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Discussion Starter #21
Also why does changing the number of segments, often changes the
AGT number?

Tired moving the tubing to within 1/4 inch from Six-Whisker Tri-Conn Bowties.

It lower the VHF AGT, and seemed to boost the VHF.

Is this really true, or a problem with this antenna simulator.

Also getting several "Warn.: volumes for Wires ... are intersecting"

What is a volume?


Here is the nec code.


CM Simple SOURCE Wire. Modeled without Autoseg. Autosegment(15) can be used.
CM Source wire sized to be half way between Hi-VHF and UHF
CM Antenna can be built without reflectors. Remove wire 42-50(Tag 51-59) and
CM set Rsrc to 0.0499 AGT=1.0 UHF(540)=0.589 & HiVHF(198)=0.0409 - No Reflectors
CE
SY w1seg=1, w1x1=0, w1y1=0.754179, w1rad=0.046336
GW 1 w1seg w1x1 -w1y1 w1x1 w1x1 w1y1 w1x1 w1rad
SY w2seg=5, w2y1=10.93268, w2z1=7.391532, w2z2=5.816288, w2rad=0.064245
GW 4 w2seg w1x1 w2y1 w2z1 w1x1 w1y1 w2z2 w2rad
SY w3z1=4.241043
GW 5 w2seg w1x1 w2y1 w3z1 w1x1 w1y1 w2z2 w2rad
GW 6 w2seg w1x1 -w1y1 w2z2 w1x1 -w2y1 w2z1 w2rad
GW 7 w2seg w1x1 -w1y1 w2z2 w1x1 -w2y1 w3z1 w2rad
SY w6z1=7.391533
GW 8 w2seg w1x1 w2y1 -w6z1 w1x1 w1y1 -w2z2 w2rad
GW 9 w2seg w1x1 w2y1 -w3z1 w1x1 w1y1 -w2z2 w2rad
GW 10 w2seg w1x1 -w1y1 -w2z2 w1x1 -w2y1 -w6z1 w2rad
GW 11 w2seg w1x1 -w1y1 -w2z2 w1x1 -w2y1 -w3z1 w2rad
SY w10z1=19.02411, w10z2=17.44886
GW 12 w2seg w1x1 w2y1 w10z1 w1x1 w1y1 w10z2 w2rad
SY w11z1=15.87362
GW 13 w2seg w1x1 w2y1 w11z1 w1x1 w1y1 w10z2 w2rad
GW 14 w2seg w1x1 -w1y1 w10z2 w1x1 -w2y1 w10z1 w2rad
GW 15 w2seg w1x1 -w1y1 w10z2 w1x1 -w2y1 w11z1 w2rad
GW 16 w2seg w1x1 w2y1 -w10z1 w1x1 w1y1 -w10z2 w2rad
GW 17 w2seg w1x1 w2y1 -w11z1 w1x1 w1y1 -w10z2 w2rad
GW 18 w2seg w1x1 -w1y1 -w10z2 w1x1 -w2y1 -w10z1 w2rad
GW 19 w2seg w1x1 -w1y1 -w10z2 w1x1 -w2y1 -w11z1 w2rad
SY w18z2=16.54007, w18rad=0.02541
GW 20 w1seg w1x1 w1y1 w10z2 w1x1 w1y1 w18z2 w18rad
GW 21 w1seg w1x1 -w1y1 w10z2 w1x1 -w1y1 w18z2 w18rad
SY w20z1=8.057982
GW 22 w1seg w1x1 w1y1 w20z1 w1x1 w1y1 w2z2 w18rad
GW 23 w1seg w1x1 -w1y1 w20z1 w1x1 -w1y1 w2z2 w18rad
SY w22seg=3, w22z2=12.29903
GW 24 w22seg w1x1 -w1y1 w20z1 w1y1 w1x1 w22z2 w18rad
GW 25 w22seg w1x1 w1y1 w18z2 w1y1 w1x1 w22z2 w18rad
