Isekhethi Ehlanganisiwe ye-EP4CGX150DF31I7N entsha neyoqobo
Izimfanelo Zomkhiqizo
UHLOBO | DESCRIPTION |
Isigaba | Izifunda Ezihlanganisiwe (ICs) |
Mfr | Intel |
Uchungechunge | I-Cyclone® IV GX |
Iphakheji | Ithreyi |
Isimo somkhiqizo | Iyasebenza |
Inombolo yama-LAB/CLBs | 9360 |
Inombolo Yezinto Ezinengqondo/Amaseli | 149760 |
Isamba se-RAM Bits | 6635520 |
Inombolo ye-I/O | 475 |
I-Voltage - Ukunikezwa | 1.16V ~ 1.24V |
Uhlobo Lokukhweza | INtaba Engaphezulu |
Izinga Lokushisa Lokusebenza | -40°C ~ 100°C (TJ) |
Iphakheji / Ikesi | 896-BGA |
Iphakheji Yedivayisi Yomhlinzeki | 896-FBGA (31×31) |
Inombolo Yomkhiqizo Eyisisekelo | EP4CGX150 |
Amadokhumenti Nemidiya
UHLOBO LOKUSEBENZA | LINK |
Datasheets | I-Cyclone IV Device Datasheet |
Amamojula Wokuqeqesha Umkhiqizo | I-Cyclone® IV FPGA Uhlolojikelele Lomndeni Izizathu Ezintathu Zokusebenzisa I-FPGA's Emiklamweni Yezimboni |
Umkhiqizo Ofakiwe | I-Cyclone® IV FPGAs |
I-PCN Design/Specification | I-Mult Dev Software Chgs 3/Jun/2021 |
I-PCN Packaging | I-Mult Dev Label CHG 24/Jan/2020 |
I-Errata | I-Cyclone IV Device Family Errata |
Izigaba Zemvelo Nokuthekelisa
ISIQINISEKISO | DESCRIPTION |
Isimo se-RoHS | I-RoHS Iyahambisana |
Izinga Lokuzwela Komswakama (MSL) | 3 (168 amahora) |
FIKA Isimo | FIKA Ungathintekile |
ECCN | 3A991D |
HTSUS | 8542.39.0001 |
I-Altera Cyclone® IV FPGAs inweba ubuholi bochungechunge lwe-Cyclone FPGA ekunikezeni izindleko eziphansi zemakethe, ama-FPGA anamandla aphansi, manje anokwehluka kwe-transceiver.Amadivayisi e-Cyclone IV aqondiswe kuvolumu ephezulu, izinhlelo zokusebenza ezizwelayo ezindleko, okuvumela abaklami besistimu ukuthi bahlangabezane nezimfuneko ezikhulayo zomkhawulokudonsa kuyilapho behlisa izindleko.Ukunikeza amandla nokonga izindleko ngaphandle kokudela ukusebenza, kanye nenketho ehlanganisiwe ye-transceiver ebiza kancane, amadivaysi e-Cyclone IV alungele izinhlelo zokusebenza ezingabizi kakhulu, zefomu elincane embonini engenantambo, yocingo, yokusakaza, yezimboni, yabathengi kanye nezokuxhumana. .Yakhelwe phezu kwenqubo elungiselelwe amandla aphansi, umndeni wedivayisi ye-Altera Cyclone IV unikeza okuhlukile okubili.I-Cyclone IV E inikeza amandla aphansi nokusebenza okuphezulu ngezindleko eziphansi kakhulu.I-Cyclone IV GX inikeza amandla aphansi kanye nama-FPGA abiza kakhulu anama-transceivers angu-3.125Gbps.
