My Ten-Ten International number is: #77458
I love 10 m band for his outstanding propagation, long distance communication with low power during the high solar activity.
Indeed, you don’t need a serious equipment and antennas to start working on 10 m band. Because it’s a top HF band the size of antenna usually small, so it wouldn’t be a problem to build an Yagi or Quad antenna. My first antenna for 10 m band was just a simple GP (ground plane), then I tried the vertical delta loop. Of course, the most advantage was with 3-4 elements Yagi. I opened the world of stations that I never seen before. Here in USA I continued work on my one of favorite band and eventually I became a Ten-Ten International member.
See you on the 10 m band. Active on SSB, CW, PSK31.
Ten-Ten International website is http://www.ten-ten.org/
Want to release to public my recent program that I wrote for myself. It’s an Antenna Stacking Distance Calculator (ASC) and the current version is 1.05. You can download the program from this page or from “K6VHF Soft”.
Very easy and simple to use but I recommend to read some information before use. The ASC can help you to calculate the staking distance for your antenna stack arrays and can be used only for antennas with boom length at least 2 wavelength. Only one thing that you have to know is the -3 dB beam width of antenna that you want to use in the stack. You can find it in description of antenna (manual) or by looking at the diagram plane.
The ideal is to know -3 dB BW for both plane which is E-plane and H-plane and it depends on type of antenna stack array.
Download – ASCv1.05
So please read this before use the program:
This program help you to calculate the distance between antennas in stack array systems. It's very important to know the correct distance to have a good antenna stack array system with good performance.
Stacking two indentical antennas can result 2.5 - 2.9 dB increase of forward gain but if it done correctly.
The DL6WU formula for long yagis:
D = W/(2*(sin B/2))
D – stacking distance in meters
W – wavelength in meters
B – beamwidth in -3 dB points
All that you need to know is a frequency beamwidth in -3 dB points for each plane of the the main lobby of single antenna.
E-plane is Azimuth (horizontal)
H-plane is Elevation (vertical)
The H-plane stacking distance is 88-92% of
Use this program to calculate the stacking distance only for the similar antennas with same band and with boom length at least twowavelengths, another words for the long yagis.
– two 18 elements yagi 432 MHz or
– four 10 elements yagi 144 MHz or
– two 22 elements yagi 1296 MHz