FAIRCHILD LOGIC/CONNECTION DIAGRAMS LINEAR L-OA1 L-OA2 L-OA3 2 A302, pA310, pA714C/E/L A307 2A308, pAI0BA OFFSET NULL NC COMP ao >). 7a ~IN ouT v- ye Metal Can and Mini-Dip Connection Shown L-OA5 L-OA6 uA709C pAT725C/E IN FREQ COMP OFFSET TAB ~ NULL IN FREQ ve Wd COMP) O -IN > O out ~IN O FREQ = od j} me O un _g_ Pour nea come v- v~ Metal Can and Mini-Dip Connection Shown L-OA7 L-OAB L-OA9 A730C pA318, pAF355, nAF345, BASOIA, nAT4&8C, pAT77C LOW Z pAT4A0A/E, pA7T41C/E OUT 2 NC FREQ COMP OFFSET Zo Ve NULL {J ~iIN O out CO OFFSET NULL GND v- v- Metal Can and Mini-Dip Metal Can and Mini-Dip Connection Shown Connection Shown 13-16FAIRCHILD LOGIC/CONNECTION DIAGRAMS LINEAR L-OA19 L-OA20 L-OA21 pATI5C BATAIC/E HATATC/E 1 VV 14 1 sO ee BL rn 14 comp 14[_ | | _] comp 26 nc] NC -wa Tl] OeESeT 2 13 2 13 2 13 COMP 1B P]v nel] ai *al Tv 3 12 i 2 orFset -~ = 2 CASCODE |] comp 2a TOOL | NC NULLA : os OUT A 4 vi 4 4 -w] |] output -n(_] Tye v- CO NC 5 10 5 10 5 10 +N CI | v- +iN CO | OUT NULL CO | a ouTe 6 a 6 9 6 9 nc [| Nc v-C] pEEseT +IN B CI aw V+B 7 8 oFFsET 8 7 8 7 NULL B NC r] Nc ne[_| Bi -INB L-OA22 L-OA23 L-OA24 HAZ01A, uA748, uA777C HATTEC A3401 WU) 1 VW 14 1 14 1 neL_] (ne NC ~ NC +n B[_| P+ 2 3 2 2 13 neL_] Bic NC 12 13 Bit +1N aL | +INC 12 OFFSET 3 FREQ org 3 3 + t+] J-7| L12 SET - (come) 4 7 COMP Nutt LJ se 'N C a sIND -n(] Y_|v+ -nf_] [_|v+ out aC T] -in b 5 10 5 10 5 10 +in[_] [jour +n] [jour OUT of [Jour p 6 9 6 9 6 8 v-L mo noe NBL b|A ALLA LT Jour c 7 8 8 7 8 7 NC Bit: ne[_] Bi enn(_] T_] -inc L-OA25 L-OA26 _ L-OA27 2 A324, pA348, .A3403 pA4136 A308, A308A 1 1 TI 14 1 VJ 14 out Oy -INA []-1n b NC NC 2 13 2 13 anal] P]+in p comp [_| P]Ne OUT A L D Jour D cunno r COMP oute[_| T |+vs a ve one J Jour c aE. -INB Oy Pan c GUARD Co Fy NC 7 7 8 -vs (] -IN Cc v- Cl ry NC +IN ia z out BL] 13-18FAIRCHILD LINEAR OPERATIONAL AMPLIFIERS OPERATIONAL AMPLIFIERSCOMMERCIAL (0C TO +70C) - >* | _ |O8 |5Se] 8 3 3 Of Sgclotiaa| 2s > 8 3 gfe] 3 3 Eo 2; a |eS2/F |F | 8 1 BAZOIA General Purpose Op Amp 75 30 50 250 +12 2 uA302 Voltage Follower 15 30 ~ 30 +10 3 A307 General Purpose Op Amp 7.5 30 50 250 +15 4 A308 Super Beta Op Amp 7.6 30 1.0 7.0) +13.5 5 pA308A Super Beta Op Amp 0.5 5.0 1.0 7.0] +13.5 6 #A310 Voltage Follower 7.5 _ _ 7.0 +10 7 A318 High Speed Op Amp 10 _ 200 500 +115 8 | A324 Quad Op Amp 70 | | 50 | 250 |+13,-V5 9 | A348 Quad Op Amp 6.0 _ 50 | 200 +12 10 | AF355 FET Input Op Amp 10 |} 0.05 0.2 +10 11 wAF356 FET Input Op Amp 10 | 0.05 0.2 +10 12 A702C WideBand dc Amp 5.0 10 ; 2000 | 7500 | ~4,+0.5 13 | A709C High Perf Op Amp 7.5 | 500 | 1500 +8 14 | wA714C High Perf Op Amp 0.15 1.8 6.0 7.0 +13 15 BATICE High Perf Op Amp 0.075 1.3 3.8 4.0 +13 16 BATIAL High Perf Op Amp 0.25 3.0 20 30 +13 17 | pAT7I5C High Speed Op Amp 7.5 ad 250 | 1500 +10 18 | wA725C Instr Op Amp 25 _ 35 125) +13.5 19 pAT25E Instr Op Amp 0.5 2.0 5.0 75 +13.5 20 | pA727C Temp Controlled Diff Amp 10. 