Category: GE

Embedded Ethernet communication ports enable controller and media redundancy, thus increasing the availability of the I/O modules. These Ethernet ports feature a dedicated microprocessor core that allows the IC695CPE330 controller to simultaneously perform up to 48 SRTP server connections and 16 Modbus®/TCP server connections with up to 32 clients (SRTP or Modbux/SRTP) per connection.

In addition, the USB 2.0 master port allows uploading and www.cniacs.com downloading of programmes using ordinary USB flash drives and smartphones. This feature makes it easy to maintain the operation of the RX3i control system.

The IC695CPE330 supports programming languages such as Ladder Diagram (LD), Structured Text (ST), Function Block Diagram (FBD), or C. The IC695CPE330 also supports communication with third-party devices through OPC UA, an industry standard that can be implemented over Ethernet IP connections.

The IC695CPE330 CPU also supports a variety of IO protocols such as PROFINET, EGD, Modbus TCP, PROFIBUS, Genius, DeviceNet, Modbus RTU, and Reflected Memory (CMX) protocols. It is part of the RX3i family of CPUs with an embedded Ethernet/PROFINET interface.

The IC695CPE330 RX3i PacSystems CPU also supports the Rackmount PROFINET Controller Module for communications.The IC695ACC402 Energy Pack, IC695ACC412 Capacitor Pack, and the IC695CBL002 Connection Cable are some of the optional accessories for this module. The module panel has 6 LED status indicators, pushbuttons, and a 3-position run mode switch for easy monitoring and operation. The CPU must be mounted in the mainframe of an RX3i PLC system to integrate with any RX3i I/O module or Intelligent Option Module. Supporting up to 32K discrete and analogue I/O points, the IC695CPE330 RX3i CPU is the best choice for multi-layer communication and handling large amounts of data in complex industrial applications.

The IC695STK001 Starter Kit is the RX3i PacSystems Package 1 Starter Kit, part of GE Fanuc Automation’s RX3i PacSystems family.

Like the other starter kits, this kit is designed to meet the specific requirements of certain devices used in a PLC system. The kit includes a CPU and software.

The choice of CPU depends on the user and their application, and the different CPUs available include the IC695CPU310. IC695CHS012. IC695LRE001. IC695PSA040. IC695ETM001. IC694ACC300. IC694MDL940 and IC646MPP00 CPUs.

The GE Fanuc Automation IC695STK001 RX3i Package 1 Starter Kit is designed to provide a combination of hardware and software to install the CPU and make it ready for operation.

The CPUs in the GE Fanuc Automation IC695STK001 RX3i www.cniacs.com Package 1 Starter Kit provide real-time control of different devices in an application process.

These devices can be machines, processors, and material handling systems.

These CPUs share data with connected programmers and HIM devices that display the current status of the application process.

This particular CPU contains battery backed memory and non-volatile flash, configurable data and program memory.

Most 90-30 series modules and expansion racks are supported.

DESCRIPTION

The IC200ALG331 is a 4-point analogue voltage/current input module from the VersaMax I/O family.

Formerly manufactured by GE Intelligent Platforms, it is now part of Emerson Automation.

The module has four (4) individually isolated output channels that provide 1-20 mA and /-10 VDC output signals with 16-bit resolution and a maximum update rate of 7.0 ms.

The module is fully software configurable with selectable output hold or default last operating state functions.

About the IC200ALG331 The IC200ALF331 is an analogue output module for the VersaMax I/O platform, which consists of compact, versatile, and scalable distributed I/O modules.

This part number represents a 16-bit voltage and current configurable module with four (4) individually isolated output channels.

This module is used to drive and regulate final control elements (FCEs) such as control valves for flow control, variable frequency drives (VFDs) for motor speed and torque control,

dampers and shutters in facilities, and other equipment equipped with positioners in HVAC applications.

The module can also be used to relay analogue www.cniacs.com signals, which may be the result of continuous calculations within the logic of a programmable logic controller (PLC).

displayed by panel meters and recorded by data loggers. It can also be used to interface with a signal isolator or signal splitter, to

or to cascade a reference signal to another single-loop controller or PLC for more complex controller architectures, such as cascade control.

