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Ds200plibg2a Phase Logic In

DS200PLIBG2A - Phase Logic Interface Board

DS200PLIBG2A - Phase Logic Interface Board DS200PLIBG2A - Phase Logic Interface Board

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SPECIFICATIONS

Part Number: DS200PLIBG2A
Manufacturer: General Electric
Series: Drive Control
Function: Phase Logic Interface Board
Power Requirements: +5 V dc, 6 A
Power supply voltage: 28 V dc
Technology: Surface mount
Operating temperature: -30 to +65 degrees Celsius
Repair: 3-7 Day
Product Type: PCB
Availability: In Stock
Country of Manufacturer: United States (USA)
Manual: GEI-100172A

Functional Description

DS200PLIBG2A is a phase logic interface board developed by GE under Drive Control system. A Phase Logic Interface Board is a type of electronic circuit board that is used to interface between different types of logic circuits. It is typically used in digital systems where there are different types of logic circuits, such as TTL, ECL , CMOS, and others. WOC offers Speedtronic Mark V control system drives, which are designed to meet the needs of complex, dynamically behaving turbines and provide flexible monitoring and protection. This series was created by General Electric, which also produces other industrial automation products that we have in stock. The Mark V models include software-configurable fault tolerance, online maintenance applications, direct sensor interface, and built-in diagnostic capabilities.

Features

The Phase Logic Interface Board incorporates several features that enable effective signal buffering, isolation, and seamless communication between different logic circuits.

  • Signal Buffering and Isolation: One of the primary functions of the board is to provide signal buffering and isolation. It acts as a protective barrier between different logic circuits, preventing noise, electrical disturbances, and voltage level incompatibilities from affecting the integrity of the transmitted signals. This is accomplished through the utilization of isolation transformers, optical isolators, or other isolation devices. By isolating the signals, the board ensures that they remain unaffected by external influences, leading to reliable and accurate signal transmission.
  • Application Versatility: The Phase Logic Interface Board finds widespread usage across various industries and applications. It is commonly employed in telecommunications, networking, and industrial automation systems. In telecommunications, the board facilitates seamless communication between different types of logic circuits, allowing for efficient data transmission. In networking, it enables the interface between different network protocols and standards. In industrial automation, it serves as a crucial component for connecting various control systems and devices. The board's versatility makes it an essential tool in bridging the gap between different logic circuits in diverse application scenarios.
  • Integration in Printed Circuit Board Design: The Phase Logic Interface Board plays a vital role in the design of printed circuit boards (PCBs). It ensures the proper transmission of signals between different components on the PCB. By acting as an intermediary between various logic circuits, the board enables smooth and reliable communication, enhancing the overall functionality of the PCB. Whether it's connecting microcontrollers, memory modules, or other peripheral devices, the board's interface circuits facilitate seamless signal translation, ensuring efficient operation of the PCB.
  • Interface Circuitry: The board incorporates multiple interface circuits that facilitate the translation of signal levels and timing between different types of logic circuits. These interface circuits act as bridges, enabling communication between incompatible logic circuits. They ensure that signals are properly adapted, meeting the requirements of the receiving logic circuit. This allows for seamless data exchange and synchronization between different components, enhancing the overall performance and functionality of the system.

Characteristics

  • The board operates on a power supply voltage of +5 V dc and draws a current of 6 A. This power input is necessary for the board's proper functioning and to enable it to interface with the drive system effectively.
  • The power supply voltage is specified as 28 V dc. This voltage level is crucial for ensuring stable and reliable power delivery to the board.
  • The board employs surface mount technology (SMT) in its construction. SMT involves the mounting of electronic components directly onto the surface of the board, increasing circuit density and improving manufacturing efficiency.
  • It is designed to operate within a wide temperature range, specifically from -30 to +65 degrees Celsius. This temperature range enables the board to withstand and function reliably in various environmental conditions commonly encountered in industrial settings.
  • The phase logic interface board designed for use in GE turbine control systems. Its main function is to interface between the phase logic signals generated by the control system and the phase measuring devices used to monitor the operation of the turbine.
  • The phase logic signals are generated by the control system and are used to coordinate the operation of the various components of the turbine. These signals are typically digital signals that indicate the timing and sequencing of various events, such as the firing of fuel injectors, the opening and closing of valves, and the movement of turbine blades.
  • The phase measuring devices, on the other hand, are used to monitor the actual position and movement of various components of the turbine. These devices can include sensors that measure the position of the turbine blades, the speed of the rotor, and the position of various valves and actuators.
  • It interfaces between these two types of signals, converting the phase logic signals generated by the control system into analog signals that can be used by the phase measuring devices. It also provides isolation between the control system and the measuring devices to ensure that any electrical noise or interference generated by one system does not affect the other.

