GDTL AC Resonant Test System don Generators
GDTL jerin AC resonant Test System for Generators za a iya amfani da ta hanyar daidaita inductance na reactor, ko daidaita aikin hanyar resonant mita na tsarin a cimma resonance.Ana iya amfani da hanyoyi guda biyu don cimma daidaituwa.A cikin tsarin haɓaka ƙarfin lantarki, idan ma'anar resonant ya ɓace, ana iya samun shi daidai ta hanyar madaidaiciyar daidaitawa mai kyau, wanda ke tabbatar da ƙimar Q mai girma kuma yana rage ƙarfin wutar lantarki da girman nauyin kayan gwaji.
●Karamin girman, nauyi mai nauyi idan aka kwatanta da matakin ƙarfin lantarki iri ɗaya, janareta ƙarfin ƙarfin AC ɗaya yana jure kayan gwajin ƙarfin lantarki. Kayan aiki ɗaya bai wuce 60kg ba, sauƙin motsawa.
●Babban ƙa'idar gabaɗayan saiti na na'urar da sabon mitar & inductance fasahar daidaitawa, tabbatar da tabbatar da mitar wutar lantarki ta jure buƙatun gwajin ƙarfin lantarki.Faɗin aikace-aikace.
●Sanye take da madaidaicin tushen sarrafawa na 20Hz-300Hz.Kyakkyawan karewa da siginar fitarwa, babban kwanciyar hankali.Tare da yanayin aiki da yawa, mai sauƙin aiki.
●Samar da wutar lantarki na 220V ko 380V, dacewa don samun wutar lantarki a kan yanar gizo.
●Za'a iya samun ma'anar Max.Q daidai ta yanayin yanayin haɓakar inductance na farko da haɓaka mitar mita daga baya, don guje wa karkacewar rawa saboda haɓakar ƙarfin lantarki;
●Tsarin sassauƙa da ƙarfi mai ƙarfi.Haɗu da duk buƙatun gwajin abu mai ƙarfi a cikin tsarin wutar lantarki.
●Yanayin gwajin mitar wuta ko Yanayin gwajin mitar mai canzawa.
●Multi-amfani, tsada-tasiri.
●Rated fitarwa ƙarfin lantarki: 0 ~ 50kV (RMS) ko kasa.
●Mitar fitarwa: 45 - 300Hz.
●Waveform: tsantsar kalaman sine, THD ≤ 1%.
●Max.iya aiki: 2000kVA ko kasa.
●Zagayowar aiki: ci gaba da aiki 15mins lokaci ɗaya a cikakkiyar fitarwa.
●Matsayi mai inganci: 10 - 40.
●Matsakaicin daidaitawa akai-akai: 0.1HZ, rashin kwanciyar hankali na <0.05%.
●Ƙarfin wutar lantarki: 220V ko 380V ± 15%, 50HZ ± 5%.
GDTF- 100/50 | |
Wutar shigar da wutar lantarki (V) | 380 |
Wutar lantarki (kV) | 0-50 |
iya aiki (kVA) | 100 |
Iyakar aikace-aikace | Janareta - iyawa zuwa ƙasa 0.07-0.13 μF |
10kV (300 mm²) na USB ≤ 1 km | |
Babban daidaitawa | 50kV/1A Kafaffen reactor 1 saiti |
50kV/1A Daidaitacce reactor 1 saiti | |
Mai rarraba capacitive 50kV | |
GDTF-150/50 | |
Wutar shigar da wutar lantarki (V) | 380 |
Wutar lantarki (kV) | 0-50 |
iya aiki (kVA) | 150 |
Iyakar aikace-aikace | Janareta - iyawa zuwa ƙasa 0.13-0.2 μF |
10kV (300 mm²) na USB ≤ 1.5 km | |
Babban daidaitawa | 50kV/1.5A Kafaffen reactor 1 saiti |
50kV/1.5A Daidaitacce reactor 1 saiti | |
Mai rarraba capacitive 50kV | |
GDTF- 225/50 | |
Wutar shigar da wutar lantarki (V) | 380 |
Wutar lantarki (kV) | 0-50 |
iya aiki (kVA) | 225 |
Iyakar aikace-aikace | Generator - iyawa zuwa ƙasa 0.2-0.27 μF |
10 kV (300 mm ²) na USB ≤ 2.5 km | |
Babban daidaitawa | 50kV/1.5A Kafaffen reactor 2 saiti |
50kV/1.5A Daidaitacce reactor 1 saiti | |
Mai rarraba capacitive 50kV | |
GDTF-360/60 | |
Wutar shigar da wutar lantarki (V) | 380 |
Wutar lantarki (kV) | 0-60 |
iya aiki (kVA) | 360 |
Iyakar aikace-aikace | Janareta - iyawa zuwa ƙasa 0.27-0.33 μF |
Babban daidaitawa | 60kV/2A Kafaffen reactor 1 saiti |
60kV/2A Daidaitacce reactor 1 saiti | |
Mai rarraba capacitive 60kV |