CP9828_5A
by Beckhoff
The CP9828_5A from Beckhoff is a precision panel-mounted accessory within the C9 PC Accessories series, engineered for reliable electrical connections in industrial automation environments. With a current rating of 5A and a voltage rating of 250V AC, this compact module ensures efficient power distribution for control panels and distributed I/O systems. Its IP20 ingress protection safeguards against solid objects greater than 12.5 mm, making it suitable for enclosed cabinet installations. Weighing just 18g, the CP9828_5A provides a space-saving solution without compromising on durability or performance.
Incorporating a robust screw terminal design, the CP9828_5A accepts wire sizes from 18-12 AWG, facilitating straightforward wiring and secure contact. The single-pole configuration relies on a high-conductivity copper alloy contact material and a flame-retardant thermoplastic insulation, ensuring stable conductivity and resistance to environmental stressors. Panel mounting is simplified by its precise dimensions of 34mm x 16mm x 12mm, allowing modular placement within standard control enclosures. Certified to UL and CE standards, this accessory operates reliably across a wide temperature range from -25°C to +85°C, demonstrating resilience in fluctuating industrial conditions.
Beyond its core electrical specifications, the CP9828_5A offers exceptional compatibility with global wiring standards and seamless integration into Beckhoff control architectures. The thermoplastic housing enhances impact resistance and contributes to the overall low weight, reducing strain on mounting points. The IP20 rating, while optimized for internal panel use, ensures protection against accidental contact and ingress of large particles. By adhering to industry certifications, this component delivers both safety and compliance, streamlining system approvals. When deployed in machine control and automation applications, the CP9828_5A improves installation efficiency, reduces service times, and maintains consistent performance under demanding operational cycles.
