IiParamitha zoBugcisa eziPhambili
| iprojekthi | uphawu | |
| uluhlu lobushushu bokusebenza | -55~+125℃ | |
| I-voltage yokusebenza elinganisiweyo | 16-80V | |
| uluhlu lomthamo | 6.8 ~ 470uF 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-1250c, faka i-voltage elinganisiweyo kuquka nomsinga we-ripple olinganisiweyo, kwaye emva kwexesha elithile, yibeke kwi-20°C kangangeeyure ezili-16 uze uyivavanye, 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 | |
|
indawo yokugcina kubushushu obuphezulu | Gcina kwi-125°C kangangeeyure ezili-1000, yibeke kubushushu begumbi kangangeeyure ezili-16 ngaphambi kovavanyo, ubushushu bovavanyo bungama-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 | |
|
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 | |
| i-tanjenti yokulahleka | ≤200% yexabiso lokuqala lenkcazo | |
| umsinga wokuvuza | ukuya kwixabiso lokuqala lenkcazo | |
※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
Ubungakanani beMveliso (iyunithi: mm)
| D (± 0.5) | 5 | 6.3 | 8 | 10 |
| d (± 0.05) | 0.45/0.50 | 0.45/0.50 | 0.6 | 0.6 |
| F(±0.5) | 2 | 2.5 | 3.5 | 5 |
| a | 0.5 | 1 | ||
I-Ripple Current Frequency Correction Coefficient
into yokulungisa amaza
| Ireyithi (Hz) | 120Hz | 1kHz | 10kHz | 100kHz | 300kHz |
| into yokulungisa | 0.12 | 0.35 | 0.8 | 1 | 1 |
Uthotho lwe-NHT: Ii-High-Performance Conductive Polymer Hybrid Aluminium Electrolytic Capacitors ezenzelwe iiNdawo eziNgxamisekileyo
Kwihlabathi lobunjineli be-elektroniki, apho ukuthembeka okugqithisileyo kunye nokusebenza okuphezulu kubaluleke kakhulu, ukukhethwa kwamacandelo kumisela ngokuthe ngqo ubomi, ukusebenza kakuhle, kunye nokuzinza kwenkqubo yonke. Uthotho lwe-NHT lweShanghai YMIN lwee-Conductive Polymer Hybrid Aluminium Electrolytic Capacitors ziimveliso eziguqukayo ezenzelwe ngokukodwa ukuhlangabezana nemingeni yeemeko ezigqithisileyo kunye nezicelo eziphezulu. Zidibanisa ngobuchule iingenelo ze-electrolytes zendabuko kunye nee-solid-state conductive polymers, zibeka umlinganiselo omtsha weshishini wezicelo ezikumgangatho ophezulu nezithembekileyo.
I. Isishwankathelo seMveliso ePhambili: Ibhalansi ebalaseleyo yeTekhnoloji yeHybrid
Olu luhlu lwe-NHT lungaphezulu nje kokuphindaphinda okulula kwetekhnoloji; lumele ukuhlanganiswa okumangalisayo kwesayensi yezinto. Isiseko setekhnoloji yalo exutyiweyo sisekusetyenzisweni kwezinto zepolymer eziqhuba kakuhle kwi-cathode ngelixa zigcina i-electrolyte yendabuko kwi-anode. Olu yilo lubonelela ngeyona nto ilungileyo kuzo zombini ezi hlabathi:
• I-ESR ephantsi kunye ne-voltage ephezulu: I-polymer eqhubayo inika ukumelana okuphantsi kakhulu kwe-equivalent series (ESR), ngelixa i-electrolyte formulation ekhethekileyo iqinisekisa ukusebenza okuzinzileyo kwi-voltage ephezulu.
