Difference between revisions of "Radio Frequencies, Bands, and Channels"

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FREQUENCIES, BANDS, AND CHANNELS
 
 
Radio frequency transmissions are divided up into contiguous bands for  
 
Radio frequency transmissions are divided up into contiguous bands for  
different purposes. These groupings are usually due to the different physical characteristics or behavior of radio waves at different frequencies (more on this below). To understand the properties of different radio waves, let's first calculate the wavelength of some typical radio frequencies found in each of the main broadcast bands. As explained above, this is performed by dividing the speed of light by the frequency of interest:
+
different purposes. These groupings are usually due to the different physical characteristics or behavior of radio waves at different frequencies. To understand the properties of different radio waves, first calculate the wavelength of some typical radio frequencies found in each of the main broadcast bands. This is performed by dividing the speed of light by the frequency of interest.  However, electricity travels at 95% the speed of light in a wire, the number of times the polarity changes in one second (frequency) determines how long the wire has to be in order to be resonant.
  
Band: MF — Medium Frequency — AM (amplitude mall/ago/0 Radio Band (535-1705 kHz) Channel: AM Radio — 1120 kHz 300 million meters/sec ÷ 1120 thousand cycles /sec = 268 meters (880 feet)  
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Radio is divided into bands. The Long Wave Band (LW) starts at 30 kHz and goes to 300 kHz. The Medium Wave Band (MW) is from 300 kHz to 3000 kHz or 3 MHz. The High Frequency Band (HF) is from 3 MHz to 30 MHz. The Very High Frequency Band (VHF) is from 30 MHz to 300 MHz. The Ultra-High Frequency Band (UHF) is from 300 MHz to 3000 MHz or 3 GHz. Above these frequencies are several microwave bands which are defined as the Super High Frequency Band (SHF).
  
Band: VHF — Very High Frequency FM Viequeney moduilatiaii) Radio Band (88-108 MHz) Channel: FM Radio — 98.1 MHz 300 million meters/sec = 98.1 million cycles/sec = 3 meters (10 feet)
+
[[File:radio-spectrum-summary-A_500.jpg]]
  
Band: VHF Very High Frequency — Television Band (54-216 MHz) Channel: VHF TV, Channel 8-183 MHz 300 million meters/sec ÷ 183 million cycles/sec = 1.64 meters (5 feet)  
+
*Band: MF Medium Frequency — AM (amplitude mall/ago/0 Radio Band (535-1705 kHz)  
 +
:Channel: AM Radio — 1120 kHz 300 million meters/sec ÷ 1120 thousand cycles /sec = 268 meters (880 feet)  
  
Band: UHF — Ultra High Frequency — Television Band (470-806 MHz) Channel: UHF TV, Channel 40 — 629 MHz 300 million meters/sec ÷ 629 million cycles/sec = 0.48 meters (19 inches)
+
[[File:radio-spectrum-summary-B_500.jpg]]
  
Band: SHF Super High Frequency — Broadcasting Satellite Ku Band (11-14 GHz) Channel: Direct Broadcast Satellite, Transponder 30 12.647 GHz 300 million meters/sec ÷ 12.647 billion cyclesfsec = 2.37 centimeters (1 inch)  
+
*Band: VHF Very High Frequency FM Viequeney moduilatiaii) Radio Band (88-108 MHz)  
 +
:Channel: FM Radio 98.1 MHz 300 million meters/sec = 98.1 million cycles/sec = 3 meters (10 feet)  
  
