An overload or short circuit in a fuse or mini city breaker can lead to Undersupply or Failure of an Entire 24-V dc Power-SUPPLY SYSTEM.
Selectivity Protection using an electronic fuse offers a better propective option in mission-classSSSSS and Applications.
USING Selectivity Protection to Implement NEC Class 2 Control Circuits Requires Just One Large Power Supply Rather than Resorting to Multiple SUPPLIES.
Of Plants Adopting and Implementing the Advanced Electrification, Automation, and Digitalization Concepts of Industry 4.0.
Shortcomings of Fuses and Miniature Circuit Breakers
V Power-supply system. This can down down connected propuction systems, with impacts on a problem, quality, cycle times, and deliver commitments to this.
When configuring miniature circuit breakers.
be critical.
Selective Electronic Circuit Protection with FAULT DETECTION
Then, then
Selectivity Modules Were Designed Specifically with Power Supplies in Mind.
Flexible InRush Current Management During Circuit Load Switch-ONS
Then, then
In load-dependent sequential connection delays, the next output will be connected as the current of the previous output is les less (fig. 2, agin).
Use Case: NEC Class 2 for Apps Requiring Control Circuits with Limited Energy
<100 W rated for each load circuit, these can now be substituted with a single large power supply rated >AS A Result, This Leads to Fewer Components, Less Complexity, Less Wiring Time, and PossiBly A Smaller Control Panel Enclosure, All of Which Can Lead to Potential Cost Saves (FEAG.
Other Circuits Continue to be support the interruption. Even PLCS, Which Can only Bridge Power Failures for a Few Milliseconds, Continue to run through problems.
Of settings and Diagnostics Possible, Including Those for the NEC Class 2 Outputs.
Fast, SIMPLIFIED, and Channel-Specific Diagnostics and Circuit Visibility
Programming frameworks.
BecauSe only one digital input of the PLC is required.
Summary
And miniature circuit breakrs to protrical circuits.
Circuit Protection Technology with FAST-FAULT Detection.