Beyond 62

Launch Date	4/9/2011
Launch Point	38.494923,-121.75044 near Davis, CA
Retrieval Date	4/10/2011
Landing Point	37.720520, -121.615260
Payload Mass	1.7 kg (~3.75lbs)
Balloon	Kaymont KCI TX1200
Balloon Lift	~3.5 kg Gross Lift
Highest Altitude	29,133m (95,581ft)
Sensors	Internal and External Temperature Sensors DS1620 Photo Resistor VT935G-B
Cameras	Canon PowerShot SD1200IS + 4Gb SD Card (photo script w/CHDK) Canon PowerShot SD880IS + 8Gb SD Card (video mode)
Batteries	(SD880IS) Canon Battery Pack NB-5L (Battery Life 36min-ish) (SD1200IS) Canon Battery Pack NB-6L (Battery Life 4h10-ish)
Camera Shots	1314 pictures (3648*2736) (1.84Gb)
Video Camera	Go Pro HD Hero + 32GB SD Card + Battery Backpack
Movie	1 in 320 * 160 px (36min)
Computer System	Parallax HomeWork Board
Communications	Byonics Micro-Trak 8000 FA + Byonics GPS4 SPOT Personal Tracker Motorola i296 + accutracking application
Parachute	6ft Parachute

The main difference with MSP-1 resides in the tracking system.

I got the technical radio operator license in order to get a HAM radio call sign. My call sign is KJ6MUD.
I was then able to use an APRS tracking system. I chose the Byonics Micro-Trak 8000 FA for its simplicity and light weight. The radio transmitter was connected to the Byonics GPS4 which does not have the 60k ft altitude limit.
Tracking the payload after the launch was very easy and accurate. It was set to send its position every minute.

Flight Path from launch to landing

MSP-2 at its highest altitude

All trackers worked very well, each showing the same data.

Flight Data

Despite being a lot heavier than MSP-1 (1kg),  MSP-2 (1.7Kg) reached an altitude of 29,133m (95,581 ft).

Landing site from Launch site: 87km (54 miles)

Flight duration: 2h10min

Average ascent rate: 343 m/min (1125ft/min)

Average descent rate: 687m/min (2254 ft/min)

Max fall rate : 206.4 km/h (128.3 mph) at 23,239.5 m (76,245 ft)

Descent rate at landing: 22.4km/h (14 mph)

Sensors

The computer system did not work as planned. The data from the external temperature sensor and photo resistor does not make any sense. It could be due to a bad mounting (no protection against the wind and the sun…).

The micro-controller had an operating temperature of -40 to +85 °C (-40 to +185 °F) but the internal temperature sensor stopped working at -20°C (-4°F). It had been thoroughly tested at low temperatures. It could be due to hardware failure (wire disconnection?).

The internal temperature sensor stopped working during the descent.

The camera sensors worked the whole time (Temperature in °C):

Battery Voltage (in mV):

This is actually quite surprising. I thought that 3600mV was the hard deck for Canon cameras. But I wrote an intervalometer  script in ubasic to disable the LCD and take pictures every 10 seconds. Disabling the LCD had a substantial impact on the battery life.

The camera battery lasted 4h20min and took 1314 pictures. The standard battery life was 260 pictures!

Pictures

The ascent:

Travis AFB

The San Francisco Bay Area from 95500 ft:

South Bay

San Francisco (You can guess the Golden Gate and the Bay Bridge)

North Bay

Sacramento Valley

Recovery

MSP-2 landed after a 2h10min flight. It landed in a wind farm, east of Livermore, CA.

Despite having the GPS coordinates, when typed into the Google maps application, it did not return the location entered but the location of the closest road, several hundred yards away. We couldn’t find it the first day, I had to come back the next day.

When it landed, the winds got so strong (40+mph), the payload got dragged about 200 yards uphill.

What is left from the balloon. It does not completely burst:

The lines are twisted all the way down and the GoPro Camera is gone:

Despite the scotch tape and the super-lock strips, most of the devices are now moving free.

Conclusion

• Tracking MSP-2 was easy and reliable. (Using APRS was definitely the way to go)
• Recovering it was hard; Next time do not rely on your mobile devices as it’s neither convenient nor precise
• Secure the critical devices better! (trackers, tracker batteries, Gopro…)
• The computer system and sensors need to be soldered all together
• You definitely need to be 2 to launch a high altitude balloon

My most sincere thanks to my friend TJ without whom I would not have been able to make it.