Appendix 2
Certification of UL, cUL standards
The FX5-4AD supports UL (UL, cUL) standards.
For models that support UL standards, refer to the following.
UL, cUL file number: E95239
Compliance with EC directive (CE marking)
This note does not guarantee that an entire machine produced in accordance with the contents of this note will comply with
the following standards.
Compliance to EMC directive and LVD directive of the entire mechanical module should be checked by the user/
manufacturer. For more details please contact to the local Mitsubishi Electric sales site.
Requirement for compliance with EMC directive
The following products have shown compliance through direct testing (of the identified standards below) and design analysis
(through the creation of a technical construction file) to the European Directive for Electromagnetic Compatibility (2014/30/
EU) when used as directed by the appropriate documentation.
Attention
This product is designed for use in industrial applications.
Product compatibility
Type: Programmable controller (open type equipment)
Models: FX5 manufactured
from February 1st, 2018
Electromagnetic compatibility (EMC) directive
EN61131-2:2007 Programmable controllers
- Equipment requirements and tests
Caution for compliance with EC directive
Caution for when the FX5-4AD is used
When the FX5-4AD is used, attach a ferrite core to the power supply of the CPU module.
Make 2 turns around the ferrite core and attach within approximately 200 mm from the terminal block and connectors of the
power cable. Also, attach a ferrite core to the input/output cable pulled out to the outside of the control panel. Attach the ferrite
core before the cable is pulled out to the outside of the control panel. (Ferrite core used in Mitsubishi Electric's test:
E04SR401938 manufactured by SEIWA ELECTRIC MFG. CO., LTD.)
APPX
108
Appendix 2 Standards
Standards
FX5-4AD
Remarks
Compliance with all relevant aspects of the standard.
EMI
• Radiated emission
• Conducted emission
EMS
• Radiated electromagnetic field
• Fast transient burst
• Electrostatic discharge
• High-energy surge
• Voltage drops and interruptions
• Conducted RF
• Power frequency magnetic field