Isiboniso seVoltheji esiPhezulu sangaphakathi
Iinkcukacha zeMveliso
Isishwankathelo
Le mveliso sisiqhathaniso sesigaba se-HX2 (i-PC) eyilwe yaza yaveliswa yinkampani yethu ngokweemfuno zabasebenzisi, esetyenziswa ngokubambisana nothotho lwe-DXN80 yezixhobo zokubonisa zangaphakathi ze-voltage ephilayo (iphaneli yesalathisi ibeka isiphelo sovavanyo lwesigaba) .Ilungele izitishi kunye nezikhululo zokuhambisa amandla (ingakumbi xa iintambo zingena emgceni) ezixhotyiswe ngezinto ezimbini zombane kunye nezixhobo ezininzi zamandla zangaphakathi ze-3.6, 7.2, 12, 40.5kV, i-frequency 50Hz kunye ne-indoor high-voltage live display devices.Ukuthelekiswa kwesigaba kunokwenziwa kwicala le-low-voltage ngaphandle kokuvula umnyango we-switchgear ngaphambi kokuhanjiswa kwamandla.
Isishwankathelo
Anti-misoperation isitshixo inkqubo yokutshixa ngomatshini isitshixo high-voltage switch.isitshixo.Umsebenzisi unyanzelekile ukuba asebenzise izixhobo zombane ngokungqinelana neenkqubo zokusebenza ezikhuselekileyo ezimiselweyo, ngaloo ndlela enqanda ukusetyenziswa kakubi kwezixhobo zombane, aze ahlangabezane ngokupheleleyo neemfuno zeetendon ezintlanu ezicetywe lisebe lonikezelo lombane:
a.Thintela iswitshi ekubeni itsalwe kwaye ivalwe ngempazamo;
b.Thintela imela yokuzahlula ekubeni itsalwe kwaye ivalwe ngomthwalo;
c.Thintela ukungena kwixesha eliphilayo ngempazamo;
d.Thintela ucingo oluphilayo ekubeni lujinga phantsi (jonga imela yokumisa);
e.Ukuthintela ucingo lomhlaba (jonga ummese wokumisa): ukuvala, njl.
Umsebenzi wokusebenza | Amanqaku | |
Isitshixo sevacuum / ukuba yedwa okuphezulu / umnyango ongasemva / umnyango wangaphambili | 1A 4A 5A 5B | |
Isitshixo sevacuum / ukuba yedwa okuphezulu / umnyango ongasemva / umnyango wangaphambili | 1A 4A 5A | |
Vacuum kwaye uvale / ukubekwa wedwa okuphezulu / ukuhlala wedwa okusezantsi / umnyango ongasemva / umnyango wangaphambili | 1A 4A 4B 5A 5B | |
Isitshixo sevacuum/ukubekwa wedwa okuphezulu/ukwahlukaniswa okusezantsi/ucango lwangaphambili | 1A 4A 4B 5A | |
Ukwahlukaniswa okuphezulu / umnyango ongasemva / umnyango wangaphambili | 4A 5A 5B | |
I-quarantine / Umnyango wangaphambili | 4A5A | |
IKhabhinethi/isitshixo esikhethekileyo/ucango lwangaphambili/ucango olungasemva | ||
Izitshixo ezimbini kunye nesitshixo esinye | ||
Izitshixo ezithathu nezitshixo ezibini |
Isishwankathelo
I-Aluminiyam ingxubevange yesifudumezi luhlobo olutsha lwesifudumezi sombane esilungiselelwe ngokukodwa ukufuma kunye nokunciphisa izixhobo zombane.Isifudumezi senziwe ngecwecwe elikhethekileyo le-aluminiyam ye-alloy dissipation plate kunye ne-high-quality alloy heat wire.Ineempawu zobukhulu obuncinci, inkangeleko entle, ukuchithwa kobushushu obufanayo, ukuhanjiswa kobushushu okukhawulezayo, kunye nendawo enkulu yokuchitha ubushushu, ukuze kuqinisekiswe ukuba ubomi benkonzo yocingo lokufudumeza bude kunesiqhelo I-heater ide kakhulu kwaye inokusebenza ngokuthembekileyo ixesha elide.
