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GE IS200TSVCH2ADC, Advanced Control Module for Industrial Automation
2025-02-08 BY
IN Industry trends

IS200TSVCH2ADC|High performance digital control module

The IS200VAICH1DAB model is manufactured by GE to simulate an input/output board system for TMR or simplex applications in the Mark V. When used in a TMR system configuration, the terminal board, TBAIH1C, or STAI board from the connection will fan out to three VME racks: T, R, and S, each containing a VAIC board. The output signal Board on the VAIC will be made up of proprietary circuits, using all available VAIC boards to create the required current. If there is any IS200VAICH1DAB model rack failure on the VME, the faulty VAIC model will be removed from the output and the rest of the VAIC board can continue to provide the correct current. When the model is configured for the simplex method, the connected terminal plates will feed into one of the VAIC models, thus providing all current to the output. In the IS200VAICH1DAB model, it will control four analog outputs and accept up to 20 analog inputs. This model has an analog multiplexer, A/D converter, D/A converter, and signal regulator. This model has two analog inputs, ± 1 mA or 4-20 mA, which are connected by a jumper terminal board. The analog output circuit is divided; Two outputs can be configured to be 0-200 mA or 4-20 mA, while the other outputs are only 4-20 mA. Both the input and output of this IS200VAICH1DAB model contain high suppression circuits that protect against high-frequency noise and surges. DAB module is a module for industrial automation and process control, with digital input/output and analog input/output functions. It can be connected to industrial controllers (such as PLCS) to implement various control logic and data processing functions

GE IS200TSVCH2AED MRP246517 - Terminal Board Module for Industrial Control Systems
2025-02-08 BY
IN Industry trends

IS200TSVCH2AED|Digital I/O module

The GE IS200TSVCH2AED MRP246517 is an extension bus processing module manufactured by General Electric. The module can extend the bus processing capability to support more I/O devices and control functions.
The module has many functions and features, including high precision, high reliability, high stability and so on. It adopts advanced electronic technology and design, which can realize the rapid response and processing of the bus to ensure the stability and reliability of the bus. At the same time, the module also has the characteristics of programmability and adaptability, and can be combined and extended with other bus processing modules to meet the needs of different application scenarios.
In addition, the GE IS200TSVCH2AED MRP246517 module also has remote monitoring and control function, users can monitor and manage the status and operation of the bus processing module through the network or other remote means. At the same time, the module also supports a variety of different communication protocols, such as Modbus TCP/IP, Ethernet/IP, PROFIBUS DP, etc., which can be easily connected and communicated with other devices.
GE IS200TSVCH2AED MRP246517 - Terminal Board Module for Industrial Control Systems

GE Fanuc IC693CHS391EG | Modular Control System, I/O Rack
2025-01-08 BY
IN Industry trends

IC693CHS391|10-slot modular CPU backboard

IC693CHS391 is a modular CPU mainboard. The baseplate is part of the 90-30 series manufactured by GE Fanuc. The device includes connection ports that allow the installation of modular cpus, I/O modules, and power modules. It has a total of ten (10) slots, of which one (1) slot is allocated to the CPU and nine (9) slots are allocated to the I/O module. Power sockets are not included in the slot count, nor are bus expansion ports. Since this is a modular CPU slot, by default it is assigned a node address of 0, which can be modified by programming software. The system supports only one (1) modular CPU slot. Other slots in the system can be expansion or remote I/O backboards. The power supply is installed in the leftmost slot, which is not included in the slot count, allowing this baseboard to support more I/O. The CPU is only installed on slot 1 because the slot is especially sized for CPU connections or special option modules, such as FIP bus remote I/O scanners. Slots 2 and higher are particularly suitable for I/O or option modules. The extension or remote I/O baseboard connects to the extension port on the far right of the baseboard. The IC693CHS391 modular CPU backboards support up to four (4) or seven (7) expansion backboards, depending on the CPU hosted by the IC693CHS391. This base plate supports panel mounting only and is secured by screws and washers through the provided mounting holes.
GE Fanuc IC693CHS391EG | Modular Control System, I/O Rack

