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| r03ds0082ej0200 rev.2.00 page 1 of 24 jan 10, 2014 data sheet ha1630s04/05/06 series ultra-small low voltage operation cmos single operational amplifier description the ha1630s04/05/06 are high slew rate single cmos operational amplifiers realizing low voltage operation, low input offset voltage and low supply current. in addition to a low operating voltage from 1.8v, these device output can achieve full swing output voltage capability extending to eith er supply. available in an ultra-small cmpak-5 package that occupies only 1/8 the area of the sop-8 package. features ? low power and single supply operation v dd = 1.8 to 5.5 v ? low input offset voltage v io = 4.0 mv max ? low supply current i dd = 200 a typ (ha1630s04) i dd = 400 a typ (ha1630s05) i dd = 800 a typ (ha1630s06) ? high slew rate sr = 2 v/ s typ (ha1630s04) sr = 4 v/ s typ (ha1630s05) sr = 8 v/ s typ (ha1630s06) ? maximum output voltage v oh = 2.9 v min (at v dd = 3.0 v) ? low input bias current i ib = 1 pa typ ordering information type no. package name package code ha1630s04cm cmpak-5 ptsp0005zc-a ha1630s04lp mpak- 5 plsp0005zb-a ha1630s05cm cmpak-5 ptsp0005zc-a ha1630s05lp mpak- 5 plsp0005zb-a ha1630s06cm cmpak-5 ptsp0005zc-a ha1630s06lp mpak- 5 plsp0005zb-a r03ds0082ej0200 rev.2.00 jan 10, 2014
ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 2 of 24 jan 10, 2014 pin arrangement v dd v out v in(+) v in(?) 5 4 1 v ss 3 2 ? + equivalent circuit v dd v ss v in(+) v in(?) v out ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 3 of 24 jan 10, 2014 absolute maximum ratings (ta = 25c) items symbol ratings unit note supply voltage v dd 7 v differential input voltage v in(diff) ?v dd to +v dd v input voltage v in ?0.3 to +v dd v 1 power dissipation p t 200 mw operating temp. range topr ?40 to +85 c storage temp. range tstg ?55 to +125 c note: 1. do not apply input voltage exceeding v dd or 7 v. electrical characteristics (v dd = 3.0 v, ta = 25c) items symbol min typ max unit test condition input offset voltage v io ? ? 4.0 mv vin = 1.5 v input offset current i io ? (1.0) ? pa vin = 1.5 v input bias current i ib ? (1.0) ? pa vin = 1.5 v output high voltage v oh 2.9 ? ? v r l = 100 k output source current i o source 100 200 ? a v oh = 2.5 v (ha1630s04) 200 400 ? v oh = 2.5 v (ha1630s05) 400 800 ? v oh = 2.5 v (ha1630s06) output low voltage v ol ? ? 0.1 v r l = 100 k output sink current i o sink ? (5.0) ? ma v ol = 0.5 v (ha1630s04) ? (6.0) ? v ol = 0.5 v (ha1630s05) ? (6.5) ? v ol = 0.5 v (ha1630s06) common mode input voltage range v cm ?0.05 to 2.1 ? ? v (ha1630s04, ha1630s05) 0 to 1.9 ? ? (ha1630s06) slew rate sr ? (2.0) ? v/ sc l = 20 pf (ha1630s04) ? (4.0) ? c l = 20 pf (ha1630s05) ? (8.0) ? c l = 20 pf (ha1630s06) voltage gain a v 60 90 ? db gain bandwidth product bw ? (2.1) ? mhz c l = 20 pf (ha1630s04) ? (3.3) ? c l = 20 pf (ha1630s05) ? (3.6) ? c l = 20 pf (ha1630s06) power supply rejection ratio psrr 50 70 ? db common mode rejection ratio cmrr 50 70 ? db supply current i dd ? 200 400 a r l = (ha1630s04) ? 400 800 r l = (ha1630s05) ? 