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    ITU-R M 1795-2007 Technical and operational characteristics of land mobile MF HF systems《陆地移动MF HF系统的技术和运行特征》.pdf

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    ITU-R M 1795-2007 Technical and operational characteristics of land mobile MF HF systems《陆地移动MF HF系统的技术和运行特征》.pdf

    1、 Rec. ITU-R M.1795 1 RECOMMENDATION ITU-R M.1795 Technical and operational characteristics of land mobile MF/HF systems (Questions ITU-R 1-3/8, ITU-R 7-5/8) (2007) Scope This text provides land mobile service characteristics information for use in sharing studies. The ITU Radiocommunication Assembly

    2、, considering a) that land mobile links using frequencies above 30 MHz have a limited range, dependent on varying degrees of topography, vegetation, man-made structures, ground constants, the troposphere and the ionosphere; b) that mobile stations may operate in sparsely populated, remote and diffic

    3、ult-to-access areas beyond distance ranges possible using VHF or UHF; c) that frequencies between 2 and 30 MHz can provide distance ranges greater than those possible above 30 MHz using ground-wave or sky-wave propagation as appropriate; d) that mobile stations have practical antenna limitations dep

    4、endent on whether operating in motion or at halt; e) that base stations in the land mobile service may also be used in mixed land mobile/fixed networks if the allocation allows it, noting a) that Recommendation ITU-R P.368 provides ground-wave propagation curves according to ground characteristics;

    5、b) that Recommendation ITU-R P.533 may be used to predict HF sky-wave propagation at frequencies between 2 and 30 MHz, recommends 1 that for interservice and intraservice frequency sharing studies in the MF/HF bands representative technical and operational characteristics of land mobile systems give

    6、n in Annex 1 should be used. 2 Rec. ITU-R M.1795 Annex 1 Specific characteristics of the MF/HF range 1 Introduction Most land mobile operations are conducted at frequencies above 30 MHz. Owing to propagation limitations, VHF/UHF frequencies are reliable only for line-of-sight paths and some distance

    7、s beyond, depending on topography, vegetation, man-made structures, ground constants, the troposphere and the ionosphere. Frequencies in the 2-30 MHz range are used for paths exceeding those possible with frequencies above 30 MHz. Ground-wave and sky-wave propagation may be used, according to path d

    8、istances, electrical properties of the surface, antenna properties and other factors. 2 Ground-wave and sky-wave factors The distance over which reliable communications can be achieved by the surface, or ground wave, depends on the frequency and the physical properties (i.e. ground conductivity and

    9、dielectric constant) of the Earth along the transmission path. A ground wave can only be established with useful efficiency where the wavelength is greater than several tens of metres and is therefore a useful method at MF where reliable communications can be achieved over distances of tens to hundr

    10、eds of km. Reliability can, however, be compromised by interference between ground and sky-wave signals. Particularly at MF, the situation can arise where the ground-wave and sky-wave signals are somewhat equal, giving rise to a possibly quite extensive interference zone. Beyond the interference zon

    11、e, the sky-wave signal predominates and the ground-wave signal is no longer significant. Often there can be an area where the ground-wave signal is too weak and the distance is too close to the transmitter for a usable sky-wave signal. This situation gives rise to a skip zone, where neither the grou

    12、nd-wave or sky-wave signal is usable a common occurrence at MF and the lower HF bands. While ground-wave propagation is not particularly time-dependent, usability and quality of service will vary according to overall conditions such as background noise and interference from other stations and source

    13、s. Sky wave may be used for distance ranges up to about 3 000 km using single-hop propagation or as much as 10 000 km using multi-hop propagation. Single-hop propagation using high elevation angles approaching 90 is often referred to as near-vertical-incidence-sky wave (NVIS). NVIS paths range from

    14、just beyond the optical line of sight to about 250 km and generally use frequencies below the critical frequency fo(the highest frequency which will be reflected vertically back to ground by any particular layer of the ionosphere depending on its prevailing condition). To avoid problems caused by sh

    15、ort-term ionospheric variations, and to avoid the effects of deviative absorption at frequencies close to the critical frequency, successful NVIS operation will require the use of frequencies up to about 80% of the critical frequency. However, lower frequencies can still be used, depending on the sy

