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GE Multilin 169PLUS-120N-125VDC Motor Management Relay

The 169PLUS-120N-125VDC is a highly configurable motor protection system manufactured by General Electric Multilin.

The relay comes with basic setpoints programmed for large motor systems, which can be further adjusted by the user upon receipt of the relay or as they become more familiar with the data generated by the relay.

While users can manage their motor systems with fairly minimal connection to GE Multilin’s 169PLUS-120N-125VDC.

However, the unit does offer a wide range of ports to diversify and customize the function of the relays.

Some of these connections include:

. Auxiliary Relay Contacts: these two contacts provide an additional NO/NC connection and operate independently of the other contacts.

The relays can be configured as non-fail-safe or fail-safe, and latching or non-latching.

They can be used for active alarm or trip functions and can trigger devices that are not just motors.

RTD Sensor Connections: The user can connect up to www.abb-drive.com 6 resistance temperature detectors.

This is used to monitor values such as stator motor temperature, historical hottest temperature and ambient air temperature.

The relay then uses the data obtained from these connections to schedule the optimal cooling process.

. Analog output terminals: These two terminals can be configured using the relay’s setpoint system.

It can be connected to chart recorders, remote meters, programmable recorders and/or computer loads.

. Emergency Restart Terminal: This connection type overrides trips within the system and forces a restart of the motor.

These connections add to the overall versatility of the system and can further protect motor components from damage during operation.

Frequently Asked Questions about 169PLUS-120N-125VDC

What is the 169PLUS-120N-125VDC?

The 169PLUS-120N-125VDC is a motor management relay manufactured by General Electric Multilin.

It is designed to work with three-phase medium-sized motors and provides components designed to protect, control, and monitor motor systems.

This particular unit features a 120 ohm nickel RTD and 125 V DC control power.

What RTD inputs are available on the 169PLUS-120N-125VDC?

The 169PLUS-120N-125VDC and other relays in the GE Multilin 169 Plus series of motor management relays have a variety of input options.

The 169 Multilin relay models have 6 stator RTDS and 2 more after those 6 stator RTDS.

In comparison, the 169 Plus relays (e.g., 169PLUS-120N-125VDC) have 4 additional RTDS after these 6 relays.

Are there mounting accessories available for the 169PLUS-120N-125VDC Multilin Motor Management 169 Plus Relay?

GE Multilin 169 and 169 Plus Motor Management relays (e.g. 169PLUS-120N-125VDC) can be mounted through the four mounting holes on the mounting panel.

Four mounting screws (10-32 x 3/8 inch) and four washers are included with relays purchased from Multilin.

The 169 series relays are designed with internal shielding to minimize interference or noise pickup during operation of the relay.

In any case, it is beneficial to secure the relay away from magnetic fields or high current conductors to further eliminate the occurrence of interference.

The terminals located on the rear panel of the 169PLUS-120N-125VDC help establish a connection if necessary.

The 169PLUS-120N-125VDC has analog current output terminals that can be programmed to better customize the relay for motor management applications.

The relay also has an RS 422 serial port (if Plus model).169 Plus relays have four sets of relay contacts (NO/NC).

For comparison, the 169 models have only two sets of relay contacts.

GE VMIVME-2510B 64-bit TTL Digital Input/Output (with Built-in Test)

Features:

. Direction of each 8-bit port is individually programmable

.64 mA sink current capability (15 mA source) .

. Separate board address decoding for control and data registers .

. Built-in test logic for fault detection and isolation .

. Highly reliable DIN-type I/O connectors .

. 8-bit, 16-bit, 32-bit transfers

The VMIVME-2510B is a member of the VMIC Megamodule family, which is designed for universal programming.

The subsystem can be configured with consecutive I/O addresses to conserve memory.

These products (VMIVME-1110. VMIVME-2120. VMIVME-2130. and VMIVME-2510B) are designed with two sets of board address switches to provide efficient memory address mapping for CSR and I/O addresses.

The CSR address switches can be configured so that all CSRs on the various boards in the system can be mapped to contiguous memory locations.

