Radioamatør

En radioamatør i sit 'shack' (radiorum)

Radioamatør i rumstationen ISS.

Spejdere, der kører amatørradio (JOTA)

En radioamatør er en person, der har telegrafi, radiofoni eller radioteknik som hobby (jævnfør ordet amatør), det kan være enten som lytteramatør (til tider kaldet dx'ere efter radioforkortelsen DX for distance, da man gerne lytter til fjerne sendere) med en radiomodtager (incl. fx skanner) eller som både sender- og modtager-amatør enten på privatradiobåndene eller som licenseret radioamatør.

En licenseret radioamatør^[1] (omfatter også licenseret kortbølgeamatør) er en person, der har bestået en prøve (kategori A, B eller D), og som derfor har lov til (licens til) at udføre radiotekniske eksperimenter på nogle dertil afsatte radiofrekvenser ved brug af alle former for radiosendere, modtagere og antennetyper.

I Danmark findes en forening af radioamatører, der kaldes EDR (Experimenterende Danske Radioamatører). ^[2]

Blandt de mange eksperimenter, radioamatører udfører, er bl.a. sammenkobling af internettet og radiokommunikation. Et af disse eksperimenter er verdensdækkende og kaldes EchoLink. ^[3]

To Yagi-antenner med Quad-fødeelementer til amatørradio 2m 144 MHz.

Historisk[redigér | redigér wikikode]

Verdens første radioamatør var dansker: Einar Dessau (1892-1988), der i starten af 1900-tallet eksperimenterede med egne konstruktioner. Dette på et tidspunkt, hvor Guglielmo Marconi lige havde gennemført sit banebrydende og succesfulde forsøg med transmission af radiosignaler over Atlanten. I dag er der omkring 3.000.000 radioamatører kloden rundt, hvoraf en promille (3.000) findes i Danmark.

I 1912 pålagde U.S. Congress Radio Act of 1912 på radioamatører, hvilket begrænsede deres virke til frekvenser over 1,5 MHz (bølgelængde 200 meter eller mindre). Myndighederne troede at disse frekvenser var ubrugelige. Radioamatørenes brug af kortbølgebåndet ledte til opdagelsen af kortbølgeudbredelse via ionosfæren i 1923. 1930'erne blev kortbølgeradioens guldalder.^[4]

Kaldesignaler[redigér | redigér wikikode]

Licenserede radioamatører får efter bestået prøve tildelt et kaldesignal, som sammensættes således:^[5]^[6]

et præfiks bestående af to tegn; højst et ciffer (Danske kaldesignaler som kan anvendes på danske adresser: OZ, og fra 1. marts 2007 også OU, OV, 5P og 5Q^[7]^[8])
et suffiks bestående af:
- et ciffer fra 0-9 samt
- op til fire tegn (cifre eller bogstaver), hvoraf det sidste skal være et bogstav.

Et kaldesignal kan fx være OZ7EDR eller 5Q2J eller OZ50̷MHZ (ofte skrives nul som 0̷ (engelsk en:slashed zero) eller ʘ (engelsk en:dotted zero) for at undgå forveksling).

Landes mulige radioamatør kaldesignal præfiks er listet i disse kilder.^[9]

Licenserede amatørradiobånd[redigér | redigér wikikode]

Følgende frekvensbånd må en licenseret radioamatør i Danmark benytte. For så vidt angår MF og HF, der kan reflekteres af jordens ionosfære, og derfor ofte benyttes til international kommunikation, er frekvenserne koordineret globalt af ITU. Brugen af frekvenserne indenfor de enkelte amatørbånd (båndplan) er ikke reguleret af ITU, men IARU (International Amateur Radio Union) producerer en vejledende båndplan for hver af de tre ITU regioner, og de enkelte landes IARU-tilknyttede organisationer (i Danmark EDR) udarbejder på den baggrund de nationale båndplaner.^[10] Man kan søge om at benytte yderligere frekvenser.

Svaret på hvorfor de efterfølgende bånd både kaldes ved deres bølgelængde i meter og frekvens i Hertz skyldes, at radiobølger i radiofoniens barndom før 1920'erne, kalder radiobølger ved deres bølgelængde i meter.^[11] Mellem ca. 1923 til 1960 anbefales det at angive radiobølgers frekvens i cycles-per-second (cps). Fra 1960 angives frekvens i Hertz.^[12] Som det ses angives båndene i meter og det er omkring år 2000 den mest udbredte benævnelse. Selvom et frekvensbånd benævnes et antal meter, behøver den givne bølgelængde, ikke at være indeholdt i frekvensbåndet (regn fx på 10, 20, 40 meter båndene). Skal man stille ind på en radiostation, angives den ved sin bærebølges frekvens.

