1.M107/207/307-F,N,T DESCRIPTION PIN CONFIGURATIONS The LM107/207/307 is a general purpose internally compensated operational amplifi- T PACKAGE N PACKAGE er. Advanced processing techniques pro- vide input currents which are an order of Ne magnitude lower than the uA709. Standard ne [7] Ha] ne pin out allows plug in replacement for the Ne ve A709, LM101, LM101A, and the uA741. INVER Toe 2] - [7] v+ FEATURES INVERTING [| (2) > (6) JOUTPUT NON-INVERTING [3 | + 6 | QUTPUT INPUT INPUT 3mV max offset valtage over temp NON-INVERTING NC v-[a] rs | Nc 100nA max input current over temp INPUT 20nA max input offset current over temp v- Offsets guaranteed over common mode range ORDER PART NO. ORDER PART NO. Input/output short circuit protected LM107T/LM207T/LM307T LM107N/LM207N/LM307N Mil std 883A,B,C available F PACKAGE ne [7 [4] Nc ne [2] 73) nc ne BB] [12] nc nour ne CE al + NON-INVERTING A. fio} output INPUT oe [3] nc nc 7] [a] nc ORDER PART NO. LM107F/LM207F/LM307F EQUIVALENT SCHEMATIC ve oO o~ KR INPUTS. $j. etsy . 500 50 OUTPUT WW cL 3opF To 4 an Rio < 50 me VY Q, a,, a} +s Q Q o si 6 Fl 0 " at [ Ny da, Re R, 40K 40K 2 80K Ry sik v- 250 36 SinoticsABSOLUTE MAXIMUM RATINGS PARAMETER RATING UNIT Supply voltage LM107 +22 Vv LM307 +18 V Power dissipation 500 mw Differential input voltage +30 Vv Input voltage 415 Vv Output short circuit duration Indefinite Operating temperature range LM107 -55 to +125 C LM207 +25 to +85 C LM307 0 to +70 C Storage temperature range -65 to +150 C Lead temperature (soldering, 60sec) 300 C DC ELECTRICAL CHARACTERISTICS LM107/207/307-F,N,T Ta = 25C, +5V < Vs < +20V unless otherwise specified. LM107/LM207 LM3074 PARAMETER TEST CONDITIONS UNIT Min | Typ ; Max.; Min | Typ.) Max Vos Offset voltage Rs = 10k 0.7 | 2.0 mV Rs <= 10kQ, over temp. 3.0 mV Rs = 50kN 2.0 | 7.5 mV Rs < 50kQ, over temp. 10 mV Vos Drift Rs = 09, over temp. 3.0 15 6.0 | 30 uUVIEC los Offset current 1.5 10 3 50 nA Over ternp. 20 70 nA los Drift 26C < Ta = Tmax 0.01 | 0.1 0.01] 0.3 | nA/?c Tmin <= Ta s 25C 0.02} 0.2 0.02 | 0.6 | nA/C IBIAS Input current 30 75 70 250 nA Over temp. 100 300 nA Vom Common mode voitage range Vg = t20V, over temp. 215 Vv Vs == +15V, over temp. +12 Vv CMRR Common mode rejection ratio Rs < +10k, over temp. 80 96 dB Rs < 50k, over temp. 70 90 dB Rin Input resistance 1.5 4 0.5 2 MoO AVOL Large signa! voltage gain Ri = 2k, Vout +10V, Vs =415V 50 | 160 25 | 160 V/mVv RL = 2kK0, Vout +10V, Vs =+15V, overtemp. | 25 15 V/mvV Supply current Ta = +125C, Vs = 420V 1.2 25 mA NOTES 1. The maximum junction temperature of the LM1XX is 150C, while that of the LM2XX is 100C. For operating at elevated temperatures, devices must be derated based on the thermal resistance of the package as given in the package information section. 2. Forsupply voltages less than +15V, the absolute maximum input voltage is equal to the supply voltage. 3. Continuous short-circuit is allowed for case temperatures to 70C and ambient temperatures to 55C. 4. All specifications shown for LM3G7 are +5V S Vs < +15V. SiNGtES 37TYPICAL APPLICATIONS LM107/207/307-F,N,T INVERTING AMPLIFIER NON-INVERTING AMPLIFIER R, R2 $9 Yout R, tA Vout a VIN NON-INVERTING AC AMPLIFIER A, R, 1M 10M v 6 OUT + Rit R Vout = a7? VIN Rin=Ra Ry=R, J Re TYPICAL PERFORMANCE CHARACTERISTICS INPUT VOLTAGE RANGE LM107/LM207 OUTPUT SWING VOLTAGE GAIN = y = = 2 z a 2 a 2 SS @ @ 5 o 8 uu 5 bE we og 8 2 ws ce z c 3 < 3 5 3S eer > z ws Lm107; -85 C. Ta. 125 LM107: -85C Ta. 125 C LM107; -55C < Ta < 125C 6 10 15 20 5 10 18 20 5 10 15 20 SUPPLY VOLTAGE {-V) SUPPLY VOLTAGE ('V) SUPPLY VOLTAGE (+V} LM307 INPUT VOLTAGE RANGE OUTPUT SWING VOLTAGE GAIN S S a w res z g Z : 5 5 8 2 - > 5 8 5 z 5 5 3 8 VCR TAS IOC 8 10 1 5 10 15 5 10 15 SUPPLY VOLTAGE {'V) SUPPLY VOLTAGE (-V) SUPPLY VOLTAGE (:V) 38 SiMOtics a iTYPICAL PERFORMANCE CHARACTERISTICS (Cont'd) LM107/207/307-F,N,T SUPPLY CURRENT (mA) VOLTAGE GAIN (dB) GE GAIN (48) VOLT. 120 100 80 60 40 20 Qo -20 SUPPLY CURRENT INPUT CURRENT {nA} 10 15 20 SUPPLY VOLTAGE {-V) VOLTAGE GAIN 5 z 5 5 3 5 10 15 20 SUPPLY VOLTAGE ('V) OPEN LOOP FREQUENCY RESPONSE Ta? 25C Vg = 15V = g 2 3 1 10 100 mK 10K FREQUENCY [ Hz) 100K 1M 10M INPUT CURRENT 100 80 60 40 20 1 0 -7 -50 -25 Oo 2 50 75 100 125 TEMPERATURE ("C) CURRENT LIMITING 0 5 10 15 20 25 30 OUTPUT CURRENT (:mA) LARGE SIGNAL FREQUENCY RESPONSE 16 Ta= 28C Vg=115V 12 8 4 0 1K 10K 100K FREQUENCY (Hz) INPUT NOISE VOLTAGE yo-18 MEAN SQUARE NOISE VOLTAGE (V2/Hz) 10-16 10 100 ik 10k 100k FREQUENGY (Hz) INPUT NOISE CURRENT 10 24 10 25 Sel ed MEAN SQUARE NOISE CURRENT (A2) Hz) 10 26 10 100 1K 10K FREQUENCY (Hz) 100K VOLTAGE FOLLOWER PULSE RESPONSE 2 VOLTAGE SWING (V) ~ 1 a Ta 28C Vgu 2 15 -10 0 10 20 30 40 50 60 70 80 90 TIME (us) SiNOtCS 39