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C'mon man, what are you doing? There's no snake-oil whatsoever in
anything you've just written!
On 2005-03-05 12:02:22 +1100, said:
http://www.rfcafe.com/references/ele...of_50_ohms.htm
There are probably lots of stories about how 50 Ohms came to be. The
one I am most familiar goes like this. In the early days of microwaves
- around World War II, impedances were chosen depending on the
application. For maximum power handling, somewhere between 30 and 44
Ohms was used. On the other hand, lowest attenuation for an air filled
line was around 93 Ohms. In those days, there were no flexible cables,
at least for higher frequencies, only rigid tubes with air dielectric.
Semi-rigid cable came about in the early 50's, while real microwave
flex cable was approximately 10 years later.
Somewhere along the way it was decided to standardize on a given
impedance so that economy and convenience could be brought into the
equation. In the US, 50 Ohms was chosen as a compromise. There was a
group known as JAN, which stood for Joint Army and Navy who took on
these matters. They later became DESC, for Defense Electronic Supply
Center, where the MIL specs evolved. Europe chose 60 Ohms. In reality,
in the US, since most of the "tubes" were actually existing materials
consisting of standard rods and water pipes, 51.5 Ohms was quite
common. It was amazing to see and use adapter/converters to go from 50
to 51.5 Ohms. Eventually, 50 won out, and special tubing was created
(or maybe the plumbers allowed their pipes to change dimension
slightly).
Further along, the Europeans were forced to change because of the
influence of companies such as Hewlett-Packard which dominated the
world scene. 75 Ohms is the telecommunications standard, because in a
dielectric filled line, somewhere around 77 Ohms gives the lowest loss.
(Cable TV) 93 Ohms is still used for short runs such as the connection
between computers and their monitors because of low capacitance per
foot which would reduce the loading on circuits and allow longer cable
runs.
Volume 9 of the MIT Rad Lab Series has some greater details of this for
those interested. It has been reprinted by Artech House and is
available.
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