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General Electric IS215UCVHM06A / IS415UCVHH1A High-Performance Control Processor Module
Manufacturer:GE Fanuc
Product Number:IS215UCVHM06A IS415UCVHH1A
Product Type:High-performance control processor module
Origin:USA
Dimensions:267 mm × 40 mm × 240 mm
Weight:1.02 kg
Views:123
Payment Methods:T/T, PayPal, Western Union
Condition:New & In Stock
Warranty:1 Year
Lead Time:1-3 Working Days
Certificate:COO
Courier partners:DHL, UPS, TNT, FedEx and EMS.
Business hours:7*24
Product Description
The GE IS215UCVHM06A and IS415UCVHH1A processor modules are advanced control CPUs engineered for Mark VI / Mark VIe turbine and power plant automation systems. These units form the computational core of GE’s control environment, offering deterministic processing, robust redundancy features, and secure interfacing with high-speed industrial networks.
This whitepaper-style overview outlines their technical architecture, operational characteristics, and integration benefits for large-scale energy and industrial automation systems.
Technical Architecture & Specifications
| Parameter | Specification |
|---|---|
| Manufacturer | GE Industrial / GE Energy |
| Models | IS215UCVHM06A, IS415UCVHH1A |
| Module Type | High-performance control processor module |
| Platform Compatibility | Mark VI, Mark VIe control systems |
| Processor Type | High-speed industrial embedded CPU |
| Memory Resources | Extended RAM + non-volatile storage |
| Redundancy Support | Yes, supports hot-backup architectures |
| Backplane Interface | VME / proprietary GE control bus |
| Communication Options | Ethernet, serial channels, internal control networks |
| Diagnostic Functions | Self-test routines, watchdog, fault isolation |
| I/O Handling | High-speed deterministic I/O scheduling |
| Operating Voltage | Rack-supplied backplane power |
| Operating Temperature | 0°C to 60°C (32°F to 140°F) |
| Storage Temperature | -40°C to 85°C |
| Humidity | 5–95% non-condensing |
| Dimensions (H × W × D) | 267 mm × 40 mm × 240 mm (10.5 in × 1.6 in × 9.4 in) |
| Weight | 1.02 kg (2.25 lb) |
| Mounting | Mark VI / Mark VIe rack |
| Compliance | Industrial-grade EMC and vibration tolerance |
Primary Application Domains
Due to their deterministic behavior and high system integrity, these modules are widely deployed in:
-
Gas turbine and steam turbine control
-
Generator management and protection systems
-
Large utility-scale power plants
-
Pipeline compressor and pump control
-
Industrial energy management systems
-
Process automation requiring fault-tolerant CPU redundancy
Their ability to execute time-critical logic makes them essential for safety-critical turbine sequencing and I/O coordination.
Operational Advantages
-
Deterministic Processing Engine
Guarantees consistent execution cycle times for high-priority turbine logic.
-
Robust Redundancy Infrastructure
Built-in capability for active/standby CPU arrangements.
-
Enhanced Communication Layer
Supports high-bandwidth Ethernet and internal control buses.
-
Advanced Diagnostic Framework
Includes self-monitoring, watchdog timers, and event-driven fault reporting.
-
Hardened for Industrial Disturbances
Resistant to EMI, temperature swings, and vibration typical in turbine halls.
-
Stable Long-Term Operation
Designed for 24/7 mission-critical activity with minimal downtime.
-
Secure Memory Architecture
Protects configuration, logic, and historical data during power cycles.
FAQs
-
Are these modules designed for Mark VI or Mark VIe systems?
They support both, depending on system configuration.
-
Do the modules provide hot-backup redundancy?
Yes, redundancy is a core design feature.
-
What communication interfaces are available?
Ethernet, serial, and proprietary internal buses.
-
Do they handle high-speed I/O tasks?
Yes, they schedule and process I/O deterministically.
-
Is backplane power required?
All operational power is provided through the rack backplane.
-
Are these modules suitable for turbine sequencing logic?
Yes, they are optimized for turbine and protection control.
-
What operating temperature range is supported?
0°C to 60°C.
-
Do they contain onboard diagnostics?
They run continuous self-tests and provide event-based fault isolation.
-
Are they interchangeable?
They are not direct substitutes; usage depends on system design.
-
Can they drive external I/O directly?
No, they coordinate I/O via Mark VI / Mark VIe terminal boards.
