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Panasonic AN80MxxRSP Series 5-pin low dropout voltage regulator with standby function (500 mA type) handbook

1. Pp T 1 200 1 051 1 000 Mounted on standard board glass epoxy 50 mm x 50 mm x t0 8 mm Raja 118 9 C W E 0 800 a GS amp 0 600 Ez N 5 0491 x z s o 3 0 400 N Independent IC EN without a heat sink Rua 254 4 C W MJ 0 200 9 ELK bos x N N N SSCN SS s 0 000 0 25 50 75 85 100 125 150 Ambient temperature T C 26 SFF00009AEB Panasonic AN80MxxRSP Series E Application Notes continued 3 Main characteristics e AN80MXxxRSP series Bias current under no load bias current fluctuation to load 10 Peak output current 14 12 8 1 0 6 t zx 08 fal 4 0 0 4 2 0 2 0 0 0 0 0 1 0 2 0 3 0 4 0 5 0 2 4 6 8 10 2 14 Io A Voir V Minimum input output voltage difference Output voltage temperature characteristic 500 0 4 0 400 0 4 0 8 x S o di C 300 2 9 S 16 Vin Vourayp 1 V 4 g Tour 5mA E 8 B 200 a 2 gt 8 o 100 AY 0 0 100 200 300 400 500 50 25 0 25 50 75 100 125 150 Output current I mA T CC e AN80M18RSP Ig Vin Vo Io 30 2 Tj 25 C 25 la po i
2. Bias current under no load Igas Vin 63 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 2 63 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load AlpgiasoA Viv 76 3 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 5 035 V Iour 0 A 5 mA Control terminal current Iconr Vin 63 V Iour 250 mA 30 uA VcontT 1 8 V Ripple rejection ratio 1 RRI Vin 7 3 V 1 V f 2 120 Hz 49 5 dB Tout 100mA Minimum input Vprr min i VIN 5 4 V lout 250 mA 0 25 0 45 V output voltage difference 1 Minimum input VDiF min 2 Vin 5 3 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vcowryg Vin 6 3 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 6 3 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 7 3 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iouyr 100 mA 40 uV rms Vin 6 3 V CNR 1 UF Output voltage temperature dVour Vin 6 3 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14
3. 4 9 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorrimin2 Vin 7 5 0 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vcowryg Vm 5 8 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 5 8 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 6 8 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 75 8 V CNR 1 UF Output voltage temperature dVour Vin 2 5 8 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 5 8 V Iour 5 mA 150 IC temperature 20 SFF00009AEB Panasonic AN80MxxRSP Series E Electrical Characteristics at T4 25 C continued e AN80M49RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions
4. Vn 4 2 V Iour 250 mA 3 104 3 2 3 296 V Line regulation REGy Vin 4 2 V gt 14 0 V Iour 250 mA 32 mV Load regulation REGi oa Vin 4 2 V Ionur 9mA gt 500mA 64 mV Peak output current Ipgak Vin 4 2 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vm 42V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 2 42V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load AlpgiasoA Vin 74 2 V loyyr 2 0mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 3 040 V Iour 0 A 5 mA Control terminal current Iconr Vin 42 V Iour 250 mA 30 uA VconT 1 8 V Ripple rejection ratio 1 RRI Vin 5 2 V41 V f 120 Hz 538 dB Tout 100mA Minimum input Vprr min i Vin 3 3 V lout 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 Vin 3 4 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veonty Vin 4 2 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 2 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 5 2 V 1 V
5. 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 2 565 V Iour 0 A 5 mA Control terminal current Iconr Vin 3 7 V Iour 250 mA 30 uA Vconrt 1 8 V Ripple rejection ratio 1 RRI Vin 4 7 V 1 V f 120 Hz 553 dB Tour 100 mA Minimum input Vorrimint Vin 7 2 8 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorrimin2 Vin 2 9 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veonty Vin 3 7 V 1 45 1 80 V Control terminal threshold low voltage Vcontrr Vin 3 7 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 4 7 V41 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 3 7 V CNR 1 UF Output voltage temperature dVour Vin 3 7 V lour 2 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 7 V lour 5 mA 150 IC temperature 10 SFF00009AEB Panasonic AN80MxxRSP Series E Electrical Characteristics at T4
6. CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 2 62 V Iour 250 mA 5 044 5 2 5 356 V Line regulation REG Vin 6 2 V gt 14 0 V Iour 250 mA 52 mV Load regulation REG oa Vin 6 2 V Ionur 9mA gt 500mA 104 mV Peak output current Ipeak Vin 62 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Igas Vin 62V Ioyy 2 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasan Vin 2 62 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load AlpgiasoA Vin 76 2 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vm 4 940 V Iour 0 A 5 mA Control terminal current Iconr Vin 62 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 7 2 V 1 V f 120 Hz 49 6 dB Iour 100 mA Minimum input VpiEinini Vin 5 3 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorriminy2 Vin 7 5 4 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veconty Vin 6 2 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 6 2 V 0 50 0 70 V Design reference data Note The following values are typical
7. e AN80M22RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 2 32 V Iour 250 mA 2 134 2 2 2 266 V Line regulation REGy Vy232V 14 0 V Iour 250 mA 22 mV Load regulation REG oA Vin 3 2 V Iour 9mA gt 500mA 44 mV Peak output current Ipeak Vin 32 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Igas Vg 232 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasan Vin 23 2 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algiascoa Win 732 V Iour OmA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 2 090 V Iour 0 A 5 mA Control terminal current Iconr Vin 23 2 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 4 2 V 1 V f 120 Hz 57 1 dB Iour 100 mA Minimum input VpiEinini Vin 2 3 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorriminy2 Vin 2 4 V Iour 500 mA 0 8 V outp
8. f 500 kHz 30 dB lour 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz lour 100 mA 40 uV rms Vin 4 2 V CNR 1 UF Output voltage temperature dVour Vin 4 2 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 4 2 V lour 5 mA 150 eC temperature SFF00009AEB 15 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M33RSP 3 3 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 4 3 V Iour 250 mA 3 201 3 3 3 399 V Line regulation REG Vin 43 V gt 140 V Iour 250 mA 33 mV Load regulation REG oA Vin 43 V Ioyy20mA gt 500mA 66 mV Peak output current Ipeak Vin 4 3 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vg 2 43 V Igyy 2 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 72433 V gt 14 0 V Iggy 2250mA 5 5 mA
9. f lt 100 kHz Iouyr 100 mA 40 uV rms Vin 3 5 V CNR 1 UF Output voltage temperature dVour Vin 3 5 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 5 V lour 5 mA 150 eC temperature SFF00009AEB 9 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M27RSP 2 7 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vin 3 7 V Iour 250 mA 2 619 2 7 2 781 V Line regulation REGy Viy 3 7 V gt 14 0 V Iour 250 mA 27 mV Load regulation REG oA Vin 3 7 V Ioyp 0mA 5 500mA 54 mV Peak output current Ipeak Vix 7 3 7 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 3 7 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 723 7 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa ViN 73 7 V Iour 0 mA 500mA
10. 0 V Iour 5 mA 150 IC temperature 22 SFF00009AEB Panasonic E Electrical Characteristics at T4 25 C continued e AN80M51RSP 5 1 V type AN80MxxRSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 6 1 V Iour 250 mA 4 947 5 1 5 253 V Line regulation REG Vin 6 1 V gt 14 0 V Iour 250 mA 51 mV Load regulation REG oa Vin 6 1 V Iour 0 mA gt 500mA 102 mV Peak output current Ipgak Vin 61 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 6 1 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algrasany Vm 2 61 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load AlpgiasoA Viv 76 1 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vm 4 845 V Iour 0 A 5 mA Control terminal current Iconr Vin 61 V Iour 250 mA 30 uA VconT 1 8 V Ripple rejection ratio 1 R
11. 0 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veconty Vin 3 8 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 3 8 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 4 8 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 3 8 V CNR 1 UF Output voltage temperature dVour Vin 3 8 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 8 V lour 5 mA 150 eC temperature SFF00009AEB 11 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M29RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 2 3 9 V Iour 250 mA 2 813 2 9 2 987 V Line regula
