Description
IS200TPROH2C IO CARD MKVIE is available in stock which ships the same day
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IS200TPROH2C Other names:
Gas turbine module IS200TPROH2C
IS200TPROH2C Input/Output Module
Controller module IS200TPROH2C
IS200TPROH2C Analog Controller
Product Description
IS200TPROH2C is a turbine specific I/O module. It aims to provide direct interfaces for specific turbine field equipment. This setting eliminates or reduces many previously required instruments for connecting to on-site equipment, while also improving operational reliability and reducing long-term maintenance. IS200TPROH2C is typically used in conjunction with TREAH-A terminal blocks for emergency trip applications in aviation derived turbines. This component can be connected to barriers or box terminal blocks. IS200TPROH2C has voltage sensing field wiring limitations, limiting cable length to 1000 feet for 18 AWG wiring. It should be noted that IS200TPROH2C cannot be automatically reconfigured when exchanging BPPB P-Pack with BPPC P-Pack..jpg)
IS200TPROH2C is equipped with a front panel that is labeled with component ID numbers and multiple LED indicator lights. These indicator lights are placed in pairs on the front panel. The first pair is marked as PWR/ATTN, the second pair is marked as LINK/TxRx and ENET 1, and the third pair is marked as LINK/TxRx and ENET2. The last component is located at the bottom of the panel; Mark as IR port.
IS200TPROH2C receives three speed signals. This includes deceleration, acceleration, and speeding. This component also has hardware implemented overspeed function. This component monitors the status and operation of the selected trip board through a set of comprehensive feedback signals. This component supports TMR and simplex backup protection.
IS200TPROH2C is equipped with a high-speed processor and two completely independent 10/100 Ethernet ports. This component has a hardware reset circuit and a watchdog timer. The temperature is monitored by internal sensors.
IS200TPROH2C is a backup turbine protection (PPRO) I/O package developed by GE. The backup turbine protection (PPRO) I/O package and related terminal boards provide an independent backup overspeed protection system, as well as backup checks for synchronization between the generator and the common bus. They also serve as independent watchdog for main control. Three Triple Modular Redundant (TMR) PPRO I/O packages installed on separate Simplex Protection (SPRO) terminal blocks or three PPROs installed on TMR TPROH # C terminal blocks form a typical protection system. Each SPRO or TPROH # C is connected to the designated emergency trip board through a cable with DC-37 pin connections at both ends:
TREG represents the emergency trip terminal block for gas turbines.
TREL: Emergency Trip Terminal Block for Large Steam Turbines
TRES: Emergency trip terminal block for small and medium-sized steam turbines
Different configurations place three PPRO I/O packages directly on TREA for single board TMR protection systems. In order to communicate with the control module through IONet, PPRO includes an Ethernet connection.
Function Description
The I/O package contains two Ethernet ports, a power supply, a local processor, and a data acquisition board. This design simplifies or eliminates most of the instruments previously required to connect on-site equipment, while improving operational reliability and reducing long-term maintenance costs.
IS200TPROH2C is used in aviation derived turbine emergency trip applications and is typically used in conjunction with TREAH terminal blocks. This component can be connected to barrier type or box type terminal blocks. For voltage sensing, this component has on-site wiring limitations, limiting cable length to 1000 feet for 18 AWG wiring. When switching from BPPB P-Pack to BPPC P-Pack, the component cannot be automatically reconfigured..jpg)
The front panel of this component is marked with the component ID number and many LED indicator lights. They are arranged in pairs on the front panel. PWR/ATTN is the first pair, LINK/TxRx and ENET2 are the second pair, and LINK/TxRx and ENET2 are the third pair. The last component is the IR port, located at the bottom of the panel.
This component is equipped with a high-speed processor and two completely independent 10/100 Ethernet ports. The kit also includes a hardware reset circuit and a watchdog timer. Built in sensors can track temperature.
Compatibility
The PPRO I/O package includes one of the following compatible BPPx processor boards:
PPROH1A is equipped with a BPPB processor board.
PPROS1B includes a BPPC processor board that is compatible with the ControlST software suite V04.07 and higher.
Simplex control
The Mark VIe control trip board TRES supports simplex backup protection.
The controller IONet has a PPRO network port.
All Mark VIe control backup trip boards, TREG, TREL, TREA, and TRES have TMR backup protection function. In this setup, each I/O packet is connected to a different (R, S, T) controller network.
Triple control
When using TMR main control, backup protection (two out of three operation) is supported. All Mark VIe control backup trip boards (TREG, TREL, TREA, and TRES) support this setting. In standard network configuration, the first PPRO I/O packet is connected to the R network, the second PPRO is connected to the S network, and the third PPRO is connected to the T network.
Frequently asked questions
What is IS200TPROH2C?
IS200TPROH2Cis a backup turbine protection (PPRO) I/O package developed by GE.
Is this component compatible with simplex and TMR systems?
Yes, the board is compatible with both simplex and TMR systems.
Can IS200TPROH2C automatically reconfigure when switching from BPPB P-Pack to BPPC P-Pack?
Unable to automatically configure when switching from BPPB to BPPC P-Pack.