• Uzinzo olugqwesileyo kubushushu: Le mveliso isebenza kubushushu obubanzi ukusuka kwi -55°C ukuya kwi +125°C, igqwesa ekusebenzeni ixesha elide kwiindawo ezinobushushu obuphezulu, idlula kakhulu ukusebenza kwee-capacitors ze-electrolytic zolwelo eziqhelekileyo kunye nee-capacitors ezininzi ze-solid-state.
• Ukuthembeka okungenakuthelekiswa nanto: Olu luhlu luhambelana ngokupheleleyo nemigangatho ye-AEC-Q200 yeemoto kwaye luqinisekisiwe ukuba luza kusebenza ngokuqhubekayo iiyure ezingama-4,000 kwi-voltage elinganisiweyo kunye ne-ripple current elinganisiweyo kubushushu obuphezulu be-125°C. Oku kuqinisekisa ukuba ubomi bayo kunye nokuthembeka kwayo kufikelela kumanqanaba aphezulu kushishino.
II. Iimpawu zobugcisa ezibalaseleyo: Ukuchaza umgangatho omtsha wokuthembeka okuphezulu
Ukusebenza okugqwesileyo kolu chungechunge lwe-NHT kubonakala kuzo zonke iiparameter zobugcisa ezingqongqo, ezithi xa zidibene zibe sisiseko sokusebenza kwayo okuzinzileyo kwiindawo ezinzima.
1. Ukusebenza koMbane okuGqibeleleyo kunye noZinzo:
◦ I-ESR Ephantsi Kakhulu kunye ne-High Ripple Current: Uthotho lwe-NHT lune-ESR ephantsi kakhulu kwi-100kHz. I-ESR ephantsi iguqulela ngqo ekubeni yi-self-heating low, ukusebenza kakuhle kwamandla, kunye nokukwazi ukuphatha i-ripple current eqinileyo, nto leyo ebalulekileyo kwizicelo zamandla aphezulu ezifana nezixhobo zamandla zokutshintsha zanamhlanje kunye nee-inverters, ukuqinisekisa ngempumelelo i-output current ecocekileyo nezinzileyo.
◦ Uluhlu lweeVolthi eziBanzi kunye noMthamo: Inika uluhlu lweeVolthi ezilinganiselweyo ukusuka kwi-16V ukuya kwi-80V kunye noluhlu lweeCapacitance ukusuka kwi-6.8μF ukuya kwi-470μF, ihlangabezana neemfuno ezahlukeneyo zoyilo, ukusuka kwiisekethe zolawulo ezineVolthi ephantsi ukuya kwiibhasi zamandla ezineVolthi ephezulu.
◦ Iimpawu eziBalaseleyo zoBushushu obuphantsi: Iimpawu zayo zobushushu obuphakathi zibalaseleyo. Kubushushu obuphantsi kakhulu obuyi--55°C, ubushushu bayo bunyuka ngama-2.5 kuphela xa kuthelekiswa nama-20°C, nto leyo eqinisekisa ukuqalisa okuzinzileyo nokusebenza okuzinzileyo kwiindawo ezibandayo, into engenakuthelekiswa nanto kwii-capacitors ze-electrolytic ezingamanzi acocekileyo.
2. Ukuthembeka kweNdalo okungenakusoleka kunye nobomi obude:
◦ Uvavanyo lobomi beeyure ezingama-4000 kwi-125°C: Eli lelona gunya likhulu lothotho lwe-NHT. Emva kweeyure ezingama-4000 zokusebenza komthwalo opheleleyo kwi-125°C, utshintsho lwe-capacitance yi-≤±30%, kwaye utshintsho lwe-ESR yi-≤200%. Ukuwohloka kokusebenza kuncinci, kwaye kwizicelo zokwenyani zeemoto okanye zemizi-mveliso, ubomi benkonzo bunokudlula iminyaka eli-10 ngokulula.
