1 of 3

General Electric DS200TCEAG1BTF Mark V Emergency Overspeed Board

General Electric DS200TCEAG1BTF Mark V Emergency Overspeed Board

Only 7 item(s) left in stock
  • Manufacturer: General Electric

  • Product No.: DS200TCEAG1B

  • Country of origin:United States

  • Product Type: Emergency Overspeed Board

  • Barcode: 8537101190

  • Payment: T/T, Western Union

  • Weight: 650g

  • Dimensions: 280 mm x 180 mm x 35 mm (H x W x D)

  • Shipping port: Xiamen

  • Warranty: 12 months

Quantity
View full details

Description

The DS200TCEAG1BTF is a printed circuit board (PCB) developed by General Electric for the Mark V Series turbine control systems. Functioning as an Emergency Overspeed Board, this specific revision incorporates key hardware enhancements over the parent DS200TCEAG1 board, integrating three total functional and artwork modifications designated by the BTF suffix.

The DS200TCEAG1BTF leverages Speedtronic control technology to interface with the automated drive assembly of the turbine. Its central application involves executing safety and control routines via specialized hardware loops, processing critical protective data including turbine overspeed limits and flame detection signals. Situated within the designated < P > core of the control drive system, it provides vital control and emergency shutdown functionalities for industrial turbine applications.

Features

  • Integrates specialized internal circuitry including TCEA Flame Detection, TCEA Turbine Overspeed, and TCEA Automatic Synchronizing loops.
  • Uses an onboard 80196 microprocessor to execute local process automation and emergency signal evaluation.
  • Contains sockets to accommodate multiple programmable erasable read-only memory (EPROM) modules for firmware application.
  • Features dedicated hardware points including 30 manual jumpers, 3 protection fuses, and 2 bayonet connectors.
  • Employs specialized interface routing through active board connectors, completely eliminating unused vestigial structures.

Applications

  • Industrial gas and steam turbine overspeed protection systems.
  • Mark V turbine control drive automation and signaling.
  • Triple Modular Redundant (TMR) turbine control architectures.
  • Flame detection monitoring and emergency trip execution.

Technical Specifications

Parameter Specification
Manufacturer GE General Electric
Series Mark V
Part Number DS200TCEAG1BTF
Functional Description Emergency Over Speed Board
Functional Abbreviation TCEA
PCB Coating Normal Coating
1st Functional Revision B
2nd Functional Revision T
Artwork Revision F
Microprocessor Type Intel 80196
Fuses 3 fuses (FU1, FU2, FU3)
Jumpers 30 jumpers (Berg type)
Connectors 2 Bayonet connectors, multi-pin signal connectors
System Location < P > Core

Connections/Interfaces

Connector Pin Function
J7 PD Core TCEA Board Power Connector
JK TCEB Board P1 Core Signal Connector
JL TCTG Board Trip Signals Connector
JW TCEB Board Flame Detection Signal Connector
JX1 Daisy Chained IONET TCQC Board Connector 1
JX2 Daisy Chained IONET TCQC Board Connector 2

Installation Guidelines

  • Location & Configuration: Mount the board inside the designated < P > core slot. Use the on-board Berg jumpers to program the exact physical and functional location within the turbine control drive housing.
  • Fuse Replacement: When replacing any of the three hardware fuses (FU1, FU2, FU3), use only identical replacement components with matching current and voltage ratings to protect circuit trace paths.
  • Cable Routing: Connect the dedicated interface lines to the J7, JK, JL, JW, JX1, and JX2 ports. Ensure proper seating of the bayonet and multi-pin connectors to avoid signal corruption across the IONET and TCTG paths.
  • ESD Precautions: Handle the board by the edges or mounting frame to avoid static damage to the 80196 microprocessor and EPROM modules.
Loading product navigation…

Where is the board physically located within the control system?

The device resides in the < P > core of the Mark V turbine control system. Its precise operational position is configured using the onboard Berg jumpers.

What are the primary control loops handled by the onboard circuits?

The board features specialized circuits dedicated to flame detection processing, turbine overspeed mitigation, and automatic synchronizing tasks.

What type of processor does this emergency board utilize?

The board utilizes an onboard 80196 microprocessor to manage local computations and trip signaling functions.

Why is it important to use exact replacement fuses on this module?

Replacing a fuse with a higher current rating can cause severe overcurrent damage to delicate onboard components. Fuses designated FU1, FU2, and FU3 must always be replaced with identical ratings.

Global Express Shipping

  • Standard Delivery: 4-6 Business Days via DHL, FedEx, and UPS.
  • Express Dispatch: Same-day dispatch for in-stock orders placed before 2:00 PM (GMT+8).
  • Worldwide Coverage: Serving over 150 countries, including rapid delivery to Saudi Arabia and UAE.

Returns & Warranty

  • 30-Day Guarantee: Returns accepted for in-stock products in original, factory-sealed packaging.
  • 12-Month Warranty: Every industrial component is backed by our professional technical warranty.

Orders are processed and delivered Monday-Friday (excluding public holidays).


For full eligibility, restocking fees, and international return details, please view our official Refund & Return Policy .

TECHNICAL SPECIFICATIONS

Color pattern
Dots
Country of origin
United States

Recently Viewed Products

Technical knowledge

Why Maintenance Data Is Essential for Industrial Reliability

Maintenance data connects work orders, sensor signals, asset history, costs, and technician knowledge. Used well, it improves planning, reliability, predictive maintenance, spare-parts control, and...

Electric Actuators Designed to Replace Fluid Power Systems: A Practical Industrial Automation Guide

This article explains how integrated electric actuators, such as SMC’s e-Actuator series, are transforming industrial motion control by replacing traditional pneumatic and hydraulic systems. It...

Math Operations Using OpenPLC for Industrial Automation Applications

This article explains how PLC systems perform core mathematical operations such as addition, subtraction, multiplication, division, modulo, and exponentiation within industrial automation. It shows...

Advanced Boolean Logic with FBD PLC Programming: Practical Industrial Applications Beyond Basic Logic

The article explains several advanced Boolean logic functions used in PLC programming beyond basic AND, OR, and NOT operations. It covers how tools like truth tables, multiplexers, pulse generators,...

Boolean Logic in PLC Programming: Understanding FBD Logic Gates

Boolean logic is the foundation of every PLC program. From simple machine controls to complex industrial automation systems, logic gates determine how controllers respond to changing inputs and...

Deep-Dive Guide to Industrial Firewalls and OT Network Segmentation

Industrial firewalls play a critical role in OT cybersecurity, protecting PLC, DCS, and SCADA networks through segmentation, ingress/egress control, and IDS/IPS integration aligned with IEC 62443...