Industry trends - Page 4 of 6

GE Fanuc DS200IQXSG1A - Mark V Board: High-Performance Control Module

2025-01-07 BY jonson

DS200ITXDG1ABA|Dynamic brake buffer plate

The DS200ITXDG1ABA board is labeled as a dynamic brake buffer board and is part of the Mark V series manufactured by General Electric. The Mark V family, to which the DS200ITXDG1ABA product belongs, was one of the last in the GE Mark product family to incorporate Speedtronic control system technology into its various products, and since it was eventually discontinued many years after its initial release, it exists as a legacy product family. This DS200ITXDG1ABA printed circuit board, or PCB for short, was not originally developed for its specific Mark V turbine control system family functional role; This is actually the DS200ITXDG1 parent dynamic brake buffer board, conspicuously missing all three versions of the three important product versions of the DS200ITXDG1ABA PCB. The assembly of the DS200ITXDG1ABA PCB has been specially modified to adopt the Class A Major Function revision, Class B Minor Function revision, and Class A Artwork Configuration revision.

Hardware tips and specifications

The required operation of the IXTD board is provided through the circuitry of the connected power/interface board (IMCP). When IMCP and IXTD boards are connected, they are connected via a four-pin connector. After the board is installed, it will be mounted externally and its dimensions must be adjusted to meet the worst-case switching requirements of dynamic braking IGBTs. The purpose of the buffer plate is to limit voltage transients at both ends of the IGBT and under all known operating conditions of the driver. Another function of the DS200ITXDG1ABA board is to adjust the output of the IGBT gate driver board so that it matches the electrical characteristics of the AT frame driver. AT frame drivers are available for variable and constant torque applications. The drive output current rating for variable torque applications is 500 ARMS.
GE Fanuc DS200IQXSG1A - Mark V Board: High-Performance Control Module

The DS200ITXDG1ABA board comes in three connector types: bus I/O connectors, DBPL input connectors, and board pin connectors. All of these connector types have different pin numbers, nomenclature, and descriptions, which are detailed in the attached DS200ITXDG1ABA instruction manual above for convenience. Bus I/O connectors and pin I/O connectors also have directions. Two examples of pins associated with stab I/O connectors are E-6 and E-9 connectors, both of which are output connectors. The E-6 connector is the DB IGBT gate signal, and the E-9 connector is the connection of the external buffer resistor. A single plug-in connector that can be used to assemble this DS200ITXDG1ABA dynamic brake buffer plate is also fully discussed in the relevant General Electric instruction manual materials. The connector comes with a DBPL factory-printed naming label and connects the DS200ITXDG1ABA product to its accessible IMCP cousin printed circuit board products in the larger Mark V Series automatic driver assembly. For convenience, the plug-in connector position of this DS200ITXDG1ABA PCB is described separately in the available guide materials. Before making any single final purchase decision on this DS200ITXDG1ABA dynamic brake buffer, it is important to realize that the performance specifications and dimensions it was originally introduced to have undoubtedly changed as a result of its acceptance of a full triple revision history.

FAQ about DS200ITXDG1ABA
Is this DS200ITXDG1ABA PCB a fragile Mark V series product?

Yes. The substrate of this DS200ITXDG1ABA PCB is largely a bare component, which results in the fragile state of the DS200ITXDG1ABA PCB product.
Is there an IGBT module available for AX Control?

Yes. Many IGBT modules from the Mark V series are supplied with our Mark V Series PCB products, although their warranty has been adjusted accordingly.
Do the components of this DS200ITXDG1ABA PCB have any factory drilled mounting holes?

The components of this DS200ITXDG1ABA PCB are penetrated through holes in multiple locations and are designed to aid in convenient and safe installation practices; Each hole is ringed with insulation to comply with potentially damaging surface voltages.

