Panasonic AN80LxxRMS Series handbook
Contents
1. 2 Peak output current The output current when the output voltage has been decreased by 5 from the value at the time when 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 10 Hz lt f lt 100 kHz Iour 10 mA 108 uV Output voltage tempera 1 dVour Vin 6 2 V Iour 0 mA 90 ppm C ture coefficient Vout dT 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 Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 23 AN80LxxRMS Series El Application Notes 1 Pp T curves of MINI 5D package 0 500 Panasonic PT a 0 400 0 300 Mounted on standard board ass epoxy 50 mm x 50 mm x t1 6 mm j a 416 6 C W Power dissipation Pp W 0 200 0 150 0 100 __ Independent IC without a heat sink Ring a 833 3 C W 0 000 0 25 50 75 100 125 150 Ambient temperature T C 2 ESR characteristics Oscillation 50 40 S 30 5 Y m 20 Stable 10 0 1 1 10 100 Cour HF e Test circuit ESR resistance 0 mA to CONT 150mA Cour 0V to 14 5 V Note2. Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 21 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L51RMS 5 1 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 6 1 V loyr 50 mA 4 947 5 1 5 253 V Line regulation 1 REG Vin 6 1 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 6 1 V gt 9 V Iour 50 mA 5 20 mV Load regulation REGi oa Vin 6 1 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 6 1 V The output current value 180 240 mA when Voyr decreases by 5 from its value at Ioyr 50 mA Bias current under no load Iaras Vin 6 1 V Ioyr 0mA 350 uA Bias current fluctuation to load Algras Vm 6 1 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 4 8 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 56 64 dB Minimum input Vpirmint Vin 4 8 V loyr 0 mA 0 1 0 2 V output voltage difference 1 Minimum
3. Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 2 V loyr 50 mA 2 134 2 2 2 266 V Line regulation 1 REGy Vin 3 2 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REGm2 Vin 3 2 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 3 2 V lour 0 mA gt 150 mA 50 150 mV Peak output current Ipeak Vm 3 2 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 3 2 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 3 2 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 1 9 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 61 69 dB Minimum input Vpirmint Vin 1 9 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigminz Vin 2 4 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 3 2 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 3 2 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 3 2 V Iour 50 mA 30 LA Vconr 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
4. 30 uA Vconr 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 100 uV Output voltage tempera 1 dVour Vm 5 8 V Iour 0 mA 90 ppm C ture coefficient Vout dT 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 Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 19 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L49RMS 4 9 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 5 9 V loyr 50 mA 4 753 4 9 5 047 V Line regulation 1 REG Vin 5 9 V gt 14 5 V loyr 50mA 10 50 mV Line regul
5. 0 mA 350 uA Bias current fluctuation to load Algras Vm 4 5 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vin 3 2 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 58 66 dB Minimum input Vpirmint Vin 3 2 V loyr 9 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigminz Vin 3 6 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 5 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 5 V Iour 50 mA 0 30 V Control terminal current Tcont Vm 4 5 V Iour 50 mA 30 uA Vconr 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 72 uV Output voltage tempera 1 dVour Vm 4 5 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 4 5 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V
6. 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 60 68 dB Minimum input Vpirmint Vin 2 5 V Iour 9 mA 0 1 0 2 V output voltage difference 1 Minimum input Voir mim2 Vin 2 9 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 3 8 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 3 8 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 3 8 V Iour 50 mA 30 LA Vconr 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 58 uV Output voltage tempera 1 dVour Vin 3 8 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 3 8 V Iour 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 10 SFF00008AEB Panasonic AN80LxxRMS Series E Electrical Characteristics at T 25 C c
