This year marked a return to Brokeoff Mountain in Lassen National Park for the annual ARRL September VHF Contest!
Lassen National Park is in grid square CN90, which is relatively rare for ham radio operators in the San Francisco Bay area. The grid square is at the north end of the California central valley, and the peaks in Lassen Park have great radio "views" over much of the valley and also into southern Oregon.
The trail to Lassen Peak (10,600') was closed for repair work, so we hiked to the summit of Brokeoff Mountain (9,200') instead.
The trailhead up Brokeoff begins just at the southern border of the National Park, and climbs 2600 vertical feet over 2 miles. It took Melanie and I just about three hours to hike it. Weather conditions were near perfect cool temperatures and light winds.
Once at the summit, I set up my standard portable VHF radio gear. This consisted of a Yaesu FT-817ND all-mode transceiver, an Elk dual-band log periodic antenna for 2 meters and 70cm, an M2 HO-Loop antenna for 6 meters, all powered by a K2 Energy LiFePO4 battery pack and 2x20 watt PowerFilm solar panels.
I spent a total of three hours with the contest on the summit. I worked a few stations in southern Oregon, and quite a few stations in northern California. One ham had driven to the top of nearby Burney Mountain (about 30 miles away) and could literally see my operating position! I made around 50 contacts, and worked nine different grid squares. It was a lot of fun!
The portable equipment worked well. With over nine thousand feet of antenna height, the 5-watt radio was just about enough to work all of the stations that I could hear. The Elk antenna had enough gain to hear most of the stations in the Bay Area (200 miles awa!) and surprisingly the HO-Loop had enough gain that I could usually contact any stations that I had worked on the 2-meter band, also on the 6-meter band. The solar panels were putting out around 25 watts, more than enough to power the radio and keep the battery charged.
The trip down the mountain went well - lots of nice views!
Overall it was a good trip. Not an easy hike, but definitely rewarding in terms of radio contacts and scenery!
CM79/CM89/CN70/CN80 Grid Activation - August 7/8 2011
Background
The world can be divided into squares of latitude and longitude. Squares 2 degrees wide by 1 degree tall are called "Maidenhead Grid Squares" and are a very convenient location reference point for ham radio operators. 2x1 grid squares are identified by a pair of letters and numbers, and there are 488 of these squares that cover the continental USA. Up until last year, no ham had ever contacted all 488 grid squares at VHF frequencies -- until Russ KB8U travelled to the remote California Lost Coast with radio equipment to "activate" one of the rarest (and last-needed) grid squares: CM79.
CM79 is on the coast of Northern California. The grid square is almost entirely ocean, with just a small portion (less than a square mile) at the northeast corner extending into land. The land where CM79 brushes against contains no roads; no power; not even any trails run through CM79. It is surrounded by the primitive wilderness of the King Range National Conservation Area, and is only accessible by a 2.5-mile hike up and over Chemise Mountain.
When I read the story KB8U backpacking 6-meter band VHF radio equipment into the remote CM79 grid area, I was inspired to try something similar. Ham radio satellite operators also collect grid squares, and CM79 is exceptionally rare. How difficult could it be to activate CM79 for the amateur satellite community?
Difficult Terrain and Multiple Grids
The terrain of CM79 is quite inhospitable to VHF and UHF radio communication. The entire land portion of the grid square lies on the steeply sloping *west* side of Chemise Mountain. This means that any radio communication to the east (the rest of the country), necessarily means finding a way to get the signal over the top of the mountain. Fortunately, the actual northeast tip of CM79 is only 70' downhill from the ridgeline. Russ solved this problem in 2010 by using a remote operating location, and remote antenna, to keep his transmitter exactly over CM79 while having the antenna with a view to the east.
By having his transmitter on the CM79 corner (northeast tip), it was actually also in three other adjacent grid squares (CM89 to the east, CN70 the the north, and CN80 to the northeast). The ARRL VHF rules provide for this type of operation as long as some portion of the entire station (power supply, transmitter, antenna) occupies all four grids.