As this exercise illustrates, the wavelengths of different broadcast bands vary quite a bit, from hundreds of feet to an inch or less. Because of these differing wavelengths, there are major physical differences in the design of antenna types used to transmit and receive signals in different bands. The amplitudes (or power) of these signals also greatly influence the design and size of these antennas. Each radio band is divided into individual channels, and each of these channels includes a range of frequencies. The range of frequencies included in a channel from lowest to highest is known as the channel's batidwidin. (The term may also refer to any particular range of frequencies, not just those in RF.) For simplicity, however, a channel is often identified by its reizterfrequency, so that only one numerical value (rather than two) will have to be cited when referring to a particular channel. If the center frequency is given and the channel bandwidth is known, the upper and lower frequency limits of the channel can be easily derived. For example, a channel with a 2 kHz (2,000 Hz) bandwidth centered at 100 kHz occupies the spectrum between 99 kHz and 101 kHz. The UHF and SHF bands have further subdivisions, with bands that are used for terrestrial radio links, satellite links, and for satellite broadcasting. These include the L, Cyan, X, Ku, IC, and Ka bands, with frequencies ranging from about 1 GHz to 40 GHz.
+
*Band: VHF — Very High Frequency — Television Band (54-216 MHz)
 +
:Channel: VHF TV, Channel 8-183 MHz 300 million meters/sec ÷ 183 million cycles/sec = 1.64 meters (5 feet)
 +
 
 +
*Band: UHF — Ultra High Frequency — Television Band (470-806 MHz)
 +
:Channel: UHF TV, Channel 40 — 629 MHz 300 million meters/sec ÷ 629 million cycles/sec = 0.48 meters (19 inches)
 +
 
 +
*Band: SHF — Super High Frequency — Broadcasting Satellite Ku Band (11-14 GHz)
 +
:Channel: Direct Broadcast Satellite, Transponder 30 — 12.647 GHz 300 million meters/sec ÷ 12.647 billion cyclesfsec = 2.37 centimeters (1 inch)
 +
 
 +
[[File:radio-spectrum-summary-C_500.jpg]]
 +
 
 +
 
 +
As this summary of the Electromagnetic Spectrum illustrates, the wavelengths of different broadcast bands vary quite a bit, from hundreds of feet to an inch or less. Because of these differing wavelengths, there are major physical differences in the design of antenna types used to transmit and receive signals in different bands. The amplitudes (or power) of these signals also greatly influence the design and size of these antennas.  
 +
 
 +
Each radio band is divided into individual channels, and each of these channels includes a range of frequencies. The range of frequencies included in a channel from lowest to highest is known as the channel's batidwidin. (The term may also refer to any particular range of frequencies, not just those in RF.) For simplicity, however, a channel is often identified by its reizterfrequency, so that only one numerical value (rather than two) will have to be cited when referring to a particular channel. If the center frequency is given and the channel bandwidth is known, the upper and lower frequency limits of the channel can be easily derived. For example, a channel with a 2 kHz (2,000 Hz) bandwidth centered at 100 kHz occupies the spectrum between 99 kHz and 101 kHz.  
 +
 
 +
The UHF and SHF bands have further subdivisions, with bands that are used for terrestrial radio links, satellite links, and for satellite broadcasting. These include the L, Cyan, X, Ku, IC, and Ka bands, with frequencies ranging from about 1 GHz to 40 GHz.
 +
 
 +
=== United States Frequency Allocations Chart ===
 +
 
 +
The United States Department of Commerce, National Telecommunications and Information Administration (NTIA) - Office of Spectrum Management released this chart to the public in 2003.  This is an enormous chart that would make an excellent poster to hang on your wall.  It is very detailed.  Click the icon below for a direct link to the file.
 +
 
 +
[[Image:United_States_Frequency_Allocations_Chart_ICON.jpg|link=http://wiki.robotz.com/images/4/40/United_States_Frequency_Allocations_Chart.jpg]]
 +
 
 +
The NTIA's Office of Spectrum Management is in charge of regulating use of spectrum allocated to the Federal Government. It serves in a manner equivalent to the FCC for this purpose. It is also the part of the Department of Commerce that oversees ICANN.
 +
 
 +
== Wavelength Table ==
 +
 
 +
{{:Wavelength_table_ex1}}
 +
 +
''Due to errors from HAM designations versus actual wave conversion formula 17-meter ham radio band is actually higher in frequency than the 16-meter broadcasting band.''
 +
 
