Offering a high level of reliability and performance, the GE IC693PWR321 is a premium DC power supply designed for industrial automation systems. Ideal for PLCs and other critical applications requiring stable power delivery.
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Offering a high level of reliability and performance, the GE IC693PWR321 is a premium DC power supply designed for industrial automation systems. Ideal for PLCs and other critical applications requiring stable power delivery.
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Power Rating:2 Amps
Output Voltages:[“5 V DC”,”24 V DC”]
Relay Output:Available
Isolated Outputs:Yes
Weight:0.5 kg
Certification:Compliant with international safety standards
Module Compatibility:Compatible with RX3i PacSystems series
Introducing the General Electric IC693PWR321 modular power supply, a critical component in ensuring smooth operation within industrial automation environments. This power supply module is engineered to provide consistent and reliable performance, essential for maintaining system stability and efficiency.
Featuring an output rating of 2 Amps, this unit is versatile enough to meet the demands of a wide range of applications, from small-scale machinery to complex industrial processes. With its capability to deliver both 5 V DC and 24 V DC voltages, it offers flexibility in addressing diverse operational needs.
Equipped with relay outputs, the IC693PWR321 ensures seamless integration with other components in your automation system, enhancing system reliability through enhanced control and monitoring capabilities. The isolated outputs further reduce interference and improve overall system performance.
Designed with durability in mind, this power supply boasts a lightweight yet robust construction, weighing in at just 0.5 kg. This makes it easy to install and maintain, contributing to lower operational costs and reduced downtime.
Certified for international safety standards, you can trust the General Electric IC693PWR321 to operate safely in any industrial setting. Its compatibility with the RX3i PacSystems series ensures seamless integration with existing infrastructure, maximizing system efficiency and minimizing setup complexities.
