IS200BPIRG1A - Digital Interface Board

IS200BPIRG1A - Digital Interface Board IS200BPIRG1A - Digital Interface Board

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SPECIFICATIONS

Part Number: IS200BPIRG1A
Manufacturer: General Electric
Series: Drive Control
Function: Digital Interface Board
Ribbon Connector: 50-pin
Backplane connector: P1
Memory: 1024 bit
Test points: 4
Availability: In Stock
Manual: GEI-100311
Country of Manufacture: United States (USA)

Functional Description

IS200BPIRG1A is a Digital Interface Board developed by General Electrics. It is a part of GE drive control system. The Innovation Series Medium Voltage - GP, Type H drives use the Digital Interface Board. It connects the Medium Voltage Ac Drive Fiber-Optic Hub Board (FOHB) and the Bridge Interface Board via a 15 V to 5 V digital bus interface. The BPIR board receives bridge cell temperature and phase reference analog signals. The FOHB board provides basic bridge cell hardware control, protection, and diagnostics: The FOHB board is connected to the board via a 50-pin ribbon connector, PLO. The BPIR and BICR boards are housed in an Innovation Series board rack and are linked to the Cable Assembly Backplane Board via P1 connectors. The FOHB board's 15 V logic signals are level shifted to 5 V on the BPIR board and interfaced to the BICR board via the CABP board. On the BPIR board is a serial 1024-bit memory device. This memory contains board identification and revision information and is accessed via a single data line on the P1 connector.

Features

  • Its main function is to provide a communication link between a control system's input/output modules and the system's central processing unit. The board is designed to interface with various types of input/output modules, including analog and digital signals, and convert them into a digital format that can be processed by the CPU. The board also includes diagnostic and monitoring features to ensure that the system is operating correctly and can detect and report any faults or errors.
  • It is a Digital Interface Board used in Innovation Medium Voltage-GP, Type H drives. This board connects the Bridge Interface card (BICR) and the Fiber Optic Hub card via a 15V to 5V digital bus interface.
  • The board has two board connectors. This includes a backplane connector, P1, which is located along the board's back edge. The board is connected to the drive system via this connector. It is worth noting that in order to access individual pin signals on this board, the P1 connector may require a custom extender board.
  • The second connector is a 50-pin ribbon connector labeled PLO. The Digital Interface card is connected to the Fiber Optic Hub card via this ribbon connector.
  • The board include four TP test points denoted by the letters REFA, REFB, REFC, and ACOM. There is also a transistor, one relay, several resistors and capacitors, and six integrated circuits on the board. A 1024-bit memory chip stores the board id and revision information.
  • A digital interface board (DIB) is an important component in a turbine control system (TCS). The DIB serves as the interface between the TCS and the plant's control system, allowing for communication and exchange of information between the two systems. The DIB typically consists of digital input and output modules, analog input and output modules, communication modules, and a processor.
  • The digital input and output modules are used to monitor and control digital signals such as switches, relays, and alarms. The analog input and output modules are used to monitor and control analog signals such as temperature, pressure, and voltage.
  • The communication modules allow for communication between the DIB and other devices in the TCS and the plant's control system.
  • The processor is responsible for processing and managing the signals and data exchanged between the various modules. In a turbine control system, the DIB plays a crucial role in ensuring the safe and efficient operation of the turbine. It is responsible for monitoring critical parameters such as speed, temperature, and pressure, and for sending control signals to the turbine's actuators to maintain optimal performance.

Product Attributes

  • 40 High-Power TTL I/O Lines: The 2303 Board is equipped with 40 TTL (Transistor-Transistor Logic) input/output lines. These lines are capable of handling high power and can either source or sink a current of up to 23 mA each. This feature allows for versatile connectivity and control options.
  • Interface Compatibility: The 2303 Board is designed to easily interface with various types of signals, including contact closures, TTL signals, and CMOS signals. This flexibility enables seamless integration with a wide range of devices and systems, making it highly adaptable to different applications.
  • User-Configurable Data Bytes: The board offers the flexibility for users to configure the data bytes as either inputs or outputs. This means that users can define the behavior of the data bytes based on their specific requirements. This feature enhances customization and enables the board to adapt to different data processing scenarios.
  • Transparent or Bit/Byte Data Transmission: The 2303 Board supports multiple data transmission modes, providing users with flexibility in how they handle data. It can operate transparently, passing data through without modification. Additionally, it can handle data in the form of individual bits or bytes, allowing for more granular control and manipulation of data strings. This versatility accommodates various data processing needs and facilitates efficient communication between devices or systems.

Characteristics

  • Input/Output: The board can convert both analog and digital signals into a format that can be processed by the system's central processing unit.
  • Diagnostic features: The board includes built-in diagnostic and monitoring features to detect faults and errors in the system.
  • Reliability: The board is designed to operate reliably in harsh industrial environments.
  • Compact size: The board is designed to fit into a standard rack or cabinet, allowing for easy installation and maintenance.
  • Scalability: The board can be used in a range of industrial control systems, from small-scale applications to large, complex systems.
  • Ease of use: The board is designed to be easy to install, configure, and operate, reducing the need for specialized technical expertise.

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FREQUENTLY ASKED QUESTIONS

What is IS200BPIRG1A?
It is a Digital Interface Board developed by General Electrics

What is the purpose of the Digital Interface Board in Innovation Medium Voltage-GP, Type H drives?
The Digital Interface Board is used to connect the Bridge Interface card and the Fiber Optic Hub card in Innovation Medium Voltage-GP, Type H drives. It functions as an interface between the two cards, using a 15V to 5V digital bus interface (FOHB).

How many connectors are there on the board?
There are two connectors on the board. The first one is a backplane connector (P1) located along the board's back edge, which connects the board to the drive system. The second one is a 50-pin ribbon connector labeled PLO, which connects the Digital Interface card to the Fiber Optic Hub card.

What are the test points denoted on the board?
The board includes four TP test points, denoted by the letters REFA, REFB, REFC, and ACOM. These test points can be used to check the signals and voltages at specific points on the board.