IiParamitha zoBugcisa eziPhambili
| iprojekthi | uphawu | |
| uluhlu lobushushu bokusebenza | -55~+135℃ | |
| I-voltage yokusebenza elinganisiweyo | 25 ~ 80V | |
| uluhlu lomthamo | 33 ~ 1800uF 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-135°C, faka i-voltage elinganisiweyo kuquka ne-ripple current elinganisiweyo 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-135°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
Ngaphaya Kwemida, Ukuchaza Ikamva: Ii-YMIN VHU Series 135°C Ultra-High Conductivity Polymer Hybrid Aluminium Electrolytic Capacitors
Kwishishini lezinto ze-elektroniki, ukuthembeka, ukuqina, kunye nokusebenza okuphezulu zezona zinto zibalulekileyo. Uphuhliso olukhawulezileyo lwezixhobo ze-elektroniki zeemoto, i-automation yemizi-mveliso, kunye netekhnoloji yonxibelelwano ibeke iimfuno ezingqongqo ngakumbi ekuzivumelaniseni nokusingqongileyo kwezinto eziphambili ezingasebenziyo. I-YMIN Electronics, enombono wayo wobugcisa ocinga phambili kunye nobuchule bokuvelisa obunzulu, ngokuzingca iqalisa ii-VHU Series Conductive Polymer Hybrid Aluminium Electrolytic Capacitors (Uhlobo lwe-SMD). Le mveliso ayimeli nje kuphela inyathelo lobuchwepheshe eliya phambili kodwa ikwayisiseko esithembekileyo seemeko zokusebenza ezinzima, ichaza kwakhona umgangatho woshishino wokusebenza kwe-capacitor kwizicelo zobushushu obuphezulu.
I. Inzuzo Engundoqo: Ukusebenza Okugqwesileyo Kwiimeko Ezinzima
Impumelelo yothotho lwe-YMIN VHU ivela kubuchwepheshe bayo obuguqukayo be-conductive polymer hybrid. Idibanisa ngobuchule ukuhanjiswa okuphezulu kakhulu kwezinto ze-conductive polymer kunye neenzuzo ze-voltage zeenkqubo ze-electrolyte zemveli, ifezekisa ukusebenza okuphumelelayo kwiinkalo ezahlukeneyo.
1. Ukuqina okuhlala ixesha elide kumaqondo obushushu aphezulu angama-135°C: Olu lolona phawu lubalaseleyo lothotho lwe-VHU. Ngelixa ii-capacitors eziqhelekileyo zijongene nemingeni emikhulu kuma-105°C, uthotho lwe-VHU luqinisekisa ukusebenza okuzinzileyo iiyure ezingama-4,000 kolu bushushu buphezulu kakhulu. Oku kubonisa ngokuthe ngqo uzinzo olukhethekileyo lobushushu kunye nokumelana ne-oxidation kwenkqubo yayo yangaphakathi yezinto, ethintela kakhulu ukufuma kwe-electrolyte kunye neempendulo zokuguga phantsi kwamaqondo obushushu aphezulu. Kwizixhobo ze-elektroniki zeemoto kwiindawo ezinobushushu obuphezulu ezifana negumbi lenjini kunye kufutshane ne-transmission, okanye kwiimodyuli zamandla zoshishino ezinobunzima obuphezulu obunokuchithwa kobushushu okulinganiselweyo, olu phawu luphucula kakhulu ubomi benkqubo kunye nokuthembeka.
2. I-ESR ephantsi rhoqo kunye nokukwazi ukuphatha i-ripple current ephezulu: Amaqondo obushushu aphezulu adla ngokubangela ukuwohloka kokusebenza, kodwa uthotho lwe-VHU, olusebenzisa iimpawu ze-conductive polymers, lugcina ukumelana okuphantsi kakhulu kwe-equivalent series (ESR) nokuba kubushushu obuphezulu. I-ESR ephantsi inikezela ngeenzuzo ezimbini ezibalulekileyo: okokuqala, ukuvelisa ubushushu obuncinci bangaphakathi, ukunciphisa uxinzelelo lobushushu kwi-capacitor kwiindawo ezinobushushu obuphezulu, kudala umjikelo olungileyo; kwaye okwesibini, ibonelela ngamandla aphezulu kakhulu e-ripple current avumelekileyo. Oku kuyenza ikwazi ukuphatha ngokulula i-currents eguquguqukayo ngamandla kwi-high-frequency switching power supplies, ibonelela nge-voltage ecocekileyo nezinzileyo kwiindawo eziphambili ezifana nee-CPU, ii-GPU, kunye nabaqhubi be-IGBT abanamandla aphezulu, okuphucula kakhulu ukusebenza kakuhle kokuguqulwa kunye nokuzinza kwenkqubo yamandla yonke.
