notes:c4eng:fall2022:projects:fso2
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| notes:c4eng:fall2022:projects:fso2 [2022/11/29 19:16] – [DESCRIPTION] dfabbri | notes:c4eng:fall2022:projects:fso2 [2022/12/02 00:10] (current) – [DEMONSTRATION] cmille71 | ||
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| This circuit uses the 4 digit LED display and the clock coding feature to serve as an active counter that begins at 0 and counts up to 9999. This timer is different because I have added a button that when pressed will halt the counting at the current number. Then, when the button is pressed again, the counting will resume at the same number, until the button is pressed again the process will repeat. | This circuit uses the 4 digit LED display and the clock coding feature to serve as an active counter that begins at 0 and counts up to 9999. This timer is different because I have added a button that when pressed will halt the counting at the current number. Then, when the button is pressed again, the counting will resume at the same number, until the button is pressed again the process will repeat. | ||
| ====DEMONSTRATION==== | ====DEMONSTRATION==== | ||
| - | + | {{: | |
| - | =====PROJECT 8===== | + | =====Thrust Vector Control (TVC) Mount===== |
| ====DESCRIPTION==== | ====DESCRIPTION==== | ||
| + | In this project, I used the Adafruit Gy-521 and two Servos. These electronics were used for the goal of making sure that a model rocket is properly orientated during its flight and guaranteeing a nominal trajectory for it. | ||
| - | ====DEMONSTRATION==== | + | The GY-521 is an accelerometer/ |
| =====PROJECT 9===== | =====PROJECT 9===== | ||
notes/c4eng/fall2022/projects/fso2.1669749410.txt.gz · Last modified: 2022/11/29 19:16 by dfabbri
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