Megamodule products are also designed to support 8-bit, 16-bit and 32-bit data transfers.

Specific hardware has been designed into the VMIVME-2510B to support the built-in test functions.

The VMIVME-2510B supports off-line and on-line fault detection and isolation. The front panel Fail LED is used to indicate when a fault exists on this board.

The LED is illuminated at power-up or reset. The LED can be turned off after successfully completing board level diagnostics.

Functional Features

Compatibility VMEbus-compliant dual high-profile I/O connector type: Dual 64-pin connector, DIN 41612

I/O Organization: Eight I/O ports; eight bits wide.

Addressable to any address within the short supervisory or short unprivileged I/O mapping.

Addressing scheme:

Eight ports can be individually addressed on 8-bit or 16-bit boundaries. Address DIP switches provide unlimited selection of short data I/O address mappings.

Built-in Tests

Output data can be read back in real-time or off-line mode. Offline mode can be enabled by writing to the Control and Status Register (CSR) to set the test mode bit.

When test mode is enabled, all outputs are tri-stated (TRI-STATE).

Two test mode bits are provided so that each connector I/O (32-bit) can be tested independently if necessary.

Fault LED:

The Fault LED illuminates at power-up and system reset. It can be extinguished under program control after successfully performing diagnostics.

I/O Circuitry:

The transceivers support high current (64 mA) outputs. These octal bus transceivers use the SN74AS645 in the logic level TTL I/O option. The open collector option uses the SN74AS641 type transceiver.

If the open collector option is ordered, all 64 bits are output only.

GE IC695RMX128 PACSystems RX3i Redundant Memory Switch Module

This IC695RMX128 is a PACSystems RX3i redundant memory switching module manufactured by Emerson Automation (formerly GE Intelligent Platforms (GE IP)).

The module has 128MB of SDRAM user memory and supports operation as a reflective memory network or dedicated link between RX3i CPUs in a redundant configuration.

The module comes with single-mode fiber that supports 2.12 Gbaud fiber networks.

About the IC695RMX128

The IC695RMX128 is the PACSystems RX3i Redundant Memory Exchange Module.

The primary function of the module is to act as a single node on a reflective memory topology or as a dedicated memory module for redundant RX3i CPU pairs.

When used in a redundant CPU configuration, the IC695RMX128 reflects the contents of the IC695CMX128.

With a reflected memory link, any updates on one node are reflected and updated to all other nodes connected to the same network.

Connections are established over a fiber optic network supporting up to 256 nodes.

The module is equipped with 128 MB of reflective memory, and the fiber optic power supply requires an LC-type connector for transmission speeds up to 2.12 Gbaud.

The module operates on supplies of 580 mA @ 3.3 VDC and 220 MA @ 5 VDC.

The IC695RMX128 is intended for use in redundant systems and cannot be used to perform general purpose memory Xchange functions.

In addition, a full communication path must be established to complete the Memory Xchange network. The complete communication path consists of the primary RMX unit and the corresponding secondary RMX unit.

Two (2) high speed fiber optic cables must be connected to the RMX pair and must form a 2-node ring.

No other RMX or reflective nide may be used in any redundant controller design since a dedicated RMX module must be used for redundant controller configuration.

Configuration of the RMX nodes is done via programming software, not via jumper or DIP switch settings.

This ensures centralized modification of modules and minimizes hardware interrupts.

The IC695RMX128 memory module is a redundant memory module in GE Fanuc Automation’s RX3i PACSystems family.

The module is particularly suitable for situations where there is a hot standby CPU redundancy system, where a second CPU on the system is used as a backup device for the main CPU, and where there is a continuous connection between the two devices.

and there is a continuous data transfer between the two devices. The module operates on this reflective network and acts as a link between these 2 CPUs.

When this link is inactive www.abb-drive.com or not currently in use, it is the same as the primary module (i.e., the IC2CMX695 module).

The GE Fanuc Automation IC128RMX695 Redundant Memory Module provides data sharing between different PCs and computing devices connected via a high-speed fiber optic network.

