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General Electric IS215UCVGM06A / IS215UCVGH1A Industrial Control Processor Module
Manufacturer:GE Fanuc
Product Number:IS215UCVGM06A IS215UCVGH1A
Product Type:Industrial Control Processor Module
Origin:USA
Dimensions:268 mm × 40 mm × 240 mm
Weight:1.05 kg
Views:108
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
During commissioning phases for GE Mark VI and Mark VIe turbine control systems, the IS215UCVGM06A and IS215UCVGH1A processor modules frequently appear as key computational units. They manage logic execution, system synchronization, internal diagnostics, and interface with multiple high-speed control networks.
From field experience, these modules are valued not only for their raw processing capability but also for their predictable response timing—something critical when dealing with gas turbine fuel systems, servo positioning, and vibration protection logic.
Below is the detailed technical record compiled for practical deployment and system integration reference.
Technical Specifications
| Parameter | IS215UCVGM06A / IS215UCVGH1A Specification |
|---|---|
| Manufacturer | GE Industrial / GE Energy |
| Module Type | Industrial Control Processor Module |
| System Compatibility | Mark VI / Mark VIe platforms |
| Primary Role | CPU for sequencing, diagnostics, network management |
| Processor Level | High-speed embedded industrial CPU |
| Memory Structure | RAM + Non-volatile storage (system + application logic) |
| Network Interfaces | Ethernet + internal control buses |
| Redundancy Support | Yes – supports active/standby pairing |
| Self-Diagnostics | Boot tests, runtime monitoring, watchdog |
| Control Bus Interface | VME / proprietary GE control bus |
| Power Requirements | Supplied via control rack backplane |
| Operating Temperature | 0°C to 60°C |
| Storage Temperature | -40°C to 85°C |
| Humidity | 5–95% non-condensing |
| Dimensions (H × W × D) | 268 mm × 40 mm × 240 mm (10.55 in × 1.6 in × 9.4 in) |
| Weight | approx. 1.05 kg (2.31 lb) |
| Mounting Position | Mark VI / Mark VIe processor rack |
Practical Applications
-
Gas turbine control sequencing
Handles purge cycles, fuel valve modulation, start permissives, speed ramps.
-
Steam turbine supervisory logic
Trip solenoid control, valve stroke monitoring, vacuum & seal system integration.
-
Load control in combined cycle plants
Manages turbine-generator coordination under varying grid conditions.
-
Safety-critical system coordination
Interfaces with protection processors (e.g., TMR architectures).
-
High-speed data exchange with I/O networks
Maintains deterministic communication with terminal boards.
Advantages
-
Stable, predictable scan cycle
Important when the slightest delay impacts turbine fuel ratios.
-
Redundancy works smoothly
Failover is nearly transparent during tests if configured correctly.
-
High tolerance for electrical noise
Field environments near generators are notorious for EMI; these modules handle it well.
-
Easy integration with existing Mark VI / Mark VIe frameworks
Minimal adaptation needed when upgrading older units.
-
Strong diagnostic capability
Helpful during startup when verifying health of network paths and terminal boards.
-
Good long-term reliability
Many units run continuously for years with minimal service events.
FAQs
-
Do these CPUs support redundant configurations?
Yes, active/standby is supported.
-
Are UCVG modules interchangeable with UCVM or UCVD units?
No; compatibility depends on system hardware mapping.
-
Is Ethernet the primary communication channel?
Ethernet is used for control, diagnostics, and inter-processor communication.
-
Can they operate in high-vibration turbine enclosures?
Yes, if installed inside designated control cabinets.
-
Do they store application logic locally?
Yes, using non-volatile memory.
-
Is there a watchdog timer onboard?
Yes, part of the internal safety architecture.
-
Do these modules require external power?
No; rack backplane provides all required power.
-
Are firmware upgrades field-loadable?
Yes, but only through GE-approved procedures.
-
Can they communicate directly with I/O boards?
Communication is via control network—not direct wiring.
-
Are IS215UCVGM06A and IS215UCVGH1A directly interchangeable?
Only if the site configuration specifically allows it—always check system build sheets.
