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Product Name: VME Standard STANDARD I/O BOARD
Brand Name: GE
Model Number: DS200SIOCG1A
Country of Origin:USA
Warranty: 12 Months
Whatsapp:+86 18159889985
Email:[email protected]
Brand Name: |
General Electric |
Model Number: |
DS200SIOCG1A |
Country of Origin: |
USA |
Packaging Details: |
Original new Factory Sealed |
Delivery Time: |
Delivery time in stock |
Payment Terms: |
T/T |
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Sales Manager: |
Stella |
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Send an email: |
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| Item | Specification |
|---|---|
| Part Number | DS200SIOCG1A |
| Manufacturer | General Electric |
| Series | Mark V |
| Product Type | VME Standard I/O Board |
| Power supply voltage | 28 V dc |
| Technology | Surface mount |
| Data Transfer | 115.2 Kbps |
| Repair | 3-7 Day |
| Availability | In Stock |
| Country of Manufacturer | United States (USA) |
| Manual | GEI-100161 |
| Dimensions | 27.8x15.5x4cm |
| Weight | 0.62kg |
DS200SIOCG1A is a VME Standard I/O Board manufactured and designed by General Electric as part of the Mark V Series used in GE Speedtronic Control Systems. An instantaneous overcurrent board is a protection device used in electrical power systems to detect and interrupt the excessive electrical current in a circuit. It is also commonly known as an overcurrent relay or a protective relay. The device works by monitoring the current flowing through the circuit and comparing it to a pre-set threshold value. If the current exceeds this threshold value, the relay will actuate and send a signal to trip the circuit breaker, interrupting the flow of current. A VME Standard I/O (Input/Output) board is a peripheral board that conforms to the VME standard and provides various input and output functions for a VME-based system.
Overcurrent protection in power generation and electrical systems – As an instantaneous overcurrent board, it detects and interrupts excessive current (e.g., short circuits, overloads) to protect generators, transformers, and transmission lines.
GE Speedtronic control systems – As part of the Mark V series, it integrates into GE Speedtronic gas/steam turbine control systems, providing critical I/O interfaces and protection functions.
VME bus system applications – As a VME-compliant I/O board, it is used in VME‑based systems requiring highly reliable I/O expansion, such as military, aerospace, and industrial mission‑critical applications.
Industrial automation and process control – Provides digital/analog I/O and serial/parallel communication interfaces for factory automation, machinery control, sensor and actuator interfacing.
Defense and military systems – In defense applications, it can interface with sensors, actuators, and communication devices to meet real‑time control requirements in harsh environments.
VME Standard Compatibility: The board follows the VME standard specifications, which define the mechanical dimensions, electrical characteristics, and signaling protocols for VME modules. This ensures interoperability with other VME-compliant boards and systems.
Input/Output Functions: The I/O board is designed to handle various input and output tasks. This can include digital and analog inputs and outputs, communication interfaces (such as serial or parallel ports), and other specialized functions depending on the application requirements.
Bus Interface: The board connects to the VME backplane through the standard VMEbus connectors. It communicates with the system controller and other VME devices using the VMEbus protocol, allowing for data transfer and control within the VME chassis.
Application Specific: The specific functionalities of the I/O board depend on the intended application. For example, in a defense application, the board might include interfaces for sensors, actuators, and communication devices. In an industrial setting, it could offer control interfaces for machinery and sensors.
Modularity: VME Standard I/O boards are designed to be modular, allowing users to customize their VME-based systems based on their unique requirements. This modularity simplifies system upgrades and maintenance.
Backward Compatibility: The VME standard has been around for several decades, and many systems still use this architecture. Therefore, newer I/O boards often maintain backward compatibility with older VME systems, allowing for easy integration into existing setups.
Reliability and Robustness: As VME-based systems are often used in critical applications such as military and industrial control, VME Standard I/O boards are typically built to high standards of reliability and robustness, ensuring stable operation in demanding environments.
Instantaneous overcurrent detection and protection – Continuously monitors circuit current against a preset threshold; when current exceeds the threshold, it instantly trips the circuit breaker to interrupt the fault current.
VME standard compatibility and bus communication – Complies with VME mechanical, electrical, and signaling protocols; communicates with the backplane via VMEbus connectors for data exchange with the system controller and other VME devices.
Multiple I/O functions – Handles digital inputs/outputs, analog inputs/outputs, and communication interfaces (e.g., serial or parallel ports) depending on application requirements.
Modular and application‑specific configuration – Designed as a modular board, allowing customization based on specific application needs (e.g., sensor/actuator interfaces for defense, control interfaces for industrial machinery).
Backward compatibility – Maintains compatibility with older VME systems, enabling easy integration into existing setups.
Reliability and robustness – Built to high standards for critical applications (military, industrial control), ensuring stable operation in demanding environments.
How many jumpers and switch blocks are on there?
The Board has twenty jumpers and three switch blocks, each with six switches, for a total of 18 switches.
What connectors can be synced and linked using ribbon cables on the Board?
Some of the connectors on the Control Board can be synced and linked using ribbon cables.
What do the ribbon cables carry on the Board?
The ribbon cables carry several small wires that carry signals from the board to other components in the drive. Other wires in the ribbon cable carry signals to the board for processing.
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