IiParamitha zoBugcisa eziPhambili
| iprojekthi | uphawu | |
| uluhlu lobushushu bokusebenza | -55~+150℃ | |
| I-voltage yokusebenza elinganisiweyo | 25 ~ 80V | |
| uluhlu lomthamo | 33 ~ 1800" 120Hz 20℃ | |
| Ukunyamezela umthamo | ±20% (120Hz 20℃) | |
| i-tanjenti yokulahleka | 120Hz 20℃ ngaphantsi kwexabiso elikuluhlu lweemveliso ezisemgangathweni | |
| Umsinga ovuzayo※ | Ngaphantsi kwe-0.01 CV(uA), tshaja ngevolthi elinganisiweyo imizuzu emi-2 kwi-20°C | |
| Ukumelana nothotho olulinganayo (ESR) | 100kHz 20°C ngaphantsi kwexabiso elikuluhlu lweemveliso ezisemgangathweni | |
| Iimpawu zobushushu (Umlinganiselo wokunganyamezelani) | Z(-25℃)/Z(+20℃)≤2.0 ; Z(-55℃)/Z(+20℃)≤2.5 (100kHz) | |
|
Ukuqina | Kubushushu obuyi-150°C, faka i-voltage elinganisiweyo kuquka nomsinga we-ripple olinganisiweyo ixesha elithile, uze uyibeke kwi-20°C kangangeeyure ezili-16 ngaphambi kokuvavanya, imveliso kufuneka ihlangane. | |
| Izinga lokutshintsha kwamandla | ±30% yexabiso lokuqala | |
| Ukumelana nothotho olulinganayo (ESR) | ≤200% yexabiso lokuqala lenkcazo | |
| i-tanjenti yokulahleka | ≤200% yexabiso lokuqala lenkcazo | |
| umsinga wokuvuza | ≤Ixabiso lokuqala leenkcukacha | |
|
indawo yokugcina ubushushu bendawo | Gcina kwi-150°C kangangeeyure ezili-1000, yibeke kubushushu begumbi iiyure ezili-16 ngaphambi kokuvavanya, ubushushu bokuvavanya: 20°C±2°C, imveliso kufuneka ihlangabezane neemfuno ezilandelayo | |
| Izinga lokutshintsha kwamandla | ±30% yexabiso lokuqala | |
| Ukumelana nothotho olulinganayo (ESR) | ≤200% yexabiso lokuqala lenkcazo | |
| i-tanjenti yokulahleka | ≤200% yexabiso lokuqala lenkcazo | |
| umsinga wokuvuza | ukuya kwixabiso lokuqala lenkcazo | |
| Qaphela: Iimveliso ezigcinwe kubushushu obuphezulu kufuneka zinyangwe nge-voltage. | ||
|
Ubushushu obuphezulu kunye nokufuma | Emva kokusebenzisa i-voltage elinganisiweyo iiyure ezili-1000 kwi-85°C kunye nokufuma kwe-85%RH, kwaye uyibeke kwi-20°C iiyure ezili-16, imveliso kufuneka ifikelele | |
| Izinga lokutshintsha kwamandla | ±30% yexabiso lokuqala | |
| Ukumelana nothotho olulinganayo (ESR) | ≤200% yexabiso lokuqala lenkcazo | |
| i-tanjenti yokulahleka | ≤200% yexabiso lokuqala lenkcazo | |
| umsinga wokuvuza | ≤Ixabiso lokuqala leenkcukacha | |
※Xa ungaqinisekanga ngexabiso langoku lokuvuza, nceda ubeke imveliso kwi-105°C uze usebenzise i-voltage yokusebenza elinganisiweyo iiyure ezi-2, uze emva koko wenze uvavanyo lwangoku lokuvuza emva kokuba upholile ukuya kwi-20°C.
Umzobo Wemilinganiselo Yemveliso
I-Ripple Current Frequency Correction Coefficient
Uyilo Oluphambili: Ii-YMIN Conductive Polymer Hybrid Aluminium Electrolytic Capacitors - Izisombululo Eziphezulu Zokusebenza Kwezicelo Eziphambili
Kwishishini le-elektroniki elitshintsha ngokukhawuleza namhlanje, iimfuno zokusebenza kwezixhobo eziphambili ziya ziba nzima ngakumbi. Iifrikhwensi eziphezulu, uxinano lwamandla aphezulu, amaqondo obushushu aphezulu, ukungcangcazela okukhulu, kunye nemigaqo yokusingqongileyo konke oku kutyhala imida yezixhobo zemveli. I-YMIN, umenzi wezixhobo ze-elektroniki ophambili, oqonda ngokunzulu iindlela zemarike kunye neendawo ezibangela intlungu kubathengi, ngokuzingca uqalisa imveliso yakhe ephambili, i-Conductive Polymer Hybrid Aluminium Electrolytic Capacitor (Uhlobo lwe-SMD). Le mveliso ayimeli nje kuphela inyathelo elikhulu phambili kubuchwepheshe be-capacitor, kodwa ikwasebenza njengeqabane elithembekileyo kwiinjineli ezijongene nemingeni yoyilo enzima.
