The EU standard LV Powerlock source connector is designed for safe and reliable low-voltage power input connections in high-current power distribution systems. It serves as the primary power entry point from the source to downstream electrical equipment, ensuring secure and continuous power flow.
The Powerlock Connector is widely used in:
• Industrial power distribution systems
• Data centers and critical infrastructure
• Temporary and mobile power systems, including generators
• UPS and backup power installations
• Renewable energy and energy storage systems
• Construction sites, events, and outdoor power applications
Technical specification
Model
Color
Capacity
Voltage
Operating temperature
Size of Strand head
Docking dust proof level
EU Standard 400A Socket L1 – Brown (PL-L1-F-400A-EU-Z)
Brown
400A
1000V
-45-85°C
M50
IP67
EU Standard 400A Socket L2 – Black (PL-L2-F-400A-EU-H)
Black
400A
1000V
-45-85°C
M50
IP67
EU Standard 400A Socket L3 – Grey (PL-L3-F-400A-EU-H)
Grey
400A
1000V
-45-85°C
M50
IP67
EU Standard 400A Socket N – Blue (PL-N-F-400A-EU-L)
Blue
400A
1000V
-45-85°C
M50
IP67
EU Standard 400A Socket E – Green (PL-E-F-400A-EU-L)
Green
400A
1000V
-45-85°C
M50
IP67
Components and Materials
Jera Line is a Rotalock power connector manufacturer in China, these connectors Engineered with finger-safe contacts, flame-retardant materials, and secure locking engagement, the PowerSafe Powerlock Connector delivers dependable performance, enhanced safety, and long service life in demanding operating environments.
The product included the following parts:
Component
Description
Connector housing
impact resistance and flame retardant plastic
Locking Mechanism
Brass and stainless steel
Power contact
Brass (up to 400 A), silverplated
· Copper (up to 660 A), silver
plated
Material seals
Neoprene
Material springs/release pin
Austenitic steel
Material contact retaining pin
PA
Dimensions
Test
Jera Line high current panel mount powerlock connector set is thoroughly tested in the Jera Line factory laboratory to ensure electrical safety, mechanical strength, and long-term reliability in high-current low-voltage power distribution systems. All tests are conducted in accordance with relevant IEC and international standards.
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