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Dr. Slick wrote:
Roy Lewallen wrote in message ... . . . No, it doesn't quite work out that way, because of the triangular current distribution on the 1 meter wire (assuming that the wavelength is 1 meter). The "effective height" of a wire that's short in terms of wavelength turns out to be 1/2 the actual length. Well, that sounds reasonable and is why i asked what people used on the receiving end for field-strength measurements. Would the above be valid for wavelength than one meter? Perhaps i'm totally off because the 1 uV/meter might mean that one would measure the 1uV RMS across 1 meter of the medium in question (377 Ohms for free-space, no wire involved at all?)? It's valid only as long as the length of the wire is a half wavelength (actually, 1/4 wavelength for a single wire, half wavelength for a dipole). Here's the problem with that transformer concept again. A field is not a voltage. So you can't measure it with a voltmeter. You can convert the fields to voltages and currents by use of a transducer -- an antenna -- then you can measure the voltage and current from the antenna with ordinary meters. Good thing, too. Otherwise we'd all get electrocuted by the Earth's 100 volt/meter field. (And that's on a day with no storm nearby.) The relationship between the fields, voltages, and currents is nicely expressed by Maxwell's equations. In the real world, what sort of receiving antenna do they use to measure E fields? Near field E intensity is typically measured with a short probe. Far field measurement is done with conventional antennas. In the far field, once the E, H, or power density is known, the other two can be calculated. Short probe that may be much shorter than one wavelength, unfortunately? Yep. . . . Some of the FCC Part 15 measurements I've been involved with are actually done within the near field, but are done with standard antennas nonetheless. Although the conversion from power density to field strength isn't entirely valid, everybody plays by the same rules. I think some of the FCC rules for safety now required for amateurs are also in this category. I haven't seen quantitative near field measurements being done, just qualitative ones using a short probe. Roy Lewallen, W7EL Perhaps the far-field measurements would require too sensitive a field-strength meter? Or maybe it's just more convenient to measure up close. No, it's far field measurements that are more common. One problem with making near field measurements is that the near field varies all over the map with the type of antenna and the exact spot where you're making the measurement. And it's of no importance at all to anything very far away at all. I've only seen near field probing done to locate the source of a problem emission. Compliance measurements are usually done with far-field techniques, in or at least at the fringes of the far field. The "within the near field" measurements I'm referring to are HF measurements done at distances that aren't firmly in the far field. (The far field boundary depends on the nature of the radiating structure, and is nebulous anyway.) The FCC addresses this issue for Part 15 somewhat in section 15.31(f). Roy Lewallen, W7EL |
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