I. Ukwaphula Imiqobo Yezobuchwepheshe: Ukuchaza Umgangatho Omtsha WeeCapacitors
I-YMIN's Conductive Polymer Hybrid Aluminium Electrolytic Capacitor ayisiyomveliso nje ephindaphindayo; endaweni yoko, imele iteknoloji exutyiweyo edibanisa iingenelo zee-capacitors ze-aluminium electrolytic zemveli kunye nee-capacitors ze-solid-state. Isebenzisa izinto ze-polymer eziqhuba kakhulu njenge-cathode, ithatha indawo ye-electrolyte yendabuko, ngelixa igcina isakhiwo se-anode se-capacitor ye-aluminium electrolytic. Olu yilo lukhethekileyo luthintela ngobuchule ukungazinzi kwee-electrolytes zemveli kumaqondo obushushu aphezulu naphantsi kunye nemida yee-capacitors ze-solid-state kwi-voltage ephezulu kunye ne-capacitance ephezulu, ifezekisa ulungelelwaniso olugqibeleleyo lokusebenza.
Iingenelo zayo eziphambili zibonakala kwezi milinganiselo zilandelayo:
• Ukunyamezelana kwe-Ultra-low ESR kunye ne-high ripple current: Ukumelana nochungechunge olulinganayo oluphantsi (ESR) lolona phawu luphawulekayo lwale mveliso. Oku kuthetha ukuba ukulahleka kwamandla kuncitshiswa kwiisekethe zokutshintsha ezisebenzisa i-high-frequency, kwaye i-capacitor ngokwayo ivelisa ubushushu obuncinci. Oku kuthetha ukuba amandla ombane anamandla aphezulu kakhulu. Ingafunxa kwaye igudise imisinga emikhulu evuthuzayo eveliswa kwiisekethe zombane, inika amandla acocekileyo kakhulu nazinzileyo kwiitships eziphambili ezifana nee-CPU, ii-GPU, kunye nee-ASIC, nto leyo ephucula kakhulu ukusebenza kakuhle kwenkqubo kunye nokuthembeka.
• Uzinzo oluhle kakhulu lobushushu kunye nobomi obude kakhulu: Imveliso iqinisekisiwe ukuba iza kusebenza ngokuqhubekayo iiyure ezingaphezu kwama-2000 kubushushu obuphezulu njenge-105°C, kwaye iphepha ledatha libonisa umda omangalisayo wobushushu bokusebenza obuphezulu be-150°C. Iiparameter eziphambili ezifana ne-capacitance kunye ne-ESR zihlala zizinzile kuluhlu olubanzi lobushushu (-55°C ukuya ku-+150°C), kunye neempawu ezintle kakhulu zobushushu be-impedance. Oku kuqinisekisa ukusebenza okuzinzileyo, nokuba kukho ukutshayiswa kobushushu, nokuba kuchaphazeleka ngaphandle, kwiindawo ezibandayo, okanye nakwindawo yomthombo wobushushu ophakathi kwesixhobo.
• Ukuthembeka Okuqinileyo KweeMechanical: Le mveliso iphantsi koyilo olukhethekileyo kunye nokucutshungulwa ukuhlangabezana neemfuno ezingqongqo zokumelana nokungcangcazela. Oku kubalulekile kwizicelo ezifana ne-elektroniki yeemoto kunye nolawulo lwemizi-mveliso, ezihlala zichatshazelwa kukungcangcazela okuqhubekayo. Ithintela ngokufanelekileyo umonakalo wangaphakathi kunye nokuwohloka kokusebenza okubangelwa kukungcangcazela, iqinisekisa uqhagamshelo olukhuselekileyo kunye nokuthembeka kwexesha elide.
