WINSOK MOSFETs ee Qalabka Quruxda

Codsiga

WINSOK MOSFETs ee Qalabka Quruxda

Qalabka isqurxintu waa aaladaha loo isticmaalo in lagu wanaajiyo muuqaalka maqaarka oo kor loogu qaado quruxda. Waxaa loo isticmaali karaa ujeedooyin kala duwan oo isqurxin ah sida ka saarida laalaabyada, adkaynta maqaarka, nalalka khafiifinta, iyo hagaajinta midabka maqaarka. Codsiga eeMOSFET-yadaQalabka qurxinta inta badan waxaa ka mid ah naqshadeynta wareegyada elektiroonigga ah ee aaladaha sida aaladaha timaha ka saara iyo aaladaha hordhaca soo noqnoqda ee raadiyaha. Dhinaca qalabka quruxda, codsiga MOSFETs ayaa inta badan ka muuqda dhinacyada soo socda: Xalka Qalabka Timaha Ciribtirka Hordhac: Qalabka timaha ka saarista, MOSFETs waxaa loo isticmaali karaa in lagu xakameeyo wax soo saarka hadda, si loo hubiyo badbaadada isticmaalaha iyo waxtarka habka loo isticmaalo. Maadaama qalabka timaha ka saarista uu u baahan yahay inuu maqaarkiisa mariyo qadar kulayl ah si uu u burburiyo timaha timaha, waxay u baahan tahay kontorool sare oo hadda jira, MOSFET-yaduna waxay door muhiim ah ka ciyaaraan halkan. Hordhaca barnaamijka soo-bandhiga RF: Soo-bandhiga RF wuxuu kuleyliyaa unugyada maqaarka qoto dheer iyadoo loo marayo tamarta RF si kor loogu qaado dib-u-habaynta kolajka loona gaaro saameynta adkeynta maqaarka waxtarka daaweynta. Codsiyada ugu muhiimsan ee WINSOK MOSFET: Aaladaha qurxinta, WINSOK MOSFETs waxaa loo isticmaali karaa maaraynta korantada, beddelka heerka, ama naqshadaha wareegyada kale ee gaarka ah si loo hagaajiyo waxqabadka iyo isku halaynta aaladda. Tilmaamaha Heerkulka: MOSFET-yadu waxay leeyihiin sifo heerkul-ku-joog ah oo gaar ah halkaasoo kanaalka IDS-ka hadda uu hoos u dhaco marka heerkulka tuubada uu kordho. Dabeecaddani waxay ka caawisaa inay ka ilaaliso wareegyada waxyeellada sababtoo ah kulaylka qalabka quruxda. Beddelka Xulashada Tuubbada iyo Codsiga Mabaadi'da: Aaladaha quruxda-dhamaadka sare leh, marka MOSFET-yada loo isticmaalo sidii tubooyinka beddelka, marinkoodu wuxuu u baahan yahay danab albaabka ka weyn tamarta isha. Naqshadeyntani waxay gacan ka geysaneysaa hagaajinta waxtarka tamarta iyo waxqabadka qalabka. Marka la soo koobo, MOSFET-yada waxaa si weyn loogu isticmaalaa aaladaha quruxda, waxayna xaqiijiyaan badbaadada, xasiloonida iyo waxqabadka sare ee qalabka quruxda iyagoo si sax ah u xakameynaya tamarta hadda jirta iyo korontada. MOSFETs waa qayb lama huraan ah oo ka mid ah xaqiijinta xakamaynta elektaroonigga ah, hadday tahay aaladaha timaha ka saarista ama aaladaha hordhaca ah ee radiofrequency.

 

WINSOK MOSFET ee adeegsiga qalabka quruxda, moodooyinka arjiga ugu weyn waa: WST3426, WST3427, WST3400A, WST3401A, WST3400, WST3401, WSP4884, WSP4882, WSF15N10, WSF12N10, WST3427, WST3401A. WST3415, WSF3013, WSF4012, WSD3045DN,WSD20L50DN, WSD30L30DN, WSP4606.

1 "WST3426 hal N-channel, SOT-23 xirmo 20V3A caabbinta gudaha 60mΩ

Qaababka u dhigma: Moodeelka AOS AO3494, MUUQAALKA FDN339AN/NTR4501/NVR4501N, nooca VISHAY SI2302CDS/SI2302DDS, ST model STR2N2VH5

Muuqaalka Codsiga: Alaabta dhijitaalka ah, Qalabyada yaryar, Elektrooniga macaamiisha

 

2 "WST3427 hal P-channel, xirmo SOT-23N, -20V-2.5A caabbinta gudaha 140mΩ.

Moodooyinka u dhigma: Moodooyinka AOS AO3413/AO3415A/AO3415A/AO3419/AO3423/AO3435/AO3493/AO3495/AO3499/AO21115C, moodooyinka Nxperian: PMV30XPEA/UPE

Muuqaalka Codsiga: Alaabta Dijital ah Qalabka Guriga Yaryar ee Macmiilka Elektarooniga ah

3 "WST3401 hal P-channel, xirmo SOT-23-3L, -30V12A caabbinta gudaha -5.5mΩ.

Moodooyinka u dhigma: Moodooyinka AOS AO3407/AO3407A/AO3451/AO3401/AO3401A, model TOSHIBA SSM3J332R/SSM3J372R

Muuqaalka Codsiga: Xakamaynta Sigaarka Elektarooniga ah Alaabta Dijitaalka ah ee Qalabka Yaryar ee Macmiilka Elektarooniga ah

4 "WSP4884 hal N-channel, xirmo SOP-8, 30V8.8A caabbinta gudaha 18.5mΩ.

Moodooyinka u dhigma: Moodeelka AOS AO4822/AO4822A/AO4818B/AO4832/AO4914, MUUQAALKA FDS6912A, nooca VISHAY Si4214DDY, qaabka INFINEON BSO150N03MD G.

Muuqaalka Codsiga: E-sigaarka Xajiyeyaasha Wireless-ka ee matoorada Drones

MOSFET ee Qalabka Quruxda

Waqtiga boostada: Meey-14-2024