12. 100 kHz Iour 100 mA 40 uV rms Vin 3 0 V CNR 1 UF Output voltage temperature dVour Vin 2 3 0 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 0 V Iour 5 mA 150 IC temperature 6 SFF00009AEB Panasonic AN80MxxRSP Series E Electrical Characteristics at T4 25 C continued e AN80M21RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 3 1 V Iour 250 mA 2 037 2 1 2 163 V Line regulation REGy Vw 3 1 V 14 0 V Iour 250 mA 21 mV Load regulation REG oA Vin 3 1 V Iour 0 mA gt 500mA 42 mV Peak output current Ipeak Vin 3 1 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 3 1 V Ioyy 2 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 723 1 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa Vin 73 1 V Iour 0 mA 500mA 25 mA Stand
13. Bias current fluctuation to load Alpgias oA Vin 74 3 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 23 135 V Iour 0 A 5 mA Control terminal current Iconr Vin 43 V Iour 250 mA 30 uA VcoNntT 1 8 V Ripple rejection ratio 1 RRI Vin 5 3 V 1 V f 120 Hz 53 6 dB Tout 100mA Minimum input Vprr min i Vin 3 4 V Ilour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 Vin 3 5 V Ilour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vcowryg Vm 4 3 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 3 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 5 3 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 4 3 V CNR 1 UF Output voltage temperature dVour Vin 2 4 3 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 4 3 V lour 5 mA 150 IC temperature 16 SFF0
14. Characteristics at T4 25 C continued e AN80M31RSP 3 1 V type Panasonic 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 4 1 V Iour 250 mA 3 007 3 1 3 139 V Line regulation REG Vin 4 1 V gt 14 0 V Iour 250 mA 31 mV Load regulation REG oa Vin 4 1 V Iour 0 mA gt 500mA 62 mV Peak output current Ipeak Vin 4 1 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 41 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 72 41 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa ViN 74 1 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veontr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 2 945 V Iour 0 A 5 mA Control terminal current Iconr Vm 4 1 V Iour 250 mA 30 uA VcontT 1 8 V Ripple rejection ratio 1 RRI Vin 5 VEI V f 120 Hz 54 1 dB Tout 100 mA Minimum input Vprr min i VIN 3 2 V Ilour 250 mA 0 25 0 45 V ou
15. Control terminal threshold high voltage Vconty Vin 2 9 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 2 9 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 3 9 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iouyr 100 mA 40 uV rms Vin 2 9 V CNR 1 UF Output voltage temperature dVour Vin 2 2 9 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 22 9 V Iour 5 mA 150 IC temperature SFF00009AEB 5 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M20RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 25 3 0 V Iour 250 mA 1 940 2 0 2 060 V Line regulation REG Vin 3 0 V gt 140 V Iour 250 mA 20 mV Load regulation REG oA Vin 3 0 V
16. and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 7 2 V 1 V f 500 kHz 30 dB Tour 100mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 6 2 V CNR 1 UF Output voltage temperature dVour Vin 6 2 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 6 2 V Ioyr 5 mA 150 IC temperature 24 SFF00009AEB Panasonic E Electrical Characteristics at T4 25 C continued e AN80M53RSP 5 3 V type AN80MxxRSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 6 3 V Iggy 250 mA 5 141 5 3 5 459 V Line regulation REG Vin 6 3 V gt 14 0 V Iour 250 mA 53 mV Load regulation REG oA Vw 263 V Iour 0 mA gt 500mA 106 mV Peak output current Ipeak Vin 63 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA
