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fhp3130, fhp3230, FHP3430 rev. 1a 1 www.fairchildsemi.com december 2005 fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampli?rs features at ?v 2.5ma supply current per ampli?r 0.008% / 0.01? differential gain/phase 16mhz 0.1db bandwidth at v o = 2v pp output voltage range at r l = 150 ? : -4.8v to 4.8v input includes negative rail 110v/? slew rate ?00ma output current 17nv/ hz input voltage noise >100db psrr, cmrr, and open loop gain fhp3130 ?improved replacement for km4100 fhp3230 ?improved replacement for km4200 fhp3130 lead(pb)-free package options (sot23-5, soic-8) fhp3230 lead(pb)-free package options (msop-8, soic-8) FHP3430 lead(pb)-free package options (tssop-14, soic-14) rohs compliant fully speci?d at +3v, +5v, and ?v supplies applications a/d driver active ?ters ccd imaging systems cd/dvd rom coaxial cable drivers po r table/battery-powered applications t wisted pair driver video driver description the fhp3130 (single), fhp3230 (dual), and FHP3430 (quad) are low cost, high performance, voltage feedback ampli?rs that consume only 2.5ma of supply current per channel while pro- viding ?00ma of output current. these ampli?rs are designed to operate from 2.7v to 12v (?v) supplies. the common mode v oltage range extends below the negative rail and the output provides rail-to-rail performance. the fhp3130, fhp3230, and FHP3430 are designed on a complimentary bipolar process and provide 170mhz of band- width and 110v/? of slew rate at a supply voltage of ?v. the combination of low power, rail-to-rail performance, low voltage operation, and tiny package options make these ampli?rs well suited for use in many general purpose high speed applications. these ampli?rs also provide excellent video speci?ations. they offer extremely low differential gain and phase (0.008%/ 0.01?) and 0.1db gain ?tness to 16mhz for superb standard de?ition video performance. their output drive capability effort- lessly supports 4 video loads. t ypical application - yc video line driver y in 1k ? 1k ? 75 ? 75 ? y out 1/2 fhp3230 c in 1k ? 1k ? 75 ? 75 ? c ou t 1/2 fhp3230 0.01 differential gain (%) -0.7 -0.5 -0.3 -0.1 0.1 0.3 0.5 0.7 input voltage (v) -0.01 -0.006 -0.004 -0.002 0 0.002 0.004 0.006 0.008 -0.008 0.01 differential phase (deg) -0.01 -0.006 -0.004 -0.002 0 0.002 0.004 0.006 0.008 -0.008 v s = 5v r l = 150 ? gain phase
www.fairchildsemi.com 2 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers 2 3 45 6 7 8 -vs +vs +in1 nc out nc 1 -in1 nc fhp3130 soic - + 2 3 5 4 +in +vs -in 1 -vs out fhp3130 sot23 7 2 3 4 -vs +in1 1 -in1 out1 fhp3230 soic/msop 5 6 7 8 out2 +vs -in2 +in2 4 2 3 4 11 12 13 14 +vs -in +in1 out4 +in4 -vs 1 -in1 out1 FHP3430 soic/tssop 5 6 7 out2 -in2 +in2 8 9 10 +in3 -in out3 pin con?urations pin assignments fhp3230 pin# pin type description 1 out1 output output, channel 1 2 -in1 input negative input, channel 1 3 +in1 input positive input, channel 1 4 -vs input negative supply 5 +in2 input positive input, channel 2 6 -in2 input negative input, channel 2 7 out2 output output, channel 2 8 +vs input positive supply fhp3130 pin# sot/soic pin type description 1 / 6 out input output 2 / 4 -vs input negative supply 3 / 3 +in input positive input 4 / 4 -in input negative input 5 / 7 +vs input positive supply na / 1, 5, 8 nc - no connect FHP3430 pin# pin type description 1 out1 output output, channel 1 2 -in1 input negative input, channel 1 3 +in1 input positive input, channel 1 4 +vs input positive supply 5 +in2 input positive input, channel 2 6 -in2 input negative input, channel 2 7 out2 output output, channel 2 8 out3 output output, channel 3 9 -in3 input negative input, channel 3 10 +in3 input positive input, channel 3 11 -vs input negative supply 12 +in4 input positive input, channel 4 13 -in4 input negative input, channel 4 14 out4 output output, channel 4