◦ Uvavanyo oluqinileyo lokuthembeka: Imveliso idlule iiyure ezili-1000 zovavanyo lokugcina ubushushu obuphezulu kwi-125°C kunye neeyure ezili-1000 zovavanyo lokulayisha ubushushu obuphezulu kunye nomswakama ophezulu kwi-85°C/85%RH. Ezi mvavanyo zilinganisa iminyaka yeemeko ezinzima zendalo kwaye zibonisa uzinzo lwayo olukhethekileyo kwiindawo ezinobushushu obuphezulu kunye nomswakama ophezulu, ngaphandle komngcipheko wokomisa okanye wokuqhekeka.
3. Ukuthobela imithetho kunye noKhuseleko lweNdalo:
◦ Le mveliso ihambelana ngokupheleleyo nomgangatho wokuthembeka kwezixhobo ze-elektroniki zeemoto ze-AEC-Q200, ihlangabezana neemfuno ezingqongqo zoshishino lweemoto.
◦ Ikwahambelana ne-EU RoHS Directive (2011/65/EU), eqinisekisa ukuba indalo esingqongileyo iyamkeleka.
III. Uluhlu olubanzi lwezicelo ezisebenzayo: Ukunika amandla amashishini akumgangatho ophezulu naphambili
Ngenxa yetekhnoloji yayo eyahlukileyo kunye nokuthembeka okugqwesileyo, uthotho lwe-NHT luyinxalenye ekhethwayo kwezi zicelo zilandelayo ziphezulu.
1. Iimoto ze-Elektroniki - Iinkqubo eziphambili:
Olu luhlu lwe-NHT lwazalelwa izixhobo ze-elektroniki zeemoto. Isiqinisekiso salo se-AEC-Q200 kunye nokumelana nobushushu obuyi-125°C kwenza ukuba lube lolufanelekileyo kwezi zinto zilandelayo:
◦ Ukusetyenziswa kwezixhobo ezingaphantsi kwebhothi: Ezifana neeyunithi zokulawula iinjini (ii-ECU) kunye neeyunithi zokulawula uthumelo (ii-TCU), ezichaphazeleka ngokuthe ngqo kubushushu obuphezulu benjini.
◦ Iinkqubo eziphambili zezithuthi ezintsha zamandla: Zisetyenziselwa inkxaso yebhasi kunye nokucoca imveliso kwiitshaja ezisebhodini (ii-OBC), ii-DC-DC converters, iinkqubo zolawulo lwebhetri (ii-BMS), kunye nee-inverters eziphambili. Ukuphila kwayo ixesha elide kunye nokuthembeka kwayo kubalulekile ekuqinisekiseni ukhuseleko lwesithuthi.
◦ Iinkqubo zoNcedo lwaBaqhubi eziPhambili (i-ADAS): Zibonelela ngamandla azinzileyo kwiimodyuli zolawulo lweradar kunye nekhamera.
2. Iimoto ezizenzekelayo kunye neeMoto eziqhutywa yiMizi-mveliso:
Kwiindawo zoshishino ezinzima, izixhobo ezifana nee-inverters kunye nee-servo drives zisebenza phantsi kobushushu obuphezulu kunye nokungcangcazela ixesha elide. Ubomi obuphezulu bobushushu be-NHT kunye neempawu ze-ESR eziphantsi zinceda ukuphucula ukusebenza kakuhle kwe-drive, ukunciphisa uxinzelelo loyilo lobushushu, ukuqinisekisa ukusebenza komgca wemveliso okuqhubekayo nokuzinzileyo, kunye nokunciphisa iingozi zexesha lokungasebenzi.
3. Iziseko zoNxibelelwano kunye neZiko leDatha (i-AI Data Server kunye nezixhobo zoNxibelelwano):
Izitishi zesiseko ze-5G, izixhobo zombane zeseva (ii-PSU), kunye nezinye izixhobo zifuna ukusebenza okungaphazanyiswa iiyure ezingama-24/7, nto leyo ebeka iimfuno eziphezulu kakhulu kubomi bezinto kunye nokuthembeka kwazo. I-NHT isetyenziselwa ukuhluza izixhobo zombane eziphambili nezesibini. Ubomi bayo obude buhambelana nobude boyilo lwezixhobo kwaye bunciphisa iindleko zokulungisa.