17. 0 V Vour GND 300 mA Overheat protection operating Tira Vin 6 3 V Iour 5 mA 150 IC temperature SFF00009AEB 25 AN80MxxRSP Series Panasonic Bi Application Notes 1 External compensation capacitor Connect the input pin and ground pin with a 3 3 uF capacitor and the output pin and ground pin with a 33 UF capacitor in order to keep the stability of the IC in operation Make sure that the 3 3 uF capacitor is as close as possible to the input pin and ground pin while the 33 uF capacitor is as close to the output pin and ground pin as possible As the stability is affected by the parasitic capacitance and impedance of the PCB pattern pay utmost attention to the PCB layout Select each capacitor in consideration of the ESR equivalent series resistance of the capacitor for the AN80MxxRSP Series conduct a full evatuation under the right operating conditions The ESR of an aluminum or tantalum electrolytic capacitor may increase at low temperatures Therefore it is recommended to connect a 0 1 UF to 0 47 uF capacitor with low internal impedance such as a multi layer ceramic capacitor in parallel to each capacitor Output current Output capacitor ESR equivalent series resistance 20 ESR Q Cour z IN te Y Possible operating range 0 100 200 300 400 500 Output current Ioyr mA 2 Pp T curves of SP 5SU
18. 0 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 3 9 V CNR 1 UF Output voltage temperature dVour Vin 3 9 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 9 V lour 5 mA 150 IC temperature 12 SFF00009AEB Panasonic E Electrical Characteristics at T4 25 C continued e AN8OM30RSP 3 0 V type AN80MxxRSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 4 0 V Iour 250 mA 2 910 3 0 3 090 V Line regulation REG Vin 4 0 V gt 140 V Iour 250 mA 30 mV Load regulation REG oa Vin 4 0 V Ioyy20mA gt 500mA 60 mV Peak output current Ipeak Vin 4 0 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vg 2 40V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 240 V gt 14 0 V Iggy 2250mA 5 5 mA B
19. 0009AEB Panasonic E Electrical Characteristics at T4 25 C continued e AN80M34RSP 3 4 V type AN80MxxRSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 4 4 V Iour 250 mA 3 298 3 4 3 502 V Line regulation REG Vin 44 V 140 V Iour 250 mA 34 mV Load regulation REG oA Vin 44 V Ioyy20mA gt 500mA 68 mV Peak output current Ipeak Vin 4 4 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 44 V Igoyy 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Viu 244 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa ViN 74 4 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 3 230 V Iour 0 A 5 mA Control terminal current Iconr Vin 44 V Iour 250 mA 30 uA VconT 1 8 V Ripple rejection ratio 1 RRI Vin 5 4 V 1 V f 120 Hz 533 dB Tout 100mA Minimum input Vprr min i V
20. 25 C continued e AN80M28RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 5 3 8 V Iour 250 mA 2 716 2 8 2 884 V Line regulation REG Vin 3 8 V gt 140 V Iour 250 mA 28 mV Load regulation REG oA Vin 3 8 V Iour 0 mA gt 500mA 56 mV Peak output current Ipeak Vin 3 8 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vm 3 8 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 723 8 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algiascoa Vin 73 8 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 2 660 V Iour 0 A 5 mA Control terminal current Iconr Vin 7 3 8 V Iour 250 mA 30 uA Vconrt 1 8 V Ripple rejection ratio 1 RRI Vin 4 8 V 1 V f 120 Hz 55 0 dB Iour 100 mA Minimum input VDiFmini Vin 2 9 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorriminy2 Vin 3
21. D U OR agnor Panasonic AN80MxxRSP Series 5 pin low dropout voltage regulator with standby function 500 mA type E Overview Unit mm The AN80MxxRSP series is a 0 5 A low dropout at voltage regulator IC with standby function featuring low e ee current consumption and low noise 1 00 0 10 1 80 0 10 2 50 E Features e Standby consumption current max 3 yA 5 50 0 10 9 80 0 20 Dropout voltage 0 25 V e Output voltage accuracy 3 e 5 pin surface mounting package e Ripple rejection ratio 30 dB f 500 kHz s i e Output voltage 1 8 V 1 9 V 2 0 V 2 1 V 2 2 V 2 5 V 427404 079 0 50010 0 50 0 10 2 7 V 2 8 V 2 9 V 3 0 V 3 1 V 3 2 V a 419 102010 1 00 0 20 0 80 3 3 V 3 4 V 3 5 V 3 6 V 4 8 V 4 9 V 5 0V 5 1 V 5 2V 5 3 V E Applications e General use power supply E Block Diagram Overcurrent limitter Voltage reference Output driver Error amplifier Fin VIN 5 T A 7 2 Vour C 33 uF Cy 33 uF p n 777 777 C 1 uF Cont is Publication date August 2001 SFF00009AEB AN80MxxRSP Series Panasonic E Pin Descriptions Pin No Description 1 Input voltage pin Vm 2 Control pin Cont High operation Low stop 3 Ground
