Improving Sensor Resolution with Differential ADCs on AVR® MCUs | Videos
Improving Sensor Resolution with Differential ADCs on AVR® MCUs
See how to improve sensor resolution using differential ADCs. Tools used here include the AVR-DA MCU Curiosity Nano development kit in addition to START and Studio. See links to resources, code examples, and reference literature are linked below:
Code Examples:
All GitHub AVR-DA examples: https://github.com/microchip-pic-avr-examples?q=avr+da+adc&type=&language=
All Atmel START examples: https://start.atmel.com/#examples/AVR128DA48CuriosityNano
Hardware:
AVR-DA MCU Family - https://mchp.us/38IY9bH
AVR128DA28 - https://mchp.us/3iMhyx9
AVR-DA CNano – https://mchp.us/2CheF6X
Software:
Atmel Studio 7 - https://mchp.us/2ZsRShp
Further Reading:
Whitepaper: Differential and Single-Ended ADC – http://ww1.microchip.com/downloads/en/DeviceDoc/Differential-and-Single-Ended-ADC-WhitePaper-DS00003197A.pdf
ADC and ADCC advanced features: https://mchp.us/3iW7dPs
https://www.microchip.com/design-centers/8-bit
To view this video, please click manage cookies below and accept functional cookies.
{"SalesForceSecurePath":"https://microchip.my.salesforce-scrt.com","EmbeddedServiceName":"Messaging_For_Microchip","SalesForcePath":"https://microchip.my.site.com/ESWMessagingForMicrochi1755319480924","AgentAvailableHeader":"No problem. Chat with our engineering experts or schedule a call that's convenient for you.","ScheduleCallUrl":"https://microchip.my.site.com/schedulemeetingportal/s/","SalesforceOrgId":"00Do0000000KAkK","JsUrl":"https://microchip.my.site.com/ESWMessagingForMicrochi1755319480924/assets/js/bootstrap.min.js"}
