voltage regulators 1 publication date: november 2001 sff00010ceb an80pxxrsp series 5-pin, low dropout voltage regulator with standby function (1 a type) � overview the an80pxxrsp series is a 1 a, low dropout voltage regulator with standby function, featuring low current consumption and low noise. � features ? standby consumption current: max. 3 a ? dropout voltage: 0.3 v ? output voltage accuracy: 3% ? 5-pin surface mounting package ? ripple rejection ratio of 30 db (f = 500 khz) ? output voltage: 1.8 v, 1.9 v, 2.0 v, 2.1 v, 2.2 v, 2.5 v, 2.7 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, 5.2 v, 5.3 v � applications ? general use power supply � block diagram unit: mm sp-5su 1234 5 v out c out1 c out2 c nr cont. (fin) input short-circuit protection output stage overcurrent limitter starter voltage reference error amplifier thermal protection inrush current protection v ref r1 r2 output driver v in c in c in : 100 f, c nr : 1 f, c out1 : 33 f, c out2 : 0.1 f (3.00) (4.35) 5.40 0.10 6.50 0.10 1.80 0.10 (0.80) (2.50) 2.30 0.10 (5.50) 9.80 0.20 5.08 0.10 12 4 5 0.50 0.10 0.50 0.10 0.10 0.10 1.00 0.20 1.00 0.10 5.50 0.10 (2.50) 1.27 0.10 3 (0.75) 0.50 0.10 note) the package of this product will be changed to lead-free type (sp-5sua). see the new pack- age dimensions section later of this datasheet.
an80pxxrsp series 2 sff00010ceb pin no. description 1 input voltage pin (v in ) 2 control pin (cont.) high: operation, low: stop 3 grounding 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 (v out ) � absolute maximum ratings parameter symbol rating unit supply voltage v cc 14.4 v supply current i cc ? ma power dissipation * 1 p d 255 mw operating ambient temperature * 2 t opr ? 30 to + 85 c storage temperature * 2 t stg ? 55 to + 150 c note) 1. the output voltage may exceed the rated value if t j > 150 c in no-load condition. set to i o > 5 ma if t j 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 a = 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 a = 25 c. � pin descriptions
an80pxxrsp series 3 sff00010ceb � recommended operating conditions part no. output voltage operating supply voltage range (v cc ) unit an80p18rsp 1.8 2.3 to 14.0 v an80p19rsp 1.9 2.4 to 14.0 v an80p20rsp 2.0 2.5 to 14.0 v an80p21rsp 2.1 2.6 to 14.0 v an80p22rsp 2.2 2.7 to 14.0 v an80p25rsp 2.5 3.0 to 14.0 v an80p27rsp 2.7 3.2 to 14.0 v an80p28rsp 2.8 3.3 to 14.0 v an80p29rsp 2.9 3.4 to 14.0 v an80p30rsp 3.0 3.5 to 14.0 v an80p31rsp 3.1 3.6 to 14.0 v an80p32rsp 3.2 3.7 to 14.0 v an80p33rsp 3.3 3.8 to 14.0 v an80p34rsp 3.4 3.9 to 14.0 v an80p35rsp 3.5 4.0 to 14.0 v an80p36rsp 3.6 4.1 to 14.0 v an80p48rsp 4.8 5.3 to 14.0 v an80p49rsp 4.9 5.4 to 14.0 v an80p50rsp 5.0 5.5 to 14.0 v an80p51rsp 5.1 5.6 to 14.0 v AN80P52RSP 5.2 5.7 to 14.0 v an80p53rsp 5.3 5.8 to 14.0 v
an80pxxrsp series 4 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 2.8 v, i out = 500 ma 1.746 1.8 1.854 v line regulation reg in v in = 2.8 v 14.0 v, i out = 250 ma ?? 18 mv load regulation reg loa v in = 2.8 v, i out = 0 ma 1 000 ma ?? 36 mv peak output current i peak v in = 2.8 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 2.8 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 2.8 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 2.8 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 1.710 v, i out = 0 a ?? 5ma control terminal current i cont v in = 2.8 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 3.8 v 1 v[p-p] 58.8 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 1.9 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.0 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 2.8 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 2.8 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 3.8 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 2.8 v output voltage temperature dv out v in = 2.8 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 2.8 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c ? an80p18rsp (1.8 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f ? design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 5 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 2.9 v, i out = 500 ma 1.843 1.9 1.957 v line regulation reg in v in = 2.9 v 14.0 v, i out = 250 ma ?? 19 mv load regulation reg loa v in = 2.9 v, i out = 0 ma 1 000 ma ?? 38 mv peak output current i peak v in = 2.9 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 2.9 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 2.9 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 2.9 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 1.805 v, i out = 0 a ?? 5ma control terminal current i cont v in = 2.9 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 3.9 v 1 v[p-p] 58.4 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.0 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.1 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 2.9 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 2.9 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 3.9 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 2.9 v output voltage temperature dv out v in = 2.9 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 2.9 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p19rsp (1.9 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 6 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.0 v, i out = 500 ma 1.940 2.0 2.060 v line regulation reg in v in = 3.0 v 14.0 v, i out = 250 ma ?? 20 mv load regulation reg loa v in = 3.0 v, i out = 0 ma 1 000 ma ?? 40 mv peak output current i peak v in = 3.0 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.0 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.0 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.0 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 1.900 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.0 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.0 v 1 v[p-p] 57.9 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.1 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.2 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.0 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.0 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.0 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.0 v output voltage temperature dv out v in = 3.0 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.0 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p20rsp (2.0 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 7 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.1 v, i out = 500 ma 2.037 2.1 2.163 v line regulation reg in v in = 3.1 v 14.0 v, i out = 250 ma ?? 