**Frekvensallokeringer til amatørradiotjenesten**^[13]
Frekvensområde	Radioamatørbånd	Frekvensinterval	Sendeeffekt (W)
Frekvensområde	Radioamatørbånd	Frekvensinterval	Kategori A	Kategori B	Kategori D
LF (Langbølger)	2200 meter	135,7 – 137,8 kHz	1 ERP	1 ERP	0
MF (Mellembølger)	630 meter	472 - 479 kHz	1 ERP	1 ERP	0
	160 meter	1,810 - 1,850 MHz	1000	100	0
	160 meter	1,850 - 2,000 MHz	10	10	0
HF (Kortbølger)	80 meter	3,500 - 3,800 MHz	1000	100	0
	60 meter	5,250 - 5,450 MHz	1000	100	0
	40 meter	7,000 - 7,200 MHz	1000	100	0
	30 meter	10,100 - 10,150 MHz	1000	100	0
	20 meter	14,000 - 14,350 MHz	1000	100	0
	17 meter	18,068 - 18,168 MHz	1000	100	0
	15 meter	21,000 - 21,450 MHz	1000	100	0
	12 meter	24,890 - 24,990 MHz	1000	100	0
	10 meter	28,000 - 29,700 MHz	1000	100	0
VHF	6 meter	50,000 - 52,000 MHz	1000	100	50
	4 meter	69,8875 - 70,0625 MHz	25	25	25
		70,0875 - 70,1125 MHz	25	25	25
		70,1375 - 70,5125 MHz	25	25	25
	2 meter	144,000 - 146,000 MHz	1000	100	50
UHF	70 cm	432,000 - 438,000 MHz	1000	100	50
	23 cm	1,240 - 1,300 GHz	250	100	50
	13 cm	2,400 - 2,450 GHz	250	100	0
SHF	9 cm	3,400 - 3,410 GHz	250	100	0
	5 cm	5,650 - 5,850 GHz	250	100	0
	3 cm	10,000 - 10,500 GHz	250	100	0
	1 cm	24,000 - 24,250 GHz	250	100	0
EHF	6 mm	47,000 - 47,200 GHz	250	100	0
	4 mm	76,000 - 81,500 GHz	250	100	0
	2,5 mm	122,250 - 123,000 GHz	250	100	0
	2 mm	134,000 - 141,000 GHz	250	100	0
	1 mm	241,000 - 250,000 GHz	250	100	0

Man kan møde licenseret radioamatør aktivitet uden for ovenstående bånd, da man i andre ITU-regioner (og lande) kan have allokeret større eller andre frekvensbånd:

Kilder/referencer[redigér | redigér wikikode]

