SNAA320B November   2019  – January 2024 LM4040-N , LM4050-N , LM4128 , LM4128-Q1 , LM4132 , LM4132-Q1 , REF102 , REF1925 , REF1930 , REF1933 , REF1941 , REF20-Q1 , REF200 , REF2025 , REF2030 , REF2033 , REF2041 , REF2125 , REF2912 , REF2920 , REF2925 , REF2930 , REF2933 , REF2940 , REF3012 , REF3020 , REF3025 , REF3030 , REF3033 , REF3033-Q1 , REF31-Q1 , REF3112 , REF3120 , REF3125 , REF3130 , REF3133 , REF3140 , REF3212 , REF3212-EP , REF3220 , REF3220-EP , REF3225 , REF3225-EP , REF3230 , REF3230-EP , REF3233 , REF3240 , REF3312 , REF3318 , REF3320 , REF3325 , REF3330 , REF3333 , REF34-Q1 , REF3425 , REF3425-EP , REF3430 , REF3430-EP , REF3433 , REF3433-EP , REF3440 , REF3440-EP , REF3450 , REF35 , REF4132 , REF4132-Q1 , REF5010 , REF5020 , REF5020-EP , REF5020A-Q1 , REF5025 , REF5025-EP , REF5025-HT , REF5025A-Q1 , REF5030 , REF5030A-Q1 , REF5040 , REF5040-EP , REF5040A-Q1 , REF5045 , REF5045A-Q1 , REF5050 , REF5050-EP , REF5050A-Q1 , REF54 , REF6125 , REF6133 , REF6141 , REF6145 , REF6150 , REF6225 , REF6230 , REF6233 , REF6241 , REF6245 , REF6250 , REF70 , TL431LI , TL432LI , TLV431

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. Introduction
  5. Analog-to-Digital Converter Error
  6. Voltage Reference DC Error
    1. 3.1 Initial Accuracy and Solder Shift
    2. 3.2 Temperature Drift
    3. 3.3 Line Regulation
  7. DC Error Calculations
  8. Calibration
  9. Voltage Reference Noise Error
    1. 6.1 1/f Noise
    2. 6.2 Broadband Noise
    3. 6.3 Power Supply Rejection Ratio
    4. 6.4 Noise Example
  10. Dynamic Error (Voltage Reference Driving Capability)
  11. Low Power Applications
  12. References
  13. 10Revision History

6.3 Power Supply Rejection Ratio

Power supply rejection ratio (PSRR) is a translation factor of the input noise to the output. PSSR is defined for wide frequency range (10Hz to 10Mhz). Most series voltage references have a strong PSRR due to their inherent architecture, and this makes them an excellent choice to handle noisy power lines especially with bypass and load capacitors. PSRR can be improved by making sure the input to the voltage reference is an LDO and not a switching device. PSRR is analogous to dynamic impedance in case of shunt references as shunt voltage references do not have a PSRR as high as series voltage references. A large supply decoupling capacitor helps to improve the PSRR performance in case of noisy supply which can help with the overall high frequency noise.