Thyristors Online | AmaSemiconductors Amandla Asezingeni Eliphezulu
Amamojula we-thyristor diode
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MDD44-16N1B New Original DIODE MODULE GP 1.6KV 64A TO240AA IGBT Module MDD 44-16 N1B MDD44 16N1B MDD44-16N1B
| Uhlobo | IT[OF]/IF[OF] [A] | VI-DRM/VI-RRM [V] | II-DRM/II-RRM [mA] | IGT [mA] | VGT [V] | IH [mA] | dv/dt [V/us] | di/dt [A/us] | II-TSM [i] |
|---|---|---|---|---|---|---|---|---|---|
| I-PDDN-MFx26 | 26 | 600-1800 | 8 | 100 | 2.5 | 150 | 800 | 50 | 0.55 |
| I-PDDN-MFx40 | 40 | 600-1800 | 8 | 100 | 2.5 | 150 | 800 | 50 | 1 |
| I-PDDN-MFx55 | 55 | 600-1800 | 8 | 100 | 2.5 | 150 | 800 | 50 | 1.25 |
| I-PDDN-MFx55H | 55 | 1900-3000 | 10 | 150 | 3 | 150 | 800 | 50 | 1.15 |
| I-PDDN-MFx70 | 70 | 600-1800 | 10 | 100 | 2.5 | 150 | 800 | 50 | 1.6 |
| I-PDDN-MFx70H | 70 | 1900-3000 | 12 | 150 | 3 | 150 | 800 | 50 | 1.6 |
| I-PDDN-MFx90 | 90 | 600-1800 | 10 | 100 | 2.5 | 150 | 800 | 100 | 2 |
| I-PDDN-MFx90H | 90 | 1900-3000 | 15 | 150 | 3 | 150 | 800 | 100 | 2 |
| I-PDDN-MFx110 | 110 | 600-1800 | 12 | 100 | 2.5 | 150 | 800 | 100 | 2.4 |
| I-PDDN-MFx110H | 110 | 1900-3000 | 20 | 150 | 3 | 150 | 800 | 100 | 2.4 |
| I-PDDN-MFx135 | 135 | 600-1800 | 10 | 100 | 2.5 | 150 | 800 | 100 | 3.8 |
| I-PDDN-MFx135H | 135 | 1900-3000 | 22 | 150 | 3 | 150 | 800 | 100 | 3.8 |
| I-PDDN-MFx160 | 160 | 600-1800 | 20 | 150 | 2.5 | 150 | 800 | 100 | 5.4 |
| I-PDDN-MFx160H | 160 | 1900-3000 | 25 | 150 | 3 | 150 | 800 | 100 | 5.4 |
| I-PDDN-MFx182 | 182 | 600-1800 | 25 | 150 | 2.5 | 150 | 800 | 100 | 5.8 |
| I-PDDN-MFx182H | 182 | 1900-3000 | 30 | 150 | 3 | 150 | 800 | 100 | 5.8 |
| I-PDDN-MFx200 | 200 | 600-1800 | 30 | 180 | 2.5 | 150 | 800 | 100 | 7.2 |
| I-PDDN-MFx200H | 200 | 1900-3000 | 35 | 180 | 3 | 150 | 800 | 100 | 7.2 |
| I-PDDN-MFx250 | 250 | 600-1800 | 30 | 180 | 2.5 | 150 | 800 | 100 | 8.5 |
| I-PDDN-MFx250H | 250 | 1900-3000 | 40 | 180 | 3 | 150 | 800 | 100 | 8.5 |
| I-PDDN-MFx300 | 300 | 600-1800 | 40 | 180 | 2.5 | 150 | 800 | 100 | 9.3 |
| I-PDDN-MFx300H | 300 | 1900-3000 | 50 | 180 | 3 | 150 | 800 | 100 | 9.3 |
| I-PDDN-MFx350 | 350 | 600-1800 | 40 | 180 | 2.5 | 150 | 800 | 100 | 11 |
| I-PDDN-MFx400 | 400 | 600-1800 | 40 | 200 | 3 | 200 | 800 | 100 | 12 |
| I-PDDN-MFx500 | 500 | 600-1800 | 50 | 200 | 3 | 200 | 800 | 100 | 16 |
| I-PDDN-MFx400W | 400 | 600-1800 | 40 | 200 | 3 | 200 | 800 | 100 | 8.5 |
| I-PDDN-MFx500W | 500 | 600-1800 | 40 | 200 | 3 | 200 | 800 | 100 | 11 |
| I-PDDN-MFx600W | 600 | 600-1800 | 40 | 200 | 3 | 200 | 800 | 100 | 13 |
| I-PDDN-MFx800W | 800 | 600-1800 | 40 | 200 | 3 | 200 | 800 | 100 | 16 |
| I-PDDN-MFx800 | 800 | 600-1800 | 40 | 200 | 3 | 200 | 800 | 100 | 16 |
| I-PDDN-MFx1000W | 1000 | 600-1800 | 50 | 200 | 3 | 200 | 800 | 100 | 20 |
| I-PDDN-MFx1000 | 1000 | 600-1800 | 60 | 200 | 3 | 200 | 800 | 100 | 20 |
| I-PDDN-MFx1200 | 1200 | 600-1800 | 70 | 200 | 3 | 200 | 800 | 100 | 24 |
Uhlolojikelele lweThyristor/Amamojula we-Diode
