Panasonic AN80LXXRMS Series handbook
Contents
1. Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 1 V Ioyr 50 mA 2 037 2 1 2 163 V Input stability 1 REGn Vy 3 1 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGw2 Vm 3 1 V 39 V Iour 50 mA 5 20 mV Load stability REGoa Vin 3 1 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 3 1 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 3 1 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 3 1 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 1 8 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 61 69 dB Minimum input and Vorrminyt Vm 1 8 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vin 2 4 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 3 1 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vcontu Vin 3 1 V Iouyr 50 mA 0 30 V Control terminal current Icont Vin 3 1 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage2. 40 30 20 10 0 10 20 30 40 50 60 70 80 90 Temperature T C 3 435 3 385 Input voltage 9 0 V 3 335 3 285 3 235 3 185 3 135 40 30 20 10 0 10 20 30 40 50 60 70 80 90 Temperature T C E Application Circuit Example Common to AN80LXXRMS Series Ino 10 uF Output off when Low Output on when High 26 Panasonic
3. ton Vout 90 Vout 1 8V CONT OV dense Time e Output voltage temperature characteristics examples lt AN80L18RMS gt 89 1 89 Input voltage 2 8 V Input voltage 9 0 V 87 1 87 185 18S Z Iour 0 mA o 1 83 1 83 3 B ZII p 4 gt gt e a a a 81 1 81 Tour 50 mA 2 2 Jour 150 mA ooe sS S 5 17 179 gt gt 17 amp 17 6 6 15 1 75 73 1 73 7 1 71 40 30 20 10 0 10 20 30 40 50 60 70 80 90 40 30 20 10 0 10 20 30 40 50 60 70 80 90 Temperature T C Temperature T C Panasonic 25 AN80LXXRMS Series E Technical Information continued e Output voltage temperature characteristics examples continued lt AN80L20RMS gt 2 1 Input voltage 3 0 V S 2 05 zA 2 gt D 2 lour 0 mA s f een Diente lea S SIRF ease Hay eas eae Aa 3 ro Jour 150mA N Tour 50 mA a O 1 95 1 9 40 30 20 10 0 10 20 30 40 50 60 70 80 90 Temperature T C lt AN80L33RMS gt 3 435 Input voltage 4 3 V 3 385 2 a 3 335 2 lour 0 mA gt o 2 3 285 gt B 3 235 5 O 3 185 3 135 40 30 20 10 0 10 20 30 40 50 60 70 80 90 Temperature T C Output voltage Voyr V Output voltage Voyr V 2 05 Voltage Regulators Input voltage 9 0 V 1 95 19
4. V Control terminal current Icont Vin 3 9 V lout 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 60 uV Output voltage temperature dor Vin 3 9 V Iour 0 mA 90 ppm C coefficient Vor aT 30 C lt T lt 85 C Output rise time ton Vin 3 9 V lour 50 mA 012 ms Vcont 0 V gt 1 8 V Cn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 11 AN80LXXRMS Series Voltage Regulators AN80L30RMS 3 0 V E Recommended Operating Range Supply voltage 3 4 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cyy 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 0 V lour 50 mA 2 910 3 0
5. 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 5 9 V Iour 50 mA 4 753 4 9 5 047 V Input stability 1 REG Vm 5 9 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGy2 Vm 5 9 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vin 5 9 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ipgax Vin 5 9 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Inyr 50 mA Bias current without load Ipras Vin 5 9 V lour 0 mA 350 uA Bias current fluctuation with load AIgras Vm 5 9 V Iour 0 mA gt 150mA 5 mA Standby consumption current IsTB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 4 6 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 57 65 dB Minimum input and Vorriminyt Vin 4 6 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and VDiFminz2 Vm 5 0 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 5 9 V Iour 50 mA 1 50 V Control terminal thres
6. E Recommended Operating Range Parameter Supply voltage 3 7 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 43 V Iourt 50 mA 3 201 3 3 3 399 V Input stability 1 REGn Vm 4 3 V gt 14 5 V lour 50 mA 10 50 mV Input stability 2 REGmz Vm 4 3 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vm 4 3 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 4 3 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 4 3 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 4 3 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 3 0 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 59 67 dB Minimum input and Vorrminyt Vin 3 0 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vm 3 4 V Iour 150 mA 0