21 mv load regulation reg loa v in = 3.1 v, i out = 0 ma 1 000 ma ?? 42 mv peak output current i peak v in = 3.1 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.1 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.1 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.1 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 1.995 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.1 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.1 v 1 v[p-p] 57.5 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.2 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.3 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.1 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.1 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.1 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.1 v output voltage temperature dv out v in = 3.1 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.1 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p21rsp (2.1 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 8 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.2 v, i out = 500 ma 2.134 2.2 2.266 v line regulation reg in v in = 3.2 v 14.0 v, i out = 250 ma ?? 22 mv load regulation reg loa v in = 3.2 v, i out = 0 ma 1 000 ma ?? 44 mv peak output current i peak v in = 3.2 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.2 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.2 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.2 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.090 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.2 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.2 v 1 v[p-p] 57.1 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.3 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.4 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.2 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.2 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.2 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.2 v output voltage temperature dv out v in = 3.2 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.2 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p22rsp (2.2 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 9 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.5 v, i out = 500 ma 2.425 2.5 2.575 v line regulation reg in v in = 3.5 v 14.0 v, i out = 250 ma ?? 25 mv load regulation reg loa v in = 3.5 v, i out = 0 ma 1 000 ma ?? 50 mv peak output current i peak v in = 3.5 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.5 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.5 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.5 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.375 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.5 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.5 v 1 v[p-p] 56.0 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.6 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.7 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.5 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.5 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.5 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.5 v output voltage temperature dv out v in = 3.5 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.5 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p25rsp (2.5 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 10 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.7 v, i out = 500 ma 2.619 2.7 2.781 v line regulation reg in v in = 3.7 v 14.0 v, i out = 250 ma ?? 27 mv load regulation reg loa v in = 3.7 v, i out = 0 ma 1 000 ma ?? 54 mv peak output current i peak v in = 3.7 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.7 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.7 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.7 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.565 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.7 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.7 v 1 v[p-p] 55.3 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.8 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 2.9 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.7 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.7 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.7 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.7 v output voltage temperature dv out v in = 3.7 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.7 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p27rsp (2.7 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 11 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.8 v, i out = 500 ma 2.716 2.8 2.884 v line regulation reg in v in = 3.8 v 14.0 v, i out = 250 ma ?? 28 mv load regulation reg loa v in = 3.8 v, i out = 0 ma 1 000 ma ?? 56 mv peak output current i peak v in = 3.8 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.8 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.8 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.8 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.660 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.8 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.8 v 1 v[p-p] 55.0 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 2.9 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.0 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.8 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.8 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.8 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.8 v output voltage temperature dv out v in = 3.8 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.8 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p28rsp (2.8 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 12 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 3.9 v, i out = 500 ma 2.813 2.9 2.987 v line regulation reg in v in = 3.9 v 14.0 v, i out = 250 ma ?? 29 mv load regulation reg loa v in = 3.9 v, i out = 0 ma 1 000 ma ?? 58 mv peak output current i peak v in = 3.9 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 3.9 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 3.9 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 3.9 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.755 v, i out = 0 a ?? 