RP2040 + ADS1256 DAQ module with GPIOs | Summary and Q&A

TL;DR

This video explores an upgraded ADS1256 data acquisition module with added GPIO pins.

Key Insights

• 😴 User feedback is essential in the iterative design process, as seen in the module upgrade to include more GPIO pins.
• ❓ Aesthetic improvements on PCBs, like mesh patterns, can enhance both functionality and appeal.
• 😀 Practical challenges, such as connector crimping, can be overcome through problem-solving and adaptation in the face of technical difficulties.
• 👤 Robust testing procedures are crucial for validating hardware functionality, ensuring reliability for users.
• 👤 Clear labeling and numbering of pinouts significantly boost user-friendliness in electronic projects.
• 👤 Community engagement fosters innovation and development by addressing real user needs and considerations.
• 🈸 Future developments may involve more sophisticated programming and analysis functionalities which can broaden the module’s applications.

Transcript

this video is sponsored by pcbway welcome everyone in this video I'm going to show you another iteration of this ads1256 data acquisition module so when I published this project on my patreon I got a comment asking if I could add more GPI opin uh to this project so I did it and uh the reason why I got this uh question uh is the following so this is... Read More

Questions & Answers

Q: What prompted the upgrade of the ADS1256 module to include more GPIO pins?

The upgrade was driven by feedback received from the community on Patreon, where users expressed a need for additional GPIO functionality beyond the original module's design, which only focused on USB compatibility and the eight input channels of the ADC.

Q: What major design changes were made to the new PCB version?

The new PCB includes additional GPIO pin connectors and a more visually appealing mesh pattern for the ground plane. It also features clearly numbered pins to facilitate user navigation and maintain a compact enclosure consistent with the previous design.

Q: How did the creator handle the challenges of wiring the new connectors?

Initially, the creator attempted to crimp wires into the tiny JST connectors but faced compatibility issues with the crimping tool. Instead, they opted to solder some wires temporarily while ordering pre-crimped cables for easier future connections, demonstrating resourcefulness in dealing with technical difficulties.

Q: What testing procedures were employed to ensure the new module functions as expected?

After assembling the module, the creator uploaded Arduino code to control GPIO pins and connected LEDs to test their functionality. Each tested pin successfully blinked an LED, confirming that both the digital I/O and ADC readings were operational and accurate.

Q: Did the creator encounter any issues during the assembly and testing process?

Yes, the creator faced difficulties with crimping connectors due to tool compatibility, which led to improvisation in wiring. However, after troubleshooting, they were able to get the necessary cables and successfully test the functions of the GPIO pins.

Q: What features make the updated module more user-friendly than the previous version?

The new module features clearly labeled GPIO pin numbers, enhanced accessibility through JST connectors, and a visually improved design. These adjustments make it easier for users to connect components and understand the layout, thus increasing its usability for a wider audience.

Q: What are the future plans for this project beyond its current iteration?

While the creator considers the current design to be the final version of the hardware, they plan to enhance the software side of the project with advanced programming features and data analysis tools, expanding its potential functionality.

Q: How can viewers support the creator and access their projects?

Viewers can support the creator through Patreon or PayPal, enabling them to fund new projects. Additionally, the creator invites interested individuals to visit their website or the PCBWay project site for more information and updates on current or future projects.

Summary & Key Takeaways

• The video presents an upgraded version of an ADS1256 data acquisition module, responding to requests for additional GPIO pins to accommodate varying user needs.

• The new PCB design features an array of connectors and aesthetic enhancements, with a focus on integrating GPIO access while retaining the original enclosure design.

• The assembly process is detailed, showcasing both the challenges faced with crimping connectors and the eventual successful LED tests, confirming the functionality of the GPIO pins.