Remember that ATX power supply that I fried last year? I replaced it with another mail-ordered supply and then it sat on the shelf long enough for me to get around to fixing it: a new regulator, some MOVs, a cap and the fuse, and it was ready for action — except I had no computer to install it in. I kind of doubt that I’ll build another tower form-factor computer, so I turned it into a high current bench power supply.
It has to be more than ten years since I’ve done this, and I believe the last time I didn’t even have an ATX supply. At that time, supplies needed a hefty load to get going and remain stable. I recall using a car headlight. Literally: an old-style (maybe halogen?) automotive headlight. I reviewed a couple videos on the subject to see what people were doing with more recent supplies and found one that I liked and more or less followed.
Catching up on the bench back catalog: here’s a useful little module – a soft latch that isn’t finicky, works when you first plug it in, draws effectively no power when not changing states, and operates over a relatively wide range of input voltages. What’s not to like?
The basic idea is that mechanical switches, even simple toggles, are much more expensive than push buttons. It would be nice to be able to push a cheap push button and have it turn devices on and off. Some bad ways to do this would be to have the circuit twiddling its fingers, burning power, waiting for button presses – for example, having a microprocessor down stream of a voltage regulator idling until it detects a change in state on the pin connected to the push button. Sure, the microprocessor could be throttled down in some energy-saving mode and might only consume microamps, but the upstream voltage regulator would be consuming power, certainly true for linear regulators, and to a lesser extent for switchers.
Since the SOTA genie escaped the bottle, the blog has leaned towards operation rather than bench work, but rest assured that projects have been percolating in the background. Here’s an update on a few of them: a custom LED display, a soft latch circuit, and a high-current converted ATX power supply. Let’s start with the LED Display.
For an upcoming project (actually, one that was moth-balled last June, stuck in a butter-cookie tin, and just recently again saw the light of day, followed by several days of pouring over notes and head scratching to remember where I had left off), I needed an LED display that would show voltage, amps, and power. Sure, you could figure the power out from the amps and volts, but I wanted it to change in real time to give me feedback while I make adjustments.
You would think that with a name like “Mingus”, it wouldn’t really be necessary to specify the SOTA designator — but you would be wrong, as there is also a Mount Mingus (W4T/SU-008) in the database. I’d assert that my Mingus is the One True Mingus. I don’t know if there is any technical difference whether something is named Mountain versus Mount, but I would like to think there is, and that the one I climbed was the real deal: my first ten-point summit. We just don’t have mountains like this in the Mid-Atlantic region.
I had initially missed Mount Mingus because of a peculiarity of the Arizona association’s database. Initially, the state was divided into two regions, east and west. Mingus is in the west part. Later, they when more states were added, additional regions with tighter geographic scope were created like North and South Maricopa around Phoenix. I had wondered why some mountains appeared to be missing in the regional databases. Now I know.
Getting to the top of Mount Suappoa wasn’t too bad, since it’s mostly a matter of following a paved road. For the same two activator points, Goat Hill was much more of a climb. As mentioned, both peaks are in South Mountain Park to the South of Phoenix. In fact, in the picture at right, you can see antennas on Suappoa.
The aptly named Summit Road winds through the park and cuts across Ranger Trail which leads up to Goat Hill. It looks like Ranger Trail is used by both hikers and those on horses, and that some begin lower down on the trail.
Since I was only in Arizona for a short time on this trip, I didn’t attempt to acclimate to the local time zone, I just let me biological clock freewheel. The night before this outing, I had gone to bed at 6:30 in the evening, which seemed just fine to me. The flip side of this was then waking up around 3 am. Instead of forcing myself back to sleep, I just started my day. I got some work email out of the way and then began looking through peak information. I found two peaks that had been previously activated, seemed like reasonable climbs, and which were near each other, both in South Mountain Park.
I have a few more SOTA adventures to report, the most recent from a brief trip to Arizona. During that trip I visited three peaks, but I wanted first to write about Lookout Mountain, W7A/MS-050. I had reviewed summits on the SOTA database before the trip and thought that this peak was a good candidate, particularly since it has never been activated.
When I flew into Phoneix it was early in the day — too early to check in, so I pointed the rental car towards the mountain. I took 16th Street south of East Greenway up to a parking lot at the base of the mountain; this is the start of Trailhead #308. There is a sign there with some topographic maps and information about environmental hazards.