Quick update on Jujubee. The new scheduled launch date is August the 26th, a Saturday. This will take place in Price, Maryland, with the Maryland Delaware Rocketry Association (www.mdra.org). I’m going to try hard to have this rocket ready for a low-power test run in the next week or two, possibly even the SoJARS launch next Saturday.
I’ve decided that launching on the small H is probably too unsafe to start with, and on such a small field the chances of losing it are just too high. Even on a G motor, RockSim is currently predicting a mile-high flight, so I’ll probably start with an F40 or something (sim is estimating about 3,000 feet — still pretty darned high for such a tiny rocket and a small field). It’s really going to be good to have a radio transceiver onboard the rocket, hopefully that’ll help me find it again. (I’m hoping I can make the ground station antenna directional by, say, recessing it inside a coffee can. Got a better idea? Let me know.)
The altimeter bay is almost done. I need to re-cut the 29mm phenolic tube to have squarer ends, machine some parts to double as electric match mount points and shock cord mount points, and install some nuts, and I think the bay is done. The couplers were machined out of PVC and look (and work) great. I love PVC, btw, it’s so great to machine. I’m really happy with this altimeter bay design. I’d like to write an article about Jujubee after the (successful) launch, possibly to submit to a magazine. At that time I will provide pictures and some more explanation.
Ordered a Magnalite kit. I think I’m gonna make my own igniters using the steel wool bridge I’ve had such good luck with. (The idea is to use an extremely short length of steel wool. The resistance is really low so it pulls tons of current, but it heats up so fast that it pops instantly. I’ve had good luck using a suitably-beefy capacitor to give it some oomph, usually when fed from a 12v N-cell battery.) Dipping this in Magnalite should provide a decent way for my custom ignition circuit to fire up the rocket engine upon exiting the cannon barrel.
The last major hurdles remaining are almost all related to electronics. I need to build and mount a circuit on the rocket to detect cannon launch and ignite the rocket engine, and I need to build a control box that will send the authorization code to the rocket to enable the ignition circuit. (Safety first, kids.) It should also help me locate the rocket after it’s come back to earth. The circuit that resides inside the rocket is to contain one N-cell (it’s got to be light since it’s behind the CG!), a beefy capacitor, an accelerometer to detect launch, a radio to talk to the control box, a power MOSFET to ignite the rocket engine, and an AVR microcontroller to tie it all together and work the magic. Oh man, this is gonna be so cool.
