NPN-input bipolar operational amplifiers LM741 were irradiated with ^60Coγ-ray, 3 MeV protons and10 MeV protons respectively at different biases to investigating the proton radiation response of the NPN-input operati...NPN-input bipolar operational amplifiers LM741 were irradiated with ^60Coγ-ray, 3 MeV protons and10 MeV protons respectively at different biases to investigating the proton radiation response of the NPN-input operational amplifier. The comparison of protons with^60Coγ-rays showed that the proton radiation mainly induced ionization damage in LM741. Under different bias conditions, the radiation sensitivity is different; zero biased devices show more radiation sensitivity in the input biased current than forward biased devices. Supply current(±Icc)is another parameter that is sensitive to proton radiation,^60Coγ-ray, 3 MeV and 10 MeV proton irradiation would induce a different irradiation response in ±Icc, which is caused by different ionization energy deposition and displacement energy deposition of^60Coγ-ray, 3 MeV and 10 MeV proton irradiation.展开更多
文摘NPN-input bipolar operational amplifiers LM741 were irradiated with ^60Coγ-ray, 3 MeV protons and10 MeV protons respectively at different biases to investigating the proton radiation response of the NPN-input operational amplifier. The comparison of protons with^60Coγ-rays showed that the proton radiation mainly induced ionization damage in LM741. Under different bias conditions, the radiation sensitivity is different; zero biased devices show more radiation sensitivity in the input biased current than forward biased devices. Supply current(±Icc)is another parameter that is sensitive to proton radiation,^60Coγ-ray, 3 MeV and 10 MeV proton irradiation would induce a different irradiation response in ±Icc, which is caused by different ionization energy deposition and displacement energy deposition of^60Coγ-ray, 3 MeV and 10 MeV proton irradiation.
