Biological Engineering
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- Step 8. Document the system.
- Image Credits
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Step 7. Deploy and debug.
Deploy and debug the system under the targeted working environment with permanent hardware connections until everything works as expected. We leave this step of making the permanent hardware connections for you to complete if interested. In practice, the packaging of the overall system will be designed to accommodate the working environment. The completed final product will be tested extensively for durability and reliability. Step 8. Document the system. Write documentation such as system specifications, wiring diagram, and user’s manual for the end users. At this stage, an instruction and safety manual would be written, and, if necessary, the product can be sent for local certification. Now the system you developed is ready to be signed off and handed over to the end users! Image Credits Figure 1. Alciatore, D.G., and Histand, M.B. (CC By 4.0). (2012). Main components in a measurement and control system. Introduction to mechatronics and measurement systems. Fourth edition. McGraw Hill. Loading [MathJax]/jax/output/HTML-CSS/fonts/TeX/fontdata.js How can we help you? ☰ Figure 2. Alciatore, D.G., and Histand, M.B. (2013). Microcontroller architecture. Adapted from Introduction to mechatronics and measurement systems. Fourth edition. McGraw Hill. Figure 3. Qiu, G. (CC By 4.0). (2020). A diagram of a modern greenhouse system. Figure 4. Qiu, G. (CC By 4.0). (2020). The core structure of a greenhouse control system. Figure 5. Qiu, G. (CC By 4.0). (2020). The schematic of ventilation system. Figure 6. Qiu, G. (CC By 4.0). (2020). The schematic of the control panel in ventilation system. Figure 7. Qiu, G. (CC By 4.0). (2020). The nutrient and water supply system. Figure 8. Qiu, G. (CC By 4.0). (2020). The schematic of lighting system. Figure 9. Texas Instrument. (2020). Texas Instruments LM35 precision centigrade temperature sensor in LP package (a) and its pin configuration and functions (b). Retrieved from http://www.ti.com/lit/ds/symlink/lm35.pdf Figure 10. Amazon. (2020). A 5 mm common cathode RGB LED and its pinout. Retrieved from www.amazon.com/Tricolor-Diffused-Multicolor-Electronics- Components/dp/B01C3ZZT8W/ref=sr_1_36?keywords=rgb+led&qid=1574202466&sr=8-36 Figure 11. Arduino. (2020). An Arduino UNO board and some major components. Retrieved from https://store.arduino.cc/usa/arduino-uno-rev3 Figure 12. Shi, Y. (CC By 4.0). (2020). Wiring diagram for setting up the test platform. Figure 13. Sparkfun. (CC By 4.0). (2020). A breadboard: (a) front view (b) back view with the adhesive back removed to expose the bottom of the four vertical power rails on the sides (indicated with arrows) and the terminal strips in the middle Retrieved from https://learn.sparkfun.com/tutorials/how-to-use-a-breadboard/all Figure 14. Shi, Y. (CC By 4.0). (2020). The interface and anatomy of Arduino IDE. Figure 15. Shi, Y. (CC By 4.0). (2020). Select the right board and COM port in Arduino IDE. Figure 16. Shi, Y. (CC By 4.0). (2020). Program logic flowchart. Yüklə 202,98 Kb. Dostları ilə paylaş:
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