Ngokuthuthuka okusheshayo kobuchwepheshe be-drone, ama-drone abe yithuluzi elibalulekile ezimbonini eziningi. Ikakhulukazi eqhutshwa ubuhlakani kanye nokuzenzakalela, ama-drone azongena ajule kuzo zonke izindlela zokuphila. Njengoba “ubuchopho” be-drone, isilawuli sendiza siqapha futhi silungise isimo sokundiza se-drone ngesikhathi sangempela ukuqinisekisa ukunemba nokuphepha kwendlela yokundiza.
I-capacitor engaphakathi kwesilawuli sokundiza akuyona nje into eyisisekelo. Ukusebenza kwayo kanye nekhwalithi yayo kuthinta ngqo ukuzinza kokundiza kanye nokuphepha kwe-drone, okwenza kube yingxenye ebalulekile yokufeza ukulawula okuphumelelayo.
INGXENYE.01 I-capacitor ye-electrolytic ye-polymer enezingqimba eziningi
Ngesikhathi sokundiza kwe-drone, isilawuli sendiza sizobhekana nezinguquko ezahlukahlukene eziguquguqukayo, ezivame ukuholela ekushintsheni kwamandla kagesi kanye ne-voltage. Ukuze kuqinisekiswe ukuthi isilawuli sendiza singasebenza kahle futhi sigweme ukugeleza kwamandla kagesi ekuphazamiseni uhlelo,ama-capacitor e-electrolytic e-polymer aqinile e-aluminium amaningi anezingqimba eziningiidlala indima ebalulekile yokuhlunga kumlawuli, iqinisekisa ukuthi isilawuli sendiza singasebenza kahle nangokuzinzile ngaphansi kwezidingo zokusebenza okuphezulu.
01 Incane kakhulu futhi ithambile:
Inzuzo encane kakhulu yevolumu yenza i-laminated polymer solid aluminium electrolytic capacitor ithathe isikhala esincane kusilawuli sokundiza, okusiza ukunciphisa isisindo sonke sesilawuli sokundiza futhi kuthuthukiswe ukusebenza kahle kokundiza kanye nokukhuthazela kwe-drone.
02 Impedance ephansi:
Kuhlelo lokuphakelwa kwamandla lomlawuli wendiza, isidingo samanje siphendulwa ngokushesha. Ikakhulukazi ngaphansi kwezimpawu zokulawula ezivame kakhulu nezisheshayo, ukuvinjelwa okuphansi kunganciphisa kakhulu ukulahleka kwamandla futhi kuqinisekise ukuzinza kwe-voltage yesistimu kanye nokusebenza kahle okuphezulu kokuphakelwa kwamandla.
03 Ubuningi obukhulu bomthamo:
Kubalawuli bezindiza, ama-capacitor adinga ukukhulula ngokushesha amandla amaningi ukuze abhekane nemithwalo ephezulu, ikakhulukazi ngesikhathi sokujika okubukhali noma ukusheshisa. Ubuningi obukhulu be-capacitance yama-capacitor e-electrolytic e-polymer solid aluminium polymer anezingqimba eziningi kusiza ekuqiniseni ukuguquguquka kwamandla futhi kuvimbele ukushoda kwamandla ekubangeleni ukundiza okungazinzile noma ukulahlekelwa ukulawula.
04 Imelana nomsinga omkhulu we-ripple:
Abalawuli bezindiza bavame ukubhekana nokuguquguquka kwamanje kanye nama-ripple emisebenzini eyinkimbinkimbi. Ama-capacitor e-polymer solid anezingqimba eziningi anokubekezelela okuhle kwamanje kwe-ripple, angacindezela ngempumelelo ukuguquguquka kwamanje, amunce futhi akhulule ngokushesha umsinga, avimbele umsinga we-ripple ukuthi ungaphazamisi uhlelo lokulawula lwendiza, futhi aqinisekise ukunemba kwesignali ngesikhathi sokundiza.
