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GE FANUC IC693CMM302L - Advanced Communication Module for Industrial Automation
2025-01-09 BY
IN Industry trends

IC693CMM302|The module supports data exchange for up to 31 devices

Manufacturer GE Fanuc
Series Series 90-30
Manufacturer GE Fanuc/Emerson Automation
Part number IC693CMM302
Series Series 90-30
Product Type Enhanced Genius communication module
Product Description Genius Communication module
Number of supported bus devices 31
Slot width Single slot
Compatible host equipment GE series 90-30 PLC
Slot Allocate any slot except the CPU slot
Compatible backboard CPU, extension and remote backboard
Installation position 90-30 series baseplate
LED 2 (OK LED and COM LED)
GE FANUC IC693CMM302L - Advanced Communication Module for Industrial Automation
The IC693CMM302 is a Genius communication module in Emerson Automation’s Series 90-30 Programmable Logic controller (PLC) family, formerly known as GE Fanuc Automation. The module is a single slot width module that provides Genius protocol connectivity, and each controller can communicate with up to 31 devices and 62 devices, as the 90-30 series system allows up to two (2) IC693CMM302s per controller to be configured. The IC693CMM302 Each IC693CMM302 allows transmitting 128 bytes and receiving 128 bytes of global data, and supports PLC registers. Examples include global register (%G), discrete input (%I), discrete output (%Q), analog input (%AI), analog output (%AQ), and register memory (%R). It supports software-based diagnostics such as status bits, 90-70 PLC series fault reporting. The module’s environmental rating includes operating temperatures from 0 oC to +60 oC (+32 oF to +140 oF); The storage temperature is -25 oC to +70 oC (-13 oF to +158 oF); Humidity ranges from 5% to 95% (non-condensing), while mechanical ratings include 0.2 inch displacement, operating vibration from 5 Hz to 10Hz and 1 G, 10Hz to 200 Hz, and operating shock from 5 G to 10 ms duration. In addition to global data exchange, the IC693CMM302 allows for data monitoring via personal or industrial computers, monitoring data using I/O blocks, device communication via the Genius bus, and I/O simulation. The IC693CMM302 has a backplane power consumption of <300 mA at 5VDC. In addition to the 90-30 series PLCS, it can also be used with the 90-70 Series, the six-series PLCS, and the Genius Handheld Display (HHM) for local configuration.

The 90-30 Series IC693CMM302 communication module was designed and manufactured by GE Fanuc as a GCM+ device, also known as the Enhanced Genius communication module. The IC693CMM302 enhanced Genius communication module can communicate with global data between up to 32 devices. These devices are GE series 90-30 PLCS and 31 other devices connected to the Genius bus. The IC693CMM302 Enhanced Genius communication module is recommended to be installed on the CPU backboard of the host PLC system for the most efficient operation, but it can also be installed on a remote backboard or an extended backboard of the same system. However, the enhanced Genius communication module cannot be installed in a PLC with a regular Genius communication module or GCM. Multiple enhanced Genius communication modules, such as the IC693CMM302 module, can be installed in a single PLC system, and each Enhanced Genius communication module has its own Genius bus, which means that each module can connect to and communicate with up to 31 additional devices simultaneously. For example, the 90-30 series GE PLC with 2 enhanced Genius communication modules can communicate with up to 62 other devices simultaneously. The IC693CMM302 enhanced Genius communication module is primarily used to exchange global data, but it can also handle data monitoring for industrial or personal computers, point-to-point and master-slave communication between bus devices, and data monitoring from Genius I/O blocks (note that the communication module has no control over these I/O blocks).

General Electric IC693CHS397 Control Module - Advanced Automation Solutions
2025-01-09 BY
IN Industry trends

IC693CHS397|5-slot baseplate for the 90-30 series Programmable Logic Controller (PLC) platform

Manufacturer GE Fanuc
Series Series 90-30
Nooooo. Number of CPU slots 1 (1)
Manufacturer GE Fanuc (ex); Emerson Automation (Current) Emerson Automation (current)
Part number IC693CHS397
Nooooo. Number of power sockets 1 (1)
Series Series 90-30
Product Type CPU mainboard
Slot allocation CPU/ Dedicated module: Slot 1 I/O module/Optional module: Slot 2-5 Unnumbered slot: Power module Expansion cable: expansion cable
Product Description 5-socket CPU mainboard
General Electric IC693CHS397 Control Module - Advanced Automation Solutions

