M239AD O|SG239AN DIL-14/1C}R2 |R1 [V+ {E-1/E+1/E-2/E+2/E+3/E-4 -4) +4,G /R4 |R3 MLM239L LM239D 0/SG239J DIL-14/1P }R2 [RL |V+ JE-1/E+1/E-2/E+2/E+3/E-4 E-4 E+4G R4 {RB MLW239L LM239D 0)SG239N DIL-14/1C}N |N [FT {E- JE+ |V- JN JN ITFTR [V+] F* IN IN UA301AD LM301AJ14 /0|SG301AD FLP-10/1C|N |FT |E- E+ |V- |T* JR [V+ IF*|N ~fo. ef. : SFC2201 APT |0|SG30LAF DIL-14/1C|N |N |FT {E- JE+ [V- JN JN |T#] R [V+] F* IN YN UA3014D LM301AJ14 |0}/SG301AJ DIL-8/1P |FT JE- jE+ |V- [T* IR |V+ JF] of] oy. of : SFC2301ADC | LM301AJ 0|SG301AM DIL-14/1P|N |N |FT /E- [E+ JV- JN JN |T#]R | V+IF* IN IN UA301AD LM301AJ14 /0|SG301AN TOS-8/1M jFT JE- [E+ |V-MIT* JR j+ [Fe] of}. fe. SFC2301A |LM301AH 0[SG301AT DIL-14/1C|N IN |T JN JEt JV- JN IN JL | R | V+ ]T* IN IN SFC2310EC |LM310D 0)SG302J DIL-8/1P |T {N {E+ |V- [L IR f+ |T* SFC2310DC |LM310N 0{SG302M DIL-14/1P|N |N {T JN E+ [- IN JN JL |] R [V+ ]T* IN IN SFC2310EC }|LM3100 0]SG302N TOS-8/1M |T (N JE+ /V- JL JR [V+ {Te ] . : : . . . UA302C LM302H
| MIN |MIN LM301AJ NAU! GPU] EXT +18V/-18V| 70C | 88dB |7. SMV |250NA | SONA) SOOMWF| SMA} 12V! 15V) 30V} 30uV/C 3MA | 700B | 70dB 500K LM301AJ TOG GPU; EXT +18V|-18V) 70C | 88dB 7. SMV ;250NA | SONA) SOOMNF) SMA} 12| 15V! 30! 30uv/C 3MA | 70dB! 70dB BOOK LM301AJ14 | NAU GPU! EXT +18V)-18V) 70C | 88dB {7.5MV |250NA| SONA) SOOMWF} SMA] 12V/ 15V| 30V |} 30uv/C 3MA | 70dB | 70dB SOOK LM302AN ING GPU] EXT +18V/-18] 70C| 88dB |7. SMV |250NA } SONA) SOOMWF| SMA} 12V/ 15V] 30 |} 30uv/C 3MA | 70dB | 70dB SOOK LM3O1AN(8) | MUG GPU] EXT +18Y/-18V) 70C| 88dB |7. SMV |250NA | SONA) SOOMWF| SMA] 12V| 15V] 30} 30uV/C 70dB | 70dB SOOK LM301AN-8 | TDG GPU) EXT +18V/-18V) 70C | 88dB |7.SMV |250NA | SONA) SOOMWF | SMA} 12V1 15] 30 | 30uv/C 3MA | 70dB | 70dB BOOK LM301AT SJU GPU] EXT +18V)-18V| 70C; 88dB |7.SMV |250NA) SONA) SOOMWF| SMA! 12V} 15V| 30) 30uv/C 70dB } 70dB 500k LM301AV SJU) GPU! EXT +18V)-18V) 70C | 88dB |7.5MV |250NA | SONA|SOOMWF| SMA! 12V/ 15V| 30) 30uv/C : 70dB | 70dB SO0K LM301D ADU GPU] EXT +18V
LM201AF = 0 |TOA201 AF DIL-14/1C IN {N |FT {E~ JE+ j- JN IN iT*|R | V+ [F* IN IN UAZO1AD = |LM201AJ14 [0 /TOA201AJ TO5-8/1M |FT jE~ JE+ |V-M|T* JR V+ |F* SFC2101A |LM201AH = {0 TOA201 AV DIL-14/1P IN JN |FT JE- JE+ |- JN JN JT*)R | V+ |F* IN IN UA3O1AD = |LM301AJ14 [0 [TOA301AE FLP-10/3C IN |FT jE- JE+ |V- |T* JR Wt JFeIN J 2). [ed SFC2201APM|LM2Z01AF = [0 | TOA301AF DIL-14/1C IN |N |FT JE- JE+ |V- iN) JN (T*]R [V+ [F* IN JN UA3O1AD = |LM301AJ14 {0 |TOA301AJ TO5-8/1M |FT |E- |E+ }V-MIT* JR [Vt [Fe | op 2p ep pede SFC2301AH |LM301AH = |0 ]TOA301AV DIL-14/1P |N |N |F* JE- JE+ |V- IN JN |@ |R {V+ |F IN IN LM709D UA7O9DM = |0. |] TOA1709 FLP-10/3C IN |F* JE- JE+ |V- j@ JR |t HF IN | . |. |e] - . UA709FM = 10 ]TOA1709F DIL-14/1C JN JN |F* JE- JE+ |- |N) JN |@ JR {V+ |F IN IN LM7090 UA709DM = ]0 1T0A1709 DIL-14/1P IN JN |F* JE- JE+ |V- IN) JN j@ JR {V+ |F+ IN IN LM7090 UA70SDM -|0. |TOA1709P TO5-8/1M |F* |E- JE+ |V-MJo |R J+ [FoF -]} .) . ] de]. TAAS22 UA7OSHM = 10 TOA1709V DIL-14/1P/N JN
