拓迪电子-阻-容-三极管-二极管-12 6ML78L00

1/21January 2003 IOUTPUT CURRENT UP TO 100 mA IOUTPUT VOLTAGES OF 3.3; 5; 6; 8; 9; 12; 15; 18; 24V ITHERMAL OVERLOAD PROTECTION ISHORT CIRCUIT PROTECTION INO EXTERNAL COMPONENTS ARE REQUIRED IAVAILABLE IN EITHER 5% (AC) OR 10% (C) SELECTION DESCRIPTION The L78L00 series of three-terminalpositive regulators employ internal current limiting and thermalshutdown,makingthemessentially indestructible. If adequate heat-sink is provided, they can deliver up to 100 mA output current. They are intended as fixed voltage regulators in a wide range of applications including local or on-card regulation for elimination of noise and distribution problems associated with single-point regulation. In addition, they can be used with power pass elements to make high-current voltage regulators. The L78L00 series used as Zener diode/resistor combinationreplacement,offersaneffective output impedance improvement of typically two orders of magnitude, along with lower quiescent current and lower noise. L78L00 SERIES POSITIVE VOLTAGE REGULATORS SCHEMATIC DIAGRAM TO-92 SOT-89SO-8 L78L00 SERIES 2/21 ABSOLUTE MAXIMUM RATINGS (*) Our SO-8 package used for Voltage Regulators is modified internally to have pins 2, 3, 6 and 7 electrically communed to the die attach flag. This particular frame decreases the total thermal resistance of the package and increases its ability to dissipate power when an appro- priate area of copper on the printed circuit board is available for heat-sinking. The external dimensions are the same as for the standard SO-8. THERMAL DATA (*) Considering 6 cm2of copper Board heat-sink TEST CIRCUITS SymbolParameterValueUnit VI DC Input VoltageVO= 3.3 to 9 V 30 VVO= 12 to 15 V35 VO= 18 to 24 V40 IOOutput Current 100mA PtotPower Dissipation Internally Limited (*) TstgStorage Temperature Range-40 to 150C Top OperatingJunctionTemperature Range for L78L00C, L78L00AC0 to 125 C for L78L00AB-40 to 125 SymbolParameterSO-8TO-92SOT-92Unit Rthj-caseThermal Resistance Junction-caseMax2015C/W Rthj-ambThermal Resistance Junction-ambientMax 55 (*)200C/W L78L00 SERIES 3/21 CONNECTION DIAGRAM (top view) ORDERING CODES (*) Available in Tape & Reel with the suffix 13TR. (*) Available in Ammopak with the suffix -AP or in Tape & Reel with the suffix TR. TYPESO-8 (TUBE)*TO-92 (TUBE)*SOT-89 (T&R)OUTPUT VOLTAGE L78L33ACL78L33ACDL78L33ACZL78L33ACUTR3.3 V L78L33ABL78L33ABDL78L33ABZL78L33ABUTR3.3 V L78L05CL78L05CDL78L05CZ5 V L78L05ACL78L05ACDL78L05ACZL78L05ACUTR5 V L78L05ABL78L05ABDL78L05ABZL78L05ABUTR5 V L78L06CL78L06CDL78L06CZ6 V L78L06ACL78L06ACDL78L06ACZL78L06ACUTR6 V L78L06ABL78L06ABDL78L06ABZL78L06ABUTR6 V L78L08CL78L08CDL78L08CZ8 V L78L08ACL78L08ACDL78L08ACZL78L08ACUTR8 V L78L08ABL78L08ABDL78L08ABZL78L08ABUTR8 V L78L09CL78L09CDL78L09CZ9 V L78L09ACL78L09ACDL78L09ACZL78L09ACUTR9 V L78L09ABL78L09ABDL78L09ABZL78L09ABUTR9 V L78L12CL78L12CDL78L12CZ12 V L78L12ACL78L12ACDL78L12ACZL78L12ACUTR12 V L78L12ABL78L12ABDL78L12ABZL78L12ABUTR12 V L78L15CL78L15CDL78L15CZ15 V L78L15ACL78L15ACDL78L15ACZL78L15ACUTR15 V L78L15ABL78L15ABDL78L15ABZL78L15ABUTR15 V L78L18CL78L18CDL78L18CZ18 V L78L18ACL78L18ACDL78L18ACZL78L18ACUTR18 V L78L18ABL78L18ABDL78L18ABZL78L18ABUTR18 V L78L24CL78L24CDL78L24CZ24 V L78L24ACL78L24ACDL78L24ACZL78L24ACUTR24 