GE DS200IQXSG1AAA - PC Board Line Protection Card for Mark V Turbine Control System

2025-01-07 BY jonson

IN Industry trends

DS200IQXSG1AAA|Inverter buffer plate

As shown in the short product description inserted above, the DS200IQXSG1AAA printed circuit board product offered by GE was originally manufactured as a specific function placement for the inverter buffer board in its larger Mark V turbine control system family of automatic drive components. As you will most likely be able to infer from its full extended series name, the Mark V series to which this DS200IQXSG1AAA board belongs has a specific application in compatible and popular systems for the management and control of automatic drive components for wind, steam and gas turbines. Given the possibility of DS200IQXSG1AAA alternative energy applications for PCB’s Mark V series, it must still be considered to exist as a legacy series from GE, as its production ceased in the years after its original Mark product line was established due to obsoleted functional series identified by retailers. Although the Mark V series of the DS200IQXSG1AAA PCB is outdated as a whole, it is still the Mark product family in high demand in the general automation industrial market, because it is one of the last GE Mark product families to be developed. Utilizing the patented Speedtronic control system technology, which was first introduced with the launch of the previous Mark I series.

Hardware tips and specifications

As with any printed circuit board product provided to our extended new and refurbished inventory, the DS200IQXSG1AAA PCB’s intended Mark V Series function is adopted, with its normal Mark V Series components accepting a specific family of hardware components. The GE Inverter buffer board DS200IQXSG1AAA has 8 terminal connectors. The terminals are labeled E1 to E8. The GE inverter buffer board DS200IQXSG1AAA also contains an 8-pin connector and a film capacitor mounted on the board. The board is one of several boards installed in the board cabinet. The dimensions are 6.25 x 5 inches and the four holes in the corners are aligned with the matching mounting holes on the plate rack. If no new screws are available, use the same screws that secured the old plate. Given that this DS200IQXSG1AAA PCB belongs to the Mark V legacy family of turbine control systems, it is not surprising to find that the instruction manual material for which it was originally produced is largely unavailable online. In this case, the DS200IQXSG1AAA functional product number itself can serve as the primary source of hardware component and component specification information for the DS200IQXSG1AAA Board; Encodes the various DS200IQXSG1AAA Board details in a series of consecutive function name segments. For example, the DS200IQXSG1AAA functional product number first contains the dual-function DS200 section, which classiifies it as the normal Mark V series assembly version of the PCB as well as the domestic version of its original manufacturing location. Some other relevant hardware details disclosed through this DS200IQXSG1AAA Board’s functional product number include:

IQXS Functional Products acronym
The first group of Mark V series products
Common PCB coating style
Grade A main function renovation
Grade A secondary functional overhaul
Class A Artwork Configuration revision
GE DS200IQXSG1AAA - PC Board Line Protection Card for Mark V Turbine Control System
Because the moving parts in the circuit board and the driver generate heat, cooling is an important consideration when installing the driver. The drive must have a clean air source that can flow freely through the drive to keep the component within the permitted temperature range. The drive is designed so that cool, clean air enters the drive from the bottom and rises through the inside of the drive. It goes around and over the component and draws heat from the drive. Another consideration is that the drive is not near other devices that generate heat, and the walls around the drive are not heated by devices on the other side of the wall. If the drive becomes overheated and out of the temperature range, overheating will be detected and the drive will automatically stop. This safety feature will prevent damage to the components. It can also prevent the development of fire hazards. Typically, the voltage suppression and limiting strategy of this DS200IQXSG1AAA PCB involves incorporating the standardized hardware component selection of the Mark V Series into its normal Mark V Series components; Includes various styles of capacitors, resistors, transistors, diodes and integrated circuits.

GE Fanuc DS200IIBDG1A - Mark V PLC: Advanced Control Module for Industrial Automation

2025-01-07 BY jonson

IN Industry trends

DS200IIBDG1A| IGBT gate driver board

This DS200IIBDG1A GE printed circuit board can indeed be better defined through its official functional product description as an IGBT gate driver board, as it appears in the original Mark V Turbine Control System series instruction manual material. As you might tell from its full name, the Mark V series to which this DS200IIBDG1A printed circuit board, or PCB for short, belongs has a specific application in the management and control systems of automated drive components for wind, steam and gas turbines. The Mark V Series is a legacy series as it has been discontinued for many years since its original release by GE manufacturers and exists as one of GE’s final product families, incorporating patented Speedtronic control system technology in its various products. The DS200IIBDG1A PCB has been edited from the original DS200IIBDG1 IGBT gate driver board by including A single Class A functional product revision.