LM201AF = 0 |TOA201 AF DIL-14/1C IN {N |FT {E~ JE+ j- JN IN iT*|R | V+ [F* IN IN UAZO1AD = |LM201AJ14 [0 /TOA201AJ TO5-8/1M |FT jE~ JE+ |V-M|T* JR V+ |F* SFC2101A |LM201AH = {0 TOA201 AV DIL-14/1P IN JN |FT JE- JE+ |- JN JN JT*)R | V+ |F* IN IN UA3O1AD = |LM301AJ14 [0 [TOA301AE FLP-10/3C IN |FT jE- JE+ |V- |T* JR Wt JFeIN J 2). [ed SFC2201APM|LM2Z01AF = [0 | TOA301AF DIL-14/1C IN |N |FT JE- JE+ |V- iN) JN (T*]R [V+ [F* IN JN UA3O1AD = |LM301AJ14 {0 |TOA301AJ TO5-8/1M |FT |E- |E+ }V-MIT* JR [Vt [Fe | op 2p ep pede SFC2301AH |LM301AH = |0 ]TOA301AV DIL-14/1P |N |N |F* JE- JE+ |V- IN JN |@ |R {V+ |F IN IN LM709D UA7O9DM = |0. |] TOA1709 FLP-10/3C IN |F* JE- JE+ |V- j@ JR |t HF IN | . |. |e] - . UA709FM = 10 ]TOA1709F DIL-14/1C JN JN |F* JE- JE+ |- |N) JN |@ JR {V+ |F IN IN LM7090 UA709DM = ]0 1T0A1709 DIL-14/1P IN JN |F* JE- JE+ |V- IN) JN j@ JR {V+ |F+ IN IN LM7090 UA70SDM -|0. |TOA1709P TO5-8/1M |F* |E- JE+ |V-MJo |R J+ [FoF -]} .) . ] de]. TAAS22 UA7OSHM = 10 TOA1709V DIL-14/1P/N JN
M |R* |G JR |V- SN5514L 10 |SN7514L DIL-8/1P jE j+ JE* IN |R* 1G YR fW- |. fe] eye Pe] SNSS14P 10 }SN7514P FLP-14/3C IN IN |FT JE- JE+ |V- IN IN) |T*#]R /V+ |F* INO IN . . 10 |SN72301AFA DIL-14/1C IN. IN JFT JE- JE |V- JN) IN) |T* | R /+ |F* IN IN UA301AD LM301AJ14 0 [SN72301AJ TOS-8/1M |FT JE- |E+ |V-M|T* JR |V+ [Fe |. ] 2p 2]. pe]. SFC2301A |LM301AH 10 |SN72301 AL DIL-14/1P IN| |N |FT JE- |E+ |V- IN) JN) |T* | R [V+ |F* INO JN UA301AD LM301AJ14 10 [SN72301AN DIL-8/1P |FT JE- |E+ |V- jT* JR |+ JFe Pop ete). te]. SFC2302 ADC |LM301AJ 10 |SN72301 AP FLP-14/3C IN |G [E+ |E- JN |- |S1 |S2 JR |N |+ JN IN JN . LM206F 10 |SN72306FA DIL-14/1C IN |G jE+ |E- JN |V- |S1 jS2 |R |N /+ JN IN: JN SN52106J 10 |SN72306J TO5-8/1M IG |JE+ jE- |V-MjS1 jS2 IR [We |. t 2] 2]. ded. LM306H 0 |SN72306L DIL-14/1P IN |G |E+ JE- JN |- jS1 |S2 JR |N /+ JN IN: JN SN52106N |0 |SN72306N DIL-8/1P IG JE+ JE- |V- jS$1 jS2 jR We |. ] op. Pe de. SNS2106P [0 /SN72306P FLP-14/3C |N [NIN JE- JE+ ]V- JN IN IN | R [+ JN IN