GW 26 w22seg w1x1 w1y1 w20z1 -w1y1 w1x1 w22z2 w18rad
GW 27 w22seg w1x1 -w1y1 w18z2 -w1y1 w1x1 w22z2 w18rad
GW 28 w1seg w1x1 w1y1 -w10z2 w1x1 w1y1 -w18z2 w18rad
GW 29 w1seg w1x1 -w1y1 -w10z2 w1x1 -w1y1 -w18z2 w18rad
GW 30 w1seg w1x1 w1y1 -w20z1 w1x1 w1y1 -w2z2 w18rad
GW 31 w1seg w1x1 -w1y1 -w20z1 w1x1 -w1y1 -w2z2 w18rad
GW 32 w22seg w1x1 -w1y1 -w20z1 -w1y1 w1x1 -w22z2 w18rad
GW 33 w22seg w1x1 w1y1 -w18z2 -w1y1 w1x1 -w22z2 w18rad
GW 34 w22seg w1x1 w1y1 -w20z1 w1y1 w1x1 -w22z2 w18rad
GW 35 w22seg w1x1 -w1y1 -w18z2 w1y1 w1x1 -w22z2 w18rad
GW 36 w22seg w1x1 w1y1 w2z2 w1x1 w1y1 w1x1 w18rad
GW 37 w22seg w1x1 -w1y1 w2z2 w1x1 -w1y1 w1x1 w18rad
GW 38 w22seg w1x1 w1y1 -w2z2 w1x1 w1y1 w1x1 w18rad
GW 39 w22seg w1x1 -w1y1 -w2z2 w1x1 -w1y1 w1x1 w18rad
SY w38seg=11, w38y1=11.18, w38z1=24.35, w38y2=11.17958, w38z2=24.35116, w38rad=0.25
GW 40 w38seg w1x1 -w38y1 w38z1 w1x1 w38y2 w38z2 w38rad
SY w39z1=24.36142, w39z2=24.36026
GW 41 w38seg w1x1 -w38y1 -w39z1 w1x1 w38y2 -w39z2 w38rad
SY w40seg=23
GW 42 w40seg w1x1 -w38y1 w38z1 w1x1 -w38y1 -w39z1 w38rad
GW 43 w40seg w1x1 w38y2 w38z2 w1x1 w38y2 -w39z2 w38rad
SY w42y2=10.91288, w42z2=17.45349
GW 44 w2seg w1x1 w1y1 w10z2 w1x1 w42y2 w42z2 w2rad
SY w43z2=5.820916
GW 45 w2seg w1x1 w1y1 w2z2 w1x1 w42y2 w43z2 w2rad
SY w44z2=5.81166
GW 46 w2seg w1x1 w1y1 -w2z2 w1x1 w42y2 -w44z2 w2rad
SY w45z2=17.44423
GW 47 w2seg w1x1 w1y1 -w10z2 w1x1 w42y2 -w45z2 w2rad
SY w46y1=10.88399, w46z1=17.47093
GW 48 w2seg w1x1 -w46y1 w46z1 w1x1 -w1y1 w10z2 w2rad
SY w47y1=10.95, w47z1=5.8
GW 49 w2seg w1x1 -w47y1 w47z1 w1x1 -w1y1 w2z2 w2rad
SY w48y1=10.9
GW 50 w2seg w1x1 -w48y1 -w47z1 w1x1 -w1y1 -w2z2 w2rad
SY w49y1=10.93342, w49z1=17.46745
GW 51 w2seg w1x1 -w49y1 -w49z1 w1x1 -w1y1 -w10z2 w2rad
GS 0 0 0.0254 ' All in in.
GE 0
EK
SY G1=30000000
LD 5 0 0 0 G1
EX 0 1 1 0 1 0
GN -1
SY Freq=174
FR 0 1 0 0 Freq
RP 0 1 73 1510 90 0 1 5 0 0
 

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Hi Lassar

Think I might try the 1/4 O.D. copper pipe without quite jointing the corners.
You state that you are going to use 1/4 OD copper, but your model is using a Radius of 0.25". Radius is 1/2 of the outside diameter of a circle/tube. If you want a diameter of 1/4" you will need to use a radius of 0.125".

