430-440Mhz – 70cm


432MHz Band Licence Conditions

The Seventy Centimetre (70cm) band within the UK is 10MHz wide commencing at 430MHz and extending through to 440MHz. The lower 2MHz of the band between 430-432MHz is allocated to the Amateur Service with Secondary status.The maximum peak envelope power in this area of the band is 40W (16dBW) estimated radiated power (ERP) for Advanced and Intermediate Licensees and 10W (10dBW) for Foundation Licensees.

It is very important to note that the band between 431-432MHz is not available for use if you are located anywhere within 100km radius of Charing Cross, London. (Pleae note if visiting the smoke)

The remainder of the band between 432-440MHz is allocated to the Amateur Service with Secondary status. Additionally the 3MHz sub-band between 435-438MHz is allocated to the Amateur Satellite Service for both up and down links to/from orbiting satellites.

The maximum peak envelope power allowed in this area of the band is 400W (26dBW) for Advanced Licensees,

50W (17dBW) for Intermediate Licensees   and   10W (10dBW) for Foundation Licensees.

Understanding the 432MHz Band Plan

The UK 432MHz band (70 Centimetres) has considerably more bandwidth than all the amateur radio bands between 136kHz to 28MHz, 50MHz, 70MHz and 144MHz put together. With 10MHz of bandwidth from 430– 440MHz there’s plenty of room for everyone. However there are particular problems associated with band planning within this area of the spectrum.

Although it is based on the International Amateur Radio Union (IARU) Region-1 band plan, many European countries have considerably smaller allocations than we enjoy in the UK. Therefore the UK plan is modified somewhat from the European model. There are common areas, particularly the weak signal segments of the band used for CW, SSB and MGM modes and the Amateur Satellite Service.

However our allocation is also located in a particularly sensitive area of the spectrum where the Primary User can effectively determine what usage is made by the Amateur Radio Service throughout much of the 432MHz band. The major impact of this is that in the UK we must use a repeater system with output channels that are reversed from that commonly used in Europe. And because of this UK users occasionally suffer interference from repeater output channels that are located in other nearby European countries.

Unfortunately the Primary User will currently not allow low-power propagation beacons to be located in the harmonised European sub-band 432.400-432.490MHz. So in the UK our three beacons must remain on a limb some 400 kHz higher up the band. It’s nonsensical when you consider that the Amateur Radio Service authorises anyone with a full licence to run 400W output into any size of antenna anywhere between 432-440MHz for any length of time that they want.

UK 432MHz Band Plan

430.000 – 432.000MHz    All Modes

The lower 2MHz of the band is allocated to modes with a maximum transmission bandwidth of 20 kHz. Here you will find a variety of Internet voice gateways, high speed digital links and digital repeaters. Between 430.8250 to 430.9750MHz are located the 7.6MHz repeater system output channels RU66 to RU78.

The area between 431.000-432.000MHz is used for voice Internet linking but it is recommended that you consult with the RSGB Emerging Technology Co-ordination Committee before considering use of that sub-band.

432.000 – 432.100MHz   Telegraphy (CW) and Machine Generated Modes (MGM)

This 100kHz wide sub-band is allocated to modes with a maximum transmission bandwidth of 500Hz.
Earth-Moon-Earth (EME) activity using CW may often be found in the bottom 25kHz of the band. Occasionally you may also hear JT65C EME activity around 432.065MHz.

432.100 – 432.400MHz    Narrowband Modes (CW/SSB/MGM)

Narrow-band modes with a maximum bandwidth of 2.7 kHz are always located at the low frequency end of any VHF or UHF allocation. This is where you will find Morse (CW), telephony (SSB) and machine generated mode (MGM) activity such as JT65C and FSK441. In addition to the separate CW  sub-band this is the area of the 432MHz band where operators make long-distance (DX) contacts.

432.400 – 432.500MHz    IARU Propagation Beacons Exclusive

This area of the band is allocated for IARU Region-1 propagation beacons only. Please do not transmit in this segment especially if you are using FM equipment. Such transmissions cause severe interference to weak-signal users listening for far away beacons. It is unfortunate that currently in the UK the Primary User has previously not allowed beacons stations to be located in this area of the band, although work is in progress.

432.500 – 432.800MHz    All Modes, Non-channelised

This area of the 430MHz band is allocated to any mode with a maximum bandwidth of 25 kHz. Here you can find a mixture of telephony and other modes that include facsimile (fax), radio-teletype (RTTY) and slow-scan television (SSTV) The use of amplitude modulation (AM) is also acceptable within the All Modes segment but users are asked to consider adjacent channel activity when selecting operating frequencies. The Yahoo VHF AM group have proposed the use of 432.550MHz for a.m. telephony contacts.

432.800 – 432.990MHz     UK Propagation Beacons

This area of the band is the old IARU Region-1 allocation for propagation beacons. However all European mainland beacons have now moved 400kHz lower in frequency and the only beacons you will hear in this sub-band are located in the UK. Hopefully this situation will change soon. Please do not transmit in this area of the band as transmissions can often cause interference to operators that are using these beacons for propagation and frequency alignment purposes.

432.994 – 433.381MHz   Repeater Output Channels (FM/DV)

Here you will find the RU240 to RU270 FM/DV repeater output channels. This system uses a 1.6MHz repeater shift system as opposed to the alternative 7.6MHz system found elsewhere in the band.