fhp3130, fhp3230, FHP3430 rev. 1a 3 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers absolute maximum ratings reliability information note: 1. package thermal resistance ( ja ), jdec standard, multi-layer test boards, still air. esd protection recommended operating conditions p arameter min max unit supply voltage 0 12.6 v input voltage range -v s -0.5v +v s + 0.5v v p arameter min typ max unit j unction temperature 150 ?c storage temperature range -65 150 ?c lead temperature (soldering, 10s) 300 ?c 8-lead soic 1 155 ?c/w 8-lead msop 1 246 ?c/w 5-lead sot23 1 296 ?c/w 14-lead tssop 1 130 ?c/w 14-lead soic 1 128 ?c/w product fhp3130 fhp3230 FHP3430 pa c kage sot23 soic soic msop soic tssop human body model (hbm) tbd tbd 3.5kv 3.5kv tbd tbd charged device model (cdm) tbd tbd 2kv 1.5kv tbd tbd p arameter min typ max unit operating temperature range -40 +85 ?c supply voltage range 2.7 12 v
www.fairchildsemi.com 4 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers electrical characteristics at +3v t c = 25?c, v s = 3v, r l = 2k ? to v s /2, g = 2, r f = r g =1k ? ; unless otherwise noted. symbol parameter conditions min typ max units frequency domain response ugbw -3db bandwidth g = +1, v out = 0.2v pp 160 mhz bw ss -3db bandwidth g = +2, v out = 0.2v pp 50 mhz bw ls full power bandwidth g = +2, v out = 1v pp 45 mhz bw 0.1dbss 0.1db bandwidth g = +2, r l = 150 ? , r f = r g = 1.5k ? , v out = 0.2v pp 25 mhz gbwp gain bandwitdth product g = +6, v out = 0.2v pp 60 mhz time domain response t r , t f rise and fall time v out = 0.2v step 12 ns t s settling time to 0.1% v out = 2v step 45 ns os overshoot v out = 0.2v step <1 % sr slew rate v out = 2v step, g = -1 90 v/ s distortion / noise response hd2 2nd harmonic distortion v out = 1v pp , 5mhz 50 dbc hd3 3rd harmonic distortion v out = 1v pp , 5mhz 50 dbc thd total harmonic distortion v out = 2v pp , 5mhz, r l = 100 ? , g = -1 50 db e n input voltage noise > 100khz 17 nv/ hz x t alk crosstalk fhp3230 at 1mhz 62 db dc performance v io input offset voltage 1 mv dv io average drift -5 v/?c i b input bias current -1.8 a di b average drift -3.5 na/?c i io input offset current 0.01 a psrr power supply rejection ratio dc 100 db a ol open loop gain dc, r l = 150 ? 100 db i s supply current per ampli?r 2.5 ma input characteristics r in input resistance 500 k ? c in input capacitance 1.25 pf cmir input common mode v range -0.3 to 2 v cmrr common mode rejection ratio dc, v cm = 0v to v s - 1.5 95 db output characteristics v o output voltage swing r l = 2k ? to v s /2, g = -1 0.05 to 2.95 v r l = 150 ? to v s /2, g = -1 0.1 to 2.9 v i out linear output current ?00 ma i sc short circuit output current v o = v s /2 ?20 ma
fhp3130, fhp3230, FHP3430 rev. 1a 5 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers electrical characteristics at +5v t c = 25?c, v s = 5v, r l = 2k ? to v s /2, g = 2, r f = r g =1k ? ; unless otherwise noted. symbol parameter conditions min typ max units frequency domain response ugbw -3db bandwidth g = +1, v out = 0.2v pp 165 mhz bw ss -3db bandwidth g = +2, v out = 0.2v pp 50 mhz bw ls full power bandwidth g = +2, v out = 2v pp 30 mhz bw 0.1dbss 0.1db bandwidth g = +2, r l = 150 ? , r f = r g = 1.5k ? , v out = 0.2v pp 18 mhz gbwp gain bandwitdth product g = +6, v out = 0.2v pp 60 mhz time domain response t r , t f rise and fall time v out = 0.2v step 12 ns t s settling time to 0.1% v out = 2v step 55 ns os overshoot v out = 0.2v step <1 % sr slew rate v out = 2v step, g = -1 105 v/ s distortion / noise response hd2 2nd harmonic distortion v out = 2v pp , 5mhz 56 dbc hd3 3rd harmonic distortion v out = 2v pp , 5mhz 75 dbc thd total harmonic distortion v out = 2v pp , 5mhz 56 db e n input voltage noise > 100khz 17 nv/ hz x t alk crosstalk fhp3230 at 1mhz 62 db dg differential gain ntsc (3.58mhz), r l = 150 ? , ac coupled into 220?, v s = ?.5v 0.02 % dp differential phase ntsc (3.58mhz), r l = 150 ? , ac coupled into 220?, v s = ?.5v 0.04 ? dc performance v io input offset voltage 1 mv dv io average drift -5 v/?c i b input bias current -1.8 a di b average drift -3.5 na/?c i io input offset current 0.01 a psrr power supply rejection ratio dc 100 db a ol open loop gain dc, r l = 150 ? 