overklock
Well-Known Member
- Joined
- Apr 13, 2015
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I'm sure this has been discussed ad-nauseum, but hear me out.
Looking at my OR simulations, my optimal delay is 7.8 seconds, I have a 12 second CTI motor, and a delay drilling tool that goes in increments of -2. It's either a delay of 7 seconds, or 9.
So, what do you folks prefer? Early deployment to account for weather cocking and other variables? Or a slightly late deployment, or as I've heard others call it here "redneck dual deployment".
Is it better to have the rocket in a vertical state while deploying (still ascending)? Or horizontal (past apogee)?
Update, I designed a 3D printable 1 second delay spacer for use with the ProDAT, feel free to use.
https://www.printables.com/model/344900-cti-1-second-delay-spacer-tool
Looking at my OR simulations, my optimal delay is 7.8 seconds, I have a 12 second CTI motor, and a delay drilling tool that goes in increments of -2. It's either a delay of 7 seconds, or 9.
So, what do you folks prefer? Early deployment to account for weather cocking and other variables? Or a slightly late deployment, or as I've heard others call it here "redneck dual deployment".
Is it better to have the rocket in a vertical state while deploying (still ascending)? Or horizontal (past apogee)?
Update, I designed a 3D printable 1 second delay spacer for use with the ProDAT, feel free to use.
https://www.printables.com/model/344900-cti-1-second-delay-spacer-tool
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