HP Scitex LX600 HP Scitex LX Printer Family - Site preparation guide - Page 10

Site preparation, Power distribution unit PDU, Printer's three-phase line specifications, CAUTION

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Site preparation Power distribution unit (PDU) NOTE: The PDU must be rated to meet the power requirements of the printer, and should be in accordance with the Electrical Code requirements of the local jurisdiction of the country where the equipment is installed. The drying and curing components are powered with a three-phase line that requires a building power distribution unit (PDU). The PDU must meet the requirements of the printer. Printer's three-phase line specifications The printer electrical specifications for the three-phase line are included in the following tables for both high and low voltage supplies. Use the printer electrical specifications for high or low voltage supplies according to your site. Table 2-2 LX600 three-phase line specifications High-voltage systems Input voltage (line to line) 3 × 380-415 V~ (-10%+6%) Input frequency 50 Hz Power consumption 12 kW Maximum load current (per phase) 32 A Low-voltage systems 3 × 200-220 V~ (±10%) 60 Hz1 12 kW 32 A Table 2-3 LX800 three-phase line specifications High-voltage systems Input voltage (line to line) 3 × 380-415 V~ (-10%+6%) Input frequency 50 Hz Power consumption 15 kW Maximum load current (per phase) 30 A 1 Japan may have input frequencies of 50 Hz or 60 Hz Low-voltage systems 3 × 200-220 V~ (±10%) 60 Hz1 15 kW 50 A CAUTION: Ensure that input voltage is within the printer's rated voltage range. The printer requires three-phase power. Three-phase power provides a more efficient means of supplying large electrical loads than single-phase power, which is common in offices and homes. If only single-phase power is supplied to your facility, purchase a converter to adapt your building's single-phase power to three-phase power and have it installed by a qualified electrician prior to the printer's installation date. Ensure that converter's output specifications meets the printer's three-phase line requirements as shown in the table above (three-phase line specifications). Printer's single-phase line specifications The printer electrical specifications for the single-phase line are included in the following table for both high- and low-voltage supplies. Use the printer electrical specifications for high- or low-voltage supplies according to your site. 6 Chapter 2 Site preparation ENWW

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Power distribution unit (PDU)
NOTE:
The PDU must be rated to meet the power requirements of the printer, and should be in
accordance with the Electrical Code requirements of the local jurisdiction of the country where the
equipment is installed.
The drying and curing components are powered with a three-phase line that requires a building power
distribution unit (PDU).
The PDU must meet the requirements of the printer.
Printer's three-phase line specifications
The printer electrical specifications for the three-phase line are included in the following tables for both
high and low voltage supplies. Use the printer electrical specifications for high or low voltage supplies
according to your site.
Table 2-2
LX600 three-phase line specifications
High-voltage systems
Low-voltage systems
Input voltage (line to line)
3 × 380-415 V~ (-10%+6%)
3 × 200-220 V~ (±10%)
Input frequency
50 Hz
60 Hz
1
Power consumption
12 kW
12 kW
Maximum load current (per phase)
32 A
32 A
Table 2-3
LX800 three-phase line specifications
High-voltage systems
Low-voltage systems
Input voltage (line to line)
3 × 380–415 V~ (-10%+6%)
3 × 200–220 V~ (±10%)
Input frequency
50 Hz
60 Hz
1
Power consumption
15 kW
15 kW
Maximum load current (per phase)
30 A
50 A
1
Japan may have input frequencies of 50 Hz or 60 Hz
CAUTION:
Ensure that input voltage is within the printer's rated voltage range.
The printer requires three-phase power. Three-phase power provides a more efficient means of
supplying large electrical loads than single-phase power, which is common in offices and homes. If
only single-phase power is supplied to your facility, purchase a converter to adapt your building's
single-phase power to three-phase power and have it installed by a qualified electrician prior to the
printer's installation date. Ensure that converter's output specifications meets the printer's three-phase
line requirements as shown in the table above (three-phase line specifications).
Printer's single-phase line specifications
The printer electrical specifications for the single-phase line are included in the following table for both
high- and low-voltage supplies. Use the printer electrical specifications for high- or low-voltage supplies
according to your site.
6
Chapter 2
Site preparation
ENWW
Site preparation