Imingcele yezobuchwepheshe eyinhloko
| Iphrojekthi | isici | ||||||||
| Ibanga lokushisa elisebenzayo | ≤100V-55~+105C;160~400V-40~+105'C | ||||||||
| Ibanga le-voltage lokuzisholo | 6.3~400V | ||||||||
| Ukubekezelela amandla | +20%(25+2°C120Hz) | ||||||||
| Ukuvuza kwamanje (uA) | 6.3~100WV I0.01CV noma 3uA noma iyiphi enkulu C: Amandla okuzisholo (F) V: I-voltage elinganiselwe (V) imizuzu emi-2 yokufunda | ||||||||
| 160~400WV I0.02CV+10(uA) C: amandla okuzisholo (uF) V: ugesi okaliwe (V) imizuzu emi-2 ukufundwa | |||||||||
| I-Loss Tangent (25±2℃ 120Hz) | I-voltage elinganiselwe (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | |
| tg 6 | 0.32 | 0.28 | 0.24 | 0.2 | 0.16 | 0.14 | 0.14 | ||
| I-voltage elinganiselwe (V) | 80 | 100 | 160 | 200 | 250 | 350 | 400 | ||
| tg 6 | 0.12 | 0.12 | 0.15 | 0.15 | 0.15 | 0.15 | 0.15 | ||
| Uma umthamo wegama udlula u-1000uF, inani le-tangent yokulahlekelwa lizokhuphuka ngo-0.02 ekukhuphukeni ngakunye ngo-1000uF | |||||||||
| Izici Zezinga lokushisa (120Hz) | I-voltage elinganiselwe (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | |
| I-Impedans ratio Z(-40℃)/Z(20℃) | 14 | 12 | 8 | 6 | 4 | 4 | 4 | ||
| I-voltage elinganiselwe (V) | 80 | 100 | 160 | 200 | 250 | 350 | 400 | ||
| I-Impedans ratio Z(-40℃)/Z(20℃) | 4 | 4 | 5 | 5 | 5 | 7 | 7 | ||
| Ukuqina | Ukusebenza kwe-capacitor kufanele kuhlangabezane nezidingo ezilandelayo Kuhhavini ku-105 ° C, sebenzisa i-voltage elinganiselwe nge-ripple current elinganiselwe isikhathi esithile, bese uyibeka ekamelweni lokushisa amahora angu-16 ngaphambi kokuhlolwa, izinga lokushisa lokuhlola: 25±2°C. | ||||||||
| Izinga lokushintsha amandla | Ngaphakathi kuka-30% yenani lokuqala | ||||||||
| ukulahlekelwa tangent | Ngaphansi kuka-300% yenani elishiwo | ||||||||
| ukuvuza kwamanje | Ngaphansi kwevelu eshiwo | ||||||||
| layisha impilo | Φ5 | 4000 Amahora | |||||||
| Φ6.3 | 5000 Amahora | ||||||||
| Φ8\Φ10 | 6000 Amahora | ||||||||
| izinga lokushisa eliphezulu isitoreji | Ukusebenza kwe-capacitor kufanele kuhlangabezane nezidingo ezilandelayo.Gcina ku-105°C amahora angu-1000, futhi uyihlole ngemva kwamahora angu-16 ekamelweni lokushisa.Izinga lokushisa lokuhlola lingu-25+2°C. | ||||||||
| Izinga lokushintsha amandla | Ngaphakathi kuka-30% yenani lokuqala | ||||||||
| ukulahlekelwa tangent | Ngaphansi kuka-300% yenani elishiwo | ||||||||
| ukuvuza kwamanje | Ngaphansi kwevelu eshiwo | ||||||||
Umdwebo Dimensional womkhiqizo
I-Ripple current frequency correct coefficient
| Imvamisa (Hz) | 50 | 120 | 1K | 310K |
| i-coefficient | 0.65 | 1 | 1.37 | 1.5 |
I-Liquid Small Business Unit ibambe iqhaza ku-R&D nokukhiqiza kusukela ngo-2001. Nge-R&D nethimba lokukhiqiza, iye yakhiqiza ngokuqhubekayo futhi kancane kancane izinhlobonhlobo zekhwalithi ephezulu ze-miniaturized aluminium electrolytic capacitor ukuhlangabezana nezidingo zamakhasimende ezintsha zama-electrolytic aluminium capacitor.Iyunithi yebhizinisi elincane eliwuketshezi linamaphakheji amabili: i-liquid SMD aluminium electrolytic capacitor kanye ne-liquid lead type aluminium electrolytic capacitor.Imikhiqizo yayo inezinzuzo ze-miniaturization, ukuzinza okuphezulu, umthamo ophezulu, amandla kagesi aphezulu, ukumelana nezinga lokushisa eliphezulu, i-impedance ephansi, i-ripple ephezulu, nokuphila isikhathi eside.Isetshenziswa kabanzi kuugesi omusha wamandla wezimoto, amandla amakhulu okuphakelwa kwamandla, ukukhanyisa okuhlakaniphile, ukushaja okusheshayo kwe-gallium nitride, izinto zikagesi zasendlini, ama-voltaic ezithombe nezinye izimboni..