Hardware tips and specifications

This DS200IIBDG1A printed circuit board product leverages a set of specific and critical hardware specifications and component content to achieve the functional status of an IGBT gate driver board. The GE insulated gate bipolar transistor (IGBT) board DS200IIBDG1A contains nine LED indicators that provide the processing status of the board. The LED is visible from the inside of the circuit board cabinet and is red when lit. When the board is powered and the driver is running, the LED indicator indicates the operation of the board. Since leds are only visible when the board is powered on, great care must be taken when opening the cabinet. When viewing the LED, do not touch any of the components in the drive, and be sure not to drop any metal, dirt, or other debris into the large Mark V Series automatic driver of the DS200IIBDG1A PCB. Before making A final purchase decision on this DS200IIBDG1A IGBT gate driver board, it is important to recognize that the Class A functional product revision of this DS200IIBDG1A PCB will almost certainly change the performance specifications and dimensions of this DS200IIBDG1A product. Change it from its original state of basic revision. The functions and applications of each specific LED in this DS200IIBDG1A PCB assembly are described in detail in the DS200IIBDG1A instruction manual material embedded in the manual TAB above.
GE Fanuc DS200IIBDG1A - Mark V PLC: Advanced Control Module for Industrial Automation

The GE insulated gate bipolar transistor (IGBT) board DS200IIBDG1A has multiple connectors, and when you install a replacement board, you have to make sure you connect the cable to the exact same connector. To make sure you’re reconnecting them to the same connector, check the defective circuit board and note down the connector identifier that indicates the connector you’re connecting the cable to. Labels are then made and attached to the cables, showing where the cables are connected on the new board. In addition, the board contains one or more jumpers that configure the board to handle the drive’s information in a particular way. Other jumpers are set in the factory and are used in the factory for testing purposes only. The original factory print information that comes with the DS200IIBDG1A board identifies the jumper and describes the jumper Settings and how they change the board behavior. This particular DS200IIBDG1A product is filled with a total of manually removable hardware jumpers; This jumper is a Berg type jumper isolated on a DS200IIBDG1a-based circuit board by J1 factory printed nomenclature. This jumper is factory set, so it should not be accessed or customized during the specification function of the DS200IIBDG1A board, although it does make a selection for specific gate on-delay for this DS200IIBDG1A device.

GE DS200FCGDH1B: Industrial Control Board for Advanced System Integration

2025-01-07 BY jonson

IN Industry trends

DS200FCGDH1B|Control and gating panels

As previously mentioned, this GE manufactured DS200FCGDH1B printed circuit board product was originally designed and manufactured for placement in its Mark V turbine control system family. The DS200FCGDH1B printed circuit board or simply PCB of the Mark V series is considered a member with specific applications in the management and control systems of popular and compatible automatic drive components for wind, gas and steam turbines, as evidenced by the full extended series names provided above. This DS200FCGDH1B printed circuit board, or PCB for short, the Mark V series, while related to newly developed alternative energy technologies, must still be considered an outdated legacy GE product family, as it was massively discontinued due to obsoletionin the years following the release of the original Mark V Series. The Mark V series of this DS200FCGDH1B PCB, while generally obsolete due to its traditional series status, still offers many highly sought after products as it exists as one of the ultimate GE Mark product families, utilizing the company’s patented Speedtronic control system technology. In addition, the DS200FCGDH1B PCB does not exist as an initial development product for its intended Mark V series features; This will be a DS200FCGDH1 motherboard that lacks the DS200FCGDH1B product single Class B functional product revision.