The module features network error detection.

The GE Fanuc Automation IC128RMX695 Redundant Memory Module can be connected to other devices through fiber-optic cables in a daisy-chained loop.

Transfers are executed from one node to another until the final receiver is reached.

The module is equipped with 128 KB of reflective memory and a high-speed, easy-to-use 128.2 GBaud fiber optic network. The module occupies one slot in the RX12i rack.

The GE Fanuc Automation IC3RMX695 Redundant Memory Replacement Module has a zirconium ceramic ferrule, insertion loss rating of 128.0 dB maximum, and return loss.

The module’s input power is 580.3 mA at 35 VDC and 220 mA at 3 VDC.

The module can be easily inserted with the system power still on. This mode of insertion is called point insertion and applies to some parts of the RX5i PacSystems family.

IC695RMX128 Frequently Asked Questions

1. What is the user memory capacity of the IC695RMX128?

The IC695RMX128 has a 128 MB memory capacity.

2. What are the partner modules for the IC695RMX128?

The partner module for the IC695RMX128 is the IC695CMX128.

3. What is the maximum number of nodes that can be included in a reflective memory network?

The IC695RMX128 can contain up to 256 nodes.

Technical Description of the IC695RMX128

The GE Fanuc Automation IC695RMX128 redundant memory module has dynamic packet sizes. It operates at 580.3 V DC with 3 mA input power.

GE Fanuc IC200ALG262 8-Point Analog Current Input Module for VersaMax I/O Series

The IC200ALG262 is an 8-point analog current input module for the VersaMax I/O family.

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

The module has eight (8) single-ended input channels and accepts 0-20 mA / 4-20 mA input signals with 15-bit resolution and a maximum update rate of 7.5 ms.

About the IC200ALG262

The IC200ALG262 is a component module of the VersaMax I/O platform. It is an analog input module designed to support differential current wiring.

It has eight (8) analog input channels designed to receive standard current input signals such as 0-20 mA and 4-20 mA input signals.

This IC200ALG262 is currently manufactured by Emerson Automation. It is ideally suited for connection to analog signal generating instruments such as field transmitters.

for measuring pressure, level, flow, temperature, turbidity, viscosity, speed, and other types of transmitters; for integrating locally mounted panel meters to

remote display; for monitoring the speed output of variable frequency drives (VFDs); for monitoring the position of rotary and linear devices; and other applications.

The IC200ALG262 has a built-in analog-to-digital converter (ADC) circuit with 15-bit conversion resolution. The input channels are arranged in groups.

When configured to receive 4-20 mA, they are capable of detecting power loss and open circuit detection within the module. Each channel has an uplink rate of 7.5 ms.

Each channel has an uplink rate of 7.5 ms and a digital resolution of 0.5 μA (4-20 mA signal range) and 0.625 μA (0-20 mA signal range). The module has a maximum backplane current consumption of 5 mA at 200 VDC bus voltage.

Compatible configuration software and hardware firmware versions that can be used with this module include VersaPro software version 2.0 or later; VersaMax PLC CPU CPU version 2.0 or later; and VersaMax PLC CPU version 2.0 or later.

VersaMax PLC CPU firmware version 2.10 or higher; VersaMax Ethernet Network Interface Unit (NIU) firmware version 1.10 or higher.

It is also compatible with VersaMax DeviceNet, Profibus or Genius NIU modules.

GE Fanuc’s IC200ALG262 input module is the analog input module in the VersaMax product family.

It can be an interface for up to 8 analog inputs (current inputs.) The IC200ALG262 input module does not require an external power supply because it receives power from the backplane power supply.

The module has a 15-bit resolution.The IC200ALG262 analog input module is configurable through software. It supports intelligent processing from the CPU or NIU.

All 8 input channels are single-ended and arranged in a group. The update rate of this module is 7.5 ms.

The GE Fanuc IC200ALG262 can diagnose problems such as internal power loss and disconnection of signal levels from 4 to 20 mA.