The IC200ALG331 has output channels that can be configured via software to generate +/-10 VDC or 4-20 mA output signals.

Each channel has a maximum update rate of 7ms and an accuracy of +/-0.1% of full scale maximum.

Each channel is also capable of configuring and detecting high/low limits, over/under ranges, open circuits, loss of field power, non-volatile memory faults, and

as well as individually assigning output behaviour for PLC stop or module errors (such as holding the last state or dropping to zero (0)), which can also be modified.

Since the IC200ALG331 is fully software configurable, there is no need to install a terminal jumper to the module to set the operating mode.

The GE IC200ALG331 module is a 16-bit analogue output module. It is equipped with 4 isolated channels.

It is part of the GE Fanuc Versamax module family. The main function of the module is to control multiple analogue devices at once.

The module can be easily configured using only software. There are no jumpers or switches in this output module variant.

The operating voltage range of this module is between -10 and 10 volts DC. The current rating of the module is 4 to 20 mA.

The analogue output module updates itself in a 7 millisecond time period. It draws a total of 15 milliamps of current from the 5-volt bus.

Description.

The IC200MDL930 is an 8-point relay output module for the VersaMax I/O series, formerly manufactured by GE Intelligent Platforms and now part of Emerson Automation.

The module has eight (8) individually isolated normally open (N.O.) or type A contacts rated for 0 to 125VDC, 5/24/125VDC nominal output voltage and 0 to 265VAC (47 to 63Hz),

120/240VAC nominal output voltages and output contacts rated at 2.0 amps.

About the IC200MDL930

The IC200MDL930 is an eight (8) channel output module that is part of the VersaMax I/O platform.

Formerly offered by GE Intelligent Platforms (GE IP), it is now part of Emerson Automation.

The module is equipped with individually isolated relay output channels in normally open (N.O.) or form A contact positions.

The inbuilt relays of the module are of fixed coil, moving armature type with relay contacts made of silver alloy.

These contact outputs are suitable for energising electrical loads operating at different voltage categories, in particular at AC voltage frequencies from 47 to 63 Hz, 0 to 125 VDC and 0 to 265 VAC.

The IC200MDL930 contact output is essentially a dry contact output. It requires an external supply voltage source to conduct the proper voltage to the connected electrical load.

It can be used for resistive or conductive loads, but it is recommended that conductive loads, external protection or suppression circuits (such as fuses) be installed.

Output contacts are rated at a minimum of 10mA per point; 2.0A for 5 to 265 VAC, max; 2.0A at 5 to 30 VDC, 0.2A at 31 to 125 VDC, max.

All current ratings are resistive load ratings. www.cniacs.com In addition, the nominal external supply voltage ratings for the contact outputs are 5/24/125 VDC and 120/240 VAC.

The IC200MDL930 has a maximum backplane current consumption of 245 mA when all outputs are energised.

The module is equipped with a separate channel indicator to describe the energised state of each output channel.

It also has a separate module OK LED indicator to indicate the active power received by the module from the backplane power supply.

The IC200MDL930 module is an 8-point output module manufactured by GE Fanuc. It is part of the Versamax family.

The output points of the module are individually isolated. The output module draws 245 mA of power from the baseboard with all outputs active.

The IC200MDL930 module is fully compatible with AC and DC loads. Each of the module’s eight points has its own LED indicating field power through those points.

The module contacts are closed by default during module activation. At this time the output bit is set to 1. The module is easy to install when using the rack mounting method on a baseboard.

The output module is certified to CE, cULus and other industry standards. It is used for global settings.

About the DS200CVMAG1AEB

As mentioned above, this DS200CVMAG1AEB printed circuit board product was originally manufactured for placement in General Electric’s Mark V family of turbine control systems.

As you may have guessed, this DS200CVMAG1AEB product belongs to the Mark V family in the popular Steam,

wind and gas turbine automatic drive system components with specific applications in control and management systems, and was considered a legacy series for General Electric as it was eventually discontinued a few years after its initial release.