3. Ukuthembeka koomatshini kunye neNkqubo eqinileyo: Le mveliso ine-vibration resistance egqwesileyo, ekwaziyo ukumelana nokungcangcazela okuqhubekayo kwezithuthi kunye noomatshini abanzima, iqinisekisa uzinzo lwangaphakathi lwesakhiwo kwaye ithintele ukungaphumeleli kokusebenza okubangelwa luxinzelelo loomatshini. Ngaphezu koko, iphakheji yayo ye-SMD ihambelana ngokupheleleyo neenkqubo zokudibanisa i-solder ezingenalo i-lead, ezinobushushu obuphezulu, ezihambelana neemfuno zemigca yendibano yanamhlanje ezenzekelayo ngokupheleleyo kwaye iqinisekisa ukuveliswa okukhulu, okuhlala kufana kakhulu.
II. Isiseko soMgangatho: Isiqinisekiso esiGunyazisiweyo kunye noVavanyo oluQolileyo
Ukuzinikela kwe-YMIN kumgangatho kubonakala ekuthobeleni nasekudluleni kwayo yonke imigangatho yamazwe ngamazwe. Olu luhlu lwe-VHU luhambelana ngokupheleleyo nomgangatho wokuthembeka kwezixhobo ze-elektroniki zeemoto ze-AEC-Q200, oko kuthetha ukuba luphumelele ngempumelelo uthotho lweemvavanyo ezinzima ezigqitha kakhulu iimfuno zezinga lemizi-mveliso, kubandakanya imithwalo yobushushu obuphezulu, ukujikeleza kobushushu, uvavanyo lobushushu obuphezulu kunye nomswakama ophezulu, kunye nokumelana nokugqwala. Umgangatho wayo uxhasa ngokupheleleyo ukulandelwa kokhuseleko kunye nokungabikho ziphene kwizixhobo ze-elektroniki zeemoto. Ngaphezu koko, imveliso ihambelana ngokukhutheleyo nomyalelo we-RoHS kwaye isebenzisa ngokupheleleyo izixhobo ezinobuhlobo nokusingqongileyo, ihambelana nombono wehlabathi wokuvelisa izinto eziluhlaza ezizinzileyo.
I-YMIN iseke inkqubo yokuqinisekisa yangaphakathi edlula kakhulu imigangatho yoshishino ukuqinisekisa ukuba yonke i-VHU capacitor iyakwazi ukumelana nexesha:
• 135°C Ukuqina komthwalo wobushushu obuphezulu: Emva kweeyure ezingama-4000 zovavanyo oluqhubekayo kwi-135°C kunye ne-voltage elinganisiweyo kunye ne-ripple current esetyenzisiweyo, utshintsho kwiiparameters ezifana notshintsho lwe-capacitance, ukwanda kwe-ESR, i-loss factor, kunye ne-leaking current zigcinwe ngaphakathi kwemida emincinci kakhulu, kunye nokuwohloka kokusebenza okuncinci.
• 135°C Indawo yokugcina ubushushu obuphezulu: Emva kweeyure ezili-1000 zokugcina ngaphandle kwamandla kwi-135°C, kulingisa inkqubo yokuguga kwezinto kwiindawo ezinobushushu obuphezulu bexesha elide, ukusebenza kwemveliso kwahlala kuzinzile emva kovavanyo.
• 85°C/85%RH Ubushushu obuphezulu kunye nobunzima obuphezulu bomthwalo: Emva kweeyure ezili-1000 zovavanyo lokuvula amandla kwi-85°C kunye nobushushu obuphakathi kwe-85%, imveliso ibonisa ukungena kakuhle komswakama kunye nokumelana nokugqwala, okwenza ukuba ifaneleke ukusetyenziswa kwiindawo ezinomswakama.
Ezi mvavanyo xa zizonke zenza umqobo womgangatho ongenakwaphulwa we-VHU series.
III. Izicelo Ezibanzi: Ukuvumela Ubuchule Obuphezulu
Ngenxa yobushushu bayo obuphezulu kakhulu, ukuthembeka okuphezulu, kunye nokusebenza okuphezulu, uthotho lwe-YMIN VHU lukhetho olufanelekileyo kwezi zicelo zilandelayo ziphezulu:
• Izixhobo ze-elektroniki zeemoto (ingakumbi izithuthi zamandla ezintsha kunye nokuqhuba ngobuchule): Le yeyona marike iphambili yothotho lwe-VHU.