800 1700 r l = (ha1630s06) notes: 1. in the case of continuous current flow, use a sink current of under 4 ma. 2. ( ) : design specification ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 4 of 24 jan 10, 2014 table of graphs electrical characteristics ha1630s04 figure ha1630s05 figure ha1630s06 figure test circuit supply current i dd vs supply voltage 1-1 2-1 3-1 2 vs ambient temperature 1-2 2-2 3-2 output high voltage v oh vs output source current 1-3 2-3 3-3 4 vs supply voltage 1-4 2-4 3-4 output source current i o source vs ambient temperature 1-5 2-5 3-5 6 output low voltage v ol vs output sink current 1-6 2-6 3-6 5 output sink current i o sink vs ambient temperature 1-7 2-7 3-7 6 input offset voltage v io distribution 1-8 2-8 3-8 1 vs supply voltage 1-9 2-9 3-9 vs ambient temperature 1-10 2-10 3-10 common mode input voltage range v cm vs ambient temperature 1-11 2-11 3-11 7 power supply rejection ratio psrr vs frequency 1-12 2-12 3-12 1 common mode rejection ratio cmrr vs frequency 1-13 2-13 3-13 7 voltage gain & phase angle a v vs frequency 1-14 2-14 3-14 10 input bias current i ib vs ambient temperature 1-15 2-15 3-15 3 vs input voltage 1-16 2-16 3-16 slew rate (rising) srr vs ambient temperature 1-17 2-17 3-17 9 slew rate (falling) srf vs ambient temperature 1-18 2-18 3-18 slew rate large signal transient response 1-19 2-19 3-19 small signal transient response 1-20 2-20 3-20 total harmonic distortion + noise (0 db) vs. output voltage p-p 1-21 2-21 3-21 8 (40 db) vs. output volt age p-p 1-22 2-22 3-22 maximum p-p output voltage vs frequency 1-23 2-23 3-23 voltage noise density vs frequency 1-24 2-24 3-24 ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 5 of 24 jan 10, 2014 main characteristics (ha1630s04) figure 1-1. ha1630s04 supply current vs. supply voltage 0 100 200 300 400 123456 supply voltage v dd (v) supply current i dd ( a) figure 1-3. ha1630s04 output high voltage vs. output source current 0 1 2 3 4 5 6 0 100 200 300 output source current i osource (a) output high voltage v oh (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c ta = 25c v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v figure 1-5. ha1630s04 output source current vs. ambient temperature 0 100 200 300 400 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) output source current i osource (a) figure 1-2. ha1630s04 supply current vs. ambient temperature 0 100 200 300 400 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) supply current i dd ( a) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c v dd = 3.0 v r l = 100 k figure 1-4. ha1630s04 output high voltage vs. supply voltage 1 2 3 4 5 6 123456 supply voltage v dd (v) output high voltage v oh (v) ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 6 of 24 jan 10, 2014 figure 1-6. ha1630s04 output low voltage vs. output sink current 0 0.5 1.0 1.5 0246 output sink current i osink (ma) output low voltage v ol (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v figure 1-8. ha1630s04 input offset voltage distribution 0 10 20 30 40 ?4 ?3 ?2 ? 101234 input offset voltage v io (mv) percentage (%) figure 1-10. ha1630s04 input offset voltage vs. ambient temperature ?4 ?3 ?2 ?1 0 1 2 3 4 ?40 ? 200 20406080100 ambient temperature ta ( c) input offset voltage v io (mv) figure 1-7. ha1630s04 output sink current vs. ambient temperature 0 4 2 6 8 10 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) output sink current i osink (ma) figure 1-9. ha1630s04 input offset voltage vs. supply voltage ?4 ?3 ?2 ?1 0 1 2 3 4 1234 56 supply voltage v dd (v) input offset voltage v io (mv) ta = 25c v in = 0.5 v figure 1-11. ha1630s04 common mode input voltage vs. ambient temperature ?1.0 0 1.0 2.0 3.0 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) common mode input voltage v cm (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v