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F3BU13-0N Yokogawa 13 Slot Base Module Datasheet & Technical Manual

F3BU13-0N Yokogawa 13 Slot Base Module Datasheet & Technical Manual

Configured for high-density modular expansion in industrial control networks, the Yokogawa F3BU13-0N (F3BU13 13 Slot Base Module) provides the direct physical backplane interface and power distribution required for multi-slot module...

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AvailabilityLow stock: 99 left

SKU: F3BU13-0N
Vendor: Yokogawa
Category: 13 Slot Base Module
Related Series:

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Configured for high-density modular expansion in industrial control networks, the Yokogawa F3BU13-0N (F3BU13 13 Slot Base Module) provides the direct physical backplane interface and power distribution required for multi-slot module deployment.

Hardware Specifications

Parameter Specification
Model F3BU13-0N
Brand Yokogawa
Origin Japan
Weight 2.4 kg
Dimensions 12.7 cm x 2.5 cm x 10.2 cm
Operating Temp 0 to 55 deg C
Power Consumption 5 W (quiescent)
Slot Capacity 13 slots

Backplane and System Connectivity

The F3BU13-0N acts as the primary data and power distribution backbone for the controller rack. The module is engineered for high-speed backplane bus communication velocity, ensuring that all inserted I/O or CPU modules maintain deterministic data exchange with the main controller. The backplane bus architecture is optimized to support I/O density scaling, allowing for the addition of various function modules while maintaining low signal latency across all 13 slots.

Frequently Asked Questions

Q: Does the F3BU13-0N support on-line module replacement?

A: No. Power must be fully isolated from the base module backplane before inserting or removing any I/O cards to prevent potential damage to the bus pins or the host controller.

Q: Is this base module compatible with all series function modules?

A: Compatibility is limited to specific Yokogawa FA-M3 series modules. Verify that the module keying and bus voltage requirements align with the desired I/O card configuration prior to installation.

Field Installation Guidelines

  • Mounting Requirements: The base module must be mounted on a flat, rigid metal surface within the cabinet to prevent warping of the backplane. Use all designated mounting holes to ensure mechanical stability.
  • Grounding and Shielding: Connect the frame ground terminal of the base module to the cabinet main protective earth (PE) bus. This connection is mandatory to provide a low-impedance path for noise suppression.
  • Wiring Practices: Arrange incoming power supply cables and communication trunks to avoid tension on the backplane connectors. Use cable management ducts to maintain a minimum clearance of 10 cm from high-power load circuitry.
  • Thermal Management: Ensure that cooling fans or passive ventilation slots are not obstructed. Maintain an operating temperature below 55 deg C to prevent thermal deformation of the backplane housing and to ensure the longevity of the bus connector contacts.