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| rev.1.00, 2003.08.08, page 1 of 22 ha1631s01/02/03/04 series single cmos comparator (push pull/open drain output) rej03d0056-0100z rev.1.00 2003.08.08 description the ha1631s01/02/03/04 are low power single cmos comparator featuring low voltage operation with typical current supply of 5 a/50 a. they are designed to operate from a single power supply. ha1631s01/02 have push-pull full swing outputs that allow direct connections to logic devices. the open drain version ha1631s03/04 enable output level shifting through external pull up resistors. available in an ultra-small cmpak-5 package, they occupy only 1/8 the area of the sop-8 package. features ? low supply current ha1631s01/03: i ddtyp = 5 a (v dd = 3.0 v) ha1631s02/04: i ddtyp = 50 a (v dd = 3.0 v) ? low voltage operation: v dd = 1.8 to 5.5 v ? low input offset voltage: v iomax = 5 mv ? low input bias current: i ibtyp = 1 pa ? maximum output voltage: v ohmin = 2.9 v (at v dd = 3.0 v) ? input common voltage range includes ground ? on-chip esd protection ? available in cmpak-5 and mpak-5 package using pb free lead frame outline ha1631s01cm ha1631s02cm ha1631s03cm ha1631s04cm HA1631S01LP ha1631s02lp ha1631s03lp ha1631s04lp cmpak-5v mpak-5v
ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 2 of 22 pin arrangement v in(+) 1 v ss 2 v in(?) v dd v out 3 5 4 +? equivalent circuit v dd in? output * not available in open drain version (ha1631s03/04) * in+ v ss ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 3 of 22 absolute maximum ratings (ta = 25c) item symbol ratings unit remarks supply voltage v dd 7.0 v differential input voltage v in(diff) ?v dd to +v dd v note 1 input voltage v in 0.1 to +v dd v output current i out 28 ma note 2 power dissipation p t 80/120 mw cmpak/mpak operating temperature topr ?40 to +85 c storage temperature tstg ?55 to +125 c notes: 1. do not apply input voltage exceeding v dd or 7 v. 2. the maximum output current is the maximum allowable value for continuous operation. electrical characteristics (ta = 25c, v dd = 3.0 v, v ss = 0 v) item symbol min typ max unit test conditions input offset voltage v io ? ? 5 mv v in = v dd /2, r l = 1m ? input bias current i ib ? (1) 100 pa v in = v dd /2 input offset current i io ? (1) 100 pa v in = v dd /2 common mode input voltage range v cm ?0.1 ? 2.1 v ha1631s01/03 ? 5 10 a supply current ha1631s02/04 i dd ? 50 100 a v dd = 3v, v in + = 1v, v in ? = 0v ha1631s01 tp lh ? (1.20) ? s ha1631s01/03 tp hl ? (0.55) ? s ha1631s01 t r ? (24) ? ns ha1631s01/03 t f ? (7) ? ns ha1631s02 tp lh ? (0.33) ? s ha1631s02/04 tp hl ? (0.17) ? s ha1631s02 t r ? (12) ? ns response time ha1631s02/04 t f ? (7) ? ns 1v dc bias, 100mv overdrive, c l = 15pf output source current (ha1631s01/02) i osource 6 13 ? ma vout = 2.5v output sink current i osink 7 14 ? ma vout = 0.5v ha1631s01/03 60 80 ? db common mode rejection ratio ha1631s02/04 cmrr 50 70 ? db v in 1 = 0v, v in 2 = 2v power supply rejection ratio psrr 60 80 ? db v dd 1 = 1.8v, v dd 2 = 5.5v output voltage high v oh v dd ?0.1 ? ? v r l = 10k ? to v ss output voltage low v ol ? ? 0.1 v r l = 10k ? to v dd output leakage current (only for ha1631s03/04) i lo ? (0.1) ? na v in + = 1v, v in ? = 0v, v o = 3v operating voltage range vopr 1.8 ? 