Hardware tips and specifications

The DS200FCGDH1B is a Gate Allocation and Status card (FCGD). The card was developed by GE for its Mark V board family and can be installed in many GE branded drives. When installed, the card acts as an interface system for six-pulse phase control of the non-reverse bridge. The DSPC (Digital Signal Processing Card) relays information to this board for decryption. This generates signals about diagnostic information and system feedback. This feedback is then sent out using the drive’s integrated VME backplane. This DS200FCGDH1B product collects a large amount of data from the drive’s integrated DSPC. The signal received by the board is converted into a unit gated signal. All system bridge arms receive this cell gated signal and return multiplexed cell status information to the card. The FCGD board also receives and scales feedback signals. The three FGPA boards send feedback signals through optical fiber connections on the boards. Included feedback includes frequency, voltage, and board status information. Integrated IMOK LED status indicators provide users with basic system status.

The board mounting parameters provided by the manufacturer should be met to minimize the risk of equipment failure or error. Board function depends on the correct wiring of the system. Illustrated instructions for wiring and installing the DS200FCGDH1B are provided in the equipment manual and data sheet. The entire Mark V series was initially supported by General Electric. For example, a DS200FCGDH1B functional product number begins with a dual-function DS200 series label indicating the normal Mark V series component of that DS200FCGDH1B product and its domestic original manufacturing location. Some other relevant hardware details revealed by using the DS200FCGDH1B feature product number include this Mark V Series PCB:

FCGD functional products for short
The first group of Mark V series products
Conformal style of PCB protective coating
Class B Functional Product revision

GE DS200DTBAG1AAA: Advanced Digital Contact Terminal Board

2025-01-07 BY jonson

IN Industry trends

DS200DTBAG1AAA|Contact input terminal module

As mentioned above, the DS200DTBAG1AAA contact input terminal board was originally manufactured for General Electric’s Mark V family of turbine control systems. As you might tell from its full name, the Mark V Series has specific applications in the management and control systems of automation components for wind, steam and gas turbines, and is considered a legacy series from GE, as its production ceased within a few years of its initial release. Although quite impressive as a legacy family, the Mark V turbine control system family in which the DS200DTBAG1AAA product is located is also one of the final products of the GE Mark family, and Speedtronic control system technology is used in the assembly of its various products. Although the DS200DTBAG1AAA printed circuit board itself can be defined as a contact input terminal board, it is not the product originally developed for this function; That would be missing three important product revisions of the DS200DTBAG1AAA device for the DS200DTBAG1 contact input terminal board.

Hardware tips and specifications

Given the specific intended functionality of this DS200DTBAG1AAA product, it is not surprising that this DS200DTBAG1AAA PCB utilizes its own set of capabilities to introduce hardware components and component specifications. The digital contact terminal board DS200DTBAG1AAA has two terminal blocks and can connect up to 95 wires. The device also has 5 jumpers and 2 2-pin connectors. The terminal block is connected to the signal line for sending and receiving information used by the driver. Up to 190 wires are connected to the GE digital contact terminal board DS200DTBAG1AAA, so you must be aware of possible damage to other components and boards. When connecting the DS200DTBAG1AAA model to other models in the Mark V DS200 series, four connections are used. Available connections include J12, JQR, JQS/T, and JY; All of these connections have their own specific functions. For example, although JQS/T connectivity is provided on the board, it is rarely used. The DS200DTBAG1AAA contact input terminal board is also assembled with several hardware jumpers that can be manually moved, although they all have the same general function. This manual mobile hardware jumper for the DS200DTBAG1AAA PCB is used to isolate the test contact output and is distinguished by its BJ1-BJ5 factory printed naming label. Before making any final purchase decision on this DS200DTBAG1AAA PCB, it is important to be aware that the performance specifications and dimensions it originally introduced have undoubtedly been changed, as it has a full history of triple revisions.
GE DS200DTBAG1AAA: Advanced Digital Contact Terminal Board

The DS200DTBAG1AAA Board’s original instruction manual material details a series of important instructions for safely and completely installing the product in its larger Mark V Series automatic drive assembly. The screwdriver is used to loosen terminals to remove wires, which means it could bump or scratch other components while unloading. To prevent this, use one hand to guide the screwdriver to the terminal you want to release. When you remove the signal lines from the DS200DTBAG1AAA, try to move them to the side and away from the other boards. If possible, reinstall the signal cable before installing the replacement board to limit the chance of damaging the fragile board in the drive. If you can connect wires, hold the board only from the side and use both hands. Carefully place the board into the cabinet and align the holes with the holes in the rack where the board will be mounted. When making a replacement, you must wear the wristband and attach the end of the wristband to an unpainted metal structure.

