LEAD TYPE ALUMINUM ELECTROLYTIC CAPACITORS LKX

HOTO NA JAGORAN ALUMINUM ELECTROLYTIC CAPACITORS LKX Featured Image

Takaitaccen Bayani:

Pen-dimbin yawa a kwance shigarwa, 6.3 ~ diamita 18, high mita da kuma babban ripple halin yanzu juriya, 7000 ~ 12000 hours a cikin 105 ° C yanayi don samar da wutar lantarki, ya bi umarnin AEC-Q200 RoHS

Aika mana imel

Cikakken Bayani

JERIN KAYAN SAMARI

Tags samfurin

Babban sigogi na fasaha

Abubuwa	Halaye
Yanayin Zazzabi Aiki	35 ~ 100V.DC -40℃~+105℃ ； 160~450V.DC -40℃~+105℃
Ƙimar Wutar Lantarki	35 ~ 450V.DC
Hakuri na iyawa	± 20% (25± 2℃ 120HZ)
Leakage Yanzu ((iA)	35 〜100WV I ≤0.01CV ko 3 uA duk wanda ya fi girma C: rated capacitance(uF) V: rated ƙarfin lantarki(V) 2 minutes karanta
	160-450WVl
Factor Factor (25± 2℃ 120Hz)	Ƙimar Wutar Lantarki (V)	35	50	63	80	100	160
	tg ku	0.12	0.1	0.09	0.09	0.08	0.16
	Ƙimar Wutar Lantarki (V)	200	250	350	400	450
	tg ku	0.2	0.2	0.2	0.2	0.25
	Ga waɗanda ke da ƙimar ƙarfin da ya fi girma fiye da 1000p.F, lokacin da aka ƙididdige ƙarfin ƙarfin da 1000uF, to tgδ za a ƙara da 0.02
Halayen Zazzabi (120Hz)	Ƙimar Wutar Lantarki (V)	35	50	63	80	100	160	200	250	350	400	450
	Z(-40℃)/Z(20℃)	3	3	3	3	3	3	3	3	5	5	6
Jimiri	Bayan daidaitaccen lokacin gwajin tare da yin amfani da ƙarfin lantarki mai ƙima tare da ƙimar halin yanzu a cikin tanda a 105 ℃, ƙayyadaddun da ke gaba za a gamsu bayan sa'o'i 16 a 25 ± 2 ° C.
		35 ~ 100V.DC				160 ~ 450V.DC
	Capacitance canji	tsakanin ± 25% na ƙimar farko				tsakanin ± 20% na ƙimar farko
	Factor Dissipation	Bai wuce 200% na ƙayyadadden ƙimar ba
	Yale halin yanzu	Bai fi ƙayyadadden ƙima ba
	Load life( hours)					35V ~ 100V		160 ~ 450V
		① 6.3				7000h
		≥Φ8		L≤20		10000h		10000h
				L≥25		l0000h		12000h
Rayuwar Shelf A Babban Zazzabi	Bayan barin capacitors a karkashin wani nauyi a 105 ℃ na 1000 hours, da wadannan bayani dalla-dalla za a gamsu a 25 ± 2 ℃.
	Capacitance canji					tsakanin ± 20% na ƙimar farko
	Factor Dissipation					Bai wuce 200% na ƙayyadadden ƙimar ba
	Yale halin yanzu					Bai wuce 200% na ƙayyadadden ƙimar ba

Zane Girman Samfur

Ƙididdigar gyaran mitar Ripple na yanzu

Saukewa: 35WV-100WV

Mitar (Hz)		120	1K	10K	100KW
Coefficient	≤33uF	0.42	0.7	0.9	1
	39uF〜270uF	0.5	0.73	0.92	1
	330uF 〜680uF	0.55	0.77	0.94	1
	820uF da sama	0.6	0.8	0.96	1

160WV 〜450WV

Mitar (Hz)		50(60)	120	500	1K	10KW
Coefficient	160-250WV	0.8	1	1.2	1.3	1.4
Coefficient	350-450WV	0.8	1	1.25	1.4	1.5

The Liquid Small Business Unit an tsunduma a R & D da kuma masana'antu tun 2001. Tare da wani gogaggen R & D da kuma masana'antu tawagar, shi ya ci gaba da kuma a hankali samar da wani iri-iri na high quality-miniaturized aluminum electrolytic capacitor don saduwa da abokan ciniki' sababbin bukatun ga electrolytic aluminum capacitors.Rukunin ƙananan kasuwancin ruwa yana da fakiti guda biyu: ruwa SMD aluminum electrolytic capacitors da nau'in gubar gubar na aluminum.Its kayayyakin da abũbuwan amfãni daga miniaturization, high kwanciyar hankali, high iya aiki, high ƙarfin lantarki, high zafin jiki juriya, low impedance, high ripple, da kuma tsawon rai.An yi amfani da shi sosai a cikisabon makamashi na kera motoci na makamashi, samar da wutar lantarki mai ƙarfi, haske mai hankali, caji mai sauri gallium nitride, kayan aikin gida, voltaics na hoto da sauran masana'antu.