V L78L24ABL78L24ABDL78L24ABZL78L24ABUTR24 V SOT-89SO-8 BOTTOM VIEW PIN 1 = VOUT PIN 2 = GND PIN 3 = VIN TO-92 L78L00 SERIES 4/21 ELECTRICAL CHARACTERISTICS OF L78L05 (refer to the test circuits, TJ= 0 to 125C, VI= 10V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). ELECTRICAL CHARACTERISTICS OF L78L06 (refer to the test circuits, TJ= 0 to 125C, VI= 12V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C4.655.4V VOOutput VoltageIO= 1 to 40 mAVI=7 to 20 V4.55.5V IO= 1 to 70 mAVI= 10 V4.55.5 VOLine RegulationVI= 8.5 to 20 VTJ= 25C200mV VI= 9 to 20 VTJ= 25C150 VOLoad RegulationIO= 1 to 100 mATJ= 25C60mV IO= 1 to 40 mATJ= 25C30 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 8 to 20 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C40V SVRSupply Voltage RejectionVI= 9 to 20 Vf = 120Hz IO= 40 mATJ= 25C 4049dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C5.5266.48V VOOutput VoltageIO= 1 to 40 mAVI=8.5 to 20 V5.46.6V IO= 1 to 70 mAVI= 12 V5.46.6 VOLine RegulationVI= 8.5 to 20 VTJ= 25C200mV VI= 9 to 20 VTJ= 25C150 VOLoad RegulationIO= 1 to 100 mATJ= 25C60mV IO= 1 to 40 mATJ= 25C30 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 8 to 20 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C50V SVRSupply Voltage RejectionVI= 9 to 20 Vf = 120Hz IO= 40 mATJ= 25C 3846dB VdDropout Voltage1.7V L78L00 SERIES 5/21 ELECTRICAL CHARACTERISTICS OF L78L08 (refer to the test circuits, TJ= 0 to 125C, VI= 14V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). ELECTRICAL CHARACTERISTICS OF L78L09 (refer to the test circuits, TJ= 0 to 125C, VI= 15V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C7.3688.64V VOOutput VoltageIO= 1 to 40 mAVI=10.5 to 23 V7.28.8V IO= 1 to 70 mAVI= 14 V7.28.8 VOLine RegulationVI= 10.5 to 23 VTJ= 25C200mV VI= 11 to 23 VTJ= 25C150 VOLoad RegulationIO= 1 to 100 mATJ= 25C80mV IO= 1 to 40 mATJ= 25C40 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 11 to 23 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C60V SVRSupply Voltage RejectionVI= 12 to 23 Vf = 120Hz IO= 40 mATJ= 25C 3645dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C8.2899.72V VOOutput VoltageIO= 1 to 40 mAVI=11.5 to 23 V8.19.9V IO= 1 to 70 mAVI= 15 V8.19.9 VOLine RegulationVI= 11.5 to 23 VTJ= 25C250mV VI= 12 to 23 VTJ= 25C200 VOLoad RegulationIO= 1 to 100 mATJ= 25C80mV IO= 1 to 40 mATJ= 25C40 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 12 to 23 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C70V SVRSupply Voltage RejectionVI= 12 to 23 Vf = 120Hz IO= 40 mATJ= 25C 3644dB VdDropout Voltage1.7V L78L00 SERIES 6/21 ELECTRICAL CHARACTERISTICS OF L78L12 (refer to the test circuits, TJ= 0 to 125C, VI= 19V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). ELECTRICAL CHARACTERISTICS OF L78L15 (refer to the test circuits, TJ= 0 to 125C, VI= 23V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C11.11212.9V VOOutput VoltageIO= 1 to 40 mAVI=14.5 to 27 V10.813.2V IO= 1 to 70 mAVI= 19 V10.813.2 VOLine RegulationVI= 14.5 to 27 VTJ= 25C250mV VI= 16 to 27 VTJ= 25C200 VOLoad RegulationIO= 1 to 100 mATJ= 25C100mV IO= 1 to 40 mATJ= 25C50 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 16 to 27 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C80V