Hi,
There is antenna design software available which you can run on a PC.
Antenna has two basic kind. Isopole(vertical) and dipole(horizontal) Basic Isopole is 1/4 Lambda(wave length) long. Dipole is 1/2 Lamda long. Vertical antenna is dominantly vertically polarized, horizontal dipole antenna is horizontally polarized. They have different radiation pattern/angle. Antennas are all Lump sum of L,C values represented in Z(impedance) TX and antenna has to be Z matched at feed point(~50 Ohm for vertical, ~70 Ohm for dipole) The better match the more erp. Degree of match is expressed as value of SWR. Perfect match being 1.0(never happens in real world) Antenna macher or tuner is fooling the TX as tho it is feeding perfectly matched antenna. If you want to test some thing like what you are trying, at least you should have something to measure erp and plot radiation pattern. What tool(s) are you using for this?
First we are dealing with 2.4 or 5.0GHz range; these are SHF, EHF range frequencies wth quite short wave length. Looked at internal antennas? See how small they are? Did you happened to cut up external antenna to see what's in it? I spent more than half a century
as a HAM and RF data/telecomm. EE working in the field. Antenna engineering is very complex, just like acoustic engineering(see how they design audio speakers) Based on very basic theory sky is the limit learning. Can you tell why basic vertical antenna is 1/4 wave long, horizontal dipole is 1/2 wave long? Antenna size, gain, radiation pattern/angle interact very much. I'd say 100% perfect antenna is impossible to produce. Also bottom line comes into play. How much
to spend on an antenna kit as part of a router. Good luck.
Thanks for this post. Lots of excellent points here. I don't have access to equipment for measuring signal polarization, and only basic things like software on other routers or laptops with wireless receivers to measure signal strength and properties. The best I can do is to try to make as precise measurements as possible while controlling as many variables like location, distance from the source, and the transmitter and receiver. My main goal is to try to optimize wireless performance for the networks I have in a building with multiple tenants. Partly, it is to increase my knowledge of the principles used to optimize the performance so that I can reproduce that at other locations. As my original problem statement suggested, I am more interested in the 5GHz frequency than 2.4GHz. I have lots of questions but here are a few that are the most pressing.
1. The wavelength for a2.4GHz frequency is 12.491cm. 5GHz is 5.996cm. The quarter wave is 3.122cm for 2.4GHz and 6.244cm for the half wave. Quarter wave for the 5GHz band is 1.50cm and half wave is 3.0cm. How do the router mfg. prevent antenna to antenna interference with a three antenna system and the spacing that is on the router?
2. I did some more tests with multiple different antenna lengths (whip antennas - a couple of which I took the covers off to see how they were built). The specs say that the antennas are 50 ohm impedance. I do not have access to 70 ohm impedance antennas. I don't have the specs on the stock antennas but I know they are all the same and do not vary the impedance. If impedance makes that much of a difference, why not provide different impedance antennas stock (either texture, or marked differently to let people know which is which)?
3.I started orienting the antennas vertically, horizontally, at 45 degree angles, and finally one antenna at each of the three angles. I use a second Asus RT-AC66R router to monitor changes in the received signal strength at a fixed distance and orientation from the test router/radio source (0 degrees +/- 3 degrees). I do not have a easy way to plot vs. angle and position. What I do see is that having a vertical antenna combined with a horizontal antenna made the most dramatic increase in signal strength and sensitivity. I orient the antenna with one of the side antennas at 45 degree angle away from the center antenna which is vertical and the other side antenna in the horizonal position. I am detecting many more radio signals that way (including things like wireless printers, Roku media boxes, wireless televisions, and other low powered radio signals) that I did not find when the antennas were all in the vertical position. This is with the stock antennas. Why doesn't the router manufacturer recommend a particular antenna orientation pattern (vertical and horizontal)? I know that antenna orientation is particular to the application environment but there are no guidelines for setting up the router antenna orientation or even how to test and optimize signals.
4. By using longer antennas than stock (TP-Link 8db High Gain Antennas TL-ANT2408CL) in all three antenna positions, the number of radio signals detected by the router is increased dramatically. The signal strength, as indicated by the site survey tool of the Asus-Merlin firmware, is also significantly higher. I easily detect high signal strength from wireless radios and repeaters that are more than 100 meters away (through several concrete walls and in completely different buildings) that the Asus-Merlin Firmware says is 100% power - greater than -50dbm. Granted, this is on the 2.4GHz frequency which very populated in the area of my test (Urban Residential). I do see an increase in the 5GHz signal strength with the longer antennas and more when the antennas are oriented in the 0,45, and 90 degree angles. Why don't the router manufacturers provide these larger whip antennas to get better radio sensitivity?
5. Vertical and horizontal antenna orientation does make a difference for the 5GHz radio frequency. I do get a measurable increase in the signal strength received from one router to the other router when orienting the antennas of both routers in the 0, 45, and 90 degree angles. Since there are only three antennas there are two areas of 45 degrees in the circular orientation that are not seen swept by the antenna. Would having a fourth antenna which is oriented at -45 degrees improve signal sensitivity for polarization effects?
6. Because detected signal sensitivity is dependant on the antenna area, I would have expected a signal strength increase or transfer rate increase with the Asus WL-ANT-157 plate antenna. I found quite the opposite in fact. There are many antenna manufacturers of Yagi antennas, directional (plate antennas), and other wall mount antennas which may or may not work. Why would Asus sell aftermarket antennas that are such poor performers when they are the ones who design the radio array? I expect to get better performance from an antenna specifically sold by the router manufacturer for improved performance.
7. Is there any free software that helps to model antenna design, length, and orientation?