Umbane osebenzayo: AC220V
Amandla alinganisiweyo: 25W-200W;300W-500W
Imilinganiselo (mm): 158×100×23;200×100×23 (ubude, ububanzi, ukuphakama)
Iiparamitha zemveliso
1. Umda wobushushu
2. Uluhlu olubanzi lwamandla ombane
3. Ukufudumeza okusebenzayo
4. Ukonga amandla
5. Ikhaphukhaphu
Izifudumezi ezincinci zisetyenziswa ikakhulu kwiibhokisi zokutshintsha ukuthintela ukujiya.
Iiparamitha zobuGcisa
Ukusebenza kwamandla ombane | 120-240V AC/DC(min.110V,max,265V) | |
Izinto zokufudumeza | Into yokufudumeza i-PTC | |
Umzimba we-exothermic | Iprofayile ye-aluminiyam ye-Anodized | |
Indlela yokufakela | ufakelo lwesijija | |
Indlela yokufakela | ngokuzikhethela | |
Indalo/Imeko yoGcino | -45 ukuya+70℃( -49 ukuya +158 yeF) | |
Iklasi yokhuseleko | IP32 |
Isishwankathelo
Isifudumezi serabha ye-silicone luhlobo olutsha lwe-ultra-thin, anti-scalding kunye ne-heater engenamanzi.Yamkela iteknoloji yokubumba ye-silicone yexesha elilodwa (eyokuqala e-China), enemisebenzi yobukhulu obuncinci, ubomi obude, ukuchithwa kobushushu obufanayo, ukukhupha amanzi kunye nokuchasana nokuvutha, njl. Kulula ukuyisebenzisa kwaye ilungele izifudumezi zendabuko.ezinye iindlela.
Iiparamitha zobuGcisa
Amandla | ixesha elide | Ububanzi | Zingqindilili | Umgama womngxuma | Isithuba semingxuma | |
50w | 150mm | 90mm | 2.8mm | 136 | 76 | |
75w | 150mm | 90mm | 2.8mm | 136 | 76 | |
100w | 185mm | 120mm | 2.8mm | 169 | 106 | |
150w | 185mm | 120mm | 2.8mm | 169 | 106 | |
200w | 185mm | 120mm | 2.8mm | 169 | 106 |
Uhlobo lwephaneli yomhlaba kunye nesalathisi esiphosakeleyo sesiphaluka esifutshane
Inkqubo yomgaqo
Ngokusetyenziswa ngokubanzi kweekhabhinethi zokutshintsha inethiwekhi yekhonkco kunye neebhokisi zegatsha zentambo kwigridi yamandla, ingxaki yendlela yokufumana icandelo eliphosakeleyo lekhebula ngexesha liba ngakumbi kwaye livelele.Isiphaluka esifutshane kunye nezalathi zempazamo zomhlaba zinika isisombululo esona sisombululo kule ngxaki.
Isiphaluka esifutshane kunye nesalathisi sesiphoso somhlaba sifakwe kwibhokisi yesebe yentambo yentambo ye-ring network kwi-matching amp 10KV-35KV yenethiwekhi yokusabalalisa inethiwekhi, esetyenziselwa ukubonisa i-pase-to-phase-short-circuit kunye ne-single-phase-grounding fault. yecandelo letheminali yombane ehambelanayo.Njengoko kuboniswe kumzobo womgaqo wokusebenza ongezantsi, xa kukho isiphaluka esifutshane okanye impazamo yomhlaba kwinkqubo yenethiwekhi yendandatho, zonke izibonakaliso zephutha phakathi kwe-circuit breaker A kunye ne-fault point idlula kwi-fault current.Emva kokuba izikhombisi zibone impazamo yangoku, ukukhanya kwesalathisi somkhosi kukhanya kunye nama-alamu..Ngoko ke, isalathisi phakathi kwendawo efihliweyo kunye nendawo evulekileyo ngokuqhelekileyo ikwisimo esiqhelekileyo sokucima (akukho flicker, akukho alarm) ngenxa yamanzi adlula kwi-fault current.Abasebenzi bokugcina umgca banokuqhawula ngokukhawuleza icandelo eliphosakeleyo ngokuhambelana nokuba ukukhanya kwesalathisi kukhanya okanye cha.
