mababang pagsusunod na online UPs power supply (3phase input 1phase output)
Mga Pangunahing Katangian
| Brand | Switchgear parts |
| Numero ng Modelo | mababang pagsusunod na online UPs power supply (3phase input 1phase output) |
| Larawan na Pagsasahimpapawid | 50/60Hz |
| Lalabas na voltaje | 405VDC/220VDC |
| Tensyon ng Input | 380V |
| Kapasidad | 10kVA |
| Serye | HBD |
Mga Deskripsyon ng Produkto mula sa Supplier
Mga Katangian ng Produkto
Pamamahala sa teknolohiyang digital na may kakayahang mag-isip
Gamit ang mabilis na microcontroller ng Intel at mga device ng programmable logic upang makamit ang kontrol ng circuit, pagtakda ng parametro, pamamahala ng operasyon, advanced na self-test at self-detection functions, ito ay maaaring gumawa ng self-test at fault analysis sa lahat ng independiyenteng koneksyon ng circuit sa circuit board. Maaari kang maging buong tiwala sa sine wave voltage na naidigital at bagong solusyon para sa perpektong operasyon upang mapasado ang iyong aktwal na pangangailangan.
Epektibong teknolohiya ng IGBT (Insulated Gate Bipolar Transistor) inverter
Ang IGBT ay may kahanga-hangang high-speed switching characteristics; Mayroong mga katangian ng mataas na voltag at malaking current; Gamit ang voltage type drive, kailangan lamang ng maliit na control power. Ang ika-anim na henerasyon ng IGBT ay may mas mababang saturation voltage drop, mas mataas na inverter efficiency, at mas mataas na reliabilidad.
Pinakamahusay na load characteristics
Nakakapagbibigay ng buong pagsasalin mula sa 0 hanggang 100% load nang hindi nagbabago sa bypass, at protektahan ang stable at maaswang output.
Humanized na malaking LCD display sa Chinese at English
Ang malaking screen ay nagpapakita ng menu sa Chinese at English, na may malinaw na flow chart na nagpapakita ng operational status, na nagbibigay-daan sa flexible na pag-implementa ng mga function ng human-machine dialogue. Intuitive na LED status indication, workflow style na status indication, malinaw sa isang tingin.
Mataas na performance dynamic characteristics
Ang multiple feedback controls tulad ng instantaneous control at effective value ay ginagamit upang makamit ang mataas na dynamic regulation at bawasan ang distortion ng output voltage.
Kompletong function ng proteksyon
Ang multiple system protection at alarm functions, kasama ang input/output overvoltage protection, input surge protection, phase sequence protection, battery low voltage protection, output overvoltage protection, at high temperature protection.
Intelligent na pamamahala ng battery
Intelligent na charging ng battery: Automatic adjustment ng charging parameters ng battery batay sa configuration ng battery ng user, at paggawa ng equalization at float charging conversion, temperature compensation charging at discharging management sa battery batay sa environment ng power supply. Paghahaba ng lifespan ng battery at pagbawas ng burden sa mga administrator.
Paggamit ng 6-pulse (optional 12 pulse) rectifier charger habang idinadagdag ang input harmonic filter
Epektibong supresyon ng input harmonic pollution, pagpapabuti ng input power factor ng UPS power supply, at pagbawas ng input harmonic current.
intelligent monitoring
Ang RS232 at RS485 communication ports ay tunay na nagbibigay ng multi-purpose communication at remote monitoring. Optional na SNMP card para sa remote monitoring at network management; Optional na dry contact interface, gamit ang passive contacts upang monitorin ang status ng UPS.
Larangan ng Application
Sapat para sa mga industriya tulad ng finance, telecommunications, securities, taxation, transportation, insurance, government, building lighting, road traffic lighting, electricity, at industrial at mining enterprises.
Tehnikal na Specifications
| 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 |
Pansin: Ang modelo na may nakabultong baterya at espesyal na mga pangangailangan sa voltihe ay maaaring pasadyahan batay sa aktwal na kalagayan ng user, at isusunod ang hiwalay na presyo.
① Overload alarm: Unplug non-essential single-phase loads, or replace with a larger capacity UPS; ② Phase loss alarm: Check 3-phase input wiring, repair loose or disconnected cables; ③ Battery low alarm: Charge continuously for 12 hours, replace aging batteries if the alarm persists; ④ Output voltage abnormal: Check output wiring, reset UPS (disconnect power and restart after 5 minutes); ⑤ Transformer overheating: Stop using immediately, check ventilation and load, contact after-sales for maintenance.
① Alarm ng sobrang bigat: Itakda ang mga hindi mahalagang singko-pase na pag-load, o palitan ito ng mas malaking kapasidad na IEE-Business; ② Alarm ng nawawalang pase: Suriin ang pag-wire ng 3-pase input, ayusin ang mga maluwag o nai-disconnect na kable; ③ Alarm ng mababang baterya: Puksain nang walang tigil sa loob ng 12 oras, palitan ang mga lumang baterya kung patuloy ang alarm; ④ Abnormal na output voltage: Suriin ang pag-wire ng output, i-reset ang IEE-Business (i-disconnect ang power at i-restart pagkatapos ng 5 minuto); ⑤ Sobrang mainit ng transformer: I-stop ang paggamit agad, suriin ang ventilation at load, makipag-ugnayan sa after-sales para sa maintenance.
