Fasahar Microwave ta Sichuan Keenlion——Na'urori masu wucewa
Sichuan Keenlion Fasahar Microwave An kafa shi a cikin 2004, Sichuan Keenlion Mircrowave fasaha CO., Ltd. shine babban mai kera na'urorin fasahar Mircrowave mai wucewa a Sichuan Chengdu, China.
Muna samar da kayan aikin mirrowave mai girma da sabis masu alaƙa don aikace-aikacen microwave a gida da waje. Samfuran suna da tsada, gami da masu rarraba wutar lantarki iri-iri, ma'auratan jagora, masu tacewa, masu haɗawa, duplexers, abubuwan da aka keɓance na keɓancewa, masu keɓewa da masu rarrabawa. An tsara samfuranmu musamman don matsanancin yanayi daban-daban da yanayin zafi. Ana iya ƙirƙira ƙayyadaddun ƙayyadaddun ƙayyadaddun ƙayyadaddun bayanai bisa ga buƙatun abokin ciniki kuma ana amfani da su ga duk daidaitattun maƙallan mitar mitoci masu shahara tare da bandwidth iri-iri daga DC zuwa 50GHz.
Na'urori masu wucewa
Na'urori masu wucewa sune muhimmin nau'in microwave da na'urorin RF, waɗanda ke taka muhimmiyar rawa a fasahar microwave. Abubuwan da suka dace sun haɗa da resistors, capacitors, inductor, converters, gradients, matching networks, resonators, filters, mixers and switches.
Nau'in na'ura
Gabatarwar nau'ikan
Abubuwan da suka dace sun haɗa da resistors, capacitors, inductor, converters, gradients, matching networks, resonators, filters, mixers and switches. Abun lantarki wanda zai iya nuna halayensa ba tare da samar da wutar lantarki na waje ba. Abubuwan da ke wucewa galibi suna juriya, inductive da na'urori masu ƙarfi. Siffar su ta gama gari ita ce za su iya aiki idan akwai sigina ba tare da ƙara ƙarfi a cikin kewaye ba.
resistor
Lokacin da halin yanzu ya wuce ta cikin madugu, dukiyar da juriya na ciki na jagoran ke hana halin yanzu ana kiranta juriya. Abubuwan da ke taka rawa na toshe halin yanzu a cikin kewaye ana kiran su resistors, waɗanda ake kira resistors a takaice. Babban manufar resistor shine rage wutar lantarki, raba wutar lantarki ko shunt. Ana amfani da shi azaman kaya, amsawa, haɗawa, keɓewa, da sauransu a wasu da'irori na musamman.
Alamar juriya a cikin zanen kewayawa shine harafin R. Ma'auni na juriya shine Ohm, wanda aka rubuta a matsayin Ω. Yawanci ana amfani da su kiloom KΩ da megaohm mΩ.
IKΩ=1000Ω 1MΩ=1000KΩ
capacitor
Capacitor kuma yana ɗaya daga cikin abubuwan da aka fi sani a cikin da'irori na lantarki. Wani bangare ne na adana makamashin lantarki. Capacitor ya ƙunshi madugu guda biyu masu girmansu iri ɗaya da sandwiched mai inganci tare da Layer na matsakaicin insulating. Lokacin da aka yi amfani da wutar lantarki zuwa ƙarshen capacitor biyu, ana adana cajin lantarki akan capacitor. Da zarar babu wutar lantarki, idan dai akwai rufaffiyar kewayawa, to zai saki makamashin lantarki. Capacitor yana hana DC wucewa ta cikin kewaye kuma yana ba AC damar wucewa. Mafi girman mitar AC, ƙarfin ƙarfin wucewa. Saboda haka, ana amfani da capacitors sau da yawa a cikin da'irori don haɗawa, tacewa ta hanyar wucewa, amsawa, lokaci da oscillation.
Lambar harafin capacitor shine C. Naúrar capacitance farad (an rikodi azaman f), wanda galibi ana amfani dashi μF (hanyar micro), PF (watau μμF. Hanyar Pico).
