2 Meter Slot-Cube Antenna (QST Jan 2019)
Slot Antenna Advantages And Disadvantages
Finished the antenna today with the updated dimensions and I am resonant at 152.4 mhz. Checking the 2 meter portion gives me a SWR of 4.2 It was a fun build, but just curious how your guys' cube came out. Slot radiators or slot antennas are antennas that are used in the frequency range from about 300 MHz to 25 GHz. They are often used in navigation radar usually as an array fed by a waveguide. But also older large phased array antennas used the principle because the slot radiators are a very inexpensive way for frequency scanning arrays. Slot antennas are an about λ/2 elongated. – The slot length is some (λ/2) for the slot antenna and (λ/4) long for the INF antenna. The INF and the slot antennas behave similarly. The slot antenna can be considered as a loaded version of the INF antenna. The load is a quarter-wavelength stub, i.e. The equation for impedance of slot antenna is also mentioned. Definition: The antenna which is formed by constructing slot in metallic surface is known as slot antenna. This antenna will have opening either in conducting sheet of metal or in the walls of waveguide. This type of antenna is excited either by coaxial cable or by waveguide with.
Dec 9th 2018, 13:19 | |
K1AWCJoined: Nov 7th 2014, 13:42Total Topics: 0 Total Posts: 0 | I would like to know/hear, if anyone has read/built the Antenna in the January QST (Pages 35-36). Please tell me if the dimensions for the antenna are correct. I can't get it to 'Fit'. |
Dec 11th 2018, 17:46 | |
K1AWCJoined: Nov 7th 2014, 13:42Total Topics: 0 Total Posts: 0 | I was contacted by John, that the short horizontal is 6'(2) Each.. |
Dec 14th 2018, 10:21 | |
aa4pfJoined: Jan 4th 2012, 01:26Total Topics: 0 Total Posts: 0 | I'm working on building the antenna. I sent John an email suggesting some more details. So far the measurements are OK except that I've had to make the top short horizontal that comes off the top tee about 5 3/8' and the bottom one about 6' to fit better. I've also made up 1' stubbs to connect the tees to the elbows on the 7' vertical. I'm concerned about overheating the CPVC coupling when I solder the last fittings for that mesh. I intend to solder up that section of the antenna first. I'm enjoying the project and look forward to replacing my J-pole. |
Dec 22nd 2018, 15:02 | |
KD0MQOJoined: Sep 7th 2010, 14:01Total Topics: 0 Total Posts: 0 | Thanks guys. I had the same questions. |
Dec 22nd 2018, 16:45 | |
n6lgbJoined: Apr 1st 2016, 01:16Total Topics: 0 Total Posts: 0 |
Wrap a wet rag around the CPVC coupler to sink the heat while soldering. |
Dec 24th 2018, 08:33 | |
K2HYDJoined: Apr 4th 1998, 00:00Total Topics: 0 Total Posts: 0 | I've built one. Only problem I had is that I should have made the 1' pieces that connect the L's to the T's a bit shorter, or maybe I could have jammed the L's and T's closer together. I had about a 3/16in gap between L's and T's, and this pushed the vertical sections up against each other. I held them apart temporarily with a piece of scrap metal when mounting them to the PVC pipe (there was enough 'give' in the whole assembly to allow this). Once mounted and held in place with screws and nuts I could remove the scrap metal piece and everything looks good. |
Dec 25th 2018, 15:00 | |
K1AWCJoined: Nov 7th 2014, 13:42Total Topics: 0 Total Posts: 0 | 4 Each 8.5' 2 Each 8' 2 Each 7' 2 Each 6' 2 Each 3.5' 2 Each 1' Gap in CPVC connector is 1/8' 10 Each 90* Elbow 2 Each 'T' Fittings |
Dec 27th 2018, 11:23 | |
KI5BWVJoined: Oct 18th 2018, 10:44Total Topics: 0 Total Posts: 0 | Interesting looking project as I live in a restrictive HOA. Has anyone completed the project and measured the gain and SWR? The SWR appears to be low (Figure 2 in the article) but I was unable to determine the projected gain. |
Dec 27th 2018, 11:57 | |
KC8THCJoined: Apr 5th 2018, 08:41Total Topics: 0 Total Posts: 0 | And so we add 2 more pieces of 6 inch pipe. Where do they go? Wow. This isn't going to be anything to teach in the antenna class I see. |
Dec 27th 2018, 12:53 | |
K1AWCJoined: Nov 7th 2014, 13:42Total Topics: 0 Total Posts: 0 | Looking DOWN at the antenna, North has 1 Each 8.5' West has 1 Each 8.5' East has 1 Each 8' South has 1 Each 6',a 'T' fitting, and 1 Each 1'. (2 Sets/N,E,W,S) Stack them Vertical with the 2 Each 7'. |
Dec 27th 2018, 19:09 | |
KC6ZBEJoined: Jul 16th 2010, 02:31Total Topics: 0 Total Posts: 0 | Started to build this yesterday and noticed it didn't 'come together' as specified in the article. Glad I found I wasn't the only one! Finished the antenna today with the updated dimensions and I am resonant at 152.4 mhz. Checking the 2 meter portion gives me a SWR of 4.2 It was a fun build, but just curious how your guys' cube came out. Dave |
Dec 28th 2018, 19:56 | |
AD6ZHJoined: Jul 16th 2001, 00:00Total Topics: 0 Total Posts: 0 | I built as in the article. I bored the T connector on a lathe so it could be adjusted. Best swr was with the T touching the elbow. It resonated at about 150mhz. I reheated joints a pair at a time, bumping with a hammer to extend about 1/4 inch in 3 places. This added about 3/4 to 1 inch to the length of a loop. That brouht resonance to 146, and gave a little more separation to the ends. Took a while to get there, but passed all the on the air tests sitting on a wooden table. I don't have an antenna range, so can't say what the gain is. Feels like 5-6 db. A bit lower than a 5/8 jpole, but much better than a rubber duck. Next step is to try it on the car roof to see what a metal plane does to it.. |