Ang pangunahing punsiyon nito ay maging paglipat ng 3-phase mains power sa matatag na 1-phase power, nagbibigay ng walang paghihiwalay at malinis na kuryente para sa single-phase critical loads habang inaasikaso ang mga problema sa mains tulad ng pagbabago ng voltage, harmonic interference, at power outage. Prinsipyo ng paggawa: Pagsasama ng double conversion (AC-DC-AC) + disenyo ng low-frequency transformer. Kapag normal ang mains, ang 3-phase AC ay inililipat sa DC upang kargahan ang battery, pagkatapos ay inililipat ang DC sa 1-phase pure sine wave AC para sa suplay ng load; kapag nabigo ang mains, ito ay lumilipat sa battery power na may 0ms transfer time,
Mga Produkto na May Kaugnayan
-
Mataas na peryodyong online na suplay ng kuryente (Single phase/220V)
-
Mataas na porsyentong on-ine UPs na suplay ng kuryente (3Phase Input1Phase output)
-
Mataas na pagsasanay sa online (rack type) uPs power supply
-
Mataas na porsyentong on-line UPs (3 phase in at 3 phase out)
-
mababang frequency on-line UPs power supply (single phase 220V)
-
Mababang peryodyong on-line na suplay ng kuryente ng UPs (3-phase in at 3-phase out)
-
Modular na UPS na walang pagkakatigil ng supply ng kuryente
Kaalamayan na may Kaugnayan
-
Pagsabog ng DC Bias sa mga Transformer sa mga Ispesyal na Estasyon ng Renewable Energy Malapit sa mga UHVDC Grounding ElectrodesPagsasalamin ng DC Bias sa mga Transformer sa mga Ilog ng Renewable Energy malapit sa UHVDC Grounding ElectrodesKapag ang grounding electrode ng isang Ultra-High-Voltage Direct Current (UHVDC) transmission system ay nasa malapit sa isang ilog ng renewable energy power station, ang bumabalik na kuryente na lumilipad sa lupa ay maaaring magdulot ng pagtaas ng ground potential sa paligid ng lugar ng electrode. Ang pagtaas ng ground potential na ito ay nagdudulot ng paglipat ng neutral-point potenti01/15/2026 -
HECI GCB para sa Mga Generator – Mabilis na SF₆ Circuit Breaker1. Paglalarawan at Paggamit1.1 Tungkulin ng Generator Circuit BreakerAng Generator Circuit Breaker (GCB) ay isang kontroladong punto ng paghihiwalay na matatagpuan sa pagitan ng generator at ng step-up transformer, na nagbibigay ng interface sa pagitan ng generator at ng grid ng kuryente. Ang mga pangunahing tungkulin nito ay kasama ang paghihiwalay ng mga pagkakamali sa gilid ng generator at pagbibigay ng operasyonal na kontrol sa panahon ng sinkronisasyon ng generator at koneksyon sa grid. Ang01/06/2026 -
Pagsusuri Pagsisiyasat at Pagmamanila ng Distribution Equipment Transformer1.Pagsasagawa ng Pagsasanay at Pagsusuri sa Transformer Buksan ang low-voltage (LV) circuit breaker ng transformer na isusuri, alisin ang control power fuse, at ilagay ang panginginabot na "Huwag I-sarado" sa handle ng switch. Buksan ang high-voltage (HV) circuit breaker ng transformer na isusuri, isara ang grounding switch, buong idischarge ang transformer, i-lock ang HV switchgear, at ilagay ang panginginabot na "Huwag I-sarado" sa handle ng switch. Para sa pagsasanay ng dry-type transformer:12/25/2025 -
Paano Subukan ang Resistance ng Insulation ng mga Distribution TransformersSa praktikal na trabaho, karaniwang sinusukat nang dalawang beses ang paglaban sa kuryente (insulation resistance) ng mga distribution transformer: ang paglaban sa kuryente sa pagitan ng mataas na boltahe (HV) na winding at mababang boltahe (LV) na winding kasama ang tangke ng transformer, at ang paglaban sa kuryente sa pagitan ng LV winding at HV winding kasama ang tangke ng transformer.Kung ang parehong sukat ay nagbibigay ng katanggap-tanggap na halaga, nangangahulugan ito na ang pagkakalayo12/25/2025 -
Mga Patakaran sa Pagdisenyo para sa mga Pole-Mounted Distribution TransformersMga Prinsipyo ng disenyo para sa mga Pole-Mounted Distribution Transformers(1) Mga Prinsipyo ng Lokasyon at LayoutAng mga platform ng pole-mounted transformer ay dapat ilokasyon malapit sa sentro ng load o malapit sa mga kritikal na load, sumusunod sa prinsipyong “maliit na kapasidad, maraming lokasyon” upang mapadali ang pagpalit at pag-aayos ng kagamitan. Para sa suplay ng kuryente sa pribado, maaaring i-install ang mga three-phase transformers malapit sa lugar batay sa kasalukuyang pangangail12/25/2025 -
Mga Solusyon sa Pagkontrol ng Ingay ng Transformer para sa Iba't Iba na Pag-install1.Pagpapababa ng Ingay para sa mga Independent Transformer Rooms sa Ground LevelStratehiya sa Pagpapababa:Una, isagawa ang pagsusuri at pag-aayos nang walang kuryente sa transformer, kasama ang pagpalit ng lumang insulating oil, pagtingin at pag-iyak ng lahat ng fasteners, at paglilinis ng alikabok mula sa yunit.Pangalawa, palakihin ang pundasyon ng transformer o mag-install ng mga vibration isolation devices—tulad ng rubber pads o spring isolators—na pinipili batay sa kalubhang ng vibration.Fin12/25/2025
