Yokogawa F3BU20-0N FA-M3 Base Unit The Yokogawa F3BU20-0N, also cataloged as the F3BU20-0N base unit, operates as a dedicated hardware...
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Keterangan
Yokogawa F3BU20-0N FA-M3 Base Unit
The Yokogawa F3BU20-0N, also cataloged as the F3BU20-0N base unit, operates as a dedicated hardware component for backplane slot distribution and module interconnection within the FA-M3 platform. It provides mechanical mounting and electrical bus continuity for CPU, power supply, and I/O modules in a modular PLC architecture based on the FA-M3 system.
Suffix Breakdown & Model Matrix
No validated manufacturer-published sub-division or functional suffix decoding is provided for the F3BU20-0N base unit. The "-0N" designation is treated as a catalog revision identifier without exposed functional segmentation in available technical documentation.
Hardware Specifications
Parameter
Specification
Model / Brand
Yokogawa F3BU20-0N
Origin
Japan
Module Type
FA-M3 Base Unit (Backplane Rack)
Slot Capacity
20 Slots
Operating Temp
0 degC to 55 degC
Storage Temp
-20 degC to 75 degC
Power Consumption
0.25 A @ 5 VDC (internal backplane load)
Backplane System
FA-M3 module bus distribution
Insulation Withstand
500 VAC (1 min, frame to FG)
Insulation Resistance
>= 10 MOhm @ 500 VDC
Cooling Method
Natural convection
Mounting
Cabinet-mounted rack system
Process Control Backplane Architecture
The F3BU20-0N implements passive backplane distribution for FA-M3 system modules, maintaining deterministic electrical routing across CPU, power supply, and I/O cards. Signal and power integrity is maintained through internal bus coupling rather than active switching logic.
Within the FOUNDATION Fieldbus H1 and RS-485 mixed-architecture environments, the base unit serves as a structural carrier only, while communication execution is handled at module level. Channel-to-module electrical isolation is determined by installed I/O hardware rather than the base chassis.
Backplane current distribution is regulated by the installed power supply module, and total system loading is constrained by cumulative module consumption across all 20 slots.
Frequently Asked Questions
Q: Does the F3BU20-0N support hot-swap of FA-M3 modules? A: Module hot-swap capability is determined by individual FA-M3 CPU and I/O modules. The base unit itself provides passive bus structure without switching isolation.
Q: What limits backplane current loading? A: Backplane loading is constrained by the installed power supply module and cumulative 5 VDC consumption across all inserted modules within the 20-slot structure.
Q: Can mixed communication modules be installed in the same base unit? A: Yes. FA-M3 architecture supports mixed configuration of I/O, CPU, and communication modules, provided slot power and bus limits are not exceeded.
Field Installation Guidelines
The base unit shall be installed inside a grounded industrial control cabinet with verified protective earth continuity. Mechanical fastening must ensure uniform rack alignment to avoid backplane connector stress.
All modules must be inserted with controlled axial force to prevent misalignment of bus pins. Shield grounding must be terminated at cabinet earth reference point, avoiding floating potential between rack segments.
Cable routing for communication modules (including RS-485 and fieldbus interfaces) must maintain separation from high-voltage power conductors to reduce induced noise coupling into the backplane environment.