7. C Storage temperature Tote 55 to 150 C Note 1 There may be a case of the device destruction when the output Voyr and the grounding GND or the output Voyr and input Vin are short circuited 2 Except for the operating ambient temperature and storage temperature all ratings are for T 25 C 3 T opr Power dissipation for IC alone without heat sink at 85 C E Recommended Operating Conditions Part No Output voltage Operating supply voltage range Vcc Unit AN80L18RMS 1 8 2 2 to 14 5 V ANSOLI9RMS 1 9 2 3 to 14 5 V AN80L20RMS 2 0 2 4 to 14 5 V AN80L21RMS 2 1 2 5 to 14 5 V AN80L22RMS 2 2 2 6 to 14 5 V AN80L25RMS 2 5 2 9 to 14 5 V AN80L28RMS 2 8 3 2 to 14 5 V AN80L29RMS 2 9 3 3 to 14 5 V AN80L30RMS 3 0 34to 14 5 V AN80L31RMS 3 1 3 5 to 14 5 V AN80L32RMS 3 2 3 6 to 14 5 V AN80L33RMS 3 3 3 7 to 14 5 V AN80L34RMS 3 4 3 8 to 14 5 V AN80L35RMS 3 5 3 9 to 14 5 V AN80L36RMS 3 6 4 0 to 14 5 V AN80L48RMS 4 8 5 2 to 14 5 V AN80L49RMS 4 9 5 3 to 14 5 V ANSOLSORMS 5 0 5 4 to 14 5 V AN80L51RMS 5 1 5 5 to 14 5 V AN80L52RMS 5 2 5 6 to 14 5 V SFF00008AEB 3 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C e AN80L18RMS 1 8 V type 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 c
8. C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 3 15 V loyr 50 mA 0 10 ms Vcont 0 V gt 1 8 Vy Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 9 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L28RMS 2 8 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 8 V loyr 50 mA 2 716 2 8 2 884 V Line regulation 1 REG Vin 3 8 V gt 14 5 V loyr 50mA 10 50 mV Line regulation 2 REGm2 Vin 3 8 V gt 9 V Iour 50 mA 5 20 mV Load regulation REGroa Vw 23 8 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vin 23 8 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 3 8 V Ioyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 3 8 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 2 5 V Iour
9. Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 17 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L36RMS 3 6 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 6 V loyr 50 mA 3 492 3 6 3 708 V Line regulation 1 REG Vm 4 6 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 4 6 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 6 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 4 6 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 4 6 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 4 6 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vin 3 3 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 58 66 dB Minimum input VoDIF mim 1
10. Control terminal current Tcont Vin 4 3 V Iour 50 mA 30 uA Vconr 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 68 uV Output voltage tempera 1 dVour Vm 4 3 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 4 3 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 15 AN80LxxRMS Series Panasonic E Electrical Characteristics at T 25 C continued e AN80L34RMS 3 4 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 4 V loyr 50 mA 3 298 34 3 502 V Line regulation 1 REG Vm 4 4 V gt 14 5 V loyr
11. 1 V rms f 120 Hz Iour 10 mA 59 67 dB Minimum input Vpirmint Vin 2 9 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigmin2 Vin 3 3 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 2 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 2 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 4 2 V Iour 50 mA 30 LA Vconr 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 66 uV Output voltage tempera 1 dVour Vin 4 2 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 4 2 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 14 SFF00008AEB Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L33RMS 3 3 V type AN80LxxRMS Series Unless otherwise specially provided
12. 50 mA 10 50 mV Line regulation 2 REG Vin 4 4 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 4 V loyr 0 mA gt 150 mA 50 150 mV Peak output current Ipeak Vin 4 4 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Igas Vin 4 4 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 4 4 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 3 1 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 58 66 dB Minimum input VoDIF mim 1 Vin 341 V Iour 0mA 0 1 0 2 V output voltage difference 1 Minimum input V piF min 2 Vin 233 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 4 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 4 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 4 4 V Iour 50 mA 30 LA 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 when the output current is 50 mA due to the overcurrent protection e Design reference data Note The following values are typical and no