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General Electric IS215UCVHM06A / IS415UCVHH1A High-Performance Control Processor Module
Manufacturer:GE Fanuc
Product Number:IS215UCVHM06A IS415UCVHH1A
Product Type:High-performance control processor module
Origin:USA
Dimensions:267 mm × 40 mm × 240 mm
Weight:1.02 kg
Views:123
Payment Methods:T/T, PayPal, Western Union
Condition:New & In Stock
Warranty:1 Year
Lead Time:1-3 Working Days
Certificate:COO
Courier partners:DHL, UPS, TNT, FedEx and EMS.
Business hours:7*24
Product Description
The GE IS215UCVHM06A and IS415UCVHH1A processor modules are advanced control CPUs engineered for Mark VI / Mark VIe turbine and power plant automation systems. These units form the computational core of GE’s control environment, offering deterministic processing, robust redundancy features, and secure interfacing with high-speed industrial networks.
This whitepaper-style overview outlines their technical architecture, operational characteristics, and integration benefits for large-scale energy and industrial automation systems.
Technical Architecture & Specifications
| Parameter | Specification |
|---|---|
| Manufacturer | GE Industrial / GE Energy |
| Models | IS215UCVHM06A, IS415UCVHH1A |
| Module Type | High-performance control processor module |
| Platform Compatibility | Mark VI, Mark VIe control systems |
| Processor Type | High-speed industrial embedded CPU |
| Memory Resources | Extended RAM + non-volatile storage |
| Redundancy Support | Yes, supports hot-backup architectures |
| Backplane Interface | VME / proprietary GE control bus |
| Communication Options | Ethernet, serial channels, internal control networks |
| Diagnostic Functions | Self-test routines, watchdog, fault isolation |
| I/O Handling | High-speed deterministic I/O scheduling |
| Operating Voltage | Rack-supplied backplane power |
| Operating Temperature | 0°C to 60°C (32°F to 140°F) |
| Storage Temperature | -40°C to 85°C |
| Humidity | 5–95% non-condensing |
| Dimensions (H × W × D) | 267 mm × 40 mm × 240 mm (10.5 in × 1.6 in × 9.4 in) |
| Weight | 1.02 kg (2.25 lb) |
| Mounting | Mark VI / Mark VIe rack |
| Compliance | Industrial-grade EMC and vibration tolerance |
Primary Application Domains
Due to their deterministic behavior and high system integrity, these modules are widely deployed in:
-
Gas turbine and steam turbine control
-
Generator management and protection systems
-
Large utility-scale power plants
-
Pipeline compressor and pump control
-
Industrial energy management systems
-
Process automation requiring fault-tolerant CPU redundancy
Their ability to execute time-critical logic makes them essential for safety-critical turbine sequencing and I/O coordination.
Operational Advantages
-
Deterministic Processing Engine
Guarantees consistent execution cycle times for high-priority turbine logic.
-
Robust Redundancy Infrastructure
Built-in capability for active/standby CPU arrangements.
-
Enhanced Communication Layer
Supports high-bandwidth Ethernet and internal control buses.
-
Advanced Diagnostic Framework
Includes self-monitoring, watchdog timers, and event-driven fault reporting.
-
Hardened for Industrial Disturbances
Resistant to EMI, temperature swings, and vibration typical in turbine halls.
-
Stable Long-Term Operation
Designed for 24/7 mission-critical activity with minimal downtime.
-
Secure Memory Architecture
Protects configuration, logic, and historical data during power cycles.
FAQs
-
Are these modules designed for Mark VI or Mark VIe systems?
They support both, depending on system configuration.
-
Do the modules provide hot-backup redundancy?
Yes, redundancy is a core design feature.
-
What communication interfaces are available?
Ethernet, serial, and proprietary internal buses.
-
Do they handle high-speed I/O tasks?
Yes, they schedule and process I/O deterministically.
-
Is backplane power required?
All operational power is provided through the rack backplane.
-
Are these modules suitable for turbine sequencing logic?
Yes, they are optimized for turbine and protection control.
-
What operating temperature range is supported?
0°C to 60°C.
-
Do they contain onboard diagnostics?
They run continuous self-tests and provide event-based fault isolation.
-
Are they interchangeable?
They are not direct substitutes; usage depends on system design.
-
Can they drive external I/O directly?
No, they coordinate I/O via Mark VI / Mark VIe terminal boards.
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