Planning - and Plans Change
Reading through the ARRL VHF Contest rules, it seemed simple enough. I'd need to carry my normal portable satellite radio equipment up to the location of the grid intersection, and start operating.
Since satellites are moving targets, and I've always worked satellites by tracking them with the antenna, I figured there was no way to activate CM79 without also being on the ridgetop (70' uphill from the grid corner) so that I could steer the antenna and track the satellite as it went by. My plan was therefore to have the station power supply directly at the CM79/89/CN70/80 grid corner, and my transmitter and antenna up on the ridge so that I could follow the sats.
Everything seemed fine with this until an email from the ARRL HQ: they had been discussing my plans and felt that having just the power supply at the grid corner wasn't sufficient to claim that the station was in four grids simultaneously. The transmitter itself has to be at the intersection. This certainly made me rethink my plans!! Since satellite operation requires constant tuning of the radios, that meant my operating position as well had to be down the hillside in order to be directly over grid corner. And that also meant having to use a remote antenna system like Russ did, except at mid-VHF and UHF frequencies where line losses are significantly greater. Even more importantly, being 70' down a brushy hillside from my antenna would mean that I would no longer be able to steer the antenna towards the satellites as they went by!!
More Planning - Possible Solutions?
The first realization that I had was that if the satellites are going overhead, or are heading out over the ocean to the west, then I don't actually need a remote antenna setup. I can use the satellite elevation itself to do the "work" of lifting my signal over the ridgetop! I figured about 2/3rds of the passes would be overhead or to the west, where I wouldn't have to use a remote antenna at all. That just leaves the remaining 1/3 of passes to the east: how to allow the east coast stations to work me through the remote setup.
My second realization was that even though I'd be losing almost 50% of my signal power at UHF frequencies with a remote antenna, I could maybe overcome this. I could use extremely low-loss coax. I could use a preamplifier at the antenna (to boost the feeble UHF downlink signal coming from the satellite before it entered the cable), and a higher-powered transmitter (to put more UHF power into the cable on the uplink to begin with). Maybe I'd still have enough signal to work the east coast stations?
My third realization was that I didn't really have to continuously track the satellites as they went by. I could point the antenna at a fixed point in the sky, and let the satellite pass into view and out again. Then I could run back up the hill and re-aim the antenna. I hadn't seen the terrain but was guessing I could do this maybe two or three times during a 15-minute satellite pass.
I described my revised plans in detail to ARRL HQ: I'd have my entire station directly over the grid square boundary for all passes except those to the east, and for eastern passes I'd use the remote antenna on the ridge. At no point would my transmitters or person leave the grid intersection while operating. ARRL HQ advised that this was acceptable. Yay!!!!
Preparation
Unfortunately, the split / remote station setup added significnatly to the amount of stuff to haul up and over the mountain! Notably, 100' of coaxial cable. A high-powered transmitter (the Yaesu FT-857D from my truck). A second 12V battery to power the transmitter (5 pounds of lead and acid). The preamplifier with associated connectors. Another battery box to power the preamp. A second tripod to support the remote antenna. Whew!!!
Added to the list above are my regular satellite-portable station items: two Yaesu FT-817ND radios, the Elk antenna, a tripod to hang them all on, a netbook computer to do the tracking and run the radios, a LiFePO4 battery pack, and 60 watts worth of solar panels. Total system weight was probably around 50 pounds or so, I'm not entirely sure, but it was heavy! I figured I could pack the stuff up the mountain in two separate trips -- one Saturday night after arrival, and one Monday morning.
I tested everything out in the few days prior to the trip, and found that the remote antenna system actually worked. Signals weren't great, but were acceptable for communication. Ready to go!
The Trip - Day 0
After a six-hour drive up the California coast, I arrived at the Wailiki Campground and set up camp. Wailiki campground is dark and feels very remote -- it's in a narrow canyon, and there was only one other camper in the entire campground.