13. input Vpigminz Vin 5 2 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 6 1 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 6 1 V Iour 50 mA 0 30 V Control terminal current Iconr Vm 6 1 V Iour 50 mA 30 uA Vconr 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 when 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 10 Hz lt f lt 100 kHz Iour 10 mA 106 uV Output voltage tempera 1 dVour Vm 6 1 V Iour 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 6 1 V Iour 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 22 SFF00008AEB Panasonic E Electrical Characteristics at Ta 25 C continued AN80L52RMS 5 2 V type AN80LxxRMS Series 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
14. mA 2 910 3 0 3 090 V Line regulation 1 REGywn Vin 4 0 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 4 0 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 0 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 4 0 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 4 0 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vm 4 0 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vin 2 7 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 60 68 dB Minimum input VoDIF mim 1 Vin S2 V Iour 0mA 0 1 0 2 V output voltage difference 1 Minimum input V piF min 2 Vin 23 1 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 0 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 0 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 4 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 the time when the output current is 50 mA due to the overcurre
15. terminal threshold low voltage VcontL Vin 3 9 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 3 9 V Iour 50 mA 30 LA Vconr 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 when 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 10 Hz lt f lt 100 kHz Iour 10 mA 60 uV Output voltage tempera 1 dVour Vin 3 9 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 3 9 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 11 AN80LxxRMS Series Panasonic E Electrical Characteristics at T 25 C continued e AN80L30RMS 3 0 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 0 V loyr 50
16. under the condition that the drift due to the temperature increase in the chip junction part can be neglected C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 5 8 V loyr 50 mA 4 656 4 8 4 944 V Line regulation 1 REGywn Vin 5 8 V gt 14 5 V loyr 50mA 10 50 mV Line regulation 2 REGm2 Vm 5 8 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vw 5 8 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vin 5 8 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Igas Vin 5 8 V Iour 0 mA 350 uA Bias current fluctuation to load Algras Vm 5 8 V Iour 0 mA gt 150 mA 5 mA Standby consumption current Iss Vin 10 V Veonr 0 V 0 1 uA Bias current before starting Ikus Vm 4 5 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 57 65 dB Minimum input Vpirmint Vin 4 5 V loyr 9 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigmin2 Vin 4 9 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VcontH Vin 5 8 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 5 8 V loyr 50 mA 0 30 V Control terminal current Tcont Vin 5 8 V loyr 50 mA
17. 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 24 SFFO0008AEB Panasonic AN80LxxRMS Series E Application Notes continued 3 Output rise time characteristics Vour CONT Time 4 Main characteristics e AN80L18RMS Vour T Vout T 89 1 89 Input voltage 2 8 V Input voltage 9 0 V 87 1 87 185 p gt gt 5 5 o gt gt o o E op Ss E kz gt gt a 177 a 17 3 3 S O 75 1 75 73 1 73 P 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 e AN80L20RMS Vout Ta Vour Ta aL on II 2 1 Input voltage 3 0 V Input voltage 9 0 V S 2 05 gt 2 05 E E 3 3 gt gt o Iour O MA o E 2 OUT SS Es a DD p aa es PS al gt ee ett VT A gt 5 pr Toyr 150 mA 50m 3 our m OUT a 5 O 195 O 195 O AT 1 9 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 Temperatu
18. EB Panasonic AN80LxxRMS Series E Electrical Characteristics at Ta 25 C continued e AN80L21RMS 2 1 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 1 V Iour 50 mA 2 037 2 1 2 163 V Line regulation 1 REG Vin 3 1 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 3 1 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 3 1 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 3 1 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 3 1 V loyr 0mA 350 uA Bias current fluctuation to load Algras Vm 3 1 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 1 8 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 61 69 dB Minimum input VoDIF mim 1 Vin 1 8 V Iour 0mA 0 1 0 2 V output voltage difference 1 Minimum input V piF min 2 Vin 2 4 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold hig