433.394 – 433.600MHz    Simplex Channels (FM/DV)

This area of the band is allocated to simplex channels U272 to U288 that may either be used for FM or digital voice (DV) communication. The FM calling channel is on U280 (433.500MHz) and operators using AFSK radio-teletype may find activity on U288 (433.600MHz). Personally the old channel deignations made much more sense where 433.500 (call CHANNEL) = SU20 which matches 145.500 (S20) 433.525 = SU21 etc. The 12.5kc spacing led to the change but we old timers still remember what we learned and the S & SU numbers are burned into our brains.

433.600 – 434.600MHz    All Modes

All modes with a maximum transmission bandwidth of 25 kHz can be found in this sub-band. Here you will find a variety of Internet voice gateways channels and other digital links. An emergency communication priority channel is allocated on 433.700MHz and you may also hear similar traffic on the three channels between 433.725 – 433.775MHz.

434.594 – 434.981MHz    Repeater Input Channels (FM/DV)

These are the repeater input channels RU240-RU270 for the system employing 1.6MHz shift. Until recently all voice repeaters used frequency modulation (FM) but this is slowly being superseded by digital voice (DV) communication. Therefore you may find a mixture of FM and DV throughout the repeater network.

435.000 – 438.000MHz    All Modes – Amateur Satellite Service – Fast Scan Television

This is the only area of the 430MHz band that is also allocated to the Amateur Satellite Service.
Take a listen in this segment and you might hear CW, FM, SSB or MGM signals from a series of low-earth orbiting amateur satellites. This area of the band is also shared with fast-scan television although ATV operators are encouraged to use microwave allocations where available.

438.000 – 440.000MHz    All Modes – 7.6MHz Repeater Input Channels

The top 2MHz of the band is allocated to modes with a maximum transmission bandwidth of 25 kHz.
Within this sub-band are allocated the repeater input channels RU66-RU78 that adopt the 7.6MHz repeater shift system. A new UK digital voice calling channel has been allocated on 438.6125MHz for those operators wishing to experiment with this form of communication.

Attractions of using the 430MHz Band

One of the attractions of using the 432MHz band is that with 10MHz of bandwidth to play with there are so many different ways of using this amateur service allocation. Some of these aspects include FM and digital voice (DV) using either simplex or repeater channel systems. You’ll also find activities that are using Morse (CW), telephony (SSB) and machine generated modes (MGM) for terrestrial DX and Moon-bounce purposes. There’s also local activity with amplitude modulation (AM), facsimile (fax), radio-teletype (RTTY), PSK31 and a whole host of other similar modes, fast-scan amateur television (ATV) and slow-scan television (SSTV). In addition you will also find DX Cluster access channels, Internet voice gateways, high speed digital links and there’s still room for a 3MHz wide band for the Amateur Satellite Service. More than enough for everyone!

Aerials and Feeders for 430MHz

At this Ultra High Frequency (UHF) you are going to be very disappointed with results if you only use a small vertical aerial fed with a considerable length of very thin coaxial cable.

There’s no getting round it but at these frequencies you must use a good aerial and even more importantly you must use a high quality low-loss feeder cable. Anything less and it’s all a complete waste of time and effort.

If you want local communications, possibly for an FM natter-net or to access a nearby repeater then you will probably need omni-directional coverage. A vertical co-linear aerial is very popular for this type of general transmission. Locate it as high as you can ideally above roof level but don’t forget to use low-loss cable, ideally nothing less than 10mm diameter. I use the Cushcraft 5/8 / 5/8 collinear at around 30ft few with RG213 and 30w max from the Ft7800. Good for CH (Caradon)  and DQ (Polperro) and good local chat range. I can fairly often also ork through 2 x EI repeaters (some 200 mile distant) to good effect– G4USB

If you want to work long distances (DX) on CW or SSB then you must have some form of horizontally polarised beam aerial. At these frequencies a multi-element Yagi can look very similar to a television aerial so it can become socially acceptable. Indeed you might be able to locate a pair of long Yagis and rotator onto a suitable chimney stack without looking out of place.

Don’t forget that you can always operate portable from a local hill top site. With a small pole and a directional beam you can often contact stations hundreds of kilometres away even when running relatively low power. Although not presently in commission I have a 18ele XY configured yagi which works very well connected to the FT726R feeding a 50w Tokyo High Power amplifier ith the antenna mounted on my chimney

Propagation Modes on 432MHz

On this UHF band the only propagation mode that you will normally encounter is some form of tropospheric enhancement. Surprisingly though these events occur much more frequently on this band than on lower frequencies. The only downside is that there is less activity on 432MHz compared to 144MHz or other popular bands. But when the band does open up there will be dozens of stations to contact and many will be at considerable distances away from the UK, in Eastern Europe and Scandinavia. I can confirm this == G4USB

Keeping up-to-date about 432MHz

If you want up-to-date information regarding the 432MHz band, then take a look at these web sites.

Repeaters, Datacomms & Gateways: http://www.etcc.rsgb.org/

Amateur Satellites: http://www.uk.amsat.org/

Take a look also at the RSGB VHF Contest Committee web site as this gives details of 432MHz activity contests that are held every month.

If you have any suggestions regarding the 432MHz band plan please contact the VHF Manager.


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