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Oops - L/R ISTR!
"K9SQG" wrote in message ... High L/C ratio increases Q. |
Circuit Q = omega*L/R. Reducing L has little or no effect on Q because,
after winding L, you will find R has decreased in about the same proportion. The fewer the number of turns, the shorter the length of wire, and the lower the resistance. The ratio of L to C also has little effect on circuit Q because the intrinsic Q of capacitors is usually an order of magnitude or more greater than Q of L. L and C values of a tuned circuit are usually selected by the reactances required of them at resonance for reasons independent of circuit Q. Eg., the reactance of L and C may be required to be 300 ohms at resonance because other components will have to be connected to them. Usually it is the value of C which controls the value of L. C may have to be trimmer. If it is a fixed value it will have to conform to a preferred series of values and tolerances. If it is too small it will get lost in stray and other circuit capacitances. IMPORTANT - Intrinsic Q of a solenoid is directly proportional only to its physical size. Double all dimensions, including wire diameter, and Q is doubled. Its the the amount of space you have which decides the value of Q. And there's a similar relationship even for magnetic cored components. If you havn't got the room then you will have to put up with a low coil Q. And it's always lower than what you think it is. Its impossible to measure in situ. Spice is of no help. Don't forget that a tuned circuit is never used in isolation. If it is used as a filter in transistor collector circuit then it forms only part of the transistor load. And whatever else is connected will reduce the effective circuit Q. It could be that it doesn't matter what the intrinsic Q of the coil may be provided it is not ridiculously low. Which I suspect to be true in your case. You may be doing your nut about nothing. To put it crudely, it is seldom that coil Q matters. Nearly always whatever you've got is good enough. If in a particular application you might think it does then you are barking up the wrong tree. ---- Reg, G4FGQ |
Circuit Q = omega*L/R. Reducing L has little or no effect on Q because,
after winding L, you will find R has decreased in about the same proportion. The fewer the number of turns, the shorter the length of wire, and the lower the resistance. The ratio of L to C also has little effect on circuit Q because the intrinsic Q of capacitors is usually an order of magnitude or more greater than Q of L. L and C values of a tuned circuit are usually selected by the reactances required of them at resonance for reasons independent of circuit Q. Eg., the reactance of L and C may be required to be 300 ohms at resonance because other components will have to be connected to them. Usually it is the value of C which controls the value of L. C may have to be trimmer. If it is a fixed value it will have to conform to a preferred series of values and tolerances. If it is too small it will get lost in stray and other circuit capacitances. IMPORTANT - Intrinsic Q of a solenoid is directly proportional only to its physical size. Double all dimensions, including wire diameter, and Q is doubled. Its the the amount of space you have which decides the value of Q. And there's a similar relationship even for magnetic cored components. If you havn't got the room then you will have to put up with a low coil Q. And it's always lower than what you think it is. Its impossible to measure in situ. Spice is of no help. Don't forget that a tuned circuit is never used in isolation. If it is used as a filter in transistor collector circuit then it forms only part of the transistor load. And whatever else is connected will reduce the effective circuit Q. It could be that it doesn't matter what the intrinsic Q of the coil may be provided it is not ridiculously low. Which I suspect to be true in your case. You may be doing your nut about nothing. To put it crudely, it is seldom that coil Q matters. Nearly always whatever you've got is good enough. If in a particular application you might think it does then you are barking up the wrong tree. ---- Reg, G4FGQ |
Absolutely not!!!!!!!!!!!!!!!!!!
He needs best possible loaded Q for maximum selectivity! Good unloaded Q will help minimuze circuit losses, but won't help with selectivity. Joe W3JDR "Airy R. Bean" wrote in message ... Then it is unloaded Q that you are interested in. "Paul Burridge" wrote in message ... On Sun, 21 Mar 2004 16:02:18 GMT, "W3JDR" wrote: Airy, What you said would be relevant only if you were trying to determine circuit losses due to "unloaded" Q of the components. I believe Paul is trying to determine the 'loaded" Q in order to obtain best selectivity (narrowest bandwidth). Is this true Paul? Some clarification is necessary! The application is the tank in a frequency multiplier. I am seeking to select for the 5th harmonic. Therefore, the tank needs to have as little loss as possible given the fact that the 5th will be way down dB-wise on the fundamental. I can't afford to attenuate it too much as it's already weak to begin with. Ergo, I need the lowest loss components and the best selectivity for the desired 5th harmonic. |
Absolutely not!!!!!!!!!!!!!!!!!!
