Justification | Priority | Owner | Notes | Requirement Achieved? (2022/09/24) | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
ESCs shall be DSHOT capable | Firmware has a DSHOT implementation that should be tested |
| DSHOT is generally more responsive, accurate and easier to use than PWM motors, but also more expensive. | yes | |||||||
No part shall take a single person more than 30 min to replace | Testing drone is expected to crash and hard to replace parts will delay fixing |
| For example: make arms replaceable with one or two screws, don’t mount legs to arms if possible, attach connects between pdb and escs, etc. | yes | |||||||
Propellers shall be protected in case of a crash | Doing so avoids the cost and time of replacing props every time the drone crashes |
| depending on design it may not be feasible to do an entire roll cage, but for props bigger than 6” something to prevent prop strikes is ideal | soft yes: action items:
| |||||||
Aircraft shall be able to survive a drop from at least one meter in a normal landing orientation | The first point to impact the ground during a straight drop need to be able to survive the fall |
|
| Reconsider requirement bounds - “good enough” look into scotch weld, reference Conall Kingshott | |||||||
A method to harness the drone must exist | while testing, it may be unsafe or otherwise unfeasible to let the drone free-fly and it needs structurally sound points to attach tethers or joints to limit movement to certain axes |
| in a worst case scenario imagine that the drone is dropped 2 meters and is jolted to a stop by the attachment points. ideally nothing breaks | Yes, with strings. Flyaway string can attach PID action items to make phoenix compatible:
| |||||||
The airframe shall be as small as possible while being able to facilitate zp | smaller allows the drone to survive harder crashes due to less momentum while also being cheaper and easier to fix once it breaks |
| Personally Andy recommends a frame based around 6~8 inch propellers and a target auw of under 1.5kg (aim for prop size between 6” ~ 12” unless there is a signifcant reason to deviate outside of these guidelines which outweighs other concerns) | Yes If problems in future just resize body | |||||||
The frame must have a mechanism to mount ZP (or a Nucleo) securely | testing frame intends to fly with both zp2, nucleos, and zp3 |
| What will ZP3’s dimensions and mounting dimensions be? The nucleos used will probably be nucleo-f401re and nucleo-h743zi | Yes Internal mounting works well enough | |||||||
Battery must be swappable without disassembly or tools | should continuous testing happen with a set of batteries, they should be able to be swapped out as needed |
|
| Yes | |||||||
Protection must exist for critical electronics on all axis | ZP and expensive hardware needs to be protected in the case of a crash from any angle |
| perhaps put it in the middle of the frame if using a sandwich style design again | Yes | |||||||
A mounting solution should exist for an imu which reduces vibrations traveling from the frame | need to be able to mount imu securely |
| What IMU will be used for testing? | Not really We can use velcro, double sided yellow tape, rubber, any kind of vibration dampener - 2 screws for IMU, 2-4 for Nucleo, buy in bulk. Megan Spee to bring up at next mech meet M3 bolt holes for ZP Daniel Puratich | |||||||
The drone shall have a minimum 5 minute flight time | We want to fly for enough time to perform tests |
| @Sahil Kale |
...