100 db i s supply current per ampli?r 2.5 ma input characteristics r in input resistance 500 k ? c in input capacitance 1.2 pf cmir input common mode v range -0.3 to 4 v cmrr common mode rejection ratio dc, v cm = 0v to v s - 1.5 95 db output characteristics v o output voltage swing r l = 2k ? to v s /2 0.05 to 4.95 v r l = 150 ? to v s /2 0.1 to 4.9 v i out linear output current ?00 ma i sc short circuit output current v o = v s /2 ?20 ma
www.fairchildsemi.com 6 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers electrical characteristics at ?v t c = 25?c, v s = ?v, r l = 2k ? to gnd, g = 2, r f = r g =1k ? ; unless otherwise noted. notes: 1. 100% tested at 25?c 2. min/max guaranteed by design/characterization. symbol parameter conditions min typ max units frequency domain response ugbw -3db bandwidth g = +1, v out = 0.2v pp 170 mhz bw ss -3db bandwidth g = +2, v out = 0.2v pp 50 mhz bw ls full power bandwidth g = +2, v out = 2v pp 30 mhz bw 0.1dbss 0.1db bandwidth g = +2, r l = 150 ? , r f = r g = 1.5k ? , v out = 0.2v pp 16 mhz gbwp gain bandwitdth product g = +6, v out = 0.2v pp 60 mhz time domain response t r , t f rise and fall time v out = 0.2v step 12 ns t s settling time to 0.1% v out = 2v step 52 ns os overshoot v out = 0.2v step <1 % sr slew rate v out = 2v step, g = -1 110 v/ s distortion / noise response hd2 2nd harmonic distortion v out = 2v pp , 5mhz 55 dbc hd3 3rd harmonic distortion v out = 2v pp , 5mhz 75 dbc thd total harmonic distortion v out = 2v pp , 5mhz 55 db e n input voltage noise > 100khz 17 nv/ hz x t alk crosstalk fhp3230 at 1mhz 62 db dg differential gain ntsc (3.58mhz), r l = 150 ? , ac coupled into 220? 0.008 % dp differential phase ntsc (3.58mhz), r l = 150 ? , ac coupled into 220? 0.01 ? dc performance v io input offset voltage 1 -6 1 6 mv dv io average drift -5 v/?c i b input bias current 1 -3.5 -1.8 a di b average drift -3.5 na/?c i io input offset current 1 -0.8 0.002 0.8 a psrr power supply rejection ratio 2 dc 80 100 db a ol open loop gain 2 dc, r l = 150 ? 80 100 db i s supply current per ampli?r 1 2.5 3.5 ma input characteristics r in input resistance 500 k ? c in input capacitance 1.1 pf cmir input common mode v range -5 to 4 v cmrr common mode rejection ratio 2 dc, v cm = -5v to 3.5v 75 100 db output characteristics v o output voltage swing r l = 2k ? -4.95 to 4.95 v r l = 150 ? 1 -4.65 -4.8 to 4.8 4.65 v i out linear output current ?00 ma i sc short circuit output current v o = 0v ?20 ma
fhp3130, fhp3230, FHP3430 rev. 1a 7 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers t ypical performance characteristics t c = 25?c, v s = 5v, r l = 2k ? to v s /2 for v s = 5v and 3v, r l = 2k ? to ground for v s = ?v, g = 2, r f = r g = 1k ? ; unless otherwise noted. 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 g = 10 g = 1 r f = 0 g = 5 g = 2 v s = 5v v o = 0.2v pp 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 g = -1 v s = 5v v o = 0.2v pp g = -10 g = -5 g = -2 -30 -40 -50 -60 -70 -80 psrr (db) 0.1 1 10 30 fr equency (mhz) -90 -20 -30 -40 -50 -60 -70 -80 psrr (db) 0.1 1 10 30 f requency (mhz) -90 using 0.1 f and 0.01 f bypass capacitors as suggested 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 g = 10 g = 1 r f = 0 g = 5 g = 2 v s = +5v v o = 0.2v pp 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 g = -1 v s = +5v v o = 0.2v pp g = -10 g = -5 g = -2 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 g = 10 g = 1 r f = 0 g = 5 g = 2 v s = +3v v o = 0.2v pp 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 g = -1 v s = +3v v o = 0.2v pp g = -10 g = -5 g = -2 figure 5. non-inverting freq. response (+3v) figure 6. inverting freq. response (+3v) figure 3. non-inverting freq. response (+5v) figure 4. inverting freq. response (+5v) figure 1. non-inverting freq. response (?v) figure 2. inverting freq. response (?v)
