- G4CQM Homebrew/DIY Antenna Specialist -
VHF/UHF/SHF HAM (AMATEUR) RADIO YAGI AERIAL DESIGNS

 

STACKING YAGIS

These calculators reveal the exact dimensions to avoid aperture overlapping and deliver optimum performance!

 

STACKING 10 WAVELENGTH LONG YAGIS

FREQUENCY (MHz)
Spacing (mm)
HORIZONTAL:
VERTICAL:

 

STACKING 5 WAVELENGTH LONG YAGIS

FREQUENCY (MHz)
Spacing (mm)
HORIZONTAL:
VERTICAL:

 

STACKING 3 WAVELENGTH LONG YAGIS

FREQUENCY (MHz)
Spacing (mm)
HORIZONTAL:
VERTICAL:

 

STACKING 2.5 WAVELENGTH LONG YAGIS

FREQUENCY (MHz)
Spacing (mm)
HORIZONTAL:
VERTICAL:

 

STACKING 2 WAVELENGTH LONG YAGIS

FREQUENCY (MHz)
Spacing (mm)
HORIZONTAL:
VERTICAL:

 

PHASING AND MATCHING HARNESS

If you want to stack Yagis there are two choices for feeding them. You can use a 'Power Splitter' or 'Phasing Harness, the latter in my view being a simple and cheap option.

Your feed system is based on 50 ohms impedance. However, the harness arms will need to be constructed from 75 ohms cable, UR57 is one possibility. Run the main feeder length, taking it to a central location on the 'Stacking Frame' (support structure). Here you will need to make a 'T' joint from which the 75 ohms arms radiate. Each of the arms will need to have sufficient cable length to reach the Driven Elements via the frame and booms. Include an odd ONE-quarter wavelength ie; 3/4, 5/4 or 7/4 total length etc. This is MOST IMPORTANT! RadCom has given details in the past of making such joints. Keep lead lengths as short as possible and cover the joint with layers of Plumbers PTFE, Self-Amalgamating AND PVC tape (alternative use Denso tape). The latter prevents UV damage. Solder connections carefully! Use a spacer to keep inner and outer conductors apart (I suggest pieces of polythene dielectric material that cover inner conductor [maintain spacing distance to preserve impedance]).

The 'Velocity Factor' (Vf) of the cable reduces its physical length. This is taken in to consideration in MY calculator below. For two Yagis there is ONE 'T' joint and for four Yagis THREE. And TWO arms for two Yagis and SIX for four Yagis. Confused? read carefully what I have said, sketch out your feeder layout. The RSGB and ARRL VHF/UHF handbooks may help! Finally, make sure the Driven Element polarity's are all the same.

FREQUENCY (MHz)
Feeder Cable (0.66Vf) Length (mm)
3/4 Wave
5/4 Wave
7/4 Wave
9/4 Wave
11/4 Wave
13/4 Wave
15/4 Wave
17/4 Wave
19/4 Wave
21/4 Wave
23/4 Wave
25/4 Wave
27/4 Wave
29/4 Wave

 

SITE NAVIGATION MENU

1. HOMEPAGE

6M (50MHz) YAGIS

2. 6M (50MHz) 1WL VK3VG 6ELE YAGI

2M (144MHz) YAGIS

3. 4X1UN - SIMPLE 3 ELEMENT 2M (144MHz) YAGI

4. 2M (144MHz) 1WL G6HKS 6ELE YAGI

5. 2M (144MHz) 2.5WL 9ELE YAGI

6. 2M (144MHz) 3.4WL 11ELE YAGI

7. 2M (144MHz) 4.6WL 16ELE YAGI

70CM/23CM (432MHz/1296MHz) YAGIS

8. 70CM (432MHz) 5WL 14ELE YAGI

9. 23CM (1296MHz) 10WL 26ELE YAGI

CALCULATORS - STACKING YAGIS/CABLE LOSSES

10. Stacking Yagis etc

11. Coax Cable Losses

YAGI PARTS

12. HOMEBREW/DIY YAGI PARTS

 

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