◦ Inkqubo entsha yesithuthi samandla esine-electric ezintathu: Kwitshaja ekwibhodi (i-OBC), i-motor drive inverter, inkqubo yolawulo lwebhetri (i-BMS), kunye ne-DC-DC converter, ii-VHU capacitors zisetyenziselwa ukucoca nge-frequency ephezulu kunye nokugcina amandla. Ukumelana kwazo nobushushu obuyi-135°C kuvumela ukuba zifakwe ngqo kufutshane nemithombo yobushushu, nto leyo eyenza kube lula ukuyila ukusasazwa kobushushu.
◦ Inkqubo yokuqhuba ekrelekrele: Zibonelela ngamandla azinzileyo kwiiyunithi zolawulo ze-autonomous driving domain controller (ADCU), i-millimeter-wave radar, kunye ne-lidar. Ukuthembeka kwazo okuphezulu sisiqinisekiso esibalulekileyo sokhuseleko lokuqhuba.
◦ Ulawulo lwenjini yesiqhelo: Zisetyenziswa kwizixhobo ezikwiindawo ezinobushushu obuphezulu, ezifana ne-ECU yenjini kunye ne-TCU yokudlulisela.
• Ukwenziwa kwezinto ngokuzenzekelayo kunye needrives zemizi-mveliso: Kwii-inverters zemizi-mveliso, ii-servo drives, ii-robot controllers, kunye nezixhobo zamandla ze-UPS ezinamandla aphezulu, amaqondo obushushu angaphakathi aphezulu kakhulu. Iimpawu ze-ESR eziphantsi ze-VHU zinciphisa ngokufanelekileyo ukunyuka kobushushu bemodyuli kwaye ziphucula ukusebenza kakuhle kwamandla. Ukuphila kwayo ixesha elide kunciphisa kakhulu amazinga okusilela kwezixhobo kunye neendleko zokulungisa.
• Iziseko zoNxibelelwano kunye neZiko leDatha: Izixhobo zombane ze-AAU/BBU zesikhululo se-5G, ii-routers eziphambili, kunye nezixhobo zombane zeseva yesikhungo sedatha zifuna ukusebenza okungaphazanyiswa iiyure ezingama-24/7, nto leyo ebeka iimfuno eziphezulu kakhulu kubomi becandelo kunye nokuthembeka. Olu luhlu lwe-VHU luqinisekisa ngokufanelekileyo ukusebenza okuzinzileyo kwexesha elide kweziseko zophuhliso zenethiwekhi.
• Izixhobo ze-elektroniki zabathengi kunye nekhompyutha ezikumgangatho ophezulu: Izixhobo ezifana namakhadi emizobo asebenza kakuhle, izixhobo zamandla ze-motherboard ze-server VRM, kunye neemodyuli zamandla ze-supercomputer zisebenzisa amandla amakhulu kwaye zizisa imingeni ebalulekileyo yokusasaza ubushushu. Ii-capacitors ze-VHU zinokubonelela ngombane ophezulu okhawulezileyo, ukuqinisekisa uzinzo olupheleleyo ngexesha lokugqithisa i-chip kunye nokusebenza komthwalo opheleleyo.
IV. Uthotho lweeMveliso kunye neNkxaso yoYilo
Uthotho lwe-YMIN VHU lubonelela ngepotifoliyo ebanzi yemveliso, egubungela ii-voltage ukusuka kwi-25V ukuya kwi-80V, ii-capacitances ukusuka kwi-33μF ukuya kwi-1800μF, kunye nobukhulu obahlukeneyo (ububanzi ukusuka kwi-6.3mm ukuya kwi-18mm), inika iinjineli uluhlu olubanzi lweendlela zokukhetha ukuhlangabezana neemfuno zoyilo lwamanqanaba ahlukeneyo amandla kunye noyilo lwesithuba. Le nkampani ikwabonelela ngetafile eneenkcukacha zezinto zokulungisa i-ripple current frequency, evumela iinjineli ukuba zibale ngokuchanekileyo ukunyuka kobushushu kwii-frequency ezahlukeneyo zokusebenza, okuvumela uyilo oluchanekileyo lobushushu kunye nokwenza ngcono inkqubo.
