| Muhimmiya | Switchgear parts |
| Model NO. | kungiyar takardunari na gida da ake kula da yanayi (yanayin 3 tsakiyar sako 1 tsakiyar rage) |
| Rated Frequency | 50/60Hz |
| Vọltaji na gbanarwa | 405VDC/220VDC |
| Vọltijin gida | 380V |
| Kpamshi | 6kVA |
| Siri | HBD |
Fadadau na Aikin
Takardar da tarihin kontrolloji na bin yanar gizo
Amfani da microcontrollers na Intel mai kawo karfi da wurare da ake baka don inganta takarda, siffar parametoci, gidan aiki, mulkin aiki, fayoyi masu sauki da shirya, zan iya yi shirya da tafiya aiki game da duk cikin takarda. Zan iya amfani da sine wave voltage da ake haɗa da yawa da hanyar aiki mai kyau don tabbatar da aikin.
Takarda mai kyau na IGBT (Insulated Gate Bipolar Transistor)
IGBT na da muhimmanci ga kawo karfin takarda; Na da muhimmanci ga kawo karfi da kawo rafin; Amfani da takarda ta tsakanin fasalin, ba a bukata cewa ana buƙacewa da yawa. An ambaci IGBT na sadarwa ne da kuma nasara aiki mai kyau, da kuma nasarorin masu kyau.
Muhimmancin aiki na zama
Ana bayyana daidai daga 0 zuwa 100% aiki baya da kuma kiyaye da aiki mai kyau da kuma daidai.
Takarda mai kyau na LCD mai yawan takarda da Turanci da Sinanci
Yawan takarda na nuna menu a Turanci da Sinanci, da flow chart mai kyau wanda ya nuna halin aiki, tare da aiki mai kyau ga mutanen aiki. Tushen LED mai kyau, nuna halin aiki, da kuma bayyana daidai.
Muhimmancin aiki na zama
An amfani da feedback controls kamar instantaneous control da effective value don inganta takarda na zama da kuma rage output voltage distortion.
Muhimmancin babban aiki
An samun aiki da alarami kamar input/output overvoltage protection, input surge protection, phase sequence protection, battery low voltage protection, output overvoltage protection, da kuma high temperature protection.
Gaskiya na batte
Gaskiya na batte: An amfani da charging parameters na batte don ake adana batte, kuma an yi equalization da float charging conversion, temperature compensation charging and discharging management ga batte. Yanke mafi girma na batte da kuma rage abinda ga masu mulki.
Amfani da charger na rectifier da 6-pulse (zai iya 12 pulse) tare da filter na harmonic
Yanke mafi girma na harmonic pollution, inganta power factor na UPS, da kuma rage input harmonic current.
mulkin aiki mai kyau
RS232 da RS485 communication ports suna bayyana aiki mai kyau da kuma mulkin aiki mai kyau. Zai iya amfani da SNMP card don mulkin aiki mai kyau da kuma network management; Zai iya amfani da dry contact interface, amfani da passive contacts don kawo karfi halin UPS.
Fanin aiki
Zai iya amfani a finansu, telekomunikasshi, securities, tax, transport, insurance, gwamnati, building lighting, road traffic lighting, electricity, da kuma industrial and mining enterprises.
Siffar Parametoci
| Model | HBD-6KS | HBD-10KS | HBD-15KS | HBD-20KS | HBD-30KS | HBD-40KS | HBD-50KS | HBD-60KS | HBD-80KS |
|---|---|---|---|---|---|---|---|---|---|
| Nominal Capacity | 6KVA | 10KVA | 15KVA | 20KVA | 30KVA | 40KVA | 50KVA | 60KVA | 80KVA |
| Working Mode and Principle | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology | Online Power Supply, Static Bypass Switch (No-break Switching), Double Conversion Technology |
| AC Input | |||||||||
| Phase Number | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) | Three Phase (A, B, C+N+G) |
| Input Nominal Voltage | 380 VAC | 380 VAC | 380 VAC | 380 VAC | 380 VAC | 380 VAC | 380 VAC | 380 VAC | 380 VAC |
| Input Voltage Range | ± 25% | ± 25% | ± 25% | ± 25% | ± 25% | ± 25% | ± 25% | ± 25% | ± 25% |
| Nominal Frequency | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% | 50Hz ± 10%, 60Hz ± 10% |
| Voltage Harmonic Distortion | <5% | <5% | <5% | <5% | <5% | <5% | <5% | <5% | <5% |
| Soft Start | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec | 0~100% 5sec |
| Battery (Maintenance-free Lead-acid Battery) | |||||||||
| Nominal Voltage | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC | 360VDC/192VDC |