 +
 
 +
 
 +
{| class="wikitable"
 +
|-
 +
! Band name
 +
! Abbreviation
 +
! ITU band
 +
! Frequency<br />and<br />wavelength in air
 +
! Example uses
 +
|-
 +
| [[Tremendously low frequency]]
 +
| style="text-align:center;"| TLF
 +
| style="text-align:center;"| 
 +
|  style="text-align:center; white-space:nowrap;"| < 3 [[Hertz|Hz]]<br />&gt; 100,000&nbsp;km
 +
| style="text-align:center;"| Natural and artificial electromagnetic noise
 +
|-
 +
| [[Extremely low frequency]]
 +
| style="text-align:center;"| ELF
 +
| style="text-align:center;"| 
 +
|  style="text-align:center; white-space:nowrap;"| 3&ndash;30&nbsp;Hz<br />100,000&nbsp;km &ndash; 10,000&nbsp;km
 +
| style="text-align:center;"|Communication with submarines
 +
|-
 +
| [[Super low frequency]]
 +
| style="text-align:center;"| SLF
 +
| style="text-align:center;"| 
 +
|  style="text-align:center; white-space:nowrap;"| 30&ndash;300&nbsp;Hz<br />10,000&nbsp;km &ndash; 1000&nbsp;km
 +
| style="text-align:center;"| Communication with submarines
 +
|-
 +
| [[Ultra low frequency]]
 +
| style="text-align:center;"| ULF
 +
| style="text-align:center;"| 
 +
|  style="text-align:center; white-space:nowrap;"| 300&ndash;3000&nbsp;Hz<br />1000&nbsp;km &ndash; 100&nbsp;km
 +
| style="text-align:center;"| Submarine communication, communication within mines
 +
|-
 +
| [[Very low frequency]]
 +
| style="text-align:center;"| VLF
 +
| style="text-align:center;"| 4
 +
|  style="text-align:center; white-space:nowrap;"| 3&ndash;30&nbsp;kHz<br />100&nbsp;km &ndash; 10&nbsp;km
 +
| style="text-align:center;"| Navigation, time signals, submarine communication, wireless heart rate monitors, geophysics
 +
|-
 +
| [[Low frequency]]
 +
| style="text-align:center;"| LF
 +
| style="text-align:center;"| 5
 +
|  style="text-align:center; white-space:nowrap;"| 30&ndash;300&nbsp;kHz<br />10&nbsp;km &ndash; 1&nbsp;km
 +
| style="text-align:center;"| Navigation, clock time signals, AM longwave broadcasting (Europe and parts of Asia), [[RFID]], [[amateur radio]]
 +
|-
 +
| [[Medium frequency]]
 +
| style="text-align:center;"| MF
 +
| style="text-align:center;"| 6
 +
| style="text-align:center; white-space:nowrap;"| 300&ndash;3000&nbsp;kHz<br />1&nbsp;km &ndash; 100 m
 +
| style="text-align:center;"| AM radio (medium-wave) broadcasts, amateur radio, avalanche beacons
 +
|-
 +
| [[High frequency]]
 +
| style="text-align:center;"| HF
 +
| style="text-align:center;"| 7
 +
| style="text-align:center; white-space:nowrap;"| 3&ndash;30&nbsp;MHz<br />100 m &ndash; 10 m
 +