22. Iour 9 mA gt 500mA 40 mV Peak output current Ipeak Vin 3 0 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 3 0 V Igyy 2 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Viu 230 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa Vin 730 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Irus Vm 1 90 V Iour 0 A 5 mA Control terminal current Iconr Vin 23 0 V Iour 250 mA 30 uA VconT 1 8 V Ripple rejection ratio 1 RRI Vin 4 0 V 1 V f 2 120 Hz 57 9 dB Tout 100 mA Minimum input Vprr min i VIN 2 1 V lout 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 Vin 222 V Ilour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 3 0 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 3 0 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 4 0 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt
23. Min Typ Max Unit Output voltage Vout Vn 5 9 V Iour 250 mA 4 753 4 9 5 047 V Line regulation REG Vin 5 9 V gt 14 0 V Iour 250 mA 49 mV Load regulation REG oa Vin 5 9 V Iour 0 mA gt 500mA 98 mV Peak output current Ipeak Vin 5 9 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 5 9 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 29599 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algiascoa ViN 73 9 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vm 4 655 V Iour 0 A 5 mA Control terminal current Iconr Vin 5 9 V Iour 250 mA 30 uA Vconrt 1 8 V Ripple rejection ratio 1 RRI Vin 6 9 V 1 V f 120 Hz 50 1 dB Iour 100 mA Minimum input VpiE imnini Vin 5 0 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorrimin2 Vin 7 5 1 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veonty Vm 5 9 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 5 9 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Condi
24. RI Vin 7 7 1 V1 V f 120 Hz 49 8 dB Tout 100 mA Minimum input Vprr min i Vin 232 V lout 250 mA 0 25 0 45 V output voltage difference 1 Minimum input VDiF min 2 Vin 5 3 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veonty Vin 6 1 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 6 1 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vy 7 1 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 6 1 V CNR 1 UF Output voltage temperature dVour Vin 2 6 1 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 6 1 V lour 5 mA 150 eC temperature SFF00009AEB 23 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M52RSP 5 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 3 3 UF
25. V AN80M32RSP 3 2 3 7 to 14 0 V AN80M33RSP 3 3 3 8 to 14 0 V AN80M34RSP 3 4 3 9 to 14 0 V AN80M35RSP 3 9 4 0 to 14 0 V AN80M36RSP 3 6 4 1 to 14 0 V AN80M48RSP 4 8 5 3 to 14 0 V AN80M49RSP 4 9 5 4 to 14 0 V ANS80MSORSP 5 0 5 5 to 14 0 V ANS80MSIRSP 5 1 5 6 to 14 0 V ANS80MS2RSP 5 2 5 7 to 14 0 V ANS80MS3RSP 2 9 5 8 to 14 0 V SFF00009AEB AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C e AN80M18RSP 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 can be neglected C 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 2 2 8 V Iour 250 mA 1 746 1 8 1 854 V Line regulation REG Vin 2 8 V gt 140 V Iour 250 mA 18 mV Load regulation REG oA Vin 2 8 V Iour 0 mA gt 500mA 36 mV Peak output current Ipeak Vi 7 2 8 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Igas Vin 2 8 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algrasany Vm 72 8 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algiascoa ViN 72 8 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veo
26. any Vin 4 6 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algrasaoa Vin 74 6 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 3 420 V Iour 0 A 5 mA Control terminal current Iconr Vin 4 66 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 5 6 V41 V f 120 Hz 52 8 dB Tout 100 mA Minimum input Vprr min i Vin 3 7 V lout 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 VIN 3 8 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veconty Vin 4 6 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 6 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 5 6 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 4 6 V CNR 1 UF Output voltage temperature dVour Vin 4 6 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 4 6 V lour 5 mA 150 IC temperat