What is a volume?
All wires, in 4NEC2 models have a length and a radius. The 3D point, that you enter, are the center of the tube, 1 radius from the end(THINK TUBE WITH A ROUNDED CAP ON THE END). 4NEC2 models wires with a volume that extends 1 radius beyond the end point, and a thickness/volume that is 1 radius around the imaginary wire, that extends from one endpoint to the other end point. Try modeling a single wire, in 4NEC2, and look at it in the 3D model window. You will see this volume. Play with very thin and very thick wires and look at them in the 3D window(not the geometry window). Because you used .25" for the radius, of your frame, it's actually a 1/2" thick wire. When you set the distance, from your whiskers to the frame, to 1/4", they actually intersect/overlap. 4NEC2 models may not be accurate, if you have wires that intersect. Let me know if you are understanding this. If not, I'll get my drawing program out, and try to explain it with some diagrams.

Also why does changing the number of segments, often changes the
AGT number?
4NEC2 is based on the theory, that all antenna elements, are thin wires with two defined endpoints. It then breaks this long wire down into a number of short segments. It also assigns an adjustment factor, to the segment, based on how thick the segment is. Thickness is based on the radius, that you assign to the wire. 4NEC2 doesn't work too well, when the segments get too thick. Breaking a wire into two many segments, create short, fat segments, and won't give as accurate a result. Not using enough segments also makes the results less accurate. When you adjust the number of segments, you create a different model, that has to be adjusted for AGT. As a beginner, it's usually best to use AutoSeg. This allows 4NEC2 to select the number of segments automatically. Autoseg usually works best, but as you gain experience, you will find times when you can improve the model by manually setting the number of segments.

Tired moving the tubing to within 1/4 inch from Six-Whisker Tri-Conn Bowties.

It lower the VHF AGT, and seemed to boost the VHF.

Is this really true, or a problem with this antenna simulator.
You won't know for sure until you resolve the intersecting volumes.

Once you get your radius numbers correct, and eliminate the warnings, you will get more accurate numbers from 4NEC2. When you run the AGT test, you see a number, that is above or below 1. You also see a number of db. It may be either positive or negative. This number tells you approximately how much the improper AGT is affecting your results. Running AGT test, at 201Mhz, for your last model, gives a AGT mismatch of 1.57db. It's impossible to know if your design is improving results by .5db, when your model has errors of 1.57db or more. Trying to fine tune a model, to get that last .5db gain requires that your model has very few, if any warnings or errors, and that you have the AGT results as close to 1.0 as possible.

I think that you will find that the whiskers don't make as much difference as you think they do. I think that they make the antenna much more difficult to build, and won't really make a difference. When I tried whiskers, it seemed that they increased the SWR enough to cancel out any gain that they showed.

Lawrence
 

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Discussion Starter #23
Have read that some nec software have trouble on wires that are close to another wire.

Am wonder how accurate the results are for the increase vhf gain with copper tubing.

It seems weird that changing the radius would have a big difference on the vhf gain.
 

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Discussion Starter #24
Finally figured out how to get narods to work with regular 4 bay bowties.

You have to use a folded dipole narod to get it to work.

Nec code showing kosmic superquad with 2 folded dipole narods.