• Ukupakisha Okuphambili kunye Nokucutshungulwa Okunobuhlobo Nokusingqongileyo: Isebenzisa iteknoloji yokukhwelisa umphezulu (SMD), ifanelekile kwimigca yemveliso ye-SMT ezenzekelayo ngokupheleleyo, iphucula kakhulu ukusebenza kakuhle kwemveliso. Le mveliso ixhasa ukunyibilikisa i-solder okungenalo i-lead, okufudumala okuphezulu, ukuhlangabezana neemfuno zokusingqongileyo kunye neenkqubo zemveliso ye-elektroniki yanamhlanje. Uyilo lwayo oluncinci (olugubungela amandla ukusuka kwi-33μF ukuya kwi-1800μF kunye nobubanzi be-voltage ukusuka kwi-25V ukuya kwi-80V) lukhulisa ukugcinwa kwamandla kunye nokucoca ngaphakathi kwendawo encinci ye-PCB, ihambelana nomkhwa wokwenza kube lula kunye nokudibanisa iimveliso ze-elektroniki.
II. Isiqinisekiso Esingqongqo, Ukuzibophelela Komgangatho
Iimveliso zeYMIN zihlala ziphantsi kwemigangatho ephezulu yolawulo lomgangatho. Olu luhlu lwee-capacitors luhlangabezana ngokupheleleyo nesatifikethi se-AEC-Q200 seemoto, ubungqina bokuthembeka kwazo okugqwesileyo. I-AEC-Q200 ngumgangatho wesatifikethi sokuvavanya uxinzelelo lwezinto ezingasebenziyo zeemoto, kuquka iimvavanyo ezingqongqo kakhulu ezifana nokujikeleza kobushushu, ukugcinwa kobushushu obuphezulu, ukulayisha ukufuma, uvavanyo lobomi, kunye nomothuko kunye nokungcangcazela koomatshini. Olu qinisekiso luqinisekisa ukuba ezi mveliso zihlangabezana ngokupheleleyo neemfuno zoshishino lweemoto ukuze zingabi naziphene kwaye zingathembekanga.
Ukongeza, ezi mveliso zithobela ngokukhutheleyo umyalelo weRoHS, zithintela ngokungqongqo ukusetyenziswa kwezinto ezinobungozi ezifana ne-lead, i-mercury, kunye ne-cadmium, nto leyo ebonisa ukuzibophelela kwe-YMIN kukhuseleko lokusingqongileyo kunye nokuthobela imimiselo kwimarike yehlabathi.
III. Iindawo eziBanzi zoSetyenziso: Ukuvumela iiTekhnoloji zeXesha elizayo
Ngenxa yeenzuzo zazo zokusebenza ezipheleleyo, ii-YMIN conductive polymer hybrid aluminium electrolytic capacitors ziye zaba lukhetho olukhethwayo kwizicelo ezininzi eziphezulu nezibalulekileyo:
1. Izixhobo ze-elektroniki zeemoto: Le yindawo yabo ephambili yokusebenza. Iimodyuli ezintsha zezithuthi zamandla ezifana ne-BMS (iNkqubo yoLawulo lweBhetri), itshaja ekwibhodi (i-OBC), i-converter ye-DC-DC, i-inverter, i-injini ye-ECU, kunye ne-ADAS (iNkqubo yoNcedo loMqhubi oluPhambili) zifuna ii-capacitors ukuba ziphathe imisinga ephezulu yomoya kwiindawo ezinobushushu obuphezulu kunye nokungcangcazela. Iimpawu zale mveliso ezinobushushu obuphezulu, ukuthembeka okuphezulu, i-ESR ephantsi, kunye nokumelana nokungcangcazela ziyahlangabezana ngokugqibeleleyo nezi mfuno.
2. Ukwenziwa kwezinto ngombane kunye nobonelelo ngombane kwimizi-mveliso: Isetyenziswa kwizixhobo zombane ezikumgangatho ophezulu njengee-servo drives, ii-PLC, izixhobo zombane zesiseko sonxibelelwano, izixhobo zombane zeseva, kunye nee-UPS. Ezi zixhobo zinamandla aphezulu kunye neendawo ezinzima zokusasaza ubushushu, zibeka iimfuno eziphezulu kakhulu kubomi bezinto kunye nozinzo. Le mveliso iphucula ngokufanelekileyo ukusebenza kakuhle kokuguqulwa kwamandla, iqinisekisa ukusebenza kwenkqubo ixesha elide, okungaphazanyiswayo, kunye nozinzo.
3. Izixhobo zoNxibelelwano: Ukukhula okukhulu komthamo wokucubungula idatha kunye nesantya sokudlulisa idatha kwizikhululo zesiseko ze-5G, iiswitshi zenethiwekhi, ii-routers, kunye nezinye izixhobo kubeka iimfuno eziphezulu ekuphenduleni nasekucocekeni kwenethiwekhi yonikezelo lwamandla. Ii-capacitors ze-ESR eziphantsi zibonelela ngezakhono zokutshaja ngokukhawuleza kunye nokukhupha, ziqinisekisa i-voltage yonikezelo oluzinzileyo kwiitships eziphambili.