Duk game daAluminum Electrolytic Capacitorkana bukatar sani

Aluminum electrolytic capacitors nau'in capacitor ne na yau da kullun da ake amfani dashi a cikin na'urorin lantarki.Koyi tushen yadda suke aiki da aikace-aikacen su a cikin wannan jagorar.Kuna sha'awar aluminium electrolytic capacitor?Wannan labarin ya ƙunshi tushen tushen waɗannan capacitor na aluminum, gami da gina su da amfani.Idan kun kasance sababbi ga masu ƙarfin lantarki na aluminum, wannan jagorar wuri ne mai kyau don farawa.Gano tushen tushen waɗannan capacitors na aluminum da yadda suke aiki a cikin da'irori na lantarki.Idan kana sha'awar bangaren wutar lantarki, mai yiwuwa ka ji labarin capacitor na aluminum.Ana amfani da waɗannan abubuwan haɗin capacitor sosai a cikin na'urorin lantarki kuma suna taka muhimmiyar rawa wajen ƙirar kewaye.Amma menene ainihin su kuma ta yaya suke aiki?A cikin wannan jagorar, za mu bincika abubuwan da suka dace na aluminium electrolytic capacitors, gami da gininsu da aikace-aikacensu.Ko kai mafari ne ko ƙwararren ƙwararren ƙwararren lantarki, wannan labarin babbar hanya ce don fahimtar waɗannan mahimman abubuwan.

1.What ne aluminum electrolytic capacitor?Aluminum electrolytic capacitor wani nau'in capacitor ne wanda ke amfani da electrolyte don cimma matsayi mafi girma fiye da sauran nau'in capacitors.Ya ƙunshi foils guda biyu na aluminum da aka raba da takarda da aka jiƙa a cikin electrolyte.

2.Ta yaya yake aiki?Lokacin da aka yi amfani da wutar lantarki a kan wutar lantarki, electrolyte yana gudanar da wutar lantarki kuma yana ba da damar lantarki don adana makamashi.Foils na aluminum suna aiki azaman na'urorin lantarki, kuma takardar da aka jiƙa a cikin electrolyte tana aiki azaman dielectric.

3.What are abũbuwan amfãni daga yin amfani da wani aluminum electrolytic capacitors?Aluminum electrolytic capacitors suna da babban capacitance, wanda ke nufin za su iya adana makamashi mai yawa a cikin ƙaramin sarari.Su ma ba su da tsada kuma suna iya ɗaukar manyan ƙarfin lantarki.

4.What are disadvantages of using a aluminum electrolytic capacitor?Ɗayan rashin lahani na amfani da na'urorin lantarki na aluminum shine cewa suna da iyakacin rayuwa.Electrolyte na iya bushewa a kan lokaci, wanda zai iya haifar da abubuwan da ke cikin capacitor su kasa.Suna kuma kula da zafin jiki kuma suna iya lalacewa idan an fallasa su zuwa yanayin zafi mai girma.

5.What wasu na kowa aikace-aikace na aluminum electrolytic capacitors?Aluminum electrolytic capacitor ana yawan amfani da shi wajen samar da wutar lantarki, kayan aikin sauti, da sauran na'urorin lantarki waɗanda ke buƙatar ƙarfin ƙarfi.Ana kuma amfani da su a aikace-aikacen mota, kamar a cikin tsarin kunnawa.

6.Ta yaya za ku zabi madaidaicin wutar lantarki na aluminum don aikace-aikacen ku?Lokacin zabar masu ƙarfin lantarki na aluminum, kuna buƙatar la'akari da ƙarfin ƙarfin, ƙimar ƙarfin lantarki, da ƙimar zafin jiki.Hakanan kuna buƙatar la'akari da girman da siffar capacitor, da kuma zaɓuɓɓukan hawan.

7.Ta yaya kuke kula da wutar lantarki na aluminum electrolytic capacitor?Don kula da na'urorin lantarki na aluminium, ya kamata ku guje wa fallasa shi zuwa yanayin zafi da ƙarfin lantarki.Hakanan ya kamata ku guji sanya shi ga damuwa na inji ko girgiza.Idan ana amfani da capacitor akai-akai, ya kamata ku yi amfani da wutar lantarki lokaci-lokaci zuwa gare shi don kiyaye electrolyte daga bushewa.

