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# Freeform Astronomical Clock

Arduino powered Astronomical Clock in freeform, which displays the lunar phase and Local Sidereal Time(LST)

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An Arduino powered astronomical clock which displays the Local Sidereal Time(LST) and lunar phase using the date, time and location data provided by a GPS-6MV2 module.

• The structure is built using 0.8mm and 1.0mm brass wire.
• The local sidereal time (LST) is calculated using this algorithm: http://www.stargazing.net/kepler/altaz.html
• The Lunar Phase is calculated using John Conway's moon age algorithm.
• More details and the explanations of the algorithms are available in the instructions tab.

How to use this clock:

The Local Sidereal Time(LST) is defined as the time reckoned from the motion of the earth relative to the stars. It is 0h when the vernal equinox is on the observer's local meridian.

When you look at a stargazing chart you'll see 2 celestial coordinates the Right Ascension (RA) and Declination (DEC).  the RA of star X is the angular distance from the vernal equinox to X = 1h = LST. The DEC value is 0 when on the horizon and 90 when on the top. Thus if a star has a RA=3h and DEC=30 it will be on your meridian 30 degrees up from the horizon when the LST clock is 3h.

Celestial Sphere - http://www.astronomyforbeginners.com/astronomy/cel...

Coordinate Systems - https://dept.astro.lsa.umich.edu/ugactivities/Labs...

Local Side Real Clock converter - http://www.jgiesen.de/astro/astroJS/siderealClock/

How to Calculate Sidereal time - http://aa.usno.navy.mil/faq/docs/GAST.php

### Astroclock.ino

ino - 6.58 kB - 01/03/2019 at 12:36

• 1 × Arduino Nano
• 1 × GY-GPS6MV2 GPS module
• 1 × TM1637 4 digit display
• 1 × 8x8 LED Matrix
• 1 × MAX7219 LED Matrix driver

• 1
Prototyping

Note:

I didn't use sketches/drawings for the brass structure, after 3 days of trial&error I ended up with this. So in these instructions I'll provide you the wiring schematics, explain the code and tell you how I managed to solder the structure. But I can't provide dimensions, etc. since I also don't know them.

Parts:

• All the parts in the components tab
• lots of jumper cables

Here is the wiring schematic:

I always prototype first to develop the code and test it before making anything permanent.

After you're done with wiring upload the code "Astroclock.ino" provided in the files tab to Arduino and wait a bit. The GPS should lock into a satelite soon enough and you'll see the matrix and display light up.

• 2
The Algorithms

The code Astroclock.ino is commented so you'll have an idea of how the code works upon examining it. Here I will tell you which algorithms I used and implemented in the code.

John Conway's Moon Age Algorithm

John Conway is an English mathematician who came up with the method of mentally computing the day of the week for any given date. Also a method to calculate the age of the moon for any given date. The error rate for this method is a liitle larger than other longer methods but in my case it works well because I only display the 8 phases of the Moon.

I implemented the algorithm to arduino as a function called conwayMoon(year,month,day) which takes the year,month and day from the GPS as input, and returns the moon age as output. Than I used this output to draw the Moon phase on to the matrix display using this table:

Calculating Local Sidereal Time (LST)

The formula to calculate LST is:

`LST = 100.46 + 0.985647 * d + long + 15*UT`

where,

long = longtitude from GPS

UT = Universal time from GPS converted to decimal hours

This formula gives the LST in degrees.  Then it is converted in the format HH:MM.

• 3
The Structure

Tools & Parts:

• 0.8mm and 1.00mm Brass Rod or Wire
• Soldering equipment
• Pliers
• Diagonal cutting pliers

I didn't have acces to brass rods since they are not avaliable in my region. Thus I had to use brass loop wire and straighten it.

The first structure I tried was a mess and unstable because I used a larger square for the base and the bent points were visible seen here:

Later tried a smaller base which I was happy with:

Instead of soldering the 8x8 matrix to the driver directly, I soldered them using brass wires which gave this cool look:

I bent the wires estimating the dimensions by eye:

In every step I tested if the components worked correcly.

So what do you think? All kinds of feedback is welcome!

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## Discussions

Bob wrote 05/14/2019 at 22:07 point

Interesting idea and project to try. Your explanation of declination (DEC) is hard to follow. It sounds like you are confusing DEC with altitude. DEC is 0 degrees when a celestial object is on the celestial equator (not the horizon). When it is +30 degrees it lies a third of the way northward toward the north celestial pole, essentially Polaris. I’ve been looking for a good sidereal time implementation for Arduino. Thanks.

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parascubasailor wrote 02/02/2019 at 00:37 point

My quick method for straightening wire: one end held in the bench vice, the other end in a pair of pliers. Yank the pliers. Usually, the wire breaks at the end held in the vice, but the piece left dangling from the pliers is straight.. If it didn't get broken (with a thick wire for example), cut with side cutters. Easier and quicker to do than to describe...

Very nice clock, and I'm keen on making one.

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Bclark wrote 01/04/2019 at 18:07 point

This is a nice Astroclock I have just tested your cod and all work ok.

I will start to make my self one and put it on my work bench.

Thank you keep up the good work 100%.

from Brian Clark

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Jan wrote 01/04/2019 at 18:54 point

You really like building clocks, don't you? :) You should start posting your projects, even if you "just" build projects by others. It's always nice to see the personal touch other people give to their variation!

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Dan Maloney wrote 01/03/2019 at 16:08 point

Nice job! Impressively straight support wires given that you were starting with coiled wire. I really like the riser section for the lunar display. Good luck in the contest!

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Jan wrote 01/03/2019 at 16:47 point

+1

What I find even more appealing to the eye is the mix of deep orange and deep red color of the displays. I imagine there's not much more visible in a totally dark room than those two displays, I mean nothing of the circuit?

Awesome!

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Görkem wrote 01/04/2019 at 19:48 point

Yess I love the colors!

There is a blue led blinking from the GPS module. Which is annoyingly bright. I should disable it somehow..

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Jan wrote 01/04/2019 at 20:11 point

@Görkem yeah, just remove the resistor in series with the LED. It's easier to add back an SMD resistor than an LED usually...

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Görkem wrote 01/05/2019 at 07:28 point

Thanks for the tip! I'll try that.

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Görkem wrote 01/04/2019 at 19:44 point

Thank you! I found some methods that jewelry makers use to straighten the wire:

https://www.instructables.com/id/5-Minute-Wire-Straightening-Jig/