www.fairchildsemi.com 8 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers t ypical performance characteristics t c = 25?c, v s = 5v, r l = 2k ? to v s /2 for v s = 5v and 3v, r l = 2k ? to ground for v s = ?v, g = 2, r f = r g = 1k ? ; unless otherwise noted. 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 c l = 2000pf r s = 5 ? v s = +3v v o = 0.2v pp 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 r l = 50 ? v s = +3v v o = 0.2v pp r l = 5k ? r l = 1k ? r l = 150 ? c l = 1000pf r s = 6.5 ? c l = 500pf r s = 10 ? c l = 100pf r s = 20 ? c l = 50pf r s = 15 ? + - 1k ? 1k ? r s c l r l 1 normalized gain (db) 0.1 f requency (mhz) 0 -1 -2 -3 -4 -5 -6 -7 1000 100 10 1 v o = 1v pp v o = 2v pp v o = 4v pp 0.2 0 -0.2 -0.4 -0.6 -0.8 normalized gain (db) 0.1 fr equency (mhz) -1 100 10 1 g = 2 v s = +5v v s = 3v v s = 5v v s = 10v g = 2 r f = r g = 1.5k ? v s = +5v r l = 150 ? -40 distortion (dbc) 0.1 f requency (mhz) -45 -50 -55 -60 -65 -70 -75 -80 -85 -90 10 1 r l = 1k ? v o = 1v pp r l = 5k ? r l = 2k ? r l = 150 ? -40 distortion (dbc) 0.1 f requency (mhz) -45 -50 -55 -60 -65 -70 -75 -80 -85 -90 10 1 r l = 1k ? v o = 1v pp r l = 5k ? r l = 2k ? r l = 150 ? figure 11. hd2 vs. r l (+3v) figure 12. hd3 vs. r l (+3v) figure 7. frequency response vs. c l (+3v) figure 8. frequency response vs. r l (+3v) figure 9. large signal freq. response (+5v) figure 10. gain vs. flattness
fhp3130, fhp3230, FHP3430 rev. 1a 9 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers t ypical performance characteristics t c = 25?c, v s = 5v, r l = 2k ? to v s /2 for v s = 5v and 3v, r l = 2k ? to ground for v s = ?v, g = 2, r f = r g = 1k ? ; unless otherwise noted. 0 -10 -20 -30 -40 -50 -60 -70 -80 psrr (db) 10k fr equency (hz) -90 1g 100k 1m 10m 100m v s = 5v -20 -30 -40 -50 -60 -70 -80 -90 -100 cmrr (db) 10k f requency (hz) -120 1g 100k 1m 10m 100m v s = 5v 3.25 output voltage (v) -2.0 input voltage (v) 3.0 2.75 2.50 2.25 2.0 1.75 1.50 1.25 1.0 0.75 0.50 0.25 0 -0.25 -1.5 -1.0 -0.5 0 0.5 1.0 1.5 2.0 r l = 10k ? r l = 150 ? g = -1 r l = 75 ? 80 70 60 50 40 30 20 10 0 -10 gain (db) 10k f requency (hz) -20 1g 100k 1m 10m 100m phase (deg) 0 -20 -40 -60 -80 -100 -120 -140 -160 -180 -200 gain phase v s = 5v -40 distortion (dbc) 0.5 output amplitude (v pp ) -95 2.5 0.9 1.3 1.7 2.1 2.3 0.7 1.1 1.5 1.9 -40 distortion (dbc) 0.5 output amplitude (v pp ) -45 -50 -55 -60 -65 -70 -75 -80 -85 -90 -45 -50 -55 -60 -65 -70 -75 -80 -85 -90 -95 0.7 0.9 1.1 1.3 1.5 1.7 1.9 2.1 2.3 2.5 10mhz 5mhz 1mhz 100khz 10mhz 5mhz 100mhz 1mhz figure 17. open loop gain and phase figure 18. output swing vs. load (+3v) figure 15. cmrr vs. frequency figure 16. psrr vs. frequency figure 13. hd2 vs. v o (+5v) figure 14. hd3 vs. v o (+5v)
www.fairchildsemi.com 10 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers t ypical performance characteristics t c = 25?c, v s = 5v, r l = 2k ? to v s /2 for v s = 5v and 3v, r l = 2k ? to ground for v s = ?v, g = 2, r f = r g = 1k ? ; unless otherwise noted. -30 crosstalk (db) 0.1 f requency (mhz) -35 -40 -45 -50 -55 -60 -65 -70 -75 -80 -85 -90 110100 100 90 80 70 60 50 40 30 20 10 input voltage noise (nv/ hz) 0.0001 f requency (mhz) 0 100 0.001 0.01 0.1 1 10 2.5 2.0 1.5 1.0 0.5 0 v oltage (v) 0 time ( s) -0.5 1.0 g = 2 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 output voltage (0.5v/div) time (0.2 s/div) 1.2v offset 0.6v offset no offset -0.6v offset -1.2v offset g = -1 figure 20. crosstalk vs. frequency (+3v) figure 19. input voltage noise (+3v) figure 21. pulse resp. vs. common mode voltage figure 22. large signal pulse response (+3v) figure 23. large signal pulse response (+5v) figure 24. large signal pulse response (?v) 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 v oltage (v) 0 time ( s) -0.5 1.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 g = 2 3.5 3.0 1.5 2.0 2.5 1.0 0.5 0 v oltage (v) 0 time ( s) -0.5 1.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 g = 2