7. 3 5 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 2 2 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 60 68 dB Minimum input and Vorrminyt Vin 2 2 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and VDiFmin2 Vm 2 6 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 3 5 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 3 5 V Iour 50 mA 0 30 V Control terminal current Icont Vin 3 5 V lout 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 58 uV Output voltage temperature 1 dor Vw 3 5 V Iour 0 mA 90 ppm C coefficient Vor dI 30 C lt T lt 85 C Output rise time ton Vin 3 15 V Iour 50 mA 010 ms Vcont 0 V gt 1 8 V Cn 0 1 WF Cour 10 UF Vour 90 Note 1 Refer to W Technic
8. 46 uV Output voltage temperature 1 dVour Vm 3 2 V lour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 3 2 V Inyp 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 8 Panasonic Voltage Regulators AN80L25RMS 2 5 V E Recommended Operating Range Parameter Supply voltage 2 9 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 5 V lour 50 mA 2 425 2 5 2 575 V Input stability 1 REGn Vm 3 5 V gt 14 5 V Ilour 50 mA 10 50 mV Input stability 2 REGmz Vm 3 5 V gt 9 V Iour 50 mA 5 20 mV Load stability REGoa Vin 3 5 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 3 5 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 3 5 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm
9. 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 18 Panasonic Voltage Regulators AN80L48RMS 4 8 V E Recommended Operating Parameter Supply voltage Range 5 2 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 5 8 V our 50 mA 4 656 4 8 4 944 V Input stability 1 REGn Vy 5 8 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGw2 Vm 5 8 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vin 5 8 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 5 8 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 5 8 V Iour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 5 8 V Iour 0 mA gt 150mA 5 mA Standby consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 4 5 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz I
10. coefficient Vor aT 30 C lt T lt 85 C Output rise time ton Vin 4 1 V lour 50 mA 0 ms Vcont 0 V gt 1 8 V Cmn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 13 AN80LXXRMS Series Voltage Regulators AN80L32RMS 3 2 V E Recommended Operating Range Supply voltage 3 6 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cyw 0 1 WF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 2 V Tour 50 mA 3 104 3 2 3 296 V Input stability 1 REGm Vm 4 2 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGmz Vin 4 2 V gt 9 V lour 50 mA 5 20 mV Load stability REGoa Vin 4 2 V lour 0 mA gt 150mA 50 150 mV Peak output current Ippax Vin 4 2 V The output current value 180 240 mA decreases by 5 from the value when Vouris at Iour 50 mA Bias current without load Ipras Vin 4 2 V lour 0 mA 350 uA Bias current fluctuation with load Alpjas Vm 4 2 V Iour 0 mA gt 150 mA 5 mA Standby consumption current Igtp Vin 10 V Vc
11. 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 70 uV Output voltage temperature 1 dVor Vm 4 4 V lour 0 mA 90 ppm C coefficient Voll T 30 C lt T lt 85 C Output rise time ton Vin 4 4 V oyr 50 mA 0I ms Vconrt 0 V gt 1 8 V Cw 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 16 Panasonic Voltage Regulators AN80L35RMS 3 5 V E Recommended Operating Parameter Supply voltage Range 3 9 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vour Vn 45 V Iour 50 mA 3 395 3 5 3 605 Vv Input stability 1 REG Vin 4 5 V gt 14 5 V Iour 50 mA 10 50 mV Input sta
