DS200TCQBG1BCB - RST Extended Analog I/O Board

DS200TCQBG1BCB - RST Extended Analog I/O Board DS200TCQBG1BCB - RST Extended Analog I/O Board

World Of Controls understands the criticality of your requirement and works towards reducing the lead time as much as possible.

DS200TCQBG1BCB - RST Extended Analog I/O Board is available in stock which ships the same day.

DS200TCQBG1BCB - RST Extended Analog I/O Board comes in UNUSED as well as REBUILT condition.

To avail our best deals for DS200TCQBG1BCB - RST Extended Analog I/O Board, contact us and we will get back to you within 24 hours.

SPECIFICATIONS:

Part Number: DS200TCQBG1BCB
Manufacturer: General Electric
Series: Mark V
Product Type: RST Extended Analog I/O Board
Power Requirements: +5 V dc, 6 A
Number of relay channels: 12
Power supply voltage: 28 V dc
Mounting: DIN-rail mounting
Technology: Surface mount
Operating temperature: -30 to +65°C
Size: 15.9 cm high x 17.8 cm
Repair: 3-7 Day
Availability: In Stock
Country of Origin: United States

FUNCTIONAL DESCRIPTION:

DS200TCQBG1BCB is an RST Extended Analog I/O Board manufactured and designed by General Electric as part of the Mark V Series used in GE Speedtronic Control Systems. A programmable logic device and EPROM modules are installed on the RST Extended Analog I/O Board. The GE RST Extended Analog I/O Board also has a side-mounted OK LED, a 50-pin connector, and 15 jumpers. JKK is the code for the 50-pin connector. 3PL and JLL are the IDs allocated to the 34-pin connectors. You must disconnect the cables from the faulty board and attach them to the replacement during the board replacement procedure. Before you begin, there is some information regarding the cables that connect to the 50-pin and 34-pin connections that you should know. Ribbon cables are used to link the 50-pin and 34-pin connectors to other boards in the drive. Signals are carried by the 50-pin and 34-pin ribbon cables, which are processed by the board. The board receives some of the signals and processes them. The board transmits other signals, which are handled by other boards in the drive interior. It serves as an interface between digital systems (like a programmable logic controller or a microcontroller) and analog sensors and actuators. Here's a breakdown of its key components and functions:

  • Analog Inputs: These are channels where analog signals from sensors are connected. These sensors could measure parameters like temperature, pressure, voltage, current, etc. The analog input channels typically convert these continuous signals into digital values that can be processed by the controlling system.
  • Analog Outputs: These channels are used to send analog signals to actuators such as motors, valves, or heaters. The analog output channels convert digital signals from the controller into analog signals suitable for controlling the desired output.
  • Voltage/Current Range: The board might support a certain range of input and output voltages or currents. This could vary depending on the specific model and application requirements.
  • Resolution and Accuracy: The resolution refers to the smallest change in input or output signal that the board can detect or produce. Accuracy refers to how closely the measured or generated values match the actual values. These factors are crucial for ensuring the reliability and precision of the control system.
  • Communication Interface: The board typically communicates with the controlling system (e.g., PLC, microcontroller) using a standard communication protocol such as Modbus, Profibus, Ethernet/IP, etc. This allows for seamless integration into the overall control architecture.
  • Protection Features: Since analog signals are often susceptible to noise and interference, the board may incorporate protection features such as filtering and isolation to ensure signal integrity and reliability.
  • Software Compatibility: The board may come with software tools or drivers that facilitate configuration, monitoring, and control of the analog I/O channels. These tools often provide a user-friendly interface for engineers and technicians to interact with the hardware.

WOC has the largest stock of GE Speedtronic Gas turbine control systems replacement parts. We can also repair your faulty boards and supply unused and rebuilt boards backed up with a warranty. Our team of experts is available round the clock to support your OEM needs. Our team of experts at WOC is happy to assist you with any of your automation requirements. For pricing and availability on parts and repairs, kindly contact our team by phone or email.

FREQUENTLY ASKED QUESTIONS:

How is the RST Extended Analog I/O Board typically used?

It's commonly used in industrial automation, manufacturing, and process control applications to monitor and control analog signals. It helps in precise and efficient management of industrial processes and machinery.

What communication protocols are supported by the RST Extended Analog I/O Board?

The board supports standard protocols like Modbus, Profibus, Ethernet/IP, etc., enabling seamless integration into different control architectures.

Are there any software tools provided with the RST Extended Analog I/O Board?

Yes, the board often comes with software tools or drivers for configuration, monitoring, and control of analog I/O channels. These tools offer a user-friendly interface for interacting with the hardware.