^ retsinformation.dk, Bilag 4: Bekendtgørelse om anvendelse af radiofrekvenser uden tilladelse samt om amatørradioprøver og kaldesignaler m.v.
^ Foreningen: Eksperimenterende Danske Radioamatører
^ echolink.org
^ worldradiohistory.com: Broadcast listening in the pioneer days of radio on the short waves, 1923 1945 Jerome S. Berg Citat: "...It is hard to believe today that, until around 1920, virtually all transmitting, by everyone and for all purposes, both short range and long range, was in the frequencies below approximately 1500 kc., or the area that we think of today as the long- and medium- wave bands. This was partly the case because shorter waves were difficult to produce without tubes, which were still in their infancy. It was widely believed that these low frequencies were the only ones of value, and that higher frequency channels, to the extent they could be reached at all, were either worthless for communication purposes or the lairs of technological dragons....The belief that long distance required long wavelengths (that is, low frequencies) was one of the great scientific mistakes of radio's infancy...In addition to having to obtain licenses - a constraint to which they adapted only slowly - the amateurs were, with some exceptions, restricted to the range below 200 meters (that is, above 1500 kc.), bands that were largely unexplored and thought to be of little value. The navy attributed most interference to the amateurs, and was happy to see them on the road to a hoped - for extinction. From the amateurs' point of view, their development of the shortwave spectrum began less as a love affair than a shotgun marriage. However, all that would change...It took several years before experimenters ventured above 2-3 mc. and started to understand such things as shortwave propagation and directionality. The short waves, as they were called, were surrounded with mystery...Also in 1928 Radio News publisher Hugo Gernsback began shortwave broadcasting on 9700 kc. from his station, WRNY, New York, using the call W2XAL. "A reader in New South Wales, Aus- tralia," reported Gernsback, "writes us that while he was writing his letter he was listening to WRNY's short-wave transmitter, 2XAL, on a three-tube set; and had to turn down the volume, otherwise he would wake up his family. All this at a distance of some 10,000 miles! Yet 2XAL ...uses less than 500 watts; a quite negligible amount of power. "6...The 1930s were the golden age of shortwave broadcasting...Shortwave also facilitated communication with people in remote areas. Amateur radio became a basic ingredient of all expeditions...", backup
^ Kopi af original. Kræver ikke registrering: the International Amateur Radio Club: CHAPTER V - Administrative provisions, ARTICLE 19, Identification of stations, Section III - Formation of call signs Citat: "...19.67 Amateur and experimental stations...19.69...", backup, itu.int, radioclub: Overview of the Radio Regulations, hovedside: itu.int: radioclub
^ Det aktuelle Internationale Radioreglement, gratis, men kræver registrering: International Telecommunication Union, itu.int: Radio Regulations
^ BEK nr 1330 af 30/11/2017, retsinformation.dk: Bekendtgørelse om anvendelse af radiofrekvenser uden tilladelse samt om amatørradioprøver og kaldesignaler m.v.1) Citat: "... Kaldesignaler til amatørradio- og amatørradiosatellittjenesten...§ 17. ...Stk. 3. Ham Radio Certificate Denmark ApS udsteder kaldesignaler til brug for amatørradioformål i følgende kaldesignalserier: OU, OV, OZ, 5P, 5Q i overensstemmelse med bestemmelserne i Det Internationale Radioreglement..."
^ edr.dk: OZ 05/2007: Lytteramatøren Arkiveret 21. juli 2017 hos Wayback Machine Citat: "...Åbning af nye kaldesignaler i Danmark/Grønland og Færøerne., efter ansøgning kan der nu i Danmark (OZ) søges om OU-OV-5P og 5Q og for Grønland OX-XP og for Færøerne OY-OW, så nu bliver der nok af nye kaldesignaler at lytte til, SWL manageren har endnu ikke hørt de nye Call. De nye call kan blive udstedt fra første marts 2007, så det skulle ikke være en Aprilsspøg..."
^ Sammenflettet liste af originale kilders lister. Kræver ikke registrering: the International Amateur Radio Club: Overview of the Radio Regulations, AP42 Table of callsign, backup, itu.int, radioclub: Overview of the Radio Regulations, hovedside: itu.int: radioclub
^ edr.dk: Båndplaner, backup
^ earlyradiohistory.us: Kilohertz to Meters Conversion Charts Citat: "...The general public, used to wavelengths, had to be coaxed into making the transition to frequencies, and it was a good fifteen years before you stopped seeing references to wavelengths in the U.S. (In Europe, where mediumwave stations are assigned in 9 khz steps, they still are commonly reported by wavelength). In 1923 many publications started to print conversion charts like the two listed above, with explanations about this newfangled frequency concept. However, there was one area of inconsistency, which explains why I've included two slightly different charts...", backup
^ November 18, 2016, edn.com: Cycles per second: A historical perspective Citat: "...In honor of Hertz's many contributions to the field of electrodynamics the General Conference on Weights and Measures (CGPM) in 1960 replaced the designation of cycles-per-second with hertz..."
^ retsinformation.dk, BEK nr 1020 af 26/05/2021: Bekendtgørelse om anvendelse af radiofrekvenser uden tilladelse samt om amatørradioprøver og kaldesignaler m.v., backup. Se efter en nyere bekendtgørelse, da den nævnte kan være opdateret.

Se også[redigér | redigér wikikode]

Eksterne henvisninger[redigér | redigér wikikode]

[1] retsinformation.dk, Bilag 4: Bekendtgørelse om anvendelse af radiofrekvenser uden tilladelse samt om amatørradioprøver og kaldesignaler m.v.

