Babban sigogi na fasaha
Abubuwa | Halaye | ||||||||||
Yanayin zafin aiki | -55 ℃ --+105 ℃ | ||||||||||
Ƙarfin wutar lantarki | 6.3--100V.DC | ||||||||||
Haƙuri na iya aiki | ± 20% (25± 2℃ 120Hz) | ||||||||||
Leakage halin yanzu (uA) | 6.3WV--100WV 1≤0.01CVor3uA Babban C: Ƙarfin Ƙarfi (Uf) V: Ƙarfin wutar lantarki (V) Karatu bayan mintuna 2 | ||||||||||
Asarar tangent darajar (25± 2℃ 120Hz) | Ƙarfin wutar lantarki (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | 80 | 100 | |
tg | 0.38 | 0.32 | 0.2 | 0.16 | 0.14 | 0.14 | 0.16 | 0.16 | 0.16 | ||
Idan ƙarfin ƙididdiga ya wuce 1000 uF, ga kowane ƙarin 1000 uF, tangent na kusurwar hasara ya karu da 0.02 | |||||||||||
Yanayin zafin jiki (120Hz) | Ƙarfin wutar lantarki (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | 80 | 100 | |
Matsakaicin girman Z (-40 ℃) / Z (20 ℃) | 10 | 10 | 6 | 6 | 4 | 4 | 6 | 6 | 6 | ||
Dorewa | A cikin tanda a 105 ℃, yi amfani da wutar lantarki mai ƙima don ƙayyadadden lokaci, sa'an nan kuma sanya shi a dakin da zafin jiki na 16 hours kafin gwaji.Gwajin zafin jiki shine 25± 2 ℃.Ayyukan capacitor yakamata ya dace da buƙatun masu zuwa | ||||||||||
Adadin canjin ƙarfi | A cikin ± 30% na ƙimar farko | ||||||||||
Asarar tangent darajar | Kasa da 300% na ƙayyadadden ƙimar | ||||||||||
Yale halin yanzu | A ƙasa ƙayyadadden ƙimar | ||||||||||
Load da rayuwa | 6.3WV-100WV | Awanni 1000 | |||||||||
High zafin jiki ajiya | Ajiye a 105 ℃ na 1000 hours, sa'an nan gwada a dakin zafin jiki na 16 hours.Gwajin zafin jiki shine 25 ± 2 ℃.Ayyukan capacitor yakamata ya dace da buƙatun masu zuwa | ||||||||||
Adadin canjin ƙarfi | A cikin ± 30% na ƙimar farko | ||||||||||
Asarar tangent darajar | Kasa da 300% na ƙayyadadden ƙimar | ||||||||||
Yale halin yanzu | Kasa da 200% na ƙayyadadden ƙimar |
Zane Girman Samfur
Ƙididdigar gyaran mitar Ripple na yanzu
Mitar (Hz) | 50 | 120 | 1K | ≥10K |
coefficient | 0.70 | 1.00 | 1.37 | 1.50 |
SMD aluminum electrolytic capacitorssuna ɗaya daga cikin abubuwan da aka fi amfani da su na lantarki.Yawanci fim din aluminum oxide ne da aka samar da diski na aluminium a cikin na'urar lantarki a matsayin matsakaici, a matsayin na'ura don adana caji da gudana.Domin karami ne, haske da sauƙin amfani, ana amfani da shi sosai a fannonin samfuran lantarki, kayan aikin sadarwa, na'urorin sarrafa kansa, kayan makamashi, da na'urorin sarrafa atomatik na masana'antu.
Na farko,SMD aluminum electrolytic capacitorsana amfani da su sosai a cikin samfuran lantarki.Tare da ci gaba da ci gaban masana'antar fasaha ta zamani, samfuran lantarki daban-daban suna karuwa sosai a kasuwa.Misali, wayoyin hannu, kwamfutar hannu, kwamfutoci, da sauransu, na iya ganin aikace-aikacenSMD aluminum electrolytic capacitors. SMD aluminum electrolytic capacitorsba zai iya samar da ƙimar ƙarfin da ake buƙata ba, amma kuma yana ba da ƙarancin impedance da ƙananan ƙimar ESR (daidaitaccen juriya) don tabbatar da babban aminci da kwanciyar hankali na samfuran lantarki.Ko a cikin sadarwar wayar hannu, fasahar kwamfuta da sauran kayan aiki, ko a cikin kayan aikin gida kamar TV, audio da sauran kayan aiki,aluminum electrolytic capacitorstaka muhimmiyar rawa.Yana taka muhimmiyar rawa wajen aiki da amincin samfuran lantarki.
Abu na biyu, aikace-aikacen a cikin kayan aikin sadarwa kuma wani muhimmin filin ne na capacitors na aluminum electrolytic.A zamanin yau, na'urorin sadarwa sun zama wani muhimmin bangare na rayuwarmu.Sauƙin hawan igiyar ruwa, kiran bidiyo, da siyayya ta kan layi duk sun dogara ne akan fasahar sadarwar zamani.Dangane da haka.guntu irin aluminum electrolytic capacitorsHar ila yau, yana taka muhimmiyar rawa, wanda zai iya taimakawa wajen kiyaye kwanciyar hankali da aikin kayan aikin sadarwa, ta yadda za a tabbatar da saurin watsa bayanai na sadarwa mai sauri.Ko a cikin kayan aikin tashar tushe ko kayan aikin sauya hanyar sadarwa,aluminum electrolytic capacitorssuna ɗaya daga cikin mahimman abubuwan.