Code:
CM Kosmic SuperQuad 4-Bay, NO Reflector, 4nec2 by holl_ands, 1Mar2010
CM Simple SOURCE Wire. Autosegment(21).  Several "Too Sharp" Warnings.
CE
SY w1seg=1, w1x1=0, w1y1=1.014948, w1rad=0.055484
GW	1	w1seg	w1x1	-w1y1	w1x1	w1x1	w1y1	w1x1	w1rad
SY w2seg=5, w2y1=10.92227, w2z1=9.056213, w2z2=6.42801, w2rad=0.084579
GW	4	w2seg	w1x1	w2y1	w2z1	w1x1	w1y1	w2z2	w2rad
SY w3z1=3.799806
GW	5	w2seg	w1x1	w2y1	w3z1	w1x1	w1y1	w2z2	w2rad
GW	6	w2seg	w1x1	-w1y1	w2z2	w1x1	-w2y1	w2z1	w2rad
GW	7	w2seg	w1x1	-w1y1	w2z2	w1x1	-w2y1	w3z1	w2rad
GW	8	w2seg	w1x1	w2y1	-w2z1	w1x1	w1y1	-w2z2	w2rad
GW	9	w2seg	w1x1	w2y1	-w3z1	w1x1	w1y1	-w2z2	w2rad
GW	10	w2seg	w1x1	-w1y1	-w2z2	w1x1	-w2y1	-w2z1	w2rad
GW	11	w2seg	w1x1	-w1y1	-w2z2	w1x1	-w2y1	-w3z1	w2rad
SY w10z1=21.91224, w10z2=19.28403
GW	12	w2seg	w1x1	w2y1	w10z1	w1x1	w1y1	w10z2	w2rad
SY w11z1=16.65581
GW	13	w2seg	w1x1	w2y1	w11z1	w1x1	w1y1	w10z2	w2rad
GW	14	w2seg	w1x1	-w1y1	w10z2	w1x1	-w2y1	w10z1	w2rad
GW	15	w2seg	w1x1	-w1y1	w10z2	w1x1	-w2y1	w11z1	w2rad
GW	16	w2seg	w1x1	w2y1	-w10z1	w1x1	w1y1	-w10z2	w2rad
GW	17	w2seg	w1x1	w2y1	-w11z1	w1x1	w1y1	-w10z2	w2rad
GW	18	w2seg	w1x1	-w1y1	-w10z2	w1x1	-w2y1	-w10z1	w2rad
GW	19	w2seg	w1x1	-w1y1	-w10z2	w1x1	-w2y1	-w11z1	w2rad
SY w18z2=18.09992
GW	20	w1seg	w1x1	w1y1	w10z2	w1x1	w1y1	w18z2	w2rad
GW	21	w1seg	w1x1	-w1y1	w10z2	w1x1	-w1y1	w18z2	w2rad
SY w20z1=7.273802
GW	22	w1seg	w1x1	w1y1	w20z1	w1x1	w1y1	w2z2	w2rad
GW	23	w1seg	w1x1	-w1y1	w20z1	w1x1	-w1y1	w2z2	w2rad
SY w22seg=3, w22x2=0.845789, w22z2=12.68687
GW	24	w22seg	w1x1	-w1y1	w20z1	w22x2	w1x1	w22z2	w2rad
GW	25	w22seg	w1x1	w1y1	w18z2	w22x2	w1x1	w22z2	w2rad
GW	26	w22seg	w1x1	w1y1	w20z1	-w22x2	w1x1	w22z2	w2rad
GW	27	w22seg	w1x1	-w1y1	w18z2	-w22x2	w1x1	w22z2	w2rad
GW	28	w1seg	w1x1	w1y1	-w10z2	w1x1	w1y1	-w18z2	w2rad
GW	29	w1seg	w1x1	-w1y1	-w10z2	w1x1	-w1y1	-w18z2	w2rad
GW	30	w1seg	w1x1	w1y1	-w20z1	w1x1	w1y1	-w2z2	w2rad
GW	31	w1seg	w1x1	-w1y1	-w20z1	w1x1	-w1y1	-w2z2	w2rad
GW	32	w22seg	w1x1	-w1y1	-w20z1	-w22x2	w1x1	-w22z2	w2rad
GW	33	w22seg	w1x1	w1y1	-w18z2	-w22x2	w1x1	-w22z2	w2rad
GW	34	w22seg	w1x1	w1y1	-w20z1	w22x2	w1x1	-w22z2	w2rad
GW	35	w22seg	w1x1	-w1y1	-w18z2	w22x2	w1x1	-w22z2	w2rad
GW	36	w22seg	w1x1	w1y1	w2z2	w1x1	w1y1	w1x1	w2rad
GW	37	w22seg	w1x1	-w1y1	w2z2	w1x1	-w1y1	w1x1	w2rad
GW	38	w22seg	w1x1	w1y1	-w2z2	w1x1	w1y1	w1x1	w2rad
GW	39	w22seg	w1x1	-w1y1	-w2z2	w1x1	-w1y1	w1x1	w2rad
SY w38seg=17, w38y1=16.1, w38z1=23.5, w38y2=15.9, w38rad=0.02541
GW	40	w38seg	w1x1	-w38y1	w38z1	w1x1	w38y2	w38z1	w38rad
SY w39z1=22.425
GW	41	w38seg	w1x1	-w38y1	w39z1	w1x1	w38y2	w39z1	w38rad
GW	42	w1seg	w1x1	w38y2	w38z1	w1x1	w38y2	w39z1	w38rad
GW	43	w1seg	w1x1	-w38y1	w38z1	w1x1	-w38y1	w39z1	w38rad
SY w42y1=15.90719, w42z1=22.42733, w42y2=16.09281
GW	44	w38seg	w1x1	-w42y1	-w42z1	w1x1	w42y2	-w42z1	w38rad
SY w43y1=15.91647, w43z1=24.02849, w43y2=16.08353, w43z2=24.075
GW	45	w38seg	w1x1	-w43y1	-w43z1	w1x1	w43y2	-w43z2	w38rad
GW	46	w1seg	w1x1	w42y2	-w42z1	w1x1	w43y2	-w43z2	w38rad
GW	47	w1seg	w1x1	-w42y1	-w42z1	w1x1	-w43y1	-w43z1	w38rad
GS	0	0	0.0254		' All in in.
GE	0
EK
SY G1=16700000
LD	5	0	0	0	G1		
EX	0	1	1	0	1	0
GN	-1
SY Freq=201
FR	0	1	0	0	Freq
RP 0 1 73 1510 90 0 1 5 0 0
 