The IC693CHS391 baseboard is an expansion baseboard manufactured by GE Fanuc with 10 slots. It has a rated current of 420 mA and a rated voltage of 5 volts DC. It is equipped with a DIP switch. The expansion backboard is connected to the 90-30 series PLC along with other modules. The power module is inserted into the left slot of the mainboard. The IC693CHS391 baseplate is modular in size and has an open housing. If additional features are needed, it can be easily installed and replaced or changed to a different type. The left side of the board has a power port, as well as connection slots for CPU and non-CPU slots. It also has a 25-pin female connector on the right side for connecting expansion and remote baseboards. To connect to the remote baseboard, the IC693CHS391 expansion baseboard requires a cable less than 700 feet in length. The backplane cannot be used as a single primitive. It can be connected to a PLC device or a personal computer using a PCI card. It can be connected to up to 7 cpus at a time, depending on the CPU model used. The IC693CHS391 backboard can be mounted vertically or horizontally, depending on the layout of the PLC or CPU. The ambient temperature should always be within the specified range. Dishes should be kept away from water splashes and sources of dust, dirt and harmful chemicals. The IC693CHS391 baseplate is certified to several global environmental and industry standards.

GE IS200EXHSG3AEB: Advanced Engineered Controller Module for Industrial Automation
2025-01-08 BY
IN Industry trends

IS200EXHSG3AE|Relay drive board

The IS200EXHSG3AEC is a PCB (printed circuit board) component from GE Industrial Systems designed as part of the EX2100 excitation control family. The EX2100 is one of GE’s most popular turbine management systems. The EX2100 series is GE’s TMR (Triple Modular Redundancy) turbine control system that generates the excitation current needed to control AC terminal voltage and reactive volt-ampere. The EX2100 series is a fully static excitation control mode for generators on new and retrofitted steam turbines, as well as gas turbines and hydrogenerators. The IS200EXHSG3AEC is used as a static exciter high-speed terminal board in EX2100 systems. The IS200EXHSG3AEC Exciter H.S. Relay Driver Board product’s Mark VI turbine control system series was also highly sought after for online purchase and repair, as it was one of the final GE logo product families developed. Integrate GE’s patented Speedtronic control system technology into a number of related products.

Hardware tips and specifications

The IS200EXHSG3AEC is designed to include a solid-state relay driver, usually paired with a high-speed contactor. Other board components on the IS200EXHSG3AEC include a radiator assembly, seven relays, integrated circuits, transistors, capacitors and resistors, which are made of metal film and carbon composite materials. The EXHS abbreviated board includes three D-shaped housing vertical pin connectors and eight plug connectors of different sizes. In addition, the board is fitted with several jumpers. These jumpers, while not customizable in nature, are added by the original manufacturer factory with initial voltage testing in mind. A visual inspection of the IS200EXHSG3AEC board showed that all PCB edges were drilled, with the holes surrounded by conductive materials. Two corners of the board are cut off, and there are four small notches on the surface of the front edge of the board. All of these additions can be classified as mounting awareness, as a series of notches and holes are used for mounting purposes within the larger drive assembly.

Although misinterpreted as a mysterious part after its initial release, this EXHS printed circuit board comes with a series of labels that should clarify its functionality and compatibility. For example, each large relay on this model’s substrate is labeled with the industry-standard “K” relay nomenclature, followed by a specific relay code. With this in mind, relays such as K53B_C and K53A_M1 are present in the configuration of this product. Of course, the relay is not the only component of the IS200EXHSG3AEC with a label. This Exciter HS relay driver uses a series of capacitors for energy storage, more than 50 in total, and a total of more than 100 resistors. All of the above hardware is securely protected behind a thick layer of traditional, generic PCB coating. While its coverage is not as complete as the special conformal PCB coating, the IS200EXHSG3AEC’s regular PCB coating provides a solid base protection layer that can easily meet your professional automation needs. For additional information about the functionality or proper installation of the IS200EXHSG3AEC, please refer to the GE Industrial Systems manual or user guide that should have been released with the original product. You should review the warnings and handling procedures in these publications before unpacking new parts. AX Control ships worldwide every day of the working day, Monday through Friday. Expedited shipping options are available at an additional cost.

GE-FANUC IS200TREGH1B Terminal Board
2025-01-08 BY
IN Industry trends

IS200TREGH1B|Trip Emergency terminal board

General Electric or GE, a trusted industrial manufacturer of automation, created the IS200TREGH1B as a trip emergency termination board. This is a printed circuit board or PCB manufactured for the Mark VI family of turbine control systems. The Mark VI is the latest series of the GE Mark series, which was first introduced in the mid-to-late 1960s with the launch of the previous Mark I series. These series are designed for the operation and automation of steam and gas turbines, as shown in the full extended Series name section provided above. This particular IS200TREGH1B PCB product for the larger Mark VI turbine control family, while generally accepted for its newly developed turbine-focused applications, is also considered an ideal GE product family as it was one of the final GE logo families to be developed. Integration of patented Speedtronic control system technology into a range of different products. The Speedtronic control system technology used in the Mark VI turbine control system family of the IS200TREGH1B product was first released in the mid-to-late 1960s with the introduction of the previous Mark I series; 1969, to be exact.