5.5 v note: ( ): design specification ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 4 of 22 table of graphs electrical characteristics ha1631s01 figure ha1631s02 figure ha1631s03 figure ha1631s04 figure test circuit no. vs. supply voltage(out h) 1-1 2-1 3-1 4-1 1 vs. supply voltage(out l) 1-2 2-2 3-2 4-2 2 supply current i dd vs. temperature(out h) 1-3 2-3 3-3 4-3 1 output high voltage v oh vs. rload 1-18 2-18 3-4 4-4 4 output source current i osource vs. output high voltage 1-4 2-4 ? ? 5 output low voltage v ol vs. rload 1-17 2-17 3-14 4-14 6 output sink current i osink vs. output low voltage 1-5 2-5 3-4 4-4 5 vs. supply voltage 1-6 2-6 3-5 4-5 8 input offset voltage v io vs. temperature 1-7 2-7 3-6 4-6 7 common mode input voltage range v cm vs. temperature 1-8 2-8 3-7 4-7 9 power supply rejection ratio psrr vs. supply voltage 1-9 2-9 3-8 4-8 11 common mode rejection ratio cmrr vs. input voltage 1-10 2-10 3-9 4-9 12 vs. temperature 1-11 2-11 3-10 4-10 10 input bias current i ib vs. input voltage 1-12 2-12 3-11 4-11 10 vs. temperature 1-13 2-13 3-12 4-12 13 vs. cload 1-15 2-15 3-13 4-13 13 falling time t f time waveform 1-20 2-20 3-15 4-15 13 vs. temperature 1-14 2-14 ? ? 13 vs. cload 1-16 2-16 ? ? 13 rising time t r time waveform 1-19 2-19 ? ? 13 tp lh time waveform 1-21 2-21 ? ? 13 propagation delay time tp hl time waveform 1-22 2-22 3-16, 3-17 4-16, 4-17 13 ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 5 of 22 test circuits ? + a 1v 1. supply current, i dd (output high) v dd ? + a v in + ? a 1v 2. supply current, i dd (output low) v dd v dd ? + 1v 3. output source current, i osource 3v v out ? + 1v 4. output high voltage, v oh (output high) 3v r load + ? 1v 5. output sink current, i osink 3v v out + ? 1v 6. output low voltage, v ol (output low) 3v 3v r load 7. input offset voltage, v io 8. input offset voltage vs. v dd 3v note: v io = v out ? 1.5v v out ? + 1.5v 100 f 1m ? 1k ? 1k ? v in 1m ? 10k ? only for open drain ? + 100 f 1m ? 1k ? 1k ? 1m ? ? v dd 9. common mode input voltage range, v cm 10. input bias current, i ib 3v note: v cml and v cmh are values of v in when v io changes more than 50db taking v in = 0v as reference. ? + 1.5v 100 f 1m ? 1k ? 1k ? v in 1m ? 10k ? only for open drain v io v in v cmh v in = 0v v cml ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 6 of 22 11. power supply rejection ratio, psrr v out ? + v out 100 f 1k ? 1k ? 100 f 1m ? 10k ? only for open drain 1m ? 1m ? v dd /2 ? v dd /2 ? 1.5v 12. common mode rejection ratio, cmrr 1.5v ? + 1k ? 1k ? v in 1m ? 10k ? only for open drain c load 15pf 50 ? 0.1v ? 1v 13. falling time, rising time, propagation delay time tp lh , tp hl 2v ? + 10k ? only for open drain overdrive = 0.1v overdrive = 1.0v ? 1.8v 5.5v v out1 v out2 v io1 = v out1 /1000 v io2 = v out2 /1000 measure point v dd calculate v io psrr calculation psrr = 20log 10 |(v io2 ? v io1 )| 5.5v ? 1.8v ? 1.5v 0.5v v out1 v out2 v io1 = v out1 /1000 v io2 = v out2 /1000 measure point v in calculate v io cmrr calculation cmrr = 20log 10 |(v io2 ? v io1 )| 0.5v ? ( ? 1.5v) c load 15pf 50 ? 1.0v ? 1v 2v ? + 10k ? only for open drain 50% 50% 50% 50% 10% 10% 10% 50% tp lh 50% 50% 50% 90% 90% 90% input input output output input input output output tp lh tp hl tp hl only for push pull ha1631s01/02 only for open drain ha1631s03/04 t r t f t f ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 7 of 22 main characteristics 7.0 0.0 0123 supply voltage v dd (v) figure 1-1 ha1631s01 supply current vs. supply voltage (output high) figure 1-3 ha1631s01 supply current vs. ambient temperature figure 1-2 ha1631s01 supply current vs. supply voltage (output low) figure 1-4 ha1631s01 output high voltage vs. output source