Pulsar HPSB11A12D is a high-efficiency (83%) buffer power supply unit that provides an uninterrupted 13.8V DC power supply with battery backup. It can be used to power devices that require a stable voltage of 12V DC, such as security cameras, access control systems, and fire alarms.
The HPSB11A12D has a wide range of input voltage (176-264V AC) and can accommodate a 40Ah/12V battery. It features battery charging and maintenance control, as well as excessive discharging (UVP) protection. The jumper-selectable battery charge current allows for customization of the charging rate (1A or 4A). The unit also provides full protection against short-circuit and reverse polarity connection at the battery output.
Pulsar HPSB11A12D is a high-efficiency (83%) buffer power supply unit that provides an uninterrupted 13.8V DC power supply with battery backup. It can be used to power devices that require a stable voltage of 12V DC, such as security cameras, access control systems, and fire alarms.
The HPSB11A12D has a wide range of input voltage (176-264V AC) and can accommodate a 40Ah/12V battery. It features battery charging and maintenance control, as well as excessive discharging (UVP) protection. The jumper-selectable battery charge current allows for customization of the charging rate (1A or 4A). The unit also provides full protection against short-circuit and reverse polarity connection at the battery output.
Pulsar HPSB11A12D is a high-efficiency (83%) buffer power supply unit that provides an uninterrupted 13.8V DC power supply with battery backup. It can be used to power devices that require a stable voltage of 12V DC, such as security cameras, access control systems, and fire alarms.
The HPSB11A12D has a wide range of input voltage (176-264V AC) and can accommodate a 40Ah/12V battery. It features battery charging and maintenance control, as well as excessive discharging (UVP) protection. The jumper-selectable battery charge current allows for customization of the charging rate (1A or 4A). The unit also provides full protection against short-circuit and reverse polarity connection at the battery output.
Ask a question and I''ll find the answer in the document
Finding information in a document is now easier with AI