v dd = 3.0 v, v in = 1.5 v v dd = 5.5 v, v in = 2.75 v v dd = 1.8 v, v in = 0.9 v v dd = 3.0 v ta = 25c v dd = 3.0 v ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 7 of 24 jan 10, 2014 figure 1-14. ha1630s04 open loop voltage gain and phase angle vs. frequency ?40 ?20 0 20 40 60 80 100 frequency f (hz) open loop voltage gain a vol (db) ?90 ?45 0 45 90 135 180 225 phase angle (deg) open loop voltage gain phase angle phase margin: 57 deg figure 1-13. ha1630s04 common mode rejection ratio vs. frequency 0 20 40 60 80 100 frequency f (hz) common mode rejection ratio cmrr (db) figure 1-12. ha1630s04 power supply rejection ratio vs. frequency 0 20 40 60 80 100 10 100 1k 10k 100k 1m 10m 10 100 1k 10k 100k 1m 10m 10 100 1k 10k 100k 1m 10m frequency f (hz) power supply rejection ratio psrr (db) ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 8 of 24 jan 10, 2014 figure 1-15. ha1630s04 input bias current vs. ambient temperature ?200 ?100 0 100 200 0 25 50 75 100 ambient temperature ta ( c) input bias current i ib (pa) figure 1-16. ha1630s04 input bias current vs. input voltage ?200 ?100 0 100 200 0 0.5 1.0 1.5 2.0 2.5 3.0 input voltage v in (v) input bias current i ib (pa) figure 1-20. ha1630s04 small signal transient response figure 1-19. ha1630s04 large signal transient response figure 1-17. ha1630s04 slew rate (rising) vs. ambient temperature 0 2 1 3 4 5 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) slew rate srr (v/s) figure 1-18. ha1630s04 slew rate (falling) vs. ambient temperature 0 2 1 3 4 5 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) slew rate srf (v/s) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c v dd = 3.0 v v dd = 3.0 v 1.4 v 1.6 v 1.6 v 1.4 v 0 v 2.0 v 2.0 v 0 v ta = 25c v dd = 3.0 v r l = 100 k c l = 20 pf ta = 25c v dd = 3.0 v r l = 100 k c l = 20 pf vin = 2.1 v p-p , 250 khz vin = 0.2 v p-p , 250 khz ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 9 of 24 jan 10, 2014 figure 1-21. ha1630s04 total harmonic distortion + noise vs. output voltage p-p 0.001 0.01 0.1 1 10 0 0.5 1.0 1.5 2.0 2.5 3.0 output voltage vout p-p (v) t.h.d. + noise (%) v dd = 3.0 v ta = 25c gain = 0 db f = 10 khz f = 100 hz f = 1 khz v dd = 3.0 v ta = 25c gain = 40 db f = 10 khz f = 100 hz f = 1 khz figure 1-22. ha1630s04 total harmonic distortion + noise vs. output voltage p-p 0.001 0.01 0.1 1 10 0 0.5 1.0 1.5 2.0 2.5 3.0 output voltage vout p-p (v) t.h.d. + noise (%) figure 1-24. ha1630s04 voltage noise density vs. frequency 0 80 40 120 160 200 100 1k 10k frequency f (hz) voltage noise density (nvms/ hz) figure 1-23. ha1630s04 voltage output p-p vs. frequency 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 1k 10k 100k 1m 10m frequency f (hz) voltage output vout p-p (v) gain = 40 db, v in = 0.03 vp-p gain = 20 db, v in = 0.3 vp-p gain = 0 db, v in = 2.0 vp-p ta = 25c v dd = 3.0 v v dd = 3.0 v ta = 25c gain = 40 db r s = 1 k ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 10 of 24 jan 10, 2014 main characteristics (ha1630s05) figure 2-1. ha1630s05 supply current vs. supply voltage 0 200 400 600 800 123456 supply voltage v dd (v) supply current i dd ( a) figure 2-3. ha1630s05 output high voltage vs. output source current 0 1 2 3 4 5 6 0 100 200 300 400 500 output source current i osource (a) output high voltage v oh (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c ta = 25c v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v figure 2-5. ha1630s05 output source