Fa'idodi da Rashin AmfaninAluminum Electrolytic Capacitors

Aluminum electrolytic capacitor yana da fa'idodi da rashin amfani.A gefen tabbatacce, suna da babban rabo-zuwa-girma, yana sa su amfani a aikace-aikace inda sarari ya iyakance.Aluminum Electrolytic Capacitor kuma yana da ƙarancin farashi idan aka kwatanta da sauran nau'ikan capacitors.Koyaya, suna da ƙayyadaddun lokacin rayuwa kuma suna iya kula da yanayin zafi da jujjuyawar wutar lantarki.Bugu da ƙari, Aluminum Electrolytic Capacitors na iya fuskantar yoyo ko gazawa idan ba a yi amfani da su yadda ya kamata ba.A gefe mai kyau, Aluminum Electrolytic Capacitors suna da babban ƙarfin ƙarfi-zuwa-girma rabo, yana sa su amfani a aikace-aikace inda sarari ya iyakance.Koyaya, suna da ƙayyadaddun lokacin rayuwa kuma suna iya kula da yanayin zafi da jujjuyawar wutar lantarki.Bugu da ƙari, Aluminum Electrolytic Capacitor na iya zama mai saurin zubewa kuma yana da juriya mafi girman daidai gwargwado idan aka kwatanta da sauran nau'ikan capacitors na lantarki.

Na baya: Multilayer ceramic chip capacitor (MLCC)

Na gaba: Nau'in gubar ƙaramar Aluminum Electrolytic Capacitor LKL

Voltage (V)	35			50
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
47
56
82
100
120				6.3×20	0.58	1.16
150
180	6.3×20	0.605	1.21
220				8 ×20	0.74	1.48
220
270				8×30	0.87	1.74
330	8 ×20	0.924	1.68
330
390	8 ×25	0.951	1.73	8×40	1.22	2.23
390				10×25	1.09	2
470	8×30	1.11	2.03	8×50	1.45	2.65
470				10×30	1.22	2.22
560				10×35	1.68	3.07
560
680	8×40	1.41	2.57	10×40	1.55	2.82
680	10×25	1.21	2.2
820	8×50	1.82	3.04	10×50	2.02	3.37
820	10×30	1.48	2.47	12.5×25	1.74	2.9
1000	10×35	2.08	3.48	12.5×30	2.31	3.86
1200	10×40	1.87	3.12
1200	12.5×25	1.62	2.7
1500	10×50	2.21	3.69
1800	12.5×30	2.5	4.17

Voltage (V)	63			80
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
47				6.3×20	0.455	0.91
56				6.3×20	0.515	1.03
82	6.3×20	0.455	0.91	8 ×20	0.635	1.27
100	8 ×20	0.515	1.03	8 ×25	0.655	1.33
120				8×30	0.785	1.57
150	8 ×20	0.63	1.27
180	8 ×25	0.665	1.33	8×40	1.01	2.02
220	8 ×25	0.785	1.57	8×50	1.2	2.41
220				10×30	1.05	2.1
270				10×30	1.05	2.1
330	8×40	1.11	2.02	10×35	1.3	2.6
330	10×30	1.04	1.88
390	8×50	1.32	2.41	10×50	1.71	3.12
390	10×30	1.16	2.1
470	10×35	1.18	2.14	12.5×35	1.97	3.59
470
560	10×40	1.43	2.6
560	12.5×25	1.24	1.24
680	10×50	1.71	3.12
680	12.5×30	1.44	2.63
820	12.5×35	2.15	3.59
820
1000
1200
1200
1500
1800

Voltage (V)	100			160
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
27
33	6.3×20	0.382	0.91
39	8 ×20	0.699	1.399
47
47

Voltage (V)	100			160
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
56	8 ×20	0.736	1.473	8 ×25	0.32	0.448
56
68	8 ×20	0.775	1.55	8×30	0.37	0.518
68
82	8 ×25	0.665	1.33	8×35	0.43	0.602
82				10×25	0.43	0.602
100	8×30	0.785	1.57	8×40	0.49	0.686
100
120	8×40	1.01	2.02	8×50	0.57	0.798
120	10×30	0.94	1.88	10×30	0.54	0.756
150	8×50	1.2	2.41	10×40	0.67	0.938
150	10×30	1.05	2.1	12.5×25	0.66	0.924
180				10×50	0.8	1.12
180				12.5×30	0.77	1.07
180
220	10×40	1.3	2.6	12.5×35	0.89	1.24
220				16×25	0.93	1.3
220
270	10×50	1.56	3.12	12.5×40	1.01	1.41
270
270
330	12.5×35	1.97	3.59	12.5×50	1.2	1.68
330				16×31.5	1.2	1.68
330				18×25	1.18	1.65
390				12.5×50	1.35	1.89
390				16×35.5	1.34	1.87
390				18×31.5	1.4	1.96
470				16×40	1.52	2.12
470				18×35.5	1.58	2.21
560				16×50	1.79	2.5
560				18×40	1.78	2.49
680				18×45	2	2.8
820				18×50	2.23	3.12

