Up to 347V AC / Up to 400V DC
Up to 450V DC (programmable)
Number of Channels Per HV Transmitter
Power Per HV Channel
Up to 3.2kW (3200 W)
Total Power Per HV Transmitter
Up to 12.8kW (12800 W)
Dimensions of 2U - 19″ rack shelf
400″ (10160 mm) L x 482.6″ (12258 mm) W x 88″ (2235.2 mm) H (with mounting bracket)
52.9 lbs / 24 kgs
White (custom colours available)
Rack or wall mount options
Fault-managed, Class 4 power system with Digital Current™ technology built to comply with UL 1400-1 and UL-62368-1
Pre-certified wireless module, certified to meet FCC, IC, and CE (RED) requirements for wireless transmitters
Digital Current™ technology combines the benefits of PoE with traditional AC line voltage
The Cence HV Digital Current™ Transmitter is a modular, fault-managed DC (direct current) power system. It consists of intelligent transmitters, channels and receivers. Fault-management allows the system to make use of low-voltage wiring practices, and use less copper in cables, while still providing the benefits of higher voltages (such as reduced line losses).
Digital Current™ channels are housed inside the Cence HV Transmitter. Each channel has an integrated rectifier that makes a highly efficient conversion from AC to DC power, then distributes up to 450V DC to Digital Current™ receivers. From there, receivers can regulate voltages down to 60V DC or lower.
Each Digital Current™ channel inside of the the Cence HV Transmitter sends up to 450V DC to Digital Current™ receivers. With optional fault-management, power is interrupted between transmitters and receivers in a fraction of a second in the event of any electrical faults.
Being fault-managed allows the system to make use of low-voltage wiring practices (in order to avoid mechanical protection and reduce copper usage). When a Digital Current™ receiver gets its power from the Digital Current™ transmitter, the 450V DC is stepped down to the correct voltage for the power load. Digital Current™ receivers can be daisy chained to maximize power yield of the channels they are connected to.