SLAA412B June 2009 – August 2020 LFC789D25 , LM237 , LM317 , LM317L , LM317M , LM317MQ , LM337 , LP2950 , LP2951 , LP2981 , LP2981A , LP2985 , MC79L , REG101 , REG102 , REG103 , REG104 , REG1117 , REG1117A , REG1118 , REG113 , SN105125 , TL1963A , TL317 , TL5209 , TL720M05-Q1 , TL750L , TL750M , TL750M-Q1 , TL751L , TL760M33-Q1 , TL780 , TL783 , TLE4275-Q1 , TLV1117 , TLV1117LV , TLV2217 , TLV700-Q1 , TLV70012-Q1 , TPPM0110 , TPPM0111 , TPPM0301 , TPPM0302 , TPPM0303 , TPS51100 , TPS51103 , TPS51200 , TPS61100 , TPS61107 , TPS61120 , TPS61121 , TPS61122 , TPS65020 , TPS65021 , TPS65022 , TPS650231 , TPS65023B , TPS65050 , TPS657052 , TPS65708 , TPS657095 , TPS701 , TPS70175-Q1 , TPS702 , TPS703 , TPS70345-EP , TPS704 , TPS707 , TPS70751-EP , TPS708 , TPS71 , TPS71025 , TPS712 , TPS71202-EP , TPS713 , TPS715-Q1 , TPS71501-EP , TPS715A , TPS715A-NM , TPS718 , TPS719 , TPS71H01 , TPS72 , TPS720 , TPS721 , TPS72118-EP , TPS722 , TPS723 , TPS725 , TPS726 , TPS727 , TPS728 , TPS73 , TPS730 , TPS731 , TPS73101-EP , TPS731125-EP , TPS73115-EP , TPS73118-EP , TPS73125-EP , TPS73130-EP , TPS73132-EP , TPS73133-EP , TPS73150-EP , TPS732 , TPS732-Q1 , TPS73201-EP , TPS73215-EP , TPS73216-EP , TPS73218-EP , TPS73225-EP , TPS73230-EP , TPS73233-EP , TPS73250-EP , TPS734 , TPS735 , TPS736 , TPS73601-EP , TPS73615-EP , TPS73618-EP , TPS73625-EP , TPS73630-EP , TPS73632-EP , TPS73633-EP , TPS737 , TPS737-Q1 , TPS73HD3 , TPS74 , TPS74201 , TPS74301 , TPS74401 , TPS74701 , TPS74801 , TPS74901 , TPS751 , TPS75103 , TPS75105 , TPS75125-EP , TPS752 , TPS752-Q1 , TPS75201-EP , TPS75201M-EP , TPS75215-EP , TPS75218-EP , TPS75225-EP , TPS75233-EP , TPS753 , TPS75301-EP , TPS75318-EP , TPS75325-EP , TPS75333-EP , TPS754 , TPS755 , TPS756 , TPS757 , TPS758 , TPS759 , TPS760 , TPS76201 , TPS763-Q1 , TPS766 , TPS767 , TPS767-Q1 , TPS76701-EP , TPS76715-EP , TPS76718-EP , TPS76725-EP , TPS76733-EP , TPS767D3 , TPS767D3-Q1 , TPS767D301-EP , TPS768 , TPS768-Q1 , TPS76801-EP , TPS76815-EP , TPS76818-EP , TPS76825-EP , TPS76833-EP , TPS76850-EP , TPS769 , TPS769-Q1 , TPS76901-HT , TPS770 , TPS77101-Q1 , TPS773 , TPS774 , TPS77401-EP , TPS775 , TPS775-Q1 , TPS77501-EP , TPS77515-EP , TPS77518-EP , TPS77525-EP , TPS77533-EP , TPS776 , TPS776-Q1 , TPS77601-EP , TPS77615-EP , TPS77618-EP , TPS77625-EP , TPS77633-EP , TPS777 , TPS778 , TPS779 , TPS780 , TPS781 , TPS782 , TPS786 , TPS789 , TPS790 , TPS791-Q1 , TPS79101-EP , TPS79133-EP , TPS79147-EP , TPS793-Q1 , TPS79301-EP , TPS79318-EP , TPS79333-EP , TPS793475-EP , TPS794 , TPS797 , TPS797-Q1 , TPS79718-EP , TPS79730-EP , TPS799 , TPS799-Q1 , TPS7A45 , TPS7A47 , UA723 , UA78 , UA78L , UA78M , UA78M-Q1 , UA79 , UA79M , UC1832 , UC1832-SP , UC1834 , UC1834-SP , UC1836 , UC282 , UC2832 , UC2832-EP , UC2833 , UC2834 , UC2834M , UC2835 , UC2836 , UC285 , UC382 , UC3832 , UC3833 , UC3834 , UC3836 , UC385 , UCC281 , UCC283 , UCC2837 , UCC284 , UCC381 , UCC383 , UCC384
Low dropout linear regulators (LDOs) are a simple way to regulate an output voltage that is powered from a higher voltage input. Though it is simple to operate, its self generated noise is most of the times confused with its Power Supply Rejection Ratio (PSRR). Many times the two are combined together and loosely called just “noise”. This is not correct. Noise is generated by the transistors and resistors in the LDO’s internal circuitry and by the external components. The type of noise may include thermal, flicker and shot noise. PSRR is a measure of circuit’s power supply rejection expressed as a ratio of output noise to noise at the power supply input. It provides a measure of how well a circuit rejects ripple at various frequencies injected from its input power supply. In the case of a LDO, it is a measure of the output ripple compared to the input ripple over a wide frequency range and is expressed in decibels (dB). The basic equation for PSRR is given in Equation 1:
Figure 1-1 explains how noise and PSRR are different from each other. The noise is something which may be internal and external to the LDO whereas PSRR is an internal parameter of the LDO. LDO users generally concentrate on PSRR and not on the self-generated output noise. PSRR rejects noise coming from outside of LDO but there is always noise generated inside the LDO. So an LDO with high PSRR may not be better for noise rejection. The user should always think of both parameters.