4. Amandla amatsha kunye neGridi ekrelekrele:
Kwii-solar inverters, ii-wind power converters, iinkqubo zokugcina amandla (ESS), kunye nezixhobo zamandla ezingenakunqandeka (UPS), uthotho lwe-NHT lunokumelana nokuguquguquka kwegridi kunye namaqondo obushushu aphezulu, lubonelela ngenkxaso ezinzileyo kunye nokucoca, luphucula ukusebenza kakuhle kokuguqulwa kwamandla kunye nobomi benkonzo.
IV. Isiphelo: Ukhetho oluCwangcisiweyo lwe-Elektroniki zeMizi-mveliso nezeMoto zexesha elizayo
Ii-capacitor ze-electrolytic ze-NHT conductive polymer hybrid aluminum electrolytic zimela ukhetho lobuchwepheshe oluvuthiweyo noluthembekileyo. Endaweni yokukhetha phakathi kwe-solid kunye ne-liquid, uthotho lwe-NHT lufezekisa isiphumo se-"1+1 > 2" ngetekhnoloji ye-hybrid, elungelelanisa ngokugqibeleleyo ukusebenza, iindleko, kunye nokuthembeka.
Ukukhetha uthotho lwe-NHT kuthetha ukukhetha:
• Ukuthembeka okuphezulu: Isiqinisekiso se-AEC-Q200 kunye novavanyo lobomi lweeyure ezingama-4000 kubushushu obuyi-125°C zibonelela ngesiqinisekiso esinamandla somgangatho wemveliso.
• Ukulungelelana okugqwesileyo kokusingqongileyo: Ukugcina ukusebenza okuzinzileyo kumaqondo obushushu aphezulu naphantsi, kunye nokufuma okuphezulu, kwandisa amandla okusetyenziswa kwemveliso yakho.
• Ukusebenza kakuhle kwenkqubo: I-ESR ephantsi iphucula ukusebenza kakuhle kwamandla kwaye inciphisa ukuveliswa kobushushu, nto leyo evumela uyilo oluncinci lokusasaza ubushushu.
• Ubomi benkonzo obude: Yandisa kakhulu umjikelo wokugcinwa kunye nobomi benkonzo yeemveliso zokugqibela, nto leyo edala ixabiso elikhulu kubathengi.
Ukuba ufuna isisombululo se-capacitor esingenako ukuyekelela nesinokuthenjwa kwizixhobo zakho ze-elektroniki zeemoto, ulawulo lwemizi-mveliso, okanye iinkqubo zamandla zesizukulwana esilandelayo, uthotho lwe-NHT lolona khetho lufanelekileyo.