The LED on the IC200ALG262 input module is the OK LED, which indicates that the backplane power supply is properly connected and functioning.

The input channels can operate at current levels between 0 and 20 mA or 4 and 20 mA; these current ranges are configurable via jumpers.

If there are no jumpers on the IC200ALG262 module, the input current range will always be 4 to 20 mA.

The manufacturer recommends using shielded twisted pair cable for analog channel connections on this module, and also recommends grounding at the source device or I/O module if grounding at the source device is not possible.

IC200ALG262 Frequently Asked Questions

1. What analog input signals does the IC200ALG262 accept?

The IC200ALG262 supports 0-20 mA and 4-20 mA input signals.

2. What wiring configurations does the IC200ALG262 support?

The IC200ALG262 is designed for differential wiring only.

3. How many input groups does the IC200ALG262 have?

The IC200ALG262 has a single input group.

Technical Description of IC200ALG262

The IC200ALG262 analog input module from the GE Fanuc Field Control family comes with 8 inputs that can be configured via jumpers.

The module receives power from the system backplane www.abb-drive.com and intelligent processing from the CPU.

GE Fanuc IC694MDL930 Relay Output Module

About the IC694MDL930

This IC694MDL930 is part of the PACSystem RX3i midrange programmable automation controller (PAC) platform.

It is designed for use as a relay output module with eight (8) independently isolated normally open (N.O.) or A-type contact outputs.

Each output contact essentially has a separate common and dry contact, allowing different voltage types and levels to be connected exclusively to the module.

i.e. 5-30 VDC (nominal 24 VDC) and 5-250VAC (nominal 120/240VAC).

The current capacity of each output channel is 4 amps per output when used with resistive loads and 2 amps per output when used with pilot load devices.

Current capacity is 2 amps per output channel. For UL installations, the maximum load current that the module can withstand is 30 amps and varies according to ambient temperature.

Conversely, the minimum load that the module can withstand is 10 mA, and the module’s output channels have a typical response time of 15 ms between on and off switching, while the module’s maximum backplane www.abb-drive.com current is 2 amps.

The module’s maximum backplane current draw is 6 mA, and all outputs are energized by a 5 VDC bus on the backplane.

All outputs are energized by a relay 70VDC bus on the backplane and the maximum backplane current consumption is 24mA.

The module also supports mounting to 90-30 series backplanes. It can be used as a local output module, mounted on a central processing unit (CPU) chassis, or with an appropriate communications adapter.

It can also be mounted on an extended remote distributed I/O station with appropriate communication adapters.

It is classified as a high voltage module and has eight (8) status LEDs to characterize the energized state of each output channel.

The module does not come with channel protection such as fuses or RC buffer circuits.

The IC694MDL930 RX3i is a 3-channel relay output module for the GE Fanuc RX8i PACSystems discrete I/O PLC series.

As with every discrete output module in the series, the IC694MDL930 output module is used between the RX3i PLC and external output devices such as indicators and motors.

(Like every discrete output module in the series, the IC694MDL930 Output Module provides an interface between the RX3i PLC and external output devices such as indicator lights, motor starters, and solenoids.

Each output point is capable of switching loads up to 4.0 amps, and each output point has its own common output terminal.

The IC694MDL930 Output Module requires an external power supply to operate and can be ordered in either AC or DC ratings of 120 to 240 volts AC or 24 volts DC.

Users can order AC or DC power modules rated from 120 to 240 volts AC or 24 volts DC to operate all connected field devices.

The IC694MDL930 output module operates from 5 to 30 volts DC or 5 to 250 volts AC (50 to 60 Hz).

Output point-to-point isolation is rated at 250 volts AC continuous or 1500 volts AC for 60 seconds.

The IC694MDL930 output module has eight independently isolated normally open relay-type outputs with a maximum output current load of 4.0 amps per point.

The maximum output current load per module is 20.0 amps. The IC694MDL930 output module has a maximum backplane current draw of 5.0 milliamps at 6.0 volts DC.

