![battery eeprom works 3.27 battery eeprom works 3.27](https://www.researchgate.net/profile/Shiyoung-Lee/publication/35999169/figure/fig10/AS:569633564524552@1512822633594/Comparison-of-the-measured-input-current-harmonics-from-Figure-327-with-modified-Class-D_Q320.jpg)
Implementation of a medical device in the mainstream market is usually based on a doctor’s acceptance and faith in the new technology. Additionally, patients usually hear about breakthrough technology through their physicians. This method would be more effective than targeting the parents of the newborns directly as hospitals need to be equipped with the technology before patients can even use the new device. Thus, the device should be targeted towards both early-term and pre-term newborns by selling the device to pediatricians in top-tier children’s hospitals in United States.
#BATTERY EEPROM WORKS 3.27 CODE#
The code for the first, most basic part of this lab can be seen below: Similarly, the servo can be moved to any position within this range by selecting the appropriate pulse width between 1 to 2 ms. Although numbers vary slightly depending on the Arduino, a pulse width of 1 ms corresponds to a position of 0 degrees, a pulse width of 1.5 ms corresponds to 90 degrees, and a pulse width of 2 ms corresponds to a position of 180 degrees. Basically the duration of the pulse determines the position that the servo moves to. The servo is controlled by sending a pulse to the device at least every 20 ms, so the servo is not moved out of position. Part B: Mechatronics- build a rotational positioning device After plugging in the Arduino back into to the computer, the correct values were read from the EEPROM, proving that that the Arduino correctly stored the values in its non-volatile memory. After the numbers were stored using EEPROM, the Arduino was powered down by unplugging the Arduino from the USB. For instance the value "45" was stored in byte "45" in the non-volatile memory of the Arduino.
![battery eeprom works 3.27 battery eeprom works 3.27](https://aws1.discourse-cdn.com/arduino/optimized/4X/0/2/0/020d2593ec2ada8ff5377abd4f0be6ad819440c1_2_690x393.jpeg)
Each value corresponded to the byte where the specific value was stored. Basically, for the purpose of this lab, a value was stored for each byte less than or equal to 512.