current vs. ambient temperature 0 200 400 600 800 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) output source current i osource (a) figure 2-2. ha1630s05 supply current vs. ambient temperature 0 200 400 600 800 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) supply current i dd ( a) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v r l = 20 k r l = 100 k ta = 25c v dd = 3.0 v figure 2-4. ha1630s05 output high voltage vs. supply voltage 1 2 3 4 5 6 123456 supply voltage v dd (v) output high voltage v oh (v) ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 11 of 24 jan 10, 2014 figure 2-6. ha1630s05 output low voltage vs. output sink current 0 0.5 1.0 1.5 046 28 output sink current i osink (ma) output low voltage v ol (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v figure 2-8. ha1630s05 input offset voltage distribution 0 10 20 30 40 ?4 ?3 ?2 ? 10 1 2 3 4 input offset voltage v io (mv) percentage (%) v dd = 3.0 v figure 2-10. ha1630s05 input offset voltage vs. ambient temperature ?4 ?3 ?2 ?1 0 1 2 3 4 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) input offset voltage v io (mv) figure 2-7. ha1630s05 output sink current vs. ambient temperature 0 4 2 6 8 10 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) output sink current i osink (ma) figure 2-9. ha1630s05 input offset voltage vs. supply voltage ?4 ?3 ?2 ?1 0 1 2 3 4 123456 supply voltage v dd (v) input offset voltage v io (mv) ta = 25c v in = 0.5 v figure 2-11. ha1630s05 common mode input voltage vs. ambient temperature ?1.0 0 1.0 2.0 3.0 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) common mode input voltage v cm (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v v dd = 5.5 v, v in = 2.75 v v dd = 1.8 v, v in = 0.5 v v dd = 3.0 v, v in = 1.5 v ta = 25c v dd = 3.0 v ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 12 of 24 jan 10, 2014 figure 2-14. ha1630s05 open loop voltage gain and phase angle vs. frequency ?40 ?20 0 20 40 60 80 100 frequency f (hz) open loop voltage gain a vol (db) ?90 ?45 0 45 90 135 180 225 phase angle (deg) open loop voltage gain phase angle figure 2-13. ha1630s05 common mode rejection ratio vs. frequency 0 20 40 60 80 100 frequency f (hz) common mode rejection ratio cmrr (db) figure 2-12. ha1630s05 power supply rejection ratio vs. frequency 0 20 40 60 80 100 10 100 1k 10k 100k 10m 10 100 1k 10k 100k 1m 1m 10m 10 100 1k 10k 100k 1m 10m frequency f (hz) power supply rejection ratio psrr (db) ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf phase margin: 55 deg ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 13 of 24 jan 10, 2014 figure 2-15. ha1630s05 input bias current vs. ambient temperature ?200 ?100 0 100 200 0 25 50 75 100 ambient temperature ta ( c) input bias current i ib (pa) figure 2-16. ha1630s05 input bias current vs. input voltage ?200 ?100 0 100 200 0 0.5 1.0 1.5 2.0 2.5 3.0 input voltage v in (v) input bias current i ib (pa) figure 2-20. ha1630s05 small signal transient response figure 2-19. ha1630s05 large signal transient response figure 2-17. ha1630s05 slew rate (rising) vs. ambient temperature 0 4 2 6 8 10 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) slew rate srr (v/s) figure 2-18. ha1630s05 slew rate (falling) vs. ambient temperature 0 4 2 6 8 10 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) slew rate srf (v/s) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c v dd = 3.0 v v dd = 3.0 v 1.4 v 1.6 v 1.6 v 1.4 v 0v 2.0 v 2.0 v 0 