12. 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 62 70 dB Minimum input and Vorrminyt Vin 1 6 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vm 2 2 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 2 9 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vcontru Vin 2 9 V Iour 50 mA 0 30 V Control terminal current Icont Vin 2 9 V Ionut 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 40 uV Output voltage temperature 1 dVour Vin 2 9 V lour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 2 9 V lour 50 mA 010 ms Vcont 0 V gt 1 8 V Cmn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 5 AN80LXXRMS Series Voltage Regulators AN80L20RMS 2 0 V E Recommended Operating Range
13. 3 090 V Input stability 1 REGn Vy 4 0 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REG Vin 4 0 V gt 9 V Iour 50 mA 5 20 mV Load stability REG 09 4 Vm 4 0 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipeak Vin 4 0 V The output current value 180 240 E mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 4 0 V lour 0 mA N 350 uA Bias current fluctuation with load AIgras Vm 4 0 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 2 7 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 60 68 dB Minimum input and Vorrminyt Vin 2 7 V Iour 0 mA Ea 0 1 0 2 V output voltage difference 1 Minimum input and Vorrmin2 Vin 3 1 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vm 4 0 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconry Vin 4 0 V Iour 50 mA 0 30 V Control terminal current Icont Vin 4 0 V lour 50 mA 30 uA VcoNT 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protect
14. 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vm 4 3 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vcontu Vin 4 3 V Iour 50 mA 0 30 V Control terminal current Icont Vm 4 3 V lout 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 68 uV Output voltage temperature 1 dVour Vw 4 3 V Iour 0 mA 90 ppm C coefficient Vor aT 30 C lt T lt 85 C Output rise time ton Vin 4 3 V lour 50 mA 0 ms Vcont 0 V gt 1 8 V Cn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 15 AN80LXXRMS Series Voltage Regulators AN80L34RMS 3 4 V E Recommended Operating Range Supply voltage 3 8 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature incr
15. N C reference T A Z ie Panasonic 1 AN80LXXRMS Series Voltage Regulators E Output Voltage Characteristics at lour 50 mA Ta 25 C Type No Output V Conditions min typ max Unit Marking AN80L18RMS 1 8 Vin 2 8 V 1 746 1 8 1 854 V BA AN80L19RMS 1 9 2 9 1 843 1 9 1 957 BB AN80L20RMS 2 0 3 0 1 940 2 0 2 060 BC AN80L21RMS 2 1 3 1 2 037 2 1 2 163 BD AN80L22RMS 2 2 3 2 2 134 22 2 266 BE AN80L25RMS 2 5 3 5 2 452 2 5 2 575 BW AN80L28RMS 2 8 3 8 2 716 2 8 2 884 BF AN80L29RMS 2 9 3 9 2 813 2 9 2 987 BG AN80L30RMS 3 0 4 0 2 910 3 0 3 090 BH AN80L31RMS 3 1 4 1 3 007 3 1 3 193 BJ AN80L32RMS 3 2 4 2 3 104 3 2 3 296 BK AN80L33RMS 3 3 4 3 3 201 3 3 3 399 BL AN80L34RMS 3 4 4 4 3 298 3 4 3 502 BM AN80L35RMS 3 5 4 5 3 395 3 5 3 605 BN AN80L36RMS 3 6 4 6 3 492 3 6 3 708 BP AN80L48RMS 4 8 5 8 4 656 4 8 4 944 BQ AN80L49RMS 4 9 5 9 4 753 4 9 5 047 BR AN80L50RMS 5 0 6 0 4 850 5 0 5 150 BS AN80L51RMS 5 1 6 1 4 947 5 1 5 253 BT AN80L52RMS 5 2 6 2 5 044 5 2 5 356 BU H Marking example AN80L18RMS 2 Panasonic Voltage Regulators AN80LXXRMS Series Common to the AN8OLXXRMS Series E Pin Descriptions Pin No Description 1 Input voltage pin 2 Output voltage pin 3 N C pin 4 Grounding pin 5 Control pin High operation Low stop E Absolute Maximum Ratings Parameter Symbol Ratin
16. ANSOL1 og ANS8OLXXRMS Series Low drop type positive output voltage regulator IC Panasonic E Overview Unit mm The AN80LXXRMS series is 0 15 A output low drop 0 6540 15 output type positive voltage regulator IC with resetting 8 _ _0 65 0 15 function 20 classifications of output voltages 1 8 V 1 9 5 H 1 V 2 0 V 2 1 V 2 2 V 2 5 V 2 8 V 2 9 V 3 0 V 3 1 V 3 2 V 3 3 V 3 4 V 3 5 V 3 6 V 4 8 V 4 9 V 5 0 V 5 1 V and 5 2 V are available In addition it is adopting the surface mounting type package Mini 5 pin plastic package so EE J that it is most suited for miniaturization and weight re E g mM 1 45 0 1 2 9 8 65 1 940 1 0 95 fe ig ia i duction of set equipment S 0 162006 E Features z e Minimum input and output voltage difference 0 4 V 0 8 i to 0 3 lt 1 i 2 A i io max 0to0d e High precision output voltage allowance 3 e Built in reset function terminal High Active Mini type 5 pin Burrin overcurrent limiting circuit l Type name indication symbol XX e Built in circuit for limiting rush current at input voltage rising time e Output voltage 1 8 V to 5 2 V E Applications e Cellular phone PHS analog cordless phone other small sized potable equipment E Block diagram 21 ouT Current source CONT 5 Bandgap
