关于STM32、温度传感器论⽂的参考⽂献
[1]⽯长华.STM32的陶瓷炉炉壁测温物联⽹系统设计[J].信息与电脑(理论版),2021,33(17):171-173.
[2]王汉林,钟建伟,吴颖颖,李祯维,吴建军,李家俊.基于STM32单⽚机的变电站辅助设备监控系统设计[J].电⼦测试,2021(17):8-
10+111.DOI:10.16520/jki.1000-8519.2021.17.002.
[3]钱庆丰,洪⼀民.基于STM32的室内防⽕防盗系统的设计[J].物联⽹技术,2021,11(08):37-38+41.DOI:10.16667/j.issn.2095-1302.2021.08.011.
[4]赫少阳.⼀种红外热成像测温系统的设计[J].电⼦世界,2021(15):164-165.DOI:10.19353/jki.dzsj.2021.15.067.
[6]吴海红.基于51单⽚机的温度控制系统设计与实现[J].通化师范学院学报,2021,42(12):1-6.DOI:10.13877/jki22-
1284.2021.12.001.
[7]赵亚婧,郝传柱.基于⾃动调节温度的新型全⾃动熬中药锅研究[J].设备管理与维修,2021(22):25-26.DOI:10.16621/jki.issn1001-0599.2021.11D.14.
[8]郭卫风.矿井胶带机多点温度监测系统在⽯圪台煤矿的应⽤[J].煤矿现代化,2021,30(06):165-167+171.DOI:10.13606/jki.37-1205/td.2021.06.049.
莫菁近况[9]沈靖卫,王成福.防疫填报语⾳提醒及体温快速测量装置设计[J].⾦华职业技术学院学报,2021,21(06):47-51.
[10]欧卫新.⼀种基于红外温度传感器的汽车缺缸报警系统[J].时代汽车,2021(22):188-189.
[11]王晓刚,冯硕,唐胜龙,周维峰,李⼴⽂,李桂华,赵⼦明. 调度⾃动化机房智能温控调节装置的研制[C]//中国电⼒企业管理创新实践(2020年).,2021:803-805.DOI:10.26914/ckihy.2021.035486.
[12]蔡璐璐,刘江南,雷冬阁,吴飞.球⾯⿊体腔温度传感器有效发射率的研究[J].传感器与微系统,2021,40(11):36-
39.DOI:10.13873/J.1000-9787(2021)11-0036-04.
[13]闫宗瑶,刘建勇,⽅⼦鑫.柔性温度传感器的加⼯及在纺织领域的应⽤[J].针织⼯业,2021(10):71-75.初中化学实验计划
[14]宫晓彬,⽑翼.车内温度传感器安装位置对空调性能的影响[J].汽车零部件,2021(10):39-42.DOI:10.19466/jki.1674-
1986.2021.10.009.
[15]薛静,杨超,王颖舒,孙军,李帮胜,张杰.基于射频识别技术的电⼒⼀⼆次融合测温系统[J].电⼒与能源,2021,42(05):531-535+561.
[16]李林,刘永芳.基于FPGA的智能温度采集系统硬件设计[J].⾃动化与仪器仪表,2021(10):213-215.DOI:10.14016/jki.1001-9227.2021.10.213.
我是歌手淘汰[17]陈江萍,钟浩.基于单⽚机温度⾃动提醒的智能⽔杯设计[J].⽆线互联科技,2021,18(20):45-46.
[18]薛俊青,李哲熙,林健辉,布⾥斯杰拉·布鲁诺,黄福云.初始温度取值⽅法对混凝⼟箱梁温度场的影响[J].⼴西⼤学学报(⾃然科学
版),2021,46(05):1188-1195.DOI:10.13624/jki.issn.1001-7445.2021.1188.
[19]孙川,董黎.温度传感器布设技术在船舱室内设计中的应⽤[J].舰船科学技术,2021,43(20):25-27.
[20]程法勇,张凯虹,郭晓宇,章宇新,钱佳.数字温度传感器温度测试技术研究[J].电⼦质量,2021(10):18-21.
[21]曾⼩松,罗菁,姚强,苗⽟龙,曾福平.500 kV GIS隔离开关触头温度监测及外壳温度传感器优化布置[J].⾼压电器,2021,57(10):111-119.DOI:10.13296/j.1001-1609.hva.2021.10.014.
郭达的老婆[22]⽂仕海.温度和光线⾃动控制灯光亮度的分析与设计[J].电⼦世界,2021(19):156-157.DOI:10.19353/jki.dzsj.2021.19.060.
[23]Intelligent green tea fixation with sensor fusion technology
Song Feihu Journal of Food Engineering 2022- 外⽂期刊 10.1016/J.JFOODENG.2021.110846
[24]On the measurement of temperature and recovery factor in high-speed subsonic duct flow
Parker Mark J. Flow Measurement and Instrumentation 2022- 外⽂期刊 10.1016/J.FLOWMEASINST.2021.102090
[25]Design and synthesis of α-Bi2Mo3O12/CoSO4 composite nanofibers for high-performance SO2F2 sensors at room temperature
Din S.U. Materials Today Nano 2022- 外⽂期刊 10.1016/J.MTNANO.2021.100154
n号房主犯赵主彬翻供[26]Room temperature WO3-Bi2WO6 sensors based on hierarchical microflowers for ppb-level H2S detection
Zhang Chao Chemical Engineering Journal 2022-P2 外⽂期刊 10.1016/J.CEJ.2021.132813
[27]Interface-engineered reduced graphene oxide assembly on nanofiber surface for high performance strain and temperature sensing
Xiao Wei Journal of Colloid And Interface Science 2022-P1 外⽂期刊 10.1016/J.JCIS.2021.10.032
安吉丽娜 茱莉[28]N-doped three-dimensional needle-like CoS2 bridge connection Co3O4 core–shell structure as high-efficiency room temperature NO2 gas sensor
Bai Xue Journal of Hazardous Materials 2022-PB 外⽂期刊 10.1016/J.JHAZMAT.2021.127120
[29]SnS2 nanoparticle-based gas sensor with highly sensitive NO2 detection at room temperature
Sun Jing Materials Letters 2022-PB 外⽂期刊 10.1016/J.MATLET.2021.131214
[30]A parallel investigation of un-doped and manganese ion-doped zinc selenide quantum dots at cryogenic temperature and application as an optical temperature sensor
Sharma Vineet Materials Chemistry and Physics 2022- 外⽂期刊 10.1016/J.MATCHEMPHYS.2021.125349
发布评论