A Methodology for Systems Engineering, Volume 24 |
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Page 27
2.2.3 Technical Environment Finally , research was active to extend the frontiers of communication into the frequency range from 3000 to 10,000 megacycles ( mc ) . Electron tubes and circuitry operating in this frequency range had been ...
2.2.3 Technical Environment Finally , research was active to extend the frontiers of communication into the frequency range from 3000 to 10,000 megacycles ( mc ) . Electron tubes and circuitry operating in this frequency range had been ...
Page 52
site directions ; likewise , a similar set of interleaved frequencies is employed for receiving in opposite directions . Thus all even - numbered repeaters have the same frequency assignments , as do the odd - numbered repeaters ...
site directions ; likewise , a similar set of interleaved frequencies is employed for receiving in opposite directions . Thus all even - numbered repeaters have the same frequency assignments , as do the odd - numbered repeaters ...
Page 422
Table 15F_TRANSMISSION PROPERTIES OF A SIGNAL CHANNEL PROPAGATION EFFECTS ( Functions of Frequency ) Attenuation Flat loss . A uniform reduction in amplitude . Limited frequency band . The attenuation approaches infinity outside of ...
Table 15F_TRANSMISSION PROPERTIES OF A SIGNAL CHANNEL PROPAGATION EFFECTS ( Functions of Frequency ) Attenuation Flat loss . A uniform reduction in amplitude . Limited frequency band . The attenuation approaches infinity outside of ...
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Contents
WHAT IS SYSTEMS ENGINEERING? | 3 |
THE TD2 RADIO RELAY SYSTEM | 25 |
CHAPTER PAGE | 32 |
Copyright | |
22 other sections not shown
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Common terms and phrases
action alternative analysis applied approach basic block called channel Chapter choose complete components consequences consider continuous cost creative criterion decision defined definition demand detailed determine discussed economic effect environment equation equipment example existing expected experience fact factors field frequency function give given graph human ideas important income increase individual input interest kind limited means measure methods nature necessary objectives operations organization output performance phase physical planning possible preference present probability problem profit properties questions reason received relation requirements satisfy scale shows signal simple situation sometimes specific standard step studies synthesis systems engineering technical techniques telephone theory tion units usually utility variables wanted York
Bibliographic information
| Title | A Methodology for Systems Engineering, Volume 24 A Methodology for Systems Engineering, Arthur David Hall |
| Author | Arthur David Hall |
| Publisher | Van Nostrand, 1962 |
| Length | 478 pages |
| Export Citation | BiBTeX EndNote RefMan |