This larger Mark V series of DS200CVMAG1AEB Printed Circuit Boards or PCBs for short, while existing as a legacy series, is

but is also part of General Electric’s recently released line of products utilising their patented Speedtronic control system technology.

While this DS200CVMAG1AEB PCB can be functionally described as a generator control turbine board, the original PCBs developed with this function were not.

However, the Mark V series products originally developed with this functionality were missing all three parent PCBs of the DS200CVMAG1AEB PCB three important product revisions of the DS200CVMAG1 parent PCB.

Hardware Tips and Specifications

The GE Generator Control Turbine Board DS200CVMAG1AEB contains two 16-pin connectors and one 2-pin connector. The board is also equipped with 6 test points.

The GE Generator Control Turbo Board DS200CVMAG1AEB can be damaged by static electricity, so care must be taken when handling and installing the board.

When you open the box in which the board was shipped, you will notice that the board is packaged in a sealed plastic bag.

When the bag is sealed, it serves multiple purposes. www.cniacs.com It protects the board from dust, dirt, and other contaminants, as well as water or other liquids that may spill onto the board.

Firstly, the bag prevents static electricity from damaging the board. Consider the static buildup that can occur when you walk around with your board.

The air around you can cause static electricity to build up on your body and the board. Touching surfaces and walking on certain surfaces can also cause static buildup.

With this in mind, it is best to avoid carrying your board unless you are installing it. Keep in mind that the dry air you encounter in cold weather can lead to greater static buildup.

The GE Generator Control Turbine Board DS200CVMAG1AEB is shipped to you with a wrist strap that allows static electricity to drain away from your body and the board.

One end of the wrist strap wraps around your wrist and the other end is used to clip onto a metal surface, such as the legs of a workbench.

Whilst the static sensitivity of such DS200CVMAG1AEB printed circuit boards and the specification of installation procedures are important.

About the DS200CDBAG1

As previously mentioned, this DS200CDBAG1 printed circuit board product, or PCB for short, is a contactor driver board manufactured by General Electric for placement in its Mark V turbine control system series of automatic drive assemblies. This DS200CDBAG1 PCB is no longer actively produced by the larger Mark V series, and its eventual discontinuation was necessary given the industry-wide obsolescence of many of its products. With that in mind, the Mark V series to which this DS200CDBAG1 printed circuit board, or PCB for short, belongs remains the final instalment of General Electric’s Mark product line, incorporating its patented Speedtronic control system technology into its various products. This DS200CDBAG1 PCB is defined in the original instruction manual material via the official functional product description of the contactor driver board, and it does exist as a revised version of the original base for this intended Mark V series functional role, as indicated by its DS200CDBAG1 functional product number without any trailing, alphanumeric digits denoting a revision.

Hardware Tips and Specifications

The GE Contactor Driver Board DS200CDBAG1 opens and closes the contactors in its larger Mark V Series Autodrive assembly. Before touching the board for installation, be sure to disconnect power to the drive and test the board to ensure that there is no power in the board. Also, do not remove the board while the drive is powered. Static electricity can damage the board. Use a grounding strap to work on the board and store the board in a static protection bag. the DS200CDBAG1 has a jumper. jp1 is a 3-pin jumper for factory test purposes only. Keep pins 1 and 2 covered for normal operation. When pins 2 and 3 are covered, it is for factory use only. www.cniacs.com The DS200CDBAG1 also has a potentiometer to control the amount of current applied to the contactor coil. This is set at the factory and it is best practice not to change it. Voltage limiting in the assembly of this DS200CDBAG1 Mark V Turbine Control System series product is handled in the same manner as most General Electric Speedtronic products; accepting a variety of voltage-limiting hardware components including capacitors, rectifiers, diodes, and integrated circuits through its internal assembly. In addition to this, the base board and components of this DS200CDBAG1 product receive the normal level of protection from daily wear and tear and insulation due to its normal style of PCB protective coating, which wraps and protects the individual DS200CDBAG1 board hardware components according to their functional priority.