1F=1000000μF=10^6μF=10^12PF 1μF=1000000PF
Halayen capacitance a cikin kewaye ba su da tushe. Ana kiran abin da ake kira impedance zuwa halin yanzu capacitive reactance. Matsakaicin amsawa yana da inversely daidai gwargwado ga iya aiki da mitar sigina.
Inductor
Kamar capacitance, inductance shima bangaren ajiyar makamashi ne. Inductor gabaɗaya ana yin su ne da coils. Lokacin da aka yi amfani da wutar lantarki na AC a duka ƙarshen nada, ana haifar da ƙarfin lantarki a cikin coil, wanda ke hana abin da ke wucewa ta yanzu daga canzawa. Ana kiran wannan cikas juriya. Amsar inductive kai tsaye daidai yake da inductance da mitar siginar. Ba ya hana DC halin yanzu (ko da kuwa juriyar DC na nada). Saboda haka, aikin inductance a cikin da'irori na lantarki shine: toshewa na yanzu, canjin ƙarfin lantarki, haɗawa da daidaitawa tare da ƙarfin daidaitawa, tacewa, zaɓin mita, rarraba mita, da dai sauransu.
Lambar inductance a cikin da'ira shine L. Naúrar inductance ita ce Henry (an rikodi azaman H), kuma waɗanda aka saba amfani da su sune milliheng (MH) da micro Heng (μH).
1H=1000mH 1mH=1000μH
Inductance wani abu ne na al'ada na shigar da wutar lantarki da kuma jujjuyawar lantarki. Babban aikace-aikacen da aka fi sani shine transfoma.
Hanyar ci gaba
1. Haɗe-haɗen haɓakawa shine yanayin ci gaban gaba na abubuwan da ba a so. Tsarin haɗin kai yana ba da damar haɗa kayan aiki masu aiki ko kayayyaki da abubuwan da ba a iya amfani da su ba, kuma ya sadu da buƙatun raguwar ƙirar da ƙananan farashi a lokaci guda. Babban hanyoyin sun haɗa da: ƙananan fasaha na fasahar yumbura (LTCC), fasahar fina-finai na bakin ciki, fasahar semiconductor na silicon wafer, fasahar allo mai yawa, da sauransu.
2. Miniaturization. Neman ƙarami da nauyi a cikin masana'antar mara waya yana buƙatar na'urori masu wucewa don haɓaka cikin ƙarami. Micro Electro Mechanical System (MEMS) galibi ana amfani dashi don sanya abubuwan RF ƙarami, ƙarancin farashi, mafi ƙarfi kuma mafi dacewa ga haɗin kai.
3. Encapsulation sakamako. Idan aka kwatanta da abubuwan da aka ɗora a saman da aka saba amfani da su, haɗa abubuwan da aka haɗa cikin kunshin na iya inganta amincin tsarin yadda ya kamata, gajarta hanyar gudanarwa, rage tasirin parasitic, rage farashi da rage girman na'urori.
Bambance-bambance tsakanin abubuwa masu aiki da m
Na'urori masu wucewa sune na'urori waɗanda zasu iya nuna halayensu na waje da kansu ba tare da kasancewar wutar lantarki ta waje (DC ko AC). Bayan haka, akwai na'urori masu aiki. Abin da ake kira “halayen waje” shine bayyana takamaiman adadin alaƙar na’urar, kodayake ana amfani da ƙarfin lantarki ko na yanzu, filin lantarki ko filin maganadisu, matsa lamba ko gudu da sauran adadi don kwatanta dangantakarta.
Hakanan zamu iya keɓance abubuwan rf m bisa ga buƙatun ku. Kuna iya shigar da shafin keɓancewa don samar da ƙayyadaddun bayanai da kuke buƙata.
https://www.keenlion.com/customization/
Emali:
sales@keenlion.com
tom@keenlion.com
Lokacin aikawa: Maris 14-2022
