T-ZOIA 3005-2024 電力傳感器自供電技術(shù)規(guī)范 第1部分：術(shù)語(yǔ)

ZOIA語(yǔ)EnergyharvestingtechnicalspecificationforsensorI 8本文件按照GB/T1.1—2020《標(biāo)準(zhǔn)化工作導(dǎo)則第1部分：標(biāo)準(zhǔn)化文件的結(jié)構(gòu)和起草規(guī)則》的規(guī)定公司，凱銘諾（深圳）科技有限公司，重慶大學(xué)，1電力傳感器自供電技術(shù)規(guī)范第1部分：術(shù)語(yǔ)GB/T33905.1—2017智能傳感器第1部分：總則IEC62047-28-2017半導(dǎo)體器件-微機(jī)電器件-第28部分:振動(dòng)驅(qū)動(dòng)MEMS駐極IEC62830-1-2017半導(dǎo)體器件-用于能量收集和產(chǎn)生的半導(dǎo)體器件-第1部分:IEC62830-2-2017半導(dǎo)體器件-用于能量收集和生成的半導(dǎo)體器件-第2部分:IEC62830-3-2017半導(dǎo)體器件-能量收集和產(chǎn)生用半導(dǎo)體器件-第3部分:基于IEC62952-3-2017無(wú)線通信設(shè)備用電電力傳感器SensorsfortheElectricityIndustry應(yīng)用于電力行業(yè)的傳感器的統(tǒng)稱，簡(jiǎn)稱‘電力傳感器’自供電傳感器self-poweredsensor基于環(huán)境能量收集實(shí)現(xiàn)傳感、處理和無(wú)線通信一體化系統(tǒng)自供電的傳感器注：自供電傳感器是包含能量收集、傳感采樣、數(shù)據(jù)處理、無(wú)線通信等功能單元的傳感器。傳感器、處理器和無(wú)線通信單元是自供電傳感器必不可少的組成部分。4電力傳感器自供電技術(shù)分類術(shù)語(yǔ)4.1一般分類術(shù)語(yǔ)4.1.12磁場(chǎng)取能自供電傳感器self-poweredsensorbasedonmagneticfieldenergyharvesting4.1.24.1.3振動(dòng)取能自供電傳感器self-poweredsensorbasedonvibrationenergyharvesting4.1.4溫差取能自供電傳感器self-poweredsensorbasedonthermoelectricenergyharvesting基于傳感器熱端與冷端之間溫差獲取能量作為主供電源的自供電傳4.1.5光照取能自供電傳感器self-poweredsensorbasedonlightenergyharvesting4.1.6風(fēng)取能自供電傳感器self-poweredsensorbasedonwindenergyharvesting4.1.7射頻取能自供電傳感器self-poweredsensorbasedonradiofrequencyenergyharvesting基于環(huán)境中射頻電磁波（300kHz～300GHz）獲取能量作為主供電源的自供電傳感器。4.1.8多源取能自供電傳感器self-poweredsensorbasedonmulti-sourceenergyharvesting基于環(huán)境中多種能量源獲取能量作為主供電源的自供電傳4.2磁場(chǎng)取能自供電傳感器4.2.1工頻磁場(chǎng)取能自供電傳感器self-poweredsensorbasedonpowerfrequencymagneticfieldenergyharvesting環(huán)型工頻磁場(chǎng)取能自供電傳感器annularself-poweredsensorbasedonpowerfrequencymagneticfieldenergyharvesting開(kāi)環(huán)型工頻磁場(chǎng)取能自供電傳感器open-annularself-poweredsensorbasedonpowerfrequencymagneticfieldenergyharvesting平面型工頻磁場(chǎng)取能自供電傳感器planarself-poweredsensorbasedonpowerfrequencymagneticfieldenergyharvesting34.2.2寬頻磁場(chǎng)取能自供電傳感器self-poweredsensorbasedonwidebandfrequencymagneticfieldenergyharvesting4.3電場(chǎng)取能自供電傳感器4.3.110kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon10kVelectricfieldenergyharvesting4.3.235kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon35kVelectricfieldenergyharvesting4.3.3110kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon110kVelectricfieldenergyharvesting4.3.4220kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon220kVelectricfieldenergyharvesting4.3.5330kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon330kVelectricfieldenergyharvesting4.3.6500kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon500kVelectricfieldenergyharvesting4.3.71000kV電場(chǎng)取能自供電傳感器self-poweredsensorbasedon1000kVelectricfieldenergyharvesting適用于1000kV電壓場(chǎng)景的電場(chǎng)取能自4.4振動(dòng)取能自供電傳感器4.4.1單頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonsinglefrequencyvibrationenergyharvesting壓電型單頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonsinglefrequencyvibrationenergyharvestingbypiezoelectriceffect4電磁型單頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonsinglefrequencyvibrationenergyharvestingbyelectromagneticinduction摩擦型單頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonsinglefrequencyvibrationenergyharvestingbytriboelectrification復(fù)合型單頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonsinglefrequencyvibrationenergyharvestingbymultipleprinciples4.4.2多頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonmultiplefrequencyvibrationenergyharvesting壓電型多頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonmultiplefrequencyvibrationenergyharvestingbypiezoelectriceffect電磁型多頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonmultiplefrequencyvibrationenergyharvestingbyelectromagneticinduction摩擦型多頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonmultiplefrequencyvibrationenergyharvestingbytriboelectrification復(fù)合型多頻點(diǎn)振動(dòng)取能自供電傳感器self-poweredsensorbasedonmultiplefrequencyvibrationenergyharvestingbymultipleprinciples4.4.3寬頻段振動(dòng)取能自供電傳感器self-poweredsensorbasedonwidebandfrequencyvibrationenergyharvesting5壓電型寬頻段振動(dòng)取能自供電傳感器self-poweredsensorbasedonwidebandfrequencyvibrationenergyharvestingbypiezoelectriceffect電磁型寬頻段振動(dòng)取能自供電傳感器self-poweredsensorbasedonwidebandfrequencyvibrationenergyharvestingbyelectromagneticinduction摩擦型寬頻段振動(dòng)取能自供電傳感器self-poweredsensorbasedonwidebandfrequencyvibrationenergyharvestingbytriboelectrification復(fù)合型寬頻段振動(dòng)取能自供電傳感器self-poweredsensorbasedonwidebandfrequencyvibrationenergyharvestingbymultipleprinciples4.5溫差取能自供電傳感器4.5.1室溫區(qū)溫差取能自供電傳感器self-poweredsthermoelectricenergyharvesting4.5.2中溫區(qū)溫差取能自供電傳感器self-poweredsensorbasedonmiddletemperaturethermoelectricenergyharvesting4.5.3高溫區(qū)溫差取能自供電傳感器self-poweredsensorbasedonhightemperaturethermoelectricenergyharvestingnearroomtemperature4.6光照取能自供電傳感器4.6.1太陽(yáng)光光照取能自供電傳感器self-poweredsensorbasedonsunlightenergyharvesting4.6.2照明光光照取能自供電傳感器self-poweredsensorbasedonilluminationlightenergyharvesting4.6.3激光光照取能自供電傳感器self-poweredsensorbasedonlaserlightenergyharvesting64.7風(fēng)取能自供電傳感器4.7.1風(fēng)致轉(zhuǎn)動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedrotationenergyharvesting電磁型風(fēng)致轉(zhuǎn)動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedrotationenergyharvestingbyelectromagneticinduction壓電型風(fēng)致轉(zhuǎn)動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedrotationenergyharvestingbypiezoelectriceffect摩擦型風(fēng)致轉(zhuǎn)動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedrotationenergyharvestingbytriboelectrification4.7.2風(fēng)致振動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedvibrationenergyharvesting電磁型風(fēng)致振動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedvibrationenergyharvestingbyelectromagneticinduction壓電型風