19. OU Oh ore UI Panasonic AN80LxxRMS Series Positive output low dropout voltage regulator 150 mA type E Overview Unit mm The AN80LxxRMS series is a 0 15 A low dropout ane E positive voltage regulator with reset function 20 classifi 0 95 0 95 E cations of output voltages 1 8 V 1 9 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 pack age so that it is most suited for miniaturization and weight 0 1680 reduction of set equipment 0 1 Le 0 3 9 05 1 45 0 1 pe TDT i 0 2 2 9005 gt E Features e Minimum input and output voltage difference 0 4 V OI max H er e High accuracy output voltage allowance 3 3 e Built in reset function terminal high active gt e Built in overcurrent limit circuit MINI 5D e Built in rush current prevention circuit at input volt On marking see p ge 2 age rise e Output voltage 1 8 V to 5 2 V E Applications e Cellular phone PHS analog cordless phone other small sized portable equipment E Block Diagram Current source Start Stop Bandgap reference GND Publication date August 2001 SFF00008AEB 1 AN80LxxRMS Series Panasonic El Output Voltage Characteristics a
20. V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 3 5 V Iour 0 mA 350 uA Bias current fluctuation to load Algras Vm 3 5 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 2 2 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 60 68 dB Minimum input Vpirmint Vin 2 2 V loyr 9 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpirmin2 Vin 2 6 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 3 5 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 3 5 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 3 5 V Iour 50 mA 30 uA Vconr 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 when 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 10 Hz lt f lt 100 kHz Iour 10 mA 58 uV Output voltage tempera 1 dVour Vin 3 5 V loyr 0 mA 90 ppm
21. V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 2 9 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Igas Vin 2 9 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 2 9 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 1 6 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 62 70 dB Minimum input VDrFmini Vin 1 6 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpirmin2 Vin 2 2 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 2 9 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 2 9 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 2 9 V Iour 50 mA 30 LA Vconr 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 40
22. Vin 3 3 V Iour 0mA 0 1 0 2 V output voltage difference 1 Minimum input V piF min 2 Vin 3 7 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 6 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 6 V Iour 50 mA 0 30 V Control terminal current Iconr Vin 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 74 uV Output voltage tempera 1 dVour Vin 4 6 V Iour 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 4 6 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 18 SFF00008AEB Panasonic E Electrical Characteristics at T 25 C continued e ANSOL48RMS 4 8 V type AN80LxxRMS Series Unless otherwise specially provided shorten each test time within 10 ms so that the test is conducted
23. an be neglected C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 2 8 V loyr 50 mA 1 746 1 8 1 854 V Line regulation 1 REGywn Vin 2 8 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REGm2 Vin 2 8 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 2 8 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 2 8 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 2 8 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 2 8 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 1 5 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 62 70 dB Minimum input VDiFmini Vin 1 5 V lour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigminz Vin 2 1 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 2 8 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 2 8 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 2 8 V Iour 50 mA 30 LA Vconr 1 8 V Note 1 1 0 Q 2 Peak output current Th