The minimum output load is 10.0 milliamps per point.The IC694MDL930 output module has an inrush current rating of 5.0 amps max.

The IC694MDL930 output module has a maximum inrush current rating of 5.0 amps and a maximum response time of 10 milliseconds (on or off). 32 individually numbered LEDs indicate the individual operation of each output point.

The IC694MDL930 output module has 32 individually numbered LEDs to indicate the individual operating status of each output point, and the entire module can be mounted in the I/O slots on the RX3i PLC backplane.

IC694MDL930 Frequently Asked Questions

1. Does the IC694MDL930 come with separate isolated output channels?

Yes, the output channels are individually isolated channels. The output channels are individually isolated channels.

2. What is the operating voltage range of IC694MDL930?

The IC694MDL930 output contacts can be connected to 0-30 VDC and 0-250 VAC source voltages.

3. Does the IC694MDL930 support the 90-30 series PLC family?

No. This module does not support the 90-30 series. This module does not support the 90-30 series.

1. How many relay output channels does the IC694MDL930 have?

The IC694MDL930 has eight (8) isolated relay channels.

2. Does the IC694MDL930 support mounting to 90-30 series racks?

Yes, the IC694MDL930 supports mounting to 90-30 series racks. The IC694MDL930 can be mounted from an RX90i chassis to a 30-3 series chassis.

3. What is the contact form for the IC694MDL930?

The IC694MDL930 has normally open (N.O.) or A-type contacts.

Technical Description of IC694MDL930

The IC694MDL930 is a PACSystem RX3i discrete output module formerly manufactured by GE Fanuc, now part of Emerson Automation.

The module has eight (8) independently isolated normally open (N.O.) contacts. Each contact output can operate from 5-30 VDC.

24 VDC; 5 – 250 VAC at 47 to 63 Hz with a nominal input voltage of 120/240 VAC.

Each channel is designed for resistive loads up to 4 amps per output; 2 amps pilot duty cycle per output; 20 amps maximum per module for UL mounting.

The module has a current draw of 6mA with all outputs turned on by the 5 V bus on the backplane and 24mA with all outputs turned on by the relay 70V bus on the backplane.

GE Fanuc IC694MDL940 PAC System RX3i Discrete Output Module

The IC694MDL940 is a PACSystem RX3i Discrete Output Module, formerly manufactured by GE Fanuc and now part of Emerson Automation.

The module has sixteen (16) normally open (N.O.) contacts divided into four (4) banks of four (4) outputs each.

Each contact output can operate at 5-30 VDC with a nominal voltage of 24 VDC; 5 – 250VAC at 47 to 63 Hz with a nominal input voltage of 120/240VAC.

Each channel is designed for a 2 Amp lead load, a maximum load per output and a maximum load of 4 Amps per common.

The module has a current draw of 7 mA with all outputs turned on by the 5 V bus on the backplane and 24 mA with all outputs turned on by the relay 135V bus on the backplane.

The IC694MDL940 is a sixteen (3) point relay output module for the Emerson Automation PACSystem RX16i series, formerly manufactured by GE Intelligent Platforms (GE IP).

The module has a single slot width, occupies a single slot on the backplane, and comes with four (4) output groups of four (4) relay outputs each.

The IC694MDL940 relay contacts are normally open (N.O.) contacts or type A contacts.  www.abb-drive.com Each output contact is rated for a maximum load of 2 amps pilot load.

Each output is rated for a maximum load, and each output group is designed to provide a maximum output current of 4 amps.

In addition, the module has a minimum load of 10 mA and a maximum inrush current of 5 amps. Each relay output channel has a response time of 15 ms.

For the maximum of two signal transitions, the module draws 7 mA @ 5VDC bus voltage and 24 mA for the relay 135V bus on the backplane.

These power ratings are based on all output channels energized.

The IC694MDL940 is equipped with sixteen (16) status LEDs, each representing an individual channel.

The energized LEDs indicate energized outputs and the de-energized LEDs indicate other outputs.