Dec 31st 2018, 13:51 | |
K1AWCJoined: Nov 7th 2014, 13:42Total Topics: 0 Total Posts: 0 | I can't give a full report...yet, But this antenna is turning into 'FRANKNTENNA'. I've made some mods (I will tell more when finished), But I'm still liking this as a portable trip/field antenna. I can hit Repeaters 37 Miles away (MFJ-1918ex 10' stand, Cheap RG58 coax, and a 4 Watt Baofeng UV5-R). Not bad for a start....more to come |
Jan 1st 2019, 14:32 | |
K1AWCJoined: Nov 7th 2014, 13:42Total Topics: 0 Total Posts: 0 | I spent the day trying different things, and found using 75 Ohm Video Coax dropped the SWR's from 2.4+ (RG-58) to 1.2 !! Runs good SWR's thru the whole Band. I might just be done testing things, this is all I need for my uses. THANKS JOHN, for another GREAT Antenna! |
Jan 16th 2019, 15:02 | |
N7LTJoined: Apr 4th 1998, 00:00Total Topics: 0 Total Posts: 0 | I started to build this antenna from the article and upon dry fitting the copper fittings, found nothing was coming together properly, Started searching the net and found this form but still have questions... K1AWC, what mods did you make? You never elaborated on them other than changing the coax to 75 ohm. Did anybody find out why the dimensions are so different than the article? KC6ZBE, your initial resonance at 152Mhz is a LONG way off from the ham band. Did you readjust the size to reach resonance on 2 meters? if so, what are your final measurements? AD6ZH, you said you increased the loop by 1 inch. What were your final dimensions for the loops? Any change to the vertical copper? Thanks for your help guys! de N7LT |
Slot Antenna For 2 Meters
Slot Antenna Impedance
Slot antennas are used typically at frequencies between 300 MHz and 24 GHz. The slot antenna is popular because they can be cut out of whatever surface they are to be mounted on, and have radiation patterns that are roughly omnidirectional (similar to a linear wire antenna, as we'll see). The polarization of the slot antenna is linear. The slot size, shape and what is behind it (the cavity) offer design variables that can be used to tune performance. Consider an infinite conducting sheet, with a rectangular slot cut out of dimensions a and b, as shown in Figure 1. If we can excite some reasonable fields in the slot (often called the aperture), we have a slot antenna. Figure 1. Rectangular Slot antenna with dimensions a and b. To gain an intuition about slot antennas, first we'll learn Babinet's principle (put into antenna terms by H. G. Booker in 1946).This principle relates the radiated fields and impedance of an aperture or slot antenna to that of the field of its dual antenna.The dual of a slot antenna would be if the conductive material and air were interchanged - that is, the slot antenna became a metal slab in space. An example of dual antennas is shown in Figure 2: Figure 2. Dual antennas - (left) the slot antenna, (right) the dipole antenna. Note that a voltage source is applied across the short end of the slot antenna. This induces an E-field distribution within the slot, and currents that travel around the slot perimeter, both contributed to radiation. The dual antenna is similar to a dipole antenna. The voltage source is applied at the center of the dipole, so that the voltage source is rotated. Babinet's principle relates these two antennas. The first result states that the impedance of the slot antenna() is related to the impedance of its dual antenna () by the relation: In the above, is the intrinsic impedanceof free space. The second major result of Babinet's/Booker's principle is that the fields of the dual antenna are almost the same as the slot antenna (the fields components are interchanged, and called 'duals'). That is, the fields of the slot antenna (given with a subscript S) are related to the fields of it's complement (given with a subscript C) by: Hence, if we know the fields from one antenna we know the fields of the other antenna. Hence, since it is easy to visualize the fields from a dipole antenna, the fields and impedance from a slot antenna can become intuitive if Babinet's principle is understood. Note that the polarization of the two antennas are reversed. That is, since the dipole antenna on the right in Figure 2 is vertically polarized, the slot antenna on the left will be horizontally polarized. Duality ExampleAs an example, consider a dipole similar to the one shown on the right in Figure 2. Suppose the length of the dipole is 14.4 centimeters and the width is 2 centimeters, and that the impedance at 1 GHz is 65+j15 Ohms. The fields from the dipole antenna are given by:What are the fields from a slot at 1 GHz, with the same dimensions as the dipole? Using Babinet's principle, the impedance can be easily found:The impedance of the slot for this case is much larger, and while the dipole's impedance is inductive (positive imaginary part), the slot's impedance is capacitive (negative imaginary part). The E-fields for the slot can be easily found: We see that the E-fields only contain a phi (azimuth) component; the slot antenna is therefore horizontally polarized. Video: Analysis of the Slot AntennaTo see this material presented another way, here is a video on the analysis of the slot antenna. Some of the information below will be complimentary to the above analysis. Hence, if you enjoy short lectures this video may be of interest to you. |