17. Supply voltage 2 4 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 0 V Ioyr 50 mA 1 940 2 0 2 060 V Input stability 1 REGwn Vm 3 0 V gt 14 5 V lour 50 mA 10 50 mV Input stability 2 REG Vin 3 0 V gt 9 V lour 50 mA 5 20 mV Load stability REGoa Vin 3 0 V lour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vin 3 0 V The output current value 180 240 E mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 3 0 V lour 0 mA Ea 350 uA Bias current fluctuation with load AIgras Vm 3 0 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 1 7 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 62 70 dB Minimum input and Vorrminyt Vm 1 7 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrmin2 Vm 2 3 V Iour 150 mA 0 4 V output voltage difference 2 Control termina
18. V Iour 0 mA Ea 0 1 0 2 V output voltage difference 1 Minimum input and Vorrmin2 Vin 2 9 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vm 3 8 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconry Vin 3 8 V Iour 50 mA 0 30 V Control terminal current Icont Vin 3 8 V lour 50 mA 30 uA VcoNT 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 58 uV Output voltage temperature 1 dour Vm 3 8 V Iour 0 mA 90 ppm C coefficient Voll T 30 C lt T lt 85 C Output rise time ton Vin 3 8 V Ioyr 50 mA 010 ms Vconrt 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 10 Panasonic Voltage Regulators AN80L29RMS 2 9 V E Recommended Operating Parameter Supply voltage Range 3 3 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so
19. al Information Output rise time characteristics Panasonic AN80LXXRMS Series Voltage Regulators AN80L28RMS 2 8 V E Recommended Operating Range Supply voltage 3 2 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 8 V Ioyr 50 mA 2 716 2 8 2 884 V Input stability 1 REG Vm 23 8 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGm2 Vin 3 8 V gt 9 V lour 50 mA 5 20 mV Load stability REGoa Vin 3 8 V lour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vin 3 8 V The output current value 180 240 E mA decreases by 5 from the value when Voyr is at Inyp 50 mA Bias current without load Ibias Vin 3 8 V lour 0 mA Ea 350 uA Bias current fluctuation with load AIgras Vm 3 8 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 2 5 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 60 68 dB Minimum input and Vorrminyt Vin 2 5
20. bility 2 REGmz Vm 4 5 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vin 4 5 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 4 5 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 4 5 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 4 5 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 3 2 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 58 66 dB Minimum input and Vorrminyt Vin 3 2 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrminy2 Vin 3 6 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vm 4 5 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 4 5 V Iour 50 mA 0 30 V Control terminal current Icont Vm 4 5 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbo
21. consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 4 9 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 56 64 dB Minimum input and Vorrminyt Vin 4 9 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vm 5 3 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 6 2 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 6 2 V Iour 50 mA 0 30 V Control terminal current Icont Vin 6 2 V lour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 108 uV Output voltage temperature 1 dor Vin 6 2 V Iour 0 mA 90 ppm C coefficient Vor af 30 C lt T lt 85 C Output rise time ton Vin 6 2 V Iour 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cmn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time character