    16、stem link budget and, particularly on the high angle performance of the antennas in use. In practice, the dependence of conditions in the ionosphere on factors such as location, time of day, season of year, and path length, mean that NVIS operation is limited to frequencies below 8 MHz at best and c

    17、ould be less than 3 MHz during high latitude winter nights. Rec. ITU-R M.1795 3 For longer distance coverage higher frequencies using oblique angle reflection from the ionosphere is employed. The maximum usable frequency (MUF) for oblique incidence, is related approximately by to the critical freque

    18、ncy by MUF = fo/cos A, where A is the angle of incidence of the ray to the predominate reflecting layer of the ionosphere. Selection of operating frequencies depends on a number of factors, such as equipment, path length, time of day, season, sunspot activity and availability of operating frequencie

    19、s. If sky-wave propagation is used, the typical procedure is to select an operating frequency as close as possible to the frequency of optimum transmission (FOT), which is commonly taken as 85% of the monthly median value of the MUF for the specified time and path. In respect of the critical frequen

    20、cy, fo, the optimum frequency for oblique incidence long range transmission can range from about 10% greater than fofor the minimum sustainable range of around 200 km up to around three times fofor the longest sustainable single hop paths. 3 Practical considerations The need for mobility limits the

    21、practical transmitter output power and types of antennas, thus limiting the e.i.r.p. Mobile station transmitter power can range from about 1 W to 1 kW. Practical considerations often require use of short, inductively loaded vertical antennas at mobile stations. Such short antennas have disadvantages

    22、 including inefficiency, narrow bandwidth and minimum radiation at high elevation angles necessary for NVIS. Base stations generally do not have these limitations and can select antennas most suitable for the paths. The radio path length in the land mobile services can reach 7 000-10 000 km. In this

    23、 case the size of the service areas and distance between them are determined by the state of ionosphere, antenna pattern width and working frequency. 4 Technical characteristics When performing sharing studies, the following technical characteristics of MF/HF land mobile systems should be used. 4.1

    24、Interference criteria There are many methodologies used to ensure a relative interference-free shared operation between MF/HF land mobile systems. Typical signal-to-noise ratios for the land mobile service: 23 dB (analogue voice) 9 dB (digital voice) 26 dB (high speed data). 4.2 MF/HF land mobile eq

    25、uipment characteristics Representative characteristics of base stations and mobile units are listed in Table 1. 4 Rec. ITU-R M.1795 TABLE 1* Representative technical characteristics of land mobile systems in the bands between 2 and 30 MHz Group A Group B Group C Group D Group E Type Base station Bas

    26、e station Base station Base station Base station Frequency (MHz) 1.5-30 1.5-30 1.5-30 1.5-30 2-30 Bandwidth (kHz) 2.8 2.8 2.8 2.8 2-3 Transmitter power (dBW) 30-40 1-10 20-25 1-10 1-20 Antenna gain (dBi) 0 0 0 0 2.5-2.5 Antenna height (m) 10-60 10-60 10-60 10-60 10-60 Antenna type Co-linear, whip, d

    27、ipole Vee Fan dipole Polarization Horizontal and vertical Modulation Analogue or digital, single-sideband suppressed carrier Typical minimum path lengths (km) 300-350 Group F Group G Group H Group I Group J Type Mobile unit Mobile unit Mobile unit Mobile unit Mobile unit Frequency (MHz) 1.6-30 1.5-3

    28、0 1-30 1.6-30 2-30 Bandwidth (kHz) 2-2.3 2.8-3 2.7-3.6 2-3 2-3 Transmitter power (dBW) 1-13 10-30 7 10-27 1-10 Antenna gain (dBi) 10-0 0-2 2 0-2 10-2 Antenna height (m) 3-10 3-10 15 3-10 10-20 Antenna type Whip Vee Whip Polarization Vertical Vertical and horizontal Vertical Vertical and horizontal Horizontal Modulation Analogue or digital, single-sideband suppressed carrier Typical minimum path lengths (km) 300-350 *These characteristics are not to be used for notifications.


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