The ADS1202IPWT is a high-precision ADC, and its performance can be affected by the PCB layout and component placement. It is recommended to follow the layout guidelines provided in the datasheet, including keeping the analog and digital grounds separate, using a solid ground plane, and placing the ADC close to the analog signal sources.
To optimize the ADS1202IPWT's performance, consider the following: choose the correct gain setting, adjust the sampling rate, and optimize the analog front-end circuitry. Additionally, consider using the ADC's built-in calibration features and adjusting the internal voltage reference to suit your application.
The ADS1202IPWT's analog inputs are differential, and it is recommended to use a low-impedance, low-noise signal source. A buffer amplifier or an op-amp can be used to drive the inputs, and it is essential to ensure that the input signals are within the ADC's specified input range.
The ADS1202IPWT outputs 24-bit data, and it is essential to handle the data correctly to avoid errors. Use a suitable microcontroller or FPGA to interface with the ADC, and ensure that the data is properly aligned and formatted for your application.
The ADS1202IPWT is a high-precision ADC, and its performance can be affected by temperature. Ensure that the device is operated within its specified temperature range, and consider using thermal management techniques such as heat sinks or thermal interfaces to maintain a stable temperature.
ADS1202IPWT datasheet
by Texas Instruments