INGXENYE.02 I-Chip Supercapacitor
I-chip yewashi le-RTC kusilawuli sendiza se-UAV inganikeza inkomba yesikhathi enembile.I-SMD supercapacitorisebenza njengomthombo wamandla wesipele we-chip ye-RTC. Uma ukunikezwa kwamandla kwesilawuli sendiza kuphazamiseka okwesikhashana noma i-voltage ishintshashintsha, ingashaja ngokushesha futhi ikhulule amandla ukuze iqhubeke nokuhlinzeka ngokunikezwa kwamandla okuzinzile kwe-chip yewashi le-RTC, isize isilawuli sendiza ukuthi siqophe isikhathi sendiza, silawule ama-node esikhathi sokusebenza komsebenzi, njll., ukuqinisekisa ukuthi umsebenzi wendiza wenziwa ngokunembile njengoba kuhleliwe. Izinzuzo zokusetshenziswa kwayo yilezi ezilandelayo:
01 Ukumelana nokushisa okubanzi:
Ama-supercapacitor e-SMD ahlangabezana nezimo zokushiswa kabusha kwe-260°C, anokubekezelela izinga lokushisa elibanzi, futhi angasebenza ngokuqina ezindaweni eziphakeme kanye nezimo zezulu ezimbi kakhulu. Ngisho nasezindaweni zokushisa ezishintsha ngokushesha noma ezindaweni zokushisa eziphansi, ukuthembeka kwe-capacitor kungaqinisekiswa ukuze kugwenywe amaphutha e-RTC chip noma ukuphambuka kwedatha okubangelwa ukushintshashintsha kwamandla.
INGXENYE.03 I-capacitor ye-electrolytic ye-aluminium eqinile ye-polymer
Izinzuzo zohlelo lokusebenzaama-capacitor e-electrolytic e-aluminium eqinile e-polymerKubalawuli bezindiza be-UAV babonakala kakhulu ekuncipheni kwabo okuncane, amandla aphezulu, ukusebenza kahle okuphezulu, ukuvimba okuphansi kanye namandla amakhulu okuthwala ugesi, okuqinisekisa ukuzinza kokunikezwa kwamandla kanye nokuthembeka kwendiza ezindaweni ezahlukahlukene.
01 Ubuningi bomthamo ophezulu:
Kubalawuli bezindiza, ikakhulukazi ngaphansi komthwalo omkhulu noma ukulawulwa okusheshayo okuguquguqukayo, ama-capacitor e-electrolytic e-polymer solid aluminium angahlinzeka ngempumelelo ngokugcinwa kwamandla okusebenza kahle kakhulu kanye nokukhululwa okusheshayo, anciphise ukuhlala endaweni, futhi anciphise ivolumu yesistimu kanye nesisindo.
02 Impedance ephansi:
Isilawuli sendiza sivame ukushintsha izindlela zokusebenza ngesikhathi sokusebenza, futhi ugesi wokufaka udinga ukushelela nokuhlungwa ukuze ubhekane nokuzwela kwezinzwa ezahlukahlukene kanye nezinhlelo zokushayela ekushintsheni kwamanje. Ukuphazamiseka okuphansi kwama-capacitor e-polymer solid aluminium electrolytic kuqinisekisa ukudluliselwa kwamanje okusebenzayo ngaphansi kwezicelo zemvamisa ephezulu, kushelela ukuguquguquka kwamanje, futhi kuqinisekise ukuzinza kohlelo.
03 Imelana nomsinga omkhulu we-ripple:
Uhlelo lokuphakelwa kwamandla lwesilawuli sokundiza luzohlangana nemisinga ye-ripple yamaza ahlukene kanye nama-amplitude. Ama-capacitor e-electrolytic e-polymer solid aluminium anekhono lokubekezelela imisinga emikhulu ye-ripple futhi anganikeza ukuphuma kwamanje okuzinzile lapho umsinga ushintshashintsha kakhulu, ngaleyo ndlela kugwenywe ukungazinzi noma ukwehluleka kohlelo lokuphakelwa kwamandla ngenxa yamandla e-ripple amaningi.
Njengoba ukusetshenziswa kwama-drone kuqhubeka nokukhula, izidingo zabalawuli bezindiza zizokhula kakhulu. I-Shanghai YMIN izoqhubeka nokuthuthukisa nokwenza ngcono ama-capacitor ahlukahlukene asebenza kahle ukusiza abalawuli bezindiza zama-drone basebenze kahle kakhulu, ngokwethembeka, nangokuzinza kakhudlwana.
Isikhathi sokuthunyelwe: Feb-13-2025