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GE IC660BBD022 16 Circuit Enabled Source I/O Module

The IC660BBD022 is a Genius protocol-enabled module that is part of the Genius I/O Block series of distributed I/O modules. The device is a stand-alone, single node I/O station with sixteen (16) I/O circuits that supports source-wired configurations.The IC660BBD022 has sixteen (16) I/O circuits and operates at 24 / 48 VDC.Each channel of the module can be configured as an input and an output, and is capable of exchanging data over the supplied Genius I/O Bus Terminal, allowing the module to be used in a wide variety of applications including GE Programmable Logic and Automation Controllers (PLC / PAC) as well as Bus Controllers, PC Interface Modules, www.abb-drive.com Human Machine Interfaces (HMI) and third party devices. The module is a panel-mounted, self-contained device in an open enclosure, so it must be mounted inside the enclosure to provide adequate protection from industrial contaminants. The module can be mounted remotely with a maximum distance of 7.500 feet from partner equipment. It also allows daisy-chaining of other I/O modules to form a Genius I/O network. Operation of the module can be configured locally using a handheld monitor (HHM) through the HHM port mounted on top of the terminal assembly. It can also be configured remotely using the host controller’s programming software. The module’s input channels accept 12 / 24 VDC nominal voltage with a 1.7 ms start-up delay. Similarly, the output channels generate 2 amps of current per circuit with a maximum turn-on delay of 1 ms. The module consists of two (2) assemblies, specifically the IC660EBD020 electronics assembly and the IC660TBD022 terminal base assembly.

The IC660BBD022 I/O module is a 16 circuit enabled source I/O module manufactured by GE Fanuc. It uses a 24-volt DC power supply and can be used with both 2-wire and 3-wire sensors.The Genius I/O device has a load current of 2 amps, and this DC power block has intelligence that makes it easy to configure as a sensor or actuator device. It also has other configurable features including output power defaults, selectable input filtering time, and an output pulse test function.The IC660BBD022 I/O module has diagnostic features and safety measures that easily alert operators to runtime and operational errors. It easily detects errors such as overload, overheat, short-circuit, no-load, and switch faults. The unit is portable and compact. It saves panel space and measures 8.83 inches high, 4.42 inches deep and 3.56 inches wide.

The IC660BBD022 Signal Source I/O Module has 16 configurable I/O circuits on the front of the module.The I/O Enable and Unit Determination LEDs illuminate when there is activity on the module. A monitor port is provided for connection to a handheld programmer, and the I/O block can be easily connected to a PC running the Windows operating system.The IC660BBD022 I/O block dissipates 68.8 watts of heat when operating at 2 amps of current. It generates a maximum ripple of 10%. The module has a maximum switching frequency of once per second and a high inrush current. The maximum output turn-on delay is 1 millisecond. The operating ambient temperature should not exceed 60 degrees Celsius.

IC660BBD022 is a Genius Block I/O formerly manufactured by GE Fanuc and now owned by Emerson Automation. It is a 16-channel source I/O module with channels independently configurable as inputs and outputs that accept 24 VDC input signals and provide 24 VDC / 48 VDC signals. It is compatible with 3-wire sensors, electromechanical relays, and other signalling devices. It supports the Genius communication protocol and can be used as a standalone remote I/O module.

GE IC670CHS103 Chassis I/O Chassis Unit

The Field Control IC670CHS103 base is an I/O base unit for use with other field control units manufactured by GE Fanuc.

The I/O terminal boards that can be mounted on this base include terminals for fencing, which supports secure mounting of the module to avoid generating erroneous data.

The IC670CHS103 base unit allows modules to be inserted and removed with the power on without affecting other equipment installed on the I/O station.

In other words, there is no need to switch off the power www.abb-drive.com supply when replacing modules on the terminal block.The IC670CHS103 Basic Unit is compatible with the Field Control Units of the IC670. IC670CH and IC670CHS series.

The IC670CHS103 I/O base unit provides a variety of keying locations for module mounting and includes a kit with all necessary keys and tools.

The I/O terminal block has keyways and key clips to help make module installation easy.The IC670CHS103 base unit supports installation in Class I, Division 2. Group A/B/C/D environments, which are generally non-hazardous environments.