24. ation 2 REG Vin 5 9 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 5 9 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vm 5 9 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 95 9 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 5 9 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 4 6 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 57 65 dB Minimum input Vpirmint Vin 4 6 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Vprrminy2 Vin 5 0 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 5 9 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 5 9 V Iour 50 mA 0 30 V Control terminal current Tcont Vm 5 9 V Iour 50 mA 30 uA Vconr 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 when 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 Conditi
25. e output current when the output voltage has been decreased by 5 from the value at the time when 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 10 Hz lt f lt 100 kHz Iouyr 10 mA 38 uV Output voltage tempera 1 dVour Vin 2 8 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 2 8 V Iour 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 4 SFF00008AEB Panasonic AN80LxxRMS Series E Electrical Characteristics at Ta 25 C continued e AN80L19RMS 1 9 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 2 9 V loyr 50 mA 1 843 1 9 1 957 V Line regulation 1 REG Vin 2 9 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 2 9 V gt 9 V Iour 50mA 5 20 mV Load regulation REGi oa Vin 2 9
26. h voltage VeontH Vin 3 1 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 3 1 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 3 1 V Iour 50 mA 30 LA 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 44 uV Output voltage tempera 1 dVour Vin 3 1 V Iour 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 3 1 V Iour 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 7 AN80LxxRMS Series Panasonic E Electrical Characteristics at T 25 C continued e AN80L22RMS 2 2 V type 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 C 0 1 UF Cour 10 UF
27. increase in the chip junction part can be neglected C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 6 2 V loyr 50 mA 5 044 5 2 5 356 V Line regulation 1 REGywn Vin 6 2 V gt 14 5 V Iour 50 mA 10 50 mV Line regulation 2 REG Vin 6 2 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 6 2 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 6 2 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 6 2 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vm 6 2 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 4 9 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 56 64 dB Minimum input Vpirmint Vin 4 9 V Iour 9 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigminz Vin 5 3 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 6 2 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 6 2 V Iour 50 mA 0 30 V Control terminal current Tcont Vin 6 2 V Iour 50 mA 30 uA Vconr 1 8 V Note 1 1 0 Q
28. ion current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 1 7 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz loyy 10 mA 62 70 dB Minimum input VoDIF mim 1 Vin E V Iour 0mA 0 1 0 2 V output voltage difference 1 Minimum input V piF min 2 Vin 3 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 3 0 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 3 0 V Iour 50 mA 0 30 V Control terminal current Iconr Vin 3 0 V Iour 50 mA 30 uA Vcont E 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 when 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 10 Hz lt f lt 100 kHz loyr 10 mA 42 uV Output voltage tempera 1 dVour Vin 3 0 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 3 0 V Iour 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 6 SFF00008A
29. nt 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 10 Hz lt f lt 100 kHz loyr 10 mA 62 uV Output voltage tempera 1 dVour Vin 4 0 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 4 0 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 12 SFF00008AEB Panasonic E Electrical Characteristics at T 25 C continued AN80L31RMS 3 1 V type AN80LxxRMS Series 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 1 V loyr 50 mA 3 007 3 1 3 193 V Line regulation 1 REG Vin 4 1 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 4 1 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 1 V loyr 0 mA gt 150 mA 50 150 mV Peak output current Ipeak Vn 4 1V The output current value 180 240 mA when Voyr decreases b
30. ons Min Typ Max Unit Output noise voltage VNo 10 Hz lt f lt 100 kHz Iouyr 10 mA 102 uV Output voltage tempera 1 dVour Vin 5 9 V Iour 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 5 9 V Iour 50 mA 0 20 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 20 SFF00008AEB Panasonic AN80LxxRMS Series E Electrical Characteristics at Ta 25 C continued e AN80L50RMS 5 0 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 6 0 V loyr 50 mA 4 850 5 0 5 150 V Line regulation 1 REG Vin 6 0 V gt 14 5 V loyr 50mA 10 50 mV Line regulation 2 REGm2 Vin 6 0 V gt 9 V Iour 50 mA 5 20 mV Load regulation REGroa Vw 6 0 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 6 0 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 6 0 V loyr 0 mA 350 uA Bias cu