5ma control terminal current i cont v in = 3.9 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 4.9 v 1 v[p-p] 54.7 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.0 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.1 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 3.9 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 3.9 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 4.9 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 3.9 v output voltage temperature dv out v in = 3.9 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 3.9 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p29rsp (2.9 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 13 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.0 v, i out = 500 ma 2.910 3.0 3.090 v line regulation reg in v in = 4.0 v 14.0 v, i out = 250 ma ?? 30 mv load regulation reg loa v in = 4.0 v, i out = 0 ma 1 000 ma ?? 60 mv peak output current i peak v in = 4.0 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.0 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.0 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.0 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.850 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.0 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.0 v 1 v[p-p] 54.1 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.1 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.2 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.0 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.0 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.0 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.0 v output voltage temperature dv out v in = 4.0 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.0 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p30rsp (3.0 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 14 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.1 v, i out = 500 ma 3.007 3.1 3.193 v line regulation reg in v in = 4.1 v 14.0 v, i out = 250 ma ?? 31 mv load regulation reg loa v in = 4.1 v, i out = 0 ma 1 000 ma ?? 62 mv peak output current i peak v in = 4.1 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.1 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.1 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.1 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 2.945 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.1 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.1 v 1 v[p-p] 54.1 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.2 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.3 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.1 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.1 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.1 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.1 v output voltage temperature dv out v in = 4.1 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.1 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p31rsp (3.1 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 15 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.2 v, i out = 500 ma 3.104 3.2 3.296 v line regulation reg in v in = 4.2 v 14.0 v, i out = 250 ma ?? 32 mv load regulation reg loa v in = 4.2 v, i out = 0 ma 1 000 ma ?? 64 mv peak output current i peak v in = 4.2 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.2 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.2 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.2 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 3.040 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.2 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.2 v 1 v[p-p] 53.8 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.3 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.4 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.2 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.2 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.2 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.2 v output voltage temperature dv out v in = 4.2 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.2 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p32rsp (3.2 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 16 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.3 v, i out = 500 ma 3.201 3.3 3.399 v line regulation reg in v in = 4.3 v 14.0 v, i out = 250 ma ?? 33 mv load regulation reg loa v in = 4.3 v, i out = 0 ma 1 000 ma ?? 66 mv peak output current i peak v in = 4.3 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.3 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.3 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.3 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 3.135 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.3 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.3 v 1 v[p-p] 53.6 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.4 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.5 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.3 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.3 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.3 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.3 v output voltage temperature dv out v in = 4.3 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.3 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p33rsp (3.3 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 17 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.4 v, i out = 500 ma 3.298 3.4 3.502 v line regulation reg in v in = 4.4 v 14.0 v, i out = 250 ma ?? 34 mv load regulation reg loa v in = 4.4 v, i out = 0 ma 1 000 ma ?? 68 mv peak output current i peak v in = 4.4 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.4 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.4 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.4 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 3.230 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.4 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.4 v 1 v[p-p] 53.3 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.5 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.6 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.4 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.4 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.4 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.4 v output voltage temperature dv out v in = 4.4 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.4 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p34rsp (3.4 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 18 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.5 v, i out = 500 ma 3.395 3.5 3.605 v line regulation reg in v in = 4.5 v 14.0 v, i out = 250 ma ?? 