current 456 ?50 ?25 0 25 ambient temperature ta (?c) 50 75 100 0123 supply voltage v dd (v) 456 01020 output source current i osource (ma) 30 40 figure 1-5 ha1631s01 output low voltage vs. output sink current 01020 output sink current i osink (ma) 30 40 1.0 2.0 3.0 supply current i dd ( a) supply current i dd ( a) 4.0 5.0 6.0 10.0 0.0 2.5 5.0 7.5 7.0 0.0 1.0 2.0 3.0 supply current i dd ( a) 4.0 5.0 6.0 3.5 0.0 0.5 1.0 1.5 output high voltage v oh (v) 2.0 2.5 3.0 3.5 0.0 0.5 1.0 1.5 output low voltage v ol (v) 2.0 2.5 3.0 ta = 25?c v in + = 1.0v v in ? = 0.0v v dd = 5.0v v dd = 3.0v v dd = 1.8v ta = 25?c v in + = 0.0v v in ? = 1.0v ta = 25?c v dd = 3.0v ta = 25?c v dd = 3.0v 4 ?4 0123 supply voltage v dd (v) figure 1-6 ha1631s01 input offset voltage vs. supply voltage 456 ?3 ?2 ?1 0 input offset voltage v io (mv) 1 2 3 ta = 25?c v in = v dd /2 ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 8 of 22 figure 1-7 ha1631s01 input offset voltage vs. ambient temperature 4 ?4 ?3 ?2 ?1 0 input offset voltage v io (mv) 1 2 3 ?50 ?25 0 25 ambient temperature ta (?c) 50 75 100 v dd = 1.8v, v in = 0.9v v dd = 3.0v, v in = 1.5v v dd = 5.0v, v in = 2.5v ?50 ?25 0 25 50 75 100 figure 1-11 ha1631s01 input bias current vs. ambient temperature 200 ?200 ?100 0 input bias current i ib (pa) 100 ambient temperature ta (?c) v dd = 3.0v supply voltage v dd to v ss (v) figure 1-9 ha1631s01 power supply rejection ratio vs. supply voltage 1234567 120 0 20 40 60 power supply rejection ratio psrr (db) 80 100 ta = 25?c v in = 0.0v v dd = 0.0 to 2.75v v ss = 0.0 to ?2.75v v dd & v ss simultaneous sweep figure 1-10 ha1631s01 common mode rejection ratio vs. input voltage ?2.0 ?1.5 ?1.0 0.0 ?0.5 input voltage v in (v) 0.5 1.0 120 0 20 40 60 80 100 common mode rejection ratio cmrr (db) ta = 25?c v dd = 1.5v v ss = ?1.5v ?50 ?25 0 25 50 75 100 figure 1-8 ha1631s01 common mode input voltage vs. ambient temperature common mode input voltage v cm (v) 2.5 ?1.0 ?0.5 0.0 0.5 1.0 1.5 2.0 ambient temperature ta (?c) v cm + v cm ? v dd = 3.0v common mode input voltage range 0.0 0.5 1.0 1.5 input voltage v in (v) 2.0 2.5 3.0 figure 1-12 ha1631s01 input bias current vs. input voltage 200 ?200 ?100 0 input bias current i ib (pa) 100 ta = 25?c v dd = 3.0v ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 9 of 22 capacitor load c l (pf) figure 1-15 ha1631s01 falling time vs. capacitor load 0 1020304050 falling time t f (ns) 140 0 20 40 60 80 100 120 ta = 25?c v dd = 2.0v v ss = ?1.0v v in + = 0.1vp-p overdrive figure 1-13 ha1631s01 falling time vs. ambient temperature 18 0 2 4 6 8 falling time t f (ns) 10 12 14 16 ?50 ?25 0 25 ambient temperature ta (?c) 50 75 100 v dd = 1.8v v dd = 5.5v v dd = 3.0v figure 1-14 ha1631s01 rising time vs. ambient temperature ?50 ?25 0 25 50 75 100 rising time t r (ns) 70 0 10 20 30 40 50 60 ambient temperature ta (?c) v dd = 1.8v v dd = 5.5v v dd = 3.0v capacitor load c l (pf) figure 1-16 ha1631s01 rising time vs. capacitor load 0 1020304050 rising time t r (ns) 140 0 20 40 60 80 100 120 ta = 25?c v dd = 2.0v v ss = ?1.0v v in + = 0.1vp-p overdrive resistor load r l ( ? ) figure 1-17 ha1631s01 output low voltage vs. resistor load 1.0e+01 1.0e+03 1.0e+05 output low voltage v ol (v) 3.0 0.0 0.5 1.0 1.5 2.0 2.5 ta = 25?c v dd = 3.0v resistor load r l ( ? ) figure 1-18 ha1631s01 output high voltage vs. resistor load 1.0e+01 1.0e+03 1.0e+05 output high voltage v oh (v) 3.0 0.0 0.5 1.0 1.5 2.0 2.5 ta = 25?c v dd = 3.0v ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 