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GE IC697CPU782 CPU Module with 16 Megahertz Clock Speed 512 Kilobytes RAM
GE IC697CPU782 CPU Module with 16 Megahertz Clock Speed 512 Kilobytes RAM
16 megahertz clock speed CPU Module
512 kilobytes RAM GE IC697CPU782
0.4 microseconds boolean execution GE Mark VIe Controller
Place of Origin:
USA
Brand Name:
General Electric
Model Number:
IC697CPU782
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Product Details
Product Type:
CPU Module
Discrete I/O Memory:
12 KB
Analog I/O Memory:
8 KB
Clock Speed:
16 Megahertz
Maximum RAM:
512 Kilobytes
Current Input:
1.6 Amps
Serial Port:
1
Voltage Input:
5 Volts DC
Highlight:
16 megahertz clock speed CPU Module
,512 kilobytes RAM GE IC697CPU782
,0.4 microseconds boolean execution GE Mark VIe Controller
Payment & Shipping Terms
Minimum Order Quantity
1
Price
66USD
Packaging Details
Brand new and original
Delivery Time
2-3 work days
Payment Terms
T/T
Supply Ability
in stock
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Product Description
Product Specifications
| Product Model | IC697CPU782 |
| Product Parameters | CPU module |
| Country of Origin | USA |
| Place of Shipment | Xiamen, China |
| Estimated Shipping Size | 4x21.7x29.2cm |
| Manufacturer | General Electric |
| Weight | 0.52 kg |
| Discrete I/O | 12 K, max (any combination) |
| LED Indicators | Module OK, RUN, Outputs enabled |
| Boolean Execution Speed | 0.4 microseconds per boolean function |
| Operating Temperature | 0 to 60 degrees Celsius |
| Communication Port | One (1) RS485 interface |
| VME Standard | System designed to support the VME standard C.1 |
Technical FAQs
How does the 0.4µs Boolean execution rate translate to real-world scan cycle performance?
The 0.4 microseconds per function rating refers specifically to the CPU's ability to process basic bit logic. In a high-density Series 90-70 environment, this rapid execution minimizes the internal overhead, allowing for deterministic control even when the 12K discrete I/O capacity is fully utilized. It is specifically optimized for high-speed material handling or synchronized motion control where scan-time jitter must be eliminated.
What are the specific constraints regarding the 12K Discrete I/O mapping?
The IC697CPU782 supports up to 12,288 discrete points. Unlike lower-tier controllers, this is a flexible "any combination" architecture. However, the actual throughput depends on the backplane load and the specific mix of input vs. output modules. It's critical to verify that the power supply (within the VME rack) can handle the cumulative current draw of the I/O modules mapped to this CPU's address space.
Why is the VME C.1 standard compliance significant for system upgrades?
By adhering to the VME standard C.1, the CPU782 functions as a true VMEbus controller. This allows the module to reside in a standard IC697 rack while maintaining high-speed data parity across the backplane. For legacy systems, this means you can integrate third-party VME-based specialized modules (like high-speed counters or vision cards) without encountering proprietary protocol bottlenecks.
How should the "Module OK" and "Outputs Enabled" LEDs be interpreted during a cold start?
During the power-up sequence, the Module OK LED must be steady; a blinking state indicates a failed power-up diagnostic or a checksum error in the firmware. The Outputs Enabled LED is a hardware-level safety indicator--it only illuminates when the CPU has successfully transitioned to RUN mode and the physical output disconnect (if present) is closed. If RUN is on but Outputs are not enabled, check the software configuration for an "Output Disable" command.
What are the physical mounting considerations for the 0.52kg module in high-vibration environments?
Despite its light 0.52kg weight, the 4x21.7x29.2cm form factor requires secure seating into the IC697 backplane connectors. In industrial settings with high vibration, ensuring the module is fully locked into the rack's top and bottom rails is vital to prevent momentary "backplane loss" faults, which would trigger a CPU halt or a VME bus parity error.
Can the single RS485 port handle simultaneous HMI and Programming access?
The onboard RS485 interface is a single-channel port. While it supports SNP and SNP-X protocols for multi-drop networking, it is best practice to use a port expander or a separate CMM (Communications Control Module) if simultaneous high-speed HMI polling and logic monitoring/programming are required. Using the native port for both during heavy traffic can lead to increased communication latency and slower HMI screen updates.
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Order Process
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- Expert Consultation: One of our specialists will jump on your inquiry. We don't just ship boxes; we provide solutions. We'll verify every part number and technical detail with you to ensure a perfect fit.
- Your Custom Quote: We'll deliver a transparent, all-in-one quote designed to fit your budget and timeline.
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Miya Zheng | Your Parts Specialist
Call: +86 180 2077 6792
Email: sales@amikon.cn
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