Phoenix Contact Distribution Block, 2.5mm², 24A, 690 V, Grey

Phoenix Contact Distribution Block, 24A Current Rating, 690V Voltage Rating - 3273198 This distribution block is designed for efficient electrical connections, accommodating wire sizes from 0.14mm² to 4mm². With dimensions of 25.6mm in width and 45.7mm in height, this grey distribution block features a maximum operating temperature of +110°C and a minimum operating temperature of -60°C. Its robust design allows for reliable performance in various applications, ensuring durability and efficiency. Features & Benefits • Space-saving design offers up to 50% reduction on DIN rails
• Tool-free Push-in connection simplifies conductor attachment
• Integrated supply promotes unhindered block bridging
• Nominal current rating of 24A supports high power demands
• Wide voltage rating of 690V ensures compatibility with diverse systems
• Multiple colour variants enhance clear wiring organisation Applications • Used with automation systems for reliable power distribution
• Ideal for electrical panels where space is a constraint
• Suitable for mechanical and electronic requiring robust connections
• Utilised in installations needing 24A terminal blocks for effective power transfer What types of wires can be used with this electrical distribution block? It can accommodate solid and flexible conductors ranging from 0.14mm² to 4mm², ensuring versatility across multiple applications. How does the design of this product facilitate easy installation? The distribution block features a Push-in connection method that allows for quick and secure wire insertion without the need for additional tools, streamlining the installation process. What environmental conditions can this distribution block operate under? It is rated for operation in temperatures between -60°C and +110°C, making it suitable for diverse environments from cold installations to high-heat situations. Can this distribution block support bridging with other blocks? Yes, the design incorporates a conductor shaft that allows bridging with other blocks, enhancing the flexibility of power distribution setups.