These environments are generally non-hazardous. The unit can also be used in hazardous areas, but the unit must be shut down before performing any operations such as removing or replacing host modules.

The IC670CHS103 device operates on 115 VAC or 125 VDC, with an input frequency of 47 to 63 Hz.

Depending on the type of power supply used, the unit draws 48 VA or 24 watts. The base unit has a peak inrush current of 20 amps and requires a hold time of up to 20 milliseconds.

GE IC695ETM001 PACSystem Rx31 Module Ethernet Module

The IC695ETM001 is a PACSystem Rx31 module manufactured by General Electric, which was recently acquired by Emerson.

The IC695ETM001 is a two (2) port Ethernet transmitter module that enables Ethernet connectivity and supports 10/100 Mbps transfer rates and auto-negotiation.

The IC695ETM001 is a single-slot module that fits into the RX3i slot. It enables PACSystem to communicate with other controller platforms such as Series 90 and VersaMax controllers.

The module is capable of implementing Service Request Transport Protocol (SRTP), Modbus TCP, and Ethernet Global Data (EGD) protocols over a four-layer TCP/IP (Internet) stack.

This Ethernet Transmitter Module supports periodic data exchange over Ethernet Global Data, executing EGD commands to read and write to the controller.

It also supports TCP/IP services using Serial Real-Time Transport Protocol (SRTP) and SRTP channels.

It can act as a MODBUS TCP server and MODBUS TCP client.

It has an embedded switch that can be configured for auto-negotiation, sensing, speed and cross detection.

The module can also be used for time synchronisation with SNTP time servers over Ethernet TCP/IP.

The IC695ETM001 has an Ethernet processor speed of 200 MHz. it is equipped with LED status indicators.

The IC695ETM001 has Ethernet processor speed of 200 MHz. It is equipped with LED status indicators such as Ethernet OK, LAN OK, Log Clear, Individual Port and Speed LED status indicators.

The IC695ETM001 can be installed with compatible backplanes IC695CHS007. CHS012. or CHS016.

It is compatible with any other PACSystem RX3i module except the CPE400. It is best installed on an unpowered RX3i backplane.

However, it also supports plugging in when power is present or when the processor is in run mode. This is also referred to as the hot-swap feature.

Firmware version 2.51 must be installed to enable hot plugging.

The IC695ETM001 module also provides an RS-232 serial port that supports data rates from 1200 bps to 115200 bps.

The module’s built-in Station Manager feature is accessible via both the serial port and Ethernet connection and provides monitoring access.

Services provided by the station manager include commands for polling and controlling stations, access for monitoring statistics, logging and configuration parameters, and password security.

The IC695ETM001 module can be used to synchronise timestamps exchanged by the EGD via the SNTP protocol.

Functions of the IC695ETM001 module include PLC configuration and programming functions, periodic data exchange via EGD,

The IC695ETM001 module can be installed in any empty RX3i slot.

The IC695ETM001 module is hot-swappable. Module firmware www.abb-drive.com can be field upgraded using software tools provided by GE Fanuc.

What are the compatible RX3i backplanes that plug into the IC695ETM001?

Compatible backplanes are IC695CHS007. CHS012. or CHS016.

How many Ethernet ports does the IC695ETM001 transmitter module have?

It has two (2) Ethernet ports and supports redundant I/P addressing.

Can I use this module at 1Gbps?

No. It only supports 10 / 100 Mbps. It only supports 10 / 100 Mbps transfer rates with auto-negotiation.

The IC695ETM001 module is an Ethernet module that enables GE Fanuc’s RX3i PacSystems family of devices to connect to VersaSystems via Ethernet.

The IC695ETM001 module is an Ethernet module that enables GE Fanuc’s RX3i PacSystems series devices to connect to VersaMax, Series 90. and other RX3i series GE controllers via Ethernet.

GE IC695CHS012 PACSystem RX3i Universal Backplane

The IC695CHS012 is a PACSystem RX3i universal backplane. The backplane has 12 slots and

It supports high-speed peripheral component interconnect (PCI) and serial bus connections. The backplane is a necessary component because it provides an enclosure for the RX3i modules and connections.

It also carries the communication bus for internal communication between modules.

