Sabuwar A cikin Haɗin Haɗin Wuta TLE4250-2G IRF7495TRPBF BSC160N10NS3G IB120P04P4L03 Ic Chip
Halayen Samfur
TYPE | BAYANI |
Kashi | Samfuran Semiconductor mai hankali |
Mfr | Infineon Technologies |
Jerin | OptiMOS™ |
Kunshin | Tape & Reel (TR) Yanke Tape (CT) Digi-Reel® |
Matsayin samfur | Mai aiki |
Nau'in FET | N-Channel |
Fasaha | MOSFET (Metal Oxide) |
Matsala zuwa Tushen Voltage (Vdss) | 100 V |
Na Yanzu - Cigaban Ruwa (Id) @ 25°C | 8.8A (Ta), 42A (Tc) |
Fitar da Wutar Lantarki (Max Rds On, Min Rds On) | 6V, 10 ku |
Rds On (Max) @ Id, Vgs | 16mOhm @ 33A, 10V |
Vgs(th) (Max) @ Id | 3.5V @ 33µA |
Cajin Ƙofar (Qg) (Max) @ Vgs | 25 nC @ 10 V |
Vgs (Max) | ± 20V |
Ƙarfin shigarwa (Ciss) (Max) @ Vds | 1700 pF @ 50V |
Siffar FET | - |
Rashin Wutar Lantarki (Max) | 60W (Tc) |
Yanayin Aiki | -55°C ~ 150°C (TJ) |
Nau'in hawa | Dutsen Surface |
Kunshin Na'urar Mai bayarwa | PG-TDSON-8-1 |
Kunshin / Case | 8-PowerTDFN |
Lambar Samfurin Tushen | Saukewa: BSC160 |
Takardu & Mai jarida
NAU'IN ARZIKI | MAHADI |
Takardar bayanai | Saukewa: BSC160N10NS3 |
Wasu Takardu masu alaƙa | Jagoran Lambar Sashe |
Fitaccen Samfurin | Tsarukan Gudanar da Bayanai |
HTML Datasheet | Saukewa: BSC160N10NS3 |
Model EDA | BSC160N10NS3GATMA1 na Ultra Librarian |
Samfuran Simulators | MOSFET OptiMOS™ 100V N-Channel Spice Model |
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: BSC160N10NS3 G-ND Saukewa: BSC160N10NS3 Saukewa: BSC160N10NS3 GINDKR-ND Saukewa: SP000482382 Saukewa: BSC160N10NS3GATMA1DKR Saukewa: BSC160N10NS3GATMA1CT Saukewa: BSC160N10NS3 Saukewa: BSC160N10NS3G Saukewa: BSC160N10NS3GATMA1DKR-NDTR-ND Saukewa: BSC160N10NS3 GINTR-ND BSC160N10NS3 GINCT-ND Saukewa: BSC160N10NS3 Saukewa: BSC160N10NS3GATMA1TR Saukewa: BSC160N10NS3GATMA1CT-NDTR-ND |
Daidaitaccen Kunshin | 5,000 |
Transistor shine na'urar semiconductor wanda aka fi amfani dashi a cikin amplifiers ko na'urori masu sarrafa lantarki.Transistor sune ginshiƙan ginin gine-ginen da ke daidaita ayyukan kwamfutoci, wayoyin hannu, da duk sauran hanyoyin lantarki na zamani.
Saboda saurin amsawarsu da tsayin daka, ana iya amfani da transistor don ayyuka iri-iri na dijital da na analog, gami da haɓakawa, sauyawa, mai sarrafa wutar lantarki, daidaita sigina da oscillator.Ana iya tattara transistor guda ɗaya ko a cikin ƙaramin yanki wanda zai iya ɗaukar transistor miliyan 100 ko fiye a matsayin wani ɓangare na haɗaɗɗiyar da'ira.
Idan aka kwatanta da bututun lantarki, transistor yana da fa'idodi da yawa:
Bangaren ba shi da amfani
Komai kyawun bututun, sannu a hankali zai lalace saboda canje-canjen atom na cathode da zub da jini na yau da kullun.Don dalilai na fasaha, transistor sun sami matsala iri ɗaya lokacin da aka fara kera su.Tare da ci gaban kayan aiki da haɓakawa ta fuskoki da yawa, transistor yawanci suna wuce sau 100 zuwa 1,000 fiye da bututun lantarki.
Cinye ƙarfi kaɗan
Daya ne kawai cikin goma ko goma na ɗayan bututun lantarki.Ba ya buƙatar dumama filament don samar da electrons kyauta kamar bututun lantarki.Gidan rediyon transistor yana buƙatar busassun batura kaɗan kawai don sauraron watanni shida a shekara, wanda ke da wahala a yi don rediyon tube.
Babu buƙatar yin zafi sosai
Yi aiki da zaran kun kunna shi.Misali, rediyon transistor yana kashe da zarar an kunna shi, kuma talabijin na transistor yana saita hoto da zarar an kunna shi.Kayan aikin bututu ba zai iya yin hakan ba.Bayan boot ɗin, jira na ɗan lokaci don jin sautin, duba hoton.A bayyane yake, a cikin soja, aunawa, rikodi, da sauransu, transistor suna da fa'ida sosai.
Mai ƙarfi kuma abin dogaro
Sau 100 mafi aminci fiye da bututun lantarki, juriya mai girgiza, juriya na girgiza, wanda ba zai iya kwatantawa da bututun lantarki ba.Bugu da kari, girman transistor yana da kashi ɗaya cikin goma zuwa kashi ɗari na girman bututun lantarki, ƙarancin zafi kaɗan, ana iya amfani da shi don tsara ƙanana, sarƙaƙƙiya, amintattun da'irori.Ko da yake tsarin masana'anta na transistor daidai ne, tsarin yana da sauƙi, wanda ke da amfani don haɓaka yawan shigarwar abubuwan da aka gyara.