Product Attributes

The Phase Logic Interface Board possesses several notable attributes that contribute to its functionality and suitability for various applications. Let's expand on these attributes:

  • Power Supply Voltage: The board operates on a power supply voltage of +5 V dc. It is designed to receive power from a compatible power source capable of providing the required voltage level. It is important to ensure that the power supply meets the specified voltage requirement to ensure proper operation of the board.
  • Current Draw: The board has a maximum current draw of up to 6 A. This indicates the amount of current that the board may consume from the power supply during operation. It is crucial to ensure that the power supply can deliver the required current without exceeding its own capacity, as adequate current supply is necessary for the board to function optimally.
  • Surface Mount Technology: The board is manufactured using surface mount technology (SMT), which allows its components to be mounted directly onto the surface of the board. This technology offers several advantages, including compactness, improved manufacturing efficiency, and enhanced performance due to shorter electrical pathways. SMT enables the board to be easily integrated into other electronic systems or components, maximizing space utilization and facilitating streamlined assembly processes.
  • Operating Temperature Range: The Phase Logic Interface Board is designed to operate within a temperature range of -30 to +65 degrees Celsius. This temperature range specifies the ambient temperatures within which the board can safely and reliably function without any adverse effects on its performance. It is crucial to operate the board within this specified temperature range to ensure optimal operation and longevity.
  • These attributes highlight important aspects of the Phase Logic Interface Board, including its power supply voltage, current draw, surface mount technology, and operating temperature range. Understanding these attributes is essential for selecting suitable power supply sources, integrating the board into larger systems, and ensuring proper environmental conditions for its operation.
  • Connectivity: Multiple vertical pin connectors are strategically located along the center and bottom edge of the board, facilitating reliable connections.
  • Componentry: The board is populated with various components, including resistor network arrays, integrated circuits, LED indicators, capacitors, resistors, and diodes. These components work together to execute precise control functions and provide feedback.

OI Main Dispaly of system

  • The Main Display is intended to be the primary display used by the operator to monitor the operation applications. It can be accessed immediately from any display by clicking on the Main Display target beneath the alarm window. The Main Display can be either user-defined or animated, depending on the needs of the customer.
  • The Main Display displays key turbine parameters as well as the primary commands required to operate the turbine and driven device. Because the Mark V Turbine Control System allows for a great deal of flexibility, these examples should be regarded as generic rather than patterns or prototypes to be copied or emulated.

Compatibility

  • Designed to seamlessly integrate with the Mark V Speedtronic control system.
  • It collaborates with the EX2000 digital regulator systems to control critical parameters, ensuring efficient turbine operation.

Servo Valve Configuration

  • In a triple modular redundant turbine control panel, each servo valve is equipped with three coils.
  • These coils are strategically connected to the R/S/T phases, enabling precise control and synchronization of the turbine's operation.

 

WOC is happy to assist you with any of your GE requirements. Please contact us by phone or email for pricing and availability on any parts and repairs.

FREQUENTLY ASKED QUESTIONS

What is DS200PLIBG2A?
It is a phase logic interface board developed by GE

What is a Phase Logic Interface Board?
A Phase Logic Interface Board is an electronic circuit board used to interface between different types of logic circuits, typically in digital systems where there are different types of logic circuits, such as TTL, ECL, CMOS, and others.

What are some of the main functions of a PLIB?
One of the main functions is to provide signal buffering and isolation, which helps to prevent noise and other electrical disturbances from interfering with the signals being transmitted between the different logic circuits.

Where are PLIBs commonly used?
PLIBs are commonly used in applications such as telecommunications, networking, and industrial automation, where there may be a need to interface between different types of logic circuits.

What is the operating temperature range for the product?
The operating temperature range for the product is between -30 to +65 degrees Celsius.