The IC693CHS397 is a 5-slot baseboard for the 90-30 series Programmable Logic controller (PLC) series. The hardware was part of GE Fanuc Automation during the active life of the product family, but the PLC family and other products were recently acquired by Emerson Automation. The IC693CHS397 has a total of five (5) slots and another uncounted slot dedicated to the power module. The backboard has one (1) slot dedicated to a central processing unit (CPU) or dedicated module, four (4) slots allocated to I/O, and option modules. It also provides an expansion slot located on the far right of the hardware for rack expansion. Only one (1) CPU is allowed to be installed on this backboard. In addition, the same slot of the CPU (Slot 1) is also compatible with communication modules such as FIP remote I/O scanners and similar modules. Slot 2 and other I/O slots have a unique size and do not fit into any other module. This provides connection security and prevents damage to other modules during installation. The mainboard expansion port provided is a 25-pin D-shaped housing female connector that is installed on the far right side of the hardware. When connecting expansion cables or implementing multiple expansion plates, ensure that the total length of the cables does not exceed 50 feet or 15 meters. The IC693CHS397 is designed for panel mounting via the provided mounting strip. The hardware measures 10.43 x 5.12 x 5.59 inches. (W x H x D), the internal power consumption is 270 mA at 5 VDC.

GE Fanuc IC693CHS397 5-slot baseplate of the GE Fanuc Series 90-30 for hosting modular cpus or cpus, I/O, and dedicated modules. The IC693CHS397 baseboard has five slots for mounting various cpus and other devices that make up a complete PLC or programmable logic controller. Technically, the GE Fanuc IC693CHS397 baseboard has a total of six slots, not just five, but the first slot on the left side is not numbered as it is always and only used to host the PSU. The size and shape of this power socket is different from the numbered five slots, and its size and shape can only accommodate one power supply and not any other power supply. GE Fanuc Series 90-30 IC693CHS397 5-slot CPU The five main slots in the baseboard consist of one CPU slot (the name of the baseboard) and four non-CPU slots that can host the I/O module. The IC693CHS397 also has an I/O expansion bus connector on the far right edge of the backboard, which can be used to extend the I/O communication capability of the backboard beyond what four I/O slots can handle. The expansion and remote backboards can be connected to the IC693CHS397 CPU backboards as part of a large PLC system, but there can only be one CPU backboard in the PLC. The CPU baseboard is always installed in Rack 0 of the PLC system. Since the IC693CHS397 CPU baseboard supports modular cpus, it is easy to replace or upgrade the CPU module if necessary.

GE IC693CHS391N - CPU Module Base with 10 Slots, for Advanced Industrial Control Systems
2025-01-09 BY
IN Industry trends

IC693CHS391|10-slot modular CPU backboard

Brand GE Fanuc
Series Series 90-30
Manufacturer GE Fanuc
Part number IC693CHS391
Series Series 90-30
Description expansion backboard
Product Description Modular CPU mainboard
Currently 420 mah

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 IC693CHS391N - CPU Module Base with 10 Slots, for Advanced Industrial Control Systems

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.
2025-01-07 BY
IN Industry trends

DS200LDCCH1AGA|Drive control /LAN communication board

Ge developed the DS200LDCCH1AGA card for use as a driver control and local area network (LAN) communication board. The card is installed in a Mark V Series replacement drive board compatible with GE brand DIRECTO-MATIC 2000 drives and exciters. When installed in a drive, the board provides the drive with a range of drive and I/O control functions. The larger Mark V turbine control system family to which the DS200LDCCH1AGA PCB belongs is considered a traditional GE product family, as its production was discontinued years after its initial release. While that attribution is correct, the larger Mark V series of this DS200LDCCH1AGA Drive Control/LAN communication board is also considered one of the last in GE’s Mark product line, It utilizes the company’s patented Speedtronic control system technology, which was first released with the Mark I series concept in the late 1960s. This DS200LDCCH1AGA printed circuit board was not originally developed with a specific function to appear in GE’s Mark V family of steam turbine control systems; This will be the DS200LDCCH1 mother PCB missing all three important product versions of the DS200LDCCH1AGA product.
GE DS200LDCCH1AGA Mark V Communication Module, Enhanced Control & Monitoring

