5X00481G04 Ovation OCR1100 Controller CPU Processor Module
5X00481G04 Ovation OCR1100 Controller CPU Processor Module
5X00481G04 Ovation OCR1100 Controller CPU Processor Module
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5X00481G04 Ovation OCR1100 Controller CPU Processor Module

  • Manufacturer: Emerson

  • Part Number: 5X00481G04

  • Condition:New with Original Package

  • Product Type: CPU Processors

  • Country of Origin: USA

  • Payment:T/T, Western Union

  • Shipping port: Xiamen

  • Warranty: 12 months

Emerson 5X00481G04 Processor Module

The Emerson 5X00481G04 serves as the primary 5X00481G04 Processor Module utilized to execute deterministic control strategies across Ovation OCR1100 platforms.

Hardware Specifications

Parameter Specification
Model 5X00481G04
Brand Emerson
Origin USA
Weight 0.14 kg
Dimensions 2.7 cm x 12.5 cm x 15.5 cm
Operating Temp 0 to 60 deg C
Power Consumption Low-power design (thermal efficient execution)
Controller Platform Ovation OCR1100
Architecture CompactPCI 3U form factor
I/O Capacity Up to 32,000 process I/O points
Control Tasks 5 concurrent tasks with priority scheduling
Loop Speeds 10 ms to 30 s (configurable)
Communication Dual Ethernet ports for redundant connectivity

4-20 mA HART Loop Protocol and Channel-to-Channel Isolation

The processor module functions as the central logic engine inside the Controller Rack 1100 architecture. While separate analog interface cards directly process the 4-20 mA HART loop protocol parameters, this CPU card manages the digitized loop values over the redundant backplane bus. The assembly governs complex PID loops, sequential batch tasks, and digital logic distribution while maintaining galvanic channel-to-channel isolation parameters through mapped I/O subsystems. This processing boundary blocks structural common-mode voltages and electrical transients from disrupting the inner execution core during high-density synchronization across both Ovation and WDPF legacy configurations.

Frequently Asked Questions

Q: How does the 5X00481G04 execute bumpless failover within a redundant controller pair?

A: The processor maintains real-time data replication with the secondary tracking unit via the dual redundant Ethernet pathways. Upon detection of a primary hardware fault, the backup module takes over control loop execution without dropping backplane status words or causing loop disruption.

Q: What limitations govern the live replacement of this CPU card inside an operational 3U CompactPCI rack?

A: The hardware supports hot-swap operations, allowing operators to extract a faulted unit. The tracking redundant processor continues running the active 32,000 I/O database without affecting physical process loops or triggering network timeouts.

Q: Does this specific OCR1100 module utilize active thermal cooling solutions?

A: The board relies exclusively on passive, fanless thermal dissipation. The thermal energy dissipates outward through the integrated aluminum front plate and faceplate assembly, matching the strict 0 to 60 deg C operating bounds.

Field Installation Guidelines

  • CompactPCI Rack Alignment: Slide the card along the dedicated 3U guide rails uniformly until the backplane connectors seat completely, preventing pin deformation.
  • Redundant Network Cabling: Connect distinct, separated physical paths to the dual Ethernet ports to ensure independent media routing for the system redundancy layout.
  • Electrostatic Grounding Setup: Wear a grounded wrist strap connected directly to the bare metal cabinet chassis prior to unboxing or sliding the processor card.
  • Chassis Fastener Torque: Tighten both integrated module locking screws fully to establish a solid ground path between the card faceplate and the subrack frame.
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