| style="text-align:center;"| Shortwave broadcasts, citizens' band radio, amateur radio and over-the-horizon aviation communications, [[RFID]], [[over-the-horizon radar]], [[automatic link establishment]] (ALE) / near-vertical incidence skywave (NVIS) radio communications, marine and mobile radio telephony
 +
|-
 +
| [[Very high frequency]]
 +
| style="text-align:center;"| VHF
 +
| style="text-align:center;"| 8
 +
| style="text-align:center; white-space:nowrap;"| 30&ndash;300&nbsp;MHz<br />10 m &ndash; 1 m
 +
| style="text-align:center;" | FM radio, television broadcasts and line-of-sight ground-to-aircraft and aircraft-to-aircraft communications, land mobile and maritime mobile communications, amateur radio, weather radio
 +
|-
 +
| [[Ultra high frequency]]
 +
| style="text-align:center;"| UHF
 +
| style="text-align:center;"| 9
 +
| style="text-align:center; white-space:nowrap;"| 300&ndash;3000&nbsp;MHz<br />1 m &ndash; 100&nbsp;mm
 +
| style="text-align:center;" | Television broadcasts, microwave oven, microwave devices/communications, [[radio astronomy]], [[mobile phone]]s, wireless LAN, [[Bluetooth]], ZigBee, GPS and two-way radios such as land mobile, [[Family Radio Service|FRS]] and [[GMRS]] radios, amateur radio
 +
|-
 +
| [[Super high frequency]]
 +
| style="text-align:center;"| SHF
 +
| style="text-align:center;"| 10
 +
|  style="text-align:center; white-space:nowrap;"| 3&ndash;30&nbsp;GHz<br />100&nbsp;mm &ndash; 10&nbsp;mm
 +
| style="text-align:center;"| Radio astronomy, microwave devices/communications, wireless LAN, most modern radars, communications satellites, satellite television broadcasting, DBS, amateur radio
 +
|-
 +
| [[Extremely high frequency]]
 +
| style="text-align:center;"| EHF
 +
| style="text-align:center;"| 11
 +
|  style="text-align:center; white-space:nowrap;"| 30&ndash;300&nbsp;GHz<br />10&nbsp;mm &ndash; 1&nbsp;mm
 +
| style="text-align:center;"| Radio astronomy, high-frequency microwave radio relay, microwave remote sensing, amateur radio, [[Active Denial System|directed-energy weapon]], millimeter wave scanner
 +
|-
 +
| [[Terahertz]] or [[Tremendously high frequency]]
 +
| style="text-align:center;"| THz or THF
 +
| style="text-align:center;"| 12
 +
|  style="text-align:center; white-space:nowrap;"| 300&ndash;3,000&nbsp;GHz<br />1&nbsp;mm &ndash; 100 um
 +
| style="text-align:center;"| Terahertz imaging – a potential replacement for X-rays in some medical applications, ultrafast molecular dynamics, [[condensed-matter physics]], terahertz time-domain spectroscopy, terahertz computing/communications, sub-mm remote sensing, amateur radio
 +
|}
 +
 