| Quantity Unit | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) | 30 cells/12V in series (16 cells/12V in series) |
| Charging | |||||||||
| Maximum Output Voltage | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC | 405VDC/220VDC |
| Float Voltage | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) | 405VDC/220VDC (Automatic Battery Equalization Once Every 3 Months, Charging Voltage 435VDC/232VDC) |
| Microcomputer-set Charging Current | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) | 1A~50A (Automatically Adjusted to 0.1C According to Battery Capacity) |
| AC Output | |||||||||
| Rated Power (KW COSφ=0.8) | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 | Nominal Power × 0.8 |
| Phase Number | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) | Single Phase (L+N+G) |
| Nominal Phase Voltage | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) | 220VAC ± 1% (Stable Load), 220VAC ± 5% (Load Fluctuation) |
| Nominal Frequency | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) | 50Hz ± 0.1% (Battery Power Supply) |
| Frequency Stability: Asynchronous | < ± 0.1% | < ± 0.1% | < ± 0.1% | < ± 0.1% | < ± 0.1% | < ± 0.1% | < ± 0.1% | < ± 0.1% | < ± 0.1% |
| Frequency Stability: Synchronous | < ± 5% | < ± 5% | < ± 5% | < ± 5% | < ± 5% | < ± 5% | < ± 5% | < ± 5% | < ± 5% |
| Crest Factor | 3: 1 | 3: 1 | 3: 1 | 3: 1 | 3: 1 | 3: 1 | 3: 1 | 3: 1 | 3: 1 |
| Output Waveform | Sine Wave | Sine Wave | Sine Wave | Sine Wave | Sine Wave | Sine Wave | Sine Wave | Sine Wave | Sine Wave |
| Total Harmonic Distortion | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% | Linear Load < 3%; Non-linear Load < 5% |
| Operating Temperature | 0~40℃ | 0~40℃ | 0~40℃ | 0~40℃ | 0~40℃ | 0~40℃ | 0~40℃ | 0~40℃ | 0~40℃ |
| Relative Humidity | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) | 30%~90% (No Condensation) |
| Operating Altitude | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) | < 1000 meters (Power Drops by 1% for Every 100 Meters Increase, Maximum 3000 Meters) |
| Options | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements | RS485 Network Adapter (SNMP) / Cabinet Size Can Be Designed According to Requirements |
| Dimensions (W×D×H) mm | 390×659×860 | 430×760×1350 | 710×720×1450 | 710×850×1500 | - | - | - | 1100×860×1680 | - |
| Main Unit Weight | 150 | 199 | 220 | 305 | 380 | 480 | 566 | 590 | 986 |
Lura: Model da batariya na cikin shi da sadarwa masu harkokin sana'a zai iya a gane kamar yadda aka son, kuma bayanai akan ra'ayin tushen za a ba.
① Annabi da gaba: Tuka shiga karamin abincin yaduwar, ko koyar da takaice da kyau; ② Annabi da hada: Tuntubi hanyar shiga har zuwa biyu, koyar da kayan aiki ko koyar da shiga; ③ Annabi na batari: Koyar da tafkin zuwa sadde 12 lokaci, koyar da batari masu shekaru daga cikin karfin annabi; ④ Kyakkyawan fadada shiga: Tuntubi hanyar shiga, saki IEE-Business (koyar da shiga da koyar da tushen bayan 5 daqiqo); ⑤ Annabi da tsayi na muhimmanci: Yau daidai, tuntubi hanyar shiga da koyar da shiga, tuntuɓi masu aiki don in yi rawa.
Amsa da ita ce ta aiki na iya a hanyar zama shirya kuli mai gaba-gabanci uku a kan tushen mai gaba-gaban da yake da kyau, wanda ke taimakawa da aiki mai zurfi da ba a yi inganta ba, da aiki mai gaba-gaban da ba a yi inganta ba don jihohin kuli mai gaba-gaban da yake da kyau duk da cewa an samun abubuwan da ke faruwa a kan tushen mai gaba-gaban kamar yanayin tsawon kuli, yanayin alamomin faruwa, da kuma yanayin samun aiki. Yadda ita ce: Aiki mai biyu (AC-DC-AC) + tsarin alamar faruwar da take da kyau. Idan tushen mai gaba-gaban ya fi dace, zai a yi shirya kuli mai gaba-gaban uku a kan DC don a gina batare, sannan zai a yi shirya kuli mai gaba-gaban da yake da kyau a kan AC mai gaba-gaban da yake da kyau don a taimaka masu aiki; idan tushen mai gaba-gaban ya jawo, zai a yi shirya kuli mai gaba-gaban batare da lambar 0ms.
