Activation – CN84hm, Oregon, 902 & 1296 EME March 24-26, 2023 – Updated

I had promised to start posting my activations so that others could start planning on how to find me. This weekend, I will be trying to get first on 902 and then 1296. There are just a few stations that will be getting on 902, but they seem to be spread out across local Friday, Saturday and Sunday afternoons. Weather permitting, I will try to work the few on 902 and then move over to 1296. This will not be optimum for stations with limited moon in common to me here in Oregon. Please do not worry that you will miss me. I will be in Oregon until early May.

My location will be part way up the hill in this image. Grid location via with Google Maps data.

I need about 15 degrees elevation to get over the near-field rooftops. I will always be on HB9Q when I have internet connectivity. I will likely not stay on until moon set. If you have a special need or want, please send me an email. It is listed at

Updated – I did not attempt to get on during the 24th local time. The rain was too often and too much. On the 25th, I did get the system assembled and tried to get on 902 MHz. I made a mistake and blew one of my two 902 amplifiers. I need a day or two to finish the modification of the second amplifier. I will be more careful with it. After the final confirmation that the 902 amplifier was dead, I moved over to 1296 MHz. I worked a number of stations including KB2SA for his 49th state. I took a break for dinner, When I came back, the station would not function. I found that the USB hub had failed. I do not have a spare. I will need to replace it before I can try again on 902 and 1296.

For an informal operation, it was a bit of failure and success. I’ll take the success and learn from the failures. More to follow in other posts. Tentatively, I will make a larger effort on 1296 during my local Friday afternoon and evening, March 31 to April 1. This should allow for a better window to EU. I will be at a nearby farm with a much cleaner view of moonrise.

Operated from next to the curb with an extension cord from my parents’ house.
This is a reflection image (reversed) looking from the operating position (passenger seat) toward the antenna through the side view mirror.

NX9O EME Rover Antenna & Feeds

The star of the whole show is the 2.4m folding dish from Sub-Lunar Systems. Without this dish and the feeds from Paul, W2HRO, I would not have even tried to do 1296 or 902 MHz EME. KB7Q wrote this in October, 2020, “The key part of the project – the small W2HRO folding dish antenna with patch feed…” KA6U is using Paul’s dish creation for his 1296 roving.

My 2.4m dish with 1296 patch feed from Paul, W2HRO, and Sub-Lunar Systems. This was as setup for receive testing during the October 2022 ARRL EME contest weekend.

The feed configured for circular polarization is deceptively simple and even easier to put on the air. As shipped, the 90 degree hybrid is labeled for TX and RX.

Sub-Lunar Systems 1296 MHz feed connections at the 90 degree hybrid.

Here is a comparison photo showing the size difference of the 902 feed versus the 1296 feed as configured for NX9O Rover.

902 feed on the left and 1296 feed on the right.
The patch side of the feeds with 902 on the left and 1296 on the right.

Paul’s feeds are based on patch feeds from SM6PGP. I found a detailed description in a Swedish EME-meeting May 2013 paper, “Circularly Polarized Patch Feed for 1296 MHz”, published by SM6FHZ and SM6PGP. Toward the end of the presentation there is a suggestion of a good way to setup the feed for circular polarization.

While this method of connecting the feed for circular polarization is quite comprehensive, for field use, it is way too complex. It is much simpler to use split transmit and receive lines, put the LNA at the feed, and use a small RF relay to protect the LNA during transmit. I tried to source suitable 12VDC SMA relays for my feeds, but the relays I was shipped turned out to be latching and not failsafe. Getting failsafe versions of these SMA relays is much easier at 24-28VDC. That is what I ended up doing. I rewired the control cable to the feed to add a pair of lines for 24VDC relay control to go along with the 12VDC LNA power. These two lines are enabled when I turn on the sequencer, and are dropped by the sequencer when going into transmit. At some point I’ll add a block diagram to this page to show exactly how I did it.

Purists will point out that maybe I did it wrong. The decision to provide more protection to the LNA’s was deliberate. I might have a minor amount of discontinuity to my circular polarity and/or impedance mismatch during transmit by having the RX port effectively unterminated. It is a conscious decision. On 1296 with up to 500w I have more than enough power to make up for the discontinuity. On 902 it seems to be relatively circular based on the few reports I have been given so far with less than 200w. I am hoping to be able to improve my transmit output level during this next year on 902.

The other choice that some may quibble about is that of circular polarization instead of linear with the ability to switch between horizontal and vertical. I agree that would be more compatible with most of the existing stations on 902. As a newcomer to 902, I am fighting the history. I have seen how easy it is to concentrate on the rest of the factors and not have to even think about faraday or polarization mismatch when using circular polarization on 1296. The fewer things that need my attention when I try to activate a new location, the better. The 902 and 1296 feeds are completely plug compatible in my system.

