Tare da saurin haɓaka fasahar jiragen sama marasa matuƙa, jiragen sama marasa matuƙa sun zama kayan aiki mai mahimmanci a masana'antu da yawa. Musamman waɗanda ke ƙarƙashin jagorancin hankali da sarrafa kansa, jiragen sama marasa matuƙa za su zurfafa cikin dukkan fannoni na rayuwa. A matsayin "kwakwalwar" jirgin sama mara matuƙa, mai kula da jirgin yana sa ido da daidaita yanayin jirgin sama mara matuƙa a ainihin lokaci don tabbatar da daidaito da amincin hanyar jirgin.
Kapasinda da ke cikin na'urar sarrafa jirgin ba wai kawai wani muhimmin abu bane. Aiki da ingancinsa suna shafar daidaiton jirgin sama da amincin jirgin sama mara matuki, wanda hakan ya sanya shi muhimmin abu don cimma ingantaccen iko.
SASHE.01 Mai ƙarfin polymer mai ƙarfi na aluminum electrolytic capacitor mai yawa
A lokacin tashi da jirgin sama mara matuki, mai sarrafa jirgin zai fuskanci canje-canje daban-daban masu canzawa, wanda galibi yakan haifar da canjin yanayin wuta da ƙarfin lantarki. Domin tabbatar da cewa mai sarrafa jirgin zai iya aiki cikin kwanciyar hankali da kuma guje wa kwararar iska daga shiga cikin tsarin,capacitors na polymer mai ƙarfi na aluminum electrolytic mai yawataka muhimmiyar rawa wajen tacewa a cikin na'urar sarrafawa, tabbatar da cewa na'urar sarrafa jirgin zata iya aiki cikin kwanciyar hankali da inganci a ƙarƙashin buƙatun aiki mai girma.
01 Matuƙar siriri kuma ƙarami:
Ƙaramin fa'idar ƙarar da aka samu tana ba wa na'urar ƙarfin lantarki mai ƙarfi ta polymer mai laminated damar ɗaukar ƙaramin sarari a cikin na'urar sarrafa jirgin, wanda ke taimakawa wajen rage nauyin na'urar sarrafa jirgin gaba ɗaya da kuma inganta ingancin tashi da juriyar jirgin sama mara matuki.
02 Ƙarancin juriya:
A tsarin samar da wutar lantarki na na'urar sarrafa jirgin sama, ana mayar da martani ga buƙatar da ake da ita cikin sauri. Musamman a ƙarƙashin siginar sarrafawa mai yawan mita da sauri, ƙarancin juriya na iya rage asarar makamashi sosai da kuma tabbatar da daidaiton ƙarfin lantarki na tsarin da ingantaccen samar da wutar lantarki.
03 Yawan ƙarfin aiki mai yawa:
A cikin masu sarrafa jirgin sama, capacitors suna buƙatar sakin kuzari mai yawa cikin sauri don jure wa manyan kaya, musamman a lokacin juyawa mai kaifi ko hanzari. Babban yawan capacitance na polymer solid aluminum electrolytic capacitors mai layi da yawa yana taimakawa wajen daidaita canjin wutar lantarki da hana ƙarancin wutar lantarki daga haifar da rashin kwanciyar hankali ko asarar iko.
04 Yana jure wa babban ƙarfin ripple:
Masu sarrafa jiragen sama sau da yawa suna fuskantar canjin yanayi da kuma ripple a cikin ayyuka masu rikitarwa. Na'urorin polymer solid capacitors masu yawa suna da kyakkyawan juriya ga ripple current, suna iya danne canjin yanayi yadda ya kamata, suna sha da kuma sakin wutar lantarki cikin sauri, suna hana ripple current shiga tsakani da tsarin sarrafa jirgin, da kuma tabbatar da daidaiton sigina yayin tashi.
