To recording the electrophysiological signals accurately, the resistance-feedback patch-clamp amplifier must cancel the transient currents caused by fast-capacitance, slow-capacitance and series-resistance in some recording mode.
在使用电阻反馈型膜片钳放大器时,在一些记录模式中会出现快电容、慢电容以及串联电阻瞬态伪差信号,这些伪差信号引入了噪声,影响了我们对细胞电生理信号的监测,需要予以补偿。
参考来源 - 全自动膜片钳放大器瞬态伪差信号补偿的改进·2,447,543篇论文数据,部分数据来源于NoteExpress
自动或手动调节快电容和慢电容补偿。
实验结果表明,该补偿技术能够快速有效的消除快电容瞬态电流,提高实验的操作效率和数据准确性。
The test result of the design demonstrates that the compensation technology could speed up the C-Fast transient cancellation effectively and improve the efficiency and the precision of the experiment.
结果表明,合适的快淬速度不仅可以大幅度的提高放电容量,而且明显的改善合金的循环稳定性和放电电压特性。
The results show that proper quenching not only increase discharge capacity greatly but also can improve cycle stability and discharge voltage property.
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