ZS6DN and LU4AA. This network evolved into its current format with 18 beacons on five frequencies around 1999.(15) The current beacons consist of a Kenwood TS-50 tranceiver, a beacon controller, a vertical antenna and a GPS unit.

ITU sponsored beacons

As part of an International Telecommunications Union-funded project, radio propagation beacons were installed by national authorities at Sveio, Norway (callsign LN2A, 59.60420N - 5.291670E) and at Darwin, Australia (callsign VL8IPS, 12.60420S - 131.29200E). The beacons operated on frequencies 5471.5 kHz, 7871.5 kHz, 10408.5 kHz, 14396.5 kHz, and 20948.5 kHz.(6) (15) Since 2002, there have been no reception reports for these beacons and the relevant ITU web pages have been removed. (7) (20)

HF Field-Strength measurement campaign

For a number of years, ITU-R Study Group 3 has been promoting a world-wide HF field-strength measurement campaign, the impetus for which arose from WARC HFBC-87 and the request for improved accuracy in HF propagation prediction. At that time, the Study Group recognised that significant improvements in HF propagation prediction methods needed a substantial body of new measurement data and to that end, administrations and organisations were invited to participate in the measurement campaign, either by installing suitable transmitters or by collecting long-term data from appropriate receiving systems. The campaign is specified in Recommendation ITU-R P.845 'HF field-strength measurement' and comprises a world-wide network of transmitters and receivers using coded transmissions on pre-determined frequencies.

The reasons for the campaign and the continuing need for participation in it, are underlined in Resolution ITU-R 27 (HF field-strength measurement campaign). So far, regular transmissions are being provided by the Administrations of Australia and Norway. Details of the transmitter in Norway, operated by the Norwegian Telecommunications Authority and Telenor Broadcasting, are given below:

Radio Beacon LN2A

QSL LN2A front.jpg
QSL LN2A back.jpg
  • Identification signal (Morse code): LN2A
  • Location: Sveio, Norway 59 deg 37 min N, 5 deg 19 min E
  • Hours of transmission: 24 hours per day
  • Assigned frequencies: 5471.225 kHz, 7871.225 kHz, 10408.225 kHz, 14396.225 kHz and 20946.225 kHz
  • Reference frequencies, corresponding to suppressed carrier frequencies when using suppressed carrier SSB techniques: 5470 kHz, 7870 kHz, 10407 kHz, 14395 kHz and 20945 kHz
  • Transmitter: ICOM IC 725 transceiver, IC-4KL PA
  • Transmitted power: approximately 1 kW on all frequencies
  • Antenna: 5 band trap vertical monopole
  • Mode: Suppressed carrier SSB, with the reference frequencies (suppressed carrier frequencies) 1225 Hz below the assigned frequencies, with the FSK "mark" 800 Hz above the reference frequency, and the FSK "space" 1650 Hz above the reference frequency.
  • Signal duration and format: as specified in Recommendation ITU-R P.845; 4 min for each frequency, 20 min for all five frequencies according to the following schedule:
Reference frequency (kHz) Minutes after each hour
14395 00 - 20 - 40
20945 04 - 24 - 44
5470 08 - 28 - 48
7870 12 - 32 - 52
10407 16 - 36 - 56

Administrations and organizations participating in the work of ITU-R are invited to consider the possibility of participating in the campaign, either through the provision of transmissions or by the collection of field strength measurement data, both in accordance with the specifications given in Recommendation ITU-R P.845. For further details on the campaign, including the availability of a suitable receiving system, please contact the ITU-R Counsellor for Study Group 3 (Dr. Kevin A. Hughes) at ITU Headquarters, in Geneva.

The Norwegian Telecommunications Authority and Telenor Broadcasting would be pleased to acknowledge reception reports of LN2A with a QSL card.

The contact address is:

Norwegian Telecommunications Authority (Att. AYO/TF)
P O Box 447 Sentrum
N-0104 Oslo

Radio Beacon VL8IPS

This beacon was established by IPS Radio and Space Services in conjuction with thw Royal Australian Navy.