1P JR1 [E-LJE+1 |G JE+2)E-2)R2 [V+ LM2903N - [O|LM293N(8) TO5-8/1M |R1 [E-1JE+1(G [E+2|E-2iR2 [V+ LM293H O}LM293T DIL-8/1P JRL JE-1JE+1/G f&+2]E-2jR2 |V+ |.) .} 27. |e]. : LM2903N {O|LM293V DIL-14/1P|N JN JFT JE- jE+ |V- IN IN |T* |R 1V+ jF* NIN UA301AD | LM301AJ14 |O]LM301AA MOL-8/2P |FT /E- JE+ 1- JT JR JV+ Fe |] 2p ede Pe de : TDAO301D = /Q]LM301AD DIL-14/1CjN |N [FT JE- JE+ |- IN JN |T* |R [V+ [F* WIN UA3O1AD =| LM301AJ14 |O|LM301AF TOS-8/1M |FT |E- JE+ |-M|T* [Ro [V+ |F* SFC2301AH |UA301AH = |0{LM301AHAppendix A The general layout plan of the information in the tables of this compendium should be immediately evident from the data tabulation explanatory chart set out overleaf. Supporting Appendices with additional information are: App.B Glossary of Opamp Terms App.C Tabulation Codes for Manufacturers App.D IC Manufacturers House Numbers App.E Tabulation Codes for Applications App.F Case Outline and Leadout Diagrams App.G = Codes for Leadout Connections Unit symbols used in the ta
+ JE+2/E-2)R2 |R3 |E-3]E+3}V- |E+4 F-4)R4 LM248D LM2490 0} AM249-DIP CHP : LD301A O}AM301A~DICE DIL-8/1P |FT /E- JE+ jV- |T* JR V+ Fe | fp et pe de] SFC2301ADC|LM301AN = j0 | AM301A-DIL8 DIL-14/1C IN |N [FT JE- JE+ }V- IN) JN) JT* TR [V+ |F* NIN UA301AD _|LM301AJ14 |] AM301A-DIP TO5-8/1M |FT jE- J|E+ {-M|T* |R |V+ |F* SFC2301AH |LM301AH = {0 ]AM301A-T0S CHP ete de fe ped. pede pepe de. be ye] - . LD301 0 |AM301-DICE DIL-14/1C JN JN [FT JE- JE+ |- IN| IN |T* ER [V+ |F* NIN LM3010 0]AM301-DIPFor detailed explanations of column heading notations, see App. A. Also for ready references the more important abbreviations used in the column headings are listed below LEFT HANO PAGE APP = application (codes at APP-E.) CMRR = common mode rejection ratio CMP = compensation (frequency! dV,9/dT = input offset voltage temperature drift GBP = gain bandwidth product ly = (nput bias current hp = input bias offset current ly = Quiescent supply current MFR == manufacturer (codes at App.C.j Py == quiescent power consu
2/V-1 IRL |V+1 OP-10EY DIL-14/1C fT1_ |T*1 JE-1 JE+1 WV-2 R2 W422 fT*2}E-2]E+2|-1 JRL V+] (OP- 10 D DIL-14/1 [Ti |T*1 |E-1 J+1 |V-2 IR2 WW+2 12 |T*2) E-2/E+2/V-1 RL [V+] (OP-10AY BML . . D DIL-14/1C NIN. |FT JE- JE+ \V- IN IN T* |R | + |F* WN IN UASOIAD = LM301AJ14 FLP-10/3G N FT JE- JE+ |V- |T* [R > [V+ F* |N SFC2201APM [LM2O1AF =D TO5S-8/1M FT |E- jE+ |V-M|T* [Ro V+ IF* SFC2301A [LM301AH BML ete te fe pe fe fe pe pedo. to. pe pe y]- . : p DIL-14/1C N JN IN {E- JE+ V- IN; NO IN [R |+ [NIN IN ISN72307JA |LM307D p DIL-8/1P NN jE- |E+ |V- JN JR |+ IN ef ede fe fede ISFC2307DC |LM307J p DIL-14/1P IN IN IN JE- jE+ |- JN) IN IN |R |+ JN INO ON ISN72307JA {LW307D p FLP-10/3C NIN JE- [E+ jV- IN GRO V+ IN JN SFC2207PT |LM207F p T05-8/1M N |E- |E+ |V-MIN) IR V+ IN fede de fed. ISFC2307 ~- |LM307H 0 DIL-14/10 N {FIN jE- JE+ JN) \- IN; IN YR JV+ |F* INO JN WAZ08AD = |LM308AD ss P TO5-8/1M \F jE- jE+ |V-MIN JR Wt Fe J. ft ef. pe Ped SFC2308A |LM308AH = DIL-14/10.N |F IN |E- JE+ IN [V- IN IN |R |V+ |F* IN IN