Njengoko kuboniswe kumzobo, iphutha lenzeka phakathi kweNombolo ye-3 kunye neNombolo ye-4 yeeyunithi eziphambili.Ngoko ke, qhawula umthwalo wokutshintsha kweNo. 4 kunye neNombolo ye-5 iikhabhinethi ziphunyezwa ngokuvala iNombolo yesi-6 ngokuqhelekileyo ivulekileyo.Ngale ndlela, kuphela intambo ephosakeleyo yodwa, ukwenzela ukuba kuqinisekiswe ukuba konke ukuthotyelwa kunokubuyisela amandla ngexesha.
Isantya kunye nokusebenza kakuhle kokusetyenziswa kwesalathisi sokungaphumeleli ekufumaneni icandelo elingalunganga ligqithise kakhulu indlela yesiqhelo yamanqaku amabini kunye nokuvula nokuvala indlela yokubonelela amandla ovavanyo, kwaye akukho mngcipheko oziswa zezi ndlela zemveli (ezifana nengozi yokulimala enokuthi kubangelwe luvavanyo lokugquma), Yindlela yokubonelela ngokuthembeka konikezelo lwamandla.
Umgaqo wokusebenza kwawo wonke umatshini
Xa kukho isiphaluka esifutshane okanye isiphene somhlaba kumgca wokubonelela ngombane, intsimi ye-electromagnetic eyenziwa yi-short circuit okanye utshintsho lwangoku lomhlaba, ukwenzela ukuba i-coil yokulinganisa kwi-sensor egxininiswe kwi-terminal yombane ivelise uphawu lwe-pulse.Xa ixabiso lesignali ye-pulse lifikelela okanye lidlula i-set fault current Xa ixabiso lisetyenzisiwe, isalathisi somlandeli siya kukhumbula ngokuzenzekelayo isimo sesiphoso, ngoko ke isalathisi sesiphoso siya kukhutshwa xa ukukhanya kwesalathisi kukhanya.Ngexesha elifanayo, umqondiso wephutha uya kuhanjiswa kwiziko lokubeka iliso ngokusebenzisa i-alarm interface ekude, kwaye abasebenzi banokufumana ngokukhawuleza nangokuchanekileyo umgca wecala ngokusebenzisa isignali yephutha.indawo, lungisa ingxaki ngexesha, kwaye ubuyisele amandla kwigridi.
Umsebenzi ophambili
Isalathiso se-alarm yesiphambeko esifutshane: I-sensor yesiphambeko esifutshane ifakwe kwikhebula lesigaba esisodwa ukujonga utshintsho lwangoku kumgca wokunikezelwa kwamandla ngamaxesha onke.Xa ixabiso layo lifikelela okanye ligqithise intshukumo yangoku emfusa ixabiso lokucwangcisa elimfusa (eli xabiso linokumiselwa ngokweemfuno zomsebenzisi phambi kokuba ushiye umzi-mveliso) , Isivamvo sempazamo esifutshane sithumela isiginali ye-alam, kwaye umqondiso uthunyelwa isalathisi ngefiber optical, kunye nesalathiso sempazamo esifutshane esihambelanayo sidanyaza ukukhupha isalathiso se-alarm.