The DS200CDBAG1 also features test points that can be used to test board operation. One test point is a common reference point for the board. One test point is a 15 VDC test point referenced to the common reference point. One test point is for contactor driver reference voltage. connector 1TB on the DS200CDBAG1 board consists of four sections (1TBA, 1TBB, 1TBC, and 1TBD). Carefully note the location of the connector on the board and use a screwdriver to pry the sections apart. The connectors on the replacement board may be in different locations, so care must be taken to plug the sections into the correct connectors. There is also a fuse available for this DS200CDBAG1 Mark V series assembly; this fuse is designated in the original instruction manual material as a 4 amp, 125 V, 2AG slow blow fuse and can be replaced if it continues to blow (this is usually applicable to any DS200CDBAG1 board assembly).

The DS200ADGIH1AAA is 6 inches long and is designed to be mounted in the drive’s board cabinet.

It has four screws that align with a location on the board rack for screw mounting.

Test points provide a means of testing the circuitry on the board. However, only qualified service personnel should test the board.

Service personnel must have test equipment calibrated www.cniacs.com and designed for the task. The controls must be set up correctly and the probes must be designed for use with the tester.

Place the board on a flat surface and place a protective bag underneath the board.

In addition, due to the risk of static electricity, service personnel must wear a wrist strap at all times.

When the wrist strap is properly fitted, one end of the strap is attached to the wrist and the other end is clipped to the metal leg of the workbench or desk.

It can also be attached to other metal structures. Static electricity is attracted to the metal ground and then discharged from the circuit board or your body.

Another appropriate step to reduce static build-up is to avoid moving the board around while holding it in your hands. The friction of walking can cause static buildup.

This is especially true in cool, dry weather conditions. If you do not have a wrist strap, you can also touch the static bag containing the board to a metal structure, such as a chair or metal table leg.

This DS200AAHAG1ADC allows connection between externally placed modules or I/O cores and the control engine. This board is used to connect these units to the ARCNET communication protocol.

The board is used in combination with the UCPB board containing the 486DX processor/CPU and the UCIA main board containing the 196 processor chip. This chip is used to convert the pressure sensor signals.

Unfortunately, no Berg-type manual movement hardware jumpers or other customisable hardware is inserted into the internal components of this DS200AAHAG1ADC product.

This DS200AAHAG1ADC printed circuit board or PCB for short benefits from having a DS200AAHAG1ADC functional product number.

This number identifies many key hardware specifications, including this DS200AAHAG1ADC PCB:

. Common Mark V Series Assemblies

. Domestic Original Manufacturing Base

.AAHA Functional Product Abbreviation

. Normal PCB Coating Style

. Group I Mark V Series Product Grouping

.A Level Primary Functional Revision

.D Secondary Functional Revisions

.C level drawing configuration revisions

The DS200AAHAG1ADC includes multiple BNC connectors. www.cniacs.com They are used to download files to the control engine, which typically occurs at a rate of 100 Hz or 10 ms.

The board is commonly abbreviated AAHA and includes other connectors. the AAHA includes an APL ArcNet communication link and a 2PL connector for distributing power from the TCPS board in the core.

The other connectors on the board (such as EPL and EBNC) are usually unused. The board is marked with several factory-printed naming labels, starting with the GE logo.

It also includes its ID markings and codes to help the user with orientation and wiring. Most of the board’s components are labelled with reference names.

The DS200AAHAG1ADC board’s two relays include relay diagrams directly on top of them that are clearly visible to an installation or troubleshooting engineer or technician.

For more information about the DS200AAHAG1ADC board, refer to GE original manuals and user guides, such as GEH-6353B.

DS200ADCIG1ADB Technical Specifications

About the DS200ADCIG1ADB

General Electric’s DS200ADCIG1ADB Genius adapter board is used in the company’s Mark V turbine control system.

The Mark V is one of the more complex of the company’s Speedtronic turbine control systems, which range from the Mark I (originally released in the late 1960s) to the Mark VIe.

Speedtronic systems have been used for decades www.cniacs.com for their reliability and flexibility in the management and control of industrial gas and steam turbine systems.

This particular DS200ADCIG1ADB printed circuit board is not the original Genius adapter board product manufactured for the Mark V turbine control system family.