Imojula ye-Thyristor/diode iyisisetshenziswa se-elekthronikhi esihlanganisiwe esisetshenziselwa ukulawula nokulawula imithombo yamandla e-AC noma ye-DC.. Lawa mamojula akhiwe ngama-thyristors noma ama-diode, ezinezici zobukhulu obuncane, ukwethembeka okuphezulu, nokusetshenziswa okulula, futhi asetshenziswa kakhulu ezinhlelweni zamandla ahlukahlukene kanye nezinto zikagesi. Imojula ye-thyristor ilawula amandla aphezulu kanye ne-voltage ngokusebenzisa i-current encane noma i-voltage, futhi inezinzuzo ezifana nokumelana ne-voltage ephezulu, umsinga omkhulu, kanye ne-voltage conduction ephansi. Ilungele izinhlelo zokusebenza ezifana nokushintsha ngaphandle kokuthinta, ukulungiswa okulawulwayo, i-inverter, ukufiphala, ukulawulwa kwamandla kagesi, kanye nokulawulwa kwesivinini. Amamojula e-Diode asetshenziselwa ikakhulukazi imisebenzi yesekethe eyisisekelo njengokulungisa, ukulawulwa kwamandla kagesi, nokushintsha, ilungele ukulawulwa kwesekethe okulula kanye ne-voltage ephansi noma izimo zesicelo zamanje eziphansi.
Izimpawu ze-Thyristor /Amamojula we-Diode:
1. Ukusebenza kahle okuphezulu: Imodyuli ye-thyristor/diode isebenzisa ubuchwepheshe be-elekthronikhi yamandla athuthukile nezinto zokwakha, anezinga eliphezulu lokuguqulwa kwamandla kanye nokulawuleka, futhi kunganciphisa kakhulu ukulahleka kwamandla nokumosha.
2. Ukuthembeka okuphezulu: Izingxenye zemojuli ye-thyristor/diode ziye zahlolwa futhi zahlolwa ngokuqinile, ukwamukela ukuhlanganiswa okuphezulu kanye nomklamo we-modular, okuthuthukisa ukuzinza nokuthembeka kwesifunda futhi kunciphisa amathuba okuba namaphutha nokugcinwa.
3. Kulula ukuyisebenzisa: Imojula ye-thyristor/diode inokuxhumana okujwayelekile kanye nezici, okwenza kube lula ukuhlanganisa namasekethe namasistimu ahlukahlukene. Uma isetshenziswa, ukuxhumana okulula nokucushwa kuyadingeka, ukunciphisa ubunzima kanye nomkhawulo wobuchwepheshe wokusebenzisa.
4. Ukucushwa okuguquguqukayo: Imojula ye-thyristor/diode ingahlelwa ngokuguquguqukayo futhi ihlanganiswe ngokuya ngezidingo ezahlukahlukene zohlelo, ukufeza imisebenzi ehlukahlukene yokulawula namandla, kanye nokuhlangabezana nezidingo zemikhakha nezimo ezehlukene.
5. Ukuvikelwa Kwemvelo Nokugcinwa Kwamandla: Njengesisetshenziswa sikagesi esisebenzayo nesiwonga amandla, amamojula e-thyristor/diode anganciphisa ukumosheka kwamandla kanye nokukhishwa kwezinto ezingcolile, okuhambisana nendlela yamanje yokuvikelwa kwemvelo eluhlaza futhi kusiza ukukhuthaza ukuthuthukiswa kwamandla esimeme.
IsicelokweThyristor/Amamojula we-Diode
1. Umjikelezo wokulungisa: Ukusebenzisa i-unidirectional conductivity yama-diode ukuguqula i-alternating current ibe yamanje eqondile. Lesi yisimo esivame kakhulu sohlelo lokusebenza lwamamojula e-diode.
( esetshenziselwa ama-voltmeters nama-ammeters)
2. Isifunda se-inverter: Kusetshenziswa amandla kagesi afana nama-thyristors noma ama-IGBT ukuguqula amandla akhona abe awamanje ashintshanayo, evame ukusetshenziselwa ukulawula isivinini nokulawula imvamisa yamamotho e-AC.