The IC695CHS012 consumes 600 mA at 3.3 VDC and 240 mA at 5 VDC.

It has physical dimensions of 18.01 x 5.57 x 5.80 (457.5 x 141.5 x 147.32) and supports horizontal mounting.

It can be mounted in an enclosure with an IP20 / NEMA/UL Class 1 protection rating. To achieve natural cooling and promote adequate air circulation, the

The backplate must provide 102 mm or 4 inches of clearance on all sides of the hardware. To meet the requirements of an ATEX Zone 2 hazardous area, the

The IC695CHS012 must be mounted in an IP54 or better enclosure with mechanical strength to withstand 3.5 Joules of impact energy.

The IC695CHS012 supports modules that are hot-swappable or removable and insertable under power.

This provides a distinct advantage, as it effectively reduces downtime

and allows maintenance activities such as module replacement and integrity verification to be performed without affecting the current operating modes of the attached controller and module.

The backplane also supports the installation of optional backplanes such as controller chassis and Ethernet expansion chassis.

The IC695CHS012 backplane has a TB1 terminal block that can be used to terminate an optional external 24VDC power supply for some IC693 and IC694 modules.

Single AWG 14-22 wire is recommended.

The IC695CHS012 backplane has an internal current rating of 240 mA at 5 VDC and 600 mA at 3.3 VDC.

The backplane must be placed horizontally and requires a minimum of 102 mm (4 inches) of space on all sides for proper operation and air cooling.

The IC695CHS012 general purpose backplane supports input terminals using single conductors from 14 to 22 AWG.

The terminals in slots 7 and 8 are typically used to isolate an external power supply. each slot in the IC695CHS012 backplane can be configured to receive a different component.

For example, a DC power supply can be connected www.abb-drive.com to one slot, while an AC power supply is used for both slots.

GE Mark V LM Series DS200PTBAG1A Protection Core Terminal Block

Specification

Part Number: DS200PTBAG1A

Manufacturer: General Electric

Series: Mark V LM

Product Type: Terminal Block

Availability: In stock

Country of Manufacture: USA

Manual: GEH-6153

Functional Description

The DS200PTBAG1A is a protective core terminal block manufactured by General Electric as part of the Mark V series used in gas turbine control systems.

The signals from the core are terminated by a Protective Terminal Block (PTBA) located in the core. Connected to the PTBA terminal block on the TCEB board are input signals for high and low pressure shaft speed, flame detection, generator and bus voltages, and generator current.

The core is also connected to the speed signals. The Turbine Trip (TCTG) board in the core is written directly after the PTBA terminal board reads the external trip input signals, the generator and bus signals, and the generator breaker closing signal.

Through the PTBA terminal board, the TCTG board writes the trip output signals and generator circuit breaker closure signals to the device.

Using the hardware jumpers on the PTBA board, the TCEB board’s audio alarm (horn) is energised.

PTBA connector:

JJR – Writes high voltage and low voltage shaft speed signals to the TCQE board in the core.

JM – Reads and writes the emergency trip output of the TCTG board in the core and the generator circuit breaker signal (52GL).

JN – Reads and writes the external trip signal to the TCTG board in the core, writes the enable signal to the horn, and reads and writes the generator circuit breaker signal (G125P).

JU – Writes the audible alarm (horn) enable, flame detection, and emergency overspeed signals to the TCEB board in the core.

JV – Writes PT and CT current signals and generator and bus voltage signals to the TCEB board in the core.

JVA – Distributes 335 VDC from the TCEB board in the P1 core to the flame detection device.

JJS/T – Not commonly used.

The GE Terminal Board DS200PTBAG1A has 2 terminal blocks with terminals for 72 signal wires in each block.

It also contains 3 10-pin connectors. 10-pin connectors are ID’d as JJR, JJT, and JJS.

It also contains terminals for 6 signal lines. In terms of dimensions, the GE Termination Board DS200PTBAG1A is 3 inches high by 11.5 inches wide, with 1 hole in each corner for connecting the board to the board carrier inside the drive.

Since there are numerous signal wires and ribbon cables connected to the board, the best practice is to determine where the signal wires are connected on the board and plan to connect the wires to the same connectors on the replacement board.