22. ease in the chip junction part can be neglected Cyy 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 4 V Tour 50 mA 3 298 3 4 3 502 V Input stability 1 REGm Vm 4 4V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REG Vy 4 4 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vm 4 4 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ippax Vin 4 4 V The output current value 180 240 mA decreases by 5 from the value when Vouris at Iour 50 mA Bias current without load Ipras Vin 4 4 V lour 0 mA 350 uA Bias current fluctuation with load Alpjas Vm 4 4 V Iour 0 mA gt 150 mA 5 mA Standby consumption current Igtp Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 23 1 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Ioyr 10 mA 58 66 dB Minimum input and Vorrmin Vin 3 1 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and VDiFmin2 Vm 3 5 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconry Vin 4 4 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 4 4 V Iour 50 mA 0 30 V Control terminal current Icont Vm 4 4 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1
23. g Unit Supply voltage Vec 14 6 V Supply current Icc 300 mA Power dissipation Pp 78 mW Operating ambient temperature Topr 30 to 85 C Storage temperature Tote 55 to 150 C Note 1 There may be a case of the device destruction when the output Vour and the grounding GND or the output Voyr and input Vn are short circuited 2 All items are at T 25 C except for the parameter of operating ambient temperature and storage temperature 3 Topr Power dissipation for IC alone without heat sink at 85 C Panasonic 3 AN80LXXRMS Series Voltage Regulators AN80L18RMS 1 8 V E Recommended Operating Range Supply voltage 2 2 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 2 8 V Iour 50 mA 1 746 1 8 1 854 V Input stability 1 REGwn Vm 2 8 V gt 14 5 V Ioypp 50 mA 10 50 mV Input stability 2 REGm2 Vin 2 8 V gt 9 V lour 50 mA 5 20 mV Load stability REGoa Vin 2 8 V lour O mA gt 150mA 50 150 mV Peak output current 2 Ipeak Vin 2 8 V The output current value 180 240 E mA decreases by 5 from the value when Voyr is at In
24. has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 44 uV Output voltage temperature 1 dVour Vin 3 1 V lour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 3 1 V Iouyr 50 mA 010 ms Vcont 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 7 AN80LXXRMS Series Voltage Regulators AN80L22RMS 2 2 V E Recommended Operating Range Supply voltage 2 6 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cyy 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 2 V our 50 mA 2 134 2 2 2 266 V Input stability 1 REG Vm 3 2 V gt 14 5 V Ilour 50 mA 10 50 mV Input stability 2 REGm2 Vm 3 2 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vi
25. he time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 104 uV Output voltage temperature 1 dor Vin 6 0 V Iour 0 mA 90 ppm C coefficient Vor a 30 C lt T lt 85 C Output rise time ton Vin 6 0 V Iour 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 21 AN80LXXRMS Series Voltage Regulators AN80L51RMS 5 1 V E Recommended Operating Range Supply voltage 5 5 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 6 1 V Iour 50 mA 4 947 5 1 5 253 V Input stability 1 REGm Vm 6 1 V gt 14 5 V lour 50 mA 10 50 mV Input stability 2 REGm2 Vm 6 1 V gt 9 V Iour 50 mA 5 20 mV Load stability REGoa Vm 6 1 V Iour 0 mA gt 150mA 50 150
26. hold high voltage Vconty Vm 5 9 V Iour 50 mA 0 30 V Control terminal current Icont Vin 5 9 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Igy 10 mA 102 uV Output voltage temperature 1 dour Vin 5 9 V lour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 5 9 V Ioyr 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 20 Panasonic Voltage Regulators AN80L50RMS 5 0 V E Recommended Operating Parameter Supply voltage Range 5 4 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Para