Hardware tips and specifications

This IS200TREGH1B device is no different from any other Mark VI series printed circuit board product in that its intended Mark VI Series functional action was developed through its normal Mark VI Series components accepting a specific series of functional induction hardware components and component specifications. The most striking component on the device is a series of square transformers. These transformers are covered with transparent plastic and silver wire. These cover information about the component, such as part number and voltage. There are twelve (12) such transformers placed on the IS200TREGH1B with six (6) transformers per row in two vertical lines. Two (2) large black terminals occupy the space on the left edge of the IS200TREGH1B. The terminal contains a total of forty-eight (48) terminals made of silver metal. These terminals are evenly distributed between two (2) terminal blocks, each of which has twenty-four (24) terminals. While the core functionally important hardware component of this IS200TREGH1B device may have to be identified as its transformer family, given the widespread presence of standard Mark VI Series voltage limiting hardware components in its normal assembly, This includes the Mark VI series of standardized diodes, resistors, capacitors, transistors, and finally application-specific integrated circuits, or ics.
GE-FANUC IS200TREGH1B Terminal Board

The IS200TREGH1B contains a number of components called metal oxide varistors or MOV. These MOV are round solid red. They are placed on the edge of IS200TREGH1B. Three (3) white jumper ports have been placed on the top edge of the IS200TREGH1B. There are a total of seventeen (17) ports between these ports. The connector on the left has three ports, identified as JH1. The middle connector contains 12 ports identified as J2, and the last connector on the right has two (2) ports identified as J1. Since this IS200TREGH1B product is part of a legacy product family that is now obsolete, it is not used in any of the extensive online documentation of the original design on this IS200TREGH1B personalized product page. That being the case, the IS200TREGH1B functional product number itself is actually a powerful source of information about the IS200TREGH1B Board hardware components and component specifications, as it encodes these details in the manufacturer-specified set of functional naming elements. For example, the IS200TREGH1B functional product number was started with an instance of a dual-function IS200 series label that commissioned the normal Mark VI series component of the IS200TREGH1B PCB and its domestic original manufacturing location. Some other details that can be retrieved from the IS200TREGH1B feature product number include the following for this Mark VI series:

TREG functional products
Conformal PCB coating style
The first group of Mark VI series products
Grade B main function renovation

GE Fanuc IS200VSVOH1BED - Advanced Mark VI Circuit Board for Industrial Control Systems
2025-01-08 BY
IN Industry trends

IS200VSVOH1B|Servo control (VSVO) board

The IS200VSVOH1B is a board component manufactured by General Electric for the Mark VI. The Mark VI was released by GE as part of its long-running and popular Speedtronic line of gas/steam turbine management, which began in the 1960s when the company released the Mark I system. This turbine control line continued to be developed until Mark VI and Mark VIe in the 2000s. The Mark VI includes Ethernet communication capabilities, a PC-based operating interface, and integrated hardware and software designed specifically for fan control. The larger Mark VI family of turbine control systems offered by the IS200VSVOH1B printed circuit board product represents a significant functional upgrade over the Mark V family of turbine control systems, which is nearly the same complete extended product family. This is because the Mark VI series adds the possible range of applications for wind turbines with an alternative energy focus to the largely gas and steam turbine based applications included in the earlier industry standard Mark V.

Hardware tips and specifications

IS200VSVOH1B is used as servo control board. The board drives the fuel/steam valve through the control of four electro-hydraulic servo valves. The board also provides pulse rate flow input, LVDT excitation, and LVDT position feedback. The IS200VSVOH1B can be used for Triple Redundant systems, as well as Simplex systems. The IS200VSVOH1B has a single slot front panel attached to the PCB. The panel includes a cable connector (J5) and LED indicators for status information. The three leds on the front panel include a RUN light (green), a FAIL light (red), and a STATUS light. The STATUS indicator is usually not powered on. However, if there is an alarm situation, this LED will power up and display a stable orange color. The IS200VSVOH1B has six connectors, including two backplanes (P1/P2) and four connectors made of conductive wires (P3 to P6). The board includes four relays (K1 to K4). Each of these components has a printed chart on its top surface. The board is equipped with a resistor, capacitor and TP test point. It also has an inductive magnetic bead (L1-L10). The board has more than 70 integrated circuits.
GE Fanuc IS200VSVOH1BED - Advanced Mark VI Circuit Board for Industrial Control Systems