Frequently asked questions about DS200DTBAG1AAA
Does DS200DTBAG1AAA have a jumper?

Yes, we do! The DS200DTBAG1AAA model is equipped with various jumpers, such as Berg jumpers. If the Berg jumper is removed, it isolates different parts of the DTBA model contact input to simplify troubleshooting of potential ground faults.
How do I get the manual that I will use with the DTBA model?

One of the most difficult things about having a DS200DTBAG1AAA model is the lack of manual usability. The manual is so hard to find because GE no longer makes the Mark V series. While the series no longer produces models, they are usually used, but do not come with manuals.
What is the voltage on the DS200DTBAG1AAA?
The voltage most often mentioned when using the DS200DTBAG1AAA model is 24 VDC. DTBA models in the Mark V series typically range from 24 to 125 VDC.
The DS200DTBAG1AAA model has multiple digital contact inputs; Which inputs are used for terminating?

In the digital contact input of the DS200DTBAG1AAA model, inputs 1 to 46 are usually used for terminating functions.

GE DS200DSPCH1ADA: Advanced Digital Signal Processor Control Board

2025-01-07 BY jonson

IN Industry trends

DS200DSPCH1ADA|Digital signal processor control board

The DS200DSPCH1ADA is a GE digital signal processor control board compatible with GE’s Mark V Speedtronic control system for steam and gas industrial turbines. The DS200DSPCH1ADA provides the communication bandwidth and processing power to directly control the system’s power converter applications and high-performance drivers. The board has expandable inputs and outputs. The larger Mark V turbine control system family that this DS200DSPCH1ADA device belongs to is considered a legacy product family that is now obsolete, as it eventually ceased production many years after its initial release. This being the case, it can also be defined as one of GE’s final product lines to take advantage of the brand’s patented Speedtronic control system technology, which was first offered in the late 1960s along with the original version of the Mark V series. This DS200DSPCH1ADA PCB is not the original product of its intended Mark V series features; This will be missing the DS200DSPCH1ADA product with three important product revisions to the DS200DSPCH1 motherboard.

Hardware tips and specifications

The DS200DSPCH1ADA is a complex circuit board with multiple subboards. Given the ownership of this DS200DSPCH1ADA product, its DS200DSPCH1ADA functional product number does not mention a special Mark V series assembly version, which is somewhat unusual, as is the case with other typical Mark V Series motherboards. One board is mounted parallel to the board surface using a bracket and the other board is mounted vertically. One of the subboards is used to provide scaling, buffering, isolation, and conditioning of the signals so that they can be accessed and used by the DS200DSPCH1ADA digital signal processor. The DS200DSPCH1ADA has two backplane connectors on the back edge. The board is built from an additional front panel with multiple I/O and LED indicators. The panel also has a reset button and two setting screws (top and bottom) that help lock the board into place when installed into the rack system. Before replacing the mainboard, ensure that all power supplies to the drive are disconnected first. An incorrect installation program may result in personal injury. Each LED indicator in this DS200DSPCH1ADA printed circuit board product assembly has been affixed to the respective factory-printed naming label and is identified by reference to the DS200DSPCH1ADA instruction manual attached above. Some of the specific LED indicators that are important for the functional fault diagnosis function of the DS200DSPCH1ADA board include:

Green IMOK universal board function indicator
Red FAIL VME bus fault fault condition indicator
Amber LED1 indicator light
Amber LED2 indicator
Amber LED3 indicator
Amber LED4 indicator

GE DS200DPCBG1AAA Speedtronic Digital Signal Processor Control Card

2025-01-07 BY jonson

IN Industry trends

DS200DPCBG1AAA|Mark V series turbine control system manufacturing

This DS200DPCBG1AAA printed circuit board, or PCB for short, was originally manufactured to be placed in the Mark V turbine control system family of respected automated industrial retailer General Electric. As you can no doubt see from the full extended series name provided above, the DS200DPCBG1AAA product belongs to the Mark V Series, which has specific applications in popular wind power, steam control and management systems, and has turbine automatic drive components, and is considered a legacy family of General Electric. Because it was eventually discontinued a few years after its initial release. The larger Mark V family of his DS200DPCBG1AAA PCBS, while a legacy family at GE, also exists as one of GE’s final product families to take advantage of the company’s patented Speedtronic control system technology. This DS200DPCBG1AAA printed circuit Board can indeed be better defined as IOS + Power Connect Board; Although the Mark V series product originally developed with this feature was the DS200DPCBG1 mother printed circuit board.

