The disconnects of my MyT mount were (apparently) related to the 12V->48V converter that I used. When I wanted to check it out further, the converter shorted and took the MyT control board and the NUC down ... SH###!!!
So, I need fuses (as Richard always told me) and I need them such that everything works from home and in the field. This lead to this project to create a setup that I can use at home and almost exactly the same way in the field.
Astrophotography combines some of my major passions in life: mathematics, astronomy, computers ... and buying gadgets!
Tuesday, June 13, 2017
Eclipse MegaMovie
I love what seemingly random projects we sometimes do!!!
In this case it's Eclipse MegaMovie 2017 - a lot of info about the upcoming eclipse including simulator how the eclipse will look from arbitrary locations.
In this case it's Eclipse MegaMovie 2017 - a lot of info about the upcoming eclipse including simulator how the eclipse will look from arbitrary locations.
Sunday, June 4, 2017
PDF focuser weirdness
Suddenly my (fairly new) FLI PDF focuser acted up:
Asked Richard, Richard, Jim and John and also sent an email to FLI...
- I move the focuser to 2500
- Then I move it to 2501 (using the FLIFocuser app to make sure that this isn't a problem with some other software) - I can see that it moves first to 2506 and then back to 2501 (I guess it has a 5 step built-in backlash compensation?)
- Then I move it to 2502But now it only moves it to 2496 !!!!
It somehow didn't execute the +1 step from me or +5 step from the first part of the backlash compensation. But only the -5 backlash compensation.
Asked Richard, Richard, Jim and John and also sent an email to FLI...
Saturday, June 3, 2017
Same setup at home and in the field
I find it always tricky to move my scope into the field and make sure that everything works. The main two challenges are:
I decided to start using a 12V power source for everything. So, when I get into the field, I just replace that one with 12V batteries and everything should work exactly as before:
I bought a RigRunner to power all components on the scope and have just one main power line from the 12V power supply. The RigRunners are great for this as they have blade fuses integrated:
Now, with the NUC computer on the scope, I have all USB cables running there and only one (actually two - see below) cable running from the scope!!!:
Now, when I take the scope into the field, I can either replace the main line with one battery, or depending on power usage at night, power individual components (then with inline fuses) from a battery!
- Powering everything from 12V batteries
- Using my laptop vs. the NUC on the scope for control.
I decided to start using a 12V power source for everything. So, when I get into the field, I just replace that one with 12V batteries and everything should work exactly as before:
- Most equipment runs off 12V anyway (focuser, filter wheel...) - Just need coaxial plugs (2.1mm and 2.5mm) with Anderson connectors.
- The NUC computers can run off 12V.
- The FLI cameras need 12V-12V DC/DC converter
- The MyT mount needs a 12V-48V DC/DC converter
All connections need to be secured by fuses. Actually, I should have done that a long time ago. But was "reminded" of it when I blew up my NUC AND the control board of the MyT mount :-(
For that, I measured the power usage of all components:
Component | Peak Power Usage | Fuse |
FLI ML16070 | 5A (cooling at 100% and taking continuous images) | 7.5A |
FLI MLx694 | 2.8A (cooling at 100% and taking continuous images) | 5A |
NUC computer | 2.2 (network usage, storing, CPU usage) | 3A |
MyT mount | 4.2A (when full slewing) | 5A |
MyT equipment (FLI FW, FLI PDF, Dew Heater, Grasshopper3, USB Hub) | 1.3A | 2A |
Mach1 mount | 1.2A (when full slewing) | 2A |
Mach 1 equipment (FLI FW, FLI Atlas, Lodestar, Dew Heater, USB Hub) | 1.7A | 2A |
Lunt Pressure Controller, Microtouch Focuser | <1A | 1A |
I bought a RigRunner to power all components on the scope and have just one main power line from the 12V power supply. The RigRunners are great for this as they have blade fuses integrated:
Now, with the NUC computer on the scope, I have all USB cables running there and only one (actually two - see below) cable running from the scope!!!:
2. Using Laptop vs. NUC for imaging
The other change in the field was always that I used the NUC for imaging when I was at home and then my laptop when I was in the field. Which means that I had to copy profiles... over to the laptop - and often realized too late that I was using an older profile or such (e.g. with older focusing setup).
So, instead, I want to use the NUC always for imaging. They are great as they can be powered by 12V, i.e. don't need any converter or such.
At home, I usually used the wireless network card of the NUC to connect with them, which of course meant that I would need a different setup in the field (IP address!)
I did a little bit of research and found out that Ethernet is a little less power hungry then WiFi anyway. So, in the field I will use Ethernet to connect the scope and the laptop for remoting into the NUC. In order to use Ethernet at home too, I did the following trick: use one of our Google Wifi devices on the scope. I connect the NUC to the Google Wifi device and now I can connect from my laptop from inside via Wifi.
Finally, I use reserved (static) IP addresses for my laptop and the NUC, so that I can use the same IP addresses at home or in the field.
To power both of my scopes, I bought a small Ethernet switch which had only 2W input power (with 12V, that's less then 0.2A!!!) At home, I plug the Google Wifi into the switch, in the field I plug my laptop into the switch. No IP address changes or anything!!!
And with all this, most cables and components are now on the scope and won't change. Which makes the whole setup WAY less cluttered!!!
So, instead, I want to use the NUC always for imaging. They are great as they can be powered by 12V, i.e. don't need any converter or such.
At home, I usually used the wireless network card of the NUC to connect with them, which of course meant that I would need a different setup in the field (IP address!)
I did a little bit of research and found out that Ethernet is a little less power hungry then WiFi anyway. So, in the field I will use Ethernet to connect the scope and the laptop for remoting into the NUC. In order to use Ethernet at home too, I did the following trick: use one of our Google Wifi devices on the scope. I connect the NUC to the Google Wifi device and now I can connect from my laptop from inside via Wifi.
Finally, I use reserved (static) IP addresses for my laptop and the NUC, so that I can use the same IP addresses at home or in the field.
To power both of my scopes, I bought a small Ethernet switch which had only 2W input power (with 12V, that's less then 0.2A!!!) At home, I plug the Google Wifi into the switch, in the field I plug my laptop into the switch. No IP address changes or anything!!!
And with all this, most cables and components are now on the scope and won't change. Which makes the whole setup WAY less cluttered!!!
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