Failure to connect the signal wires to the same terminals will result in increased drive downtime while the signal wires are connected to the correct terminals, which will inconvenience field operations and reduce productivity.

To prevent this, check the old board on the drive with all signal lines and ribbon cables www.abb-drive.com still connected. Use the terminal IDs to mark the signal wires where they are connected.

One terminal has an ID of TB1 and the other TB2. To identify a specific terminal, use the terminal’s numeric ID. e.g., TB1 27 is the terminal on TB1 terminal 27.

TB2 70 is terminal 70 on terminal TB2. you may find it helpful to create labels for marking the ID.

This DS200PTBAG1A Protective Termination Board uses some customisable hardware in its assembly, most notably its manually removable hardware jumper.

This jumper is included in the assembly of this DS200PTBAG1A Protective Termination Module as it controls the audible alarm or horn that comes standard with this General Electric product.

To silence the horn included in this PTBA abbreviated termination module assembly, the DS200PTBAG1A board administrator must completely remove the hardware jumper described above.

This DS200PTBAG1A protected termination board plays a critical role in the specification function of the associated Mark V series boards, TCEB and TCTG.

This DS200PTBAG1A Protected Termination Module should be relatively well protected under its standard common style printed circuit board coating, which is essential protection against daily wear and tear.

GE Mark VIe Series IS220PDIOH1A Discrete Input/Output Module

The IS220PDIOH1A is a discrete input/output module manufactured and designed by General Electric as part of the Mark VIe series used in distributed control systems. The electrical link between one or two I/O Ethernet networks and the discrete input/output terminal block is provided by the Discrete Input/Output (PDIO) package. The kit includes a capture board dedicated to discrete input/output functions and a processor board shared by all Mark VIe www.abb-drive.com distributed I/O packages. The pack can accept up to 24 contact inputs, manage up to 12 relay outputs, and obtain terminal board-specific feedback signals.

Functional Description

The voltage capability of the PDIO is determined by the connected terminal board. The three-pin power input and the two RJ45 Ethernet connectors are used as system inputs to the battery pack. the DC-62 connector connects directly to the corresponding terminal board connector for discrete signal inputs and outputs. the LEDs are used to display visual diagnostic information.

Functionally, the PDIO is equivalent to combining the PDIA and PDOA I/O packages into a single unit. It is mounted on the TDBS terminal block for simplex applications, which is a hybrid of the SRLY relay terminal block and the STCI contact input terminal block.

It is mounted on the TDBT terminal block used for TMR applications, and when used in conjunction with the WROB option, provides the ability to combine the terminal block with a TBCI contact input terminal block. The following diagram shows the connections established when three PDIO packages are installed on a TDBT terminal board.

Compatibility

The discrete contact input/output terminal boards TDBT for TMR PDIO applications and TDBS for individual PDIO applications are compatible with the PDIOH1A.

IS220PDIOH1A Installation

Securely mount the selected terminal block.

Connect the terminal board connectors directly to the PDIO I/O package.

Mechanically secure the pack using the threaded studs next to the Ethernet port. The studs slide into the mounting brackets made for the specific style of terminal board.

No right-angle force should be applied to the DC-62 pin connector between the battery pack and the terminal block by moving the position of the bracket. Only one adjustment is required during the life of the product.

Connect one or two Ethernet cables, depending on the machine setup. Either port will allow the battery pack to operate. When using a dual connection, it is customary to link ENET1 to the network connected to the R controller.

Connect the connector on the side of the battery pack to a power source to supply power to the battery pack. Since the I/O pack has an inherent soft-start feature that regulates current inrush in power applications, it is not necessary to turn off the power before plugging in the cables.

If necessary, use the ToolboxST* programme to set up the I/O pack.

IS220PDIOH1A Operation

Each Mark VIe Ethernet I/O package or module shares a processing board. It contains the following:

A fast CPU with flash memory and RAM.

Two 10/100 Ethernet ports, connected and completely independent.

Hardware reset circuitry and watchdog timer.

Internal temperature sensor.

Status LEDs.

Ability to electronically read IDs on other boards.

Input power connector with current limiter and soft start.

Local power supply with monitoring and sequencing.