v ta = 25c v dd = 3.0 v r l = 100 k c l = 20 pf ta = 25c v dd = 3.0 v r l = 100 k c l = 20 pf v in = 2.1 v p-p , 500 khz v in = 0.2 v p-p , 500 khz ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 14 of 24 jan 10, 2014 figure 2-21. ha1630s05 total harmonic distortion + noise vs. output voltage p-p 0.001 0.01 0.1 1 10 0 0.5 1.0 1.5 2.0 2.5 3.0 output voltage vout p-p (v) t.h.d. + noise (%) v dd = 3.0 v ta = 25c gain = 0 db f = 10 khz f = 100 hz f = 1 khz f = 10 khz f = 100 hz f = 1 khz v dd = 3.0 v ta = 25c gain = 40 db figure 2-22. ha1630s05 total harmonic distortion + noise vs. output voltage p-p 0.001 0.01 0.1 1 10 0 0.5 1.0 1.5 2.0 2.5 3.0 output voltage vout p-p (v) t.h.d. + noise (%) figure 2-24. ha1630s05 voltage noise density vs. frequency 0 80 40 120 160 200 100 1k 10k frequency f (hz) voltage noise density (nvms/hz) figure 2-23. ha1630s05 voltage output p-p vs. frequency 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 1k 10k 100k 1m 10m frequency f (hz) voltage output vout p-p (v) ta = 25c v dd = 3.0 v v dd = 3.0 v ta = 25c gain = 40 db r s = 1 k gain = 40 db, v in = 0.03 vp-p gain = 20 db, v in = 0.3 vp-p gain = 0 db, v in = 2.0 vp-p ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 15 of 24 jan 10, 2014 main characteristics (ha1630s06) figure 3-1. ha1630s06 supply current vs. supply voltage 0 400 800 1200 1600 123456 supply voltage v dd (v) supply current i dd ( a) figure 3-3. ha1630s06 output high voltage vs. output source current 0 1 2 3 4 5 6 0400 200 600 800 1000 output source current i osource (a) output high voltage v oh (v) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c ta = 25c v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v figure 3-5. ha1630s06 output source current vs. ambient temperature 0 400 800 1200 1600 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) output source current i osource (a) figure 3-2. ha1630s06 supply current vs. ambient temperature 0 400 800 1200 1600 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) supply current i dd ( a) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v r l = 20 k r l = 100 k ta = 25c v dd = 3.0 v figure 3-4. ha1630s06 output high voltage vs. supply voltage 1 2 3 4 5 6 123456 supply voltage v dd (v) output high voltage v oh (v) ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 16 of 24 jan 10, 2014 figure 3-6. ha1630s06 output low voltage vs. output sink current 0 0.5 1.0 1.5 04 26810 output sink current i osink (ma) output low voltage v ol (v) v dd = 5.5 v v dd = 3.0 v figure 3-8. ha1630s06 input offset voltage distribution 0 10 20 30 40 ?4 ?3 ?2 ? 10 1 2 3 4 input offset voltage v io (mv) percentage (%) figure 3-10. ha1630s06 input offset voltage vs. ambient temperature ?4 ?3 ?2 ?1 0 1 2 3 4 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) input offset voltage v io (mv) figure 3-7. ha1630s06 output sink current vs. ambient temperature 0 4 2 8 6 10 12 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) output sink current i osink (ma) figure 3-9. ha1630s06 input offset voltage vs. supply voltage ?4 ?3 ?2 ?1 0 1 2 3 4 123 45 6 supply voltage v dd (v) input offset voltage v io (mv) ta = 25c v in = 0.5 v figure 3-11. ha1630s06 common mode input voltage vs. ambient temperature ?1.0 0 1.0 2.0 3.0 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) common mode input voltage v cm (v) v dd = 3.0 v v dd = 1.8 v v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v v dd = 5.5 v, v in = 2.75 v v dd = 1.8 