Isiphelo
I-YMIN VHU series 135°C conductive polymer hybrid aluminum electrolytic capacitor (uhlobo lwe-SMD) ingaphezulu nje kwento enye; sisisombululo esicwangcisiweyo sokujongana nemingeni yobushushu obuphezulu, uxinano oluphezulu, kunye nokuthembeka okuphezulu kwezixhobo ze-elektroniki zexesha elizayo. Imele inkqubela phambili enkulu kwitekhnoloji ye-capacitor, ijongana ngempumelelo neendawo eziphambili zentlungu zezicelo eziphezulu ngokusebenza kwayo okubanzi kokunyamezela ubushushu obuphezulu kakhulu, ubomi obude kakhulu, i-ESR ephantsi kakhulu, kunye nokuthembeka okuphezulu.
Ukukhetha i-YMIN VHU kuthetha ukukhetha ukuthembeka nokugqwesa. Ibonisa ukufuna kwe-YMIN okungapheliyo kokuvelisa izinto ezintsha zobuchwepheshe kunye nokuzibophelela okungagungqiyo kumgangatho. Nokuba kukunika amandla ikamva lezithuthi ezintsha zamandla okanye kukhokelela ekuguqulweni okukrelekrele kwe-Industry 4.0, uthotho lwe-YMIN VHU luya kuba "yisiseko samandla" esithembekileyo kunye "ne-anchor yozinzo" ezandleni zeenjineli, zisebenzisana nabathengi ukudala ikamva leteknoloji elisebenzayo nelithembekileyo.
| 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 |
| VHUC0581C820MVCG | -55~135 | 16 | 82 | 6.3 | 5.8 | 13.12 | 0.04 | 4000 | I-AEC-Q200 |
| VHUC0951H470MVCG | -55~135 | 50 | 47 | 6.3 | 9.5 | 23.5 | 0.04 | 4000 | I-AEC-Q200 |
| I-VHUE1051V271MVCG | -55~135 | 35 | 270 | 10 | 10.5 | 94.5 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUE1051V331MVCG | -55~135 | 35 | 330 | 10 | 10.5 | 115.5 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUE1051H151MVCG | -55~135 | 50 | 150 | 10 | 10.5 | 75 | 0.025 | 4000 | I-AEC-Q200 |
| I-VHUD1051E680MVCG | -55~135 | 25 | 68 | 8 | 10.5 | 17 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUD1051E101MVCG | -55~135 | 25 | 100 | 8 | 10.5 | 25 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUD1051E221MVCG | -55~135 | 25 | 220 | 8 | 10.5 | 55 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUE1051E331MVCG | -55~135 | 25 | 330 | 10 | 10.5 | 82.5 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUE1051E471MVCG | -55~135 | 25 | 470 | 10 | 10.5 | 117.5 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUE1301E561MVCG | -55~135 | 25 | 560 | 10 | 13 | 140 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUL2151E152MVCG | -55~135 | 25 | 1500 | 12.5 | 21.5 | 375 | 0.012 | 4000 | I-AEC-Q200 |
| I-VHUD1051V121MVCG | -55~135 | 35 | 120 | 8 | 10.5 | 42 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUE1051V221MVCG | -55~135 | 35 | 220 | 10 | 10.5 | 77 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUD1051E680MVKZ | -55~135 | 25 | 68 | 8 | 10.5 | 17 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUE1301V331MVCG | -55~135 | 35 | 330 | 10 | 13 | 115.5 | 0.017 | 4000 | I-AEC-Q200 |
| I-VHUD1051E101MVKZ | -55~135 | 25 | 100 | 8 | 10.5 | 25 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUI1651V102MVCG | -55~135 | 35 | 1000 | 16 | 16.5 | 350 | 0.015 | 4000 | I-AEC-Q200 |
| VHUD1051E221MVKZ | -55~135 | 25 | 220 | 8 | 10.5 | 55 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUJ1651V122MVCG | -55~135 | 35 | 1200 | 18 | 16.5 | 420 | 0.015 | 4000 | I-AEC-Q200 |