fhp3130, fhp3230, FHP3430 rev. 1a 11 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers t ypical performance characteristics t c = 25?c, v s = 5v, r l = 2k ? to v s /2 for v s = 5v and 3v, r l = 2k ? to ground for v s = ?v, g = 2, r f = r g = 1k ? ; unless otherwise noted. 0.05 0.04 0.03 0.02 0.01 0 -0.01 -0.02 -0.03 differential gain (%) -0.6 -0.4 -0.2 0 0.2 0.4 0.6 input voltage (v) -0.04 r l = 150 ? ac coupled into 220f gain phase 0.05 0.04 0.03 0.02 0.01 0 -0.01 -0.02 -0.03 differential phase (deg) -0.04 0.01 differential gain (%) -0.7 -0.5 -0.3 -0.1 0.1 0.3 0.5 0.7 input voltage (v) -0.01 -0.006 -0.004 -0.002 0 0.002 0.004 0.006 0.008 -0.008 0.01 differential phase (deg) -0.01 -0.006 -0.004 -0.002 0 0.002 0.004 0.006 0.008 -0.008 v s = 5v r l = 150 ? ac coupled into 220f gain phase figure 26. differential gain and phase (?v) figure 25. differential gain and phase (?.5v)
www.fairchildsemi.com 12 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers applications information general description the fhp3130 (single), fhp3230 (dual), and FHP3430 (quad) are low cost, high performance, voltage feedback ampli?rs that consume only 2.5ma of supply current per channel while pro- viding ?00ma of output current. these ampli?rs are designed to operate from 2.7v to 12v (?v) supplies. the common mode v oltage range extends below the negative rail and the output provides rail-to-rail performance. the fhp3130, fhp3230, and FHP3430 are designed on a complimentary bipolar process and provide 170mhz of band- width and 110v/? of slew rate at a supply voltage of ?v. the combination of low power, rail-to-rail performance, low voltage operation, and tiny package options make these ampli?rs well suited for use in many general purpose high speed applications. these ampli?rs also provide excellent video speci?ations. they offer extremely low differential gain and phase (0.008%/ 0.01?) and 0.1db gain ?tness to 16mhz for superb standard de?ition video performance. their output drive capability effort- lessly supports 4 video loads. driving capacitive loads the frequency response vs. c l plot on page 8, illustrates the response of the fhp3230 family. a small series resistance (r s ) at the output of the ampli?r, illustrated in figure 27, will improve stability and settling performance. r s v alues in the f requency response vs. c l plot were chosen to achieve maxi- m um bandwidth with less than 1db of peaking. for maximum ?tness, use a larger r s . figure 27. t ypical topology for driving capactive loads po wer dissipation the maximum internal power dissipation allowed is directly related to the maximum junction temperature. if the maximum junction temperature exceeds 150? for an extended time, device f ailure may occur. the fhp3130, fhp3230 and FHP3430 are short circuit protected. however, this may not guarantee that the maximum junction temperature (+150?) is not exceeded under all conditions. rms power dissipation can be calculated using the following equation: po w er dissipation = i s * (v s + - v s -) + (v s + - v o(rms) ) * i out(rms) where i s is the supply current, v s + is the positive supply pin v oltage, v s - is the negative supply pin voltage, v o(rms) is the rms output voltage and i out(rms) is the rms output current delivered to the load. f ollow the maximum power derating curves shown in figure 28 below to ensure proper operation. figure 28. maximum power derating overdrive recovery f or an ampli?r, an overdrive condition occurs when the output and/or input ranges are exceeded. the recovery time varies based on whether the input or output is overdriven and by how m uch the ranges are exceeded. the fhp3130/3230/3430 will typically recover