AP32270 - Resolver to Digital Conversion Using the ADC - Source code

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User18451
Level 1
Level 1
Welcome! First question asked
I am currently working on a resolver application, and I refereed to your AppNote AP32270 - Resolver to Digital Conversion Using the DSADC.
There were references to the software and API descriptions in the document. But I couldn't fine the corresponding source code in AppNote or in MyInfineon Collaboration Portal.
Can someone provide the link to download the source code refereed in the AppNote?
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3 Replies
AlexN
Employee
Employee
First reply posted Welcome!
Hi,

More information regarding this topic can be found on https://www.infineon.com/aurix-expert-training. There you can find an example for DSADC also.

You could also give a try to https://www.infineon.com/aurixdevelopmentstudio and you can import examples from https://github.com/Infineon/AURIX_code_examples. All the examples are based on the APIs that you mentioned.
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User20530
Level 3
Level 3
25 sign-ins 25 replies posted 10 sign-ins
Hello everyone,

I ran into the same problem. There are references to those files inside the AP32270: Cfg_PosIf_RdcDs.c and IfxDsadc_Rdc.h unfortunately I can not find those codes inside the latest illD, nor Aurix Development Studio nor myicp nor github.

Anyone any ideas where to look next?

Thanks for your help.
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ublixalvet
Level 1
Level 1
First reply posted Welcome!
  1. "AP32270 - Resolver to Digital Conversion Using the ADC" provides comprehensive guidance on the process of converting resolver signals into digital format using analog-to-digital converters (ADCs), offering valuable insights into this critical aspect of signal processing.
  2. This resource outlines the theoretical underpinnings and practical considerations involved in resolver-to-digital conversion, elucidating the principles behind the operation of both resolvers and ADCs.
  3. By detailing the steps required to interface resolvers with ADCs, the document facilitates the seamless integration of these components within electronic systems, ensuring accurate and reliable signal conversion.
  4. Through clear and concise explanations, AP32270 elucidates the methodologies and techniques employed in resolver-to-digital conversion, empowering engineers and developers to implement robust and efficient conversion solutions.
  5. The document covers various aspects of resolver signal conditioning, including amplification, filtering, and calibration, to optimize the performance and accuracy of the conversion process.
  6. Additionally, AP32270 addresses common challenges and pitfalls encountered in resolver-to-digital conversion nyt, offering practical strategies and best practices for overcoming these obstacles.
  7. By providing illustrative examples and case studies, the resource enhances understanding and facilitates practical application, enabling readers to effectively implement resolver-to-digital conversion in real-world scenarios.
  8. Furthermore, AP32270 offers insights into the selection and configuration of ADCs suitable for resolver signal conversion, considering factors such as resolution, sampling rate, and interface compatibility.
  9. The document emphasizes the importance of rigorous testing and validation procedures to ensure the integrity and reliability of resolver-to-digital conversion systems, mitigating potential risks and uncertainties.
  10. Through its systematic approach and attention to detail, AP32270 serves as a valuable reference for engineers, researchers, and practitioners involved in resolver-based signal processing applications.
  11. The resource reflects the latest advancements and industry standards in resolver-to-digital conversion technology, staying abreast of emerging trends and developments in the field.
  12. Overall, AP32270 - Resolver to Digital Conversion Using the ADC offers a comprehensive and authoritative guide to achieving accurate and efficient resolver signal conversion, contributing to the advancement of signal processing techniques and technologies.
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