SLAAED3A October   2023  – May 2024 TAA5212 , TAA5242 , TAC5111 , TAC5112 , TAC5142 , TAC5211 , TAC5212 , TAC5242

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction
  5. 2Analog Input Configuration
    1. 2.1 Differential AC Coupled Configuration
    2. 2.2 Single Ended AC Coupled Configuration
    3. 2.3 Differential DC Coupled Configuration
    4. 2.4 Single Ended DC Coupled Configuration
    5. 2.5 Analog Input Mux Configuration
  6. 3Power Tune Mode and Analog Mixing Feature
    1. 3.1 Differential AC Coupled Power Tune Mode
    2. 3.2 Analog Mixing
  7. 4Summary
  8. 5References
  9. 6Revision History

2.5 Analog Input Mux Configuration

Analog mux input allows input selection either from IN1P or IN1M into the ADC path. The device needs to be configured in its respective mux setting in register B0_P0_R80 (0x50) ADC_CH1_INSRC. In this configuration, either IN1P or IN1M be the input to the ADC signal chain, they are independent source. In this example, IN1P is a 1KHz tone at -1dBrG and IN1M is a 1250Hz tone at -1dBrG; 0dBrG = 1Vrms Single-Ended Fullscale.

IN1P Mux Input Register SettingFigure 2-17 IN1P Mux Input Register Setting
IN1M Mux Input Register SettingFigure 2-18 IN1M Mux Input Register Setting
IN1P and IN1M Mux Input at -1dBrG (0 dBrG = 1Vrms)Figure 2-19 IN1P and IN1M Mux Input at -1dBrG (0 dBrG = 1Vrms)

The output of the respective setting shows the desired signal and the suppression of the other input signal.

Output with IN1P Mux Input ConfiguredFigure 2-20 Output with IN1P Mux Input Configured
Output with IN1M Mux Input ConfiguredFigure 2-21 Output with IN1M Mux Input Configured