The sum of all the IS200VSVOH1B printed circuit board-specific hardware component and component specification information stored on the IS200VSVOH1B personalized product page to date is reminiscent of a visual inspection of the IS200VSVOH1B device itself by one of our diligent and experienced lead service technicians. This is necessary given the lack of instruction manual materials available online for IS200VSVOH1B printed circuit boards. Given this shortfall, the IS200VSVOH1B feature product number itself can also be introduced as a good primary source of IS200VSVOH1B Board hardware component and component specification information, as it encodes these related details through a series of continuous feature naming elements. For example, this IS200VSVOH1B feature product number begins with an iteration of the dual-feature IS200 series label, which was specifically designed by GE to assert a normal Mark VI series assembled version of this IS200VSVOH1B product on top of its more standardized domestic original GE manufacturing location. Some other important IS200VSVOH1B Board hardware specifications embedded in the functional blocks of this GE designed media include:

VSVO Functional Product acronym
Three resistant PCB coating
The first group of Mark VI series products
Grade B main function renovation

GE IS200VCMIH2BEE - VME Communication Interface Board
2025-01-08 BY
IN Industry trends

IS200VCMIH2BEE|Printed circuit board

The IS200VCMIH2BEE was designed by General Electric as part of its Speedtronic Mark VI control system for industrial gas and steam turbines. This version of the Speedtronic system is commonly used in processing plants and power generation applications to control turbine speed during start-up, synchronize generators, provide turbine load control, and prevent load loss and turbine overspeed situations.

The IS200VCMIH2BEE is part of the Unit Data Highway (UDH). It is used as the main communication controller board. Data is read and transmitted to other boards via Fiber Optic Ethernet (IONet).

VCMI boards can be designed for Simplex or TMR (Triple Modular redundancy) applications. The Simplex board will have one IONet port, while the TMR board will have three. The IS200VCMIH2BEE board is a TMR board.
GE IS200VCMIH2BEE - VME Communication Interface Board

IS200VCMIH2BEE uses SIFT voting (software-implemented fault tolerance). The data is broadcast to all remote racks in one packet. The VCMI boards at these remote locations extract the corresponding packet data.

The IS200VCMIH2BEE is dual panel. The back of the circuit board is mainly equipped with resistors and capacitors. The front of the board is more complex and includes connector ports (including two backplanes), inductors/chokes, tp test points, and integrated circuits. The connected front panel has three IONet ports and a public serial port. It has a reset button, two setting screws, and four sets of LED indicators (one set of three, one set of six, one set of eight, and another set of three). The panel is also marked with the company logo and board number.

General Electric IS200TDBTH4AAA Discrete Simplex Board for Speedtronic Turbine Control
2025-01-08 BY
IN Industry trends

IS200TREGH1BDC|Gas turbine system clamp

The IS200TREGH1BDC is a product of General Electric (GE) and belongs to the gas turbine system card.

It has twelve relays, aligned into two rows of six each. The relays are white and black, each with a silver wire at the top.

In addition to the three white jumper ports located on the top edge, the board is filled with metal oxide varistors.
General Electric IS200TDBTH4AAA Discrete Simplex Board for Speedtronic Turbine Control

The IS200TREGH1BDC is an emergency trip terminal board manufactured by General Electric and belongs to the VIe family for gas turbine control systems. It includes two voltage transformers (PTS) for bus and generator voltage inputs, and conditional speed signal inputs for I/O packets. In addition, it has twelve relays, each with a silver metal wire at the top. The relays are white and black, six in each row, a total of two rows. The terminal board also has a DC-37 pin connector to connect a cable to the terminal board to serve as a backup trip relay.

In Mark VIe or Mark VleS control systems, backup protection is formed by SPRO and PPRO/YPRO by wiring to the relay board. PTUR or YTUR, TTUR, and main trip relay terminal boards provide primary protection. When installed, it is carried on a metal plate carrier mounted on a DIN rail, or it can be mounted on a metal plate assembly bolted to the panel.