35 mv load regulation reg loa v in = 4.5 v, i out = 0 ma 1 000 ma ?? 70 mv peak output current i peak v in = 4.5 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.5 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.5 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.5 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 3.325 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.5 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.5 v 1 v[p-p] 53.1 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.6 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.7 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.5 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.5 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.5 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.5 v output voltage temperature dv out v in = 4.5 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.5 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p35rsp (3.5 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 19 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 4.6 v, i out = 500 ma 3.492 3.6 3.708 v line regulation reg in v in = 4.6 v 14.0 v, i out = 250 ma ?? 36 mv load regulation reg loa v in = 4.6 v, i out = 0 ma 1 000 ma ?? 72 mv peak output current i peak v in = 4.6 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 4.6 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 4.6 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 4.6 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 3.420 v, i out = 0 a ?? 5ma control terminal current i cont v in = 4.6 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 5.6 v 1 v[p-p] 52.8 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 3.7 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 3.8 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 4.6 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 4.6 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 5.6 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 4.6 v output voltage temperature dv out v in = 4.6 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 4.6 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p36rsp (3.6 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 20 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 5.8 v, i out = 500 ma 4.656 4.8 4.944 v line regulation reg in v in = 5.8 v 14.0 v, i out = 250 ma ?? 48 mv load regulation reg loa v in = 5.8 v, i out = 0 ma 1 000 ma ?? 96 mv peak output current i peak v in = 5.8 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 5.8 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 5.8 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 5.8 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 4.560 v, i out = 0 a ?? 5ma control terminal current i cont v in = 5.8 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 6.8 v 1 v[p-p] 50.3 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 4.9 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 5.0 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 5.8 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 5.8 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 6.8 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 5.8 v output voltage temperature dv out v in = 5.8 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 5.8 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p48rsp (4.8 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 21 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 5.9 v, i out = 500 ma 4.753 4.9 5.047 v line regulation reg in v in = 5.9 v 14.0 v, i out = 250 ma ?? 49 mv load regulation reg loa v in = 5.9 v, i out = 0 ma 1 000 ma ?? 98 mv peak output current i peak v in = 5.9 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 5.9 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 5.9 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 5.9 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 4.655 v, i out = 0 a ?? 5ma control terminal current i cont v in = 5.9 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 6.9 v 1 v[p-p] 50.1 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 5.0 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 5.1 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 5.9 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 5.9 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 6.9 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 5.9 v output voltage temperature dv out v in = 5.9 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 5.9 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p49rsp (4.9 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 22 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 6.0 v, i out = 500 ma 4.850 5.0 5.150 v line regulation reg in v in = 6.0 v 14.0 v, i out = 250 ma ?? 60 mv load regulation reg loa v in = 6.0 v, i out = 0 ma 1 000 ma ?? 120 mv peak output current i peak v in = 6.0 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 6.0 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 6.0 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 6.0 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 4.750 v, i out = 0 a ?? 5ma control terminal current i cont v in = 6.0 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 7.0 v 1 v[p-p] 49.9 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 5.1 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 5.2 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 6.0 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 6.0 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 7.0 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 6.0 v output voltage temperature dv out v in = 6.0 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 6.0 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p50rsp (5.0 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 23 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 6.1 v, i out = 500 ma 4.947 5.1 5.253 v line regulation reg in v in = 6.1 v 14.0 v, i out = 250 ma ?? 51 mv load regulation reg loa v in = 6.1 v, i out = 0 ma 1 000 ma ?? 