Description J Schneider AKKUTEC 2440, The battery backed up DC power supply in the AKKUTEC range uses the standby-parallel principle of operation and, in conjunction with a lead accumulator, ensures that the DC power supply is reliably maintained in the case of a mains power failure. The power supply has the following features: Switched primary, […]
Description J Schneider AKKUTEC 2420 3ph, The battery buffered DC power supply of the series AKKUTEC is working according the stand-by parallel mode and ensures in connection with a lead-acid accumulator a safe continuous DC power supply in case of mains failure. The power supply has the following features: Primary switched power supply with I/U-charging […]
General Information J Schneider AKKUTEC 19-2420 1ph, The battery buffered DC power supply of the series AKKUTEC is working according the stand-by parallel mode and ensures in connection with a lead-acid accumulator a safe continuous DC power supply in case of mains failure. The power supply has the following features: Primary switched power supply with […]
Description J Schneider AKKUTEC 2420-0 1ph, Single Phase, DC-UPS with Batteries. The battery buffered DC power supply of the series AKKUTEC is working according to the stand-by parallel mode and ensures in connection with a lead-acid accumulator a safe continuous DC power supply in case of mains failure. The power supply has the following features: […]
J Schneider AKKUTEC 2412 VdS, The battery buffered DC power supply is working according to the stand-by parallel mode and ensures in connection with a lead-acid accumulator a safe continuous DC power supply during a determined time interval in case of mains failure. The total output current is shared between the supply of the loads […]
Description J Schneider AKKUTEC 2410, The accumulator buffered DC supply works according to the standby parallel principle and guarantees, in connection with a lead accumulator and for a certain amount of time, a safe backup operation of the DC supply in case of a mains failure. The overall output current is split up between consumer […]