SVRSupply Voltage RejectionVI= 15 to 25 Vf = 120Hz IO= 40 mATJ= 25C 3642dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C13.81516.2V VOOutput VoltageIO= 1 to 40 mAVI=17.5 to 30 V13.516.5V IO= 1 to 70 mAVI= 23 V13.516.5 VOLine RegulationVI= 17.5 to 30 VTJ= 25C300mV VI= 20 to 30 VTJ= 25C250 VOLoad RegulationIO= 1 to 100 mATJ= 25C150mV IO= 1 to 40 mATJ= 25C75 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 20 to 30 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C90V SVRSupply Voltage RejectionVI= 18.5 to 28.5 V f = 120Hz IO= 40 mATJ= 25C 3339dB VdDropout Voltage1.7V L78L00 SERIES 7/21 ELECTRICAL CHARACTERISTICS OF L78L18 (refer to the test circuits, TJ= 0 to 125C, VI= 27V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). ELECTRICAL CHARACTERISTICS OF L78L24 (refer to the test circuits, TJ= 0 to 125C, VI= 33V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F unless otherwise specified). SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C16.61819.4V VOOutput VoltageIO= 1 to 40 mAVI= 22 to 33 V16.219.8V IO= 1 to 70 mAVI= 27 V16.219.8 VOLine RegulationVI= 22 to 33 VTJ= 25C320mV VI= 22 to 33 VTJ= 25C270 VOLoad RegulationIO= 1 to 100 mATJ= 25C170mV IO= 1 to 40 mATJ= 25C85 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 23 to 33 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C120V SVRSupply Voltage RejectionVI= 23 to 33 Vf = 120Hz IO= 40 mATJ= 25C 3238dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C22.12425.9V VOOutput VoltageIO= 1 to 40 mAVI= 27 to 38 V21.626.4V IO= 1 to 70 mAVI= 33 V21.626.4 VOLine RegulationVI= 27 to 38 VTJ= 25C350mV VI= 28 to 38 VTJ= 25C300 VOLoad RegulationIO= 1 to 100 mATJ= 25C200mV IO= 1 to 40 mATJ= 25C100 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.2mA VI= 28 to 38 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C200V SVRSupply Voltage RejectionVI= 29 to 35 Vf = 120Hz IO= 40 mATJ= 25C 3037dB VdDropout Voltage1.7V L78L00 SERIES 8/21 ELECTRICAL CHARACTERISTICS OF L78L33AB AND L78L33AC (refer to the test circuits, VI= 8.3V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L33AC, TJ= -40 to 125C for L78L33AB, unless otherwise specified) ELECTRICAL CHARACTERISTICS OF L78L05AB AND L78L05AC (refer to the test circuits, VI= 10V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L05AC, TJ= -40 to 125C for L78L05AB, unless otherwise specified) SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C3.1683.33.432V VOOutput VoltageIO= 1 to 40 mAVI= 5.3 to 20 V3.1353.465V IO= 1 to 70 mAVI= 8.3 V3.1353.465 VOLine RegulationVI= 5.3 to 20 VTJ= 25C150mV VI= 6.3 to 20 VTJ= 25C100 VOLoad RegulationIO= 1 to 100 mATJ= 25C60mV IO= 1 to 40 mATJ= 25C30 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 6.3 to 20 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C40V SVRSupply Voltage RejectionVI= 6.3 to 16.3 Vf = 120Hz IO= 40 mATJ= 25C 4149dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C4.855.2V VOOutput VoltageIO= 1 to 40 mAVI= 7 to 20 V4.755.25V IO= 1 to 70 mAVI= 10 V4.755.25 VOLine RegulationVI= 7 to 20 VTJ= 25C150mV VI= 8 to 20 VTJ= 25C100 VOLoad RegulationIO= 1 to 100 mATJ= 25C60mV IO= 1 to 40 mATJ= 25C30 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 8 to 20 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C40V