1.5 25 75 +12 21 | yA730C Differential Amp 5.0 _ 3.0 16 +3.5 22 | ywA740E FET Input Op Amp 100 _ 0.3 2.0 +10 23) wAT41C Freq Comp Op Amp 6.0 _ 200 500 +12 24 | pAT41E Freq Comp Op Amp 3.0 15 30 80 +12 25 | wA747C Dual Freq Comp Op Amp 6.0 _ 200 | 500 +12 26 | pA747E Dual Freq Comp Op Amp 3.0 _ 200 500 +12 27 | pA748C High Perf Op Amp / 6.0 > 200 500 +12 28 pATTEC Multi-Purpose Prog Op Amp tIlset = 15 pA) 6.0 _ 25 50 +10 Military, automotive and industrial range devices are available. Please request specific data.FAIRCHILD LINEAR Supply Voltage ~ 8 ce c o 38 3 5 3 o Min Max z 3 5 g 5 eo SS>| 2 Sra/ Zeige] | a [SE 58 Ss 3 $3 | 2" |S25| 28 le-5| 2 | = [EE] FE 2 5 o ;3 |e 6 las > > | ge 5 a +30 |. 25K] 1.0 5.0 | 05 +3 +18 | 3.0 1 L-OA9,22 TO-99,6A,9T |0.9985; 10 1.0 10 | +12 +18 | 5.5 0 L-OA1 TO-99 +30 | 25K] 1.0 5.0 | 05 +3 +18 | 3.0 0 L-OA2 TO-99,9T +05 | 15K] 1.0 1.0 | 03 +5 +18 | 0.8 1 L-OA3,27 TO-99,9T +05 | 80K} 1.0 10 | 03 +2 +20 | 08 1 L-OA3,27 TO-99,9T | 0.999] 20 1.0 30 +5 +18 | 5.5 ) L-OA1 TO-99 +10 | 25K] 15 6.0 50 +5 +18 | 10 0 L-OA8 TO-99 +32 | 25K) .1.0 12 | 05 +5 +32 | 2.0 0 L-OA25 6A,9A +36 | 25K} 1.0 50 | 05 +5 +18 | 4.5 i) L-OA25 6A,9A +30 { SOK] 25 { 5.0 45 +18 | 4.0 0 L-OA8 TO-99,9T +30 | 50K{ 5.0 _ 12 +5 +18 | 10 0 L-OA8 TO-99,9T +5 2K| 30 35 | 3.5 | +6-3 |+14,-7 | 67 2 L-OA4,17 TO-99,6A +5 | 15K] 1.0 50 | 03 +9 +18 | 29 0 L-OA5,18 | TO-99,6A,9A,9T +30 | 12 5.5 | 0.25 +3 422 | 5.0 0 L-OA1 TO-99 +30 | 12 6.0 | 0.25 +3 +22 | 4.0 ) L-OA1 TO-99 +30 | 12 5.0 | 0.25 +3 +18 | 6.0 0 L-OA1 TO-99 +15 | 10K} 65 5.0 | 100 +6 +18 | 10 3 L-0A12,19 TO-100,6A +22 | 250K] 1.0 5.0 +3 +22 | 3.0 4 L-OA6 TO-99 +22 |1000K} 1.0 5.0 +3 +22 | 3.0 4 L-OA6 TO-99 +15 | 0.06K} 1.0 | 0.001 +9 +18 | 5.7 2 L-OA13 TO-100 +5 | 0.1K] 1.5 _ = +6 414 | 13 ) L-OA7 TO-99 +30] 25K] 3.0 5.0 | 60 +5 +22 | 8.0 0 L-OA8 TO-99 +30 | 20K] 1.0 50 | 05 +5 +18 | 28 0 L-OA8,20 | TO-99,6A,9A,9T +30 | SOK! 1.0 5.0 | 07 +5 +22 13.75 0 L-OA8,20 TO-99,6A,9T +30] 20K] 1.0 5.0 0.5 +5 +18 | 56 0 L-OA14,21 | TO-100,6A,9A +30 | 20K| 1.0 5.0 | 05 +5 418 | 4.25 0 L-O0A14,21 TO-100,6A +30 { 20K/ 1.0 50 | 05 +5 418 | 28 1 L-OA9,22 | TO-99,6A,6T,9T +30 | SOK} 1.0 20 | o8 | +12 418 | 0.19 1 L-OA10,23 TO-99,6A,9T 7-9