SASHE.02 Chip Supercapacitor
Guntuwar agogon RTC da ke cikin na'urar sarrafa jirgin sama ta UAV na iya samar da daidaitaccen bayanin lokaci.Babban ƙarfin SMDYana aiki a matsayin tushen wutar lantarki na madadin guntu na RTC. Idan aka katse wutar lantarki na mai sarrafa jirgin na ɗan lokaci ko kuma ƙarfin lantarki ya canza, zai iya yin caji da sauri ya kuma saki wutar don ci gaba da samar da wutar lantarki mai ƙarfi ga guntu na agogon RTC, yana taimaka wa mai sarrafa jirgin ya yi rikodin lokacin tashi, sarrafa lokutan aiwatar da aikin, da sauransu, don tabbatar da cewa an aiwatar da aikin tashi daidai kamar yadda aka tsara. Fa'idodin aikace-aikacensa sune kamar haka:
01 Juriyar zafin jiki mai faɗi:
Masu ƙarfin SMD suna cika yanayin sake haɗa soldering 260°C, suna da juriya mai yawa a yanayin zafin jiki, kuma suna iya aiki da kyau a wurare masu tsayi da kuma yanayi mai tsanani. Ko da a cikin yanayin zafi mai saurin canzawa ko yanayin zafi mai ƙarancin zafi, ana iya tabbatar da amincin capacitor don guje wa kurakuran guntu na RTC ko gurɓataccen bayanai da canjin samar da wutar lantarki ke haifarwa.
SASHE NA 03 Mai ƙarfin polymer mai ƙarfi na aluminum electrolytic capacitor
Fa'idodin aikace-aikacencapacitors na polymer mai ƙarfi na aluminum electrolyticA cikin masu sarrafa jiragen sama na UAV, galibi ana nuna su a cikin ƙarancin ƙarfinsu, babban ƙarfinsu, ingantaccen aiki, ƙarancin juriya da babban ƙarfin ɗaukar wutar lantarki, wanda ke tabbatar da kwanciyar hankali da amincin samar da wutar lantarki na jirgin a cikin yanayi daban-daban.
01 Yawan aiki mai yawa:
A cikin masu sarrafa jirgin sama, musamman a ƙarƙashin babban kaya ko ikon sarrafawa mai sauri, masu ƙarfin lantarki na polymer mai ƙarfi na aluminum na iya samar da ingantaccen ajiyar makamashi da kuma sakin sauri, rage yawan zama a sarari, da kuma rage girman tsarin da nauyi.
02 Ƙarancin juriya:
Mai sarrafa jirgin sama yakan sauya yanayin aiki yayin aiki, kuma ana buƙatar a daidaita wutar shigarwa da tace ta don jure wa yanayin na'urori masu auna firikwensin daban-daban da tsarin tuƙi zuwa ga canjin halin yanzu. Ƙananan juriya na polymer solid aluminum electrolytic capacitors yana tabbatar da ingantaccen watsa wutar lantarki a ƙarƙashin aikace-aikacen mita mai yawa, yana sassauta canjin yanayin, kuma yana tabbatar da kwanciyar hankali na tsarin.
03 Yana jure wa babban ƙarfin ripple:
Tsarin samar da wutar lantarki na mai sarrafa jirgin zai haɗu da kwararar wutar lantarki na mitoci da girma daban-daban. Na'urorin polymer masu ƙarfi na aluminum electrolytic capacitors suna da ikon jure manyan kwararar wutar lantarki kuma suna iya samar da ingantaccen fitarwa na wutar lantarki lokacin da kwararar wutar ke canzawa sosai, don haka suna guje wa rashin kwanciyar hankali ko gazawar tsarin samar da wutar lantarki saboda yawan kwararar wutar lantarki.
Yayin da amfani da jiragen sama marasa matuki ke ci gaba da faɗaɗawa, buƙatun masu kula da jiragen sama za su ƙaru sosai. Shanghai YMIN za ta ci gaba da ƙirƙira da haɓaka nau'ikan na'urori masu ƙarfin aiki daban-daban don taimakawa masu kula da jiragen sama marasa matuki su yi aiki yadda ya kamata, cikin aminci, da kuma cikin kwanciyar hankali.
Lokacin Saƙo: Fabrairu-13-2025