Hardware tips and specifications

As with any device in the GE Mark V series; The functionality of this DS200LDCCH1AGA PCB is introduced by the inclusion of a specific family of hardware components and component specifications in its internal components. DS200LDCCH1AGA communication card board with four microprocessors. The LAN Control Processor (LCP) can be used to accept feeds to the drive in five different bus types. The Drive Control Processor (DCP) can also be used to handle analog and digital I/O conversions. DCP is also able to control and convert peripheral I/O devices, such as encoders and timers. A motor control processor (MCP) is provided to process the digital I/O sent to the drive. If computing requires additional processing power that a DCP cannot provide, a comotor processor (CMP) will provide the additional power needed to accomplish these functions. The board is equipped with an alphanumeric keyboard for system programming and diagnostic purposes. The six flash PROMS in the DS200LDCCH1AGA Drive Control/LAN Communications Board component are responsible for the configuration data storage of the DS200LDCCH1AGA device. Each of these PROMS is factory programmed, although the original DS200LDCCH1AGA instruction manual material states that they can be reprogrammed on site as needed. In order to diagnose and adapt to possible and common functional failure situations, the DS200LDCCH1AGA PCB also includes a separate RESET button in its components.

DS200LDCCH1AGA model has field adjustable parameters. One of these is the EEPROM U9, which will be programmed to download the drive configuration values needed to properly operate the LDCC unit. By moving the U9 from another driver control board, the EEPROM U9 firmware can be transferred directly to the LDCC unit.

GE DS200KLDCG1AAA - Advanced LED Display Board for Turbine Control Systems
2025-01-07 BY
IN Industry trends

DS200KLDCG1AAA|Key /LED/ display board

The DS200KLDCG1AAA printed circuit board product was originally designed and manufactured by General Electric specifically for its Mark V family of turbine control systems. As you must have already established from its extended name, this DS200KLDCG1AAA printed circuit board exists as a member of the Mark V Series with specific applications in control and management systems for automatic drive components for steam, wind and gas turbines, and is considered a legacy family from General Electric. Production was discontinued within a few years of its initial release. The DS200KLDCG1AAA product as a component member of the Mark V turbine control system family is also one of GE’s last product families, leveraging its patented Speedtronic control system technology. The technology was first released in the late 1960s along with the launch of the Mark I series. This DS200KLDCG1AAA printed circuit board has a true functional product description, such as a key /LED/ display board, based on which the functional description is included in the relevant Mark V Turbine Control System series instructional manual materials. While this DS200KLDCG1AAA PCB can be defined by this functional description, it is not the original key /LED/ display board manufactured for the Mark V series; This will be missing all three revised versions of the DS200KLDCG1 master printed circuit board for the DS200KLDCG1AAA product.

Hardware tips and specifications

Like any circuit board in our inventory of old and new GE Mark V Series products, this DS200KLDCG1AAA PCB leverages its own set of features – the inclusion and specification of introduced hardware components. For starters, this DS200KLDCG1AAA printed circuit board is equipped with many of the various voltage limiting and storage hardware components commonly found in other electrostatic sensitive Mark V series products, including many resistors, capacitors, and diodes. The substrate of the DS200KLDCG1AAA product is additional insulated by the DS200KLDCG1AAA device containing a common style PCB coating that wraps and insulates individual product hardware components connected to its base DS200KLDCG1AAA circuit board in order of functional priority. Before making any final purchase decision on the DS200KLDCG1AAA product, it is important to be aware that the following hardware component and specification information may have changed because the DS200KLDCG1AAA PCB features two Class A functional product revisions and one Class A illustration revision.

The GE Key/LED/ display board DS200KLDCG1AAA features 32 leds, 21 4-character displays, and 1 jumper. The GE Key/LED/ display board DS200KLDCG1AAA also has a 40-pin connection board on the back of the board. The jumper on the board is used to modify its behavior by changing the position of the jumper on the pin. For example, if the jumper covers pins 1 and 2, you can move the jumper to cover pins 2 and 3. The documentation that came with the original board describes the jumpers and how moving them changes the behavior of the board. However, some jumpers are for factory use only and service providers are not allowed to move. In this case, the jumper is used for testing during the manufacturing process, and running the board with the jumper in the spare position is not supported. For more information, see the information that comes with the board.

The DS200KLDCG1AAA board is attached to its larger Mark V Series automation drive cabinet with screws inserted into four holes in each corner. These holes are aligned with screw holes in the drive cabinet rack and drilled at the GE facility, including the ring insulation. Before removing a defective circuit board, note where the circuit board is installed and how the cables are routed in the cabinet. Cable routing is important because it protects the DS200KLDCG1AAA and its larger Mark V-series drivers from high-voltage current if the signal cable is too close to the high-voltage cable. In addition, cable wiring helps maintain proper air circulation. Improperly routed cables can block airflow and cause components to heat up.