Konke mayelanaI-Aluminium Electrolytic Capacitorudinga ukwazi
Ama-Aluminium electrolytic capacitor awuhlobo olujwayelekile lwe-capacitor olusetshenziswa kumishini kagesi.Funda izisekelo zendlela abasebenza ngayo kanye nezicelo zabo kulo mhlahlandlela.Ingabe ufuna ukwazi nge-aluminium electrolytic capacitor?Lesi sihloko sihlanganisa izinto eziyisisekelo zalawa ma-aluminium capacitor, okuhlanganisa ukwakhiwa nokusetshenziswa kwawo.Uma umusha kuma-aluminium electrolytic capacitor, lo mhlahlandlela uyindawo enhle ongaqala ngayo.Zitholele izisekelo zalawa ma-capacitor e-aluminium nokuthi asebenza kanjani kumasekhethi kagesi.Uma unentshisekelo engxenyeni ye-electronics capacitor , kungenzeka ukuthi uzwile nge-aluminium capacitor.Lezi zingxenye ze-capacitor zisetshenziswa kabanzi kumadivayisi kagesi futhi zidlala indima ebalulekile ekwakhiweni kwesekethe.Kodwa ziyini ngempela futhi zisebenza kanjani?Kulo mhlahlandlela, sizohlola izinto eziyisisekelo zama-aluminum electrolytic capacitor, okuhlanganisa ukwakhiwa kwawo kanye nokusetshenziswa kwawo.Noma ngabe ungumuntu osaqalayo noma ungumthandi we-elekthronikhi onesipiliyoni, lesi sihloko siyisisetshenziswa esihle sokuqonda lezi zingxenye ezibalulekile.
1.Iyini i-aluminium electrolytic capacitor?I-aluminium electrolytic capacitor iwuhlobo lwe-capacitor esebenzisa i-electrolyte ukuze kuzuzwe amandla aphezulu kunezinye izinhlobo zama-capacitor.Yakhiwe ngamafoyili amabili e-aluminium ahlukaniswe yiphepha elifakwe ku-electrolyte.
2.Isebenza kanjani?Lapho i-voltage isetshenziswa ku-capacitor kagesi, i-electrolyte iqhuba ugesi futhi ivumela i-capacitor electronic ukugcina amandla.Amafoyili e-aluminium asebenza njengama-electrode, futhi iphepha elifakwe ku-electrolyte lisebenza njenge-dielectric.
3.Iziphi izinzuzo zokusebenzisa i-aluminium electrolytic capacitors?Ama-Aluminium electrolytic capacitor ane-capacitance ephezulu, okusho ukuthi angagcina amandla amaningi endaweni encane.Abuye angabizi futhi angakwazi ukuphatha ama-voltages aphezulu.
I-4.Yiziphi izinkinga zokusebenzisa i-aluminium electrolytic capacitor?Okunye okungalungile kokusebenzisa i-aluminium electrolytic capacitor ukuthi inobude bempilo obulinganiselwe.I-electrolyte ingakwazi ukuma ngokuhamba kwesikhathi, okungabangela izingxenye ze-capacitor ukuthi zihluleke.Ziyakwazi futhi ukuzwela ukushisa futhi zingalimala uma zibhekene namazinga okushisa aphezulu.