| Inombolo yeMveliso | Ubushushu (℃) | I-RatedVoltage(Vdc) | Ubungakanani bomthamo (μF) | Ububanzi(mm) | Ubude (mm) | Ukuvuza kwangoku (μA) | I-ESR/Impedance [Ωmax] | Ubomi (iiyure) | Isiqinisekiso seMveliso |
| NHTC0701C151MJCG | -55~125 | 16 | 150 | 6.3 | 7 | 150 | 0.027 | 4000 | I-AEC-Q200 |
| I-NHTD0901C271MJCG | -55~125 | 16 | 270 | 8 | 9 | 270 | 0.022 | 4000 | I-AEC-Q200 |
| NHTE0901C471MJCG | -55~125 | 16 | 470 | 10 | 9 | 470 | 0.018 | 4000 | I-AEC-Q200 |
| NHTB0571E330MJCG | -55~125 | 25 | 33 | 5 | 5.7 | 33 | 0.08 | 4000 | I-AEC-Q200 |
| NHTC0571E470MJCG | -55~125 | 25 | 47 | 6.3 | 5.7 | 47 | 0.05 | 4000 | I-AEC-Q200 |
| NHTC0571E560MJCG | -55~125 | 25 | 56 | 6.3 | 5.7 | 56 | 0.05 | 4000 | I-AEC-Q200 |
| NHTC0701E680MJCG | -55~125 | 25 | 68 | 6.3 | 7 | 68 | 0.03 | 4000 | I-AEC-Q200 |
| NHTC0701E101MJCG | -55~125 | 25 | 100 | 6.3 | 7 | 100 | 0.03 | 4000 | I-AEC-Q200 |
| I-NHTD0901E151MJCG | -55~125 | 25 | 150 | 8 | 9 | 150 | 0.027 | 4000 | I-AEC-Q200 |
| I-NHTD0901E221MJCG | -55~125 | 25 | 220 | 8 | 9 | 220 | 0.027 | 4000 | I-AEC-Q200 |
| NHTE0901E271MJCG | -55~125 | 25 | 270 | 10 | 9 | 270 | 0.02 | 4000 | I-AEC-Q200 |
| I-NHTE1251E331MJCG | -55~125 | 25 | 330 | 10 | 12.5 | 330 | 0.016 | 4000 | I-AEC-Q200 |
| NHTE0901E331MJCG | -55~125 | 25 | 330 | 10 | 9 | 330 | 0.02 | 4000 | I-AEC-Q200 |
| NHTB0571V220MJCG | -55~125 | 35 | 22 | 5 | 5.7 | 22 | 0.1 | 4000 | I-AEC-Q200 |
| NHTC0571V270MJCG | -55~125 | 35 | 27 | 6.3 | 5.7 | 27 | 0.06 | 4000 | I-AEC-Q200 |
| NHTC0571V470MJCG | -55~125 | 35 | 47 | 6.3 | 5.7 | 47 | 0.06 | 4000 | I-AEC-Q200 |
| NHTC0701V470MJCG | -55~125 | 35 | 47 | 6.3 | 7 | 47 | 0.035 | 4000 | I-AEC-Q200 |
| NHTC0701V680MJCG | -55~125 | 35 | 68 | 6.3 | 7 | 68 | 0.035 | 4000 | I-AEC-Q200 |
| I-NHTD0901V101MJCG | -55~125 | 35 | 100 | 8 | 9 | 100 | 0.027 | 4000 | I-AEC-Q200 |
| I-NHTD0901V151MJCG | -55~125 | 35 | 150 | 8 | 9 | 150 | 0.027 | 4000 | I-AEC-Q200 |
| NHTE0901V151MJCG | -55~125 | 35 | 150 | 10 | 9 | 150 | 0.02 | 4000 | I-AEC-Q200 |
| I-NHTE1251V271MJCG | -55~125 | 35 | 270 | 10 | 12.5 | 270 | 0.017 | 4000 | I-AEC-Q200 |
| NHTE0901V271MJCG | -55~125 | 35 | 270 | 10 | 9 | 270 | 0.02 | 4000 | I-AEC-Q200 |
| NHTB0571H100MJCG | -55~125 | 50 | 10 | 5 | 5.7 | 10 | 0.12 | 4000 | I-AEC-Q200 |
| NHTC0571H100MJCG | -55~125 | 50 | 10 | 6.3 | 5.7 | 10 | 0.08 | 4000 | I-AEC-Q200 |