27. by consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vm 1 995 V Iour 0 A 5 mA Control terminal current Iconr Vin 3 1 V Iour 250 mA 30 uA Vconrt 1 8 V Ripple rejection ratio 1 RRI Vin 4 1 V1 V f 120 Hz 57 5 dB Tour 100 mA Minimum input Vorrimint Vin 2 2 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorriminy2 Vin 2 3 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veonty Vin 3 1 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 3 1 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 4 1 V1 V f 2 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 3 1 V CNR 1 UF Output voltage temperature dVour Vin 2 3 1 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 1 V Iour 5 mA 150 IC temperature SFF00009AEB 7 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued
28. herwise 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 2 9 V Iour 250 mA 1 843 1 9 1 957 V Line regulation REG Vin 2 9 V gt 14 0 V Iour 250 mA 19 mV Load regulation REG oA Vin 2 9 V Iloyy20mA gt 500mA 38 mV Peak output current Ipeak Vi 7 2 9 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Igas Vg 229 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Viu 229 V gt 14 0 V Iggy 250mA 5 5 mA Bias current fluctuation to load AlpgiasoA Vin 729 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vm 1 805 V Iour 0 A 5 mA Control terminal current Iconr Vin 2 9 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 3 9 V 1 V f 120 Hz 58 4 dB Iour 100 mA Minimum input Vorrimint Vin 2 0 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorriminy2 Vin 2 1 V Iour 500 mA 0 8 V output voltage difference 2
29. i 20 i 1 1 a i i E E 15 H 2 Es I o E gt I 1 s RL 23 6Q 10 i E IN 2 s Po Xd Lee Dien REM NDS 189 x Ere Q A_N 0 2 3 4 L5 Vin V lo A SFFOOOO9AEB 27
30. ias current fluctuation to load Algasaoa ViN 74 0 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Irus Vm 2 85 V Iour 0 A 5 mA Control terminal current Iconr Vin 40 V Iour 250 mA 30 uA VcontT 1 8 V Ripple rejection ratio 1 RRI Vin 5 V 1 V f 120 Hz 544 dB Tout 100mA Minimum input Vprr min i Vin 3 V Ilour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 Vin 3 2 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vconty Vin 4 0 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 0 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Viy 5 V I1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 4 V CNR 1 uF Output voltage temperature dVour Vin 4 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 4 V Iour 5 mA 150 IC temperature SFF00009AEB 13 AN80MxxRSP Series E Electrical
31. in 3 5 V Ilour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 VIN 3 6 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vcowryg Vin 4 4 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 4 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 5 4 V1 V f 500 kHz 30 dB lour 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iouyr 100 mA 40 uV rms Vin 4 4 V CNR 1 UF Output voltage temperature dVour Vin 4 4 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 2 44 V lour 5 mA 150 IC temperature SFF00009AEB 17 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M35RSP 3 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output vo
32. ing pin GND Electrically in common with radiation fin 4 Noise reduction pin N R Open when the noise reduction function is not used 5 Output voltage pin Vour E Absolute Maximum Ratings Parameter Symbol Rating Unit Supply voltage Voc 14 4 V Supply current Icc mA Power dissipation Pp 255 mW Operating ambient temperature Topi 30 to 85 2 Storage temperature Tug 55 to 150 C Note 1 The output voltage may exceed the rated value if T gt 150 C in no load condition Set to Io gt 5 mA if T is likely to exceed 150 C 2 This IC is not suitable for automobile equipment use 3 1 The above power dissipation shows the value of an independent IC without heat sink at T 85 C For details refer to 2 Power dissipation of SP 5SU package in the Application Notes 2 Except for the operating ambient temperature and storage temperature all ratings are for T 25 C SFF00009AEB Panasonic E Recommended Operating Conditions AN80MxxRSP Series Part No Output voltage Operating supply voltage range Vcc Unit ANS80MISRSP 1 8 2 3 to 14 0 V AN80M19RSP 1 9 2 4 to 14 0 V AN80M20RSP 2 0 2 5 to 14 0 V ANS80M2IRSP 2 1 2 6 to 14 0 V AN80M22RSP 2 2 2 7 to 14 0 V AN80M25RSP 2 5 3 0 to 14 0 V AN80M27RSP 2 7 3 2 to 14 0 V AN80M28RSP 2 8 3 3 to 14 0 V AN80M29RSP 2 9 3 4 to 14 0 V AN80M30RSP 3 0 3 5 to 14 0 V AN80M31RSP 3 1 3 6 to 14 0