4. Izixhobo ze-elektroniki zabathengi kunye nezixhobo ezikumgangatho ophezulu: Amakhadi emizobo aphezulu, iibhodi zomama, ii-solid-state drives (ii-SSD), ii-drone ESC, iimodyuli zamandla e-smart home, kunye nokunye—nasiphi na isixhobo esifuna ukusebenza okuphezulu, uzinzo oluphezulu, kunye nobomi obude—sifanelekile kule mveliso.
IV. YMIN: Iqabane Elithembekileyo
Ukukhetha i-YMIN kuthetha ukukhetha okungaphezulu nje kwe-capacitor esebenza kakhulu; kuthetha nokukhetha isiseko sobugcisa esiqinileyo nesithembekileyo. Sisebenzisa imigca yemveliso ephucukileyo, ezenzekelayo ngokupheleleyo kunye neenkqubo zokulawula umgangatho ezingqongqo. Ukususela kwizinto eziluhlaza ukuya kwiimveliso ezigqityiweyo, yonke inkqubo ivavanywa ngononophelo ukuqinisekisa ukuba yonke imveliso enikezelwa kubathengi bethu inika ukusebenza okuphezulu nokuqhubekayo.
Sinikezela ngenkxaso yobuchwephesha yobuchwephesha ukunceda abathengi bajongane nemiba eyahlukeneyo enxulumene nokukhethwa kwemveliso, uvavanyo lwezicelo, kunye nokwenza ngcono uyilo lweesekethe. Injongo yethu kukuba likhonkco elibalulekileyo kwiikhonkco zokubonelela zabathengi bethu, sikhule kunye nabo ngeemveliso ezintsha kunye nenkonzo esemgangathweni, kwaye sifezekise ikamva elikwabelwana ngalo.
Ngamafutshane, i-YMIN Conductive Polymer Hybrid Aluminium Electrolytic Capacitor (SMD Type) yimveliso entsha edibanisa ukusebenza okuphezulu, ukuthembeka okuphezulu, kunye nokukhuselwa kwendalo kunye nokonga amandla. Iphula i-mqobo yokusebenza kwezinto zemveli, ibonelela ngenqanaba elibanzi lokuvelisa izinto ezintsha zobunjineli, kwaye yeyona nto iphambili eqhuba isizukulwana esilandelayo sezixhobo ze-elektroniki ukuya kwikamva elisebenzayo, elithembekileyo, nelikrelekrele. Siyakumema ngokunyanisekileyo ukuba ufumane amava ale mveliso ingaqhelekanga kwaye usebenzisane ne-YMIN ukuguqula izimvo zakho eziphambili zibe yinyani.
| Inombolo yeMveliso | Ubushushu (℃) | I-Voltage elinganisiweyo (i-Vdc) | Ubungakanani bomthamo (μF) | Ububanzi(mm) | Ubude (mm) | Ukuvuza kwangoku (μA) | I-ESR/Impedance [Ωmax] | Ubomi (iiyure) | Isiqinisekiso seMveliso |
| VHRE1051V331MVCG | -55~150 | 35 | 330 | 10 | 10.5 | 115.5 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRE1251H181MVCG | -55~150 | 50 | 180 | 10 | 12.5 | 90 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRD1051E221MVCG | -55~150 | 25 | 220 | 8 | 10.5 | 55 | 0.027 | 2000 | I-AEC-Q200 |
| VHRE1051E471MVCG | -55~150 | 25 | 470 | 10 | 10.5 | 117.5 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRE1301E561MVCG | -55~150 | 25 | 560 | 10 | 13 | 140 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRL2151E152MVCG | -55~150 | 25 | 1500 | 12.5 | 21.5 | 375 | 0.015 | 2000 | I-AEC-Q200 |
| I-VHRD1051V121MVCG | -55~150 | 35 | 120 | 8 | 10.5 | 42 | 0.027 | 2000 | I-AEC-Q200 |
| I-VHRE1051V221MVCG | -55~150 | 35 | 220 | 10 | 10.5 | 77 | 0.025 | 2000 | I-AEC-Q200 |
| VHRE1301V331MVCG | -55~150 | 35 | 330 | 10 | 13 | 115.5 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRJ2651V182MVCG | -55~150 | 35 | 1800 | 18 | 26.5 | 630 | 0.015 | 2000 | I-AEC-Q200 |