I/O packages or modules functionally specific to the capture board connected to the processor board. When input power is applied, the soft-start circuitry ramps up the available voltage on the processor board. The processor reset is turned off and the local power supply is turned on sequentially. After completing the self-test procedure, the processor loads the application code from flash memory specific to the I/O package or module type. To verify that the application code, capture board, and terminal board are properly matched, the application code reads the board ID information.

When a good match is made, the processor initiates an Ethernet connection by requesting a network address. Dynamic Host Configuration Protocol (DHCP) (industry standard) and the unique identifier of the terminal board are used for the address request. After Ethernet is initiated, the CPU runs the application, programs the on-board logic, and allows the acquisition board to begin operation.

Features

Input isolation in package: Optically isolated to 1500 V

Input filter: Hardware filter, 4 ms

AC voltage rejection: 60 V rms

Number of relay command channels: 12

Number of input channels: 24 DI and 12 C-type

Operating temperature: 0 to 60°C

Product type: Processor board

Dimensions: 15.875 cm H x 10.795 cm W

GE DS200NATOG2A Voltage Feedback Sensor Board

The voltage feedback scaling board DS200NATOG2A is used in conjunction with two other boards in the LS2100 series, a gate assignment status board and a VME backplane board.

This model has five string outputs connected to a single 20-pin ribbon connector.

The DS200NATOG2A NATO board is a voltage feedback scaling board manufactured by General Electric.

This model is part of the second set of variants. The purpose of this model is to attenuate the AC and DC voltages on the SCR bridge.

When the DS200NATOG2A model performs these functions, it will www.abb-drive.com ensure accurate derivation of bridge voltage feedback.

As mentioned above, the DS200NATOG2A model is a G2 unit that will replace the two bottom resistors with two jumpers, giving the model four resistors per string.

The output of the board is via five strings connected to a 20-pin ribbon connector.

In addition, there are several MOVs (metal oxide varistors) that prevent the output voltage from being too high if the ribbon circuit is interrupted while the input voltage is present.

The load resistors required for operation are located on the connected gate distribution status board, not on the NATO board.

VOLTAGE FEEDBACK SENSING BOARD TYPE DS200NATOG2A The attenuator voltage is set by a stinger connector and jumper for the G2 variant of the NATO.

There are several VLG and VLL inputs, one VLL input is 2200. the VLG input is 1270.17. and the VLG output for these inputs is 1.905.

For these particular inputs, there are several wire jumpers, two resistors, and an input stab connector JxA.

The DS200NATOG2A model uses multiple agency approvals; these certifications are CSA, EC and UL standards for controlled and known transients.

Frequently Asked Questions about the DS200NATOG2A

What kind of model is the DS200NATOG2A board?

The DS200NATOG2A board is a voltage feedback scaling board (NATO).

There are five resistor strings on the DS200NATOG2A board, what are they used for?

The primary use of the resistor strings is with AC and DC inputs. Each string has three stinger connectors, resulting in a total of 15 inputs. There are also two optional jumpers for each force.

Is there a difference between the G1 and G2 NATO boards?

Yes! The G1 board contains 6 resistors per string, while the G2 replaces the two bottom resistors with two jumpers and only has 4 resistors per string.

How are the outputs of the DS200NATOG2A board included and connected?

The outputs for the five strings of lights used for AC and DC voltages are connected to a 20-pin ribbon connector that has a metal oxide varistor that is used to help prevent each string of lights from going too high in case the output ribbon circuit is interrupted.

What is the alphanumeric catalogue number on the DS200NATOG2A for?

The numbers on the board are used to help identify the correct part if it needs to be replaced.

GE Mark VI Control System IS215VCMIH2C VME Communications Interface Card

This IS215VCMIH2C is designed as a VME communication card in the GE Mark VI turbine control system and is critical to the proper function of the entire system.

The VCMI VME communication board allows the input/output (I/O) card to communicate with other I/O cards mounted on the VME backplane, I/O mounted in the expansion rack,

I/O backup protection modules, triple-redundant control modules, and the main processor module or main processor modules.

The IS215VCMIH2C card is also broadly referred to as the VMEbus master controller. www.abb-drive.com This PCB connects the communication between the I/O boards and the controller.

It also acts as the communication interface to the system control network (IONet).

The IS215VCMIH2C has four built-in port connections placed on its front panel.