+ JE+2/E-2)R2 |R3 |E-3]E+3}V- |E+4 F-4)R4 LM248D LM2490 0} AM249-DIP CHP : LD301A O}AM301A~DICE DIL-8/1P |FT /E- JE+ jV- |T* JR V+ Fe | fp et pe de] SFC2301ADC|LM301AN = j0 | AM301A-DIL8 DIL-14/1C IN |N [FT JE- JE+ }V- IN) JN) JT* TR [V+ |F* NIN UA301AD _|LM301AJ14 |] AM301A-DIP TO5-8/1M |FT jE- J|E+ {-M|T* |R |V+ |F* SFC2301AH |LM301AH = {0 ]AM301A-T0S CHP ete de fe ped. pede pepe de. be ye] - . LD301 0 |AM301-DICE DIL-14/1C JN JN [FT JE- JE+ |- IN| IN |T* ER [V+ |F* NIN LM3010 0]AM301-DIPAppendix A The general layout plan of the information in the tables of this compendium should be immediately evident from the data tabulation explanatory chart set out overleaf. Supporting Appendices with additional information are: App.B Glossary of Opamp Terms App.C Tabulation Codes for Manufacturers App.D IC Manufacturers House Numbers App.E Tabulation Codes for Applications App.F Case Outline and Leadout Diagrams App.G = Codes for Leadout Connections Unit symbols used in the tables are: A = amperes C = cent
+ JE+2/E-2)R2 |R3 |E-3]E+3}V- |E+4 F-4)R4 LM248D LM2490 0} AM249-DIP CHP : LD301A O}AM301A~DICE DIL-8/1P |FT /E- JE+ jV- |T* JR V+ Fe | fp et pe de] SFC2301ADC|LM301AN = j0 | AM301A-DIL8 DIL-14/1C IN |N [FT JE- JE+ }V- IN) JN) JT* TR [V+ |F* NIN UA301AD _|LM301AJ14 |] AM301A-DIP TO5-8/1M |FT jE- J|E+ {-M|T* |R |V+ |F* SFC2301AH |LM301AH = {0 ]AM301A-T0S CHP ete de fe ped. pede pepe de. be ye] - . LD301 0 |AM301-DICE DIL-14/1C JN JN [FT JE- JE+ |- IN| IN |T* ER [V+ |F* NIN LM3010 0]AM301-DIPAppendix A The general layout plan of the information in the tables of this compendium should be immediately evident from the data tabulation explanatory chart set out overleaf. Supporting Appendices with additional information are: App.B Glossary of Opamp Terms App.C Tabulation Codes for Manufacturers App.D IC Manufacturers House Numbers App.E Tabulation Codes for Applications App.F Case Outline and Leadout Diagrams App.G = Codes for Leadout Connections Unit symbols used in the tables are: A = amperes C = cent
+ {W /- IN IN TR jV+ |F* WIN , LM2080 0 FUAZ08D FLP-10/3C IN |W JE- JE+ |W /- IR [V+ |F* IF SFC2208PT |LM208F 0 JUAZ08F TO5-8/1M |F JE~ E+ |- IN JR |+ [Fe Pot of. dP. pe]. SFC2208 | LM208H 0 JUAZO8H DIL-14/1C IN JN [TF JE- JE+ |V- JN IN |T* JR [V+ IF* N . LM301AJ14 0 JUA301AD TOS-8/1M |TF }E- |E+ |V-MiT* (R [V+ F* r SFC2301A |LM301AH /0]UA301AH DIL-8/1P |TF JE- JE+ |- |T* JR |V+ |F* . SFC301ADC |LM301AJ = |O]UA301AT