  • Identification signal (in Morse code): VL8IPS
  • Location: Humpty Doo, near Darwin, Northen Territory, 12 deg 36 min S - 131 deg 16 min 51 sec E
  • Hours of transmission: 24 hours per day
  • Assigned frequencies: 5470 kHz, 7870 kHz, 10407 kHz, 14395 kHz and 20945 kHz
  • Transmitter: Rockwell Collins HF-8022
  • Transmitter power: approximately 2 kW on all frequencies
  • Antenna: AEA 628D biconical monopole
  • Mode: suppressed carrier SSB (USB & LSB) with the reference frequencies (suppressed carrier frequencies) 1225 Hz below the assigned frequencies, with the FSK "mark" 800 Hz above reference frequency and the FSK "space" 1650 Hz above the reference frequency.
  • Signal duration and format: as specified in Recommendation ITU-R P.845; 4 min for each frequency, 20 min for all five frequencies according to the following schedule:
Reference frequency (kHz) Minutes after each hour
5470 00 - 20 - 40
7870 04 - 24 - 44
10407 08 - 28 - 48
14395 12 - 32 - 52
20945 16 - 36 - 56
  • Reception reports could be sent

DARC beacon project


The Deutscher Amateur Radio Club (DARC) sponsors two beacons which transmit from Scheggerott, near Kiel (54.68750N - 9.791670E, JO44VQ). [8] These beacons are DRA5 on 5195 kHz and DK0WCY on 10144 kHz. In addition to identification and location, every 10 minutes these beacons transmit solar, geomagnetic and ionospheric bulletins. Transmissions are in Morse code (CW) for aural reception, RTTY (45 baud 170 Hz at HH+10) and PSK31 (at HH+50). [9] DK0WCY operates also a limited service beacon on 3579 kHz at 0720-0900 and 1600-1900 local time.

RSGB 5 MHz beacon project


The Radio Society of Great Britain (RSGB) operates three radio propagation beacons on 5290 kHz, which transmit in sequence, for one minute each, every 15 minutes. The project includes GB3RAL near Didcot (51.56250N - 1.291670W, IO91IN), GB3WES in Cumbria (54.56250N - 2.6250W, IO84QN) and GB3ORK in the Orkney Islands (59.02080N - 3.208330W, IO89JA).

Beacon GB3RAL, which is located at the Rutherford-Appleton Laboratory, also transmits continuously on 28215 kHz and on a number of low VHF frequencies (40050, 50053, 60053 and 70053 kHz).[10]

U.S. Navy beacons

A radio propagation beacon with callsign NAF was installed in 1983 at Cape Prince, Wales, AK. It transmitted both CW and FSK identification with 100 W to a three-band fan dipole on 5604, 11004 and 16804 kHz. The project, which included reception sites at Fairbanks, AK, Seattle, WA, State College, PA and San Diego, CA, was coordinated by the U.S. Naval Security Group Command and its purpose was to verify and calibrate HF propagation prediction software. (15) It is not known when the project was terminated.

Another propagation beacon was installed in 1991 at the Arctic Submarine Laboratory at Cape Prince of Wales, AK. The beacon operated on 25545 kHz and tranmitted the morse code letter "R". A reception facility existed at Fairbanks, AK, some 900 km away. The R beacon was used to study aurora and sporadic E events at high geographical latitudes.(18)

WSPR Network

This is an a large scale amateur radio propagation beacon project which uses the WSPR (Weak Signal Propagation Reporter) transmission scheme available with the WSJT software suite, created by Joe Taylor, K1JT. The loosely-coordinated beacon transmitters and receivers, collectively known as the WSPRnet, report the real-time propagation characteristics of a number of frequency bands and geographical locations via the Internet. The WSPRnet website provides detailed propagation report databases and real-time graphical maps of propagation paths. WSPR Network operates on the following amateur radio frequencies (USB dial settings in kHz) 136.0, 502.4, 1836.6, 3592.6, 5287.2, 7038.6, 101387.0, 14095.6, 18104.6, 21094.6, 24924.6, 28124.6, 50293.0, 70028.6 and 144489.0 kHz.

The future of radio propagation beacons

It seems that there is no longer an interest in HF radio propagation by international organizations, government departments or research institutes, therefore they shall be operated only as part of the amateur radio service.

A slow process is underway to supplement morse code (CW) identification, which is mostly suitable for aural reception, with digital modulation patterns. The RSGB beacons on 5290 kHz already transmit such code for 30" in each transmission. In the 2011 RSGB Convention, Bo OZ2M shall talk about the introduction of machine generated modulation to most radio propagation beacons, in order to enable automatic monitoring.

Beacon timing functions are also modernized. When more beacons share a frequency, they are synchronized by electronic clocks locked to GPS satellite transmissions.

