Category: GE

-64 optically coupled digital inputs

-5 V to 48 VDC input range

-High isolation, 1.000 V continuous, 7.500 V pulse voltage

-Filter input options

-Dual I/O connectors

-Contact closure sensing

-Voltage or current source input options

-Positive or negative true input options

-Dual Eurocard form factor with front panel

8-bit or 16-bit data transfer

-Unprivileged or supervisory I/O access

-Highly reliable DIN-compatible input connectors

Functional Features

Board Features:

This 64-bit optically coupled digital input board is designed and optimized for the VME bus.

The VMIVME-1150 is highly isolated and provides a flexible, low cost, high noise immunity 8-byte digital input port. The functional block diagram is shown below.

Compatibility:

The VMIVME-1150 is a standard double height printed circuit board that is electrically and mechanically compatible with the VME bus.

Input Organization:

Eight input ports, each eight bits wide. The ports are organized as eight consecutive 8-bit read-only registers.

Addressing Scheme:

Each 8-bit port is individually addressable anywhere within an 8-bit or 16-bit boundary.

Short-circuit monitoring or short-circuiting anywhere within unprivileged I/O space.

Board Address:

The board address is selected by the on-board DIP switches. Runs in any available slot on the VMEbus backplane except slot 1.

VMEbus Access:

The address modifier bits are decoded to support short supervised or unprivileged short I/O access. A jumper is provided to support this option. The board is factory configured for short supervised I/O access.

VME Bus Reply:

The DTACK reply is a response to a data select (DS0 or DS1) and the decoded board address.

Board Address.

Data Transfer Type:

D8. D16

Access Time

Maximum 250 milliseconds

Data Polarity

Sorted by positive or negative true. This depends on the input assertion of the board. To assert an input, current must flow through the LED in the optocoupler.

For positive “true” boards, this current will indicate a logic “1” to the VME bus. If the board is ordered with negative true logic, the board will display a logic zero to the VMEbus when current is flowing through the LED.

Input Characteristics

Signal Conditioning:

The input can be either a voltage or current source with a voltage range of 5 to 48 V. The input can be either a voltage or current source with a voltage range of 5 to 48 V.

Hardware Tips and Specifications

This IS215AEPAH1A Alternative Energy Power Assembly may be best understood when its hardware elements are contextualized according to the intended function of this printed circuit board.

The first descriptor for the function of this AEPA-abbreviated product is present in its functional description as an alternative energy power supply assembly.

This functional description happens to be an exact match to the AEPA functional acronym for this product, a rare blessing for a specialized Mark VIe series product.

The series to which this IS215AEPAH1A board belongs actually provides additional insight into the functionality of this product.

Considering the place of the IS215AEPAH1A dcs-sis.com PCB in the Mark VIe family of wind turbine control systems, it is not surprising that this GE Energy board is dedicated to wind turbine applications.

Now that the functional status of this IS215AEPAH1A PCB as an alternative energy power supply assembly has been described.

Then it is possible to highlight some of the hardware specifications available for this Mark VIe wind turbine series product.

Considering this product’s place in the specialized and recently developed Mark VIe wind turbine family, little original product-specific instruction manual material detailing the hardware of this IS215AEPAH1A PCB exists online.

That said, this initial Mark VIe series label identifies the board as an alternative energy power supply assembly with special component versions.

This IS215 series label has dual naming capabilities for this IS215AEPAH1A product; it also outlines its status as a domestic GE printed circuit board.

The original manufacturing location of this PCB can be traced more specifically to GE’s plant location in Salem, Virginia.

In this IS215AEPAH1A part number, the IS215 series label is followed by an example of the AEPA functional acronym.

It is itself followed by the H1 series grouping label, which, like the IS215 series label mentioned earlier, provides a dual naming convention for this product.

This H1 grouping label indicates that the product is a conformal coated printed circuit board with Mark VIe series grouping.

While the conformal style of PCB coating specific to this power supply assembly is well documented, given its widespread use on General Electric circuit boards, the first Mark VIe grouping of this part is the Mark VIe grouping.

The true meaning of the first set of Mark VIe series alignments for this component has been lost.

The last A digit of the IS215AEPAH1A part number is a reference to a Class A functional revision of this part, which may significantly affect the performance specifications and original measured dimensions of this IS215AEPAH1A product.

Functional Description

The IS215VCMIH2CC is a GE-developed bus master controller module that is part of the Mark VI control system.

It is part of the Mark VI control system.The VCMI bus master controller plays a key role in the system architecture as an integrated communications interface that coordinates the exchange of data and commands.

As the link between the master dcs-sis.com controller and the array of I/O boards, the VCMI ensures smooth and efficient communication channels and facilitates seamless integration of the various components.