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Discussion Starter #25
Finally, figured out how to optimize 4 bay bow-ties for the new repack frequencies.

The key is after you re-scale, resize the whiskers to the original size.

Bow ties resonant frequency does not depend on the length.

Even managed to increased the vhf gain to around 4 db without the loop.

With the loop, it's about 5.23 db.

UHF: 10.69 to 12.41 to 11.8 db
VHF channels 7-13: 4.97 to 5.33 db



Optimized 4 bay bow-ties for the new repack frequencies nec


Code:
CM Kosmic SuperQuad 4-Bay, NO Reflector, 4nec2 by holl_ands, 1Mar2010
CM Simple SOURCE Wire. Autosegment(21).  Several "Too Sharp" Warnings.
CE
SY w1seg=3, w1x1=0, w1y1=0.975088, w1rad=0.053305
GW	1	w1seg	w1x1	-w1y1	w1x1	w1x1	w1y1	w1x1	w1rad
SY w2seg=9, w2y1=10.88241, w2z1=8.80376, w2y2=0.975086, w2z2=6.175557, w2rad=0.02541
GW	4	w2seg	w1x1	w2y1	w2z1	w1x1	w2y2	w2z2	w2rad
SY w3z1=3.547354
GW	5	w2seg	w1x1	w2y1	w3z1	w1x1	w2y2	w2z2	w2rad
SY w4y1=0.976243, w4z1=6.172275, w4y2=10.88264, w4z2=8.803949
GW	6	w2seg	w1x1	-w4y1	w4z1	w1x1	-w4y2	w4z2	w2rad
SY w5y2=10.88433, w5z2=3.546971
GW	7	w2seg	w1x1	-w4y1	w4z1	w1x1	-w5y2	w5z2	w2rad
SY w6z1=8.803762
GW	8	w2seg	w1x1	w2y1	-w6z1	w1x1	w1y1	-w2z2	w2rad
SY w7z1=3.547353
GW	9	w2seg	w1x1	w2y1	-w7z1	w1x1	w1y1	-w2z2	w2rad
GW	10	w2seg	w1x1	-w1y1	-w2z2	w1x1	-w2y1	-w6z1	w2rad
GW	11	w2seg	w1x1	-w1y1	-w2z2	w1x1	-w2y1	-w7z1	w2rad
SY w10z1=21.15487, w10z2=18.52667
GW	12	w2seg	w1x1	w2y1	w10z1	w1x1	w1y1	w10z2	w2rad
SY w11z1=15.89846
GW	13	w2seg	w1x1	w2y1	w11z1	w1x1	w1y1	w10z2	w2rad
SY w12y1=0.974606, w12z1=18.52386, w12y2=10.88124, w12z2=21.15465
GW	14	w2seg	w1x1	-w12y1	w12z1	w1x1	-w12y2	w12z2	w2rad
SY w13y2=10.88268, w13z2=15.89849
GW	15	w2seg	w1x1	-w12y1	w12z1	w1x1	-w13y2	w13z2	w2rad