27. in 6 1 V Iour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 6 1panpa V Ioyr 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cmn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 22 Panasonic Voltage Regulators AN80L52RMS 5 2 V E Recommended Operating Parameter Supply voltage Range 5 6 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 6 2 V Inyp 50 mA 5 044 5 2 5 356 V Input stability 1 REGn Vm 6 2 V gt 14 5 V lour 50 mA 10 50 mV Input stability 2 REGw2 Vm 6 2 V 39 V Iour 50 mA 5 20 mV Load stability REGoa Vm 6 2 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipeak Vin 6 2 V The output current value 180 240 E mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 6 2 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 6 2 V Iour 0 mA gt 150 mA 5 mA Standby
28. ion e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 62 uV Output voltage temperature 1 dVor Vm 4 0 V Iour 0 mA 90 ppm C coefficient Voll T 30 C lt T lt 85 C Output rise time ton Vin 4 0 V Ioyr 50 mA 012 ms Vcont 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 12 Panasonic Voltage Regulators AN80L31RMS 3 1 V E Recommended Operating Range Parameter Supply voltage 3 5 to 14 5 E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 1 V Ioyr 50 mA 3 007 3 1 3 193 V Input stability 1 REGn Vin 4 1 V gt 14 5 V lour 50 mA 10 50 mV Input stability 2 REGmz Vm 4 1 V 39 V Iour 50 mA 5 20 mV Load stability REG oa Vm 4 1 V Iour 0 mA 7 150mA 50 150 mV Peak output current 2 Ipgak Vin 4 1 V The outpu
29. istics Panasonic 23 AN80LXXRMS Series Voltage Regulators AN80LXXRMS series Technical Information and etc E Technical Information e Po T curves of Mini type 5 pin package Common to AN80LXXRMS series nT 0 500 0 400 0 300 Standard board mounting Glass epoxy board 50 x 50 x t1 6 mm3 ng a 416 6 C W Power dissipation Pp W Independent IC 0 100 without heat sink Ringj a 833 3 C W 0 000 0 25 50 75 100 125 150 Ambient temperature T C e ESR characteristics Common to AN8OLXXRMS series Oscillation 50 4 40 30 a m y Stable 20 10 0 1 10 100 Cour HF 24 Panasonic Voltage Regulators AN80LXXRMS Series E Technical Information continued e ESR characteristics Common to AN8OLXXRMS series Test circuit CONT Load resistance 0 mA to 150 mA 1 W m n Ww OV to 14 5 V Note 1 Not guaranteed values 2 The capacitance value used for Coyr must be 0 22 uF or more and 100 uF or less The recommended value is 10 uF 3 Use a capacitor having ESR equivalent series resistance of capacitor of 35 Q or less at T 30 C to 85 C e Output rise time characteristics Common to AN80LXXRMS series
30. l Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 72 uV Output voltage temperature 1 dor Vm 4 5 V Iour 0 mA 90 ppm C coefficient Vor dI 30 C lt T lt 85 C Output rise time ton Vin 4 5 V lour 50 mA 0 ms Vcont 0 V gt 1 8 V Cn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 17 AN80LXXRMS Series Voltage Regulators AN80L36RMS 3 6 V E Recommended Operating Range Supply voltage 4 0 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 6 V Iour 50 mA 3 492 3 6 3 708 V Input stability 1 REGm Vm 4 6 V gt 14 5 V Ibour 50 mA 10 50 mV Input stability 2 REGm2 Vm 4 6 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vm 4 6 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ippax Vin 4 6 V The output current value 180 240 mA decreases by 5 from the value when Vouris at Iour 50 mA Bias current without load Ipras Vin 4 6 V I
31. l threshold high voltage Vconty Vm 3 0 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconry Vm 3 0 V Iour 50 mA 0 30 V Control terminal current Icont Vin 3 0 V lour 50 mA 30 uA VcoNT 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 42 uV Output voltage temperature 1 dVour Vm 3 0 V Iour 0 mA 90 ppm C coefficient Voll T 30 C lt T lt 85 C Output rise time ton Vin 3 0 V Ioyr 50 mA 010 ms Vconrt 0 V gt 1 8 V Cmn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 6 Panasonic Voltage Regulators AN80LXXRMS Series AN80L21RMS 2 1 V E Recommended Operating Range Supply voltage 2 5 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cyw 0 1 WF Cour 10 uF
