GE IS215VAMBH1A High-Reliability Analog & Module Bus Control Board Module for Mark VI Industrial Automation Systems
GE IS215VAMBH1A High-Reliability Analog & Module Bus Control Board Module for Mark VI Industrial Automation Systems
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Brand:GE Fanuc PLC Item No.:GE IS215VAMBH1A Product Origin:USA Product Dimensions:210 × 160 × 35 mm Product Weight:0.72 kg Payment:T/T, Western Union, Credit Card Goods_stock:15 Shipping Port:Xiamen, China Lead Time:1-3 Days Condition:Brand New And Original Warranty:1 Year Certificate:COO
The GE IS215VAMBH1A is an analog and module bus control board designed to provide dependable signal conditioning and communication across distributed control system architectures. Optimized for use in GE Mark VI automation platforms, this module reliably interfaces analog sensors, bus communications, and processing backplanes—ensuring that real-time inputs are captured accurately and passed efficiently to higher-level controllers.
This board’s combination of precision analog handling and robust bus logic makes it a valuable asset in power generation and industrial automation environments where signal integrity, control responsiveness, and fault-tolerant data transport are imperative.
Technical Specifications
Specification
Details
Brand
GE
Model
IS215VAMBH1A
Module Type
Analog & Module Bus Control Board Module
System Compatibility
GE Mark VI Turbine/Control Systems
Primary Function
Analog signal capture and module bus coordination
Mounting
Rack-mounted PCB
Power
Backplane powered
Operating Temperature
0°C to +60°C
Storage Temperature
-40°C to +85°C
Humidity Range
5–95% non-condensing
Dimensions (L × W × H)
210 × 160 × 35 mm
Weight
0.72 kg
Signal Interfaces
Multiple analog inputs and module bus nodes
Connector Type
Backplane edge connector
Recommended Related Models
For a robust and balanced control system setup, pair the IS215VAMBH1A with these GE modules:
GE IS200VTURH1B – Protection & Sequencing Board
GE IS200VRTDH1D – Control Coordination Module
GE IS200VVIBH1C – Vibration Monitoring & Protection Board
GE IS200VSPAH1A – Signal Processing Board
GE IS200VTCCH1C – Communication Coordination Board
Popular GE Control Modules
These commonly deployed modules complement the IS215VAMBH1A in industrial automation:
GE IS200DSPXH1D – Digital Signal Processing Board
GE IS200VSVOH1B – Servo Control Board
GE IS200VCRCH1B – Control Register Board
GE IS200TBAIH1C – Analog Input Board
GE IS215UCVEM06A – Control Interface Board
Applications
The GE IS215VAMBH1A module is typically used in:
Analog signal acquisition and conditioning
Module bus coordination in control racks
Turbine control signal aggregation
Industrial power generation control systems
Real-time monitoring and protection architectures
System upgrades and retrofit applications
Its accurate analog sampling and efficient bus communication support stable system behavior under varying load conditions.
Advantages
Precise Analog Handling
Accurately captures and conditions analog signals from multiple field sources.
Reliable Bus Coordination
Ensures efficient data transport across module networks within control racks.
Industrial Durability
Designed for continuous operation in environments with temperature and humidity variation.
Seamless Integration
Direct compatibility with Mark VI backplane architecture reduces installation complexity.
Supports Scalable Architectures
Useful in both legacy systems and modernized configurations requiring dependable analog interfacing.
Technical FAQs
1. What primary function does the IS215VAMBH1A serve?
It handles analog signal capture and coordinates data across the module bus in control systems.
2. What system platforms is it compatible with?
It is engineered for GE Mark VI turbine and automation control systems.
3. What are the physical dimensions?
210 × 160 × 35 mm.
4. How much does it weigh?
Approximately 0.72 kg.
5. Does it require external power wiring?
No, it is powered through the system backplane.
6. What environmental conditions can it tolerate?
It operates between 0°C and +60°C with humidity up to 95% non-condensing.
7. Can it be used in retrofit projects?
Yes, it is commonly used for system modernization and replacement scenarios.
8. What interfaces does it support?
Multiple analog inputs and module bus communication paths through backplane connectors.
9. Is it suitable for continuous industrial use?
Yes, it is engineered for 24/7 operation in industrial environments.
10. What modules pair well with it?
Protection, coordination, signal processing, and communication modules are commonly paired for full control rack functionality.