[2] Foreningen: Eksperimenterende Danske Radioamatører

[3] .org

[wrh-4] worldradiohistory.com: Broadcast listening in the pioneer days of radio on the short waves, 1923 1945 Jerome S. Berg Citat: "...It is hard to believe today that, until around 1920, virtually all transmitting, by everyone and for all purposes, both short range and long range, was in the frequencies below approximately 1500 kc., or the area that we think of today as the long- and medium- wave bands. This was partly the case because shorter waves were difficult to produce without tubes, which were still in their infancy. It was widely believed that these low frequencies were the only ones of value, and that higher frequency channels, to the extent they could be reached at all, were either worthless for communication purposes or the lairs of technological dragons....The belief that long distance required long wavelengths (that is, low frequencies) was one of the great scientific mistakes of radio's infancy...In addition to having to obtain licenses - a constraint to which they adapted only slowly - the amateurs were, with some exceptions, restricted to the range below 200 meters (that is, above 1500 kc.), bands that were largely unexplored and thought to be of little value. The navy attributed most interference to the amateurs, and was happy to see them on the road to a hoped - for extinction. From the amateurs' point of view, their development of the shortwave spectrum began less as a love affair than a shotgun marriage. However, all that would change...It took several years before experimenters ventured above 2-3 mc. and started to understand such things as shortwave propagation and directionality. The short waves, as they were called, were surrounded with mystery...Also in 1928 Radio News publisher Hugo Gernsback began shortwave broadcasting on 9700 kc. from his station, WRNY, New York, using the call W2XAL. "A reader in New South Wales, Aus- tralia," reported Gernsback, "writes us that while he was writing his letter he was listening to WRNY's short-wave transmitter, 2XAL, on a three-tube set; and had to turn down the volume, otherwise he would wake up his family. All this at a distance of some 10,000 miles! Yet 2XAL ...uses less than 500 watts; a quite negligible amount of power. "6...The 1930s were the golden age of shortwave broadcasting...Shortwave also facilitated communication with people in remote areas. Amateur radio became a basic ingredient of all expeditions...", backup

[5] Kopi af original. Kræver ikke registrering: the International Amateur Radio Club: CHAPTER V - Administrative provisions, ARTICLE 19, Identification of stations, Section III - Formation of call signs Citat: "...19.67 Amateur and experimental stations...19.69...", backup, itu.int, radioclub: Overview of the Radio Regulations, hovedside: itu.int: radioclub

[6] Det aktuelle Internationale Radioreglement, gratis, men kræver registrering: International Telecommunication Union, itu.int: Radio Regulations

[7] BEK nr 1330 af 30/11/2017, retsinformation.dk: Bekendtgørelse om anvendelse af radiofrekvenser uden tilladelse samt om amatørradioprøver og kaldesignaler m.v.1) Citat: "... Kaldesignaler til amatørradio- og amatørradiosatellittjenesten...§ 17. ...Stk. 3. Ham Radio Certificate Denmark ApS udsteder kaldesignaler til brug for amatørradioformål i følgende kaldesignalserier: OU, OV, OZ, 5P, 5Q i overensstemmelse med bestemmelserne i Det Internationale Radioreglement..."

[8] r.dk: OZ 05/2007: Lytteramatøren Arkiveret 21. juli 2017 hos Wayback Machine Citat: "...Åbning af nye kaldesignaler i Danmark/Grønland og Færøerne., efter ansøgning kan der nu i Danmark (OZ) søges om OU-OV-5P og 5Q og for Grønland OX-XP og for Færøerne OY-OW, så nu bliver der nok af nye kaldesignaler at lytte til, SWL manageren har endnu ikke hørt de nye Call. De nye call kan blive udstedt fra første marts 2007, så det skulle ikke være en Aprilsspøg..."

[9] Sammenflettet liste af originale kilders lister. Kræver ikke registrering: the International Amateur Radio Club: Overview of the Radio Regulations, AP42 Table of callsign, backup, itu.int, radioclub: Overview of the Radio Regulations, hovedside: itu.int: radioclub

[10] r.dk: Båndplaner, backup

[11] rlyradiohistory.us: Kilohertz to Meters Conversion Charts Citat: "...The general public, used to wavelengths, had to be coaxed into making the transition to frequencies, and it was a good fifteen years before you stopped seeing references to wavelengths in the U.S. (In Europe, where mediumwave stations are assigned in 9 khz steps, they still are commonly reported by wavelength). In 1923 many publications started to print conversion charts like the two listed above, with explanations about this newfangled frequency concept. However, there was one area of inconsistency, which explains why I've included two slightly different charts...", backup

[12] November 18, 2016, edn.com: Cycles per second: A historical perspective Citat: "...In honor of Hertz's many contributions to the field of electrodynamics the General Conference on Weights and Measures (CGPM) in 1960 replaced the designation of cycles-per-second with hertz..."