The original Mark V series Genius adapter boards are the three key product revisions of the DS200ADCIG1ADB Genius adapter board missing this DS200ADCIG1 parent printed circuit board.

Hardware Tips and Specifications

As with any GE printed circuit board, Mark V series or otherwise, the internal assembly of this DS200ADCIG1ADB PCB utilises its own specific series of hardware component inclusions and specifications in order to implement the functionality in the Mark V series.

 to realise the functional state of the Mark V series. For the uninitiated, the DS200ADCIG1ADB is a rectangular board with holes drilled at the factory corners for mounting.

Each of these factory drilled holes should be insulated in accordance with the potentially damaging surface voltages of this DS200ADCIG1ADB PCB.

In terms of factory-printed diagnostic labels, the DS200ADCIG1ADB Genius Adapter board carries the board ID, a code to aid in locating and wiring the board, and the General Electric logo to ensure authenticity.

The board has two programmable memory chips (PROMs) as well as other integrated chips. the PROMs can be moved from the old component to the new one, simplifying replacement.

Please note that both the DS200ADCIG1ADB board and the PROMs are sensitive to static electricity. We recommend wearing a grounding strap during installation or any form of maintenance; this is supported by General Electric’s instructional manual material.

This DS200ADCIG1ADB includes single-pin connectors, multi-pin connectors, and plug connectors, as well as multiple jumper switches that allow you to configure the board as needed.

As mentioned earlier, most of the components are labelled with some sort of reference indicator, although the true function of these jumpers is unclear due to the lack of relevant instruction manual documentation on the internet.

Description.

The IC200PWR002 is a power supply module that is part of the VersaMax product family, currently part of Emerson Automation and previously manufactured by GE Intelligent Platforms. The power module is a 24 VDC extended power supply with an input supply voltage of 18-30 VDC. it has output voltages of 5 VDC and 3.3 VDC, and a total output current of 1.5 A, with a maximum of 1.0 A at 3.3 VDC and 1.5 A, and a maximum at the 5 VDC output.

About the IC200PWR002

The IC200PWR002 is a power supply module that is part of the VersaMax platform, which was previously manufactured by GE Intelligent Platforms (GE IP) and is now produced by Emerson Automation. This module can be used as a mains power supply or a power booster carrier. When used as a main power supply, this module is used to power a VersaMax that is enabled for installation and connected to a backplane. When used as a booster power supply, this module is mounted on the booster bracket and is used as a supplemental power supply. It has five screw type terminals located on the bottom front panel of the module. The two terminals on the left side are the www.cniacs.com DC and -DC terminals, while the third terminal is the ground terminal. The last two terminals do not need to be connected.

The IC200PWR002 is designed to operate from an input supply voltage of 18-30 VDC with a nominal supply voltage of 24 VDC.The module has an input power of 11 watts and a hold-up time of 10 milliseconds. Its inrush current is rated at 20 amps with a maximum duration of 6 milliseconds at 24 VDC and a minimum duration of 25 amps for 6 milliseconds at 30 VDC. Module output characteristics include output voltages of 5 VDC and 3.3 VDC with an output current of 1.5 amps, maximum at 3.3 VDC, and 1.0 amps at 5 VDC, provided that the output current does not exceed the maximum output of 1.5 amps. The power module is also fitted with internal short circuit, overload and reverse polarity protection.

This power supply module is primarily used with VersaMax I/O modules, Network Interface Units (NIUs), and Central Processing Units (CPUs).

The GE Fanuc IC200PWR002 Extended Power Supply Module is used to power backplane devices such as the I/O, CPU, and NIU. If it is connected to the network interface unit (NIU) or the central processing unit (CPU), the expansion power supply module acts as the main power supply. However, if it is connected to a power booster bracket, the extended power supply module acts as the auxiliary power supply.The output and input voltages of the IC200PWR002 module require a DC power supply. It has output ratings of 3.3 volts DC and 5 volts DC, and an input rating of 24 volts DC.The output voltages of 5 volts DC and 3.3 volts DC determine the output current of the module, which should not exceed 1.5 amps. It has an extended power supply option, but no isolated power supply.