In addition, VCMI’s importance is reflected in its connection to the wider system control network, known as the IONet, which plays a vital role in coordinating communications across the network infrastructure.  

Features

A distinctive feature of the VCMI is that it acts exclusively as a VMEbus master within the control and input/output racks.

The VCMI is responsible for the VMEbus, a standardized computer bus structure, and oversees the coordination of data transfer and control signals within these racks.

The VCMI manages the assignment of unique identification (ID) to all boards in the rack and their associated terminal boards.

This ID management function ensures that the various components within the rack are identified and interacted with in a systematic and organized manner, thereby increasing the overall efficiency and reliability of the system.

The VCMI Bus Master Controller is a multifaceted communications hub that seamlessly connects controllers, I/O boards and the broader system control network.

As a VME Bus Master Controller in a given rack, it enhances its ability to manage and optimize the flow of information, ultimately improving the performance and cohesiveness of the integrated system.

Board Type: 6U High VME Boards

The boards specified are classified as 6U High VME boards and are dimensioned to meet the widely adopted VME standard. At 6U high, the boards conform to a standard form factor and are compatible with a range of systems and platforms that meet the same specifications.

At 0.787 inches wide, this VME board integrates seamlessly into the VME chassis, contributing to the modularity and scalability of the overall system.

The GE Multilin 745-W2-P1-G1-HI-T-H Transformer Protection Relay features transformer overload protection and overexcitation protection to ensure smooth transformer operation.

It also monitors, records and displays trends in system variables such as temperature, voltage, power, energy consumption and dcs-sis.com rate of change of frequency.

Product Description

The 745-W2-P1-G1-HI-T-H is a GE Multilin transformer protection relay that extends transformer life expectancy and optimizes transformer performance.

It protects and manages small, medium and large transformer systems. Part of the 745 Series, the 745-W2-P1-G1-HI-T-H features transformer overload protection and overexcitation protection to keep transformers running smoothly.

It also monitors, records and trends system variables such as temperature, voltage, power, energy consumption and frequency rate of change.

These values can be quickly referenced through the relay’s software program, Enervista 745.

The Enervista 745 software program can also be used to edit setpoints. Utilizing GE Multilin’s quick connect feature, the

Connecting the relay to a computer is simple with the GE Multilin Quick Connect feature. The connection can be established via Ethernet, the RS232 port on the front, or the RS485/RS422 port on the back of the panel.

The program assists in managing system setup and automatically flags programming errors or conflicts as the user adjusts setpoints.

The 745-W2-P1-G1-HI-T-H’s enhanced 40-character display is larger than the base model and includes an extended keypad for easy manual setpoint entry.

The enclosure is 9″ high by 7″ wide by 7 ⅛” deep. The transformer protection system can be mounted on a standard 19″ panel, but care should be taken that the enclosure door opens and closes freely without contact with other components.

A number of LEDs on the front of the chassis alert the user to various statuses and errors in real time.

Frequently Asked Questions about the 745-W2-P1-G1-HI-T-H

What makes the Multilin 745-W2-P1-G1-Hi-T-H unique compared to other transformer protection relays in the 745 series?

The 745-W2-P1-G1-Hi-T-H Multilin transformer protection series contains unique options that differ from other part numbers.

Notably, the “-H” option indicates that the relay has a harsh chemical environment conformal coating for operation in harsh environments.

The T option in the 745-W2-P1-G1-Hi-T-H Multilin Dual Winding Transformer Management Relay differs from other relays in the 745 system in terms of display and Ethernet.

Transformer protection systems without the T option have either a basic display (B) or an enhanced display (E) with a larger LCD.

The T option comes with an enhanced display, larger LCD, and 10Base-T Ethernet.

The Multilin™ 489 Generator Protection System is a member of the SR Series of relays that provides protection, control, and advanced communications in an industry-leading drawout configuration.

Designed for small to medium sized generators, the 489 offers advanced protection features, including generator stator differential protection. 489 also includes detailed diagnostic information to reduce troubleshooting time.

Key Benefits

– Comprehensive, safe protection for small and medium-sized generators

– Easy-to-use generator protection system supported by an industry-leading suite of software tools.