Notes and references

QSL card from beacon N7LT/BCN on 28248.5 kHz
  1. Andy Talbot, G4JNT: "Amateur Beacons", Radio User, ISSN 1748-8117, 3(5), pp.56-58 (May 2008).
  2. Andy Talbot, G4JNT: "Amateur Beacons", Radio User, ISSN 1748-8117, 3(8), pp. 30-33 (August 2008)
  3. New IARU Region 2 bandplan introduced in January 2008
  4. Amateur Radio UK VHF Bandplan, Great Yarmouth Radio Club
  5. International Beacon Project by the Northern California DX Foundation (2008)
  6. HF 0-20 MHz beacons
  7. ITU Resolution ITU-R 27/1993: HF Field-strength measurement campaign (PDF)
  8. Aurora beacon DKØWCY by Deutscher Amateur-Radio-Club e.V. (DARC), 2004.
  9. Pat Hawker, G3VA: "The DK0WCY/DRA5 Propagation Beacons", Technical Topics Scrapbook - All 50 years, Radio Society of Great Britain, ISBN 9781-9050-8639-9, pp. 98 (2008)
  10. Mike Willis, G0MJW: "The GB3RAL VHF Beacon cluster", RadCom, 84(04), Radio Society of Great Britain, pp. 65-59, April 2008.
  11. The Four meters website: 70 MHz beacon list
  12. The Four meters website: RSGB 4m bandplan
  13. Southgate Amateur Radio Club: Luxembourg 60m beacon LX0HF
  14. Luxembourg: Une balise sur 60m LX0HF Radioamateurs-Online, March 11, 2011.
  15. G. Jacobs, W3ASK, T.J. Cohen, N4XX and R.B. Rose, K6GKU: "The New Shortwave Propagation Handbook", CQ Communications, Inc., New York, ISBN 0-945016-11-8, pp. 5-17, 5-18. (1995).
  16. Stuart Wisher, G8CYW: "More adventures in optical communications", RadCom, 88(05), Radio Society of Great Britain, pp. 41, May 2012
  17. Joe Lynch, N6CL: "VHF Plus", CQ Amateur Radio", 88(07), pp. 81, July 2012.
  18. Rose, R., Hunsucker, R.D. and Lott G.K.: "Results from a year-long Auroral-E measurement campaign", Naval Command, Control and Ocean Surveillance Center, San Diego, CA, April 1993.
  19. Martin Harrison, G3USF: "Getting started in... beacons, part 1", RadCom, 89(02), Radio Society of Great Britain, pp. 22, February 2013.
  20. IPS Radio and Space Services: Radio Beacon VL8IPS (dead link)

See also

Beacon lists

Currently there are two regularly updated international beacon lists, compiled by Martin G3USF and Joost, ZS5S. Both lists are available on-line. An additional online list by WJ5O contains only 28 MHz (10 meter) beacons.

Further reading

IK0WRB beacon keyer schematic
FCC rules, §97.203 Beacon station.
  • (a) Any amateur station licensed to a holder of a Technician, Technician Plus, General, Advanced or Amateur Extra Class operator license may be a beacon. A holder of a Technician, Technician Plus, General, Advanced or Amateur Extra Class operator license may be the control operator of a beacon, subject to the privileges of the class of operator license held.
  • (b) A beacon must not concurrently transmit on more than 1 channel in the same amateur service frequency band, from the same station location.
  • (c) The transmitter power of a beacon must not exceed 100 W.
  • (d) A beacon may be automatically controlled while it is transmitting on the 28.20-28.30 MHz, 50.06-50.08 MHz, 144.275-144.300 MHz, 222.05-222.06 MHz, or 432.300-432.400 MHz segments, or on the 33 cm and shorter wavelength bands.
  • (e) Before establishing an automatically controlled beacon in the National Radio Quiet Zone or before changing the transmitting frequency, transmitter power, antenna height or directivity, the station licensee must give written notification thereof to the Interference Office, National Radio Astronomy Observatory, P.O. Box 2, Green Bank, WV 24944.
    • (1) The notification must include the geographical coordinates of the antenna, antenna ground elevation above mean sea level (AMSL), antenna center of radiation above ground level (AGL), antenna directivity, proposed frequency, type of emission, and transmitter power.
    • (2) If an objection to the proposed operation is received by the FCC from the National Radio Astronomy Observatory at Green Bank, Pocahontas County, WV, for itself or on behalf of the Naval Research Laboratory at Sugar Grove, Pendleton County, WV, within 20 days from the date of notification, the FCC will consider all aspects of the problem and take whatever action is deemed appropriate.
  • (f)A beacon must cease transmissions upon notification by a District Director that the station is operating improperly or causing undue interference to other operations. The beacon may not resume transmitting without prior approval of the District Director.
  • (g) A beacon may transmit one-way communications.

External links

  1. 10 Meter Amateur Radio Propagation CW Beacon Demo by KI7F (Youtube video).
  2. 10 Meter beacon equipment: Modified CB radio using a freakin` beacon controller (Youtube video).
  3. Arduino Morse Beacon Keyer by Mark VandeWettering K6HX (Youtube video).

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