SVRSupply Voltage RejectionVI= 8 to 18 Vf = 120Hz IO= 40 mATJ= 25C 4149dB VdDropout Voltage1.7V L78L00 SERIES 9/21 ELECTRICAL CHARACTERISTICS OF L78L06AB AND L78L06AC (refer to the test circuits, VI= 12V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L06AC, TJ= -40 to 125C for L78L06AB, unless otherwise specified) ELECTRICAL CHARACTERISTICS OF L78L08AB AND L78L08AC (refer to the test circuits, VI= 14V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L08AC, TJ= -40 to 125C for L78L08AB, unless otherwise specified) SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C5.7666.24V VOOutput VoltageIO= 1 to 40 mAVI= 8.5 to 20 V5.76.3V IO= 1 to 70 mAVI= 12 V5.76.3 VOLine RegulationVI= 8.5 to 20 VTJ= 25C150mV VI= 9 to 20 VTJ= 25C100 VOLoad RegulationIO= 1 to 100 mATJ= 25C60mV IO= 1 to 40 mATJ= 25C30 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 9 to 20 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C50V SVRSupply Voltage RejectionVI= 9 to 20 Vf = 120Hz IO= 40 mATJ= 25C 3946dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C7.6888.32V VOOutput VoltageIO= 1 to 40 mAVI= 10.5 to 23 V7.68.4V IO= 1 to 70 mAVI= 14 V7.68.4 VOLine RegulationVI= 10.5 to 23 VTJ= 25C175mV VI= 11 to 23 VTJ= 25C125 VOLoad RegulationIO= 1 to 100 mATJ= 25C80mV IO= 1 to 40 mATJ= 25C40 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 11 to 23 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C60V SVRSupply Voltage RejectionVI= 12 to 23 Vf = 120Hz IO= 40 mATJ= 25C 3745dB VdDropout Voltage1.7V L78L00 SERIES 10/21 ELECTRICAL CHARACTERISTICS OF L78L09AB AND L78L09AC (refer to the test circuits, VI= 15V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L09AC, TJ= -40 to 125C for L78L09AB, unless otherwise specified) ELECTRICAL CHARACTERISTICS OF L78L12AB AND L78L12AC (refer to the test circuits, VI= 19V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L12AC, TJ= -40 to 125C for L78L12AB, unless otherwise specified) SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C8.6499.36V VOOutput VoltageIO= 1 to 40 mAVI= 11.5 to 23 V8.559.45V IO= 1 to 70 mAVI= 15 V8.559.45 VOLine RegulationVI= 11.5 to 23 VTJ= 25C225mV VI= 12 to 23 VTJ= 25C150 VOLoad RegulationIO= 1 to 100 mATJ= 25C80mV IO= 1 to 40 mATJ= 25C40 IdQuiescent CurrentTJ= 25C6mA TJ= 125C5.5mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 12 to 23 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C70V SVRSupply Voltage RejectionVI= 12 to 23 Vf = 120Hz IO= 40 mATJ= 25C 3744dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C11.51212.5V VOOutput VoltageIO= 1 to 40 mAVI= 14.5 to 27 V11.412.6V IO= 1 to 70 mAVI= 19 V11.412.6 VOLine RegulationVI= 14.5 to 27 VTJ= 25C250mV VI= 16 to 27 VTJ= 25C200 VOLoad RegulationIO= 1 to 100 mATJ= 25C100mV IO= 1 to 40 mATJ= 25C50 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 16 to 27 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C80V SVRSupply Voltage RejectionVI= 15 to 25 Vf = 120Hz IO= 40 mATJ= 25C 3742dB VdDropout Voltage1.7V L78L00 SERIES 11/21 ELECTRICAL CHARACTERISTICS OF L78L15AB AND L78L15AC (refer to the test circuits, VI= 19V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L15AC, TJ= -40 to 125C for L78L15AB, unless otherwise specified) ELECTRICAL CHARACTERISTICS OF L78L18AB