10 of 22 v dd gnd ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive figure 1-19 ha1631s01 rising time, t r (overdrive = 0.1vp-p) figure 1-20 ha1631s01 falling time, t f (overdrive = 0.1vp-p) v dd gnd ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive figure 1-21 ha1631s01 tp lh transient response (overdrive = 0.1vp-p) ch1 gnd ch2 gnd input voltage output voltage ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive figure 1-22 ha1631s01 tp hl transient response (overdrive = 0.1vp-p) ch1 gnd ch2 gnd input voltage output voltage ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 11 of 22 70 0 0123 456 ?50 ?25 0 25 50 75 100 0123456 0 10203040 0 10203040 10 20 30 40 50 60 100 0 25 50 75 70 0 10 20 30 40 50 60 3.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 ta = 25?c v in + = 1.0v v in ? = 0.0v v dd = 5.0v v dd = 3.0v v dd = 1.8v ta = 25?c v in + = 0.0v v in ? = 1.0v ta = 25?c v dd = 3.0v ta = 25?c v dd = 3.0v supply voltage v dd (v) supply voltage v dd (v) figure 2-1 ha1631s02 supply current vs. supply voltage (output high) figure 2-3 ha1631s02 supply current vs. ambient temperature figure 2-2 ha1631s02 supply current vs. supply voltage (output low) figure 2-4 ha1631s02 output high voltage vs. output source current ambient temperature ta (?c) output source current i osource (ma) figure 2-5 ha1631s02 output low voltage vs. output sink current output sink current i osink (ma) supply current i dd ( a) supply current i dd ( a) supply current i dd ( a) output high voltage v oh (v) output low voltage v ol (v) 4 ?4 123456 ?3 ?2 ?1 0 1 2 3 ta = 25?c v in = v dd /2 supply voltage v dd (v) figure 2-6 ha1631s02 input offset voltage vs. supply voltage input offset voltage v io (mv) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 12 of 22 1234567 120 0 20 40 60 80 100 ta = 25?c v in = 0.0v v dd = 0.0 to 2.75v v ss = 0.0 to ?2.75v v dd & v ss simultaneous sweep supply voltage v dd to v ss (v) figure 2-9 ha1631s02 power supply rejection ratio vs. supply voltage power supply rejection ratio psrr (db) ?2.0 ?1.5 ?1.0 0.0 ?0.5 0.5 1.0 120 0 20 40 60 80 100 ta = 25?c v dd = 1.5v v ss = ?1.5v figure 2-10 ha1631s02 common mode rejection ratio vs. input voltage input voltage v in (v) common mode rejection ratio cmrr (db) 4 ?4 ?3 ?2 ?1 0 1 2 3 ?50 ?25 0 25 50 75 100 v dd = 1.8v, v in = 0.9v v dd = 3.0v, v in = 1.5v v dd = 5.0v, v in = 2.5v figure 2-7 ha1631s02 input offset voltage vs. ambient temperature input offset voltage v io (mv) ambient temperature ta (?c) ?50 ?25 0 25 50 75 100 200 ?200 ?100 0 100 v dd = 3.0v figure 2-11 ha1631s02 input bias current vs. ambient temperature input bias current i ib (pa) ambient temperature ta (?c) ?50 ?25 0 25 50 75 100 2.5 ?1.0 ?0.5 0.0 0.5 1.0 1.5 2.0 v cm + v cm ? v dd = 3.0v figure 2-8 ha1631s02 common mode input voltage vs. ambient temperature common mode input voltage v cm (v) ambient temperature ta (?c) common mode input voltage range 0.0 0.5 1.0 1.5 2.0 2.5 3.0 200 ?200 ?100 0 100 ta = 25?c v dd = 3.0v input voltage v in (v) figure 2-12 ha1631s02 input bias current vs. input voltage input bias current i ib (pa) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 13 of 22 0 1020304050 120 0 20 40 60 80 100 ta = 25?c v dd = 2.0v v ss = ?1.0v v in + = 0.1vp-p overdrive capacitor load c l (pf) figure 2-15 ha1631s02 falling time vs. capacitor load falling time t f (ns) 20 0 2 4 6 8 10 12 14 16 18 ?50 ?25 0 25 50 75 100 v dd = 1.8v v dd = 5.5v v dd = 3.0v figure 2-13 ha1631s02 falling time vs. ambient