v, v in = 0.5 v v dd = 3.0 v, v in = 1.5 v ta = 25c v dd = 3.0 v ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 17 of 24 jan 10, 2014 figure 3-14. ha1630s06 open loop voltage gain and phase angle vs. frequency ?40 ?20 0 20 40 60 80 100 frequency f (hz) open loop voltage gain a vol (db) ?90 ?45 0 45 90 135 180 225 phase angle (deg) figure 3-13. ha1630s06 common mode rejection ratio vs. frequency 0 20 40 60 80 100 frequency f (hz) common mode rejection ratio cmrr (db) figure 3-12. ha1630s06 power supply rejection ratio vs. frequency 0 20 40 60 80 100 10 100 1k 10k 100k 10m 10 100 1k 10k 100k 10m 10 100 1k 10k 100k 1m 1m 1m 10m frequency f (hz) power supply rejection ratio psrr (db) ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf v rip = 0.1 vp ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf ta = 25c v dd = 3.0 v r l = 1 m c l = 20 pf open loop voltage gain phase angle phase margin: 65 deg ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 18 of 24 jan 10, 2014 figure 3-15. ha1630s06 input bias current vs. ambient temperature ?200 ?100 0 100 200 0 25 50 75 100 ambient temperature ta ( c) input bias current i ib (pa) figure 3-16. ha1630s06 input bias current vs. input voltage ?200 ?100 0 100 200 0 0.5 1.0 1.5 2.0 2.5 3.0 input voltage v in (v) input bias current i ib (pa) figure 3-20. ha1630s06 small signal transient response figure 3-19. ha1630s06 large signal transient response figure 3-17. ha1630s06 slew rate (rising) vs. ambient temperature 4 8 6 10 12 14 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) slew rate srr (v/s) figure 3-18. ha1630s06 slew rate (falling) vs. ambient temperature 4 8 6 10 12 14 ?40 ? 20 0 20 40 60 80 100 ambient temperature ta ( c) slew rate srf (v/s) v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v v dd = 5.5 v v dd = 3.0 v v dd = 1.8 v ta = 25c v dd = 3.0 v v dd = 3.0 v 1.4 v 1.6 v 1.6 v 1.4 v 0 v 2.0 v 2.0 v 0 v ta = 25c v dd = 3.0 v r l = 100 k c l = 20 pf ta = 25c v dd = 3.0 v r l = 100 k c l = 20 pf v in = 1.9 v p-p , 500 khz v in = 0.2 v p-p , 500 khz ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 19 of 24 jan 10, 2014 figure 3-21. ha1630s06 total harmonic distortion + noise vs. output voltage p-p 0.001 0.01 0.1 1 10 0 0.5 1.0 1.5 2.0 2.5 3.0 output voltage vout p-p (v) t.h.d. + noise (%) v dd = 3.0 v ta = 25c gain = 0 db f = 10 khz f = 100 hz f = 1 khz f = 10 khz f = 100 hz f = 1 khz v dd = 3.0 v ta = 25c gain = 40 db figure 3-22. ha1630s06 total harmonic distortion + noise vs. output voltage p-p 0.001 0.01 0.1 1 10 0 0.5 1.0 1.5 2.0 2.5 3.0 output voltage vout p-p (v) t.h.d. + noise (%) figure 3-24. ha1630s06 voltage noise density vs. frequency 0 80 40 120 160 200 100 1k 10k frequency f (hz) voltage noise density (nvms/hz) figure 3-23. ha1630s06 voltage output p-p vs. frequency 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 1k 10k 100k 1m 10m frequency f (hz) voltage output vout p-p (v) gain = 40 db, v in = 0.03 vp-p gain = 20 db, v in = 0.3 vp-p gain = 0 db, v in = 2.0 vp-p ta = 25c v dd = 3.0 v v dd = 3.0 v ta = 25c gain = 40 db r s = 1 k ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 20 of 24 jan 10, 2014 test circuits measure v o corresponding to v dd1 = 2.95 v and v dd2 = 3.05 v 1. power supply rejection ratio, psrp & voltage offset, v io 2. supply current, i dd 3. input bias current, i ib 4. output high voltage, v oh 5. output low voltage, v ol v in1 = v dd / 2 ? 