Indlela yokufakela
1. Ukufakwa komgcini wesalathisi
Iyunithi ephambili yesalathisi ifakwe kwipaneli yangaphambili yekhabhinethi yokusabalalisa amandla
Ukususa iyunithi ephambili, kufuneka ucinezele i-shrapnel yensimbi kwi-casing engundoqo
Ubungakanani bomngxuma: 91.5mm (ukunyamezela: ± 0.3) × 43mm (ukunyamezela: ± 0.3)
2. Ufakelo lwesivamvo sempazamo esifutshane
Emva kokugubungela ikhebula ngentambo yentambo, faka izikhonkwane ezimbini zenzwa ecaleni kwendlela yokuvula ye-clamp.Emva kokudibanisa i-sensor kunye ne-clamp, ujikeleze i-screw eqinile kwi-clamp ukulungisa inzwa kwikhebula lesigaba.phezulu.I-sensor yesiphambeko esifutshane kufuneka ifakwe kwi-cable yesigaba sesebe somgca wokusabalalisa inethiwekhi yendandatho, kwaye kufuneka ifakwe ngokuqinileyo kumgca wentambo phantsi kovavanyo ukukhusela i-sensor kwi-sliding kwaye ibangele ukuba i-fiber optical interface ikhulule okanye iphule.
3. Ukufakwa kwenzwa yempazamo yomhlaba
Khulula isikrufu sendandatho yomqhubi wamagnetic, ujikeleze icandelo elingakhuselekanga lentambo yesigaba sesithathu, qinisa i-screw ye-tape yomqhubi, qinisa intambo yentambo kwi-sensor, kwaye uyilungise kwintambo yesigaba sesithathu ukuze ingabikho. ikhululwe
4. Ukudityaniswa kwefiber yesignali
Ukukhulula i-nut kwi-fiber socket, faka enye isiphelo sefiber emngxunyeni we-fiber socket, faka i-fiber ekupheleni ukuya ekupheleni, kwaye uqinise i-nut de i-fiber ayinakuxhunywa;esinye isiphelo sefiber sifakwe ngendlela efanayo kunye nemiyalelo Qhagamshela kwaye utshixe isokhethi yefiber optical ehambelanayo kwiyunithi ephambili.Ukudityaniswa kwee-sensor ezimbini kwi-host host kufuneka idibaniswe ngokuqinileyo ukukhusela ukukhulula kunye nokuwa, ukwenzela ukuba kuqinisekiswe ukusebenza okuqhelekileyo kwesalathisi.
Qaphela: Icandelo kwiiphelo zombini ze-fiber optical liphathwe ngokukodwa, kwaye umfakeli akufanele anqumle ngokufutshane ngokuthanda, ngaphandle koko kuya kuchaphazela ukusebenza okuqhelekileyo kwesalathisi!
5. Uqhagamshelo olukude lomqondiso
Uhlobo B: I-13, i-14 ivalwe ngokuqhelekileyo, i-14, i-15 idla ngokuvula;
Umgangatho wephaneli yokulinganisa ubushushu kunye nesalathisi esiphosakeleyo sesekethe emfutshane
Umsebenzi ophambili
1. Isalathisi esifutshane se-alarm: Inzwa ye-short-circuit ibona i-current of line ngexesha lokusebenza.Xa umgca unesiphambeko esifutshane kwaye udibana neemeko zesigwebo esifutshane, uya kukhupha umqondiso oqinileyo.
2. Umyalelo wengxelo ye-Grounding: I-sensor ye-grounding ibona i-zero-sequence current yomgca ngexesha lokusebenza, kwaye xa i-grounding iphosakele kwi-line network, i-current fault current idlula ixabiso elibekiweyo lengxelo yangoku, kunye nomqondiso wengxelo. ikhutshiwe.
3. Isibonakaliso se-alamu yokushisa: Inzwa yeqondo lokushisa ibona ukushisa kwe-longitudinal yentloko yombane esondeleyo ngexesha lokusebenza, kwaye idlulisele kumphathi nge-fiber optical ngexesha elifutshane kakhulu.Xa iqondo lokushisa lombane lokudibanisa lifikelela okanye lidlula ixabiso le-alarm yokusetha iqondo lokushisa, umninimzi uya kukhupha i-alamu.Umqondiso, vala umfowunelwa.