| I-VHRD1051H820MVCG | -55~150 | 50 | 82 | 8 | 10.5 | 41 | 0.03 | 2000 | I-AEC-Q200 |
| I-VHRE1051H121MVCG | -55~150 | 50 | 120 | 10 | 10.5 | 60 | 0.028 | 2000 | I-AEC-Q200 |
| I-VHRE1301H181MVCG | -55~150 | 50 | 180 | 10 | 13 | 90 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRJ3151H182MVCG | -55~150 | 50 | 1800 | 18 | 31.5 | 900 | 0.018 | 2000 | I-AEC-Q200 |
| I-VHRD1051J470MVCG | -55~150 | 63 | 47 | 8 | 10.5 | 29.61 | 0.04 | 2000 | I-AEC-Q200 |
| I-VHRE1051J820MVCG | -55~150 | 63 | 82 | 10 | 10.5 | 51.66 | 0.03 | 2000 | I-AEC-Q200 |
| I-VHRE1301J121MVCG | -55~150 | 63 | 120 | 10 | 13 | 75.6 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRJ3151J122MVCG | -55~150 | 63 | 1200 | 18 | 31.5 | 756 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRD1051K330MVCG | -55~150 | 80 | 33 | 8 | 10.5 | 26.4 | 0.04 | 2000 | I-AEC-Q200 |
| I-VHRE1051K470MVCG | -55~150 | 80 | 47 | 10 | 10.5 | 37.6 | 0.03 | 2000 | I-AEC-Q200 |
| I-VHRE1301K680MVCG | -55~150 | 80 | 68 | 10 | 13 | 54.4 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRJ3151K681MVCG | -55~150 | 80 | 680 | 18 | 31.5 | 544 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRD1051E221MVKZ | -55~150 | 25 | 220 | 8 | 10.5 | 55 | 0.027 | 2000 | I-AEC-Q200 |
| VHRE1051E471MVKZ | -55~150 | 25 | 470 | 10 | 10.5 | 117.5 | 0.025 | 2000 | I-AEC-Q200 |
| VHRE1301E561MVKZ | -55~150 | 25 | 560 | 10 | 13 | 140 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRL2151E152MVKZ | -55~150 | 25 | 1500 | 12.5 | 21.5 | 375 | 0.015 | 2000 | I-AEC-Q200 |
| I-VHRD1051V121MVKZ | -55~150 | 35 | 120 | 8 | 10.5 | 42 | 0.027 | 2000 | I-AEC-Q200 |
| VHRE1051V221MVKZ | -55~150 | 35 | 220 | 10 | 10.5 | 77 | 0.025 | 2000 | I-AEC-Q200 |
| VHRE1301V331MVKZ | -55~150 | 35 | 330 | 10 | 13 | 115.5 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRJ2651V182MVKZ | -55~150 | 35 | 1800 | 18 | 26.5 | 630 | 0.015 | 2000 | I-AEC-Q200 |
| I-VHRD1051H820MVKZ | -55~150 | 50 | 82 | 8 | 10.5 | 41 | 0.03 | 2000 | I-AEC-Q200 |
| VHRE1051H121MVKZ | -55~150 | 50 | 120 | 10 | 10.5 | 60 | 0.028 | 2000 | I-AEC-Q200 |
| VHRE1301H181MVKZ | -55~150 | 50 | 180 | 10 | 13 | 90 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRJ3151H182MVKZ | -55~150 | 50 | 1800 | 18 | 31.5 | 900 | 0.018 | 2000 | I-AEC-Q200 |
| I-VHRD1051J470MVKZ | -55~150 | 63 | 47 | 8 | 10.5 | 29.61 | 0.04 | 2000 | I-AEC-Q200 |
| VHRE1051J820MVKZ | -55~150 | 63 | 82 | 10 | 10.5 | 51.66 | 0.03 | 2000 | I-AEC-Q200 |
| VHRE1301J121MVKZ | -55~150 | 63 | 120 | 10 | 13 | 75.6 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRJ3151J122MVKZ | -55~150 | 63 | 1200 | 18 | 31.5 | 756 | 0.02 | 2000 | I-AEC-Q200 |
| I-VHRD1051K330MVKZ | -55~150 | 80 | 33 | 8 | 10.5 | 26.4 | 0.04 | 2000 | I-AEC-Q200 |
| VHRE1051K470MVKZ | -55~150 | 80 | 47 | 10 | 10.5 | 37.6 | 0.03 | 2000 | I-AEC-Q200 |
| VHRE1301K680MVKZ | -55~150 | 80 | 68 | 10 | 13 | 54.4 | 0.025 | 2000 | I-AEC-Q200 |
| I-VHRJ3151K681MVKZ | -55~150 | 80 | 680 | 18 | 31.5 | 544 | 0.02 | 2000 | I-AEC-Q200 |