5.Iziphi ezinye izinhlelo zokusebenza ezivamile ze-aluminium electrolytic capacitors?I-Aluminium electrolytic capacitor ivame ukusetshenziswa ezintweni zikagesi, izinto ezilalelwayo, nezinye izinto zikagesi ezidinga amandla aphezulu.Zibuye zisetshenziswe ezinhlelweni zezimoto, njengakusistimu yokuthungela.
6.Ukhetha kanjani i-aluminium electrolytic capacitor efanele yohlelo lwakho lokusebenza?Uma ukhetha i-aluminium electrolytic capacitor, udinga ukucabangela amandla, isilinganiso se-voltage, nezinga lokushisa.Udinga futhi ukucabangela usayizi nokuma kwe-capacitor, kanye nezinketho zokufaka.
7.Uyinakekela kanjani i-aluminium electrolytic capacitor?Ukuze unakekele i-aluminium electrolytic capacitor, kufanele ugweme ukuyibeka emazingeni okushisa aphezulu kanye nama-voltage aphezulu.Kufanele futhi ugweme ukuzifaka ngaphansi kokucindezeleka komshini noma ukudlidliza.Uma i-capacitor isetshenziswa ngokungavamile, kufanele ngezikhathi ezithile usebenzise i-voltage kuyo ukuze ugcine i-electrolyte ingomi.
Izinzuzo kanye Nemibi yeAluminium Electrolytic Capacitors
I-Aluminium electrolytic capacitor inokubili okuhle nokubi.Ngakolunye uhlangothi, banesilinganiso esiphezulu se-capacitance-to-volume, okubenza babe usizo ezinhlelweni zokusebenza lapho isikhala silinganiselwe.I-aluminium Electrolytic Capacitor nayo inezindleko eziphansi uma iqhathaniswa nezinye izinhlobo zama-capacitor.Nokho, zinesikhathi esilinganiselwe sokuphila futhi zingazwela emazingeni okushisa nokwenyuka kwamandla kagesi.Ukwengeza, i-Aluminium Electrolytic Capacitors ingase ihlangabezane nokuvuza noma ukwehluleka uma ingasetshenziswa kahle.Ngasohlangothini oluhle, ama-Aluminium Electrolytic Capacitors anesilinganiso esiphezulu somthamo kuya kuvolumu, okuwenza abe wusizo ezinhlelweni zokusebenza lapho isikhala silinganiselwe.Nokho, zinesikhathi esilinganiselwe sokuphila futhi zingazwela emazingeni okushisa nokwenyuka kwamandla kagesi.Ukwengeza, i-Aluminium Electrolytic Capacitor ingathambekela ekuvuzeni futhi ibe nokumelana nochungechunge okuphezulu okulinganayo uma kuqhathaniswa nezinye izinhlobo zama-capacitor kagesi.
