Iimbonakalo
1.Ukusebenzisa i-CPU enikezelwe ngeemoto ezinama-32-bit, ene-frequency ephezulu yokuchaneka, kunye nokusombulula ukuya kuthi ga kwi-0.01Hz.
2. Iza ne-PLC elula kunye nemisebenzi yolawulo lwe-PID.
3. Ngemo yokulawula i-vector kunye ne-V / F yokulawula imo, ifanelekile kwiimeko ezahlukeneyo zokusebenza.
4. Isantya esiphantsi esilinganisiweyo sokukhupha i-torque yi-0.5 Hz, kunye ne-180% ye-torque elinganisiweyo inokukhupha xa uqala.
5. Ngokuhlengahlengisa umbane ngokuzenzekelayo, ukulandelela rhoqo kuqala xa kumiswa kwangoko.
6. Ngomsebenzi wokulawula isantya esiphezulu, isithuthi esihamba rhoqo sihlengahlengiswa.
7. Ngemisebenzi emininzi yokukhusela isiphoso kwiimeko ezinjenge-overvoltage, undervoltage, overheating, low temperature, overcurrent, overload, lack and etc.
8. Imisebenzi yobutyebi eyenzelwe wena
1.Ntsebenzo egqwesileyo: ukuqonda ulawulo lweemoto olunamandla kunye nokusebenza okuphezulu kwitekhnoloji yolawulo lwevektha
2. Ukuma kwangoko kunye nokungayeki: Kwimeko yokungaphumeleli kwamandla, amandla ombuyekezo womthwalo asetyenziselwa ukubuyekeza ukwehla kwamandla ombane, kwaye inverter inokuqhubeka nokuqhuba ixesha elifutshane emva kokuphelelwa ngamandla
4. Ukunciphisa ngokukhawuleza kwangoku: thintela rhoqo iimpazamo ezikhoyo ze-VFD
5.I-Virtual IO: Amaqela amahlanu e-DIDO ebonakalayo, anokuqonda ulawulo olula lwengqondo
Umsebenzi wolawulo lwexesha: setha ixesha kuluhlu lwe-0.0Min ~ 6500.0Min
7. Ukutshintsha kwemoto ezininzi: iiseti ezimbini zeeparameter zemoto zinokuqonda ukutshintsha kolawulo lweemoto ezimbini
8. Inkxaso yebhasi enemisonto emininzi: Modbus, Profibus-DP, CANlink, CANopen
9. Ukukhuselwa kobushushu kwimoto: ukhetho lwe-IO khadi loku-1, igalelo le-analog AI3 kunye negalelo lobushushu beemoto (PT100, PT1000)
10. Inkxaso yeekhowudi ezininzi: umahluko wenkxaso, umqokeleli ovulekileyo, i-UVW, isisombululo, i-sine kunye ne-cosine encoders
11. Umsebenzisi onokucwangciswa: ikhadi lomsebenzisi elinokucwangciswa elinokufezekiswa linokuqonda ukukhula okuphezulu, kwaye inkqubo yokwenza iyahambelana neLingshida's PLC
Isoftware enemvelaphi enamandla: ixhasa ukusebenza kweparameter ye-inverter kunye nokusebenza kwe-oscilloscope ebonakalayo. Ngokusebenzisa i-oscilloscope ebonakalayo, imeko yangaphakathi ye-inverter inokujongwa ngokwemizobo
Inqanaba leVoltage |
imodeli |
Ikaliwe amandla (KVA) |
Isiphumo sangoku (A) |
Imoto eguqulweyo |
indlela emiselweyo |
|
KW |
HP |
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Isigaba esinye se-110V |
XCD- E5100-0.4K |
0.4 |
4.5 |
0.4 |
0.5 |
Ukuxhonywa eludongeni |
XCD- E5100-0.75K |
0.75 |
8.2 |
0.75 |
1 |
Ukuxhonywa eludongeni |
|
XCD- E5100-1.5K |
1.5 |
16 |
1.5 |
2 |
Ukuxhonywa eludongeni |
|
XCD- E5100-2.2K |
2.2 |
23.5 |
2.2 |
3 |
Ukuxhonywa eludongeni |
|
XCD- E5100-3.7K |
3.7 |
40 |
3.7 |
5 |
Ukuxhonywa eludongeni |
|
Isigaba se-VSingle 220V |
XCD- E5200-0.75K |
0.75 |
4.8 |
0.75 |
1 |
Ukuxhonywa eludongeni |
XCD- E5200-1.5K |
1.5 |
7.5 |
1.5 |
2 |
Ukuxhonywa eludongeni |
|
XCD- E5200-2.2K |
2.2 |
11 |
2.2 |
3 |
Ukuxhonywa eludongeni |