4. Ubushushu kunye nomboniso wangoku: I-sensor ye-two-in-one ibeka iliso kwiqondo lokushisa kunye nokukhoyo kwendawo yokubeka iliso ngexesha lokusebenza, kwaye idlulisele kumamkeli nge-fiber optical kwi-frequency ethile.Emva kokuba umamkeli efumene lo mqondiso, ubonisa idatha kwisikrini se-LCD.
(Ngokusebenza ▲ kunye namaqhosha okuskrola phezulu nasezantsi ukujonga okwangoku kunye nobushushu besigaba ngasinye selitye).(umboniso wangoku umsebenzi ozikhethelayo)
I-5.I-super-super communication: Emva kokuba isalathisi sivelise isignali ye-alarm ye-short-circuit kunye ne-grounding indication, inokukhupha i-remote fault kunye nesimo sengozi ngekhebula lonxibelelwano lwe-RS485;xa kungekho siphoso, umthamo wangoku womgca kunye nokushisa kwendawo yokubeka iliso kuxelwa rhoqo kwikhompyutheni yokusingatha ngekhebula le-RS485.(ukhetho lokukhetha)
Iiparamitha zobuGcisa
1. I-alamu yesiphaluka esifutshane: i-50-1000A (i-factory setting) impazamo ± 5%;ukusetwa kwefektri: 600A
2. Ixesha elifutshane leempendulo zesekethe ye-overcurrent: 0.03-5S (i-factory setting);ukusetwa kwefektri: 0.2S
3. I-alamu yokunciphisa: 10-100A (ifektri inokusetwa) impazamo ye-10%;ukusetwa kwefektri: 20A
4. I-Grounding overcurrent response time: 0.03-5S (i-factory setting);ukusetwa kwefektri: 0.2S
5. I-alamu yokushisa ngaphezu kwe-alamu: 20-80 ° C (inokusetwa kwisayithi) impazamo ± 1 ° C;ukusetwa komzi-mveliso: 80°C
6. Ixesha lokusetha kwakhona ngokuzenzekelayo: 7S-48h (inokusetwa kumzi-mveliso);isethingi yefektri yile: 8h
7. Ukulinda okwangoku kumatshini wonke: ≤5uA
8. Inqanaba lokhuseleko olukhawulezileyo: umamkeli IP40;isivamvo IP65
9. Isekethe emfutshane yokumisa ireyiti ekude: 230V/AC-0.1A 30V/DC-1A
10. Ukutsiba ngaphezulu kobushushu funda umthamo woqhagamshelwano owomileyo: 230V/AC-0.1A 30V/DC-1A
11. I-alamu yobushushu obugqithisileyo: iziphumo zokuhanjiswa kwemijikelo emi-3 (umjikelo ngamnye yi-2S, usete i-750mS, seta kwakhona i-1250mS)
12. Ubuninzi bokumelana nombane we-short-circuit current current: 31.5KA/4S
13. Indawo yokusebenza: -25℃~+75℃;ubushushu obunxulumeneyo: ≤95%;manzi, ubungqina be-asidi, ubungqina betyuwa-nkungu
14. Umda wokusetyenziswa: kwiinkqubo ezingaphantsi kwe-20KV
Isibonakaliso se-alarm ye-fault fault: I-sensor ye-fault ye-fault ifakwe kwindawo engakhuselekanga ye-cable ye-bifurcation yesigaba sesithathu, kwaye ibona ixabiso langoku lokulandelelana kwe-zero ye-cable yesigaba sesithathu.Xa ixabiso lifikelela okanye lidlula umgangatho we-alam yesenzo sangoku (eli xabiso linokuthi ngokweemfuno zomsebenzisi, i-sensor ye-fault sensor yomhlaba ithumela isignali ye-alarm, kwaye umqondiso uthunyelwa kwi-host host nge-fiber optical, kwaye idanyaza yempazamo yomhlaba ukunika isalathisi.