These include an RS-232C serial port, D-plug connector, and three IONet 10Base2 Ethernet ports.

Each IONet connector is associated with three LEDs labelled TX/RX/CD.

The board has additional LEDs labelled Status, Fail, Run and 1. 2. 4 and 8.

The former is located above the reset switch (button) and the latter is located directly below the serial port.

Each control module in a Mark VI system typically contains an IS215VCMIH2C, these unique VCMI cards are used to execute data through the control system’s application software in communication with the main processor module.

Due to the critical nature of the VCMI modules, it is recommended that additional spares are kept on the shelf to avoid machine downtime situations.

The IS215VCMIH2CA is a VME communications interface card that is part of the GE Speedtronic Mark VI gas turbine control system. This PCB is used as a link between the I/O board and the controller.

It is also used as a communication interface to the IONet or system control network. A four-port connector is integrated into the front panel of the IS215VCMIH2CA.

An RS-232C serial port, a D-plug connector, and three IONet 10Base2 Ethernet connectors are among the features.

Three LEDs labelled TX/RX/CD are connected to each IONet port.Status, Fail, Run, and 1. 2. 4. and 8 are among the many LED indications on the board.

The former is located above the reset button (pushbutton) and the latter is located directly below the serial port. The design includes a TI 32-bit digital signal processor chip. There are three transformer assemblies in total.

The VMEbus host controller card contains more than 50 integrated circuits, including an oscillator chip, which reduces high-frequency noise on the board through the use of inductive beads.

The board has two backplane connectors, a 12-pin vertical connector and a range of other conductive connectors.

GE Mark V-Series DS200SIOBH1ABA Printed Circuit Boards

This DS200SIOBH1ABA General Electric printed circuit board was originally manufactured for General Electric’s Mark V series.

The Mark V series offered by General Electric has specific applications in the management and www.abb-drive.com control systems of gas, steam and wind turbines and is known as the Mark V Turbine Control System Series.

The Mark V series, to which this DS200SIOBH1ABA printed circuit board belongs, is considered to be General Electric’s legacy series.

as it has been discontinued in the years since its original production. Although it is a legacy series of General Electric.

The Mark V series, to which the DS200SIOBH1ABA PCB belongs, is one of the most recently developed product lines, utilising GE’s patented Speedtronic technology.

This technology was first introduced in the late 1960’s with the introduction of the Mark I. This DS200SIOBH1ABA PCB is one of the most recently developed product lines. This DS200SIOBH1ABA printed circuit board, or PCB for short, is better known by its official functional product description.

This DS200SIOBH1ABA printed circuit board, or PCB for short, is better defined as a SC2000 VME I/O board by its official functional product description, as shown in the original General Electric and Mark V series instruction manual documentation.

Given this, this DS200SIOBH1ABA printed circuit board is not the original SC2000 VME I/O board that existed in the Mark V turbine control system family; it would be missing this DS200SIOBH1ABA printed circuit board.

This would be missing the extensive revision history of this DS200SIOBH1 parent product DS200SIOBH1ABA PCB.

Hardware Tips and Specifications

As with any Mark V turbine control system range, this DS200SIOBH1ABA PCB utilises its own set of necessary hardware components and component specifications to achieve its intended SC2000 VME I/O board functionality.

As shown in the description of this DS200SIOBH1ABA PCB as a VME I/O board, this DS200SIOBH1ABA product is intended to be installed in a VME rack mount assembly.

Specifically on the VME P1 connector as it occupies a full VME slot.GE I/O Control Board The DS200SIOBH1ABA has 20 jumpers and 3 switch blocks with 6 switches in each block for a total of 18 switches.

It is also equipped with an LED and a 40-pin connector. Jumpers on the GE I/O Control Board The jumpers on the original DS200SIOBH1ABA board are set to factory default settings.

Before installing the board, you can review the information in the printed material for alternate settings for the jumpers and how they change the operation of the board.

Some jumpers have only one supported location and therefore cannot be changed. As mentioned earlier, the base board for this SIOB abbreviated General Electric product contains a diagnostic LED.

This LED illuminates when a larger Mark V Series VME rack is encountered accessing the DS200SIOBH1ABA PCB; in other words, this LED illuminates to indicate normal functional status during use.