The camp was infested by hordes of mosquitoes! By 5:30pm I had the backpack loaded with the first set of gear (primarily cables, solar panels, batteries, tripods, anything heavy) and was on the trail. Weather was clear and sunny.
The trail up Chemise Mountain is fairly rugged, especially while packing gear. It's part of the Lost Coast Trail, and begins with a 600-foot climb up the northeast slope of the mountain, through tall redwood forest.
The trail then turns south and skirts the eastern of the ridge, then follows the narrow ridge up and down and eventually after a long descent comes to the second intersection of Chincquapin Loop trail. This point is maybe a hundred and some feet northeast of the CM79 grid corner, and is marked with a wooden signpost. (I'd be spending a lot of time sitting and leaning against that signpost in the next two days, waiting for satellites to come by -- it was a nice open and flat spot!)
The hike up the trail went well. It was 2.5 miles from the campground, it it took about an hour and a half to get up there.
My first impressions of the CM79 grid corner were "uh-oh". Rather than being open, the entire area was in a light forest. Enough sunlight trickled through the trees to dapple the ground below, but at UHF frequencies those same trees could significantly block the signals getting out. I worried that would further reduce my already weak signal.
Finding the exact grid intersection by GPS was fairly straightforward -- I used a Garmin Vista HCx (high sensitivity) and it routinely had error figures less than 20 feet even under the tree cover. It also helped that I had seen pictures of the area on the Confluence.Org site, where others had located the -124 West / 40 North boundary just for fun.
After finding the grid intersection, that's when I got my first good look at the hill to the east -- 70 feet of steep slope, covered in slippery leaves, manzanita, and poison oak. I then realized my idea of running up and down to re-aim the remote antenna on eastern passes wasn't going to work -- I'd have to pick a spot and leave it there.
I dropped off the load of equipment, ran out the hundred foot cable connecting the operating location to the tripod on the ridge, and headed back to camp. Travelling lighter without the equipment, I made it back to camp in just over an hour. There was enough daylight to feed myself and a few hundred mosquitoes, and get some rest.
The Trip - Day 1
Day 1 of operating satellites was Sunday August 7th. I was up early packing all the remaining equipment, as well as enough food, water, clothing, and emergency supplies to last the whole day up on the mountain. I also packed a book -- sitting in the woods waiting for satellites to come by is somewhat akin to sitting in an airport waiting for a flight, lots of time to kill!!
At first light I was on the trail to make it up to the CM79 area and get things set up for the first satellite pass. I carried my SPOT Messenger GPS with me -- it relayed my coordinates to a web page, so anyone interested could see where I was on the trip.
Once I arrived at the CM79 area, I left the SPOT on the signpost near the trail intersection (since the SPOT was also a possible lifeline in this remote area, I wanted it to have as much of a view of the sky as I could, in case I had to send out an SOS message with it). I then carried the rest of the equipment to my operating location centered on the grid boundary down the hill, connected up the cables, put up the remote antenna directly on the trail ridgetop, and waited for AO-07 to come by. I was using the FT-857D radio for as much uplink power as possible. The remote antenna was aimed into the forest to the east.
Satellite AO-07 came by, and wow signals were faint! I could barely hear my own CW downlink. Finally I was able to make contact with Drew KO4MA in Florida. I heard AA5PK on but couldn't make a two-way contact. After the pass, I thought "how on earth am I going to do this -- Oscar 7 is normally not too much of a problem, and here in this forest I can barely hear it!".
The next satellite to come by was Oscar 51, a nice loud FM satellite. I had moved my Elk antenna to the operating location on the grid intersection. AO-51 came ... and went ... and I didn't hear **anything**! Oscar 51 is normally the loudest of the sats, and here I was in a forest, feeding mosquitoes, and even with the antenna directly at the radios and steerable, and a western pass out over the ocean with no ridge in the way .... I couldn't hear it!! At that point I had serious thoughts about whether this expedition was even going to be possible.
