This paper developes a tem perature control system in order to carry out a real time and continuous observation on living cells under the m icroscope. In this system, transparent indium tin oxid (ITO) conductive f...This paper developes a tem perature control system in order to carry out a real time and continuous observation on living cells under the m icroscope. In this system, transparent indium tin oxid (ITO) conductive film was used as a heater , tem perature was measured by the tem perature dependence of resistance behavior of the ITO film, C8051F340 single-clup was used as he control hardware core, and the m odified PID algorilhm and pulse width moclubtion (PW M ) were adopted as the key control softw are program s. The tem perature system had a sim ple structure w ithout added tem perature sensor, an uniform tem perature distribution with in ±1℃ on the ITO film surface and tem perature control precision of ±0.2℃ could be obtained. The system cou d m aintain a good grow th state for B H K -21 livhg cell under he microscope for 48 h.展开更多
基金The fund of Yongchuan Hospital,Chongqing Medical Universitygrant number:YJQN2011017+1 种基金"Health Yongchuan"special fund of Yongchuan Science and Technology Commissiongrant number:YCSTC,2011BF5001
文摘This paper developes a tem perature control system in order to carry out a real time and continuous observation on living cells under the m icroscope. In this system, transparent indium tin oxid (ITO) conductive film was used as a heater , tem perature was measured by the tem perature dependence of resistance behavior of the ITO film, C8051F340 single-clup was used as he control hardware core, and the m odified PID algorilhm and pulse width moclubtion (PW M ) were adopted as the key control softw are program s. The tem perature system had a sim ple structure w ithout added tem perature sensor, an uniform tem perature distribution with in ±1℃ on the ITO film surface and tem perature control precision of ±0.2℃ could be obtained. The system cou d m aintain a good grow th state for B H K -21 livhg cell under he microscope for 48 h.
