The ultra large capacity lithium iron phosphate battery is designed with 4 wheels at the bottom, which are movable and have a built-in BMS system for longer cycle life. It can communicate with ISGC-T series high-frequency inverters, support multi machine parallel connection, and can automatically synchronize and adjust battery voltage through BMS, widely used in household and commercial energy storage fields.
100% full capacity
Authentication and security
Sistema BMS incorporado
15 devices in parallel
Celdas de batería Grado A
6000 deep cycles
There are dry contacts, RS485, RS232, CAN and other interfaces, supporting upper computer debugging, inverter communication and other functions.
| (item) | RSPB-15 | (mark) | |
| (rated capacity) | capacity | 300Ah | 60A 0.2C Standard charging 150A 0.5C Standard Discharge |
| Voltage | 51.2V | ||
| Discharge termination voltage | 41.6V ±0.5V | ||
| Charging limit voltage | 58.4V±0.5V | ||
| internal resistance | ≤50mΩ | Measure internal resistance using AC method in semi electric state (measured using new batteries with less than a week of shipment and less than 5 cycles) | |
| Carga estándar | persistent current:60A | Charging time: approximately 5 hours | |
| 持续电压:58.4V | |||
| Standard Discharge | persistent current:150A | The discharge time is about 2 hours | |
| 截止电压:41.6V±0.5V | |||
| Fast charging | persistent current:150A | Charging time: approximately 2 hours | |
| Continuous voltage:58.4V | |||
| Maximum Continuous Charge Current | 150A | 0.5C | |
| Maximum Continuous Discharge Current | 200A | 0.67C | |
| Rango de temperatura de funcionamiento | Charge: 0~45℃ | 60±25%R.H.(Range of humidity for battery storage) | |
| Discharge(: -20~60℃ | |||
| Rango de temperatura de almacenamiento | Temperature of battery storage environment(-10℃~45℃) | 60±15%R.H. | |
| Charge capacity30%~50% | (Humidity range during shipment status) | ||
Suministro de Energía de Emergencia: El mecanismo de recorte de picos y llenado de valles puede descargar la energía almacenada durante las horas de bajo consumo, proporcionando energía de respaldo de emergencia para hacer frente a eventos inesperados y garantizar la operación segura y estable de la red eléctrica.
Mejora del Aprovechamiento de las Energías Renovables Variables: Los sistemas de almacenamiento de energía pueden captar energías renovables como la eólica y solar para cargar las baterías durante periodos de baja demanda de la red. Por el contrario, durante los picos de demanda, la energía química almacenada en las baterías se convierte nuevamente en energía eléctrica para su descarga. Este proceso mejora significativamente la tasa de utilización de las fuentes de energía renovable intermitentes, garantizando una integración más eficiente con la red eléctrica.
