21 /10 — 130. VS =. 15V. 110. A =. A = 70. ) B. THERMAL. SHOCK. A T. RESPONSE. L …
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130. VS =. 15V. 110. A =. A = 70. ) B. THERMAL. SHOCK. A T. RESPONSE. L O. PEN. BAND. DEVICE IMMERSED IN 70. C OIL BATH. –10. –20. 100. 10k. 100k. 10M. 100M
OP27 Data Sheet 30130VS = r 15V11025TTA =A = 70 q C) B25 q C)90B(d20IN(dAIN70GAPG15OEOTHERMALG50-LSHOCKA TRESPONSEL OPEN10BANDVO30510DEVICE IMMERSED IN 70 q C OIL BATH0–10 6 9 –20020406080100 1 1 -0 1101001k10k100k1M10M100M -0 7 7 1 1 TIME (Sec) 3 3 0 FREQUENCY (Hz) 0 0 0 Figure 16. Offset Voltage Change Due to Thermal Shock Figure 19. Open-Loop Gain vs. Frequency ) s e5010reVS = r 15Vg70e ) M(D INz)40GVS = r 15V)RA609(MH T(nMACTUSEDEN30AOR RPH50GBWUPRC8H TS4IDIA20WBDT/ P S)NOP27C(VAPUESLEWBINT37AIN10RA GOP27AEW SL206 7 0 –50–250255075100125150 1 –75–50–250255075100125 2 -0 -0 7 7 1 1 TEMPERATURE ( q C) 3 3 0 TEMPERATURE ( q C) 0 0 0 Figure 17. Input Bias Current vs. Temperature Figure 20. Slew Rate, Gain Bandwidth Product, Phase Margin vs. Temperature 50V2580S = r 15VTA = 25 q C VS = r 15V20100)40AGAIN(n T)15120s eEN RrePHASEgR30)eUB10MARGIN140C(D(d= 70 q T IFINSET FA205160SHFGOSETAOP27CPU0180PHIN10–5200OP27A0 8 –75–50–250255075100125 1 –10220 1 -0 2 7 1M10M100M 1 -0 TEMPERATURE ( q C) 3 7 0 1 0 FREQUENCY (Hz) 3 0 0 Figure 18. Input Offset Current vs. Temperature Figure 21. Gain, Phase Shift vs. Frequency Rev. H | Page 10 of 21