He needs best possible loaded Q for maximum selectivity! Good unloaded Q will help minimuze circuit losses, but won't help with selectivity. Joe W3JDR "Airy R. Bean" wrote in message ... Then it is unloaded Q that you are interested in. "Paul Burridge" wrote in message ... On Sun, 21 Mar 2004 16:02:18 GMT, "W3JDR" wrote: Airy, What you said would be relevant only if you were trying to determine circuit losses due to "unloaded" Q of the components. I believe Paul is trying to determine the 'loaded" Q in order to obtain best selectivity (narrowest bandwidth). Is this true Paul? Some clarification is necessary! The application is the tank in a frequency multiplier. I am seeking to select for the 5th harmonic. Therefore, the tank needs to have as little loss as possible given the fact that the 5th will be way down dB-wise on the fundamental. I can't afford to attenuate it too much as it's already weak to begin with. Ergo, I need the lowest loss components and the best selectivity for the desired 5th harmonic. |
I don't agree. The selection of a harmonic is a
signal processing function and not one of power transfer. "W3JDR" wrote in message ... Absolutely not!!!!!!!!!!!!!!!!!! He needs best possible loaded Q for maximum selectivity! Good unloaded Q will help minimuze circuit losses, but won't help with selectivity. "Airy R. Bean" wrote in message ... Then it is unloaded Q that you are interested in. "Paul Burridge" wrote in message ... I am seeking to select for the 5th harmonic. |
I don't agree. The selection of a harmonic is a
signal processing function and not one of power transfer. "W3JDR" wrote in message ... Absolutely not!!!!!!!!!!!!!!!!!! He needs best possible loaded Q for maximum selectivity! Good unloaded Q will help minimuze circuit losses, but won't help with selectivity. "Airy R. Bean" wrote in message ... Then it is unloaded Q that you are interested in. "Paul Burridge" wrote in message ... I am seeking to select for the 5th harmonic. |
Paul, in approaching the problem from your viewpoint havn't you set yourself
the task of winding an inductor to have a particular value of Q ? If you intend to use a solenoid then Q can be increased only by increasing its physical size without changing its proportions too much. Utimately you will need to know what is the Q of a particular size coil, number of turns, wire gauge, etc. It will be reduced by its proximity to other components and circuit board by some indeterminate amount. I think you should stop and check whether you have room for the coil in the equipment space available. ;o) Program SOLNOID2 may be of assistance in this onerous task. Download in a few seconds from website below and run immediately. ---- .................................................. .......... Regards from Reg, G4FGQ For Free Radio Design Software go to http://www.btinternet.com/~g4fgq.regp .................................................. .......... |
Paul, in approaching the problem from your viewpoint havn't you set yourself
the task of winding an inductor to have a particular value of Q ? If you intend to use a solenoid then Q can be increased only by increasing its physical size without changing its proportions too much. Utimately you will need to know what is the Q of a particular size coil, number of turns, wire gauge, etc. It will be reduced by its proximity to other components and circuit board by some indeterminate amount. I think you should stop and check whether you have room for the coil in the equipment space available. ;o) Program SOLNOID2 may be of assistance in this onerous task. Download in a few seconds from website below and run immediately. ---- .................................................. .......... Regards from Reg, G4FGQ For Free Radio Design Software go to http://www.btinternet.com/~g4fgq.regp .................................................. .......... |
Loaded Q or unloaded Q? If the load is in parallel with the tank and
a fixed value, decrease the reactance of the tank elements. If the fixed resistive load is in series with the L and C, increase the reactance of the tank elements. Generally you should design the Q to fit the task. (You could expand on that: generally you should design the circuit to fit the task...) Unloaded Q is increased by things like using the right core material and right winding techniques. There's not a simple answer. For air-core coils, the larger the coil the higher the Q possible, up to the point where radiation becomes significant. You might hear that helical resonators are very high Q, but actually the same coil in freespace will be higher Q, so long as it's not so large it radiates a lot. Reg has a program that estimates unloaded Q of air-core RF coils. It's a fairly complex subject...don't expect one answer to fit all situations. Cheers, Tom Paul Burridge wrote in message . .. Hi guys, ISTR that one can improve Q in resonant tanks by having a low L-C ratio. Or was it high L-C ratio. I can't remember but need to know. Can any kind soul help me out? Thanks. p. |
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