I-Cyclone® Family FPGAs
I-Intel Cyclone® Family FPGAs yakhelwe ukuhlangabezana nezidingo zakho zedizayini ezinamandla aphansi, ezizwelayo ezibizayo, okukwenza ukwazi ukufika emakethe ngokushesha.Isizukulwane ngasinye se-Cyclone FPGAs sixazulula izinselelo zobuchwepheshe zokukhula kokuhlanganiswa, ukwanda kokusebenza, amandla aphansi, kanye nesikhathi esisheshayo sokumaketha ngenkathi sihlangabezana nezidingo ezingazweli kakhulu.I-Intel Cyclone V FPGAs ihlinzeka ngezindleko zohlelo oluphansi kakhulu lwemakethe namandla aphansi we-FPGA isisombululo sezinhlelo zokusebenza ezimakethe zezimboni, ezingenantambo, zezintambo, zokusakaza, nezabathengi.Umndeni uhlanganisa insada yamabhulokhi wempahla eqanjiwe eqinile (IP) ukuze ukwazi ukwenza okwengeziwe ngezindleko eziphansi zesistimu kanye nesikhathi sokuklama.Ama-SoC FPGA emndenini we-Cyclone V anikela ngezinto ezintsha ezihlukile ezifana nesistimu ye-hard processor (HPS) egxile ku-dual-core ARM® Cortex™-A9 MPCore™ processor enesethi ecebile yama-peripherals aqinile ukunciphisa amandla esistimu, izindleko zesistimu, kanye nosayizi webhodi.I-Intel Cyclone IV FPGAs yizindleko eziphansi kakhulu, ama-FPGA anamandla aphansi, manje anokwehluka kwe-transceiver.Umndeni we-Cyclone IV FPGA uqondise ivolumu ephezulu, izinhlelo zokusebenza ezizwelayo ezindleko, ezikwenza ukwazi ukuhlangabezana nezimfuneko ezikhulayo zomkhawulokudonsa kuyilapho wehlisa izindleko.I-Intel Cyclone III FPGAs inikezela ngenhlanganisela engakaze ibonwe yezindleko eziphansi, ukusebenza okuphezulu, kanye nokwenza kahle kwamandla ukukhulisa umkhawulo wakho wokuncintisana.Umndeni we-Cyclone III FPGA ukhiqizwa kusetshenziswa ubuchwepheshe benqubo yamandla aphansi ye-Taiwan Semiconductor Manufacturing Company ukuletha ukusetshenziswa kwamandla okuphansi ngentengo elingana neyama-ASIC.Ama-Intel Cyclone II FPGAs akhiwe kusukela phansi kuya phezulu ngezindleko eziphansi futhi anikeze isici esichazwe yikhasimende esisethelwe umthamo ophezulu, izinhlelo zokusebenza ezizwelayo ezindleko.I-Intel Cyclone II FPGAs iletha ukusebenza okuphezulu nokusetshenziswa kwamandla okuphansi ngenani elilingana nelama-ASIC.
Yini i-SMT?
Iningi lama-elekthronikhi ezentengiselwano wonke amayelana nokujikeleza okuyinkimbinkimbi kokufaka ezindaweni ezincane.Ukuze wenze lokhu, izingxenye zidinga ukugxunyekwa ngokuqondile ebhodini lesifunda kunokuba zifakwe izintambo.Yilokhu empeleni okuyi-surface mount technology.
Ingabe i-Surface Mount Technology ibalulekile?
Iningi elikhulu lama-electronics anamuhla akhiqizwa nge-SMT, noma ubuchwepheshe be-surface mount.Amadivayisi nemikhiqizo esebenzisa i-SMT inenani elikhulu lezinzuzo ngaphezu kwamasekethe ahanjiswa ngendlela evamile;lawa madivayisi aziwa njengama-SMD, noma amadivaysi okukhweza ngaphezulu.Lezi zinzuzo ziqinisekise ukuthi i-SMT ilawule umhlaba we-PCB kusukela yasungulwa.
Izinzuzo ze-SMT
- Inzuzo enkulu ye-SMT ukuvumela ukukhiqizwa okuzenzakalelayo kanye ne-soldering.Lokhu kuyizindleko nokonga isikhathi futhi kuvumela isekethe engaguquki kakhulu.Ukonga ezindlekweni zokukhiqiza kuvame ukudluliselwa ekhasimendeni - okwenza kube nenzuzo kuwo wonke umuntu.
- Imigodi emincane idinga ukubhobozwa kumabhodi esekethe
- Izindleko ziphansi kunezingxenye ezilinganayo zembobo
- Noma yiluphi uhlangothi lwebhodi lesifunda lungaba nezingxenye ezibekwe kulo
- Izingxenye ze-SMT zincane kakhulu
- Ukuminyana kwengxenye ephezulu
- Ukusebenza okungcono ngaphansi kwezimo zokuzamazama nokudlidliza.
Ukungalungi kwe-SMT
- Izingxenye zamandla amakhulu noma aphakeme azifaneleki ngaphandle uma kusetshenziswa ukwakhiwa kwe-hole.