 +
&nbsp;
 +
 
 +
&nbsp;
 +
 
 +
<small><small>frequency band meter</small></small>
 +
 
 +
[[Category:Electronics]]
 +
[[Category:Radio]]

Latest revision as of 16:58, 23 August 2017

Radio frequency transmissions are divided up into contiguous bands for different purposes. These groupings are usually due to the different physical characteristics or behavior of radio waves at different frequencies. To understand the properties of different radio waves, first calculate the wavelength of some typical radio frequencies found in each of the main broadcast bands. This is performed by dividing the speed of light by the frequency of interest. However, electricity travels at 95% the speed of light in a wire, the number of times the polarity changes in one second (frequency) determines how long the wire has to be in order to be resonant.

Radio is divided into bands. The Long Wave Band (LW) starts at 30 kHz and goes to 300 kHz. The Medium Wave Band (MW) is from 300 kHz to 3000 kHz or 3 MHz. The High Frequency Band (HF) is from 3 MHz to 30 MHz. The Very High Frequency Band (VHF) is from 30 MHz to 300 MHz. The Ultra-High Frequency Band (UHF) is from 300 MHz to 3000 MHz or 3 GHz. Above these frequencies are several microwave bands which are defined as the Super High Frequency Band (SHF).

Radio-spectrum-summary-A 500.jpg

  • Band: MF — Medium Frequency — AM (amplitude mall/ago/0 Radio Band (535-1705 kHz)
Channel: AM Radio — 1120 kHz 300 million meters/sec ÷ 1120 thousand cycles /sec = 268 meters (880 feet)

Radio-spectrum-summary-B 500.jpg

  • Band: VHF — Very High Frequency FM Viequeney moduilatiaii) Radio Band (88-108 MHz)
Channel: FM Radio — 98.1 MHz 300 million meters/sec = 98.1 million cycles/sec = 3 meters (10 feet)
  • Band: VHF — Very High Frequency — Television Band (54-216 MHz)
Channel: VHF TV, Channel 8-183 MHz 300 million meters/sec ÷ 183 million cycles/sec = 1.64 meters (5 feet)
  • Band: UHF — Ultra High Frequency — Television Band (470-806 MHz)
Channel: UHF TV, Channel 40 — 629 MHz 300 million meters/sec ÷ 629 million cycles/sec = 0.48 meters (19 inches)
  • Band: SHF — Super High Frequency — Broadcasting Satellite Ku Band (11-14 GHz)
Channel: Direct Broadcast Satellite, Transponder 30 — 12.647 GHz 300 million meters/sec ÷ 12.647 billion cyclesfsec = 2.37 centimeters (1 inch)

Radio-spectrum-summary-C 500.jpg


As this summary of the Electromagnetic Spectrum illustrates, the wavelengths of different broadcast bands vary quite a bit, from hundreds of feet to an inch or less. Because of these differing wavelengths, there are major physical differences in the design of antenna types used to transmit and receive signals in different bands. The amplitudes (or power) of these signals also greatly influence the design and size of these antennas.

Each radio band is divided into individual channels, and each of these channels includes a range of frequencies. The range of frequencies included in a channel from lowest to highest is known as the channel's batidwidin. (The term may also refer to any particular range of frequencies, not just those in RF.) For simplicity, however, a channel is often identified by its reizterfrequency, so that only one numerical value (rather than two) will have to be cited when referring to a particular channel. If the center frequency is given and the channel bandwidth is known, the upper and lower frequency limits of the channel can be easily derived. For example, a channel with a 2 kHz (2,000 Hz) bandwidth centered at 100 kHz occupies the spectrum between 99 kHz and 101 kHz.

The UHF and SHF bands have further subdivisions, with bands that are used for terrestrial radio links, satellite links, and for satellite broadcasting. These include the L, Cyan, X, Ku, IC, and Ka bands, with frequencies ranging from about 1 GHz to 40 GHz.

United States Frequency Allocations Chart

The United States Department of Commerce, National Telecommunications and Information Administration (NTIA) - Office of Spectrum Management released this chart to the public in 2003. This is an enormous chart that would make an excellent poster to hang on your wall. It is very detailed. Click the icon below for a direct link to the file.

United States Frequency Allocations Chart ICON.jpg

The NTIA's Office of Spectrum Management is in charge of regulating use of spectrum allocated to the Federal Government. It serves in a manner equivalent to the FCC for this purpose. It is also the part of the Department of Commerce that oversees ICANN.