GW	16	w2seg	w1x1	w2y1	-w10z1	w1x1	w1y1	-w10z2	w2rad
GW	17	w2seg	w1x1	w2y1	-w11z1	w1x1	w1y1	-w10z2	w2rad
GW	18	w2seg	w1x1	-w1y1	-w10z2	w1x1	-w2y1	-w10z1	w2rad
GW	19	w2seg	w1x1	-w1y1	-w10z2	w1x1	-w2y1	-w11z1	w2rad
SY w18seg=1, w18z2=17.38908
GW	20	w18seg	w1x1	w1y1	w10z2	w1x1	w1y1	w18z2	w2rad
GW	21	w18seg	w1x1	-w12y1	w12z1	w1x1	-w1y1	w18z2	w2rad
SY w20z1=6.98813
GW	22	w18seg	w1x1	w1y1	w20z1	w1x1	w2y2	w2z2	w2rad
SY w21y1=0.977466, w21z1=6.987177
GW	23	w18seg	w1x1	-w21y1	w21z1	w1x1	-w4y1	w4z1	w2rad
SY w22seg=5, w22x2=0.812574, w22z2=12.18862
GW	24	w22seg	w1x1	-w21y1	w21z1	w22x2	w1x1	w22z2	w2rad
GW	25	w22seg	w1x1	w1y1	w18z2	w22x2	w1x1	w22z2	w2rad
GW	26	w22seg	w1x1	w1y1	w20z1	-w22x2	w1x1	w22z2	w2rad
GW	27	w22seg	w1x1	-w1y1	w18z2	-w22x2	w1x1	w22z2	w2rad
GW	28	w18seg	w1x1	w1y1	-w10z2	w1x1	w1y1	-w18z2	w2rad
GW	29	w18seg	w1x1	-w1y1	-w10z2	w1x1	-w1y1	-w18z2	w2rad
GW	30	w18seg	w1x1	w1y1	-w20z1	w1x1	w1y1	-w2z2	w2rad
GW	31	w18seg	w1x1	-w1y1	-w20z1	w1x1	-w1y1	-w2z2	w2rad
GW	32	w22seg	w1x1	-w1y1	-w20z1	-w22x2	w1x1	-w22z2	w2rad
GW	33	w22seg	w1x1	w1y1	-w18z2	-w22x2	w1x1	-w22z2	w2rad
GW	34	w22seg	w1x1	w1y1	-w20z1	w22x2	w1x1	-w22z2	w2rad
GW	35	w22seg	w1x1	-w1y1	-w18z2	w22x2	w1x1	-w22z2	w2rad
GW	36	w22seg	w1x1	w2y2	w2z2	w1x1	w1y1	w1x1	w2rad
GW	37	w22seg	w1x1	-w4y1	w4z1	w1x1	-w1y1	w1x1	w2rad
GW	38	w22seg	w1x1	w1y1	-w2z2	w1x1	w1y1	w1x1	w2rad
GW	39	w22seg	w1x1	-w1y1	-w2z2	w1x1	-w1y1	w1x1	w2rad
SY w38seg=23, w38y1=13, w38z1=24
GW	40	w38seg	w1x1	-w38y1	w38z1	w1x1	w38y1	w38z1	w2rad
SY w39seg=41
GW	41	w39seg	w1x1	w38y1	w38z1	w1x1	w38y1	-w38z1	w2rad
GW	42	w38seg	w1x1	w38y1	-w38z1	w1x1	-w38y1	-w38z1	w2rad
GW	43	w39seg	w1x1	-w38y1	w38z1	w1x1	-w38y1	-w38z1	w2rad
GS	0	0	0.0254		' All in in.
GE	0
EK
SY G1=16700000
LD	5	0	0	0	G1		
EX	0	1	2	0	1	0
GN	-1
SY Freq=503
FR	0	1	0	0	Freq
RP 0 1 73 1510 90 0 1 5 0 0
 

