Skip to content

What are you looking for?


You may also like

ABB SC610 3BSE001552R1 Submodule CarrierABB SC610 3BSE001552R1 Submodule CarrierABB SC610 3BSE001552R1 Submodule Carrier
ABB SC610 3BSE001552R1 Submodule Carrier
ABB SC610 3BSE001552R1 Submodule Carrier
ABB SC610 3BSE001552R1 Submodule Carrier

ABB SC610 3BSE001552R1 Submodule Carrier


Only 10 left - Selling fast

PRODUCT SKU : SC610 3BSE001552R1

PRODUCT TYPE : Communication Modules

PRODUCT VENDOR : ABB


  • 100% Genuine Parts – Risk-Free 30-Day Returns
  • 1-Year Warranty & Expert Support for Every Order

Product Details

The ABB SC610 3BSE001552R1 serves as the primary SC610 Submodule Carrier utilized to execute interface communication module expansion across Advant Controller 100 Series platforms.

Hardware Specifications

Parameter Specification
Model SC610 (Product ID: 3BSE001552R1)
Brand ABB
Origin Sweden
Weight 1.44 kg
Dimensions 40 mm x 273 mm x 252 mm
Operating Temp 0 to +55 deg C (Standard baseline parameters)
Power Consumption Dependent on host rack submodules (Passive bus allocation)
Product Type Communication Modules
Module Capacity Hosts up to two CI532 interface units
Base Board BIOB Carrier Board
RoHS Information Following EU Directive 2011/65/EU
WEEE Category 4. Large Equipment (Any External Dimension More Than 50 cm)

Profinet / EtherNet/IP Deterministic Networks and I/O Density Scaling

The electronic track configuration of the SC610 carrier handles parallel internal signal routing to bridge auxiliary communication processing blocks without reducing parent backplane bus communication velocity metrics. It sustains deterministic scan timing across connected submodules, enabling parallel signal mapping when integrated adjacent to Profinet / EtherNet/IP deterministic networks. The layout maintains uniform trace lengths, ensuring absolute firmware flash compatibility between hosted CI532 interface modules and the parent processor node. This layout eliminates data packet bottlenecks and permits linear I/O density scaling during large-scale network updates.

Frequently Asked Questions

Q: Does the SC610 carrier board allow hot-swap replacement of the two hosted CI532 submodules while active logic loops are processing?

A: No. The internal BIOB interface infrastructure does not isolate lines at the submodule terminal connections during active execution. The power supply to the carrier slot must be turned off before inserting or extracting any submodules to prevent backplane bus errors or memory synchronization drops.

Q: How is the electrical path ground continuity achieved across this 1.44 kg assembly?

A: Grounding is established through metal contact rails that lock into the chassis frame during insertion. This low-impedance connection filters out high-frequency noise and preserves signal integrity across the bus line.

Q: Are there onboard firmware configurations or software settings that require validation on this carrier?

A: No. The SC610 functions as a passive physical routing board. It contains no internal programmable microprocessors or flash memory arrays. Software address validation is configured directly on the specific CI532 submodules.

Field Installation Guidelines

  • Chassis Seating and Realignment: Slide the 40 mm wide carrier unit straight into the designated rack slot channels. Apply stable horizontal pressure until the backplane connectors seat completely, then tighten the front retention fasteners.
  • Shielding Ground Connection: Ensure the main cabinet frame links directly to the plant common earth ground matrix. Keeping connections clean prevents electromagnetic interference from shifting data thresholds on the bus traces.
  • Submodule Interface Retention: Lock the hosted CI532 modules into the carrier frame using the integrated clips. Loose modules can break contact when subjected to continuous industrial floor vibration.
  • Convective Thermal Boundaries: Maintain unobstructed clearances around the 273 mm height profile of the assembly. Adequate passive airflow is necessary to prevent localized heat pockets from exceeding the maximum +55 deg C operating limit.

Additional Information

  • 100% Genuine Parts: All products are original and authentic, ensuring reliable industrial performance.
  • 30-Day Refund Guarantee: Return any in-stock item within 30 days in original, unopened packaging for a full refund (excluding shipping and fees).
  • 12-Month Warranty: Covers defects in materials or workmanship; excludes misuse, normal wear, or unauthorized modifications.
  • Worldwide Shipping: We ship via USPS, UPS, FedEx, and DHL. Delivery times vary by country and may be subject to customs or import fees.
  • Support & Contact: Technical and warranty assistance is available anytime. Contact us here: Contact.
  • Purchase Guidance: Check product specifications and compatibility carefully before ordering to ensure proper application.




Recently Viewed Products

Tech & Buying Guide

Technical Insights, Installation Guides, and Buying Tips
Ultimate Guide to Schneider Electric PLCs: Selecting Control Systems for Small to Medium Automation

Ultimate Guide to Schneider Electric PLCs: Selecting Control Systems for Small to Medium Automation

Schneider Electric remains a dominant force in global industrial automation, delivering robust control systems across diverse sectors. For control engineers, selecting the right programmable logic controller (PLC) requires balancing budget, communication ports, and processing power. This technical breakdown explores Schneider’s small and medium portfolio, offering field-tested insights to help you optimize your next factory automation project.

Read more
Essential Maintenance Guide for PLC, DCS, and ESD Marshalling Cabinets

Essential Maintenance Guide for PLC, DCS, and ESD Marshalling Cabinets

Marshalling cabinets serve as the vital interface between field instrumentation and your core control systems. In large-scale industrial automation, these panels house the intricate wiring for PLC, DCS, and Emergency Shutdown (ESD) systems. Regular, systematic health checks are non-negotiable to ensure operational reliability and prevent costly unplanned downtime.

Read more
Industrial PC vs. Commercial PC: Selecting the Right Hardware for Automation

Industrial PC vs. Commercial PC: Selecting the Right Hardware for Automation

In the demanding world of factory automation, selecting the correct computing platform is critical for system reliability. While commercial PCs power our daily lives, they often fail when subjected to the harsh realities of the production floor. Understanding the fundamental differences between an Industrial PC (IPC) and a standard office PC helps engineers optimize control systems for longevity and performance.

Read more