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General Electric IS215UCVGM06A / IS215UCVGH1A Industrial Control Processor Module
Manufacturer:GE Fanuc
Product Number:IS215UCVGM06A IS215UCVGH1A
Product Type:Industrial Control Processor Module
Origin:USA
Dimensions:268 mm × 40 mm × 240 mm
Weight:1.05 kg
Views:108
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
During commissioning phases for GE Mark VI and Mark VIe turbine control systems, the IS215UCVGM06A and IS215UCVGH1A processor modules frequently appear as key computational units. They manage logic execution, system synchronization, internal diagnostics, and interface with multiple high-speed control networks.
From field experience, these modules are valued not only for their raw processing capability but also for their predictable response timing—something critical when dealing with gas turbine fuel systems, servo positioning, and vibration protection logic.
Below is the detailed technical record compiled for practical deployment and system integration reference.
Technical Specifications
| Parameter | IS215UCVGM06A / IS215UCVGH1A Specification |
|---|---|
| Manufacturer | GE Industrial / GE Energy |
| Module Type | Industrial Control Processor Module |
| System Compatibility | Mark VI / Mark VIe platforms |
| Primary Role | CPU for sequencing, diagnostics, network management |
| Processor Level | High-speed embedded industrial CPU |
| Memory Structure | RAM + Non-volatile storage (system + application logic) |
| Network Interfaces | Ethernet + internal control buses |
| Redundancy Support | Yes – supports active/standby pairing |
| Self-Diagnostics | Boot tests, runtime monitoring, watchdog |
| Control Bus Interface | VME / proprietary GE control bus |
| Power Requirements | Supplied via control rack backplane |
| Operating Temperature | 0°C to 60°C |
| Storage Temperature | -40°C to 85°C |
| Humidity | 5–95% non-condensing |
| Dimensions (H × W × D) | 268 mm × 40 mm × 240 mm (10.55 in × 1.6 in × 9.4 in) |
| Weight | approx. 1.05 kg (2.31 lb) |
| Mounting Position | Mark VI / Mark VIe processor rack |
Practical Applications
-
Gas turbine control sequencing
Handles purge cycles, fuel valve modulation, start permissives, speed ramps.
-
Steam turbine supervisory logic
Trip solenoid control, valve stroke monitoring, vacuum & seal system integration.
-
Load control in combined cycle plants
Manages turbine-generator coordination under varying grid conditions.
-
Safety-critical system coordination
Interfaces with protection processors (e.g., TMR architectures).
-
High-speed data exchange with I/O networks
Maintains deterministic communication with terminal boards.
Advantages
-
Stable, predictable scan cycle
Important when the slightest delay impacts turbine fuel ratios.
-
Redundancy works smoothly
Failover is nearly transparent during tests if configured correctly.
-
High tolerance for electrical noise
Field environments near generators are notorious for EMI; these modules handle it well.
-
Easy integration with existing Mark VI / Mark VIe frameworks
Minimal adaptation needed when upgrading older units.
-
Strong diagnostic capability
Helpful during startup when verifying health of network paths and terminal boards.
-
Good long-term reliability
Many units run continuously for years with minimal service events.
FAQs
-
Do these CPUs support redundant configurations?
Yes, active/standby is supported.
-
Are UCVG modules interchangeable with UCVM or UCVD units?
No; compatibility depends on system hardware mapping.
-
Is Ethernet the primary communication channel?
Ethernet is used for control, diagnostics, and inter-processor communication.
-
Can they operate in high-vibration turbine enclosures?
Yes, if installed inside designated control cabinets.
-
Do they store application logic locally?
Yes, using non-volatile memory.
-
Is there a watchdog timer onboard?
Yes, part of the internal safety architecture.
-
Do these modules require external power?
No; rack backplane provides all required power.
-
Are firmware upgrades field-loadable?
Yes, but only through GE-approved procedures.
-
Can they communicate directly with I/O boards?
Communication is via control network—not direct wiring.
-
Are IS215UCVGM06A and IS215UCVGH1A directly interchangeable?
Only if the site configuration specifically allows it—always check system build sheets.
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