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 kusurwa (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 ƙididdigewa ya wuce 1000 uF, ga kowane ƙarin 1000 uF, tangent na kusurwar asarar 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
D | 4 | 5 | 6.3 |
L | 3.55 | 3.55 | 3.55 |
d | 0.45 | 0.5 (0.45) | 0.5 (0.45) |
F | 105 | 2.0 | 2.5 |
α | +0/-0.5 |
Ƙididdigar gyaran mitar Ripple na yanzu
Mitar (Hz) | 50 | 120 | 1K | ≥10K |
coefficient | 0.70 | 1.00 | 1.37 | 1.50 |
Nau'in gubar aluminum electrolytic capacitorwani bangaren lantarki ne da aka yi amfani da shi sosai, yawanci ana amfani da shi don adana caji da gudana a halin yanzu, samar da ƙimar ƙarfin ƙarfi da ƙarancin ƙarfi da ƙarancin ƙimar ESR (daidaitaccen juriya), ta haka inganta amincin samfuran lantarki da kwanciyar hankali.Mai zuwa zai gabatar da aikace-aikacengubar irin aluminum electrolytic capacitorsa fagage masu mahimmanci da dama.
Na farko, gubar aluminum electrolytic capacitors ana amfani da ko'ina a cikin kayan lantarki.Tare da ci gaba da haɓaka fasahar fasaha da hankali, samfuran lantarki daban-daban sun zama wani ɓangare na rayuwar masu amfani a kasuwa.Ko dai wayar hannu, ko kwamfutar hannu a fagen sadarwar wayar hannu, ko talabijin, samfuran sauti da sauran kayayyaki a fagen nishaɗin gida,gubar aluminum electrolytic capacitorstaka muhimmiyar rawa.Zai iya samar da ƙimar ƙarfin ƙarfin abin dogaro, ƙarancin ƙarfi da ƙarancin ƙimar ESR, don haka tabbatar da kwanciyar hankali da amincin samfuran lantarki.
Na biyu,gubar aluminum electrolytic capacitorsana amfani da su sosai a cikin hanyoyin samar da wutar lantarki.Gubar nau'in aluminum electrolytic capacitors na iya samar da ingantaccen ƙarfin lantarki, kuma babban ƙarfin su da nauyin haske ya sa su yi amfani da su sosai.A cikin hanyoyin samar da wutar lantarki,gubar aluminum electrolytic capacitorsza a iya amfani da shi azaman madadin abubuwan da aka gyara kamar inductor da masu kula da wutar lantarki don cimma daidaiton wutar lantarki da kare tsawon rayuwar wutar lantarki.
Bugu da kari,gubar aluminum electrolytic capacitorsHakanan ana amfani da su sosai a cikin da'irar motoci.A cikin da'irori na kera motoci, saboda ƙayyadaddun yanayin aikin sa, ya zama dole a yi amfani da capacitors tare da babban juriyar zafin jiki da ƙarancin wutar lantarki.Gubar aluminum electrolytic capacitors iya kawai cika wadannan bukatu, kuma a lokaci guda suna da fa'idar karami, haske, da sauƙin amfani.A cikin hanyoyin mota,gubar aluminum electrolytic capacitorsana amfani da su a cikin aikace-aikace iri-iri, gami da tsarin kunna wutan injin, sautin mota, da fitilun mota.
Wani muhimmin yanki na aikace-aikacen shine ajiyar makamashi da juyawa.Aluminum electrolytic capacitors masu jagoranciyin aiki azaman ajiyar makamashi da masu canza kuzari a aikace-aikacen na'urar makamashi mai sabuntawa kamar ƙwayoyin rana da ƙwayoyin makamashin iska.Yana da halaye na ƙarancin asara da inganci mai yawa, kuma yana ƙara haɓaka muhimmiyar rawa a cikin masana'antar makamashi.
Daga karshe,gubar aluminum electrolytic capacitorsHakanan ana amfani da su sosai a cikin kayan sarrafa masana'antu.Misali, ana iya amfani dashi a cikin sarrafa layin wutar lantarki na masana'antu, tsarin kunna wutar lantarki, kariyar inverter, da sauransu. A cikin yanayin masana'antu,gubar irin aluminum electrolytic capacitorsbuƙatar samun halaye na babban kwanciyar hankali, juriya na zafi, juriya na girgiza, da tsangwama tsangwama don tabbatar da daidaitattun daidaito da kwanciyar hankali na tsarin sarrafawa.
A takaice, dagubar irin aluminum electrolytic capacitorbangaren lantarki ne da ake amfani da shi sosai, kuma kewayon aikace-aikacensa yana da faɗi sosai.Ko a cikin kayan lantarki ne, ko kuma a fannin mota, makamashi, sarrafa masana'antu, da sauransu, ana iya gani.Duk da haka, ya kamata a lura da cewa lokacin zabar wani gubar aluminum electrolytic capacitor, dole ne a zaba bisa ga takamaiman yanayin aikace-aikace da bukatun.
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*3.55 | 6 | ||||||||||
2.2 | 4*3.55 | 10 | ||||||||||
3.3 | 4*3.55 | 13 | ||||||||||
4.7 | 4*3.55 | 12 | 4*3.55 | 14 | 5*3.55 | 17 | ||||||
5.6 | 4*3.55 | 17 | ||||||||||
10 | 4*3.55 | 20 | 5*3.55 | 23 | ||||||||
10 | 4*3.55 | 17 | 5*3.55 | 21 | 5*3.55 | 23 | 6.3*3.55 | 27 | ||||
18 | 4*3.55 | 27 | 5*3.55 | 35 | ||||||||
22 | 6.3*3.55 | 58 | ||||||||||
22 | 4*3.55 | 20 | 5*3.55 | 25 | 5*3.55 | 27 | 6.3*3.55 | 35 | 6.3*3.55 | 38 | ||
33 | 4*3.55 | 34 | 5*3.55 | 44 | ||||||||
33 | 5*3.55 | 27 | 5*3.55 | 32 | 6.3*3.55 | 37 | 6.3*3.55 | 44 | ||||
39 | 6.3*3.55 | 68 | ||||||||||
47 | 4*3.55 | 34 | ||||||||||
47 | 5*3.55 | 34 | 6.3*3.55 | 42 | 6.3*3.55 | 46 | ||||||
56 | 5*3.55 | 54 | ||||||||||
68 | 4*3.55 | 34 | 6.3*3.55 | 68 | ||||||||
82 | 5*3.55 | 54 | ||||||||||
100 | 6.3*3.55 | 54 | 6.3*3.55 | 68 | ||||||||
120 | 5*3.55 | 54 | ||||||||||
180 | 6.3*3.55 | 68 | ||||||||||
220 | 6.3*3.55 | 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*3.55 | 7 | ||||
1.8 | 4*3.55 | 10 | ||||
2.2 | 5*3.55 | 10 | ||||
3.3 | 4*3.55 | 13 | ||||
3.9 | 5*3.55 | 16 | 6.3*3.55 | 17 | ||
5.6 | 5*3.55 | 17 | ||||
6.8 | 6.3*3.55 | 22 | ||||
10 | 6.3*3.55 | 27 |