| I-Voltage(V) | 6.3 | 10 | 16 | |||
| iphrojekthi | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) |
| Amandla (uF) | ||||||
| 2.2 | ||||||
| 2.7 | ||||||
| 3.3 | ||||||
| 3.9 | ||||||
| 4.7 | ||||||
| 5.6 | ||||||
| 6.8 | ||||||
| 8.2 | ||||||
| 10 | 5×7.9 | 55 | 5×7.9 | 55 | 5×7.9 | 55 |
| 12 | 5×7.9 | 55 | 5×7.9 | 55 | 5×7.9 | 55 |
| 15 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 60 |
| 18 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 60 |
| 22 | 5×7.9 | 60 | 5×7.9 | 70 | 5×7.9 | 70 |
| 27 | 5×7.9 | 70 | 5×7.9 | 70 | 5×7.9 | 70 |
| 33 | 5×7.9 | 80 | 5×7.9 | 80 | 5×7.9 | 80 |
| 39 | 5×7.9 | 80 | 5×7.9 | 80 | 5×7.9 | 80 |
| 47 | 5×7.9 | 90 | 5×7.9 | 90 | 5×7.9 | 90 |
| 56 | 5×7.9 | 90 | 5×7.9 | 90 | 5×7.9 | 90 |
| 68 | 5×7.9 | 90 | 5×7.9 | 90 | 5×7.9 | 90 |
| 82 | 5×7.9 | 100 | 5×7.9 | 98 | 6.3×77 | 105 |
| 100 | 5×7.9 | 105 | 6.3×77 | 115 | 6.3×77 | 115 |
| 120 | 5×7.9 | 110 | 6.3×77 | 115 | 6.3×77 | 128 |
| 150 | 6.3×77 | 115 | 6.3×77 | 135 | 8×7.9 | 140 |
| 180 | 6.3×77 | 135 | 8×7.9 | 160 | 8×7.9 | 170 |
| 220 | 6.3×77 | 160 | 8×7.9 | 170 | 8×7.9 | 190 |
| 270 | 8×7.9 | 170 | 8×7.9 | 190 | 10×8.4 | 220 |
| 330 | 8×7.9 | 180 | 10×8.4 | 220 | 10×8.4 | 240 |
| 390 | 8×7.9 | 190 | 10×8.4 | 240 | 10×8.4 | 260 |
| 470 | 8×7.9 | 200 | 10×8.4 | 260 | ||
| 560 | 10×8.4 | 240 | ||||
| 680 | 10×8.4 | 280 | ||||
| I-Voltage(V) | 25 | 35 | 50 | |||
| iphrojekthi | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) |
| Amandla (uF) | ||||||
| 2.2 | 5×7.9 | 31 | ||||
| 2.7 | 5×7.9 | 31 | ||||
| 3.3 | 5×7.9 | 31 | ||||
| 3.9 | 5×7.9 | 31 | ||||
| 4.7 | 5×7.9 | 50 | 5×7.9 | 50 | 5×7.9 | 31 |
| 5.6 | 5×7.9 | 50 | 5×7.9 | 50 | 5×7.9 | 31 |
| 6.8 | 5×7.9 | 55 | 5×7.9 | 50 | 5×7.9 | 31 |
| 8.2 | 5×7.9 | 55 | 5×7.9 | 50 | 5×7.9 | 31 |
| 10 | 5×7.9 | 60 | 5×7.9 | 50 | 5×7.9 | 31 |
| 12 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 37 |
| 15 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 44 |
| 18 | 5×7.9 | 60 | 5×7.9 | 60 | 6.3×77 | 55 |
| 22 | 5×7.9 | 60 | 5×7.9 | 70 | 6.3×77 | 65 |
| 27 | 5×7.9 | 70 | 6.3×77 | 80 | 6.3×77 | 78 |
| 33 | 5×7.9 | 85 | 6.3×77 | 90 | 8×7.9 | 85 |
| 39 | 5×7.9 | 85 | 6.3×77 | 98 | 8×7.9 | 100 |
| 47 | 5×7.9 | 90 | 6.3×77 | 105 | 8×7.9 | 120 |
| 56 | 6.3×77 | 98 | 8×7.9 | 115 | 8×7.9 | 125 |
| 68 | 6.3×77 | 105 | 8×7.9 | 125 | 10×8.4 | 140 |
| 82 | 6.3×77 | 115 | 8×7.9 | 140 | 10×8.4 | 160 |
| 100 | 8×7.9 | 125 | 8×7.9 | 170 | 10×8.4 | 180 |
| 120 | 8×7.9 | 140 | 10×8.4 | 180 | ||
| 150 | 8×7.9 | 170 | 10×8.4 | 210 | ||
| 180 | 10×8.4 | 190 | ||||
| 220 | 10×8.4 | 220 | ||||
| 270 | ||||||
| 330 | ||||||
| 390 | ||||||