32. mV Peak output current Ipgax Vin 6 1 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibras Vin 6 1 V Iour 0 mA 350 uA Bias current fluctuation with load AIgras Vm 6 1 V Iour 0 mA gt 150mA 5 mA Standby consumption current IsTB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 4 8 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 56 64 dB Minimum input and Vorrmin Vm 4 8 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and VDiFminz2 Vm 5 2 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 6 1 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 6 1 V Iour 50 mA 0 30 V Control terminal current Icont Vin 6 1 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 106 uV Output voltage temperature 1 dor V
33. meter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 6 0 V Iourt 50 mA 4 850 5 0 5 150 V Input stability 1 REG Vm 6 0 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGw2 Vm 6 0 V gt 9 V Iour 50 mA 5 20 mV Load stability REG oa Vm 6 0 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipeak Vin 6 0 V The output current value 180 240 E mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 6 0 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 6 0 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 4 7 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 56 64 dB Minimum input and Vorrminyt Vm 4 7 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrmin2 Vm 5 1 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 6 0 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 6 0 V Iour 50 mA 0 30 V Control terminal current Icont Vin 6 0 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at t
34. n 3 2 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vin 3 2 V The output current value 180 240 a mA decreases by 5 from the value when Voyr is at Inyp 50 mA Bias current without load Ibias Vin 3 2 V lour 0 mA Ea 350 uA Bias current fluctuation with load AIgras Vm 3 2 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 1 9 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 61 69 dB Minimum input and Vorrminyt Vin 1 9 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrmin2 Vin 2 4 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vm 3 2 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vcontu Vin 3 2 V Iour 50 mA 0 30 V Control terminal current Icont Vin 3 2 V lour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA
35. onr 0 V 0 1 uA Bias current before starting Ikus Vin 2 9 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Ioyr 10 mA 59 67 dB Minimum input and Vorrmin Vin 2 9 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and VDiFmin2 Vin 3 3 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vcontru Vin 4 2 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vm 4 2 V Iour 50 mA 0 30 V Control terminal current Icont Vm 4 2 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 66 uV Output voltage temperature 1 dour Vm 4 2 V lour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 4 2 V lour 50 mA 0122 ms Vcont 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 14 Panasonic Voltage Regulators AN80L33RMS 3 3 V
36. our 0 mA 350 uA Bias current fluctuation with load AIgras Vm 4 6 V Iour 0 mA gt 150 mA 5 mA Standby consumption current Igtp Vin 10 V Veconr 0 V 0 1 uA Bias current before starting Ikus Vm 3 3 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Ioyr 10 mA 58 66 dB Minimum input and Vorrmin Vin 3 3 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and VDiFminz2 Vm 3 7 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconry Vin 4 6 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 4 6 V Iour 50 mA 0 30 V Control terminal current Icont Vm 4 6 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 74 uV Output voltage temperature 1 dor Vin 4 6 V Iour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output rise time ton Vin 4 6 V Ioyr 50 mA 0122 ms Vcont 0 V gt 1 8 V Cwn 0 1 uF Cour
37. ouyr 10 mA 57 65 dB Minimum input and Vorrminyt Vm 4 5 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vm 4 9 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 5 8 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vm 5 8 V Iour 50 mA 0 30 V Control terminal current Icont Vm 5 8 V Iour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 100 uV Output voltage temperature 1 dour Vw 5 8 V Iour 0 mA 90 ppm C coefficient Vor aT 30 C lt T lt 85 C Output rise time ton Vin 5 8 V Iour 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics Panasonic 19 AN80LXXRMS Series Voltage Regulators AN80L49RMS 4 9 V E Recommended Operating Range Supply voltage 5 3 to 14 5 V E Electrical Characteristics at T