temperature falling time t f (ns) ambient temperature ta (?c) ?50 ?25 0 25 50 75 100 20 0 2 4 6 8 10 12 14 16 18 v dd = 1.8v v dd = 5.5v v dd = 3.0v figure 2-14 ha1631s02 rising time vs. ambient temperature rising time t r (ns) ambient temperature ta (?c) 0 1020304050 120 0 20 40 60 80 100 ta = 25?c v dd = 2.0v v ss = ?1.0v v in + = 0.1vp-p overdrive capacitor load c l (pf) figure 2-16 ha1631s02 rising time vs. capacitor load rising time t r (ns) 1.0e+01 1.0e+03 1.0e+05 3.0 0.0 0.5 1.0 1.5 2.0 2.5 ta = 25?c v dd = 3.0v resistor load r l ( ? ) figure 2-17 ha1631s02 output low voltage vs. resistor load output low voltage v ol (v) 1.0e+01 1.0e+03 1.0e+05 3.0 0.0 0.5 1.0 1.5 2.0 2.5 ta = 25?c v dd = 3.0v resistor load r l ( ? ) figure 2-18 ha1631s02 output high voltage vs. resistor load output high voltage v oh (v) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 14 of 22 ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive ch1 gnd ch2 gnd figure 2-22 ha1631s02 tp hl transient response (overdrive = 0.1vp-p) input voltage output voltage v dd gnd ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive figure 2-19 ha1631s02 rising time, t r (overdrive = 0.1vp-p) v dd gnd ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive figure 2-20 ha1631s02 falling time, t f (overdrive = 0.1vp-p) ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive ch1 gnd ch2 gnd figure 2-21 ha1631s02 tp lh transient response (overdrive = 0.1vp-p) input voltage output voltage ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 15 of 22 7.0 0.0 0123456 ?50 ?25 0 25 50 75 100 0123456 1.0 2.0 3.0 4.0 5.0 6.0 10.0 0.0 2.5 5.0 7.5 7.0 0.0 1.0 2.0 3.0 4.0 5.0 6.0 ta = 25?c v in + = 1.0v v in ? = 0.0v v dd = 5.0v v dd = 3.0v v dd = 1.8v ta = 25?c v in + = 0.0v v in ? = 1.0v 0 10203040 3.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 ta = 25?c v dd = 3.0v supply voltage v dd (v) supply voltage v dd (v) figure 3-1 ha1631s03 supply current vs. supply voltage (output high) figure 3-3 ha1631s03 supply current vs. ambient temperature figure 3-2 ha1631s03 supply current vs. supply voltage (output low) ambient temperature ta (?c) figure 3-4 ha1631s03 output low voltage vs. output sink current output sink current i osink (ma) supply current i dd ( a) supply current i dd ( a) supply current i dd ( a) output low voltage v ol (v) 4 ?4 0123456 ?3 ?2 ?1 0 1 2 3 ta = 25?c v in = v dd /2 supply voltage v dd (v) figure 3-5 ha1631s03 input offset voltage vs. supply voltage input offset voltage v io (mv) 4 ?4 ?3 ?2 ?1 0 1 2 3 ?50 ?25 0 25 50 75 100 v dd = 1.8v, v in = 0.9v v dd = 3.0v, v in = 1.5v v dd = 5.0v, v in = 2.5v figure 3-6 ha1631s03 input offset voltage vs. ambient temperature input offset voltage v io (mv) ambient temperature ta (?c) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 16 of 22 1234567 120 0 20 40 60 80 100 ta = 25?c v in = 0.0v v dd = 0.0 to 2.75v v ss = 0.0 to ?2.75v v dd & v ss simultaneous sweep supply voltage v dd to v ss (v) figure 3-8 ha1631s03 power supply rejection ratio vs. supply voltage power supply rejection ratio psrr (db) ?2.0 ?1.5 ?1.0 0.0 ?0.5 0.5 1.0 120 0 20 40 60 80 100 ta = 25?c v dd = 1.5v v ss = ?1.5v figure 3-9 ha1631s03 common mode rejection ratio vs. input voltage input voltage v in (v) common mode rejection ratio cmrr (db) 0.0 0.5 1.0 1.5 2.0 2.5 3.0 200 ?200 ?100 0 100 ta = 25?c v dd = 3.0v input voltage v in (v) figure 3-11 ha1631s03 input bias current vs. input voltage input bias current i ib (pa) ?50 ?25 0 25 50 75 100 200 ?200 ?100 0 100 v dd = 3.0v figure 3-10 ha1631s03 input bias current vs. ambient temperature input bias current i ib (pa) ambient temperature ta (?c) ?50 ?25 0 25 50 75 100 2.5 ?1.0 ?0.5 0.0 0.5 1.0 1.5 2.0 v cm + v cm ? v dd = 3.0v figure 3-7 ha1631s03 common mode input voltage vs. ambient temperature common mode input voltage v cm (v) ambient temperature ta (?c) common mode input voltage range 14 0 2 4 6 8 10 12 ?50 ?25 0 25 50 75 100 v dd = 1.8v v dd = 5.5v v dd = 3.0v figure 3-12 ha1631s03 falling time vs. ambient temperature falling time t f (ns) ambient temperature ta (?c) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 17 of 22 ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive ch1 gnd ch2 gnd 0 1020304050 45 0 5 10 15 20 15 25 30 35 40 ta = 25?c v dd = 2.0v v ss = ?1.0v v in + = 0.1vp-p overdrive figure 3-13 ha1631s03 falling time vs. capacitor load falling time t f (ns) capacitor load c l (pf) v dd gnd ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive figure 3-15 ha1631s03 falling time, t f figure 3-17 ha1631s03 tp hl transient response (overdrive = 0.1vp-p) ta = 25?c v dd = 3.0v c l = 15pf v in + = 0.1vp-p overdrive ch1 gnd ch2 gnd figure 3-16 ha1631s03 tp hl transient response (overdrive = 0.1vp-p) input voltage output voltage input voltage output voltage 1.0e+01 1.0e+03 1.0e+05 3.0 0.0 0.5 1.0 1.5 2.0 2.5 ta = 25?c v dd = 3.0v resistor load r l ( ? ) figure 3-14 ha1631s03 output low voltage vs. resistor load output low voltage v ol (v) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 18 of 22 70 0 0123456 ?50 ?25 0 25 50 75 100 0123456 10 20 30 40 50 60 100 0 25 50 75 70 0 10 20 30 40 50 60 ta = 25?c v in + = 1.0v v in ? = 0.0v v dd = 5.0v v dd = 3.0v v dd = 1.8v ta = 25?c v in + = 0.0v v in ? = 1.0v 0 10203040 3.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 ta = 25?c v dd = 3.0v supply voltage v dd (v) supply voltage v dd (v) figure 4-1 ha1631s04 supply current vs. supply voltage (output high) figure 4-3 ha1631s04 supply current vs. ambient temperature figure 4-2 ha1631s04 supply current vs. supply voltage (output low) ambient temperature ta (?c) figure 4-4 ha1631s04 output low voltage vs. output sink current output sink current i osink (ma) supply current i dd ( a) supply current i dd ( a) supply current i dd ( a) output low voltage v ol (v) 4 ?4 0123456 ?3 ?2 ?1 0 1 2 3 ta = 25?c v in = v dd /2 supply voltage v dd (v) figure 4-5 ha1631s04 input offset voltage vs. supply voltage input offset voltage v io (mv) 4 ?4 ?3 ?2 ?1 0 1 2 3 ?50 ?25 0 25 50 75 100 v dd = 5.0v, v in = 2.5v v dd = 3.0v, v in = 1.5v v dd = 1.8v, v in = 0.9v figure 4-6 ha1631s04 input offset voltage vs. ambient temperature input offset voltage v io (mv) ambient temperature ta (?c) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 19 of 22 1234567 120 0 20 40 60 80 100 ta = 25?c v in = 0.0v v dd = 0.0 to 2.75v v ss = 0.0 to ?2.75v v dd & v ss simultaneous sweep supply voltage v dd to v ss (v) figure 4-8 ha1631s04 power supply rejection ratio vs. supply voltage power supply rejection ratio psrr (db) ?2.0 ?1.5 ?1.0 0.0 ?0.5 0.5 1.0 120 0 20 40 60 80 100 ta = 25?c v dd = 1.5v v ss = ?1.5v figure 4-9 ha1631s04 common mode rejection ratio vs. input voltage input voltage v in (v) common mode rejection ratio cmrr (db) 0.0 0.5 1.0 1.5 2.0 2.5 3.0 200 ?200 ?100 0 100 ta = 25?c v dd = 3.0v input voltage v in (v) figure 4-11 ha1631s04 input bias current vs. input voltage input bias current i ib (pa) ?50 ?25 0 25 50 75 100 200 ?200 ?100 0 100 v dd = 3.0v