Hardware tips and specifications

As with any GE Mark V turbine control system family, the DS200DPCBG1AAA PCB utilizes its own set of features – introducing hardware components and component specifications. The GE IOS + Power Connect Board DS200DPCBG1AAA has two wire terminals and can connect up to six signal cables. The GE IOS + Power Connect Board DS200DPCBG1AAA also has a fuse and a toggle switch. The fuse DS200DPCBG1AAA on the GE IOS + Power Connect board protects the board from damage when the current is too high, even if the surge is instantaneous. When a fuse is blown, you can visually inspect the fuse, and if the components inside the fuse are intact, the fuse is still running. If the component is damaged or lost, the fuse is blown and must be replaced. Have a fuse on hand with the same rating as the fuse on the board. You can refer to the written documentation to obtain the fuse rating, or if the rating is printed on the fuse, the rating can be obtained. However, if the ratings are not exactly the same, you may damage the board by subjecting it to current. Before disconnecting the power to the drive, you must communicate with others working around the drive that you plan to take the drive offline and that their productivity may be interrupted. Consult someone familiar with drive installation to find out how to power it. The large automation driver of the DS200DPCBG1AAA PCB will have a power supply associated with it, which you can turn off or remove the fuse from.

While the specific fuse information for this DS200DPCBG1AAA product certainly warrants attention, its previous placement on this personalized product page has more to do with the general lack of related instruction manual material on the Internet for this DS200DPCBG1AAA PCB. It is not related to the importance of the DS200DPCBG1AAA product fuse. That being said, the DS200DPCBG1AAA functional product number is the primary source of information on the hardware components and component specifications of the DS200DPCBG1AAA Board. The DS200DPCBG1AAA Functional product number begins with the DS200 series label, which holds dual and describes the domestic location of the normal Mark V Series components of the DS200DPCBG1AAA board and their original manufacturing location. Some of the other relevant DS200DPCBG1AAA Board hardware details revealed in the function block of the DS200DPCBG1AAA product number include the DPCB function abbreviation for this DS200DPCBG1AAA PCB, the normal PCB coating style, And a complete triple revision history at the end.

FAQ about DS200DPCBG1AAA
What does this DS200DPCBG1AAA IOS + Power Connect Board’s normal PCB coating style require?

The normal PCB coating present in this DS200DPCBG1AAA PCB assembly is a thick layer of basic chemical application daily wear protection that wraps and protects individual DS200DPCBG1AAA hardware components according to their functional priority.
Where exactly is this DS200DPCBG1AAA device manufactured?

Although it can usually be classified as domestic General Electric PCB; The specific original manufacturing location of the DS200DPCBG1AAA committee can be said to be the site of GE’s plant in Salem, Virginia.

GE IS200TBCIS2CCD Contact Input Termination Board

2025-01-03 BY jonson

IN Industry trends

IS200TBCIS2CCD|Contact input terminal board

As mentioned above, the IS200TBCIS2C printed circuit board was originally manufactured by GE Industrial Systems for use in its Mark VI series turbine control systems and turbine control system components. This IS200TBCIS2C printed circuit board, or PCB for short, is more specifically defined as a contact input end board by its original specification manual introductory function product description, and actually exists as a modified version of the previously developed Mark VI family of products; A single Class C functional product revision IS200TBCIS2 is added to the parent printed circuit board. Although there does not appear to be a product-centric IS200TBCIS2C instruction manual available on the Internet for research purposes, Edge instruction manual materials can help develop this IS200TBCIS2C product page. Combine functional IS200TBCIS2C product numbering with a thorough and technical person-led visual inspection of the IS200TBCIS2C PCB equipment itself.