Indlela yokufakela
1. Ukufakwa komgcini wesalathisi
Iyunithi ephambili yesalathisi ifakwe kwipaneli yangaphambili yekhabhinethi yokusabalalisa amandla
Ukususa iyunithi ephambili, kufuneka ucinezele i-shrapnel yensimbi kwi-casing engundoqo
Ubungakanani bomngxuma: 91.5mm (ukunyamezela: ± 0.3) × 43mm (ukunyamezela: ± 0.3)
2. Ufakelo lwesivamvo sempazamo esifutshane
Emva kokugubungela ikhebula ngentambo yentambo, faka izikhonkwane ezimbini zenzwa ecaleni kwendlela yokuvula ye-clamp.Emva kokudibanisa i-sensor kunye ne-clamp, ujikeleze i-screw eqinile kwi-clamp ukulungisa inzwa kwikhebula lesigaba.phezulu.I-sensor yesiphambeko esifutshane kufuneka ifakwe kwi-cable yesigaba sesebe somgca wokusabalalisa inethiwekhi yendandatho, kwaye kufuneka ifakwe ngokuqinileyo kumgca wentambo phantsi kovavanyo ukukhusela i-sensor kwi-sliding kwaye ibangele ukuba i-fiber optical interface ikhulule okanye iphule.
3. Ukufakwa kwenzwa yempazamo yomhlaba
Khulula isikrufu sendandatho yomqhubi wamagnetic, ujikeleze icandelo elingakhuselekanga lentambo yesigaba sesithathu, qinisa i-screw ye-tape yomqhubi, qinisa intambo yentambo kwi-sensor, kwaye uyilungise kwintambo yesigaba sesithathu ukuze ingabikho. ikhululwe
4. Ukudityaniswa kwefiber yesignali
Ukukhulula i-nut kwi-fiber socket, faka enye isiphelo sefiber emngxunyeni we-fiber socket, faka i-fiber ekupheleni ukuya ekupheleni, kwaye uqinise i-nut de i-fiber ayinakuxhunywa;esinye isiphelo sefiber sifakwe ngendlela efanayo kunye nemiyalelo Qhagamshela kwaye utshixe isokhethi yefiber optical ehambelanayo kwiyunithi ephambili.Ukudityaniswa kwee-sensor ezimbini kwi-host host kufuneka idibaniswe ngokuqinileyo ukukhusela ukukhulula kunye nokuwa, ukwenzela ukuba kuqinisekiswe ukusebenza okuqhelekileyo kwesalathisi.
Qaphela: Icandelo kwiiphelo zombini ze-fiber optical liphathwe ngokukodwa, kwaye umfakeli akufanele anqumle ngokufutshane ngokuthanda, ngaphandle koko kuya kuchaphazela ukusebenza okuqhelekileyo kwesalathisi!
5. Uqhagamshelo olukude lomqondiso
Uhlobo B: I-13, i-14 ivalwe ngokuqhelekileyo, i-14, i-15 idla ngokuvula;
6 ~ 35KV nonlinear resistor harmonic eliminator
Ingcaciso yeMveliso
Indawo engathathi hlangothi ye-6 ~ 35KV i-voltage ye-voltage ye-6 ~ 35KV yi-non-linear resistance elimination damper (ekubhekiswa kuyo njengesixhobo sokuphelisa i-harmonic), efakwe ku-Y ophambili ojikelezayo we-6 ~ 35KV i-voltage transformer (emva koku kuthiwa yi- i-voltage transformer okanye i-PT).Isixhobo sokudambisa i-harmonic esingenakunqanda ukuchasana phakathi kwendawo engathathi hlangothi yomgca we-junction kunye nomhlaba.Imodeli yemveliso ye-harmonic eliminator--imele i-rectangular harmonic eliminator eyenzelwe ngokwemilo yendabuko;imele uyilo lwesithathu olulungisiweyo, i-resistor surface ibonakaliswe, kwaye i-cylindrical shape harmonic eliminator ayifuni ukukhuselwa ngejacket ye-insulating.Ezi zimbini zahluke kuphela ngenkangeleko, kwaye ukusebenza kombane kuyafana ncam.