(Amamojula we-Diode)
3. Ukushintsha ukunikezwa kwamandla: Ukusebenzisa ukumelana nomthamo ophezulu kanye nezici eziphezulu zamanje zamamojula we-thyristor noma we-diode, ukunikezwa kwamandla kungalawulwa kuvuliwe/kuvaliwe ukuze kuzuzwe ukuguqulwa kwamandla okusebenzayo.
4. Shintsha ngaphandle kokuxhumana: Imojula ye-thyristor ingasetshenziswa njengendlela yokushintsha ngaphandle kokuthinta, ngezinzuzo zokuvula/ukuvala ngokushesha kanye nokulahlekelwa okuphansi.
(Amamojula we-thyristor)
5. Ukulawulwa kwezimoto: Ngokusebenzisa i-thyristor noma amamojula we-diode, injini ingalawulwa ukulawula isivinini, ukuqala, kanye nokubhuleka, ukuthuthukisa ukusebenza kahle kwayo nokuthembeka.
6. Ukuvikelwa kokunikezwa kwamandla: Imojula ye-diode ingasetshenziselwa ukuvikela ukunikezwa kwamandla, njengokuvikelwa kwe-overcurrent kanye nokuvikelwa kwe-overvoltage, ukuqinisekisa ukuphepha kwemishini kagesi namasekethe.
Iphrofayela Yenkampani
I-Luoyang Datang Energy Tech Co.Ltd(sales@pddn.com) yibhizinisi lobuchwepheshe obuphezulu eligxile ekukhiqizeni, R&D, kanye nokuthengiswa kwamadivayisi e-semiconductor yamandla. Selokhu yasungulwa, inkampani izibophezele ekuhlinzekeni ngezinga eliphezulu, imikhiqizo ye-semiconductor esebenza kahle kakhulu kumakhasimende emhlabeni wonke ukuze ihlangabezane nezidingo zemboni yamandla kagesi eguqukayo.
Yamukela inkokhelo ngekhadi lesikweletu, T/T, I-West Union, kanye ne-Paypal. I-PDDN izothumela izimpahla kumakhasimende aphesheya kwezilwandle nge-FedEx ne-DHL, ngasolwandle, noma ngomoya. Sicela ubuze ukuthi uyawafuna yini amamojula e-Thyristor/Diode asezingeni eliphezulu; sizosiza.
InkokheloMizimisokweThyristor/Amamojula we-Diode
L/C, T/T, i-Western Union, I-Paypal, Ikhadi lesikweletu njll.
UkuthunyelwakweThyristor/Amamojula we-Diode
Ngasolwandle, ngomoya, nge-express, njengoba amakhasimende ecela.
IsitorejiCizimo zeThyristor/Amamojula we-Diode
1. Izinga lokushisa: Amamojula e-Thyristor/diode kufanele agcinwe endaweni eyomile, kungene umoya, kanye nezinga lokushisa elifanele indawo yokugwema ukupholisa okukhulu noma ukushisa ngokweqile. Ngokuvamile kunconywa ukuwagcina emazingeni okushisa aphakathi -40 ℃ kanye +125 ℃.
2. Umswakama: Amamojula e-Thyristor/diode kufanele agcinwe endaweni enomswakama ohlobene ongekho ngaphezu kwalokho 60% ukugwema umswakama futhi uvimbele ukuwohloka kokusebenza noma imijikelezo emifushane ebangelwa ukumuncwa komswakama.
3. Ukukhanyisa: Imodyuli ye-thyristor/diode kufanele igcinwe endaweni emnyama, ukugwema ukukhanya kwelanga okuqondile noma ukuchayeka isikhathi eside ekukhanyeni okunamandla ukugwema ukuthikameza ukusebenza kwakho.
4. I-Anti static: Amamojula e-Thyristor/diode kufanele agweme ukuthintana namadivayisi azwelayo amile ukuze avimbele ugesi omile ukuthi ungawathinti.
5. Ukupakisha: Imojula ye-thyristor/diode kufanele igcinwe endaweni evikela umswakama, uthuli, kanye nebhokisi lokupakisha le-shockproof ukugwema ukulimala komshini noma ukudlidliza.
6. Isikhathi sokugcina: Isikhathi sokugcina samamojula we-thyristor/diode akufanele sibe side kakhulu, ngokuvamile angeqi 6 izinyanga. Ukugcina isikhathi eside kungase kubangele ukwehla kokusebenza noma izinkinga zokuguga.
7. Ukuhlola okuvamile: Hlola njalo ukupakishwa nokubukeka kwemojuli ye-thyristor/diode ukuze uqinisekise ukuthi akukho monakalo noma isimo esingavamile..
