Home     GE Turbine Control     GE     DS3800HARA

ProductS

DS3800HARA

EAROM CARD
Product DESCRIPTION
Part Number
DS3800HARA
Manufacturer
General Electric
Country of Manufacture
As Per GE Manufacturing Policy
Series
Mark VI/VIe
Function
Module
Availability
In Stock
services we provide
Purchase Icon
Testing & Repair
Repair and Testing of circuit boards to diagnose ensure functionality to maintain current inventory and retain obsolete circuit boards/modules.
Exchange Icon
Training
Controls including HMI Training for Engineers, Technicians and Operators with wide variety of practical equipment including Management and Health & Safety.
Repair Icon
Purchase
You upgrade equipment and we purchase your surplus inventory to maximize the value of unused or end of life assets.
TECHNICAL SPECIFICATIONS FOR GE - DS3800HARA

DS3800HARA is a EPROM Card designed and developed by GE. It is a part of Mark IV control system.The hardware design of Mark IV panel represents a dynamic and forward-thinking approach. By aiming to accommodate a wide array of customer requirements and prioritizing on-the-fly repairability, it underscores the commitment to reliability, efficiency, and adaptability in industrial control systems. Over time, the panel's performance in meeting the ever-evolving needs of customers will be the ultimate measure of its success.

Versatility in Customer Panel Requirements

  • Base Design Versatility: One primary objective of the hardware design was to create a base design that could cater to the requirements of approximately 95% of customers without the need for significant hardware modifications. This adaptability primarily involves the addition or removal of optional cards, modules, or cables.
  • Software Configuration: To achieve this, the primary focus was on utilizing software configuration to accommodate specific customer requirements. The software was designed to be flexible and capable of adapting to a range of operational needs.
  • Historical Requirements Testing: The hardware design was rigorously tested against historical requirements, ensuring that it met the demands of existing customers effectively. This served as a benchmark for its versatility.
  • Future Needs Consideration: While the design was validated against past needs, it was also forward-thinking. Anticipating customers' future requirements, the design aimed to provide a platform that could evolve with changing demands. The true test of this objective's success would unfold over time as customer needs continued to evolve.

Ensuring Minimal Downtime

  • Running Turbine While Repairing: An equally crucial objective was to ensure that the panel could be repaired and maintained while the turbine was in operation. This goal required meticulous planning and design to minimize downtime and optimize operational efficiency.
  • Accessible Component Replacement: To achieve this, substantial effort was invested in arranging the panel in a manner where most of its components could be replaced with ease and safety, even with the panel energized and the turbine running.
  • Strategic Component Location: To enable seamless repairability, the modules containing the majority of active components, which are more likely to fail, were strategically located on the front doors of the panel. This arrangement ensures easy access to critical parts.
  • Minimizing Disruption: The emphasis on repairability while the turbine runs not only reduces maintenance time but also minimizes disruptions in industrial processes. This aligns with the objective of enhancing operational efficiency.
featured products
  • IS420UCSBH4A
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS220PSCAH1B
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS220PDIAH1B
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS220PDOAH1B
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS200STCIH2A
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS200SRLYH2A
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS200SSCAH2A
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS200SHRAH2A
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems
  • IS220PPROS1B
    Module manufactured by General Electric as part of the Mark VI/VIe Series used in gas turbine speedtronic control systems