GE IS215UCVEH2A VME Controller Card

GE IS215UCVEH2A VME Controller Card

Part Number IS215UCVEH2A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI Function Module Availability In StockIS215UCVEH2A is a VME Controller Card designed by General Electric as a part of the Mark VI Series used in gas turbine control management systems. The UCVE is available in multiple forms, UCVEH2 and UCVEM01 to UCVEM10. The UCVEH2 is the standard controller. It is a single-slot board using a 300 MHz Intel Celeron processor with 16 MB of flash memory and 32 MB of DRAM. A single 10BaseT/100BaseTX (RJ-45) Ethernet port provides connectivity to the toolbox or to other control devices. 

The UCVEM modules have all the features of the UCVEH2, and can also support additional Ethernet ports, as well as Profibus, ISBus, or DLAN interfaces. Some UCVEM_ _ modules support secondary 10BaseT/100BaseTX Ethernet ports for use on a separate IP logical subnet. Configuration of the secondary Ethernet port is performed through the toolbox. The controller validates its toolbox configuration against the existing hardware each time the rack is powered up. A separate subnet address allows the controller to uniquely identify an Ethernet port.

SPECIFICATIONS:

Part No.: IS215UCVEH2A
Manufacturer: General Electric
Series: Mark VI
Product Type: Processor
Function: VME Controller Card
Operating System: QNX
Microprocessor: Intel Celeron 300 MHz
Memory: 32 MB DRAM
Primary Ethernet Interface (Ethernet 1): Twisted pair 10BaseT/100BaseTX, RJ-45 connector
COM Ports: COM1
Power Requirements: +5 V dc, 6 A typical, 8 A max
Programming: Boolean
Operating temperature: -30 to 65°C
Size: 8.26 cm high x 4.19 cm
Repair: 3-7 Day
Availability: In Stock
Weight: 2 lbs
Country of Origin: United States
Manual: GEH-6421M

COMPONENTS OF A VME CONTROLLER CARD:

Processor: The processor is the heart of the VME Controller Card, responsible for executing instructions and managing tasks. Modern VME cards often feature high-performance processors that can handle complex computations.

Memory: Memory on a VME Controller Card stores data temporarily for quick access by the processor. This includes both volatile memory (RAM) and non-volatile memory (ROM or flash storage).

Interface Ports: Interface ports allow the VME Controller Card to connect with other devices and modules. Common interfaces include Ethernet, USB, and serial ports, facilitating versatile connectivity options.

How VME Controller Cards Work:

Communication Protocols: VME Controller Cards use specific communication protocols to interact with other modules. These protocols ensure data integrity and efficient communication across the VMEbus.

Data Transfer Mechanisms: Data transfer within VME systems is typically managed through direct memory access (DMA), which allows high-speed data exchange without burdening the CPU.