Voltage (V)	200			250
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
27				8 ×25	0.3	0.42
33
39	8 ×25	0.3	0.42	8×30	0.37	0.518
47				8×35	0.45	0.63
47				10×25	0.37	0.518

Voltage (V)	200			250
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
56	8×30	0.37	0.518	8×40	0.51	0.714
56				10×30	0.42	0.588
68	8×40	0.45	0.63	8×50	0.59	0.826
68	10×25	0.43	0.602	10×35	0.49	0.686
82	8×45	0.51	0.714	10×40	0.61	0.854
82	10×30	0.5	0.7	12.5×25	0.54	0.756
100	8×50	0.6	0.84	10×45	0.68	0.952
100	10×40	0.63	0.882	12.5×30	0.69	0.966
120	10×45	0.75	1.05	10×50	0.73	1.02
120	12.5×25	0.65	0.91	12.5×35	0.79	1.1
150	10×50	0.83	1.16	12.5×40	0.74	1.03
150	12.5×30	0.8	1.12	16×31.5	0.89	1.24
180	12.5×45	0.91	1.27	12.5×50	0.97	1.35
180	16×25	0.85	1.19	16×31.5	0.95	1.33
180				18×25	0.88	1.23
220	12.5×45	1.09	1.52	12.5×50	1.13	1.58
220	16×31.5	1.01	1.41	16×35.5	1.11	1.55
220	18×25	1	1.4	18×31.5	1.1	1.54
270	12.5×50	1.26	1.76	16×40	1.27	1.77
270	16×35.5	1.18	1.65	18×35.5	1.23	1.72
270	18×31.5	1.16	1.62
330	16×40	1.36	1.9	16×50	1.48	2.07
330	18×31.5	1.3	1.82	18×40	1.42	1.98
330
390	16×45	1.43	2	18×45	1.59	2.22
390	18×35.5	1.43	2
390
470	16×50	1.58	2.21	18×50	1.83	2.56
470	18×40	1.58	2.21
560	18×45	1.77	2.47
560
680
820

Voltage (V)	350			400			450
Abubuwa	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)	Girman D^XL (mm)	Ripple Current (mA/rms / 105 ℃120Hz)	Ripple Current (mA/rms / 105 ℃100Hz)
Capacitance (uF)
12				8 ×25	0.17	0.255	8×30	0.15	0.225
15				8×30	0.2	0.3	8×40	0.19	0.285
15							10×25	0.16	0.245
18				8×35	0.23	0.345	8×45	0.21	0.315
18				10×25	0.21	0.316	10×30	0.19	0.278
22	8×30	0.25	0.375	8×40	0.26	0.39
22				10×25	0.24	0.36
27	8×35	0.29	0.435
33	8×40	0.33	0.495	8×50	0.3	0.45	10×40	0.36	0.54
33	10×25	0.31	0.465	10×35	0.29	0.435	12.5×30	0.37	0.555
39	8×45	0.37	0.555	10×40	0.4	0.6	10×50	0.41	0.615
39	10×30	0.36	0.54	12.5×25	0.36	0.54	12.5×35	0.42	0.63
47	10×35	0.41	0.615	10×45	0.45	0.675	12.5×40	0.48	0.72
47	12.5×25	0.38	0.566	12.5×30	0.44	0.66	16×25	0.44	0.66
56	10×40	0.47	0.705	10×50	0.52	0.78	12.5×45	0.53	0.795
56	12.5×30	0.44	0.661	12.5×35	0.5	0.75	16×31.5	0.51	0.765
68	10×50	0.55	0.825	12.5×40	0.58	0.87	12.5×50	0.62	0.93
68	12.5×30	0.46	0.696	16×25	0.51	0.765	16×35.5	0.59	0.885
68							18×25	0.57	0.855
82				12.5×45	0.65	0.975	16×40	0.68	1.02
82				16×31.5	0.61	0.915	18×31.5	0.65	0.975
82				18×25	0.61	0.915
100				12.5×50	0.75	1.12	16×45	0.73	1.1
100				16×35.5	0.74	1.11	18×35.5	0.74	1.11
100				18×31.5	0.74	1.11
120				16×40	0.8	1.2	16×50	0.82	1.22
120				18×35.5	0.79	1.18	18×40	0.83	1.24
150				16×50	0.95	1.42	18×45	0.95	1.42
150				18×40	0.91	1.36
180				18×45	1.04	1.56