Hardware tips and specifications

The IS200TBCIS2C contact input endboard is probably best understood as a purchase option when considering the various hardware components included and the intended functionality of the IS200TBCIS2C printed circuit board in the larger Mark VI series components. As specified in the original manual materials, the IS200TBCIS2C PCB is capable of accepting a total of 24 dry contact inputs, making it a key component addition to many Mark VI components that require terminal connectors. The power supply for these dry contact inputs above comes from a floating power supply in the turbine control assembly, and each dry contact input is optically isolated and sampled at the frame rate, taking into account the control function. The contact input voltage detected by the dry contact input of the IS200TBCIS2C terminal module is fanned out to three separate VME board frames by using the three marked plugs of the IS200TBCIS2C PCB. The IS200TBCIS2C device has the honor of being part of the Mark VI family of Turbine control Systems, one of the final iterations of the Mark product family developed by GE to introduce patented and highly regarded Speedtronic control system technology into its many different functional products.
GE IS200TBCIS2CCD Contact Input Termination Board

Now that some of the perceptual capabilities of this TBCI abbreviated Mark VI family of products have been described, some unique hardware components can be put in context to achieve this claimed functionality. For starters, as mentioned earlier, this IS200TBCIS2C contact input terminal board does have three plugs; Plugs for the JR1, JS1, and JT1 labels are connected to three separate J3 label plugs in the VCCC contact input board assembly. In addition to the various plugs provided with the IS200TBCIS2C module, the TBCI PCB uses a total of six field contacts; Each filter is equipped with its own noise suppression filter. It should be noted that the IS200TBCIS2C contact input terminal board is also compatible with the VCRC module, which exists as a single-slot alternative to the VCCC contact input board described above. All of the above hardware components unique to the IS200TBCIS2C contact input terminal board should be relatively well protected, given the special style of PCB protective coating offered by GE Industrial Systems products. This conformal PCB coating can be found when performing IS200TBCIS2C functional product number segmentation, resulting in other valuable information, Includes the normal assembly version of this PCB, domestic manufacturing, TBCI functional acronym, Group 2 Mark VI Series grouping and its single Class C functional product revision.

2025-01-03 BY jonson

IN Industry trends

IS200ISBBG2AAB|Printed circuit board

The IS200ISBBG2AAB printed circuit board was originally manufactured by GE Industrial Systems, a shell company of industry leader General Electric that manufactures its EX2100 line of excitation control Systems. This product exists as a revised version of the original IS200ISBBG2 mother printed circuit board; It has been modified by including two Level A feature revisions and a single Level B illustration revision. Such a printed circuit board or PCB may be defined in more detail as an InSync bus bypass board, as specified in the originally manufactured instruction manual material for such board.

Hardware tips and specifications

Before delving into the various hardware components and specifications that make this IS200ISBBG2AAB InSync bus bypass board unique, it is important to understand the true intended functionality of this product. Unfortunately, this PCB is defined in the original EX2100 series manual material and is only defined as an InSync bus bypass board, as any other defining material regarding the functionality of this product does not appear to be available online. Having said that, a great deal of information about the IS200ISBBG2AAB board module is readily available and can be accessed through a careful visual inspection of the part and an explanation of its personalized GE product number.
GE IS200ISBBG2AAB - InSync Bus Bypass PCB for Mark VI Excitation Control Systems

Upon beginning a visual inspection of this IS200ISBBG2AAB PCB, one component that immediately stands out is that it contains four fairly large reinforcing screw supports that appear to be contained within the component of the IS200ISBBG2AAB InSync bus bypass board for installation purposes. However, these are not the only mounting hardware components included in this bypass board assembly, as at least three factory boreholes are drilled into the substrate of this product. Some of the other more obvious hardware components included in the assembly of this ISBB abbreviated model include its large, center-aligned female ports and center-grouped voltage limiting resistors and capacitors.