in less than 50ns from an overdrive condition. figure 29 shows the fhp3230 in an overdriven condition. figure 29. overdrive recovery composite video summer the bandwidth and differential gain/phase performance of the fhp3130/3230/3430 ampli?rs make them well suited for video applications. figure 30 shows a typical composite video sum- mer. the high output current capability allows for driving multi- ple video loads. figure 31 shows the resulting differential gain/ phase of this 3-amp con?uration driving 4 video loads, 37.5 ? . + - r f r g r s c l r l 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 maximum power dissipation (w) -40 ambient temperature (c) 0 -20 0 20 40 60 80 tssop-14 soic-14 soic-8 msop-8 sot23-5 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 v oltage (v) 0 time (s) -0.5 0.2 0.6 0.4 0.8 10 1.2 1.4 1.6 1.8 output input v s = 3v g = 5 r l = 2k ? r f = 1k ?
fhp3130, fhp3230, FHP3430 rev. 1a 13 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers figure 30. typical composite video summer figure 31. dg/dp of cv summer driving 4 video loads layout considerations general layout and supply bypassing play major roles in high frequency performance. fairchild has evaluation boards to use as a guide for high frequency layout and as aid in device testing and characterization. follow the steps below as a basis for high frequency layout: include 6.8? and 0.01? ceramic capacitors place the 6.8? capacitor within 0.75 inches of the power pin place the 0.01? capacitor within 0.1 inches of the power pin remove the ground plane under and around the part, especially near the input and output pins to reduce parasitic capacitance minimize all trace lengths to reduce series inductances refer to the evaluation board layouts shown below for more information. evaluation board information the following evaluation boards are available to aid in the test- ing and layout of thes devices: evalutaion board schematics evaluation board schematics and layouts are shown in figures 32 thru 46. these evaluation boards are built for dual supply operation. follow these steps to use the board in a single supply application: 1. short -v s to ground 2. use c3 and c4, if the -v s pin of the ampli?r is not directly connected to the ground plane. figure 32. fhp3130 keb002/keb003 schematic + - 1k ? 1k ? 1k ? y in 75 ? 75 ? 1/4 FHP3430 + - 1k ? 1k ? 1k ? c in 75 ? 1/4 FHP3430 + - 1k ? 500 ? 1k ? 1/4 FHP3430 cy out 75 ? 0.05 0 -0.05 -0.1 -0.15 -0.2 -0.25 differential gain (%) 0.05 0 -0.05 -0.1 -0.15 -0.2 -0.25 differential phase (deg) -0.7 input voltage (v) -0.5 -0.3 -0.1 0.1 0.3 0.5 0.7 gain phase v s = 5v r l = 37.5 ? evaluation board # products keb002 fhp3130is5x keb003 fhp3130im8x keb010 fhp3230imu8x keb006 fhp3230im8x keb012 FHP3430imtc14x keb018 FHP3430im14x
www.fairchildsemi.com 14 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers figure 33. fhp3130 keb002 (top side) figure 34. fhp3130 keb002 (bottom side) figure 35. fhp3130 keb003 (top side) figure 36. fhp3130 keb003 (bottom side)
fhp3130, fhp3230, FHP3430 rev. 1a 15 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers figure 37. fhp3230 keb006/keb010 schematic figure 38. fhp3230 keb006 (top side) figure 39. fhp3230 keb006 (bottom side) figure 40. fhp3230 keb010 (top side)
www.fairchildsemi.com 16 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers figure 41. fhp3230 keb010 (bottom side) figure 42. FHP3430 keb012/keb018 schematic figure 43. FHP3430 keb012 (top side) figure 44. FHP3430 keb012 (bottom side)
fhp3130, fhp3230, FHP3430 rev. 1a 17 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers figure 45. FHP3430 keb018 (top side) figure 46. FHP3430 keb018 (bottom side)