Bugu da ƙari, aikace-aikacen kayan aiki na atomatik da kayan makamashi ma ɗaya ne daga cikin filayen aikace-aikacenaluminum electrolytic capacitors.A cikin kayan aikin sarrafa kansa, kamar mutum-mutumi, layukan samarwa na atomatik, kayan sarrafawa, da sauransu.aluminum electrolytic capacitorszai iya samar da ƙarfin ƙarfi da saurin watsa makamashi.Dangane da kayan aikin makamashi, kamar haɓaka grid na wutar lantarki da haɓaka makamashi mai sabuntawa.aluminum electrolytic capacitorsHar ila yau, sun dace da madaukai masu sarrafawa da kuma gyaran wutar lantarki.Koyaya, ya kamata a lura cewa zaɓin sigogi kamar ƙarfin ƙarfin lantarki da ƙimar zafin jiki naaluminum electrolytic capacitorya kamata ya dace da yanayin aiki na kayan aiki.
A ƙarshe, kayan aikin sarrafa atomatik na masana'antu shima ɗaya ne daga cikin filayen indaaluminum electrolytic capacitorsana amfani da su sosai.A masana'antu atomatik sarrafa kayan aiki,aluminum electrolytic capacitorsza a iya amfani da su don tacewa, warewa, ajiyar makamashi da daidaitawar wutar lantarki.A matsayin na'ura mai mahimmanci don adana batura da halin yanzu masu gudana,aluminum electrolytic capacitorstaka muhimmiyar rawa a farawa, aiki, da kuma kula da masana'antu na atomatik sarrafa kayan aiki.A cikin kayan aikin masana'antu da matakai kamar kayan aikin injin, mutummutumi, injina da motoci, masu amfani da wutar lantarki na aluminum na iya tabbatar da kwanciyar hankali da "tsawon rayuwa", ta haka ne ke tabbatar da ingantaccen samar da masana'antu.
Gaba daya,SMD aluminum electrolytic capacitorssuna ɗaya daga cikin abubuwan da aka fi amfani da su a cikin masana'antar lantarki, kuma yanayin aikace-aikacen su yana da faɗi sosai, daga samfuran lantarki zuwa na'urorin sadarwa, na'urorin sarrafa kansa, na'urorin makamashi da na'urorin sarrafa masana'antu.Daya daga cikin abubuwan.Ya kamata a lura cewa ma'auni na ma'auni na zaɓin aluminum electrolytic capacitor ya kamata ya dace da yanayin aiki na kayan aiki, don tabbatar da babban aminci da kwanciyar hankali.
Wutar lantarki | 6.3 | 10 | 16 | 25 | 35 | 50 | ||||||
abu girma (uF) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) |
1 | 4*3.95 | 6 | ||||||||||
2.2 | 4*3.95 | 10 | ||||||||||
3.3 | 4*3.95 | 13 | ||||||||||
4.7 | 4*3.95 | 12 | 4*3.95 | 14 | 5*3.95 | 17 | ||||||
5.6 | 4*3.95 | 17 | ||||||||||
10 | 4*3.95 | 20 | 5*3.95 | 23 | ||||||||
10 | 4*3.95 | 17 | 5*3.95 | 21 | 5*3.95 | 23 | 6.3*3.95 | 27 | ||||
18 | 4*3.95 | 27 | 5*3.95 | 35 | ||||||||
22 | 6.3*3.95 | 58 | ||||||||||
22 | 4*3.95 | 20 | 5*3.95 | 25 | 5*3.95 | 27 | 6.3*3.95 | 35 | 6.3*3.95 | 38 | ||
33 | 4*3.95 | 34 | 5*3.95 | 44 | ||||||||
33 | 5*3.95 | 27 | 5*3.95 | 32 | 6.3*3.95 | 37 | 6.3*3.95 | 44 | ||||
39 | 6.3*3.95 | 68 | ||||||||||
47 | 4*3.95 | 34 | ||||||||||
47 | 5*3.95 | 34 | 6.3*3.95 | 42 | 6.3*3.95 | 46 | ||||||
56 | 5*3.95 | 54 | ||||||||||
68 | 4*3.95 | 34 | 6.3*3.95 | 68 | ||||||||
82 | 5*3.95 | 54 | ||||||||||
100 | 6.3*3.95 | 54 | 6.3*3.95 | 68 | ||||||||
120 | 5*3.95 | 54 | ||||||||||
180 | 6.3*3.95 | 68 | ||||||||||
220 | 6.3*3.95 | 68 |
Wutar lantarki | 63 | 80 | 100 | |||
abu girma (uF) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) | auna D*L(mm) | Ripple halin yanzu (mA rms/105 ℃ 120Hz) |
1.2 | 4*3.95 | 7 | ||||
1.8 | 4*3.95 | 10 | ||||
2.2 | 5*3.95 | 10 | ||||
3.3 | 4*3.95 | 13 | ||||
3.9 | 5*3.95 | 16 | 6.3*3.95 | 16 | ||
5.6 | 5*3.95 | 17 | ||||
6.8 | 6.3*3.95 | 22 | ||||
10 | 6.3*3.95 | 27 |