[13] retsinformation.dk, BEK nr 1020 af 26/05/2021: Bekendtgørelse om anvendelse af radiofrekvenser uden tilladelse samt om amatørradioprøver og kaldesignaler m.v., backup. Se efter en nyere bekendtgørelse, da den nævnte kan være opdateret.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

s·d·r Internationale amatørradio frekvensallokeringer
Frekvens- område	Bånd	ITU Region 1 (inkl. DK)	ITU Region 2	ITU Region 3
LF	2200 m	135,7 kHz - 137,8 kHz
MF	600 m	472 kHz - 479 kHz
MF	160 m	1,810 MHz - 1,850 MHz	1,800 MHz - 2,000 MHz	1,800 MHz - 2,000 MHz
HF	80 / 75 m	3,500 MHz - 3,800 MHz	3,500 MHz - 4,000 MHz	3,500 MHz - 3,900 MHz
	60 m¹	5,250 MHz - 5,450 MHz
	40 m	7,000 MHz - 7,200 MHz	7,000 MHz - 7,300 MHz	7,000 MHz - 7,200 MHz
	30 m²	10,100 MHz - 10,150 MHz
	20 m	14,000 MHz - 14,350 MHz
	17 m²	18,068 MHz - 18,168 MHz
	15 m	21,000 MHz - 21,450 MHz
	12 m²	24,890 MHz - 24,990 MHz
	10 m	28,000 MHz - 29,700 MHz
VHF	6 m	50,000 MHz - 52,000 MHz¹	50,000 MHz - 54,000 MHz	50,000 MHz - 54,000 MHz
	4 m¹	70,000 MHz - 70,500 MHz
	2 m	144,000 MHz - 146,000 MHz	144,000 MHz - 148,000 MHz	144,000 MHz - 148,000 MHz
	1.25 m		222,000 MHz - 225,000 MHz
UHF	70 cm	430,000 MHz - 440,000 MHz	420,0 eller 430,0 MHz - 450,000 MHz³	420,000 MHz - 450,000 MHz³
	33 cm		902,000 MHz - 928,000 MHz
	23 cm	1,240 GHz - 1,300 GHz
	13 cm	2,300 GHz - 2,450 GHz
SHF	9 cm	3,400 GHz - 3,475 GHz³	3,300 GHz - 3,500 GHz	3,300 GHz - 3,500 GHz
	5 cm	5,650 GHz - 5,850 GHz	5,650 GHz - 5,925 GHz	5,650 GHz - 5,850 GHz
	3 cm	10,000 GHz - 10,500 GHz
	1.2 cm	24,000 GHz - 24,250 GHz
EHF	6 mm	47,000 GHz - 47,200 GHz
	4 mm³	75,500 GHz¹ - 81,500 GHz	76,000 GHz - 81,500 GHz	76,000 GHz - 81,500 GHz
	2,5 mm	122,250 GHz - 123,000 GHz
	2 mm	134,000 GHz - 141,000 GHz
	1 mm	241,000 GHz - 250,000 GHz
THF	Sub-mm	Nogle administrationer har bemyndiget spektra for amatørbrug i dette frekvensområde.
¹ Dette bånd er ikke nævnt i ITU's Table of Frequency Allocations, men individuelle administrationer kan lave allokeringer under Article 4.4 af ITU Radio Regulations. ² HF allokeringer lavet ved 1979 World Administrative Radio Conference. Disse kaldes almindeligvis "WARC-bånd". ³ This includes a currently active footnote allocation mentioned in the ITU's Table of Frequency Allocations.
Se også: Elektromagnetiske spektrum

Radioamatør

Indholdsfortegnelse

Historisk[redigér | redigér wikikode]

Kaldesignaler[redigér | redigér wikikode]

Licenserede amatørradiobånd[redigér | redigér wikikode]

Kilder/referencer[redigér | redigér wikikode]

Se også[redigér | redigér wikikode]

Eksterne henvisninger[redigér | redigér wikikode]

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Radioamatør

Historisk[redigér | redigér wikikode]

Kaldesignaler[redigér | redigér wikikode]

Licenserede amatørradiobånd[redigér | redigér wikikode]

Kilder/referencer[redigér | redigér wikikode]

Se også[redigér | redigér wikikode]

Eksterne henvisninger[redigér | redigér wikikode]

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