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What is a 'stub'
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A stub is an open-circuited or short-circuited section of transmission
line. It can be a series stub or a parallel stub. It can be inductive, capacitive, or resonant depending upon length. At a single frequency, a stub can replace an inductor or capacitor and/or cause a change in impedance, i.e. a change in the voltage to current ratio. (Not to be confused with software stubs.) -- 73, Cecil http://www.qsl.net/w5dxp |
"bbnn" wrote in message ... . a piece of transmission line that is used to either simulate a lumped reactance or resonant circuit. |
but not always
"Dave" wrote in message ... "bbnn" wrote in message ... . a piece of transmission line that is used to either simulate a lumped reactance or resonant circuit. |
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"Cecil Moore" wrote in message ups.com... A stub is an open-circuited or short-circuited section of transmission line. It can be a series stub or a parallel stub. It can be inductive, capacitive, or resonant depending upon length. At a single frequency, a stub can replace an inductor or capacitor and/or cause a change in impedance, i.e. a change in the voltage to current ratio. (Not to be confused with software stubs.) -- 73, Cecil http://www.qsl.net/w5dxp In their most common form stubs are multiples of a quarter wavelength and, at least at VHF and higher, consist of a piece of coax cable. A stub that is an odd multiple of a quarter wavelength will exhibit at its connection end the opposite of the other end of the cable, i.e. if the remote end of the cable is open circuit then the connection end will exhibit a short circuit. This can be useful in making a parallel connected notch to tune out an interfering signal, such as paging or whatever, and can be found empirically by snipping little bits off the cable until it has most - or at least enough - effect. By the same token if the remote end is short circuit then the connection end will be seen as open circuit. This is often used professionally in aerial combiner systems where the tuned feed resonator - usually something like a metal beer barrel in construction - has a short on its output pickup coil which, when connected onto the cable that interconnects the barrels, looks like an open circuit. Thus each barrel 'sees' none of the others on the system just the aerial. A piece of coax that is an even multiple of a quarter wavelength reflects the same at the connection point as at the remote end. In the example above of a combiner, the interconnect between the barrel connection points is a half wavelength. Hope that helps. -- Woody harrogate2 at ntlworld dot com |
harrogate2 wrote:
A piece of coax that is an even multiple of a quarter wavelength reflects the same at the connection point as at the remote end. +----------Z0--------Source | | 1/4WL stub | | Given a constant Z0 above, there are no reflections at the connection point '+'. All the reflections occur at the open end of the stub. For an ideal lossless stub, the voltage to current ratio at the open-circuit reflection point is infinite. The voltage to current ratio at '+' is zero but there are no reflections occuring at '+'. Think about it. If 100% reflection occured at the connection point, there would be no energy in the stub to be reflected at the open end. Yet measurements in the example above prove that the forward and reflected power inside the stub are identical to the forward and reflected power at the connection point. -- 73, Cecil http://www.qsl.net/w5dxp |
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