The third satellite pass was Oscar 7 making another trip around, this time to the west, out over the ocean. I had the Elk antenna still at the operating location on the grid boundary, so there was no need for a remote this time. I held my breath, hoping that being able to steer the antenna this time (and not using the remote antenna) would help. I also ditched the FT-857D with it's 20W output in favor of my normal FT-817ND 5W radio for the UHF uplink -- the reason was that I hadn't configured the '857 for computer control, and I really wanted the computer to do the work of tuning the radio for doppler correction, so I could focus on pointing the antenna. It worked! I was able to make contacts with 3 stations on that pass!! Okay, so maybe there is hope.
Satellite VO-52 then came over at a 70 degree elevation to the east. Since the hill to my east only sloped up at 30 degrees or so, the sat was well above the hilltop so I could use my normal setup -- and I made three nice contacts. Whew! Finally I was getting somewhere. The little Yaesu FT-817ND radios were doing their job!
The next pass was VO-52 as it came around the earth again, this time way out west over the ocean. I again used normal configuation with the antenna right on the tripod at my operating station on the grid corners. I had great downlink signals this time (clearly the 2m downlink of VO-52 was much less attenutated by the foliage than the 70cm downlink of AO-51). I called CQ -- heard myself calling CQ ... and didn't hear anyone else on! Oh well. At this point, I recorded in my notes "Mosquitoes BAD" and I noticed I underlined the word "bad" twice.
Oscar 27 then came by in a low (9 degree elevation) easterly pass. Time to use the remote antenna setup again -- this time with the Advanced Receiver Research SP432VDG GAsFET preamp. I could hear the satellite but just barely -- it should have been strong and clear with that preamp. Obviously the forest was causing a major problem with the UHF downlink.
One thing I noticed (there's a lot of time to reflect when you're sitting on a remote mountain feeding mosquitoes) was that signals seemed to come and go as the satellite passed through openings in the forest. Duh. Of course it does. I then looked at my remote antenna setup (where the tripod was for that first Oscar 7 pass) and realized I had it aimed through many thick trees. Since I brought 100' of LMR-400 cable, and about 75' of it was being used to get the signal up to the top of the hill, I realized that I could use the remaining 25' to put the remote antenna slightly further EAST on the hilltop, into an area that was "less thick" with trees. Not exactly a clearing, but fewer trees to block the signal.
Oscar 27 then came by again, this time much higher to the east. Time to try out the above theory, that my little "clearing" would help the remote antenna and preamp see the satellite. I picked the center of the clearest spot I could and aimed the antenna there, polarized at about 45 degrees ... figuring that even though I can't aim the antenna during the pass, at some point the satellite will have to cross though that window. It worked!!! I made a number of contacts.
Satellite FO-29 came by about an hour later, also to the east. Again I put the remote-antenna-with-preamp-in-clearing idea to the test. Again more contacts! This time I managed to work K8YSE who had missed me the last time I was in CM89 -- now, however, I was at the grid intersection (still trying not to slide down the hill and giving the mosquitoes brunch) so I could give him CM89 plus CM79, CN80 and CN90. Woohoo!
A low eastern pass of Oscar 51 came by in the early afternoon, and I again used the remote-blindly-aimed-antenna-in-a-clearing-with-preamp configuration. Success again! 7 nice contacts.
I was left wondering how the heck a blindly aimed antenna at the end of 100-foot run of coax worked better than my nearly deaf pass of the same satellite earlier that morning. Again, more time to think when just sitting there and waiting. That's when I realized that I didn't have the preamp on in the morning (westerly) pass. I never use a preamp in my normal configuration (Elk antenna on tripod on top of radios), never have needed to. Well, I thought to myself, maybe I should use the preamp in the normal configuration to help overcome the losses on the UHF downlink from the forest. It seems to be working when the antenna is located 100' away, it should help when the antenna is right on my operating location.
Oscar 27 came by on a low pass to the west, and this time I had the preamp installed on the Elk in the normal configuration. It worked! Several more nice contacts!
