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In electronics, power supply rejection ratio or PSRR is a term widely used in the electronic amplifier (especially operational amplifier) or voltage regulator datasheets; used to describe the amount of noise from a power supply that a particular device can reject.

The PSRR is defined as the ratio of the change in supply voltage in the op-amp to the equivalent (differential) output voltage it produces,^[1] often expressed in decibels.^[2][3][4] An ideal op-amp would have infinite PSRR. The output voltage will depend on the feedback circuit, as is the case of regular input offset voltages. But testing is not confined to DC (zero frequency); often an operational amplifier will also have its PSRR given at various frequencies (in which case the ratio is one of RMS amplitudes of sinewaves present at a power supply compared with the output, with gain taken into account). Unwanted oscillation, including motorboating, can occur when an amplifying stage is too sensitive to signals fed via the power supply from a later power amplifier stage.

${\displaystyle PSRR(dB)=20\log _{10}\left({\Delta V_{\mathrm {supply} } \over {\Delta V_{\mathrm {out} }}}\cdot A_{v}\right){\mbox{dB}}}$

For example: an amplifier with a PSRR of 100 dB in a circuit to give 40 dB closed-loop gain would allow about 1 millivolt of power supply ripple to be superimposed on the output for every 1 volt of ripple in the supply. This is because

${\displaystyle 100-40=60\ \mathrm {dB} }$.

And since thats 60 dB of rejection, the sign is negative so:

${\displaystyle 1\ \mathrm {V} \cdot 10^{\frac {-60}{20}}=.001\ \mathrm {V} =1\ \mathrm {mV} }$

Note:

• The PSRR doesn't necessarily have the same poles as A(s), the open-loop gain of the op-amp, but generally tends to also worsen with increasing frequency (e.g. [1]).Potter or Ceramic Artist Truman Bedell from Rexton, has interests which include ceramics, best property developers in singapore developers in singapore and scrabble. Was especially enthused after visiting Alejandro de Humboldt National Park.
• For amplifiers with both positive and negative power supplies (with respect to earth, as op-amps often have), the PSRR for each supply voltage may be separately specified (sometimes written: PSRR+ and PSRR-), but normally the PSRR is tested with opposite polarity signals applied to both supply rails at the same time (otherwise the common-mode rejection ratio (CMRR) will affect the measurement of the PSRR).
• For voltage regulators the PSRR is occasionally quoted (confusingly; to refer to output voltage change ratios), but often the concept is transferred to other terms relating changes in output voltage to input: Ripple Rejection (RR) for low frequencies, Line Transient Response for high frequencies, and Line Regulation for DC.
• Sometimes k_SVR (or simply SVR) is used to denote the Power Supply Rejection Ratio (e.g. [2])

References

External links

• Operational Amplifier Power Supply Rejection Ratio (PSRR) and Supply Voltages by Analog Devices, Inc. Definition and measurement of PSRR.
• Testing an A/D's power supply rejection ratio by Rob Reeder, Senior design engineer, Analog Devices Inc., Multi-Chip Products Group, Greensboro, N.C.
• Application Note on PSRR Testing of Linear Voltage Regulators, by Florian Hämmerle (OMICRON Lab) and Steven Sandler (Picotest)