| Marca | Switchgear parts |
| Número de modelo | alimentación de enerxía UPS en liña de baixa frecuencia (entrada trifásica saída monofásica) |
| Frecuencia nominal | 50/60Hz |
| Tensión de saída | 405VDC/220VDC |
| Tensión de entrada | 380V |
| Capacidade | 6kVA |
| Serie | HBD |
Características do produto
Tecnoloxía de control dixital inteligente
Utilizando microcontroladores de alta velocidade Intel e dispositivos lóxicos programábeis para lograr o control de circuitos, a configuración de parámetros, a xestión da operación, as funcións avanzadas de autoexame e autodetección, pode realizar un autoexame e análise de fallos en todas as conexións de circuito independentes na placa. Pode confiar completamente na onda senoidal transformada dixitalmente e na nova solución para un funcionamento perfecto que atenda ás súas necesidades reais.
Tecnoloxía inversora IGBT (Transistor Bipolar con Porta Aislada) eficiente
O IGBT ten excelentes características de conmutación de alta velocidade; Ten características de traballo de alta tensión e corrente alta; Utilizando unha condución de tipo tensión, só se require un pequeno poder de control. A sexta xeración de IGBT ten unha caída de tensión de saturación menor, unha eficiencia inversora maior e unha fiabilidade maior.
Excelentes características de carga
Cumpre totalmente a transición desde 0 ata 100% de carga sen cambiar a un bypass, e protexe a saída estable e fiable.
Pantalla LCD grande humanizada en chinés e inglés
A pantalla grande amosa un menú en chinés e inglés, cun diagrama de fluxo claro que mostra o estado de funcionamento, permitindo unha implementación flexible das funcións de diálogo humano-máquina. Indicación de estado LED intuitiva, indicación de estado de estilo de fluxo de traballo, clara a primeira vista.
Altas características dinámicas de rendemento
Adóptanse múltiples controles de retroalimentación como o control instantáneo e o valor efectivo para lograr unha regullaxe dinámica alta e reducir a distorsión da tensión de saída.
Función completa de protección
Múltiples funcións de protección e alarma do sistema, incluíndo a protección de sobretensión de entrada/saída, a protección de sobresalto de entrada, a protección de secuencia de fase, a protección de baixa tensión da batería, a protección de sobretensión de saída e a protección de alta temperatura.
Xestión intelixente da batería
Carga intelixente da batería: Axusta automaticamente os parámetros de carga da batería segundo a configuración da batería do usuario, e realiza a conversión de carga de equilibrio e flotante, a compensación de temperatura e a xestión de carga e descarga da batería segundo o ambiente de alimentación. Estende a vida útil da batería e reduce a carga dos administradores.
Adoptando un rectificador cargador de 6 pulsos (opcional 12 pulsos) mentres se engade un filtro harmónico de entrada
Suprime eficazmente a contaminación harmónica de entrada, mellora o factor de potencia de entrada da fonte de alimentación UPS e reduce a corrente harmónica de entrada.
monitorización intelixente
As portas de comunicación RS232 e RS485 permíten realmente unha comunicación multiuso e monitorización remota. Tarxeta SNMP opcional para monitorización remota e xestión de rede; Interface de contacto seco opcional, utilizando contactos pasivos para monitorizar o estado do UPS.
Campo de aplicación
Adecuado para industrias como finanzas, telecomunicacións, valores, tributación, transporte, seguros, goberno, iluminación de edificios, iluminación de tráfico rodoviario, electricidade, e empresas industriais e mineiras.
Especificacións técnicas
| 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 |
Nota: O modelo con batería incorporada e requerimentos de voltaxe especiais pode ser personalizado segundo a situación real do usuario, e proporcionarase un orzamento separado.
① Alarma de sobrecarga: Desconecte as cargas monofásicas non esenciais, ou substitúaa por un UPS de maior capacidade; ② Alarma de perda de fase: Comprobe a ligazón da entrada trifásica, repare os cabos sueltos ou desconectados; ③ Alarma de batería baixa: Cargue continuamente durante 12 horas, substitúa as baterías envejecidas se a alarma persiste; ④ Tensión de saída anormal: Comprobe a ligazón de saída, reinicie o UPS (desconecte o poder e reiníceo despois de 5 minutos); ⑤ Sobrecalentamento do transformador: Pare de usar inmediatamente, comprobe a ventilación e a carga, póñase en contacto co servizo posventa para manutención.
A súa función principal é converter a enerxía eléctrica trifásica en enerxía monofásica estable, proporcionando unha fonte de enerxía ininterrupta e pura para cargas críticas monofásicas, mentres resolve problemas na rede eléctrica como fluctuacións de voltaxe, interferencia harmónica e cortes de corrente. Principio de funcionamento: Adóptase unha conversión dupla (AC-DC-AC) + deseño de transformador de baixa frecuencia. Cando a rede eléctrica está normal, a corrente AC trifásica convértese en DC para cargar a batería, despois o DC convértese en corrente AC monofásica senoidal pura para alimentar a carga; cando falla a rede, cambia á enerxía da batería con un tempo de conmutación de 0 ms,