- Ukulungisa ngesandla kungaba nzima kakhulu ngenxa yosayizi ophansi kakhulu wezingxenye.
- I-SMT ingaba yingafaneleki ezingxenyeni ezithola ukuxhunywa njalo nokunqanyulwa.
Yiziphi izisetshenziswa ze-SMT?
Amadivayisi wokukhweza phezulu noma ama-SMD ngamadivayisi asebenzisa ubuchwepheshe bokukhweza phezulu.Izingxenye ezihlukahlukene ezisetshenzisiwe ziklanyelwe ngokukhethekile ukuthi zidayiswe ngokuqondile ebhodini kunokuba zifakwe izintambo phakathi kwamaphoyinti amabili, njengoba kwenzeka ngobuchwepheshe bembobo.Kunezigaba ezintathu eziyinhloko zezingxenye ze-SMT.
I-Passive SMDs
Iningi lama-SMD angenzi lutho ama-resistor noma ama-capacitor.Osayizi bamaphakheji alawa basezingeni elifanele, ezinye izakhi ezihlanganisa amakhoyili, amakristalu nezinye zivame ukuba nezidingo eziqondile.
Amasekhethi ahlanganisiwe
Ngobaulwazi oluthe xaxa mayelana namasekhethi ahlanganisiwe ngokuvamile, funda ibhulogi yethu.Ngokuphathelene ne-SMD ngokuqondile, zingahluka kakhulu ngokuya ngoxhumo oludingekayo.
Ama-Transistors nama-diode
Ama-Transistors nama-diode avame ukutholakala ephaketheni elincane lepulasitiki.Imikhondo yakha ukuxhumana futhi ithinte ibhodi.Lawa maphakheji asebenzisa imikhondo emithathu.
Umlando omfushane we-SMT
Ubuchwepheshe be-Surface Mount baqala ukusetshenziswa kabanzi ngawo-1980, futhi ukuthandwa kwabo kukhule kusukela lapho.Abakhiqizi be-PCB basheshe baqaphela ukuthi amadivaysi e-SMT asebenza kahle kakhulu ukukhiqiza kunezindlela ezikhona.I-SMT ivumela ukuthi ukukhiqizwa kwenziwe ngemishini ephezulu.Ngaphambilini, ama-PCB ayesebenzisa izintambo ukuxhuma izingxenye zawo.Lezi zintambo zazilawulwa ngesandla kusetshenziswa indlela yomgodi wokubhoboza.Izimbobo ezingaphezulu ebhodini zazixhunywe izintambo kuzo, futhi lezi zazihlanganisa izingxenye ze-electronic.Ama-PCB endabuko ayedinga abantu ukuze basize kulokhu kwakhiwa.I-SMT isuse lesi sinyathelo esinzima enqubweni.Izingxenye esikhundleni salokho zidayiselwe phezu kwamaphedi emabhodini esikhundleni salokho - yingakho 'i-surface mount'.
I-SMT iyaqhubeka
Indlela i-SMT ezinikele ngayo ekusetshenzisweni kwemishini isho ukuthi ukusetshenziswa kwanda ngokushesha embonini yonke.Kwadalwa isethi entsha yezingxenye ezihambisana nalokhu.Lezi zivame ukuba zincane kunozakwabo be- through-hole.Ama-SMD akwazile ukuba nenani lamaphinikhodi aphezulu kakhulu.Ngokuvamile, ama-SMTs nawo aminyene kakhulu kunamabhodi esekethe embobo, okuvumela izindleko eziphansi zokuhamba.Sekukonke, amadivaysi asebenza kahle kakhulu futhi ayonga.Bayakwazi ukuthuthuka kwezobuchwepheshe obekungacatshangwa ukuthi kusetshenziswa i- through-hole.
Izosetshenziswa ngo-2017
Umhlangano we-Surface Mount cishe unokulawula okuphelele kwenqubo yokudala ye-PCB.Akukhona nje kuphela ukuthi zisebenza kahle kakhulu ukukhiqiza, futhi ezincane zokuthutha, kodwa lezi zixhobo ezincane nazo zisebenza kahle kakhulu.Kulula ukubona ukuthi kungani ukukhiqizwa kwe-PCB kuqhubekele phambili endleleni ye-wire through-hole.