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102 Posts
Discussion Starter #26
Redid the optimized 4 bay bow-ties to use folded dipole narods.

With the narods, the vhf range is channels 5-6, and channels 7-13.


Optimized 4 bay bow-ties using folded dipole narods nec

CM Kosmic SuperQuad 4-Bay, NO Reflector, 4nec2 by holl_ands, 1Mar2010
CM Simple SOURCE Wire. Autosegment(21). Several "Too Sharp" Warnings.
CE
SY w1seg=7, w1x1=0, w1y1=0.975088, w1rad=0.053305
GW 1 w1seg w1x1 -w1y1 w1x1 w1x1 w1y1 w1x1 w1rad
SY w2seg=31, w2y1=10.88241, w2z1=8.80376, w2y2=0.975086, w2z2=6.175557, w2rad=0.02541
GW 4 w2seg w1x1 w2y1 w2z1 w1x1 w2y2 w2z2 w2rad
SY w3z1=3.547354
GW 5 w2seg w1x1 w2y1 w3z1 w1x1 w2y2 w2z2 w2rad
SY w4y1=0.976243, w4z1=6.172275, w4y2=10.88264, w4z2=8.803949
GW 6 w2seg w1x1 -w4y1 w4z1 w1x1 -w4y2 w4z2 w2rad
SY w5y2=10.88433, w5z2=3.546971
GW 7 w2seg w1x1 -w4y1 w4z1 w1x1 -w5y2 w5z2 w2rad
SY w6z1=8.803762
GW 8 w2seg w1x1 w2y1 -w6z1 w1x1 w1y1 -w2z2 w2rad
SY w7z1=3.547353
GW 9 w2seg w1x1 w2y1 -w7z1 w1x1 w1y1 -w2z2 w2rad
GW 10 w2seg w1x1 -w1y1 -w2z2 w1x1 -w2y1 -w6z1 w2rad
GW 11 w2seg w1x1 -w1y1 -w2z2 w1x1 -w2y1 -w7z1 w2rad
SY w10z1=21.15487, w10z2=18.52667
GW 12 w2seg w1x1 w2y1 w10z1 w1x1 w1y1 w10z2 w2rad
SY w11z1=15.89846
GW 13 w2seg w1x1 w2y1 w11z1 w1x1 w1y1 w10z2 w2rad
SY w12y1=0.974606, w12z1=18.52386, w12y2=10.88124, w12z2=21.15465
GW 14 w2seg w1x1 -w12y1 w12z1 w1x1 -w12y2 w12z2 w2rad
SY w13y2=10.88268, w13z2=15.89849
GW 15 w2seg w1x1 -w12y1 w12z1 w1x1 -w13y2 w13z2 w2rad
GW 16 w2seg w1x1 w2y1 -w10z1 w1x1 w1y1 -w10z2 w2rad
GW 17 w2seg w1x1 w2y1 -w11z1 w1x1 w1y1 -w10z2 w2rad
GW 18 w2seg w1x1 -w1y1 -w10z2 w1x1 -w2y1 -w10z1 w2rad
GW 19 w2seg w1x1 -w1y1 -w10z2 w1x1 -w2y1 -w11z1 w2rad
SY w18seg=3, w18z2=17.38908
GW 20 w18seg w1x1 w1y1 w10z2 w1x1 w1y1 w18z2 w2rad
GW 21 w18seg w1x1 -w12y1 w12z1 w1x1 -w1y1 w18z2 w2rad
SY w20z1=6.98813
GW 22 w18seg w1x1 w1y1 w20z1 w1x1 w2y2 w2z2 w2rad