FAQ
Q1
Uyini umehluko omkhulu phakathi kwamamojula we-thyristor ne-diode??
Re:Umehluko omkhulu phakathi kwamamojula we-thyristor ne-diode usezicini zabo zokulawula, izimiso zokusebenza, kanye nezindawo zokufaka izicelo. Ama-Thyristors angamadivayisi alawulwa kancane angalawula ukuqhutshwa kwawo ngokulawula i-voltage yesango. Ngokuyinhloko zisetshenziselwa ukulawula amandla aphezulu kanye nokushintsha ama-circuits. Imodeli ye-diode, Ngokolunye uhlangothi, ihlanganiswe futhi ihlanganiswe nama-diode, ikakhulukazi esetshenziselwa imisebenzi yesekethe eyisisekelo njengokulungisa, ukulawulwa kwamandla kagesi, nokushintsha.
Q2
Kuyini ukusetshenziswa nokuthuthuka kwamamojula we-thyristor/diode emkhakheni wamandla amasha?
Re:Isetshenziselwa ukuguqula i-current eqondile ekhiqizwa amaphaneli elanga ibe yamanje eshintshanayo ukuze isetshenziswe ezindlini noma igridi yamandla. Isetshenziselwa ukulawula ukuqala, Ima, kanye nokuguqulwa kwamandla kwama-wind turbines. Imojula ye-thyristor/diode idlala indima ebalulekile kusekethe yokushintsha kabusha kwesiguquli kanye ne-inverter yesistimu yamandla omoya.. Ngokuthuthukiswa kwamandla amasha, izinhlelo zokugcina amandla sezibaluleke kakhulu. Amamojula we-Thyristor/diode anohlu olubanzi lwezinhlelo zokusebenza zokulawula ukushaja nokukhipha amandla okugcina amandla.. Ngokunwetshwa kwemakethe yezimoto zikagesi, isidingo sezindawo zokushaja sikhula njalo. Imojuli ye-thyristor/diode idlala indima ebalulekile kumojula yamandla, ukulawula ukushaja, kanye nohlelo lokubuyisela amandla ezinsiza zokushaja.
Q3
Yiziphi izinhlelo zokusebenza nezinselelo zamamojula we-thyristor/diode ezimotweni zikagesi nasezikhungweni zokushaja?
Re:Ukusetshenziswa kwamandla kwezimoto zikagesi kuthinta ngqo uhla lwazo, ngakho-ke amamojula wamandla asebenzayo ayadingeka ukunciphisa ukusetshenziswa kwamandla. Indawo yokusebenza yezimoto zikagesi inzima kakhulu, edinga ukuthembeka okuphezulu nokuzinza kwamamojula we-thyristor/diode. Ngokuthuthuka okuqhubekayo kobuchwepheshe bokushaja, amandla okushaja aphezulu ayadingeka ukuze kuzuzwe ukushaja okusheshayo, okubeka izidingo eziphakeme ekuqineni kwamandla kagesi kanye nomthamo wamanje wokuthwala wamamojula we-thyristor/diode.
Q4
Ungayixazulula kanjani inkinga yokuwohloka kokusebenza kwamamojula we-thyristor/diode ezindaweni ezinzima ezifana nezinga lokushisa eliphezulu nomswakama?
Re:Khetha izinto zokwakha nezindlela zokupakisha ezimelana nezinga lokushisa eliphezulu kanye nomswakama ukuze uthuthukise ukwethembeka nokuzinza kwedivayisi. Qinisa idizayini yokukhipha ukushisa ukuze unciphise izinga lokushisa lokusebenza lemojuli, ngaleyo ndlela ithuthukise ukusebenza kwayo kanye neminyaka yokuphila. Yamukela amasekhethi afanele okuvikela kanye nezinyathelo zokuvikela izimo ezingavamile njengokugcwala ngokweqile kanye ne-overcurrent ekudaleni umonakalo kumojuli.
Q5
Yibuphi ubuchwepheshe bokupakisha bamamojula we-thyristor/diode?
Re:Ubuchwepheshe bokupakisha bamamojula we-thyristor/diode ikakhulukazi buhlanganisa ukufaka okuqondile kanye nokupakishwa kwe-surface mount. Ukupakisha okuqondile kulungele amamojula anamandla aphezulu kanye naphezulu-voltage, kuyilapho ukupakishwa kwe-surface mount kufanela amamojula amancane futhi ahlanganiswe kakhulu. Ngaphezu kwalokho, kukhona amafomu okupakisha akhethekile, njengamamojula wamandla, amamojula hybrid, njll., ilungele izimo zohlelo lokusebenza. Ukukhetha indlela yokupakisha efanele idinga ukunqunywa ngokusekelwe ezidingweni ezithile zohlelo lokusebenza.