Iimpawu zombane ze-DC ze-6 ~ 35KV ze-harmonic eliminator zifana nezo ze-harmonic eliminator yendabuko, kodwa uyilo lolwakhiwo luphuculwe kakhulu kwimbono yokwandisa amandla obushushu be-harmonic eliminator.I-harmonic eliminator isebenzisa i-Sic eneempawu ezibalaseleyo zombane kunye neengqungquthela ze-ultra-fine njengesiseko sesiseko;icinezelwe kwi-high-density, umzimba ojikelezayo owenziwe yikhekhe ngomatshini omkhulu we-tonnage;kwindawo yokunciphisa umoya;itshiswa kubushushu obuphezulu bamawakawaka amaqondo obushushu..
Isakhiwo esivezwayo somchasi siphathwa ngokukodwa, esinokumelana nelanga kunye nemvula, kwaye sinokusetyenziswa ngokuthe ngqo ngaphakathi nangaphandle.Incinci ngobukhulu, ilula ngobunzima, ikhawuleza ekupheliseni ubushushu, inamandla amakhulu kwaye kulula ukuyifaka, kwaye ithandwa kakhulu phakathi kwabasebenzisi.
Ukusebenza kombane okuphambili
Ukupheliswa kweHarmonic kukusebenzisa i-6KV kunye ne-10KV njengemizekelo ngokubanzi, iiparamitha zokusebenza (Itheyibhile 1)
Inombolo yesiriyeli | Iprojekthi | 10(6)KV | 35KV | |
1 | Nge-AC 0.3mA | I-Voltage (V) incopho / 2 | 130+30 | 450+100 |
Incopho √2 yangoku | Ukuchasa (KΩ) | > 450 | >1800 | |
2 | Nge-AC 0.3mA | I-Voltage (V) incopho / 2 | 500+100 | 1400+150 |
Incopho √2 yangoku | Ukuchasa (KΩ) | >180 | >550 | |
3 | Ukutshintsha kwamandla ombane wombane kulo lonke uhlobo lwe-D resistor | Umda ngaphantsi kwe-3KV (incopho √2) | Ilinganiselwe kwi-5KV (incopho √2) okanye ngaphantsi | |
4 | Iiyure ezi-2 ukumelana namandla (W) | 1. Ngaphandle komonakalo ocacileyo 2. Ngaphambi nasemva kovavanyo lwesakhono sobushushu, utshintsho lwe-U0.3mAp kunye ne-3mAp<+10 | ||
5 | I-10min ngokusebenzisa umthamo we-500mA (ixabiso elisebenzayo) | 1. Ngaphandle komonakalo ocacileyo 2. Ngaphambi nasemva kovavanyo lwesakhono sobushushu, utshintsho lwe-U0.3mAp kunye ne-3mAp<+10 |
Iiparameters eziphambili zokusebenza kwe-6-35KV harmonic eliminator (Itheyibhile 2)
Inombolo yesiriyeli | Iprojekthi | 6, 6D | 10, 10D | 35,35D | |
1 | Nge-AC 1mA | I-Voltage (V) incopho / 2 | 170-210 | 280+350 | 840+1050 |
(incopho √2) | Ukuchasa (KΩ) | >170 | >280 | >840 | |
2 | Nge-AC 10mA | I-Voltage (V) incopho / 2 | 480-600 | 800-100o | 2100-2625 |
(incopho √2) | Ukuchasa (KΩ) | >48 | >80 | >210 | |
