GitHub topics: opamp-gain-and-offset-calibration
kevontheweb/FilterForge
Component value calculator for scaling and offset amplifier circuits and lowpass filters using Texas Instrumetns application notes
Language: Rust - Size: 11 MB - Last synced at: 11 months ago - Pushed at: almost 2 years ago - Stars: 1 - Forks: 0
microchip-pic-avr-examples/avr128db48-opamp-gain-and-offset-calibration
This Atmel Studio 7 bare metal example in Gain and Offset Calibration of the Analog Signal Conditioning (OPAMP) Peripheral (AN3633) shows how to calibrate the gain and offset of the OPAMP when configured as a Programmable Gain Amplifier (PGA). The internal Digital-to-Analog converter (DAC) and Analog-to-Digital converter (ADC) are used to perform the calibration procedure. No external components are required.
Language: C - Size: 52.7 KB - Last synced at: over 2 years ago - Pushed at: about 4 years ago - Stars: 0 - Forks: 1
microchip-pic-avr-examples/avr128db48-opamp-gain-and-offset-calibration-studio-start
This Atmel START based example shows how to calibrate the gain and offset of the OPAMP when configured as a PGA. The internal DAC and ADC are used to perform the calibration procedure. No external components are required.
Language: C - Size: 90.8 KB - Last synced at: over 2 years ago - Pushed at: over 4 years ago - Stars: 0 - Forks: 0
microchip-pic-avr-examples/avr128db48-opamp-gain-and-offset-calibration-mplab
This MPLAB X bare metal example in Gain and Offset Calibration of the Analog Signal Conditioning (OPAMP) Peripheral (AN3633) shows how to calibrate the gain and offset of the OPAMP when configured as a Programmable Gain Amplifier (PGA). The internal Digital-to-Analog converter (DAC) and Analog-to-Digital converter (ADC) are used to perform the calibration procedure. No external components are required.
Language: C - Size: 21.5 KB - Last synced at: over 2 years ago - Pushed at: almost 5 years ago - Stars: 0 - Forks: 0