The module does not have a built-in mounted fuse for channel protection; therefore, the user may need to install an external fuse to protect the module.

This IC694MDL940 has 250 VAC continuous and 1500 VAC (1-minute isolation rating) from field to backplane and frame to ground.

And channel-to-channel isolation is 250 VAC continuous; 1500 VAC for 1 minute.

The GE Fanuc IC694MDL940 Relay Output Module is a 3-channel relay output module designed specifically for the RX16i PACSystems PLC system.

The IC694MDL940 output module provides 16 independently isolated normally open output circuits for controlling output devices such as motor starters, solenoids, and indicator lights.

Each IC694MDL940 output module has a maximum switching capacity of 2 amps at the output point, and they are divided into 4 non-isolated groups of 4 output channels each.

Each output group of the IC694MDL940 output module has a common output terminal (total of 4 output terminals per module).

Each internal relay output point is powered from a 24 Vdc backplane power supply. An external AC/DC power supply must be ordered and installed separately to power the connected output field devices.

The IC694MDL940 Output Module is rated for 24 VDC or 120/240 VAC.

The operating range is 5 to 30 volts DC or 5 to 250 volts AC (50/60 Hz).

The IC694MDL940 output module has a maximum point-to-point isolation of 1500 VAC for 1 minute and 250 VAC.

Continuous isolation between field and backplane and between frame grounds. The minimum possible load on the output circuit of each IC694MDL940 output module is 10 milliamps.

The maximum load on each output point is 2.0 amps, and each set of common loads is 4.0 amps.

The IC694MDL940 Output Module draws up to 5.0 mA of backplane current at 7.0 volts DC on the backplane.

The IC694MDL940 output module draws up to 5.0 milliamps of backplane current at 7.0 volts DC on the backplane and up to 24 milliamps at 135 volts DC relay bus voltage. There are 32 LEDs on the front panel of the module to indicate the on or off status of each output channel.

The IC694MDL940 output module is compatible with RX3i PacSystems CPUs only and can be installed in any I/O slot on the RX3i PacSystems PLC backplane.

IC694MDL940 Frequently Asked Questions

1. Does the IC694MDL940 come with separate isolated output channels?

No. The IC694MDL940 has only output groups, four (4) output groups with four (4) channels per output group.

2. Does the IC694MDL940 have an adjustable response time?

No. The module has a fixed response time of 15 minutes. The response time of this module is fixed at 15 ms (maximum).

3. What is the operating voltage of the IC694MDL940?

The IC694MDL940 operates on 5 to 30 volts DC and 5 to 250 volts AC, 50/60 hertz.

IC694MDL940 Technical Description

The GE Fanuc IC694MDL940 Relay Output Module is designed for the RX3i PacSystems family.

The Relay Output Module has 16 relay output circuits in 4 groups of 4 outputs each, and requires a user-supplied external AC/DC power supply for operation.

GE VMIVME-5576 Fiber Optic Reflective Memory with Interrupts

Features

– High-speed, easy-to-use fiber optic network (170 Mbaud serial rate)

– Data written to the memory of one node is also written to the memory of all nodes on the network

– Up to 2.000 meters between nodes, up to 256 nodes can be connected

– Data transfer rate of 6.2 Mbyte/s without redundancy

– Data transfer rate of 6.2 Mbyte/s without redundancy Data transfer rate of 3.2 Mbyte/s with redundancy

– Any node on the network can generate an outage in any other node on the network or in all network nodes with a single command

– Error detection – redundant transmission mode suppresses errors

– No processor overhead

– Processor is not involved in network operation

– Up to 1 Mbyte of reflected memory

– A24:A32:D32:D16:D8 Memory Access

– Single 6U VMEbus board

Introduction to the VMIVME-5576

– The VMIVME-5576 is a high performance, multiplexed VME-to-VME network. Data is transferred by writing to the on-board global RAM.

Data is automatically sent to all Reflective Memory board memory locations on the network.

Product Overview

-The Reflective Memory concept provides a very fast and efficient way to share data between distributed computer systems.

