IC693CPU311-AE GE Fanuc 5-Slot CPU | New & Original Stock
Manufacturer: GE Fanuc
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Part Number: IC693CPU311-AE
Condition:New with Original Package
Product Type: CPU Processors
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Country of Origin: USA
Payment:T/T, Western Union
Shipping port: Xiamen
Warranty: 12 months
GE Fanuc IC693CPU311-AE Series 90-30 PLC
The GE Fanuc IC693CPU311-AE, also cataloged as the GE Fanuc IC693CPU311 Base 5-Slot with CPU, operates as a dedicated hardware component for logic calculation and memory execution within Series 90-30 PLC platform networks.
Hardware Specifications
| Parameter | Specification |
|---|---|
| Model | IC693CPU311-AE |
| Brand | GE Fanuc |
| Origin | USA |
| Weight | 0.75 kg (1.65 lbs) base unit / 1.8 kg complete assembly |
| Dimensions | 95 mm x 100 mm x 30 mm |
| Operating Temp | 0 to +60 deg C |
| Power Consumption | Backplane logic load dependent |
| Processor Type | Intel 80188, 16-bit architecture |
| Processor Speed | 10 MHz |
| User Program Memory | 6 KB to 12 KB variant dependent |
| Data Memory | 16 KB volatile/non-volatile configurable |
| Boolean Execution Speed | 18 ms per 1K logic instructions |
| Discrete I/O Points | 160 points baseline / Up to 512 points expansion |
| Analog I/O Channels | 64 Input / 32 Output baseline (Up to 128 channels) |
| Communication Ports | 1 x Serial SNP/SNPX (RS-232/RS-485) |
| Baseplate Configuration | 5-slot main chassis |
| Certifications | UL, CE, CSA approved |
Industrial Control and Drives Deterministic Bus Architecture
The integrated central processing unit utilizes a 16-bit hardware architecture to manage local backplane bus communication velocity across the 5-slot chassis structure. The physical backplane trace routing facilitates direct synchronization between the logic processor and both discrete and analog I/O density scaling options. Firmware flash compatibility rules control synchronous data swaps across the serial SNP/SNPX link interfaces, maintaining rigid instruction scan timing profiles and isolating internal data registers from external line variations during concurrent programming or SCADA data polling cycles.
Frequently Asked Questions
Q: What are the backplane current constraints when utilizing all 5 available chassis slots for high-density discrete modules?
A: The embedded power supply section of the baseplate allocates fixed milliamp limits for the 5 VDC and 24 VDC internal logic rails. System designers must tally the continuous current draw of all inserted Series 90-30 cards to ensure total consumption remains below the maximum power unit threshold.
Q: Can the IC693CPU311-AE module undergo a live hot-swap replacement while the backplane bus is energized?
A: No, the Series 90-30 rack architecture does not support hot-swap execution for central processing units. Removing or inserting the processor assembly while power is applied to the baseplate can cause temporary bus failure, register corruption, or permanent damage to the solid-state logic gates.
Field Installation Guidelines
- Chassis Alignment and Mechanical Securing: Fix the 5-slot baseplate onto standard DIN-rail tracks or bolt it securely to the interior metallic sub-panel of the enclosure. Ensure all structural ground springs on the back of the chassis maintain direct metal-to-metal contact with the panel surface.
- Serial Comm Cable Isolation: Route the serial SNP/SNPX communication lines through dedicated wiring ducts separate from high-current AC motor leads or industrial drive lines. This separation mitigates field-induced electromagnetic interference across the RS-485 transceiver.
- Cabinet Thermal Boundary Regulations: Position the 5-slot chassis assembly horizontally within the panel enclosure to enable natural chimney-effect air convection through the module vents. Verify that local heat loads do not push ambient air temperatures past the +60 deg C operational boundary.