– Advanced protection and monitoring features, including stator and bearing thermal protection using RTDs and vibration monitoring using analogue inputs

– Globally recognised as a member of the most prestigious relay protection product family on the market

– Drawer construction to minimise downtime and facilitate removal/installation during routine maintenance 489

– Large, user-friendly front panel interface for real-time power monitoring and setpoint access, with a display that is easy to read in direct sunlight

– Enhanced generator troubleshooting capabilities through the use of IRIG-B time-synchronised event logging, waveform capture and data logger

– Simplifies setpoint verification testing with built-in waveform simulation capabilities

– Cost-effective access to information through industry-standard communications hardware (RS232. RS485. 10BaseT Ethernet) and protocols (Modbus RTU, Modbus TCP/IP, DNP 3.0)

– Can be used in most extreme locations by offering harsh chemical environment options

Applications

– Synchronous or induction generators operating at 25Hz, 50Hz or 60Hz

– Primary or backup protection in cogeneration applications

Protection and control

The 489 generator protection system provides comprehensive protection, metering and monitoring functions,

The 489 generator protection system provides comprehensive protection, metering and monitoring functions for small and medium-sized synchronous or induction generators operating at 25. 50 or 60 Hz.

The 489 is ideal for primary or standby generator protection as well as cogeneration applications.

The 489’s protection features include:

Generator stator differential

The 489 uses high speed dual slope differential protection to detect and clear stator phase faults.

Stator phase faults. Advanced CT saturation detection algorithms provide additional supervision through the use of directional checks that

ensures that the fault occurs inside the generator before triggering a trip, thus maintaining immunity to saturation that may be caused by external disturbances.

100% Stator Ground

100% stator ground fault protection is provided by an overvoltage element and an adaptive differential voltage function that responds to third harmonic imbalances at the machine terminals and neutral.

The SR469-P5-LO-A20-T has a 5 amp current transformer secondary coil mounted on the base unit.

It is a low control power unit rated for 24-60 volts DC or 20-48 volts AC @ 48-62 Hz.

Although the unit has an optional Ethernet port, it does not include the optional DeviceNet or enhanced front panel.

Product Description

The SR469-P5-LO-A20-T is an SR469 multi-wire relay designed to provide comprehensive protection for medium to large motors. The unit offers many management features.

The SR469-P5-LO-A20-T has a 5 amp current transformer secondary coil mounted on the base unit.

It is a low control power unit rated for 24-60 volts DC or 20-48 volts AC @ 48-62 Hz.

Although the unit has an optional Ethernet port, it does not include the optional DeviceNet or enhanced front panel.

In addition, it is not designed for harsh environments as it does not include a chemically conformal coating.

The SR469-P5-LO-A20-T includes an optional Ethernet 10BaseT Ethernet port.

With this additional port, users can connect their 469 units to 10 Mbps Ethernet.

This port brings the number of ports in the unit to four, including the three standard serial ports that are always displayed in the SR469 relay.

All SR469 relays have two RS485 ports on the real panel. In addition, there is an RS232 port on the bottom of the front panel.

This port provides quick access for troubleshooting and programming.The SR469-P5-LO-A20-T supports ModBus RTU and ModBus RTU via TCP/IP.

The GE Multilin manual will provide the user with additional information on installation, safety and proper operation.

Original documentation such as manuals and user guides should be read and understood before opening the box; this will ensure that you are aware of all possible hazards and ensure your safety.

Frequently Asked Questions about the SR469-P5-LO-A20-T

What are the standard features of the SR469-P5-LO-A20-T General Electric Motor Management Relay?

All 469 Motor Management Relay features are standard. Although the analogue output range, phase current transformer secondary and control power must be specified prior to purchase, the

to ensure that the correct standard features are purchased for the relay. Some features are programmable, such as the 469 relay’s differential current transformer input with a 1A or 5A secondary current transformer.

Function

64 differential or single-ended inputs

Starts in auto-scan mode – no software initialization required

Continuously digitizes input channels and stores results in dedicated channel dual-port registers (auto-scan mode)

Jumper-selectable scan from 2 to 64 channels

Supports real-time and off-line built-in testing

Five operating and test modes

-Auto Scan Mode (Gain = 1)

– Random polling mode

-Random interrupt mode

-Scan polling mode

-Scan interrupt mode

VME bus interrupts can be programmed to interrupt at the completion of a single A/D conversion or at the completion of a 2- to 64-channel sweep

User programmable interval timer supports periodic scanning of all channels

Jumper programmable gains of 1. 10. 100. 200. and 500

Selectable A/D ranges of 0 to +10V, +5V and +10V

Low and high inputs: +10my to +10V

Selectable low-pass filter (VMlVME-3113A for better high-frequency rejection)

Overvoltage protection input

5 x 1060 input impedance

33 kHz conversion rate

Selectable output codes: binary, offset binary, binary with sign extension

Applications

-Factory automation dcs-sis.com and instrumentation – Process control

-Laboratory instrumentation

-Machine monitoring

– Data acquisition

Features

Description: This product is designed to support 64 channels of differential or single-ended wide range (±10mV to ±10V) analog inputs.