SY w21y1=0.977466, w21z1=6.987177
GW 23 w18seg w1x1 -w21y1 w21z1 w1x1 -w4y1 w4z1 w2rad
SY w22seg=17, w22x2=0.812574, w22z2=12.18862
GW 24 w22seg w1x1 -w21y1 w21z1 w22x2 w1x1 w22z2 w2rad
GW 25 w22seg w1x1 w1y1 w18z2 w22x2 w1x1 w22z2 w2rad
GW 26 w22seg w1x1 w1y1 w20z1 -w22x2 w1x1 w22z2 w2rad
GW 27 w22seg w1x1 -w1y1 w18z2 -w22x2 w1x1 w22z2 w2rad
GW 28 w18seg w1x1 w1y1 -w10z2 w1x1 w1y1 -w18z2 w2rad
GW 29 w18seg w1x1 -w1y1 -w10z2 w1x1 -w1y1 -w18z2 w2rad
GW 30 w18seg w1x1 w1y1 -w20z1 w1x1 w1y1 -w2z2 w2rad
GW 31 w18seg w1x1 -w1y1 -w20z1 w1x1 -w1y1 -w2z2 w2rad
GW 32 w22seg w1x1 -w1y1 -w20z1 -w22x2 w1x1 -w22z2 w2rad
GW 33 w22seg w1x1 w1y1 -w18z2 -w22x2 w1x1 -w22z2 w2rad
GW 34 w22seg w1x1 w1y1 -w20z1 w22x2 w1x1 -w22z2 w2rad
GW 35 w22seg w1x1 -w1y1 -w18z2 w22x2 w1x1 -w22z2 w2rad
SY w34seg=19
GW 36 w34seg w1x1 w2y2 w2z2 w1x1 w1y1 w1x1 w2rad
GW 37 w34seg w1x1 -w4y1 w4z1 w1x1 -w1y1 w1x1 w2rad
GW 38 w34seg w1x1 w1y1 -w2z2 w1x1 w1y1 w1x1 w2rad
GW 39 w34seg w1x1 -w1y1 -w2z2 w1x1 -w1y1 w1x1 w2rad
SY w38seg=93, w38y1=15.48956, w38z1=23.91279, w38y2=15.19072, w38z2=23.83023
GW 40 w38seg w1x1 -w38y1 -w38z1 w1x1 w38y2 -w38z2 w2rad
SY w39y1=15.4942, w39z1=21.90116, w39y2=15.20603, w39z2=21.82325
GW 41 w38seg w1x1 -w39y1 -w39z1 w1x1 w39y2 -w39z2 w2rad
GW 42 w1seg w1x1 -w39y1 -w39z1 w1x1 -w38y1 -w38z1 w2rad
GW 43 w1seg w1x1 w39y2 -w39z2 w1x1 w38y2 -w38z2 w2rad
SY w42y1=15.39258, w42z1=21.79593, w42y2=15.38237, w42z2=21.87733
GW 44 w38seg w1x1 -w42y1 w42z1 w1x1 w42y2 w42z2 w2rad
SY w43y1=15.4, w43z1=23.8, w43y2=15.38144, w43z2=23.86802
GW 45 w38seg w1x1 -w43y1 w43z1 w1x1 w43y2 w43z2 w2rad
GW 46 w1seg w1x1 -w43y1 w43z1 w1x1 -w42y1 w42z1 w2rad
GW 47 w1seg w1x1 w43y2 w43z2 w1x1 w42y2 w42z2 w2rad
GS 0 0 0.0254 ' All in in.
GE 0
EK
SY G1=16700000
LD 5 0 0 0 G1
EX 0 1 4 0 1 0
GN -1
SY Freq=503
FR 0 1 0 0 Freq
RP 0 1 73 1510 90 0 1 5 0 0
 
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