www.fairchildsemi.com 18 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers mechanical dimensions 8-lead outline package (soic) 8-lead outline package (msop) h e c l zd c l e d pin no. 1 b a a1 a2 7 l detail-a detail-a c h x 45 note: 1. all dimensions are in millimeters. 2. lead coplanarity should be 0 to 0.10mm (.004") max. 3. package surface finishing: (2.1) top: matte (charmilles #18~30). (2.2) all sides: matte (charmilles #18~30). (2.3) bottom: smooth or matte (charmilles #18~30). 4. all dimensions excluding mold flashes and end flash from the package body shall not exceed 0.152mm (.006) per side (d). symbol min max a1 0.10 0.25 b 0.36 0.46 c 0.19 0.25 d 4.80 4.98 e 3.81 3.99 e 1.27 bsc h 5.80 6.20 h 0.25 0.50 l 0.41 1.27 a 1.52 1.72 0 zd 0.53 ref a2 1.37 1.57 8 soic-8 es e/2 2x e3 e4 12 ccc abc ? b ? 2 37 2 6 4 d2 a2 a a1 ? a ? ? c ? bbb ab c m b d 4 3 aaa a e1 ? h ? t1 t2 gauge plane 0.25mm r1 r l l1 03 02 01 detail a scale 40:1 section a - a b cc1 b1 e2 e1 e detail a 5 a a symbol min max a 1.10 a1 0.10 0.05 a2 0.86 0.08 d 3.00 0.10 d2 2.95 0.10 e 4.90 0.15 e1 3.00 0.10 e2 2.95 0.10 e3 0.51 0.13 e4 0.51 0.13 r 0.15 +0.15/-0.06 r1 0.15 +0.15/-0.06 t1 0.31 0.08 t2 0.41 0.08 b 0.33 +0.07/-0.08 b1 0.30 0.05 c 0.18 0.05 c1 0.15 +0.03/-0.02 01 3.0 3.0 02 12.0 3.0 03 12.0 3.0 l 0.55 0.15 l1 0.95 bsc ? aaa 0.10 ? bbb 0. 08 ? ccc 0.25 ? e 0.65 bsc ? s 0.525 bsc ? msop-8 ? note: 1 all dimensions are in millimeters (angle in degrees), unless otherwise specified. 2 datums ? b ? and ? c ? to be determined at datum plane ? h ? . 3 dimensions "d" and "e1" are to be determined at datum ? h ? . 4 dimensions "d2" and "e2" are for top package and dimensions "d" and "e1" are for bottom package. 5 cross sections a ? a to be determined at 0.13 to 0.25mm from the leadtip. 6 dimension "d" and "d2" does not include mold flash, protrusion or gate burrs. 7 dimension "e1" and "e2" does not include interlead flash or protrusion.
fhp3130, fhp3230, FHP3430 rev. 1a 19 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers mechanical dimensions 14-lead outline package (soic) 14-lead outline package (tssop) h e c l zd c l e d pin no. 1 b a a1 a2 7 l detail-a detail-a c h x 45 note: 1. all dimensions are in inches. 2. lead coplanarity should be 0 to 0.10mm (.004") m 3. package surface finishing: (2.1) top: matte (charmilles #18~30). (2.2) all sides: matte (charmilles #18~30). (2.3) bottom: smooth or matte (charmilles #18~3 0 4. all dimensions excluding mold flashes and end fl a from the package body shall not exceed o.152m m per side (d). symbol min max a1 .0040 .0098 b .014 .018 c .0075 .0098 d .337 .344 e .150 .157 e .050 bsc h .2284 .2440 h .0099 .0196 l .016 .050 a .060 .068 0 zd 0.20 ref a2 .054 .062 8 soic-14 e/2 2x ddd c b a 6 6 1.0 1.0 123 9 e /2 e1 e e n 8 ? b ? 7 2x n/2 tips 1.0 dia ? a ? 7 ? c ? aaa c ccc 8 3 d cb a bbb m b nx a1 a2 a c1 c (b) b1 5 section aa 10 a a ? h ? gage plane 0.25 (0.20) (02) r1 r 01 (l1) l (03) notes: 1 all dimensions are in millimeters (angle in degrees). 2 dimensioning and tolerancing per asme y14.5?1994. 3 dimensions "d" does not include mold flash, protusions or gate burrs. mold flash protusions or gate burrs shall not exceed 0. 15 per side . 4 dimension "e1" does not include interlead flash or protusion. interlead flash or protusion shall not exceed 0.25 per side. 5 dimension "b" does not include dambar protusion. allowable dambar protusion shall be 0.08mm total in excess of the "b" dimens ion at maximum material condition. dambar connot be located on the lower radius of the foot. minimum space between protusion and adjacent lead is 0.07mm for 0.5mm pitch packages. symbol min nom max a ? ? 1.10 a1 0.05 ? 0.15 a2 0.85 0.90 0.95 l 0.50 0.60 0.75 r 0.09 ? ? r1 0.09 ? ? b 0.19 ? 0.30 b1 0.19 0.22 0.25 c 0.09 ? 0.20 c1 0.09 ? 0.16 01 0 ? 8 l1 1.0 ref aaa 0.10 bbb 0.10 ccc 0.05 ddd 0.20 e 0.65 bsc 02 12 ref 03 12 ref tssop-14 d 4.90 5.00 5.10 e1 4.30 4.40 4.50 e 6.4 bsc e 0.65 bsc n 14
