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Fig 13 —At A, vertical-profile pattern of a 24.9-MHz Yagi <br />beam at 35 feet, and at B. 70 feet. <br />(A) <br />Fig 8 shows the vertical profile for 7-MHz Yagi <br />beams. For a height of 35 feet, the energy is maximum <br />at a vertical angle of 34® above the horizon. At a height <br />of 70 feet, maximum radiation occurs at an angle of 24®. <br />Table 3 —Comparison of Yagi Beams at Heights <br />of 35 and 70 Feet <br />Frequency <br />7.0 <br />10.1 <br />14.0 <br />18.1 <br />21 0 <br />24 9 <br />28 0 <br />(-At 35 Feet ) <br />£/ev angle of <br />max. raa.ation <br />34 degrees <br />29 <br />24 <br />20 <br />18 <br />15 <br />14 <br />(•At 70 Feet-) <br />Ew. angle of <br />max raaiaion <br />24 degrees <br />18 <br />14 <br />11 <br />9 <br />8 <br />Performance <br />difte ’erce <br />at 5® <br />5.7 decibels <br />5.7 <br />5.6 <br />5.4 <br />5 2 <br />4 9 <br />4 6 <br />This is 10 “ lower than for the same antenna at 35 feet. <br />In addition, in the 2- to 10-degree elevation range, those <br />angles that are necessary for communicating over <br />thousands of miles, the performance of the low Yagi <br />beam is nominally 5.6 dB below that of the high Yagi. <br />At a wave angle of 5 0®. the response of the Yagi at <br />70 feet IS superior by 5.7 dB. <br />Similar data can be obtained from Figs 9 through <br />14 for the amateur frequencies from 10.1 through <br />28 MHz. The differences in performance for the amateur <br />bands from 7 to 28 MHz are summarized in Taole 3 <br />As Table 3 indicates, a Yagi antenna at 7'0 feet <br />provides far greater radiation at low angles for all <br />frequencies than the same antenna at 35 feet. This <br />translates to greater communications effectiveness at <br />long distances, and is especially true for the lower <br />frequencies. At a 5“ wave angle, the differences in field <br />strengths range from 4.6 to 5.7 dB. This means that the <br />power at a distant receiving antenna for most propa­ <br />gation conditions will be from 2.9 to 3.7 times stronger <br />from a Yagi antenna at 70 feet, compared to the same <br />Yagi at 35 feet. Heights greater than 70 feet will produce <br />even higher power ratios. <br />In summary, a high Yagi antenna provides superior <br />performance over a low Yagi. all other factors being <br />equal. Depending on the level of noise and interference, <br />the performance differences related to height are often <br />enough to mean the difference between making distant <br />radio contact with fairly reliable signals, and being unable <br />to maxe contact at all. <br />Very High and Ultra High Frequencies <br />Commonly used amateur frequencies higher than <br />those discussed earlier are the very high frequency <br />portion of the spectrum, abbreviated VHF. and the ultra <br />high frequencies, or UHF. The VHF range covers 3C to <br />300 MHz. and the UHF range from 300 to 3000 MHz. <br />In an earlier section it was mentioned that HF <br />antennas must be large to be effective. To some degree, <br />however, those considerations are not unique to that <br />frequency range. They apply in general to VHF and UHF <br />as well. A difference at VHF and UHF is that antennas <br />may be physically small m order to realize optimuin <br />electrical lengths. However, a disadvantage of physically