GE VVIB H1C IS200VVIBH1CAC Control Board: Engineered Precision for Industrial Automation
2025-01-08 BY
IN Industry trends

IS200VVIBH1CAC|VME monitoring board

The IS200VVIBH1CAC is a GE printed circuit board manufactured for the Mark VI system. Mark VI is one of several gas turbine and steam turbine management systems released by GE under the name “Speedtronic”. The fact that the Mark VI turbine control system family of this IS200VVIBH1CAC VME Monitor Board product exists as one of the final GE Speedtronic family developed significantly increases its overall market appeal. This IS200VVIBH1CAC VME printed circuit board product offers the Mark VI series, which, as you may know by its full extended product family name itself, has a specific set of possible functional applications in product environments based on gas turbines, steam turbines and wind turbines; This is a significant improvement over the previous industry-standard state of the Mark V Series, as the expected range of gas turbine and steam turbine-based functional applications of the Mark V Series is extended by the addition of the wind turbine functional applications added to the Mark VI Series.

Hardware tips and specifications

The IS200VVIBH1CAC is used as a vibration monitoring board. The PCB processes vibration probe signals from DVIB or TVIB terminal boards. These probes are connected directly to the terminal plate. Up to 14 probes can be connected to one board. This IS200VVIBH1CAC VME monitor board PCB is not actually an original development of its specific GE logo product family features, as it must actually be considered as an IS200VVIBH1 parent VME monitor board. In particular, there are a total of three important product versions of any one product that does not use the IS200VVIBH1CAC VME monitoring board product. As you might have guessed from its basic GE formula product description, this IS200VVIBH1CAC VME monitor board device was developed specifically for VME rack mounting, This is further demonstrated by the presence of metal mounting panels on the side of the base PCB of the IS200VVIBH1CAC VME monitoring board product. The base printed circuit board of this IS200VVIBH1CAC VME monitoring board device provides at least some protection through its form-preserving thin chemical application PCB protection coating. The IS200VVIBH1CAC digitizes these signals and sends them to the controller via the VME bus. The vibration probe is used for four protection functions, including:

Vibration
Rotor eccentricity
Differential extension
Rotor axial position
The terminal board connected to the IS200VVIBH1CAC supports Seismic, Proximitor, Velomitor, and Accelerometer probes provided by Bently Nevada. In Simplex or TMR mode, the probes are powered by the IS200VVIBH1CAC board. The IS200VVIBH1CAC includes a panel with three LED indicators. These are labeled fail, status, and run. The panel is attached to the PCB surface using three screws. The board has two backplane connectors labeled P1 and P2. The board has four additional connectors. The board has several rows of inductors/beads located directly behind and parallel to the P2 backplane, labeled L1 through L55. The board also has a variety of diodes, capacitors and resistors.

GE IS200JPDHG1A: Advanced Power Distribution Module for Industrial Control Systems
2025-01-08 BY
IN Industry trends

IS200JPDHG1A|Mark VI printed circuit board

The IS200JPDHG1A is a PCB component created by General Electric as part of the Mark VI system. The Mark VI was released by GE as part of its Speedtronic line for gas turbine and steam turbine management, which began with the release of the Mark I in the 1960s. The Mark VI is typically powered by a 125Vdc battery system. However, it can be powered from a 120/240VAC supply, using a power converter with an isolation transformer to rectifying the power to 125Vdc. For gas turbines, the ignition transformer requires a separate power supply with short circuit protection of 20A or less.

The IS200JPDHG1A is a high density power distribution card. The board provides a separate protected control power supply for each I/O packet. Multiple IS200JPDHG1A boards can be Daisy chained together using J1 and J1X connectors; However, when doing so, the input current cannot exceed the rating of the first JPDH J1 plug. The IS200JPDHG1A can be used in a number of hazardous locations, including Class 1 Zone 2, Class 1 Zone 2, and ATEX. The user must follow the wiring and maintenance requirements of UL/ATEX HazLoc.
GE IS200JPDHG1A: Advanced Power Distribution Module for Industrial Control Systems

The IS200JPDHG1A has 24 varistors divided into 3 rows of 8 each. It has 24 2-position plugs arranged in three rows of 8 each (JR1-JR8, JS1-JS8, JT1-JT8). The board also has three additional 2-position plugs, labeled JR5, JS5, and JT5. It has two 6-digit plugs labeled J1 and J1X. For more information about the board and its components, see the GE publication GEI-100861.

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