| 470 | ||||||
| 560 | ||||||
| 680 | ||||||
| I-Voltage(V) | 63 | 80 | 100 | |||
| iphrojekthi | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) |
| Amandla (uF) | ||||||
| 1 | ||||||
| 1.2 | ||||||
| 1.5 | ||||||
| 1.8 | ||||||
| 2.2 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 2.7 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 3.3 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 3.9 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 4.7 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 5.6 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 6.8 | 5×7.9 | 30 | 5×7.9 | 30 | 6.3×77 | 30 |
| 8.2 | 5×7.9 | 30 | 5×7.9 | 30 | 6.3×77 | 40 |
| 10 | 5×7.9 | 30 | 6.3×77 | 50 | 6.3×77 | 50 |
| 12 | 6.3×77 | 50 | 6.3×77 | 55 | 8×7.9 | 75 |
| 15 | 6.3×77 | 56 | 6.3×77 | 70 | 8×7.9 | 85 |
| 18 | 6.3×77 | 70 | 6.3×77 | 75 | 8×7.9 | 100 |
| 22 | 8×7.9 | 75 | 8×7.9 | 85 | 8×7.9 | 120 |
| 27 | 8×7.9 | 85 | 8×7.9 | 100 | 10×8.4 | 130 |
| 33 | 8×7.9 | 100 | 8×7.9 | 120 | 10×8.4 | 150 |
| 39 | 8×7.9 | 120 | 10×8.4 | 130 | ||
| 47 | 10×8.4 | 130 | 10×8.4 | 150 | ||
| 56 | 10×8.4 | 150 | 10×8.4 | 160 | ||
| 68 | 10×8.4 | 160 | ||||
| I-Voltage(V) | 160 | 200 | 250 | |||
| iphrojekthi | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) |
| Amandla (uF) | ||||||
| 1 | 5×7.9 | 20 | 5×7.9 | 20 | ||
| 1.2 | 5×7.9 | 20 | 5×7.9 | 20 | ||
| 1.5 | 5×7.9 | 22 | 5×7.9 | 22 | ||
| 1.8 | 5×7.9 | 22 | 5×7.9 | 22 | ||
| 2.2 | 5×7.9 | 20 | 6.3×77 | 25 | 6.3×77 | 25 |
| 2.7 | 5×7.9 | 20 | 6.3×77 | 35 | 6.3×77 | 35 |
| 3.3 | 6.3×77 | 22 | 6.3×77 | 40 | 6.3×77 | 40 |
| 3.9 | 6.3×77 | 22 | 8×7.9 | 50 | 8×7.9 | 50 |
| 4.7 | 6.3×77 | 22 | 8×7.9 | 55 | 8×7.9 | 55 |
| 5.6 | 8×7.9 | 50 | 8×7.9 | 65 | 8×7.9 | 65 |
| 6.8 | 8×7.9 | 55 | 8×7.9 | 72 | 10×8.4 | 80 |
| 8.2 | 8×7.9 | 60 | 10×8.4 | 95 | 10×8.4 | 95 |
| 10 | 8×7.9 | 65 | 10×8.4 | 108 | 10×8.4 | 108 |
| 12 | 10×8.4 | 95 | ||||
| 15 | 10×8.4 | 115 | ||||
| 18 | ||||||
| 22 | ||||||
| 27 | ||||||
| 33 | ||||||
| 39 | ||||||
| 47 | ||||||
| 56 | ||||||
| 68 | ||||||
| I-Voltage(V) | 350 | 400 | ||
| iphrojekthi | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) | Ubukhulu Φ DxL(mm) | ukuphazamiseka (Ωmax/100kHz 25±2℃) |
| Amandla (uF) | ||||
| 1 | 6.3×77 | 25 | 6.3×77 | 25 |
| 1.2 | 6.3×77 | 30 | 6.3×77 | 30 |
| 1.5 | 6.3×77 | 35 | 6.3×77 | 35 |
| 1.8 | 6.3×77 | 40 | 6.3×77 | 40 |
| 2.2 | 8×7.9 | 50 | 8×7.9 | 50 |
| 2.7 | 8×7.9 | 55 | 8×7.9 | 55 |
| 3.3 | 8×7.9 | 70 | 8×7.9 | 70 |
| 3.9 | 10×8.4 | 80 | 10×8.4 | 80 |
| 4.7 | 10×8.4 | 95 | 10×8.4 | 95 |
| 5.6 | 10×8.4 | 108 | ||
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