0.05 v v in2 = v dd / 2 + 0.05 v ? + a v dd v dd 2 ? + a v dd v dd 2 ? + v dd v o v dd 2 r s = 6.8 k r s = 6.8 k r f = 680 k v io v oh v in1 = v dd / 2 + 0.05 v v in2 = v dd / 2 ? 0.05 v v ol psrr = ? 20log r s r s + r f v o1 ? v o2 v dd1 ? v dd2 v io = v o ? r s + r f r s 2 v dd psrr ? + v dd v o v in1 v in2 r l = 100 k ? + v dd v o v in1 v in2 r l = 100 k ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 21 of 24 jan 10, 2014 measure v o corresponding to v in1 = 1.45 v and v in2 = 1.55 v 6. output source current, i osource & output sink current, i osink 7. common mode input voltage, v cm & common mode rejection ratio, cmrr 10. gain, a v & phase, gbw 8. total harmonic distortion, thd 9. slew rate, sr gain variable r f / r s = 20log (100 k / 1 k) = 40 db r f / r s = 20log (100 k / 100 k) = 0 db freq = 100 hz, 1 khz, 10 khz 30 khz lpf on thd v o = v dd ? 0.5 v v in1 = v dd / 2 ? 0.05 v v in2 = v dd / 2 + 0.05 v i osource v o = + 0.5 v v in1 = v dd / 2 + 0.05 v v in2 = v dd / 2 ? 0.05 v i osink cmrr = ? 20log r s r s + r f v o1 ? v o2 v in1 ? v in2 cmrr ? + v dd v o v in1 v in2 a ? + v dd v o v dd 2 r s = 6.8 k v in r s = 6.8 k r f = 680 k r f = 680 k ? + v dd v ss v o gain variable v in r s r f ? + v dd v ss v o 20 pf 1 m r s = 6.8 k r s = 6.8 k r f = 680 k ? + v dd v ss v o 20 pf 1 m ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 22 of 24 jan 10, 2014 package dimensions mass (typ) [g] 0.015 previous code renesas code plsp0005zb-a mpak-5 / mpak-5v jeita package code sc-74a ? 2013 renesas electronics corporation. all rights reserved. dimensions in millimeters a a 1 a 2 a 3 b c d e e h e l l 1 l p x y q 1.0 0 1.0 ? 0.35 0.11 2.8 1.5 ? 2.5 0.3 0.1 0.2 ? ? ? min nom reference symbol max ? ? 1.1 0.25 0.4 0.16 2.95 1.6 0.95 2.8 ? ? ? ? ? 0.3 1.4 0.1 1.3 ? 0.5 0.26 3.1 1.8 ? 3.0 0.7 0.5 0.6 0.05 0.05 ? d e a qc aa b xsa a a 2 a 1 m e l h e l 1 l p a 3 y s s b a-a section c ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 23 of 24 jan 10, 2014 mass (typ) [g] 0.006 previous code renesas code ptsp0005zc-a cmpak-5 / cmpak-5v jeita package code sc-88a ? 2013 renesas electronics corporation. all rights reserved. dimensions in millimeters a a 1 a 2 a 3 b c d e e h e l l 1 l p x y q 0.8 0 0.8 ? 0.15 0.1 1.8 1.15 ? 1.8 0.3 0.1 0.2 ? ? ? min nom reference symbol max ? ? 0.9 0.25 0.22 0.13 2.0 1.25 0.65 2.1 ? ? ? ? ? 0.25 1.1 0.1 1.0 ? 0.3 0.15 2.2 1.35 ? 2.4 0.7 0.5 0.6 0.05 0.05 ? e a eh e l l 1 q c d b aa a 3 l p s a a 2 a 1 as m x s y b a-a section c ha1630s04/05/06 series r03ds0082ej0200 rev.2.00 page 24 of 24 jan 10, 2014 taping & reel specification package code package ordering unit w p ao ko e f maximum storage no. mpak-5 mpak-5 4 1.5 1.05 3,000 pcs/reel w1 w2 11.4 9 3,000 pcs 8 cmpak-5 11.4 9 8 tape width [taping] [reel] [ordering information] 8 3.3 3.3 1.75 3.5 cmpak-5 4 1.1 1.05 3,000 pcs/reel 8 2.25 2.45 1.75 3.5 bo d1 unit: mm 1.5 4.0 2.0 a b p 0 0 1 d w f e k 0 cover tape tape withdraw direction 13 0.5 178 2 11.4 9.0 4 0.5 120 2.0 0.5 mark indication 1 d : ha1630s04 1 e : ha1630s05 1 f : ha1630s06 1 d = contorol code ( ? or blank) marking index band notice 1. descriptions of circuits, software and other related information in this document are provided only to illustrate the operat ion of semiconductor products and application examples. you are fully responsible for the incorporation of these circuits, software, and information in the design of your equipment. renesas electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information. 