31. ontinued e AN80L29RMS 2 9 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 9 V loyr 50 mA 2 813 2 9 2 987 V Line regulation 1 REG Vin 3 9 V gt 14 5 V loyr 50mA 10 50 mV Line regulation 2 REGm2 Vin 3 9 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 3 9 V loyr 0mA gt 150mA 50 150 my Peak output current Ipeak Vin 3 9 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 3 9 V Iour 0 mA 350 uA Bias current fluctuation to load Algras Vin 3 9 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 2 6 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 60 68 dB Minimum input Vpirmint Vin 2 6 V Iour O mA 0 1 0 2 V output voltage difference 1 Minimum input VDiFmin2 Vin 3 0 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 3 9 V Iour 50 mA 1 50 V Control
32. re T C Temperature T C SFFO0008AEB 25 AN80LxxRMS Series Panasonic E Application Notes continued 4 Main characteristics continued e AN80L33RMS Vout gt Ta Vour Ta 3 435 3 435 Input voltage 4 3 V Input voltage 9 0 V 3 385 3 385 gt 3 335 E 5 Iour 0 mA 2 gt gt o gde R v El 3 285 our 150 mA El s s 8 3 235 8 3 235 3 3 O 3 185 3 185 A a A Ee A a 3 135 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 e AN80L36RMS Vout lour 3 73 3 68 2 5 3 63 Vin 14 5 V gt PI TIT Vy 9 0V 8 Lg 2 Ah 1 Vin 4 6 V f gt 3 58 H 5 1 h B 1 5 II z 3 53 r T i I l 1 1 3 48 L L 0 20 40 60 80 100 120 140 160 180 200 Output current Ioyr mA EH Application Circuit Example IN o o OUT 10 uF Current 510 uF source Start Stop Bandgap reference SW Output off at Low Output on at High 26 SFF00008AEB
33. rrent fluctuation to load Algras Vm 6 0 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vm 4 7 V Iour 0 mA 1 5 2 mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 56 64 dB Minimum input VoDIF mim 1 Vin 4 7 V Iour 0mA 0 1 0 2 V output voltage difference 1 Minimum input V piF min 2 Vin 5 1 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 6 0 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 6 0 V Iour 50 mA 0 30 V Control terminal current Iconr 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 the time when 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 10 Hz lt f lt 100 kHz loyr 10 mA 104 uV Output voltage tempera 1 dVour Vin 6 0 V loyr 0 mA 90 ppm C ture coefficient Vout dT 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 Cin 0 1 uF Cour 10 UF Vour 90
34. 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 3 V loyr 50 mA 3 201 3 3 3 399 V Line regulation 1 REG Vm 4 3 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REGm2 Vin 4 3 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 3 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 4 3 V The output current value 180 240 mA when Voyr decreases by 5 from its value at Ioyr 50 mA Bias current under no load Iaras Vin 4 3 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vm 4 3 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Irusa Vm 3 0 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz loyy 10 mA 59 67 dB Minimum input Vpirmint Vin 3 0 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Vpigminz Vin 3 4 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 3 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 3 V Iour 50 mA 0 30 V
35. t guaranteed values Parameter Symbol Conditions Min Typ Max Unit Output noise voltage VNo 10 Hz lt f lt 100 kHz loyr 10 mA 70 uV Output voltage tempera 1 dVour Vin 4 4 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 44 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 16 SFF00008AEB Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L35RMS 3 5 V type AN80LxxRMS Series 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 5 V loyr 50 mA 3 395 3 5 3 605 V Line regulation 1 REG Vin 4 5 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REGm2 Vin 4 5 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 5 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 4 5 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Iaras Vm 4 5 V loyr
