SBAA591 December   2023 REF54

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction
  5. 2Flicker Noise Measurement Method
  6. 30.1 Hz to 10 Hz Band Pass Filter Design for Reference Noise Measurement
    1. 3.1 Filter Schematic
    2. 3.2 TINA - TI simulations
    3. 3.3 Component Selection
  7. 4Measurement Setup
    1. 4.1 REF54250CDR Noise Measurement Setup
  8. 5Filter Board Design
    1. 5.1 Schematic
      1. 5.1.1 Schematics Images
    2. 5.2 Layout
    3. 5.3 Bill of Materials
  9. 6References

3.3 Component Selection

  • First Stage High Pass Filter: Noise of resistor at first stage high pass filter is critical as this noise directly couples with the reference noise. A small value resistor (50 ohms) and a bulk capacitor (32 mF) was chosen to design the first stage high pass filter to minimize the thermal noise from the resistor. A Vishay bulk metal foil resistor was chosen for first stage 0.1-Hz high-pass filter as the resistor has the best noise figure by construction. Two 100-Ω bulk metal foil resistors (0.25 W) are kept in parallel to reduce the impact of current (excess, flicker) noise as this noise can be reduced by reducing the current and increasing the volume of resistive material. Four low-leakage electrolyte capacitors are used to realize 32 mF capacitance with a stable capacitance over an entire frequency range. These bulk capacitors need a minimum of 12 hours dielectric soaking time to provide stable measurement. First stage gain resistors are metal foil resistors as these resistors are good in terms of noise performance. Eight OPA189s have been connected in parallel through 50-ohm metal film resistors to reduce the noise by sqrt (8) times.
  • Later Stages: The first stage high pass filter is followed by one Sallen-Key 0.1 Hz HPF with gain 10 and 2 stages of multi-feedback low-pass filter with over all gain 10 and 10 Hz cutoff frequency. The signal is already amplified by 1000 times, which allows relaxation in component selection for later stages. The resistance is higher and capacitance is lower in later stages as thermal noise of the resistors is suppressed by greater than or equal to 100 times. Please refer to Table 5-1 for the exact values. All the capacitors are film capacitors as the aging spec is tight and property of filter does not change over time. All the resistors are metal film in this stage as this type exhibits excellent thermal noise property. OPA189 has been used in all the stages due to the ultra-low noise and offset stability.
  • Power Stage: DC power supply E3631 is used for this measurement. This is fed to low noise LDO through an LC filter to get a stable power supply with very good PSRR measurement. This topology makes sures that there is minimum impact of supply in the measured noise of the reference.