VMIC’s VMIVME-5576 Reflective Memory interface allows data to be shared between up to 256 independent systems (nodes) at rates of up to 6.2 Mbyte/s. Each Reflective Memory board can be configured with up to 256 nodes.

Each Reflective Memory board can be configured with 256 Kbytes to 1 Mbyte of on-board SRAM. local SRAM allows fast reads of stored data.

Write data is stored in the local SRAM and broadcast to other Reflective Memory nodes via a high-speed fiber optic data path.

Data transfers between nodes are software transparent, so there is no I/O overhead.

Transmit and receive FIFOs buffer data during peak data rates to optimize CPU and bus performance and maintain high data throughput.

Reflective memory also allows interrupts to one or more nodes by writing to byte registers.

These interrupt (tertiary, user-definable) signals can be used to synchronize system processes or to follow any previous data.

Interrupts always follow the data to ensure that the data is received before the interrupt is acknowledged.

The VMIVME-5576 does not need to be initialized unless interrupts are used.

If interrupts are used, vectors and interrupt levels must be written to on-board registers and interrupts must be set.

Each node on the system has a unique identification number between 0 and 255.

The node number is determined by placing jumpers on the board during hardware system integration.

The node number can be read by software by accessing the on-board registers. In some applications, the node number helps determine the function of the node.

GE DS200ITXDG1ABA Dynamic Brake Buffer Plate

About the DS200ITXDG1ABA

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 Series, of which this DS200ITXDG1ABA product is a part, was one of the last of General Electric’s Mark product line 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 line.

This DS200ITXDG1ABA Printed Circuit Board, or PCB for short, is not an original development for its specific Mark V Turbine Control System family of functional roles; it is actually the DS200ITXDG1 Parent Dynamic Brake Buffer Board.

The DS200ITXDG1ABA PCB is conspicuously missing all three versions of the three important product versions of the DS200ITXDG1ABA PCB.

The assembly of this DS200ITXDG1ABA PCB has been specifically altered to utilize a Level A Major Function Revision, a Level B Minor Function Revision, and a Level A Drawing Configuration Revision.

Hardware Tips and Specifications

The required operation of the IXTD board is provided through the circuitry of the connected power supply/interface board (IMCP). When the IMCP and the IXTD board are connected, they are connected via a four-pin connector.

When the board is installed, it will be externally mounted and must be sized to meet the worst-case switching requirements of dynamically braked IGBTs.

The purpose of the snubber board is to be used to limit voltage transients at both ends of the IGBT and at all known operating conditions of the driver.

Another function of the DS200ITXDG1ABA board is to regulate the output of the IGBT gate driver board to match the electrical characteristics of the AT frame driver.

AT frame drivers are available in variable and constant torque applications. The drive output current rating for variable torque applications is 500 ARMS.

The DS200ITXDG1ABA board has three connector types: bus I/O connectors, input connectors for DBPL, and board pin connectors.

All of these connector types have different pin numbers, nomenclature, and descriptions, which are explained in depth and in detail in the DS200ITXDG1ABA instruction manual included above for your convenience.

Bus I/O connectors and pin I/O connectors are also oriented. Two examples of pins associated with the stab I/O connectors are the 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 for the external buffer resistor.

The single plug-in connector that can be used to assemble this DS200ITXDG1ABA Dynamic Braking Buffer Board is also fully discussed in the associated General Electric instruction manual material.

This connector is accompanied by a DBPL factory printed naming label and connects this DS200ITXDG1ABA product to the accessible IMCP cousin PCB product in the larger Mark V series automatic drive assembly.

For convenience, the plug-in connector location for this DS200ITXDG1ABA PCB is described separately in the available guidance material.

Before making any single final purchase decision on this DS200ITXDG1ABA Dynamic Brake Buffer Board, it is important to realize that it was originally designed to be used as a dynamic brake buffer board.

It is important to realize that the performance specifications and dimensions it was originally introduced with have undoubtedly changed as a result of its receiving a full triple revision history.