How to obtain the IS200TPROH2C component?
Please contact the Industrial Control Sales Consultant: Carrey to understand the IS200TPROH2C wiring board or other turbine control requirements.
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Technical Parameters and Functional Characteristics
Core Functions:
Protection and Redundancy Design: Integrated triple PPRO (Emergency Protection) I/O package interface, supporting dual or triple redundancy configurations to ensure high system availability; equipped with a DC-37 pin connector for direct connection to the Mark VIe backup trip relay terminal block, enabling interference-free switching between primary and backup systems.
Signal Acquisition and Processing: Supports analog (4-20mA/0-10V DC, 16-bit resolution, ±0.1% accuracy) and digital (24V DC dry contact, response time ≤2ms) input/output; built-in programmable logic adapts to speed signals, PT (potential transformer) voltage input, and nine-channel speed signal acquisition (three channels each for X/Y/Z segments).
Power Supply and Isolation: 24V DC power supply (power consumption <5W), supports 5V/24V dual-channel isolated power supply; built-in MOV varistor protection, withstands peak voltage surges, and complies with IEC 61508 functional safety standards.
Interfaces and Expansion: 24-channel design with pluggable European-style terminal blocks for DIN rail mounting; supports modular expansion (e.g., digital I/O, analog I/O, communication modules) to meet diverse control needs.
Dual RJ45 Ethernet connectors provide redundant network communication; LED indicators offer real-time status diagnostics; compatible with industrial bus protocols such as PROFIBUS and Ethernet/IP.
Application Scenarios: Power and Energy: Gas turbine emergency trip systems, generator excitation control, DC transmission converter protection, substation DCS monitoring.
Industrial Automation: PLC/DCS distributed control systems, intelligent production lines (e.g., robotic arm/valve control), fire-fighting water supply safety systems.
Specialty Fields: Petrochemical plants, metallurgical equipment, rail transit traction systems, ship propulsion control, aerospace-derived turbine test platforms.
Maintenance and Compatibility: Maintenance Guidelines: Regularly check terminal block tightness (every six months/quarter); use a digital multimeter to test voltage/signal stability; monitor power supply voltage fluctuations (220VAC±10%) monthly to ensure normal 24V DC output.
Clean the cooling system and replace filters quarterly; conduct a comprehensive system check every six months, including hardware status, communication links, and software configuration.
Compatibility Verification: Compatibility testing with Mark VIe controllers, PROFIBUS bus protocols, and field instruments (such as speed sensors and pressure transmitters) is required to avoid communication failures or protection logic conflicts.
When replacing or upgrading, the technical specifications must be checked to confirm compatibility with existing systems (such as controller model and bus protocol).
Technical Parameters and Functional Characteristics
Core Functions:
Protection and Redundancy Design: Integrated triple PPRO (Emergency Protection) I/O package interface, supporting dual or triple redundancy configurations to ensure high system availability; equipped with a DC-37 pin connector for direct connection to the Mark VIe backup trip relay terminal block, enabling interference-free switching between primary and backup systems.
Signal Acquisition and Processing: Supports analog (4-20mA/0-10V DC, 16-bit resolution, ±0.1% accuracy) and digital (24V DC dry contact, response time ≤2ms) input/output; built-in programmable logic adapts to speed signals, PT (potential transformer) voltage input, and nine-channel speed signal acquisition (three channels each for X/Y/Z segments).
Power Supply and Isolation: 24V DC power supply (power consumption <5W), supports 5V/24V dual-channel isolated power supply; built-in MOV varistor protection, withstands peak voltage surges, and complies with IEC 61508 functional safety standards.
Interfaces and Expansion: 24-channel design with pluggable European-style terminal blocks for DIN rail mounting; supports modular expansion (e.g., digital I/O, analog I/O, communication modules) to meet diverse control needs.
Dual RJ45 Ethernet connectors provide redundant network communication; LED indicators offer real-time status diagnostics; compatible with industrial bus protocols such as PROFIBUS and Ethernet/IP.
Application Scenarios: Power and Energy: Gas turbine emergency trip systems, generator excitation control, DC transmission converter protection, substation DCS monitoring.
Industrial Automation: PLC/DCS distributed control systems, intelligent production lines (e.g., robotic arm/valve control), fire-fighting water supply safety systems.
Specialty Fields: Petrochemical plants, metallurgical equipment, rail transit traction systems, ship propulsion control, aerospace-derived turbine test platforms.
Maintenance and Compatibility: Maintenance Guidelines: Regularly check terminal block tightness (every six months/quarter); use a digital multimeter to test voltage/signal stability; monitor power supply voltage fluctuations (220VAC±10%) monthly to ensure normal 24V DC output.
Clean the cooling system and replace filters quarterly; conduct a comprehensive system check every six months, including hardware status, communication links, and software configuration.
Compatibility Verification: Compatibility testing with Mark VIe controllers, PROFIBUS bus protocols, and field instruments (such as speed sensors and pressure transmitters) is required to avoid communication failures or protection logic conflicts.
When replacing or upgrading, the technical specifications must be checked to confirm compatibility with existing systems (such as controller model and bus protocol).