Before I left on the trip, I had thought the preamp was needed solely to overcome the losses from my necessary 100-foot run of cable ... but now I had realized it was essential to overcome the losses from the forest cover (the GAsFET preamp is much more sensitive than my FT-817ND front end, something I had never noticed before).
SO-50 then came by on an easterly pass -- so I used the remote antenna again. I heard many stations but it was so congested I could only make a few contacts. The system was working, however, so that was good -- blindly aiming the antenna and waiting for the satellite to cross into its view was indeed a way to make contacts.
At some point during the afternoon I recharged the LiFePO4 battery pack with the solar panels in a nice patch of sunlight up the trail to the north. The PowerFilm solar panels worked great, and within an hour had fully recharged the pack. My battery packs are exclusively charged by solar, so incidentally this radio expedition was 100% solar powered!
The last pass of the day was another Oscar 51 pass -- almost overhead. I was able to make quite a few contacts on thie one, using the normal configuration with the addition of the pre-amp. The preamp made steering the antenna a bit more difficult (more weight) but it certianly was working.
It was now about 5pm -- I knew I had to get off the mountain and back to camp. I packed up all the non-essential equipment I could (extra solar panels; the unused FT-857D radio; the lead acid battery, etc) and made it back down with enough daylight to cook dinner. Woohoo!
The Trip - Day 2
The second day on the mountain progressed similarly to the first -- without as much of the learning curve! I now had the station configurations worked out, for both the normal and remote setups.
It also felt good to be fully in compliance with the ARRL VHF rules about grid boundaries -- it was difficult to be down the hill in the bush with the mosquitoes, but it was nice to know that my full station was centered on the grid boundary. At one point I walked in a big circle around my station and took photos of it, while standing in each of the four different grid squares; it was fun to see the grids CM79, CM89, CN70, and CN80 all show up on the GPS when I was only a few feet away from the station in the four different directions!
As per ARRL requirements, I also took video to show the uncut footage of the GPS at -124.00000 +40.00000, zooming out and then showing the station, and even took the video up to the top of the hill to show the remote antenna.
Monday's satellite passes started with Oscar 7 in mode A (my 10-meter mode A antenna was a 40-sloping wire tuned with an Elecraft T1 tuner) ... didn't work well, but I made one contact. Then a VO-52 pass to the east with the remote configuration.
After that, another AO-7 mode A pass where I couldn't hear anything on my tuned longwire. Then another VO-52 pass with great downlinks, up to S8 (and that's without a preamp, for U/V sats I disconnect the preamp to reduce uplink loss) ... called CQ but no one else was on the bird! I then took a "quick" break to carry some more stuff off the mountain -- a simple 5-mile two-and-a-half-hour round trip. Once I got back, an easterly Oscar 27 pass with the remote setup yielded a number of nice contacts. After that one, a very low (5 degree) Oscar 51 pass didn't yield any. 5 degrees above the horizon was just too thick with forest for the remote to work. Next pass was Oscar 27 to the west, with a number of nice contacts again, and then FO-29 to the east with the remote configuration. I was kept busy hauling the Elk antenna up and down the hill!! Finally I had a high easterly Oscar 51 pass which yielded a number of nice contacts again, woohoo!
At that point, 4:30pm, it was again time to pack up and head off the mountain. I rounded up all of my bits: spooled up the remote cable, boxed up the equipment, folded up the two tripods and the Elk, and packed everything into the backpack. Last thing I did was clear the entire area I was and restore it to pretty much the way I found it. I wanted to follow the "leave no trace" philosophy as much as possible to restore the forest area to pre-KB5WIA conditions.
Hiking back down the mountain took about an hour and a half. Interestingly, the fog had cleared out on the ocean, so there were some great views of the coastline through a few gaps in the trees.
When I got back to camp, the mosquitoes were thick! I had other plans, though -- so I packed up the tent and camping equipment (giving the mosquitoes one last dinner) and headed off to Shelter Cove for a nice motel with an ocean-view room. It was a nice way to finish the expedition!