This summer I expect to add 2304 MHz. My new feed has already arrived from W2HRO to my home in Georgia. If all goes well with amplifier retuning, I will have 140w or more. It should be a lot of fun. I hope to put on many states, but I probably will not ever reach the level of dedication that KA6U has shown in making his activations. I hope to work all of you many times.

Activation – DM56SS 902 EME March 13, 2023

This was earlier in the morning just before sunrise during the activation of DM56ss.

I was just barely able to make my first portable EME activation from DM56SS14HX at a campground named Quiet & Peaceful RV Park. I had driven from Weatherford, OK, leaving early in the afternoon of March 11th after having toured the Stafford Air & Space Museum and made it as far as a rest stop east of Albuquerque, NM, by late evening the 11th. I was trying to make it to near the Four Corners Monument area. I didn’t get into that area until mid-morning on Sunday, March 12th. I checked in to the RV Park and secured a space at the very westward end so as not to bother anyone with my very early morning activity. I was on the air for 902 EME at 08:00z Monday, March 13th.

I had been working with W5LUA and K5DOG in trying to figure out where it was legal to operate 902MHz EME with reasonable power. The limitations in New Mexico are many and seem severe in 47 C.F.R. § 2.106. There are a number of footnotes that limit 902-928 in New Mexico and nearby. Those footnotes specific to 902 MHz operations are:

  • US267 In the band 902-928 MHz, amateur stations shall transmit only in the sub-bands 902-902.4, 902.6-904.3, 904.7-925.3, 925.7-927.3, and 927.7-928 MHz within the States of Colorado and Wyoming, bounded by the area of latitudes 39° N and 42° N and longitudes 103° W and 108° W.
  • US275 The band 902-928 MHz is allocated on a secondary basis to the amateur service subject to not causing harmful interference to the operations of Federal stations authorized in this band or to Location and Monitoring Service (LMS) systems. Stations in the amateur service must tolerate any interference from the operations of industrial, scientific, and medical (ISM) devices, LMS systems, and the operations of Federal stations authorized in this band. Further, the amateur service is prohibited in those portions of Texas and New Mexico bounded on the south by latitude 31° 41′ North, on the east by longitude 104° 11′ West, and on the north by latitude 34° 30′ North, and on the west by longitude 107° 30′ West; in addition, outside this area but within 150 miles of these boundaries of White Sands Missile Range the service is restricted to a maximum transmitter peak envelope power output of 50 watts.

The last sentence in US275 is the tough nut to crack. This limits operation from not at all on 902-928 MHz or to <=50w PEP depending on location. Here is a graphic I worked up to show the exclusion zone in white and the 50w PEP limit areas inside the black lines:

The white area is where no 902-928 MHz operations are allowed. Within the black lines that is not white is where 902-928 MHz operation is limited to 50w or less.

I have these entered into Google Earth Pro on my logging laptop. If anyone wants an export of these points, please send me an email as listed on

The approximate distance from the nearest 50w limit circle boundary to the RV park was a bit more than 13 miles. It seems a bit close, but there were very few other choices. I needed a place where I could connect to AC mains as my generator seems to make enough electrical noise to mask 902 MHz EME signals.

This is an approximation of the straight line distance from the RV park to the nearest 50w limit circle..

Closer to the four corners would also work, but this campground seemed like the best choice in terms of angles, trees, camper spots, and cost.

This was my first solo activation in the field. The RV park had no toilets or showers. I had to plan my activity carefully. I posted to the 902 MHz EME reflector on late in the afternoon that I would be on the next morning. I estimated that I needed 20 degrees elevation before I would have moon. It turned out that I only needed 10 degrees, but I used the extra time to get the dish better aligned to the moon. With better planning and more confidence from experience, I should be able to give everyone more lead time for my activations. My operating location looked like:

NX9O EME rover truck with dish aimed at the moon. If you open the full size image and look into the clouds in the upper left corner, you can find the moon.
My exact operation location was at the red star in the image above.

In all, 4 stations were logged. W5LUA, AC0RA, K0DAS and K5DOG completed with me.

Thank you to everyone that worked me or helped me. I was very tired and cold by the time I was finished. The overnight low was 31F and there was frost on the back of the truck. I slept in the back seat of the truck with a space heater powered from the AC mains, but it was not quite enough to keep the truck cab warm. I did not run the engine overnight as it seemed the RV park was focused on “quiet”. If I had a proper RV, I would have been much more comfortable. With as much effort as I had to put in, I made the decision to press onward toward the Utah/Nevada border. I had to stop in Salt Lake City the next day to chase down tire chains to fit the oversize tires on my truck to stay legal for the mountain passes in Oregon. I wanted to try to put UT/NV on from the Wendover and West Wendover area, but the morning I would have been the weather forecast included rain and 40mph wind gusts.

The original reason for me to drive from Georgia to Oregon was to visit my parents for an extended stay of more than a month. I will be getting on to 902 and 1296 EME from Oregon during this stay. I will make sure to choose better moon declination days while I am in Oregon. I will plan for some activations in May as I make my way back to Georgia.