As the analysis of the IS200ISBBG2AAB personalized product number reveals, all of the above hardware components that are critical to the functionality of the IS200ISBBG2AAB InSync bus bypass board should be well protected under a plain PCB coating. Some of the other specifications revealed by this method include its original manufacturer location in Salem, Virginia, its normal assembly style, its ISBB functional acronym, its Group 2 EX2100 series grouping, and its triple revision history.

FAQ about IS200ISBBG2AAB
Why is the ISBB acronym for IS200ISBBG2AAB printed circuit board classified as a functional acronym?

The ISBB acronym for the IS200ISBBG2AAB model, although a convenient shorthand for the IS200ISBBG2AAB board, also describes the function of this model as an InSync bus bypass.
What factory printed labels are available on the IS200ISBBG2AAB PCB substrate?

The IS200ISBBG2AAB PCB features a range of standard factory labels, including the IS200ISBBG2AAB product number, a printed General Electric logo, and a range of naming labels corresponding to its individual hardware components.
Are the three major revisions of this product considered backward compatible?

Nooooo. While the Grade A Feature Revision 2 of this product is backward compatible with the similarly rated Feature Revision 1, the third revision used by this product is classified as a draft revision and is therefore not backward compatible with any existing feature revisions.

2025-01-03 BY jonson

IN Industry trends

IS200STCIH6AED| DIN rail contact terminal plate

IS200STCIH6A DIN-RAIL Contact Terminal Board Equipment Which part of the Product number discloses Group 6 for DIN IS200STCIH6A DIN-RAIL Contact Terminal Board equipment?

As you may have guessed, the unit’s H6 Series group label is responsible for the Group 6 Mark VI Series classification of IS200STCIH6A DIN Rail contact terminal boards.
Why does A single Class A revision of this IS200STCIH6A DIN Rail contact terminal board device work?

This revised version of the IS200STCIH6A DIN Rail Contact Terminal Board product is functional in that it focuses solely on improving the basic performance specifications and overall functional quality of the IS200STCIH6A DIN Rail Contact terminal Board device.
About IS200STCIH6A
The IS200STCIH6A is a DIN rail contact terminal board for GE Mark VI series turbine control systems. The Mark VI fan control system family of IS200STCIH6A DIN Rail contact terminal board devices has a specific set of possible functional product applications in popular and GE compatible control and management systems for automatic drive components for gas, steam and wind turbines. It must be emphasized that this is a comprehensive functional upgrade to the previously established industry standard similar to the full extended product family title in the Mark V turbine control System family, as the Mark VI series adds more possible functional applications for alternative energy based wind turbines in steam and natural gas applications. This was made possible early on with the introduction of the basic Mark V. This IS200STCIH6A DIN Rail contact terminal board product is covered by warranty upon purchase of AX.
GE IS200STCIH6AED Control Circuit Board, Specialized for Industrial Control Applications

Hardware tips and specifications

The IS200STCIH6A is a printed circuit board (PCB) with many different components. On the left and right sides of the board are two large nickel-sized factory drill holes. There are also two factory drilled reinforcement terminal holes in the lower left and right corners of the board. Next to the bottom hole are two terminal strips with numerical markings. The top is labeled 1-51 and contains only odd numbers, while the bottom is labeled 2-52 and contains all even numbers. The top center edge of the board has an RS-232 37-pin female port. The board’s part number label is located in the lower right corner of the board, between the corner and the plant drill hole. There is a white 3-pin jumper just above the top terminal board on the left side of the board. The PCB also contains 2 transistors, 91 resistors, 27 diodes and 24 capacitors. This IS200STCIH6A DIN rail contact terminal board device is not actually a General Electric product originally designed for its specific intended role as a Mark VI turbine control system family of functional products. This is true because it must be considered A single Class A functional product revision of the IS200STCIH6 parent DIN rail contact terminal board, especially one that does not utilize this IS200STCIH6A DIN rail contact terminal board device.

IS200STCIH6A is a PCB and should be handled with care. Anti-static procedures should be implemented to prevent any type of damage to the board due to the build-up and release of static electricity. The board should be kept in an anti-static bag or box until it can be installed. When installing the IS200STCIH6A, wear an ESD wrist strap.