AQX IRF7416TRPBF Sabbin kuma na asali hadedde Circuit ic guntu IRF7416TRPBF
Halayen Samfur
TYPE | BAYANI |
Kashi | Samfuran Semiconductor mai hankali |
Mfr | Infineon Technologies |
Jerin | HEXFET® |
Kunshin | Tape & Reel (TR) Yanke Tape (CT) Digi-Reel® |
Matsayin samfur | Mai aiki |
Nau'in FET | P-Channel |
Fasaha | MOSFET (Metal Oxide) |
Matsala zuwa Tushen Voltage (Vdss) | 30 V |
Na Yanzu - Cigaban Ruwa (Id) @ 25°C | 10 A (ta) |
Fitar da Wutar Lantarki (Max Rds On, Min Rds On) | 4.5V, 10V |
Rds On (Max) @ Id, Vgs | 20mOhm @ 5.6A, 10V |
Vgs(th) (Max) @ Id | 1V @ 250µA |
Cajin Ƙofar (Qg) (Max) @ Vgs | 92 nC @ 10 V |
Vgs (Max) | ± 20V |
Ƙarfin shigarwa (Ciss) (Max) @ Vds | 1700 pF @ 25V |
Siffar FET | - |
Rashin Wutar Lantarki (Max) | 2.5W (Ta) |
Yanayin Aiki | -55°C ~ 150°C (TJ) |
Nau'in hawa | Dutsen Surface |
Kunshin Na'urar Mai bayarwa | 8-SO |
Kunshin / Case | 8-SOIC (0.154 ″, Nisa 3.90mm) |
Lambar Samfurin Tushen | Saukewa: IRF7416 |
Takardu & Mai jarida
NAU'IN ARZIKI | MAHADI |
Takardar bayanai | Saukewa: IRF7416PBF |
Wasu Takardu masu alaƙa | Tsarin Lambobin Sashe na IR |
Modulolin Horon Samfura | Haɗin Haɗin Wuta Mai Girma (Masu Direbobin Ƙofar HVIC) |
Fitaccen Samfurin | Tsarukan Gudanar da Bayanai |
HTML Datasheet | Saukewa: IRF7416PBF |
Model EDA | IRF7416TRPBF ta Ultra Librarian |
Samfuran Simulators | Saukewa: IRF7416PBF |
Rarraba Muhalli & Fitarwa
SANARWA | BAYANI |
Matsayin RoHS | ROHS3 mai yarda |
Matsayin Ji daɗin Danshi (MSL) | 1 (Unlimited) |
Matsayin ISAR | KASANCEWA Ba Ya Shafe |
ECN | EAR99 |
HTSUS | 8541.29.0095 |
Ƙarin Albarkatu
SANARWA | BAYANI |
Wasu Sunayen | Saukewa: IRF7416TRPBFDKR Saukewa: SP001554262 Saukewa: IRF7416TRPBFCT Saukewa: IRF7416TRPBF-ND Saukewa: IRF7416TRPBFTR |
Daidaitaccen Kunshin | 4,000 |
Saukewa: IRF7416
Amfani
Tsarin salula na Planar don faffadan SOA
An inganta shi don mafi faɗin samuwa daga abokan rarraba
Cancantar samfur bisa ga ma'aunin JEDEC
Silicon ingantacce don aikace-aikacen da ke canzawa ƙasa <100KHz
Kunshin wutar lantarki daidaitaccen yanayin masana'antu
Mai ikon yin siyar da igiyar ruwa
-30V Single P-Channel HEXFET Power MOSFET a cikin kunshin SO-8
Amfani
RoHS mai yarda
Ƙananan RDS (na)
Ingancin jagorancin masana'antu
Rage darajar dv/dt
Saurin Canjawa
Cikakkiyar Avalanche Rated
175°C Yanayin Aiki
P-Channel MOSFET
transistor
transistor shine ana'urar semiconductoramfani da sufadadakocanzasiginar lantarki daiko.Transistor yana ɗaya daga cikin mahimman tubalan ginin zamanikayan lantarki.[1]Ya kunshisemiconductor abu, yawanci tare da akalla ukutashoshidon haɗi zuwa da'ira na lantarki.Aƙarfin lantarkikohalin yanzushafi guda biyu na tashoshin transistor suna sarrafa na yanzu ta wani tashoshi biyu.Saboda ikon sarrafawa (fitarwa) na iya zama mafi girma fiye da ikon sarrafawa (shigarwa), transistor na iya ƙara sigina.Wasu transistor ana tattara su daban-daban, amma wasu da yawa ana samun su a cikihadedde da'irori.
Austro-Hungary masanin kimiyyar lissafi Julius Edgar Lilienfeldya gabatar da manufar atransistor mai tasirin filina cikin 1926, amma ba zai yiwu a zahiri gina na'urar aiki ba a lokacin.[2]Na'urar aiki ta farko da aka gina ita cetransistor lamba-lambaMasana kimiyyar lissafi na Amurka suka ƙirƙira a cikin 1947John BardeenkumaWalter Brattainyayin aiki a karkashinWilliam ShockleyaBell Labs.Su uku sun raba 1956Nobel Prize a Physicssaboda nasarar da suka samu.[3]Mafi yawan nau'in transistor da ake amfani dashi shinekarfe-oxide-semiconductor filin-tasirin transistor(MOSFET), wanda aka ƙirƙira taMohammed AtallakumaDawon Kahnga Bell Labs a 1959.[4][5][6]Transistors sun kawo sauyi a fannin na'urorin lantarki, kuma sun share hanya don ƙarami da rahusarediyo,kalkuleta, kumakwamfutoci, da sauransu.
Yawancin transistor ana yin su ne daga tsarkakkiyar tsaftasiliki, da wasu dagaJamus, amma ana amfani da wasu kayan semiconductor wasu lokuta.Transistor na iya samun nau'in caja ɗaya kawai, a cikin transistor mai tasiri, ko yana iya samun nau'ikan caja iri biyu a ciki.bipolar junction transistorna'urori.Idan aka kwatanta dainjin bututu, transistor gabaɗaya sun fi ƙanƙanta kuma suna buƙatar ƙarancin ƙarfi don aiki.Wasu bututun na'ura suna da fa'ida akan transistor a mitoci masu tsayin aiki ko babban ƙarfin aiki.Yawancin nau'ikan transistor ana yin su zuwa daidaitattun ƙayyadaddun bayanai ta masana'antun da yawa.