We have an interest in weak signal work on the 2m and 70cm bands. We currently have a vertical ground plane antenna installed at about 50 ft for accessing our local repeaters on these bands but the surrounding tree cover and lack of gain have prevented us from pursuing our interest in VHF/UHF contesting, Grid Square collecting, etc. on these bands. We designed our tower to accommodate long-boom Yagi’s on 2m and 70cm for these purposes and we have decided to install them as part of our project. I spoke with Jason at M2 Antenna Systems this evening and after some discussion about our goals and the tower and station equipment we have, we decided upon the following antennas and related equipment for VHF/UHF weak system work:
- An M2 2M18XXX Yagi for 2m (18 elements on a 26′ boom, 17.1 dBi gain/26 dB F/B)
- An M2 440-21ATV Yagi for 70 cm (21 elements on a 14.5′ boom, 18 dBi gain/23 dB F/B)
- A custom 2M/70cm preamp and high power switching system and sequencer
Both of these antennas have good gain and F/B ratios and very good patterns. Initially, we will drive the system with our Icom IC-9100 Transceiver. This rig provides 100W on 2M and 75W on 70cm barefoot. This should be enough power to have some fun on these bands initially. We plan to add an amplifier on 2m and 70cm in the future so we selected antennas capable of handing 1KW+ of power. We are also having M2 Antenna Systems put together a custom pre-amp and high-power switching system to mount at the top of the tower which will accommodate our planned power levels in the future. Both antennas feature rugged construction to help them withstand the winters that we have here in New Hampshire, USA.
It is important to pay careful attention to the feedline losses at these frequencies. This is especially important for us as we need 200’+ of coax feedline to get from our shack to the top of the tower/mast where the antennas are located. To ensure good performance, we set a target for the total losses in the feedlines to be no more than 1.5 dB. To meet this goal, we settled on the following configuration:
- 2m Feedline – 1 1/4″ Hardline with LMR400 UltraFlex cable for shack connections and the “rotator loop”
- 70cm Feedline – 1 5/8″ Hardline with LMR600 UltraFlex cable for shack connections and the “rotator loop”
Using these components, both feedlines will have about 1.2 dB of loss end to end. We will place both beams on the 15′ mast above our upper SteppIR DB36 Yagi. We plan to place the 70cm Yagi at the top of the mast and the 2m Yagi between the DB36 and the 70cm Yagi in the middle of the mast. This configuration should minimize any interactions between the three antennas.
You can read more about our tower project via the articles which follow:
- First Tower Part 1 – Ground Broken For New Tower!
- First Tower Part 2 – Tower/Antenna System Design Details And Equipment Ordering
- First Tower Part 3 – More Excavation For Feedline Conduits
- First Tower Part 4 – Tower/Antenna System Analysis And Design (Planning And EZNEC)
- First Tower Part 5 – Tower/Antenna System Analysis And Design (HFTA Analysis)
- First Tower Part 6 – We Have A Tower!
- First Tower Part 7 – 100 ft Tower Completed!First Tower Part 8 – VHF/UHF Antenna System Design
- First Tower Part 9 – Feedline Conduits And Electrical Power Complete
- First Tower Part 10 – Building Yagis (70 cm)
- First Tower Part 11 – Building Yagis (2m)
- First Tower Part 12 – Building Yagis (SteppIR DB36)
- First Tower Part 13 – Building Yagis (SteppIR DB36 Continued)
- First Tower Part 14 – Building Yagis (SteppIR DB36 Continued II)
- First Tower Part 15 – Building Yagis (SteppIR DB36 Completed)
- First Tower Part 16 – Building Yagis (Second SteppIR DB36 Completed)
- First Tower Part 17 – Feedline Breakout System
- First Tower Part 18 – Antennas On The Tower (Preparation and Upper Yagis)
- First Tower Part 19 – Antennas On The Tower (System Integration)
- First Tower Part 20 – Antennas On The Tower (System Complete)
- First Tower Part 21 – Antennas On The Tower (Final Odds and Ends)
– Fred, AB1OC