| NHTC0701H150MJCG | -55~125 | 50 | 15 | 6.3 | 7 | 15 | 0.04 | 4000 | I-AEC-Q200 |
| NHTC0571H220MJCG | -55~125 | 50 | 22 | 6.3 | 5.7 | 22 | 0.08 | 4000 | I-AEC-Q200 |
| NHTC0701H330MJCG | -55~125 | 50 | 33 | 6.3 | 7 | 33 | 0.04 | 4000 | I-AEC-Q200 |
| I-NHTD0901H330MJCG | -55~125 | 50 | 33 | 8 | 9 | 33 | 0.03 | 4000 | I-AEC-Q200 |
| I-NHTD0901H470MJCG | -55~125 | 50 | 47 | 8 | 9 | 47 | 0.03 | 4000 | I-AEC-Q200 |
| NHTE0901H560MJCG | -55~125 | 50 | 56 | 10 | 9 | 56 | 0.025 | 4000 | I-AEC-Q200 |
| I-NHTD0901H680MJCG | -55~125 | 50 | 68 | 8 | 9 | 68 | 0.03 | 4000 | I-AEC-Q200 |
| NHTE0901H101MJCG | -55~125 | 50 | 100 | 10 | 9 | 100 | 0.025 | 4000 | I-AEC-Q200 |
| I-NHTE1251H121MJCG | -55~125 | 50 | 120 | 10 | 12.5 | 120 | 0.019 | 4000 | I-AEC-Q200 |
| NHTE0901H121MJCG | -55~125 | 50 | 120 | 10 | 9 | 120 | 0.025 | 4000 | I-AEC-Q200 |
| NHTC0571J6R8MJCG | -55~125 | 63 | 6.8 | 6.3 | 5.7 | 6.8 | 0.12 | 4000 | I-AEC-Q200 |
| NHTC0571J100MJCG | -55~125 | 63 | 10 | 6.3 | 5.7 | 10 | 0.12 | 4000 | I-AEC-Q200 |
| NHTC0701J100MJCG | -55~125 | 63 | 10 | 6.3 | 7 | 10 | 0.08 | 4000 | I-AEC-Q200 |
| NHTC0701J220MJCG | -55~125 | 63 | 22 | 6.3 | 7 | 22 | 0.08 | 4000 | I-AEC-Q200 |
| I-NHTD0901J220MJCG | -55~125 | 63 | 22 | 8 | 9 | 22 | 0.04 | 4000 | I-AEC-Q200 |
| I-NHTD0901J330MJCG | -55~125 | 63 | 33 | 8 | 9 | 33 | 0.04 | 4000 | I-AEC-Q200 |
| NHTE0901J330MJCG | -55~125 | 63 | 33 | 10 | 9 | 33 | 0.03 | 4000 | I-AEC-Q200 |
| I-NHTD0901J470MJCG | -55~125 | 63 | 47 | 8 | 9 | 47 | 0.04 | 4000 | I-AEC-Q200 |
| NHTE0901J560MJCG | -55~125 | 63 | 56 | 10 | 9 | 56 | 0.03 | 4000 | I-AEC-Q200 |
| NHTE0901J820MJCG | -55~125 | 63 | 82 | 10 | 9 | 82 | 0.03 | 4000 | I-AEC-Q200 |
| I-NHTE1251J101MJCG | -55~125 | 63 | 100 | 10 | 12.5 | 100 | 0.02 | 4000 | I-AEC-Q200 |
| I-NHTD0901K220MJCG | -55~125 | 80 | 22 | 8 | 9 | 22 | 0.045 | 4000 | I-AEC-Q200 |
| NHTE0901K330MJCG | -55~125 | 80 | 33 | 10 | 9 | 33 | 0.036 | 4000 | I-AEC-Q200 |
| NHTE0901K390MJCG | -55~125 | 80 | 39 | 10 | 9 | 39 | 0.035 | 4000 | I-AEC-Q200 |
| NHTC0901E221MJCG | -55~125 | 25 | 220 | 6.3 | 9 | 220 | 0.03 | 4000 | I-AEC-Q200 |
| NHTB0571C470MJCG | -55~125 | 16 | 47 | 5 | 5.7 | 47 | 0.08 | 4000 | I-AEC-Q200 |
| NHTC0571C820MJCG | -55~125 | 16 | 82 | 6.3 | 5.7 | 82 | 0.045 | 4000 | I-AEC-Q200 |