Frequently asked questions about DS200KLDCG1AAA
How to identify LED on DS200KLDCG1AAA?
There are 32 leds on the DS200KLDCG1AAA, and each LED on the DS200KLDCG1AAA is identified by the DS1-DS32 nomenclature on the DS200KLDCG1AAA.
Are all the parts on each DS200KLDCG1AAA the same?
No, not every DS200KLG1AAA is the same. For example, some of our DS200KLDCG1AAA boards have connection bars manufactured in the Philippines, while our other DS200KLDCG1AAA boards have connection bars manufactured in Malaysia. However, regardless of the differences in a particular DS200KLDCG1AAA, the DS200KLDCG1AAA always works the same way.
DS200KLDCG1AAA How many wires are connected?
The two wires are connected to the DS200KLDCG1AAA through the part labeled L1 on the DS200KLDCG1AAA.

GE DS200KLDBG1ABC Key LED Display Board for Mark V Series, Industrial Automation
2025-01-07 BY
IN Industry trends

DS200KLDBG1ABC|The key /LED display panel is manufactured by General Electric

The DS200KLDBG1ABC is a GE component used in the Mark V Speedtronic system. The Mark V was one of the last Speedtronic systems used to control gas or steam turbines. It is a flexible microprocessor-based control system with a TMR architecture designed with built-in diagnostic and online maintenance capabilities. GE no longer sells the DS200KLDBG1ABC, but it can be found through AX Control, either as a refurbished unit or as a way to liquidate surplus (newly used) inventory. Please note that DS200 series boards are older devices and do not have updated firmware or components; If your system needs these updates, check out similar boards in the DS215 series.

Hardware tips and specifications

The DS200KLDBG1ABC is used as a display board. It is a large rectangular plate with only a few well-spaced components. This consists of 32 vertical optical components, eight in each row placed in four rows in the lower right quadrant of the board. An integrated circuit and resistor network array are placed between these lights. More integrated circuits are clustered in the lower left corner, including a field-programmable gate array and at least one oscillating chip. The DS200KLDBG1ABC board has multiple board connectors, including two vertical pin elements. The board has two jumper switches. Various capacitors, diodes and resistors can also be used in the assembly of this DS200KLDBG1ABC product; Hardware components of this type are available for a variety of overpressure limiting and consumption purposes. The top of the board consists of seven LED displays. These displays are designed for digital display and use 16 segments of numbers. The board is marked with codes such as C-ESS and 6BA01. The corners and edges of the board are drilled to allow installation. For more information, refer to technical support products such as data sheets or user guides.
GE DS200KLDBG1ABC Key LED Display Board for Mark V Series, Industrial Automation

The previously included DS200KLDBG1ABC hardware component and component specification information is only reminiscent of this thorough visual inspection of the DS200KLDBG1ABC printed circuit board, Because the DS200KLDBG1ABC PCB larger Mark V turbine control system series is not well documented in the instructional materials available on the Internet. With this in mind, the DS200KLDBG1ABC feature product number has acquired new importance in this context as it displays many of the hardware details of the DS200KLDBG1ABC product in a separate feature naming block, starting with the DS200 series label, The DS200KLDBG1ABC PCB has dual naming responsibilities. DS200KLDBG1ABC Features The DS200 Series label at the beginning of the product number indicates the original manufacturing location of the DS200KLDBG1ABC PCB and its normal style Mark V Series printed board assembly. In the DS200KLDBG1ABC functional product number, this dual-function family label is followed by the KLDB Functional Product abbreviation, which exists as a functional shorthand alternative to the DS200KLDBG1ABC functional product number. Some of the additional DS200KLDBG1ABC Key/LED display board information stored in its specially developed DS200KLDBG1ABC product number includes the normal style PCB coating of the DS200KLDBG1ABC PCB, its first set of Mark V Series product groupings, and more. Finally, there is its complete revision table, including two feature revisions and one illustration configuration revision.

FAQ about DS200KLDBG1ABC
Are the three important revisions of this DS200KLDBG1ABC Key/LED Dispay Board considered backward compatible?

Nooooo. Only the first two product revisions of this DS200KLDBG1ABC product offering are backward compatible because they are both functional styles of the product revisions.
What does the normal PCB coating style for this DS200KLDBG1ABC PCB include?

The common PCB coating applied to the substrate of this DS200KLDBG1ABC product is a thick layer of daily wear protection that wraps and protects individual DS200KLDBG1ABC PCB hardware components on a function-first basis.

GE Fanuc DS200IQXSG1A - Mark V Board: High-Performance Control Module
2025-01-07 BY
IN Industry trends

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
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
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
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

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