When you find that you must replace the DS200SIOBH1ABA board, the best practice is to set jumpers in the new board to match the jumper locations on the old board.

This is part of the detailed installation strategy developed by General Electric and communicated in the original instruction manual for this DS200SIOBH1ABA PCB.

If the jumper settings match exactly, the DS200SIOBH1ABA board will perform the same operation and support drive performance.

To install the DS200SIOBH1ABA replacement board, remove the old board by first removing the screws that hold it in the board holder, and then remove the board from the drive using two hands.

Be careful to prevent the board from striking other components in the drive. Find a clean, dry surface nearby and flatten the static protection bag before placing the old board on top of the bag.

Open the sealed protective bag containing the replacement board and slide out the board. Hold it with two hands and place it next to the old board.

Finally, set the switch to match the switch position on the old board.

Before making any final purchase decision on this DS200SIOBH1ABA product, it is important to realise that this Mark V Turbine Control System range is a revised version of the original DS200SIOBH1 parent product.

With this in mind, the performance specifications and dimensions of the DS200SIOBH1ABA PCB will differ from the original specifications and dimensions in the original instruction manual document.

GE Mark VIe Series IS420YAICS1B Analogue I/O Module

This IS420YAICS1B modular assembly from General Electric was originally designed and manufactured with the specific functional role of analogue I/O packages in mind for placement within the larger Mark VIe family of turbine control systems.

As its full extended series name implies, the Mark VIe family to which this IS420YAICS1B modular assembly belongs is in the popular, General Electric-compatible wind,

management and control systems for gas and steam turbines.

This is an upgrade to the heavily relied upon Mark V series, which only has specific applications in gas and steam turbine components.

It is a fact that the Mark VIe series, to which this IS420YAICS1B product belongs, is also recognised as the ideal General Electric Mark product family.

This is because it is one of the final GE Mark product families to be developed, utilising the patented Speedtronic control system technology that first appeared in the Mark I family introduced in the mid to late 1960s.

Hardware Tips and Specifications

Analogue I/O Pack IS420YAICS1B is part of the Mark VIe series manufactured by General Electric.

This I/O pack allows connection between up to two Ethernet and one terminated analogue I/O board.

The kit can handle up to 10 analogue inputs, two of which can be configured as ±1 mA or 4-20 mA www.abb-drive.com current inputs, and the remaining eight as ±5 V or ±10 V inputs, or 4-20 mA current loop inputs.

The kit can send and receive data over dual RJ45 Ethernet connectors.

For convenience, this IS420YAICS1B I/O package consists of two components; a general processor board and a data acquisition board, as described in the IS420YAICS1B instruction manual that accompanies our manual tab above.

The diagnostic fault detection process for this IS420YAICS1B product is handled entirely through its data acquisition board.

The relevant terminal boards employed in the ruggedly supported modular components of the YAIC analogue I/O kit are the TBAISIC and STAIS2A terminal boards, which are also considered components of the larger Mark VIe turbine control system family.

This IS420YAICS1B device is not actually an original development for its specific Mark VIe Turbine Control System family of features;.

This must be regarded as an IS420YAICS1 parent analogue I/O package, and notably it does not take advantage of the uniquely important Class B functional product revisions of this IS420YAICS1B product.

Whilst various units in the Mark VIe range can be used in dual, TMR or simplex redundancy applications, the IS420YAICS1B I/O package can only be used in TMR or simplex applications.

Note, however, that when using this package in a TMR redundancy application, three I/O packages will be used, whereas only one I/O package will be used in a simplex redundancy application.

Another important caveat is that all I/O packs in the TMR set must be in the same hardware form.

There is another version of the YAIC I/O pack labelled IS420YAICS1A PACK, please note that these pack versions cannot be mixed on the same T-Terminal board.

The IS420YAICS1B I/O pack can perform a number of self-diagnostic tests, some of which are power-up self-tests that will check the flash and RAM memory, most of the processor board hardware, and the Ethernet ports on the pack.

The kit can also continuously monitor the internal power supply to ensure proper operation. This IS420YAICS1B device is present in Group 1 of the Mark VIe Turbine Control System family of products, as described in the IS420YAICS1B Functional Product Number.

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