| VHUE1051E331MVKZ | -55~135 | 25 | 330 | 10 | 10.5 | 82.5 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUJ2651V182MVCG | -55~135 | 35 | 1800 | 18 | 26.5 | 630 | 0.012 | 4000 | I-AEC-Q200 |
| I-VHUE1051E471MVKZ | -55~135 | 25 | 470 | 10 | 10.5 | 117.5 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUD1051H820MVCG | -55~135 | 50 | 82 | 8 | 10.5 | 41 | 0.03 | 4000 | I-AEC-Q200 |
| I-VHUE1301E561MVKZ | -55~135 | 25 | 560 | 10 | 13 | 140 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUE1051H121MVCG | -55~135 | 50 | 120 | 10 | 10.5 | 60 | 0.025 | 4000 | I-AEC-Q200 |
| VHUL2151E152MVKZ | -55~135 | 25 | 1500 | 12.5 | 21.5 | 375 | 0.012 | 4000 | I-AEC-Q200 |
| I-VHUE1301H181MVCG | -55~135 | 50 | 180 | 10 | 13 | 90 | 0.019 | 4000 | I-AEC-Q200 |
| I-VHUD1051V121MVKZ | -55~135 | 35 | 120 | 8 | 10.5 | 42 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUJ3151H182MVCG | -55~135 | 50 | 1800 | 18 | 31.5 | 900 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUE1051V221MVKZ | -55~135 | 35 | 220 | 10 | 10.5 | 77 | 0.02 | 4000 | I-AEC-Q200 |
| I-VHUD1051J470MVCG | -55~135 | 63 | 47 | 8 | 10.5 | 29.61 | 0.04 | 4000 | I-AEC-Q200 |
| I-VHUE1301V331MVKZ | -55~135 | 35 | 330 | 10 | 13 | 115.5 | 0.017 | 4000 | I-AEC-Q200 |
| I-VHUE1051J820MVCG | -55~135 | 63 | 82 | 10 | 10.5 | 51.66 | 0.03 | 4000 | I-AEC-Q200 |
| I-VHUI1651V102MVKZ | -55~135 | 35 | 1000 | 16 | 16.5 | 350 | 0.015 | 4000 | I-AEC-Q200 |
| I-VHUE1301J121MVCG | -55~135 | 63 | 120 | 10 | 13 | 75.6 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUJ1651V122MVKZ | -55~135 | 35 | 1200 | 18 | 16.5 | 420 | 0.015 | 4000 | I-AEC-Q200 |
| I-VHUJ3151J122MVCG | -55~135 | 63 | 1200 | 18 | 31.5 | 756 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUJ2651V182MVKZ | -55~135 | 35 | 1800 | 18 | 26.5 | 630 | 0.012 | 4000 | I-AEC-Q200 |
| I-VHUD1051K330MVCG | -55~135 | 80 | 33 | 8 | 10.5 | 26.4 | 0.04 | 4000 | I-AEC-Q200 |
| I-VHUD1051H820MVKZ | -55~135 | 50 | 82 | 8 | 10.5 | 41 | 0.03 | 4000 | I-AEC-Q200 |
| I-VHUE1051K470MVCG | -55~135 | 80 | 47 | 10 | 10.5 | 37.6 | 0.03 | 4000 | I-AEC-Q200 |
| I-VHUE1051H121MVKZ | -55~135 | 50 | 120 | 10 | 10.5 | 60 | 0.025 | 4000 | I-AEC-Q200 |
| I-VHUE1301K680MVCG | -55~135 | 80 | 68 | 10 | 13 | 54.4 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUE1301H181MVKZ | -55~135 | 50 | 180 | 10 | 13 | 90 | 0.019 | 4000 | I-AEC-Q200 |
| I-VHUJ3151K681MVCG | -55~135 | 80 | 680 | 18 | 31.5 | 544 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUJ3151H182MVKZ | -55~135 | 50 | 1800 | 18 | 31.5 | 900 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUD1051J470MVKZ | -55~135 | 63 | 47 | 8 | 10.5 | 29.61 | 0.04 | 4000 | I-AEC-Q200 |
| I-VHUE1051J820MVKZ | -55~135 | 63 | 82 | 10 | 10.5 | 51.66 | 0.03 | 4000 | I-AEC-Q200 |
| I-VHUE1301J121MVKZ | -55~135 | 63 | 120 | 10 | 13 | 75.6 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUJ3151J122MVKZ | -55~135 | 63 | 1200 | 18 | 31.5 | 756 | 0.016 | 4000 | I-AEC-Q200 |
| I-VHUD1051K330MVKZ | -55~135 | 80 | 33 | 8 | 10.5 | 26.4 | 0.04 | 4000 | I-AEC-Q200 |
| I-VHUE1051K470MVKZ | -55~135 | 80 | 47 | 10 | 10.5 | 37.6 | 0.03 | 4000 | I-AEC-Q200 |
| I-VHUE1301K680MVKZ | -55~135 | 80 | 68 | 10 | 13 | 54.4 | 0.022 | 4000 | I-AEC-Q200 |
| I-VHUJ3151K681MVKZ | -55~135 | 80 | 680 | 18 | 31.5 | 544 | 0.016 | 4000 | I-AEC-Q200 |
