DS215MVPAH1AA - VME Transmission Processor Board

SPECIFICATIONS:

Part Number: DS215MVPAH1AA
Manufacturer: General Electric
Series: Mark V
Product Type: VME Transmission Processor Board
Number of channels: 12
Input voltage: 125 - 400 VDC
Power Supply: 24V DC / 125V DC
Nominal power: up to 1000 W
Input Frequency Range: 0 Hz – 10 kHz
Input Voltage (MPU Sensors): 5V – 50V AC
Trip Relay Voltage: 24V DC / 125V DC
Input auxiliary voltage: up to 20 V DC
Operating Temperature: -20°C to +70°C
Vibration Resistance: 0.5g
Size: 8.25 cm high x 4.18 cm
Repair: 3-7 Days
Availability: In Stock
Weight: 2.5 Kg
Country of Origin: United States

FUNCTIONAL DESCRIPTION:

DS215MVPAH1AA is a VME Transmission Processor Board manufactured and designed by General Electric as part of the Mark V Series used in GE Speedtronic Gas Turbine Control Systems. It’s a specialized embedded computing board designed for high-speed data transmission and processing within a VMEbus (Versa Module Europa) system. The VP 92x/01x supports dual-core and quad-core 3rd generation Intel Core i7 processors, paired with the Mobile Intel QM77 Express chipset and up to 16 GB of ECC DRAM. This processor architecture enhances graphics and processing performance while maintaining the same power efficiency as previous generations. It also supports compute-intensive applications through OpenCL compatibility. The board offers diverse I/O options, including front panel DVI-D, VGA, Ethernet, and USB interfaces, with additional graphics, USB, and Ethernet connections via rear connectors. Rear I/O also includes 8x GPIO signals, SATA, and HD Audio. Expansion is possible through one or two PMC or XMC modules.

INSTALLATION:

The board typically supports high-performance processors, such as Intel Core i7 or PowerPC, along with ECC DRAM for enhanced data integrity. It integrates multiple I/O interfaces, including Ethernet, USB, SATA, GPIO, and serial connections, to facilitate connectivity with external devices. Additionally, the front panel and rear connectors provide options for VGA, DVI-D, and HD Audio output. Expansion capabilities are also available, allowing users to integrate PMC or XMC modules for added functionality. This flexibility makes the VME Transmission Processor Board adaptable to various application requirements.

Installation involves inserting the board into a VME chassis, ensuring proper alignment with the backplane connectors, and securing it with ejector handles. Once powered on, the board initializes its firmware and hardware components, preparing itself for operation. Through VITA 31.1 Gigabit Ethernet, it enables a LAN-based multiprocessor setup, leveraging standard Ethernet infrastructure for efficient data exchange. Its support for OpenCL further enhances processing capabilities, making it suitable for compute-intensive tasks such as signal processing and real-time analytics.

OPERATION:

The VME Transmission Processor Board initiates its operational processes by booting up and initializing hardware components. The board runs its firmware, configures system settings, and, if applicable, loads the operating system. This setup ensures that all interfaces, including Ethernet, USB, SATA, and GPIO, are ready for communication and data processing. The board’s VITA 31.1 Gigabit Ethernet capability allows it to establish high-speed network connections, enabling seamless data exchange in multiprocessor environments.

During normal operation, the board processes and transmits data across the VME64x backplane, ensuring real-time communication between multiple modules in the system. It utilizes advanced computing technologies, including OpenCL support, for handling compute-intensive tasks such as signal processing, image analysis, and high-speed data transfers. The presence of ECC DRAM ensures data integrity, reducing the risk of memory errors that could affect system stability.

WOC offers the largest inventory of replacement parts for GE Speedtronic Gas Turbine Control Systems. We provide both unused and rebuilt boards backed by warranty as well as expert repair services for damaged units. Our team of professionals is available 24/7 to support all your OEM and automation requirements. For pricing and availability on components or repair services, please reach out to us via phone or email.

FREQUENTLY ASKED QUESTIONS:

What processors are supported by the VME Transmission Processor Board?

The VME Transmission Processor Board supports high-performance processors, including dual-core and quad-core 3rd-generation Intel Core i7 processors. These processors provide enhanced graphics and processing capabilities while maintaining efficiency within the same power budget.

What memory options are available on the board?

The board supports up to 16 GB of ECC DRAM, which ensures high data integrity and minimizes errors during processing. ECC (Error-Correcting Code) memory is essential for mission-critical applications, as it detects and corrects memory errors before they can impact system performance.

What are the key I/O interfaces available on the board?

The VME Transmission Processor Board includes a wide range of I/O interfaces to support various connectivity requirements. The front panel provides DVI-D and VGA outputs for display connections, while Ethernet and USB ports enable seamless communication with external devices. Additional rear I/O options include multiple Ethernet and USB interfaces, 8 GPIO signals, SATA for storage devices, and HD Audio support.

How does the board support networking and multiprocessor communication?

The board features VITA 31.1 Gigabit Ethernet, which allows for efficient network-based multiprocessor communication over a VME64x backplane. This technology enables a scalable and high-speed data exchange system by leveraging widely available Ethernet hardware and TCP/IP networking protocols. The integration of standard networking tools, clustering capabilities, and network management solutions further enhances its adaptability in complex computing environments.