3 | Ukutshintsha kwamandla ombane wombane kulo lonke uhlobo lwe-D resistor | Kwi-3KV (i-peak / 2), ixabiso lokumelana liyancipha ngaphezu kwesiqingatha | Kwi-3KV (i-peak / 2), ixabiso lokumelana liyancipha ngaphezu kwesiqingatha | Kwi-5KV (i-peak / 2), ixabiso lokumelana liyancipha ngaphezu kwesiqingatha | |
4 | Iiyure ezi-2 ukumelana namandla (W) | >800 | >800 | >800 | |
5 | I-10min ngokusebenzisa umthamo we-500mA (ixabiso elisebenzayo) | 1. Ngaphandle komonakalo ocacileyo 2. Utshintsho lwe-U0.3mAp kunye ne-U3mAp phambi nasemva kovavanyo lomthamo wobushushu, <+10 |
Ukukhethwa kweemodeli ze-harmonic eliminator
Imodeli efanelekileyo ye-transformer - ifakwe ngokupheleleyo | Ifanelekile imodeli ye-voltage transformer kunye nohlobo (D) uhlobo, i-insulation yesiqingatha |
6, 10 35 | 6,10 UNE10,35 |
6, 10 35 | 6,10;35G UNE10 |
6, 10 35 | 6,10,35G UNE10,35 |
6, 10 35 | 6,10 UNE10 |
6, 10G 35 | 6,10,35 UNE35 |
6, 10 35 | -6, 10 |
6, 10 35 | ·6,10 |
I-6 ~ 35KV i-Harmonic Eliminator Ukusetyenziswa kwemekobume
1. Ngaphandle, ifakwe kwicala elikufutshane le-transformer yoxinzelelo.Nangona i-harmonic eliminator inomsebenzi wobungqina bemvula, akufanele ibonakale ngokuthe ngqo kwilanga kunye nemvula;
2. Ubushushu be-Ambient -40℃
3. Ukuphindaphinda kwenkqubo yamandla onyawo yi-50HZ okanye i-60HZ;
Isigaba sesithathu sesigaba sesine esidityanisiweyo sesikhuseli sombane (isibambisi esidibeneyo) 6KV, 10KV, 35KV
Inkqubo ye-35KV
Igama lemveliso | imodeli yemveliso | umsebenzi osisiseko | izimvo | |
Isixhobo sokubonisa i-high-voltage live | I-DXN-T | Ngohlobo olukhawulezayo | Umngxuma ovulekileyo yi-102mm * 72mm OKANYE 91mm * 44mm | |
I-DXN-Q | Uhlobo lokutshixa olunyanzelekileyo | Umngxuma ovulekileyo yi-102mm * 72mm OKANYE 91mm * 44mm | ||
I-DXN-T (isigaba senyukliya) | Ngohlobo olukhawulezayo lokuhlola umbane | Umngxuma ovulekileyo yi-102mm * 72mm OKANYE 91mm * 44mm | ||
I-DXN-Q (isigaba senyukliya) | Uhlobo lokutshixa olunyanzelwe ngovavanyo lombane | Umngxuma ovulekileyo yi-102mm * 72mm OKANYE 91mm * 44mm | ||
I-D XN-Q (kunye nesigaba sokuzijonga senyukliya) | Ngokuhlolwa kwamandla okuhlola ukuzihlola | Umngxuma ovulekileyo yi-102mm * 72mm OKANYE 91mm * 44mm | ||
I-D XN-Q (kunye nesigaba sokuzijonga senyukliya) |
Ngokuzijonga | Umngxuma ovulekileyo yi-102mm * 72mm OKANYE 91mm * 44mm | ||
I-L-6T (isigaba senyukliya) | Ngohlobo olukhawulezayo lokuhlola umbane | Umngxuma ovulekileyo yi-55mm * 32mm | ||
I-L-6Q (isigaba senyukliya) | Uhlobo lokutshixa olunyanzelwe ngovavanyo lombane | Umngxuma ovulekileyo yi-55mm * 32mm |