figure 4-10 ha1631s04 input bias current vs. ambient temperature input bias current i ib (pa) ambient temperature ta (?c) ?50 ?25 0 25 50 75 100 3.0 ?0.5 0.0 0.5 1.0 1.5 2.0 2.5 v cm + v cm ? v dd = 3.0v figure 4-7 ha1631s04 common mode input voltage vs. ambient temperature common mode input voltage v cm (v) ambient temperature ta (?c) common mode input voltage range 7.0 0.0 1.0 2.0 3.0 4.0 5.0 6.0 ?50 ?25 0 25 50 75 100 v dd = 1.8v v dd = 5.5v v dd = 3.0v figure 4-12 ha1631s04 falling time vs. ambient temperature falling time t f (ns) ambient temperature ta (?c) ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 20 of 22 0 1020304050 120 0 20 40 60 80 100 ta = 25?c v dd = 2.0v v ss = ?1.0v v in + = 0.1vp-p overdrive capacitor load c l (pf) figure 4-13 ha1631s04 falling time vs. capacitor load falling time t f (ns) 1.0e+01 1.0e+03 1.0e+05 3.0 0.0 0.5 1.0 1.5 2.0 2.5 ta = 25?c v dd = 3.0v resistor load r l ( ? ) figure 4-14 ha1631s04 output low voltage vs. resistor load output low voltage v ol (v) v dd gnd ta = 25?c v dd = 3.0v c l = 15pf r l = 10k ? v in + = 0.1vp-p overdrive figure 4-15 ha1631s04 falling time, t f (overdrive = 0.1vp-p) ch1 gnd ch2 gnd ta = 25?c v dd = 3.0v c l = 15pf r l = 10k ? v in + = 0.1vp-p overdrive figure 4-16 ha1631s04 tp hl transient response (overdrive = 0.1vp-p) input voltage output voltage ch1 gnd ch2 gnd ta = 25?c v dd = 3.0v c l = 15pf r l = 10k ? v in + = 0.1vp-p overdrive figure 4-17 ha1631s04 tp hl transient response (overdrive = 0.1vp-p) input voltage output voltage ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 21 of 22 mark indication (1) (2) ha1631s01cm ha1631s02cm ha1631s03cm ha1631s04cm HA1631S01LP HA1631S01LP HA1631S01LP HA1631S01LP (1) 0 0 0 0 (2) a b c d ha1631s01/02/03/04 series rev.1.00, 2003.08.08, page 22 of 22 package information package code jedec jeita mass (reference value) cmpak-5v ? conforms 0.006 g 2.0 0.2 1.3 0.2 (0.65) 5 ? 0.2 0.05 (0.65) (0.425) (0.425) 1.25 0.1 2.1 0.3 (0.2) 0.9 0.1 0.15 0 ? 0.1 + 0.1 ? 0.05 unit: mm 0.16 0 ? 0.1 0.95 0.6 5 ? 0.4 2.9 0.2 1.9 0.2 1.6 2.8 + 0.2 ? 0.3 + 0.2 ? 0.1 + 0.1 ? 0.05 0.95 0.6 + 0.1 ? 0.05 1.1 0.3 + 0.2 ? 0.1 package code jedec jeita mass (reference value) mpak-5 ? ? 0.015 g unit: mm ? 2003. renesas technolo gy corp., all ri g hts reserved. printed in japan . colo p hon 1.0 keep safet y first in y our circuit desi g ns ! 1. renesas technolo gy corp. puts the maximum effort into makin g semiconductor products better and more reliable, but there is alwa y s the possibilit y that trouble m a y occur with them. trouble with semiconductors ma y lead to personal in j ur y , fire or propert y dama g e . remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placem ent of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap. notes regarding these materials 1. these materials are intended as a reference to assist our customers in the selection of the renesas technology corp. product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to renesas t echnology corp. or a third party. 2. renesas technology corp. assumes no responsibility for any damage, or infringement of any third-party's rights, originating in the use of any product data, diagrams, charts, programs, algorithms, or circuit application examples contained in these materials. 