9° Jonathan Jet Meeting

Last Sunday I went with a couple of friends to “9° Jonathan Jet Meeting” near Orvieto. It ‘was a beautiful day, with many of the most beautiful models in Europe. Here are some photos…

If you want to use a photo, write me a message first. Thanks

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PongSat build log: Bill of materials

Select the components has not been easy. They had to be small, cheap, reliable, get along with each other, consume very little power and in some cases handle temperatures down to ‑60°C!

IMG_20140629_094042

I have revised the list several times, trying to include what I had in the lab and I can say for this first version to be satisfied. I wanted also to include a camera (optical sensor), but because of the little space and limited computing power this was not possible. I’m planning a new mission with two PongSat able to talk to each other, one of which is dedicated to taking pictures.

The power supply side, as often happens, is the one that gave me the most trouble. I decided to include the GPS not being able to go without the position (and altitude) and I had to accept a total consumption of about 70mAh. With these absorptions I couldn’t use most of the small lithium batteries.

Role Make Model Cost Volts Remarks
MCU Sparkfun Arduino Pro Mini 328 3.3V 8Mhz €7.48 3.5‑12V I wanted to use an ATMega328P on a PCB, but during the final assembly there was not enough space
GPS HobbyKing NEO-6M Module €13.88 3.3‑?V Serial, ublox NEO6M
IMU Sparkfun 9 DoF IMU €22.22 2.4‑3.6V I2C, STMicroelectronics LSM9DS0
Storage Sparkfun Breakout Board for microSD €7.37 3.3V SPI, Sandisk premier 2GB microsd card
Thermocouple Adafruit Analog Output K-Type Thermocouple Amplifier – AD8495 Breakout €8.80 3‑18V
LED Adafruit RGB Smart NeoPixel €1.47 5‑9V Works dimmed on 3.3V
Battery HobbyKing Turnigy 260mah 1S 35-70C €2.18 4.2‑3V
Heater 3 resistors 220 Ohms €0.10 1/4W

For a grand total of €61.62.

Project objectives and constraints | Index

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PongSat build log: Project objectives and constraints

IMG_20140817_171658For my first PongSat I would like to set some simple goals, because I feel that even the simple goal of sending an Arduino in the space is not so simple 🙂 Ok, let’s start.

Objectives

  1. Gaining entry to the program and a seat for a launch within 6 months* accomplished
  2. Have a seat on the main deck (not in the bag) accomplished
  3. Do not spend more than EUR 100 (US$ 135) for the device accomplished
  4. Involve Federico at least in 50% of tasks failed
  5. Take the launch planned (27 Sep 14)* accomplished
  6. Getting the data collected and stored by the device*
  7. Determine the location (including elevation) of the device at least every 5 seconds*
  8. Measure the outside temperature at least every 5 seconds*
  9. Detect accelerations on the 3 axes at least 10hz
  10. Detect rotations (roll, pitch and yaw) in degrees/second at least 10hz
  11. Detect the magnetic field on the 3 axes at least 1hz
  12. Ensuring an environment compatible with the components*
  13. Show data and mission in a blog
  14. Produce a reusable device (save at least 75% of its cost)

* The mission will be considered accomplished if we achieve these objectives.

Constraints

  1. Do not spend more than EUR 150 (US$ 205) all inclusive complied with
  2. Use only COTS components complied with
  3. The battery should last at least 4 hours violated The battery lasts 4 hours with the heating off, with the heating on at maximum power lasts for 2.5 hours.

Index | Bill of materials

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PongSat powered by Arduino – Build log

As it happens, almost by accident, while trying to understand what a CubeSat was, I found a free and fantastic program called PongSat.

A PongSat is a ping pong ball (standard 40mm diameter) that contains a scientific experiment. These balls are grouped in hundreds and sent free of charge by JP Aerospace to the edge of the space (up in the stratosphere at an altitude of approximately 35km) via a weather balloon with a special service structure (supports, tools, cameras, tracking systems).

At the end of the mission, when the structure through a parachute back to the earth, the payload is recovered and the PongSats returned to the single owners. The program organizes at least a couple of launches each year.

To me it seemed like a great thing, truly a gift: someone who gives you the chance to experiment the space for free! I immediately thought that I could organize an Arduino with my son Federico (just turned 14 years).

But what will never be able to enter into a ping pong ball? It is small! Well ‘not really, just think that the volume is 33.51 cm3.

I’ll tell you, episode by episode, the story of our first PongSat, which was launched on 26 October 2014 (Originally scheduled for 27 September 2014).

 Current mission status: Waiting for the Pongsat’s return 

  • Project objectives and constraints
  • Bill of materials
  • Choose the MCU
  • Integrating GPS
  • Integrating the IMU
  • Record the data
  • Measure the outside temperature
  • Measure the pressure
  • Debugging and signals
  • Powerup everything
  • Keep the inside components warm
  • Turning on and off
  • Final assembly
  • How to extract data
  • Ground test: Temperatures
  • Ground test: Battery Life
  • Packing and shipping
  • Follow the mission
  • Recovery
  • Data Extraction
  • Data Presentation

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