www.fairchildsemi.com 20 fhp3130, fhp3230, FHP3430 rev. 1a fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers mechanical dimensions 5-lead outline package (sot23) b e e1 d c l e c l c l a a2 a1 e1 c 2 da tum 'a' c l note: 1. all dimensions are in millimeters. 2 foot length measured reference to flat foot surface parallel to datum 'a' and lead surface. 3. package outline exclusive of mold flash & metal burr. 4. package outline inclusive of solder plating. 5. comply to eiaj sc74a. 6. package st 0003 rev a supercedes sot-d-2005 rev c. symbol min max a 0.90 1.45 a1 0.00 0.15 a2 0.90 1.30 b 0.25 0.50 c 0.09 0.20 d 2.80 3.10 e 2.60 3.00 e1 1.50 1.75 l 0.35 0.55 e 0.95 ref e1 1.90 ref 0 10
fhp3130, fhp3230, FHP3430 rev. 1a 21 www.fairchildsemi.com fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers ordering information te mperature range for all parts: -40?c to +85?c. moisture sensitivity level for all parts is msl-1. * preliminary model part number lead free package container pack qty fhp3130 fhp3130is5x* yes sot23-5 reel 3000 fhp3130 fhp3130im8x* yes soic-8 reel 2500 fhp3230 fhp3230imu8x* yes msop-8 reel 3000 fhp3230 fhp3230im8x yes soic-8 reel 2500 FHP3430 FHP3430imtc14x* yes tssop-14 reel 2500 FHP3430 FHP3430im14x* yes soic-14 reel 2500
www.fairchildsemi.com 22 ?005 fairchild semiconductor corporation fhp3130, fhp3230, FHP3430 single, dual, and quad, high speed, 2.7v to 12v, rail-to-rail ampliers disclaimer fairchild semiconductor reserves the right to make changes without further notice to any products herein to improve reliability, function or design. fairchild does not assume any liability arising out of the application or use of any product or circuit described herein; neither does it convey any license under its patent rights, nor the rights of others. trademarks the following are registered and unregistered trademarks fairchild semiconductor owns or is authorized to use and is not intended to be an exhaustive list of all such trademarks. life support policy f airchild?s products are not authorized for use as critical components in life support devices or systems without the express written approval of fairchild semiconductor corporation. as used herein: 1. life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, or (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user. 2. a critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. product status definitions definition of terms datasheet identification product status definition advance information preliminary no identification needed obsolete this datasheet contains the design specifications for product development. specifications may change in any manner without notice. this datasheet contains preliminary data, and supplementary data will be published at a later date. fairchild semiconductor reserves the right to make changes at any time without notice in order to improve design. this datasheet contains final specifications. fairchild semiconductor reserves the right to make changes at any time without notice in order to improve design. this datasheet contains specifications on a product that has been discontinued by fairchild semiconductor. the datasheet is printed for reference information only. formative or in design first production full production not in production isoplanar? littlefet? microcoupler? microfet? micropak? microwire? msx? msxpro? ocx? ocxpro? optologic ? optoplanar? p acman? pop? power247? poweredge? f ast ? f astr? fps? frfet? globaloptoisolator? gto? hisec? i 2 c? i-lo ? implieddisconnect? intellimax? rev. i16 acex? activearray? bottomless? build it now? coolfet? crossvolt ? dome? ecospark? e 2 cmos? ensigna? f act? f act quiet series? powersaver? powertrench ? qfet ? qs? qt optoelectronics? quiet series? rapidconfigure? rapidconnect? serdes? silent switcher ? smart start? spm? s tealth? superfet? supersot?-3 supersot?-6 supersot?-8 syncfet? tinylogic ? tinyopto? trutranslation? uhc? ultrafet ? unifet? vcx? wire? across the board. around the world.? the power franchise ? programmable active droop?

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