3. all information contained in these materials, including product data, diagrams, charts, programs and algorithms represents i nformation on products at the time of publication of these materials, and are subject to change by renesas technology corp. without notice due to product improvement s or other reasons. it is therefore recommended that customers contact renesas technology corp. or an authorized renesas technology corp. product distrib utor for the latest product information before purchasing a product listed herein. the information described here may contain technical inaccuracies or typographical errors. renesas technology corp. assumes no responsibility for any damage, liability, or other loss rising from these inaccuracies or errors. please also pay attention to information published by renesas technology corp. by various means, including the renesas tech nology corp. semiconductor home page (http://www.renesas.com). 4. when using any or all of the information contained in these materials, including product data, diagrams, charts, programs, a nd algorithms, please be sure to evaluate all information as a total system before making a final decision on the applicability of the information and products. renesas technology corp. assumes no responsibility for any damage, liability or other loss resulting from the information contained herein. 5. renesas technology corp. semiconductors are not designed or manufactured for use in a device or system that is used under ci rcumstances in which human life is potentially at stake. please contact renesas technology corp. or an authorized renesas technology corp. product distributor when considering the use of a product contained herein for any specific purposes, such as apparatus or systems for transportation, vehicular, medical, aerosp ace, nuclear, or undersea repeater use. 6. the prior written approval of renesas technolo gy corp. is necessar y to reprint or reproduce in whole or in part these materials . 7 . if these products or technolo g ies are sub j ect to the japanese export control restrictions, the y must be exported under a license from the japanese g overnment and cannot b e imported into a countr y other than the approved destination. an y diversion or reexport contrar y to the export control laws and re g ulatio n s of japan and/or the countr y of destination is prohibited . 8. please contact renesas technolo gy corp. for further details on these materials or the products contained therein . s ales strate g ic plannin g div. nippon bld g ., 2-6-2, ohte-machi, chi y oda-ku, tok y o 100-0004, japa n htt p ://www.renesas.co m renesas technology america, inc. 450 holger way, san jose, ca 95134-1368, u.s.a tel: <1> (408) 382-7500 fax: <1> (408) 382-7501 renesas technology europe limited. dukes meadow, millboard road, bourne end, buckinghamshire, sl8 5fh, united kingdom tel: <44> (1628) 585 100, fax: <44> (1628) 585 900 renesas technology europe gmbh dornacher str. 3, d-85622 feldkirchen, germany tel: <49> (89) 380 70 0, fax: <49> (89) 929 30 11 renesas technology hong kong ltd. 7/f., north tower, world finance centre, harbour city, canton road, hong kong tel: <852> 2265-6688, fax: <852> 2375-6836 renesas technology taiwan co., ltd. fl 10, #99, fu-hsing n. rd., taipei, taiwan tel: <886> (2) 2715-2888, fax: <886> (2) 2713-2999 renesas technology (shanghai) co., ltd. 26/f., ruijin building, no.205 maoming road (s), shanghai 200020, china tel: <86> (21) 6472-1001, fax: <86> (21) 6415-2952 renesas technology singapore pte. ltd. 1, harbour front avenue, #06-10, keppel bay tower, singapore 098632 tel: <65> 6213-0200, fax: <65> 6278-8001 renesas sales offices |
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