Skip to product information
1 of 3

Yokogawa AIP502-S1 V-Net Coupler Module

Yokogawa AIP502-S1 V-Net Coupler Module

Configured for high-speed network communication in CENTUM VP control networks, the Yokogawa AIP502 S1 (AIP502 V-Net Coupler Module) provides direct physical/electrical execution of V-Net communication interface management.

Suffix Breakdown &...

29 people are viewing this right now

AvailabilityIn stock

SKU: AIP502-S1
Vendor: Yokogawa
Related Series:

Shipping & Returns

Reliable Worldwide Delivery

  • Carriers: Shipped via DHL, FedEx, UPS, or USPS.
  • Dispatch: Orders processed in 1-2 business days and dispatched within 3-5 business days.
  • Tracking: Full tracking details provided via email upon shipment.

30-Day Money-Back Guarantee

  • Guarantee: 30-day return window for in-stock, factory-sealed products.
  • Condition: Items must be unopened, unused, and in original packaging.
  • Authenticity: We guarantee 100% original and authentic hardware.

Need more details? Read our fullShipping PolicyandRefund Policy.

Authenticity & Warranty

  • Genuine Guarantee: We supply only 100% original, brand-new, and factory-sealed industrial automation parts.
  • Full Coverage: Every component is backed by a 12-month comprehensive warranty from the date of purchase.
  • Traceability: All products come with original factory documentation and accessories for full industrial compliance.

Technical Support & Sourcing

  • Expert Assistance: Our technical team provides free consultation to help you verify compatibility for DCS and PLC systems.
  • Rare Part Sourcing: Specializing in obsolete and hard-to-find components from Allen-Bradley, Siemens, ABB, HIMA, and more.
  • Bulk Inquiries: Contact us at pambo@5gplc.com for volume pricing or customized project quotes.
View full product details

Configured for high-speed network communication in CENTUM VP control networks, the Yokogawa AIP502 S1 (AIP502 V-Net Coupler Module) provides direct physical/electrical execution of V-Net communication interface management.

Suffix Breakdown & Model Matrix

  • AIP502: Base module designation for V-Net coupling functionality.
  • S1: Suffix indicating the specific hardware revision and interface configuration for network integration.

Hardware Specifications

Parameter Specification
Model AIP502 S1
Brand Yokogawa
Origin Japan
Weight 1.5 kg
Dimensions 2.2 cm x 12.4 cm x 12.6 cm
Operating Temp Not Specified
Power Consumption Not Specified
Interface Type V-Net Coupler

Process Control and Network Connectivity

The AIP502 S1 acts as the primary network interface, facilitating deterministic communication between control stations within the CENTUM VP architecture. The module utilizes channel-to-channel isolation to protect internal control logic from external bus fluctuations or electromagnetic noise present on the V-Net infrastructure. This module handles the timing and packet synchronization required for real-time control, ensuring that node-to-node communication adheres to the high-availability standards required for industrial automation processes.

Frequently Asked Questions

Q: Does the AIP502 S1 support hot-swapping while the network is active?

A: No. The AIP502 S1 does not support hot-swapping. The module must be removed only after de-energizing the local control node to prevent network disruption or electrical damage to the backplane.

Q: Is the AIP502 S1 compatible with all versions of the CENTUM VP V-Net bus?

A: Compatibility is dependent on the specific CENTUM VP system revision; verify the module part number against the system's hardware compatibility list before replacement.

Field Installation Guidelines

  1. Ensure the module is installed in a secure, non-conductive rack slot, ensuring the backplane pins are properly aligned to prevent contact damage.
  2. Verify that the network cabling is routed away from high-current power lines to mitigate inductive noise interference on the V-Net coupler.
  3. Tighten the retaining screws once the module is seated to establish a secure chassis ground, which is essential for maintaining network signal integrity.
  4. Clean all optical or electrical connectors prior to insertion to prevent performance degradation due to dust or oxidation.
  5. After installation, confirm that the module status indicators show nominal operating state through the engineering station diagnostics before resuming full network operation.