TO5-8/1M {T |N E+ [- |B jR |+ |T* . LM302H 0 ]UA302C TOS-8/1M IN JE- {E+ IV-MIN |R > [V+ IN SFC2307 = | LM307H 0]UA307H DIL-8/1P |N |E- JE+ |V- JN IR I+ IN fe >. fe ded. SFC23070C |LM307J 0 }UA307T DIL-14/1C (N |F |W JE- jE+ |W |- IN IN JR [V+ IF* NIN : LM308AD = |O JUA308AD TOS-8/1M IF {E- JE+ |V- IN JR [V+ JF* . SFC2308A |LM308AH |0}UA308AHAppendix A The general layout plan of the information in the tables of this compendium should be immediately evident from the data tabulation explanatory chart set out overleaf. Supporting Appendices with additional information are: App.B Glossary
+ JE+2/E-2)R2 |R3 |E-3]E+3}V- |E+4 F-4)R4 LM248D LM2490 0} AM249-DIP CHP : LD301A O}AM301A~DICE DIL-8/1P |FT /E- JE+ jV- |T* JR V+ Fe | fp et pe de] SFC2301ADC|LM301AN = j0 | AM301A-DIL8 DIL-14/1C IN |N [FT JE- JE+ }V- IN) JN) JT* TR [V+ |F* NIN UA301AD _|LM301AJ14 |] AM301A-DIP TO5-8/1M |FT jE- J|E+ {-M|T* |R |V+ |F* SFC2301AH |LM301AH = {0 ]AM301A-T0S CHP ete de fe ped. pede pepe de. be ye] - . LD301 0 |AM301-DICE DIL-14/1C JN JN [FT JE- JE+ |- IN| IN |T* ER [V+ |F* NIN LM3010 0]AM301-DIPm| alc SLEW cm | es TYPE ft P 1M {GBP | RATE | vot | vs | To | Avor | Vio | te ho | Prot | tour |Your] Vicm] Vink | Vio/dT | Pa | to | RR | RR | Rw NUMBER rR | P| e | Min | MIN [MAX |MAx|MAX | MIN [Max [Max [MAX | MAX | MIN | MIN|MAX] max] Max [MAX [MAX] MIN | MIN) {MIN AM301-FLP ADU! GPU] EXT +18V/-18V} 70C} 830B | 1OMY|) 2uA/.75uA| SOOMWF 12V | 15V) 30V | 30uV/C 3MA | 6508 | 70dB (100K AM301-TOS ADU) GPU! EXT +18V!-18V} 70C| 83dB | 1OMV| 2UA|.75uA/SOOMWF| . 12V; 15V) 30V| 30uV/C 3MA | 65dB | 700B [LOOK AM302-
JE+ |V- |F*T/R {V+ 16 | N fe. fed. LM218F 0|M.218F DIL-14/1C JN |N [TSFJE- JE+ [V- JN IN IFST)R | V+ 16 IN IN . LM218D OML218M TOS-8/1M |TTFIE- |E+ |- F*T]R V+ 16 TDBO118CM |LM218H OML218T DIL-14/1P)N JN JFT JE- jE+ |- JN JN IT* |R [V+ [F* INO YN UA301 4B LM301AJ14 /O)ML301AP DIL-8/1P |FT JE- {E+ |- |T* [R |V+ F* SFC2301 ADC |LM301AJ O]ML301AS TOS-8/1M |FT JE- [E+ |V-M|T* [R [V+ WFP Py 2p. PP ey. SFC2301AH |LM301AH O|ML3014T DIL-14/1P|N |N |FT |E- JE+ ;- JN JN IT* TR [V+ jF* IN IN : LM301H Q|ML301P DIL-8/1P |FT JE- JE+ |V- 1T* |R |V+ |F* SFC2301A0C|LM201 J Oj]ML301S TOS-8/1M |FT |E- [E+ {V-MJT* TR o|+ JFe Yd ef 2 pe ye]. SFC2301A | LM301H O|ML301T DIL-14/1P|N JN JN JE- JE+ |[- JN GN IN {R V+ JN WIN SN72307JA |LM3070 O\ML307P DIL-8/1P |N jE- JE+ j- IN |R {V+ IN SFC2307DC |LM307N 0{ML3078 TOS-8/1M IN JE- JE+ |-MIN |R [V+ JN ~f ood. pe. Ped. SFC2307 LM307H OjM.307T DIL-14/1C|N |F [IN JE- JE+ |N f- JN IN | R |V+ JF* NIN SN72308AJA|LM308AD Q|ML308AMAppendix A The general layout plan of the information