Overall, the trip was a lot of fun, and a lot more challenging than I had originally pictured. I made four trips up and down the mountain hauling equipment, covering roughly 20+ miles and over 5,000 feet of elevation gain. The outcome netted about 23satellites worked, with quite a few QSOs as a result. Best of all, it was a great way to experience this remote part of California wilderness!
This last weekend we took a trip to Eagle Lake in Lassen National Forest, northern California. The location was in the middle of grid CN90, and I brought the portable satellite gear for a test-run of working the satellites prior to the CM79 grid trip.
The location was beautiful -- Eagle Lake is a large lake at around 5000' in elevation, surrounded by relatively low mountains and pine forest. I hadn't known what the terrain would be like prior to the trip, but it turned out to be a very good location for ham radio satellite operation! On the lake, I could see to almost the horizon in most directions except for south -- perfect for the sats.
I brought the same radio equipment that I had used on previous trips -- the Twin Yaesu FT-817ND setup, with the addition of a voice recorder and Heil headset (thanks to Patrick WD9EWK for the suggestion of an easy way to avoid having to write everything down!). Power came from solar panels (2x20 watts) and a compact LiFePO4 battery pack. Tracking with the netbook computer running HRD and SatPC32. As usual, the antenna was the Elk dual-band log periodic.
Saturday night, after setting up camp, I was able to work three satellites: SO-50 (15 degrees E ascending), AO-07 (30 degrees W ascending), and VO-52 (90 degrees ascending). I was able to make 7 contacts on the three birds, and it was a good opportunity to get used to manually pointing the antenna and tuning the radio again! For some reason I could not get the netbook to tune the radios for VO-52 -- it was constantly trying to put me up to 5 kHz off frequency. Only later did I discover that even though I thought I had updated the keps in the SatPC32, apparently the update didn't happen! So, all of the remaining passes were done by manually tuning the radios.
Early Sunday morning I had some nice contacts on SO-50, then worked AO-07, AO-51, AO-07 again, VO-52, AO-07 a third time, VO-52 again, and FO-29. Made another 21 contacts in that set. The low easterly passes were a lot of fun, I was able to work stations I hadn't worked from my home QTH before.
Then it was time to head out kayaking and enjoying the lake.
Later on Sunday afternoon I worked AO-51 and made 16 contacts in the 60 degree E ascending pass. I made a few more contacts on AO-51 as it came around again to the west ... and then VO-52 and SO-50 yielded 6 more contacts. A final evening pass with SO-50 to the west yielded one more contact.
Finally Monday morning it was time to head out on the lake again and pack up camp. Before doing so I did one more pass -- a 30 degree E ascending VO-52 pass, and was able to make another 3 contacts before it was time to go.
Here's a rundown of the equipment used:
The portable operating station. Solar panels in the foreground, chair and everything else in the background:
The solar charge controller, and a "Watts Up" power meter. I find the power meter really helps to keep an eye on how much power the panels are generating, and serves as a good reminder to move them (if need be) to generate more power (ie. in the evening hours when the sun angle is low).
A close-up of the station. The two Yaesu FT-817ND radios hang from the tripod, with the headset and voice recorder plugged in to the right. The netbook displays the tracking information. Radio tuning control cables (USB-Serial) are coiled up in the blue bag, since I wasn't using PC tuning this time I just left them coiled up. The LiFePO4 battery is in the lower left.
A close up of the K2 Energy LiFePO4 battery. It continued to peform well on this trip.
Overall it was a great trip. Since the objective of this one was to have fun camping with my XYL first, and only do radio if there was some spare time, it did work out well for the satellite passes. I also was able to learn a number of lessons: It's important to be sure (and verify!) that the current keps are loaded into the computer. It's very useful to practice manual tuning beforehand. And using a headset and recorder really does help to keep track of contacts. It was a lot of fun talking to other satellite operators while out camping!