AND L78L18AC (refer to the test circuits, VI= 27V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L18AC, TJ= -40 to 125C for L78L18AB, unless otherwise specified) SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C14.41515.6V VOOutput VoltageIO= 1 to 40 mAVI= 17.5 to 30 V14.2515.75V IO= 1 to 70 mAVI= 23 V14.2515.75 VOLine RegulationVI= 17.5 to 30 VTJ= 25C300mV VI= 20 to 30 VTJ= 25C250 VOLoad RegulationIO= 1 to 100 mATJ= 25C150mV IO= 1 to 40 mATJ= 25C75 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 20 to 30 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C90V SVRSupply Voltage RejectionVI= 18.5 to 28.5 V f = 120Hz IO= 40 mATJ= 25C 3439dB VdDropout Voltage1.7V SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C17.31818.7V VOOutput VoltageIO= 1 to 40 mAVI= 22 to 33 V17.118.9V IO= 1 to 70 mAVI= 27 V17.118.9 VOLine RegulationVI= 22 to 33 VTJ= 25C320mV VI= 22 to 33 VTJ= 25C270 VOLoad RegulationIO= 1 to 100 mATJ= 25C170mV IO= 1 to 40 mATJ= 25C85 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 23 to 33 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C120V SVRSupply Voltage RejectionVI= 23 to 33 Vf = 120Hz IO= 40 mATJ= 25C 3338dB VdDropout Voltage1.7V L78L00 SERIES 12/21 ELECTRICAL CHARACTERISTICS OF L78L24AB AND L78L24AC (refer to the test circuits, VI= 27V, IO= 40 mA, CI= 0.33 F, CO= 0.1 F, TJ= 0 to 125C for L78L24AC, TJ= -40 to 125C for L78L24AB, unless otherwise specified) SymbolParameterTest ConditionsMin.Typ.Max.Unit VOOutput VoltageTJ= 25C232425V VOOutput VoltageIO= 1 to 40 mAVI= 27 to 38 V22.825.2V IO= 1 to 70 mAVI= 33 V22.825.2 VOLine RegulationVI= 27 to 38 VTJ= 25C350mV VI= 28 to 38 VTJ= 25C300 VOLoad RegulationIO= 1 to 100 mATJ= 25C200mV IO= 1 to 40 mATJ= 25C100 IdQuiescent CurrentTJ= 25C6.5mA TJ= 125C6mA IdQuiescent Current ChangeIO= 1 to 40 mA0.1mA VI= 28 to 38 V1.5 eNOutput Noise VoltageB =10Hz to 100KHzTJ= 25C200V SVRSupply Voltage RejectionVI= 23 to 33 Vf = 120Hz IO= 40 mATJ= 25C 3137dB VdDropout Voltage1.7V L78L00 SERIES 13/21 Figure 1 : L78L05/12 Output Voltage vs Ambient Temperature Figure 2 : L78L05/12/24 Load Characteristics Figure 3 : L78L05/12/24 Thermal Shutdown Figure 4 : L78L05/12 Quiescent Current vs Output Current Figure 5 : L78L05 Quiescent Current vs Input Voltage Figure 6 : L78L05/12/24 Output Characteristics L78L00 SERIES 14/21 Figure 7 : L78L05/12/24 Ripple Rejection Figure 8 : L78L05 Dropout Characteristics Figure 9 : L78L00 Series Short Circuit Output Current TYPICAL APPLICATIONS Table 10 : High Output Current Short Circuit Protected L78L00 SERIES 15/21 Figure 11 : Edit Boost Circuit Figure 12 : Current Regulator Figure 13 : Adjustable Output Regulator L78L00 SERIES 16/21 DIM. mm.inch MIN.TYPMAX.MIN.TYP.MAX. A1.351.750.0530.069 A40.010 A21.101.650.0430.065 B0.330.510.0130.020 C070.010 D4.805.000.1890.197 E3.804.000.1500.157 e1.270.050 H5.806.200.2280.244 h0.250.500.0100.020 L0.401.270.0160.050 k (max.) ddd0.10.04 SO-8 MECHANICAL DATA 0016023/C 8 L78L00 SERIES 17/21 DIM. s MIN.TYPMAX.MIN.TYP.MAX. A1.41.655.163.0 B0.440.5617.322.0 B10.360.4814.218.9 C0.350.4413.817.3 C10.350.4413.817.3 D4.44.6173.2181.1 D11.621.8363.872.0 E2.292.690.2102.4 e1.421.5755.961.8 e12.923.07115.0120.9 H3.944.25155.1167.3 L0.891.235.047.2 SOT-89 MECHANICAL D