SBAA534 March 2022 ADC128S102-SEP , ADC128S102QML-SP , ADS1278-SP , ADS1282-SP , LF411QML-SP , LM101AQML-SP , LM111QML-SP , LM119QML-SP , LM124-SP , LM124AQML-SP , LM136A-2.5QML-SP , LM139-SP , LM139AQML-SP , LM148JAN-SP , LM158QML-SP , LM185-1.2QML-SP , LM185-2.5QML-SP , LM193QML-SP , LM4050QML-SP , LM6172QML-SP , LM7171QML-SP , LMH5401-SP , LMH5485-SEP , LMH5485-SP , LMH6628QML-SP , LMH6702QML-SP , LMH6715QML-SP , LMP2012QML-SP , LMP7704-SP , OPA4277-SP , OPA4H014-SEP , OPA4H199-SEP , THS4304-SP , THS4511-SP , THS4513-SP , TL1431-DIE , TL1431-SP , TLC2201-SP , TLV1704-SEP , TLV4H290-SEP , TLV4H390-SEP
The development of an analog front-end for precision ADCs is a complex design challenge that must meet several aspects such as basic functionality, linearity, stability, SNR, and settling time.
TI’s tooling landscape enables designers to easily identify a good starting point for their design and verify each optimization iteration towards their design goals effectively.
There are many more examples, detailed explanations and design aspects discussed in the online video curriculum Precision Labs. There is also the TI E2E™ forum to provide support on any specific design or simulation step. Further, there are a wealth of application reports and reference designs on ti.com.
If needed, be sure to ask for help or support from Texas Instruments. There is a mutual interest between TI and its customers to get any development done as quickly as possible.