/avr128db48-getting-started-with-opamp-mplab

These MPLAB X bare metal examples in Getting Started with Analog Signal Conditioning (OPAMP) (TB3286), show how the OPAMP can be used on the AVR DB family of microcontrollers. The OPAMP peripheral features up to three internal operational amplifiers.

Primary LanguageC

MCHP

Getting Started with Analog Signal Conditioning (OPAMP)

The Analog Signal Conditioning (OPAMP) peripheral features up to three internal operational amplifiers (op amps). The op amps can be configured to a multitude of different operations using internal multiplexers and resistor laders

The main purpose of op amps is to condition the analog signals before acquisition in a microcontroller or to provide the necessary output drive in control applications

These examples show the following configurations of the OPAMP peripheral on the AVR DB family of microcontrollers:

  • Simple Op Amp: OP0 is connected directly to the pins
  • Voltage Follower: OP0 is configured as an voltage follower
  • Non-Inverting PGA: OP0 is configured as a non-inverting PGA
  • Differential Amplifier: OP0 and OP1 are combined to create a differential amplifier
  • Instrumentation Amplifier: OP0, OP1 and OP2 are combined to create an instrumentation amplifier

Related Documentation

Software Used

Hardware Used

Setup

All examples can be completed using the AVR128DB48 Curiosity Nano without any extra components

Operation

  • Connect the AVR128DB48 Curiosity Nano to a computer using a USB cable
  • Clone the repository or download the zip to get the source code
  • Open the .X projects with MPLAB
  • Press Make and Program Device to run the example

Summary

After going through these examples you should have a better understanding of how to configure the the OPAMP peripheral to achieve different modes of operation.