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Shimming_Coil

1D shimming coil design and optimisation algorithm

Highlights: In the project, our primary goal was not to develop a practical compensation system but to explore the mathematical methods, electronic and digital technologies required for future customized systems in our measurement installations. Along this path, we have made significant progress:

➢Proposed a shimming coil architecture using a planar spiral coil system.

➢Tested Python algorithms for numerical optimization of functionals with a large number of variables.

➢Explored the Python symbolic calculus library SymPy, enabling complex calculations like derivatives.

➢Developed and tested a low-cost multi-channel PWM driver circuit with a current booster, facilitating the powering of numerous individual coils.

➢ Presented a scheme for testing electronic drivers using the Arduino microcontroller.

➢ Tested a USB-to-I2C adapter, allowing direct computer control of multi-channel PWM drivers without the need for microcontrollers.

➢ Demonstrated effective heat management of electronic devices using voltage regulators and transistors.

➢ Identified potential manufacturing technologies for planar spiral coils.

➢ Successfully manufactured a working prototype of a four-channel electronic driver.

For more details, please read the pdf report: 'Design and optimisation of 1D shimming coils'. The purpose of each project folder can be found in the report appendix. You will have to tinker a little to install the Python libraries for MCP2221 and PCA9685. In the report we provide relevant links to the Adafruit website.