33. io 2 RR2 Vg 5 5 VE 1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 4 5 V CNR 1 UF Output voltage temperature dVour Vin 2 4 5 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 4 5 V lour 5 mA 150 IC temperature 18 SFF00009AEB Panasonic E Electrical Characteristics at T4 25 C continued e AN80M36RSP 3 6 V type AN80MxxRSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 4 6 V Iour 250 mA 3 492 3 6 3 708 V Line regulation REG Vin 4 6 V gt 14 0 V Iour 250 mA 36 mV Load regulation REG oa Vw 4 66V Iloyy20mA 5 500mA 72 mV Peak output current Ipgak Vm 4 6 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Igas Vm 46V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algias
34. ltage Vout Vm 4 5 V Iour 250 mA 3 395 3 5 3 605 V Line regulation REG Vin 45 V gt 14 0 V Iour 250 mA 35 mV Load regulation REG oA Vw 7245 V Ioyp 0mA gt 500mA 70 mV Peak output current Ipeak Vin 4 5 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vm 45 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 7245 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa ViN 74 5 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 3 325 V Iour 0 A 5 mA Control terminal current Iconr Vin 4 5 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 5 5 V41 V f 120 Hz 53 1 dB Tout 100mA Minimum input Vprr min i VIN 3 6 V Ilour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 VIN 3 7 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vcowryg Vm 4 5 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 5 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection rat
35. nr 0 V 3 0 uA Bias current before starting regulation Irus Vm 1 71 V Iour 0 A 5 mA Control terminal current Iconr Vin 2 8 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 3 8 V41 V f 120 Hz 58 8 dB Iour 100 mA Minimum input VpiEinini Vin 1 9 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorriminy2 Vin 2 0 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veconty Vin 2 8 V 1 45 1 80 V Control terminal threshold low voltage Vcontrr Vin 2 8 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 3 8 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 2 8 V CNR 1 UF Output voltage temperature dVour Vin 2 2 8 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 2 8 V Iour 5 mA 150 IC temperature 4 SFF00009AEB Panasonic AN80MxxRSP Series E Electrical Characteristics at T4 25 C continued e AN80M19RSP 1 9 V type Unless ot
36. our 250 mA 25 mV Load regulation REG oA Vin 3 5 V Iour 0 mA gt 500mA 50 mV Peak output current Ipeak Vi 7 3 5 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vi 235 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 723 5 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa Vin 73 5 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 2 375 V Iour 0 A 5 mA Control terminal current Iconr Vin 3 5 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 4 5 V 1 V f 120 Hz 56 0 dB Tout 100 mA Minimum input Vprr min i VIN 2 6 V Ilour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input VDiF min 2 Vin z2 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veonty Vm 3 5 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 3 5 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 4 5 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt
37. put Algiasan Vin 2 60 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load AlpgiasoA Vin 76 0 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Irus Vm 4 75 V Iour 0 A 5 mA Control terminal current Iconr Vin 60 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 7 0 V 1 V f 120 Hz 49 9 dB Iour 100 mA Minimum input Vorrimint ViN 5 1 V Iour 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vorrimin2 Vm 5 2 V Iour 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veconty Vin 6 0 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 6 0 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 7 0 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 6 0 V CNR 1 UF Output voltage temperature dVour Vin 6 0 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 6