38. se time ton Vin 2 8 V Ioyr 50 mA 010 ms Vconrt 0 V gt 1 8 V Cwn 0 1 uF Cour 10 UF Vour 90 Note 1 Refer to W Technical Information Output rise time characteristics 4 Panasonic Voltage Regulators AN80LXXRMS Series AN80L19RMS 1 9 V E Recommended Operating Range Supply voltage 2 3 to 14 5 V E Electrical Characteristics at T 25 C Note Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted under the condition that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 uF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 2 9 V lour 50 mA 1 843 1 9 1 957 V Input stability 1 REGn Vmw 29 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGmz Vm 2 9 V gt 9 V Iour 50 mA 5 20 mV Load stability REGi oa Vin 2 9 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 2 9 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 2 9 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vin 2 9 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 1 6 V Iour 0 mA
39. t current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 4 1 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vm 4 1 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 2 8 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iour 10 mA 59 67 dB Minimum input and Vorrminyt Vin 2 8 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vm 3 2 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 4 1 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 4 1 V Iouyr 50 mA 0 30 V Control terminal current Icont Vm 4 1 V lour 50 mA 30 uA Vcont 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 64 uV Output voltage temperature 1 dor Vw 4 1 V Iour 0 mA 90 ppm C
40. that the test is conducted under the condition AN80LXXRMS Series Unit that the drift due to the temperature increase in the chip junction part can be neglected Cw 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 9 V lour 50 mA 2 813 2 9 2 987 V Input stability 1 REGn Vy 3 9 V gt 14 5 V Iour 50 mA 10 50 mV Input stability 2 REGw2 Vm 3 9 V 39 V Iour 50 mA 5 20 mV Load stability REG oa Vin 3 9 V Iour 0 mA gt 150mA 50 150 mV Peak output current n Ipgak Vin 3 9 V The output current value 180 240 mA decreases by 5 from the value when Voyr is at Iour 50 mA Bias current without load Ibias Vin 3 9 V lour 0 mA 350 uA Bias current fluctuation with load AIpgras Vin 3 9 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vm 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 2 6 V Iour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 60 68 dB Minimum input and Vorrminyt Vin 2 6 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrimin2 Vm 3 0 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 3 9 V Iour 50 mA 1 50 V Control terminal threshold high voltage Vconty Vin 3 9 V Iour 50 mA 0 30
41. yp 50 mA Bias current without load Ibias Vin 2 8 V lour 0 mA Ea 350 uA Bias current fluctuation with load AIgras Vin 2 8 V Iour 0 mA gt 150 mA 5 mA Standby consumption current IstB Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusu Vin 1 5 V lour 0 mA 1 5 5 mA regulation Ripple rejection ratio R R 1 Vims f 120 Hz Iouyr 10 mA 62 70 dB Minimum input and Vorrminyt Vm 1 5 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input and Vorrmin2 Vm 2 1 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage Vconty Vm 2 8 V Iour 50 mA 1 50 V Control terminal threshold low voltage Vconr Vin 2 8 V Iour 50 mA 0 30 V Control terminal current Icont Vm 2 8 V lour 50 mA 30 uA VcoNT 1 8 V Note 1 1 0 Q 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time of the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10Hz lt f lt 100kHz Iour 10 mA 38 uV Output voltage temperature 1 dVour Vin 2 8 V Iour 0 mA 90 ppm C coefficient Voll a 30 C lt T lt 85 C Output ri
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Panasonic AN80LXXRMS Series handbook