2. renesas electronics has used reasonable care in preparing the information included in this document, but renesas electronics does not warrant that such information is error free. renesas electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information incl uded herein. 3. renesas electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property ri ghts of third parties by or arising from the use of renesas electronics products or technical information described in this document. no license, express, implied or otherwise, is granted hereby under any paten ts, copyrights or other intellectual property rights of renesas electronics or others. 4. you should not alter, modify, copy, or otherwise misappropriate any renesas electronics product, whether in whole or in part . renesas electronics assumes no responsibility for any losses incurred by you or third parties arising from such alteration, modification, copy or otherwise misappropriation of renesas electronics product. 5. renesas electronics products are classified according to the following two quality grades: "standard" and "high quality". t he recommended applications for each renesas electronics product depends on the product's quality grade, as indicated below. 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(note 1) "renesas electronics" as used in this document means renesas electronics corporation and also includes its majority-o wned subsidiaries. (note 2) "renesas electronics product(s)" means any product developed or manufactured by or for renesas electronics. http://www.renesas.com refer to "http://www.renesas.com/" for the latest and detailed information. renesas electronics america inc. 2880 scott boulevard santa clara, ca 95050-2554, u.s.a. tel: +1-408-588-6000, fax: +1-408-588-6130 renesas electronics canada limited 1101 nicholson road, newmarket, ontario l3y 9c3, canada tel: +1-905-898-5441, fax: +1-905-898-3220 renesas electronics europe limited dukes meadow, millboard road, bourne end, buckinghamshire, sl8 5fh, u.k tel: +44-1628-651-700, fax: +44-1628-651-804 renesas electronics europe gmbh arcadiastrasse 10, 40472 dsseldorf, germany tel: +49-211-65030, fax: +49-211-6503-1327 renesas electronics (china) co., ltd. 7th floor, quantum plaza, no.27 zhichunlu haidian district, beijing 100083, p.r.china tel: +86-10-8235-1155, fax: +86-10-8235-7679 renesas electronics (shanghai) co., ltd. unit 301, tower a, central towers, 555 langao rd., putuo district, shanghai, china tel: +86-21-2226-0888, fax: +86-21-2226-0999 renesas electronics hong kong limited unit 1601-1613, 16/f., tower 2, grand century place, 193 prince edward road west, mongkok, kowloon, hong kong tel: +852-2886-9318, fax: +852 2886-9022/9044 renesas electronics taiwan co., ltd. 13f, no. 363, fu shing north road, taipei, taiwan tel: +886-2-8175-9600, fax: +886 2-8175-9670 renesas electronics singapore pte. ltd. 80 bendemeer road, unit #06-02 hyflux innovation centre singapore 339949 tel: +65-6213-0200, fax: +65-6213-0300 renesas electronics malaysia sdn.bhd. unit 906, block b, menara amcorp, amcorp trade centre, no. 18, jln persiaran barat, 46050 petaling jaya, selangor darul ehsan, malaysia tel: +60-3-7955-9390, fax: +60-3-7955-9510 renesas electronics korea co., ltd. 12f., 234 teheran-ro, gangnam-gu, seoul, 135-080, korea tel: +82-2-558-3737, fax: +82-2-558-5141 sales offices ? 2014 renesas electronics corporation. all rights reserved. colophon 3.0 |
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