38. tion REG Vin 3 9 V gt 14 0 V Iour 250 mA 29 mV Load regulation REG oa Vin 3 9 V Iour 0 mA gt 500mA 58 mV Peak output current Ipeak Vin 3 9 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 3 9 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 239 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa Vin 73 9 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Ipysq Vin 2 755 V Iour 0 A 5 mA Control terminal current Iconr Vin 739 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 4 9 V 1 V f 120 Hz 54 7 dB Tout 100 mA Minimum input Vprr min i VIN 3 0 V lout 250 mA 0 25 0 45 V output voltage difference 1 Minimum input Vprr min2 VIN 3 1 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Veconty Vin 3 9 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 3 9 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 4 9 V1 V f 500 kHz 30 dB Tout 10
39. tions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vg 6 9 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iouyr 100 mA 40 uV rms Vin 5 9 V CNR 1 UF Output voltage temperature dVour Vin 5 9 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 5 9 V lour 5 mA 150 eC temperature SFF00009AEB 21 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M50RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 6 0 V Iour 250 mA 4 850 5 0 5 150 V Line regulation REG Vin 6 0 V gt 14 0 V Iour 250 mA 50 mV Load regulation REG oA Vw 260 V Iour 0 mA gt 500mA 100 mV Peak output current Ipeak Vin 60 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Igas Vin 60 V Iour 0 mA 1 1 3 0 mA Bias current fluctuation to in
40. tput voltage difference 1 Minimum input Vprr min2 VIN 3 3 V lout 500 mA 0 8 V output voltage difference 2 Control terminal threshold high voltage Vcowryg Vm 4 1 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 4 1 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Viy 5 1 V1 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iour 100 mA 40 uV rms Vin 4 1 V CNR 1 UF Output voltage temperature dVour Vin 2 4 1 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current IosHort Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 4 1 V lour 5 mA 150 IC temperature 14 SFF00009AEB Panasonic E Electrical Characteristics at T4 25 C continued e AN80M32RSP 3 2 V type AN80MxxRSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout
41. ure SFF00009AEB 19 AN80MxxRSP Series Panasonic E Electrical Characteristics at T4 25 C continued e AN80M48RSP 4 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vn 5 8 V Iour 250 mA 4 656 4 8 4 944 V Line regulation REG Vin 5 8 V gt 14 0 V Iour 250 mA 48 mV Load regulation REG oA Vin 5 8 V Iour 0 mA gt 500mA 96 mV Peak output current Ipeak Vi 7 5 8 V The output current value 600 900 mA when Vour decreases by 5 from its value at Ioyr 250 mA Bias current under no load Isas Vin 5 8 V loyy 2 0 mA 1 1 3 0 mA Bias current fluctuation to input Algiasany Vm 7259 8 V gt 14 0 V Iggy 2250mA 5 5 mA Bias current fluctuation to load Algasaoa ViN 73 8 V Iour 0 mA 500mA 25 mA Standby consumption current Isrp Vin 14 0 V Veonr 0 V 3 0 uA Bias current before starting regulation Irus Vm 4 560 V Iour 0 A 5 mA Control terminal current Iconr Vin 5 8 V Iour 250 mA 30 uA Vcont 1 8 V Ripple rejection ratio 1 RRI Vin 6 8 V 1 V f 120 Hz 503 dB Iour 100 mA Minimum input Vorrimint Vin
42. ut voltage difference 2 Control terminal threshold high voltage Vcowryg Vin 3 2 V 1 45 1 80 V Control terminal threshold low voltage Vcowg Vin 3 2 V 0 50 0 70 V Design reference data Note The following values are typical and not guaranteed values Parameter Symbol Conditions Min Typ Max Unit Ripple rejection ratio 2 RR2 Vy 4 2 V41 V f 500 kHz 30 dB Tout 100 mA Output noise voltage VNo 10 Hz lt f lt 100 kHz Iouyr 100 mA 40 uV rms Vin 3 2 V CNR 1 UF Output voltage temperature dVour Vin 2 3 2 V Iour 5 mA 40 _ ppm C coefficient dT 30 C lt T 125 C Output short circuit current losuogr Vin 14 0 V Vour GND 300 mA Overheat protection operating Tira Vin 3 2 V lour 5 mA 150 IC temperature 8 SFF00009AEB Panasonic AN80MxxRSP Series E Electrical Characteristics at T4 25 C continued e AN80M25RSP 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 3 3 UF CNR Open Cour 33 UF Parameter Symbol Conditions Min Typ Max Unit Output voltage Vout Vm 2 3 5 V Iggy 250 mA 2 425 2 5 2 575 V Line regulation REG Vin 3 5 V gt 14 0 V I

Panasonic AN80MxxRSP Series 5-pin low dropout voltage regulator with standby function (500 mA type) handbook

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