36. t lout 50 mA Ta 25 C Type No Output V Conditions Min Type Max Unit Marking ANS80L18RMS 1 8 Vin 2 8 V 1 746 1 8 1 854 V BA ANSOLI9RMS 1 9 2 9 1 843 1 9 1 957 V BB ANSOL20RMS 2 0 3 0 1 940 2 0 2 060 V BC AN80L21RMS 2 1 3 1 2 037 2A 2 163 V BD AN80L22RMS 2 2 3 2 2 134 2 2 2 266 V BE ANSOL25RMS 2 5 30 2 425 2 5 2 575 V BW AN80L28RMS 2 8 3 8 2 716 2 8 2 884 V BF AN80L29RMS 2 9 3 9 2 813 2 9 2 987 V BG ANSOL30RMS 3 0 4 0 2 910 3 0 3 090 V BH AN80L31RMS 3 1 4 1 3 007 3 1 3 193 V BJ AN80L32RMS 3 2 4 2 3 104 3 2 3 296 V BK AN80L33RMS 3 3 4 3 3 201 3 3 3 399 V BL AN80L34RMS 3 4 4 4 3 298 3 4 3 502 V BM AN80L35RMS 3 5 4 5 3 395 3 5 3 605 Vv BN AN80L36RMS 3 6 4 6 3 492 3 6 3 708 V BP AN80L48RMS 4 8 5 8 4 656 4 8 4 944 V BQ AN80L49RMS 4 9 5 9 4 753 4 9 5 047 V BR ANSOLSORMS 5 0 6 0 4 850 5 0 5 150 V BS ANSOLSIRMS 5 1 6 1 4 947 5 1 5 253 V BT AN80L52RMS 3 2 6 2 5 044 5 2 5 356 V BU Ju Marking example ANSOLISRMS El Pin Descriptions Pin No Description 1 Input voltage pin 2 Output voltage pin 3 N C pin 4 Grounding pin 5 Control pin High gt operation Low gt stop 2 SFFO0008AEB Panasonic AN80LxxRMS Series E Absolute Maximum Ratings Parameter Symbol Rating Unit Supply voltage Vec 14 6 V Supply current Icc 300 mA Power dissipation Pp 78 mW Operating ambient temperature Topi 30 to 85
37. time when 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 10 Hz lt f lt 100 kHz Iour 10 mA 46 uV Output voltage tempera 1 dVour Vin 3 2 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 3 2 V Iour 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics 8 SFF00008AEB Panasonic AN80LxxRMS Series E Electrical Characteristics at Ta 25 C continued e AN80L25RMS 2 5 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 5 V loyr 50 mA 2 425 2 5 2 575 V Line regulation 1 REG Vin 3 5 V gt 14 5 V loyr 50mA 10 50 mV Line regulation 2 REGm2 Vin 3 5 V gt 9 V Iour 50 mA 5 20 mV Load regulation REGroa Vw 3 5 V Iour 0 mA gt 150mA 50 150 mV Peak output current Ipeak Vm 23 5
38. time ton Vin 4 1 V Iour 50 mA 0 12 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 13 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L32RMS 3 2 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 4 2 V loyr 50 mA 3 104 3 2 3 296 V Line regulation 1 REG Vin 4 2 V gt 14 5 V loyr 50 mA 10 50 mV Line regulation 2 REG Vin 4 2 V gt 9 V Iour 50 mA 5 20 mV Load regulation REG oa Vin 4 2 V loyr 0 mA gt 150 mA 50 150 mV Peak output current Ipeak Vin 4 2 V The output current value 180 240 mA when Voyr decreases by 5 from its value at loyy 50 mA Bias current under no load Igas Vin 4 2 V loyr 0 mA 350 uA Bias current fluctuation to load Algras Vin 4 2 V Iour 0 mA gt 150 mA a mA Standby consumption current Iss Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikusu Vm 2 9 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR
39. uV Output voltage tempera 1 dVour Vin 2 9 V loyr 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise time ton Vin 2 9 V Iour 50 mA 0 10 ms Vcont 0 V gt 1 8 V Cin 0 1 uF Cour 10 UF Vour 90 Note Refer to MW Application Notes 3 Output rise time characteristics SFF00008AEB 5 AN80LxxRMS Series Panasonic E Electrical Characteristics at Ta 25 C continued e AN80L20RMS 2 0 V type 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 C 0 1 UF Cour 10 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 0 V loyr 50 mA 1 940 2 0 2 060 V Line regulation 1 REGywn Vin 3 0 V gt 14 5 V loyr 50mA 10 50 mV Line regulation 2 REGm2 Vin 3 0 V gt 9 V Iour 50 mA 5 20 mV Load regulation REGroa Vw 3 0 V loyr 0mA gt 150mA 50 150 mV Peak output current Ipeak Vin 23 0 V The output current value 180 240 mA when Voyr decreases by 5 from its value at Ioyr 50 mA Bias current under no load Iaras Vin 3 0 V Iour 0 mA 350 uA Bias current fluctuation to load Algras Vin 3 0 V Iour 0 mA gt 150 mA a mA Standby consumpt
40. y 5 from its value at loyy 50 mA Bias current under no load Iaras Vin 4 1 V loyr 0mA 350 uA Bias current fluctuation to load Algras Vm 4 1 V Iour 0 mA gt 150 mA a mA Standby consumption current Isse Vin 10 V Vconr 0 V 0 1 uA Bias current before starting Ikus Vin 2 8 V Iour 0 mA 1 5 a mA regulation Ripple rejection ratio RR 1 V rms f 120 Hz Iour 10 mA 59 67 dB Minimum input Vpirmint Vin 2 8 V Iour 0 mA 0 1 0 2 V output voltage difference 1 Minimum input Voirmim2 Vin 3 2 V Iour 150 mA 0 4 V output voltage difference 2 Control terminal threshold high voltage VeontH Vin 4 1 V Iour 50 mA 1 50 V Control terminal threshold low voltage VcontL Vin 4 1 V Iour 50 mA 0 30 V Control terminal current Tcont Vm 4 1 V Iour 50 mA 30 LA Vconr 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 when 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 10 Hz lt f lt 100 kHz Iour 10 mA 64 uV Output voltage tempera 1 dVour Vin 4 1 V Iour 0 mA 90 ppm C ture coefficient Vout dT 30 C lt T lt 85 C Output rise
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Panasonic AN80LxxRMS Series handbook