The ITXD board allows for adjustment of the various outputs in the Mark VI series. There are three different connector types on the board, allowing the board to be connected in a variety of different ways.

This DS200ITXDG1ABA printed circuit board product or PCB for short has the normal style of Mark V series assembly, although it has been edited by accepting the full range of three Mark V series feature and illustration configuration product revisions.

GE Mark V Series DS200FCGDH1B Printed Circuit Boards

This DS200FCGDH1B printed circuit board product manufactured by General Electric was originally designed and manufactured for placement in its Mark V family of turbine control systems.

This DS200FCGDH1B printed circuit board, or PCB for short, is considered a member of the Mark V family.

It has specific applications in the management and control systems of popular and compatible wind, gas and steam turbine automatic drive assemblies, as evidenced by the full extended family name provided above.

This Mark V family of DS200FCGDH1B Printed Circuit Boards, or PCBs for short, while related to newly developed alternative energy technologies

must still be considered an obsolete GE legacy product line, as it was massively discontinued due to obsolescence many years after the release of the original Mark V line of products.

The Mark V series of this DS200FCGDH1B PCB, while generally obsolete due to its legacy series status, still offers many highly sought after products.

This is because it exists as one of the definitive General Electric Mark product lines, utilizing the company’s patented Speedtronic control system technology.

In addition, the DS200FCGDH1B PCB does not exist as the original development of its intended Mark V series functionality; this would be the case with the lack of the DS200FCGDH1B PCB.

This would be the DS200FCGDH1 female PCB that lacks the single Level B functional product revision of the DS200FCGDH1B product.

Hardware Tips and Specifications

The DS200FCGDH1B is a door assignment and status card (FCGD). Developed by General Electric for its Mark V board family, the card can be installed in many GE-branded drives.

Once installed, the card acts as the interface system for a six-pulse phase control non-inverting bridge. the DSPC (Digital Signal Processing Card) relays information to the board for decryption.

This generates signals about diagnostic information and system feedback. This generates signals for diagnostic information and system feedback, which are 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.www.abb-drive.comThe signals received by the board are converted to unit gating signals.

All system bridge pins receive this cell gating 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 fiber optic connections on the board. The included feedback includes frequency, voltage, and board status information.

The integrated IMOK LED status indicator provides the user with basic system status.

Board installation parameters provided by the manufacturer should be met to minimize the risk of equipment failure or error. Board functionality is dependent on proper wiring of the system.

An illustrated guide for wiring and installing the DS200FCGDH1B is provided in the equipment manual and data sheet. The entire Mark V series was originally powered by General Electric.

The above additional information for this DS200FCGDH1B printed circuit board product is largely reminiscent of the general Mark V Series instruction documentation and visual inspection of the DS200FCGDH1B unit itself.

This strategy was deemed necessary due to the legacy series status of this DS200FCGDH1B product and the concomitant lack of on-line instructional manual material that could be utilized for research purposes on this page.

With this in mind, the DS200FCGDH1B functional product number itself can be considered an important source of information on DS200FCGDH1B Board hardware components and component specifications.

as it encodes a range of details in a series of consecutive function naming blocks.

For example, the DS200FCGDH1B Functional Product Number begins with a dual-function DS200 series label representing the normal Mark V series components of that DS200FCGDH1B product and its original domestic manufacturing location.

Some other relevant hardware details revealed through the use of the DS200FCGDH1B Functional Product Number include this Mark V Series PCB:

.FCGD Functional Product Abbreviation

.First Mark V Series Product Grouping

.Conformal pattern of PCB protective coatings

.Class B Functional Product Revision

The board has voltage controlled oscillators for analog feedback of current, voltage, and magnetic flux. These drive the VCO. The current and voltage signals can also be fed into the Sigma-Delta converter.

They operate in parallel with the VCO. Read through the relevant manuals for more detailed information about the motherboard, especially this one.

The base board of this DS200FCGDH1B PCB is protected by a thick, basic layer of daily wear protection provided by its conformal PCB surface coating.

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