102 mv peak output current i peak v in = 6.1 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 6.1 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 6.1 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 6.1 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 4.845 v, i out = 0 a ?? 5ma control terminal current i cont v in = 6.1 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 7.1 v 1 v[p-p] 49.8 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 5.2 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 5.3 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 6.1 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 6.1 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 7.1 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 6.1 v output voltage temperature dv out v in = 6.1 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 6.1 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p51rsp (5.1 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 24 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 6.2 v, i out = 500 ma 5.044 5.2 5.356 v line regulation reg in v in = 6.2 v 14.0 v, i out = 250 ma ?? 52 mv load regulation reg loa v in = 6.2 v, i out = 0 ma 1 000 ma ?? 104 mv peak output current i peak v in = 6.2 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 6.2 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 6.2 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 6.2 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 4.940 v, i out = 0 a ?? 5ma control terminal current i cont v in = 6.2 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 7.2 v 1 v[p-p] 49.6 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 5.3 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 5.4 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 6.2 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 6.2 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 7.2 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 6.2 v output voltage temperature dv out v in = 6.2 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 6.2 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? AN80P52RSP (5.2 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 25 sff00010ceb parameter symbol conditions min typ max unit output voltage v out v in = 6.3 v, i out = 500 ma 5.141 5.3 5.459 v line regulation reg in v in = 6.3 v 14.0 v, i out = 250 ma ?? 53 mv load regulation reg loa v in = 6.3 v, i out = 0 ma 1 000 ma ?? 106 mv peak output current i peak v in = 6.3 v, the output current value 1 200 ?? ma when v out decreases by 5% from its value at i out = 500 ma. bias current under no load i bias v in = 6.3 v, i out = 0 ma ? 1.1 3.0 ma bias current fluctuation to input ? i bias(in) v in = 6.3 v 14.0 v, i out = 250 ma ? 5 ? 5ma bias current fluctuation to load ? i bias(loa) v in = 6.3 v, i out = 0 ma 1 000 ma ?? 50 ma standby consumption current i stb v in = 14.0 v, v cont = 0 v ?? 3.0 a bias current before starting regulation i rush v in = 5.035 v, i out = 0 a ?? 5ma control terminal current i cont v in = 6.3 v, i out = 500 ma ?? 30 a v cont = 1.8 v ripple rejection ratio 1 rr1 v in = 7.3 v 1 v[p-p] 49.5 ?? db f = 120 hz, i out = 100 ma minimum input/ v dif(min)1 v in = 5.4 v, i out = 500 ma ? 0.30 0.60 v output voltage difference 1 minimum input/ v dif(min)2 v in = 5.5 v, i out = 1 000 ma ?? 1.0 v output voltage difference 2 control terminal threshold high voltage v conth v in = 6.3 v ? 1.45 1.80 v control terminal threshold low voltage v contl v in = 6.3 v 0.50 0.70 ? v parameter symbol conditions min typ max unit ripple rejection ratio 2 rr2 v in = 7.3 v 1 v[p-p], c out = 33 + 0.1 f ? 30 ? db f = 500 khz, i out = 100 ma output noise voltage v no 10 hz f 100 khz, i out = 100 ma ? 40 ? v[rms] cnr = 1 f, v in = 6.3 v output voltage temperature dv out v in = 6.3 v, i out = 5 ma ? 40 ? ppm/ c coefficient dt a ? 30 c t a + 125 c output short-circuit current i oshort v in = 14.0 v, v out = gnd ? 2 000 ? ma overheat protection operating t jth v in = 6.3 v, i out = 5 ma ? 150 ? c temperature � electrical characteristics at t a = 25 c (continued) ? an80p53rsp (5.3 v type) unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition th at the drift due to the temperature increase in the chip junction part can be neglected. c in = 100 f, cnr = open, c out = 0.1 f design reference data note) the following values are typical and not guaranteed values.
an80pxxrsp series 26 sff00010ceb � application notes 1. external compensation capacitor connect the input pin and ground pin with a 100 f capacitor and the output pin and ground pin with a 0.1 f capacitor in order to keep the stability of the ic in operation. make sure that the 10 f capacitor is as close to the input pin and ground pin as possible while the 33 f 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 (equiva- lent series resistance) of the capacitor for the an80pxxrsp se- ries, conduct a ful evaluation under the right operating condi- tions. the esr of an aluminum or tantalum electrolytic capacitor may increase at low temperatures. therefore, it is recommended to connect a 0.1 f to 0.47 f capacitor with low internal impedance, such as a multi-layer ceramic capacitor, in parallel to each capacitor. esr ( ? ) c out 0 20 15 10 5 4 ? 1 000 0 200 400 600 800 output current i out (ma) possible operating range output current ? output capacitor esr (equivalent series resistance) 2. p d ? t a curves of sp-5su p d ? t a power dissipation p d (w) 0.000 independent ic without a heat sink r th(j-a) = 254.4 c/w 0 25 50 150 75 100 125 ambient temperature t a ( c) 1.200 1.000 0.800 0.600 0.400 0.491 0.200 1.051 mounted on standard board (glass epoxy: 50 mm 50 mm t0.8 mm) r th(j-a) = 118.9 c/w 85 3. main characteristics ? an80pxxrsp series v out ? t ? an80p18rsp v o ? i o (25 c) ? 25 150 t ( c) ? v out (%) ? 3 ? 2 ? 1 0 + 1 0 255075 125 100 v in = v typ + 1 v i o = 5 ma 0 2 0 0.5 2.5 i o (a) v o (v) 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 1 1.5 2 v in = 2.5 v 2.8 v 3.3 v 3.6 v
an80pxxrsp series 27 sff00010ceb � new package dimensions (unit: mm) ? sp-5sua (lead-free package) 6.50 0.10 5.40 0.10 1.00 0.20 0.10 0.10 2.30 0.10 0.50 +0.10 - 0.05 0.50 +0.10 - 0.05 1.00 0.20 2.50 0.20 5.08 0.10 9.80 0.20 5.50 0.10 5 4 3 2 1 (0.50) (2.50) (5.30) (1.80) (4.35) (3.00) (0.75) (0.50) 1.27 m 0.13
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