IS215UCVDH1AK - Double-slot Board

IS215UCVDH1AK - Double-slot Board IS215UCVDH1AK - Double-slot Board

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SPECIFICATIONS

Part No.: IS215UCVDH1AK
Manufacturer: General Electric
Country of Manufacture: United States of America (USA)
Power Requirements: +5 V dc, 6 A /+12 V dc, 200 mA /-12 V dc, 200 mA
OS: QNX
Microprocessor: AMD-K6 300 MHz
Technology: Surface-mount
Product Type: Double-slot Board
Availability: In Stock
Series: Mark VI

Functional Description

IS215UCVDH1AK is a Double-slot Board developed by GE. It is part of Mark VI control system. The UCVD board stands as a pivotal component within the system architecture, boasting robust processing capabilities and connectivity options essential for system functionality. The board is equipped with a powerful 300 MHz AMD K6 processor, ensuring swift and efficient execution of computational tasks. This processing prowess enables the board to handle complex operations and data processing with ease, contributing to system responsiveness and performance.

Features

  • Memory Capacity: With 8 MB of flash memory and 16 MB of dynamic random-access memory (DRAM), the board offers ample storage and memory resources for storing critical system firmware, configurations, and temporary data. This memory configuration facilitates seamless operation and accommodates the storage requirements of various applications and processes.
  • Connectivity Options: The board features a single 10BaseT Ethernet port with an RJ-45 connector, providing seamless connectivity to the UDH (Unified Data Hub) or other network devices. This Ethernet interface enables communication with external systems, facilitating data exchange, remote monitoring, and control capabilities essential for system integration and interoperability.
  • Dual-Slot Design: As a double-slot board, the board occupies two slots within the system chassis, maximizing utilization of available space and enhancing system scalability. This design feature allows for efficient integration of additional functionalities or expansion modules, catering to evolving system requirements and future growth.
  • Versatile Application Scenarios: The board finds application across various industries and domains, including telecommunications, industrial automation, and embedded systems. Its versatile processing capabilities and connectivity options make it suitable for a wide range of applications, from data processing and control to network communication and management.

Components

  • Ethernet Port for UDH Communication: Features an Ethernet port with an RJ-45 connector, facilitating communication with the Unified Data Hub (UDH) or other network devices. This port enables seamless data exchange and network connectivity, crucial for system integration and interoperability.
  • Controller and Communication Status LEDs: LED indicators for visual feedback on the status of controller operation and communication activities. These LEDs offer real-time monitoring of system health and communication status, allowing for quick identification of potential issues or errors.
  • Monitor Port for GE Use Only: A dedicated monitor port is provided for General Electric (GE) use only. This port serves as an interface for connecting monitors or display devices, facilitating system monitoring and diagnostic tasks specific to GE applications.
  • COM1 RS-232C Port for Initial Controller Setup: The COM1 RS-232C port is utilized for initial controller setup and configuration tasks. This port enables serial communication with external devices, such as computers or programming tools, facilitating system setup and configuration processes.
  • Special Ports for GE Use: The UCVD board includes special ports dedicated to GE-specific functionalities, including connections for printers, keyboards, and mice. These ports support peripheral devices essential for system operation and user interaction within GE environments.
  • COM2 RS-232C Port for Serial Communications: The COM2 RS-232C port serves as an additional serial communication interface, supporting serial data exchange with external devices. This port enables flexible communication options for various applications, including data acquisition, control, and monitoring.
  • Status LEDs Showing Runtime Error Codes: Runtime error codes and status indicators are displayed through dedicated LEDs on the board. These LEDs provide valuable diagnostic information, indicating errors or issues encountered during system runtime, startup, configuration, or download processes.
  • Hard Disk Connector for GE Use: A dedicated hard disk connector is provided for GE-specific use, facilitating storage and access to critical system data and configurations. This connector supports the integration of hard disk drives for expanded storage capacity and data management capabilities.
  • Receptacle for Genius Cable Plug: Features a receptacle for connecting Genius cable plugs, facilitating communication with Genius devices or peripherals. This interface supports data exchange and control functions within the system, enhancing interoperability and flexibility.
  • ISBus Drive LAN (Not Used): Includes an ISBus drive LAN port, although it is not utilized in the current configuration. This port may be reserved for future expansion or compatibility with specific applications or network protocols.

LEDs

  • ACTIVE LED: This LED illuminates when the processor is active and operational. It indicates that the board is powered on and executing tasks as expected.
  • SLOT 1 LED: When the controller is configured as the slot 1 controller within the VME rack, this LED lights up. It provides visual confirmation of the board's position and role within the rack configuration.
  • BMAS LED: The BMAS LED indicates VME master access activity. When lit, it signifies ongoing communication and data exchange as the board acts as a VME bus master.
  • ENET LED: Ethernet activity is represented by the ENET LED. When illuminated, it indicates data transmission or reception through the Ethernet port, showcasing network connectivity and communication status.
  • BSLV LED: Similar to the BMAS LED, the BSLV LED indicates VME slave access activity. Its illumination signals that the board is engaged in communication as a VME bus slave device.
  • STATUS LED: The STATUS LED provides visual feedback on the overall status of the board. It displays a rotating LED pattern when the board is functioning correctly. In case of a fault or error, this LED flashes an error code, alerting users to potential issues.
  • FLSH LED: Writing to Flash memory triggers the illumination of the FLSH LED. It indicates ongoing data writing operations to the Flash memory, ensuring users are aware of memory access activities.
  • GENX LED: The GENX LED illuminates when Genius I/O functionality is active. It signals the engagement of Genius I/O devices or peripherals, facilitating data exchange and control operations.

The WOC team is always available to help you with your Mark VI requirements. For more information, please contact WOC.

Frequently Asked Questions

What is IS215UCVDH1AK?
It is a Double-slot Board developed by GE under the Mark VI series.

What type of physical connection does the Ethernet interface use?
The Ethernet interface utilizes a twisted pair 10BaseT connection with an RJ-45 connector. This standardized connection method ensures compatibility with a wide range of networking equipment and facilitates easy installation.

Which communication protocol is employed for communication between the controller and the toolbox?
The TCP/IP protocol is utilized for communication between the controller and the toolbox. This widely adopted protocol ensures reliable data transmission and facilitates seamless integration with various networked devices and systems.

What protocol is used for communication between the controller and the Human-Machine Interface (HMI)?
The Serial Request Transfer Protocol (SRTP) interface is employed for communication between the controller and the HMI. This protocol enables efficient data exchange and synchronization between the controller and the graphical user interface provided by the HMI.

Which protocol is utilized for communication with CIMPLICITY HMI and Series 90-70 PLCs?
The EGD protocol is utilized for communication with CIMPLICITY HMI and Series 90-70 PLCs. This protocol enables seamless integration and data exchange between the controller and these specific HMI and PLC systems.