Description
Overview
The 51202329-112 Honeywell I/O Link Cable Pair is a precision-engineered connectivity solution designed for Experion PKS Distributed Control Systems (DCS). Unlike hydraulic kits, this product is specifically manufactured to provide reliable signal transmission between controllers, I/O modules, and field devices. Its robust construction ensures dependable communication in industrial environments where stability and durability are critical.
Technical Specifications
| Parameter |
Value |
| Model Number |
51202329-112 |
| Manufacturer |
Honeywell |
| Product Type |
I/O Link Cable Pair |
| Product Range |
Experion PKS |
| Condition |
Brand New |
| System Compatibility |
DCS |
| Communication Interface |
Ethernet Router Support |
| Dimensions |
25 × 14 × 4 cm |
| Weight |
0.18 kg |
| HS Code |
8537101190 |
| Minimum Order Quantity |
1 |
| Origin |
USA |
| Availability |
In Stock |
| Lifecycle Status |
Active |
Key Features
-
Industrial-grade cable pair designed for stable I/O communication
-
Shielded construction to minimize electromagnetic interference
-
Compact dimensions for easy routing in control cabinets
-
Compatible with Honeywell Experion PKS systems
-
Long service life with high mechanical durability
Application Scenarios
-
Distributed Control Systems requiring reliable I/O connectivity
-
Process automation environments with high EMI exposure
-
Power generation plants and refineries needing robust cabling solutions
-
Integration of field devices into Honeywell Experion PKS networks
FAQ
Q: Is the 51202329-112 interchangeable with other Honeywell cable assemblies? A: It is specifically designed for Experion PKS systems but may be compatible with selected legacy Honeywell DCS modules.
Q: What industries typically use this cable pair? A: Oil and gas, power generation, chemical processing, and advanced manufacturing sectors.
Q: How does this model compare to similar Honeywell cables? A: The 51202329-112 offers enhanced shielding and optimized dimensions compared to standard I/O cables, ensuring better reliability in high-noise environments.