|
XCD- E5200-3.7K |
3.7 |
17.5 |
3.7 |
5 |
Ukuxhonywa eludongeni |
|
XCD- E5200-5.5K |
5.5 |
22.5 |
5.5 |
8 |
Ukuxhonywa eludongeni |
|
XCD- E5200-7.5K |
7.5 |
30 |
7.5 |
10 |
Ukuxhonywa eludongeni |
|
XCD- E5200-11K |
11 |
40 |
11 |
15 |
Ukuxhonywa eludongeni |
|
Amanqanaba amathathu 380V |
XCD- E5400-0.75K |
0.75 |
2.5 |
0.75 |
1 |
Ukuxhonywa eludongeni |
XCD- E5400-1.5K |
1.5 |
3.8 |
1.5 |
2 |
Ukuxhonywa eludongeni |
|
XCD- E5400-2.2K |
2.2 |
5.1 |
2.2 |
3 |
Ukuxhonywa eludongeni |
|
XCD- E5400-3.7K |
3.7 |
9.0 |
3.7 |
5 |
Ukuxhonywa eludongeni |
|
XCD- E5400-5.5K |
5.5 |
13 |
5.5 |
8 |
Ukuxhonywa eludongeni |
|
XCD- E5400-7.5K |
7.5 |
17 |
7.5 |
10 |
Ukuxhonywa eludongeni |
|
XCD- E5400-11K |
11 |
25 |
11 |
15 |
Ukuxhonywa eludongeni |
|
XCD- E5400-15K |
15 |
32 |
15 |
20 |
Ukuxhonywa eludongeni |
|
XCD- E5400-18.5K |
18.5 |
37 |
18.5 |
24 |
Ukuxhonywa eludongeni |
|
XCD- E5400-22K |
22 |
45 |
22 |
30 |
Ukuxhonywa eludongeni |
Ukucaciswa kwemodeli ye-inverter | Igalelo ombane | D (mm) | D1 mm mm | L mm mm | I-L1 (mm) | K mm mm | Ukucacisa isikulufu |
XCD-E5000-0.75KW-15KW | 380V | 166.3 | 248 | 148 | 235 | 188 | M6 |
Uluhlu lwevolthi yokufaka |
110V / 220V / 380V ± 15% |
Uluhlu lokufaka rhoqo |
50- 60Hz |
|
Uluhlu lwevolthi yemveliso |
0V, ulinganise umbane wokufaka |
Iziphumo zokuhamba rhoqo |
0 ukuya kwi-500Hz |
|
Ukuhamba rhoqo |
0.5K, 16.0KHz |
Uluhlu lwamandla |
0.4 ~ 22.0KW |
|
indlela yokulawula |
Vula ulawulo lwevektha evulekileyo ulawulo lwevektha evaliweyo (FVC), ulawulo lweV / F |
|||
Uluhlu lwezantya |
1: 100 (i-SVC) |
1: 1000 (FVC) |
||
Ulawulo lwejog |
Uluhlu lwejog yokuhamba rhoqo: 0.00Hz ~ 50.00Hz, ukukhawulezisa iJog kunye nexesha lokuncipha: 0.0S ~ 6500.0S |
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indlela yonxibelelwano |
Inkxaso yonxibelelwano ye-RS-485 yenethiwekhi kunye nonxibelelwano lwe-CANLINK |
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Umthamo omkhulu |
I-115% yemoto ikaliwe ngoku ukuya kuthi ga kwimizuzwana engama-4800 imizuzwana engama-245% iimoto ezilinganisiweyo ngoku ukuya kwimizuzwana eli-10 |
|||
Ukucwangciswa kwegalelo le-analog kunye nemveliso |
Igalelo lamandla ombane ayi-0, 10V, 0, 20mA igalelo langoku Iziphumo ezi-0, 10V ze-analog voltage 0, 20mA imveliso yangoku ye-analog |
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Igalelo ledijithali kunye nemveliso |
Ukuya kuthi ga kwi-10 yegalelo lemisebenzi emininzi yesiphelo, 1 isantya esiphezulu sokukhutshwa kwempembelelo Iziphumo ezi-2 zokuqokelela bipolar ezivulekileyo, iziphumo ezi-1 zokuhanjiswa kwakhona |
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I-PLC elula, umsebenzi wolawulo lwezantya ezininzi |
Qaphela ukusebenza kwejubane ezili-16 ngokusebenzisa i-PLC eyakhelwe ngaphakathi okanye i-terminal yolawulo |
Ukusetyenziswa kweMveliso
Imveliso yesicelo semveliso yeXCD-E5000:
Ukwenza iphepha, ukutya, ifeni, impompo yamanzi, impahla eyolukiweyo, ushicilelo, amayeza, ubhedu, ushicilelo kunye nokudaya, ukupakisha, oomatshini bokwenza izinto kunye namanye amashishini