(fēng)致振動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedvibrationenergyharvestingbypiezoelectriceffect摩擦型風(fēng)致振動(dòng)取能自供電傳感器self-poweredsensorbasedonwind-inducedvibrationenergyharvestingbytriboelectrification4.8射頻取能自供電傳感器4.8.1單頻點(diǎn)射頻取能自供電傳感器self-poweredsensorbasedonsingleradiofrequencyenergyharvesting74.8.2多頻點(diǎn)射頻取能自供電傳感器self-poweredsensorbasedonmultipleradiofrequencyenergyharvesting5電力傳感器自供電功能與性能術(shù)語(yǔ)定周期工作最小環(huán)境激勵(lì)minimumenvironmentalincentivefor定周期工作最大環(huán)境激勵(lì)maximumenvironmentalincentivefor耐受最大環(huán)境激勵(lì)withstandmaximumenvironmental定周期模式最小監(jiān)測(cè)周期minimummonitoringperiodoffixe8292.DOI:10.1016/j.apenergy.202PhysicsLetters,2021,118(13):132902.DOI:10.1063/5.00430PP(99):1-1.DOI:10.1109/TPEL.2020.29897MechanicalSciences,2021.DOI:10.1016/j.ijmecsci.2021.106363.[7]王祎凡,任春光,張佰富等.基器實(shí)現(xiàn)方法[J].電工技術(shù)學(xué)報(bào),2023,38(01):15-25.DOI:10.19595/ki.1000-6753.tces.22術(shù),2021,45(12):4896-4902.DOI:10.13335/j.1000-3673.pst.20[9]丁柏文,沈金榮,唐啟陽(yáng)等.基于電流感應(yīng)取電的無(wú)線測(cè)溫節(jié)點(diǎn)[J].儀表技術(shù)與傳感[10]楊洋,許曉彥,劉鵬等.非閉合式磁心感應(yīng)取能供電模塊功率輸出研究[J].電工電能新技[11]夏竹青,吳細(xì)秀,蘇超等.高壓輸電線路感應(yīng)電場(chǎng)能量收集新方法研究[J].電波科學(xué)學(xué)報(bào),2020,35(05):699-707.DOI:10.13443/j.cjors.201907術(shù),2021,44(04):1-5+10.DOI:10.16527/j.issn.1003-6954.2器,2020,56(05):121-127.DOI:10.13296/j.1001-1609.hva.2020.0[14]江翼,劉正陽(yáng),肖黎等.基于多級(jí)電容充電的輸電線路電場(chǎng)感應(yīng)取能裝置的研制[J].高壓電器,2020,56(02):176-182.DOI:10.13296/j.1001-1609.hva.2020.0[15]何寧輝,張佩,吳旭濤等.用于輸電線路監(jiān)測(cè)設(shè)備的一種電場(chǎng)感應(yīng)取能電源[J].電源學(xué)報(bào),2020,18(05):203-209.DOI:10.13234/j.issn.2095-2805.2020.5.報(bào):1-15[2023-09-03]./kcms/detail/12.1420.TM.20230111.1105.002特性研究[J].電瓷避雷器,2021(03):86-92.DOI:10.16188/j.isa.1003-8337.2021.[19]BunnoonP,ThongyooT,WandenC.Right-of-WayMonitorinCapacitorBatteriesB9flow-inducedvibrations[J]transmissionlines[J].AdvancedEner[25]M?schM,Fischeraharvestingsystem[J].[26]龍雅婷,姚曙光,李盈利.單擺-電磁式振動(dòng)能量收集器設(shè)計(jì)及實(shí)驗(yàn)[J/OL].機(jī)械科學(xué)與技術(shù):1-11[2023-09-03]./10.13433/ki.1003-8728.20230250.[27]高凱,彭晗,王劭菁等.基于非對(duì)稱彈簧的寬頻率范圍振動(dòng)能量收集器[J].電工技術(shù)學(xué)報(bào),2023,38(10):2832-2840.DOI:10.19595/ki.1000-6753.tces.22[28]張佳佳,袁強(qiáng)靜,嚴(yán)冬等.一種基于防震錘的新型壓電復(fù)合能量收集方法[J].壓電與聲光,2023,45(01):56-60+65.[29]黃曼娟,馮孝為,劉會(huì)聰?shù)?基械工程學(xué)報(bào),2022,58(20):92-100.[30]張琛,熊慶,汲勝昌等.基于壓電材料的變壓器振動(dòng)能量收集裝置研究[J].電力工程技術(shù),2021,40(06):173-178.basedonmicrostructuredquasicrystallinesolarabsorber[J].MicroMaterials,2021,22(1):441-448.報(bào),2022,71(20):273-282.報(bào),2024(06):1-10[2023-09-04]./kcms/detail/50.1078.TB.20230315.1800.004[39]聶曉蕾,余灝成,朱婉婷等.石墨烯/Bi備與性能評(píng)價(jià)[J].物理學(xué)報(bào),2022,71(15):235-244.[40]張愛(ài)兵,閆文凱,龐丹丹等.熱電報(bào)(工學(xué)版),2020,54(05):947high-performancevortegallopingpiezoelectricenergyharvester[J].ActaMechanicaSinica,2020,36forcontinuousandregularhar