TY - GEN AB - Implement Arduino-based designs in your project, and build, debug, and extend it using a solid engineering approach. This second edition is expanded to provide a better understanding of the engineering process and what it means to be an end-to-end developer. You'll start out by reviewing basic engineering procedures, from the fundamental requirements and preliminary design to prototyping and testing. You'll then apply those principles to single devices like LCDs, potentiometers and GPS modules, and move on to the integration of several modules into a larger project, a sub-autonomous robot. This robot will include devices such as GPS, Bluetooth, an OLED screen, an accelerometer, humidity and temp sensor, motor drivers, and ultrasonic sensor. This version goes on to cover how to create 3D models with Fusion360, make your own PCBs using Eagle, and use and maintain a 3D printer. Each and every chapter exemplifies this process and demonstrates how you can profit from the implementation of solid engineering principles--regardless of whether you just play in your basement or you want to publicize and sell your devices. With Practical Adruino Engineering you'll be able to review and improve this process, and even extend its scope. AU - Timmis, Harold. CN - TJ223.P76 DO - 10.1007/978-1-4842-6852-0 DO - doi ET - 2nd ed. ID - 1437181 KW - Arduino (Programmable controller) KW - Electronics KW - Prototypes, Engineering. KW - Open source software. KW - Arduino (Automate programmable) KW - Électronique KW - Prototypes. KW - Logiciels libres. LK - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-1-4842-6852-0 N1 - PCB Bill of Materials (BOM). N2 - Implement Arduino-based designs in your project, and build, debug, and extend it using a solid engineering approach. This second edition is expanded to provide a better understanding of the engineering process and what it means to be an end-to-end developer. You'll start out by reviewing basic engineering procedures, from the fundamental requirements and preliminary design to prototyping and testing. You'll then apply those principles to single devices like LCDs, potentiometers and GPS modules, and move on to the integration of several modules into a larger project, a sub-autonomous robot. This robot will include devices such as GPS, Bluetooth, an OLED screen, an accelerometer, humidity and temp sensor, motor drivers, and ultrasonic sensor. This version goes on to cover how to create 3D models with Fusion360, make your own PCBs using Eagle, and use and maintain a 3D printer. Each and every chapter exemplifies this process and demonstrates how you can profit from the implementation of solid engineering principles--regardless of whether you just play in your basement or you want to publicize and sell your devices. With Practical Adruino Engineering you'll be able to review and improve this process, and even extend its scope. SN - 9781484268520 SN - 1484268520 SN - 1484268512 SN - 9781484268513 SN - 9781484268537 SN - 1484268539 T1 - Practical Arduino engineering :end to end development with the Arduino, Fusion 360, 3D printing, and Eagle / TI - Practical Arduino engineering :end to end development with the Arduino, Fusion 360, 3D printing, and Eagle / UR - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-1-4842-6852-0 ER -