Wavelength Table

Meter Band 	Frequency Range and Use
--------------------------------------------------
160 meter 	1800 - 2000 kHz ham radio
120 meter 	2300 - 2498 kHz broadcasting
90 meter 	3200 - 3400 kHz broadcasting
80 meter 	3500 - 4000 kHz ham radio
60 meter 	4750 - 4995 kHz broadcasting
49 meter 	5950 - 6250 kHz broadcasting
41 meter 	7100 - 7300 kHz broadcasting
40 meter 	7000 - 7300 kHz ham radio
31 meter 	9500 - 9900 kHz broadcasting
30 meter 	10100 - 10150 kHz ham radio
25 meter 	11650 - 11975 kHz broadcasting
22 meter 	13600 - 13800 kHz broadcasting
20 meter 	14000 - 14350 kHz ham radio
19 meter 	15100 - 15600 kHz broadcasting
17 meter 	18068 - 18168 kHz ham radio
16 meter 	17550 - 17900 kHz broadcasting
15 meter 	21000 - 21450 kHz ham radio
13 meter 	21450 - 21850 kHz broadcasting
12 meter 	24890 - 24990 ham radio
11 meter 	25670 - 26100 kHz broadcasting
10 meter 	28 - 29.7 MHz ham radio 
6 meter         50 - 54 MHz ham radio since 1947
5 meter         56 – 64 MHz taken from ham radio in 1946
4 meter         70.000 MHz – 70.500 MHz
3 meter         76 - 88 MHz 88 - 108 MHz broadcasting 
2 meter         144 MHz to 148 MHz for ham
1.25 meter      219 - 225 MHz
70 centimeter   420 - 450 MHz ham 462 - 468 MHz non-ham public
33 centimeter   902.000 MHz – 928.000 MHz
23 centimeter   1.240 GHz – 1.300 GHz
13 centimeter   2.300 GHz – 2.450 GHz

Due to errors from HAM designations versus actual wave conversion formula 17-meter ham radio band is actually higher in frequency than the 16-meter broadcasting band.


Band name Abbreviation ITU band Frequency
and
wavelength in air
Example uses
Tremendously low frequency TLF < 3 Hz
> 100,000 km
Natural and artificial electromagnetic noise
Extremely low frequency ELF 3–30 Hz
100,000 km – 10,000 km
Communication with submarines
Super low frequency SLF 30–300 Hz
10,000 km – 1000 km
Communication with submarines
Ultra low frequency ULF 300–3000 Hz
1000 km – 100 km
Submarine communication, communication within mines
Very low frequency VLF 4 3–30 kHz
100 km – 10 km
Navigation, time signals, submarine communication, wireless heart rate monitors, geophysics
Low frequency LF 5 30–300 kHz
10 km – 1 km
Navigation, clock time signals, AM longwave broadcasting (Europe and parts of Asia), RFID, amateur radio
Medium frequency MF 6 300–3000 kHz
1 km – 100 m
AM radio (medium-wave) broadcasts, amateur radio, avalanche beacons
High frequency HF 7 3–30 MHz
100 m – 10 m
Shortwave broadcasts, citizens' band radio, amateur radio and over-the-horizon aviation communications, RFID, over-the-horizon radar, automatic link establishment (ALE) / near-vertical incidence skywave (NVIS) radio communications, marine and mobile radio telephony
Very high frequency VHF 8 30–300 MHz
10 m – 1 m
FM radio, television broadcasts and line-of-sight ground-to-aircraft and aircraft-to-aircraft communications, land mobile and maritime mobile communications, amateur radio, weather radio
Ultra high frequency UHF 9 300–3000 MHz
1 m – 100 mm
Television broadcasts, microwave oven, microwave devices/communications, radio astronomy, mobile phones, wireless LAN, Bluetooth, ZigBee, GPS and two-way radios such as land mobile, FRS and GMRS radios, amateur radio
Super high frequency SHF 10 3–30 GHz
100 mm – 10 mm
Radio astronomy, microwave devices/communications, wireless LAN, most modern radars, communications satellites, satellite television broadcasting, DBS, amateur radio
Extremely high frequency EHF 11 30–300 GHz
10 mm – 1 mm
Radio astronomy, high-frequency microwave radio relay, microwave remote sensing, amateur radio, directed-energy weapon, millimeter wave scanner
Terahertz or Tremendously high frequency THz or THF 12 300–3,000 GHz
1 mm – 100 um
Terahertz imaging – a potential replacement for X-rays in some medical applications, ultrafast molecular dynamics, condensed-matter physics, terahertz time-domain spectroscopy, terahertz computing/communications, sub-mm remote sensing, amateur radio

 

 

frequency band meter