The board supports the following modes of operation:

Auto Scan

Random Polling

Random Interrupt

Scan Polling

Scan Interrupt

Auto Scan with BIT

Hardware Tips and Specifications

The DS200DCFBG1BJB is a large rectangular board with a large number of surface mounted components. These include seven 4-position DIP switch devices and twelve configurable jumpers.

Six DIP switches are located together on one side of the board. These are used to scale or change many different inputs.

For example, switch number 4 (SW4) is used to regulate the voltage applied to the VCO output bridge circuit.

The board also has a neon light to indicate a blown fuse in the 115 VAC line and two LEDs to indicate blown fuses in the +24 VDC line and -24 VDC line.

Several specific integrated circuits of note are provided on the substrate of this DS200DCFBG1BJB product.

These integrated circuits, like dcs-sis.com many of the individual hardware components available in the assembly of this DS200DCFBG1BJB product, are accompanied by their own set of factory-printed nomenclature.

Each circuit contributes to a specific DS200DCFBG1BJB board and to the more robust Mark V Series automatic driver assembly features.

The integrated circuits in this DS200DCFBG1BJB power board assembly include:

Voltage and current feedback VCO circuits

Motor voltage attenuation circuitry

AC line magnetism and zero crossing circuits

Contactor drive circuitry

Field/armature SCR ignition circuitry

As noted above, each of the previously named circuits in this DS200DCFBG1BJB printed circuit board assembly was created by applying its specific function

applied to the larger DS200DCFBG1BJB board and Mark V series automatic drive assembly.

The various circuits of this DS200DCFBG1BJB product often have critical applications for the SDCC and LDCC boards in the Mark V series.

Both of these General Electric printed circuit boards are also available today from our inventory of new and refurbished circuit board products.

Other DS200DCFBG1BJB board components include test points, I/O connectors (1PL-1 through 1PL-40. 2PL-1 through 2PL-9. 4PL-1 through 4PL-5 and 5PL-1 through 5PL-26).

as well as fuses, resistor networks and resistors, capacitors, transistors, heat sinks, transformers, and relays. The board has test points for checking voltage signals and fuses for protection.

The module can be used to energize output devices such as relay coils, solenoid-driven instruments, indicator lights, and other instruments.

It has no snubber circuits or internal protective fuses, however, the user can install external protection accordingly.

The module does not display output leakage currents because the contact outputs are open-circuit when not activated.

In addition, each output channel has a response time of 10 ms and is dedicated to open-to-closed and proximity-to-open contact switching.

The maximum switching frequency of each output contact is 20 cycles per minute when used with inductive loads. Each output channel is equipped with a separate channel status indicator to characterize the operating status of each channel.

This IC200MDL940 has a maximum backplane current consumption of 490mA and requires a rating of 0 to 125VDC,

5/24/125VDC and 0 to 265VAC (47 to 63Hz) nominal external power supplies with a nominal supply voltage of 120/240VAC.

The IC200MDL940 module is a VersaMax PLC relay output module manufactured by GE Fanuc. It is equipped with 16 output points.

The module has A-type contact outputs and is compatible for use in Class 1 Division 2 rated environments over a temperature range of 0 to 60 degrees Celsius.

It complies with different environmental and industrial standards, including CE and cULus standards. These individual points are isolated from each other.

The IC200MDL940 module is rated for 24 volts DC and 120 to 240 volts AC. It is rated at 2 amps.

The front of the module has a lock/unlock lever. Each point has an LED to indicate activity on that point.

When the CPU logic bit is set to 1. the contacts in the module are closed.

The GE Fanuc VersaMax IC200MDL940 module is powered through the backplane. Loads on the module should be powered through an external power supply.

An additional CPU is required to handle the logic operations of the module. The logic and frame ground isolation ratings for the user input module are 250 volts AC continuous, 1500 volts AC for time periods up to 60 seconds.

The output voltage drop is 0.3 V maximum. The IC200MDL940 module has a load current of 10 mA per point.

The relay used in the module is a fixed coil relay with a movable arm. The contact type is made of high quality silver alloy.

Feeder Protection System

The 750/760 Feeder Protection System is a digital relay for the management, primary protection and control of distribution feeders.

The relay is easy to use, provides comprehensive protection functions for feeders and backup protection for busbars, transformers and transmission lines, with simple construction and low product life cycle costs.

Key Benefits

– Easy-to-use feeder protection system, supported by an industry-leading suite of software tools

– Accurate built-in metering – eliminates the need for auxiliary metering and reduces costs

– Improved uptime of auxiliary equipment – I/O monitoring

– Reduce troubleshooting time and maintenance costs – IRIG-B time synchronization, event reporting, waveform capture, data logger

– Minimizes replacement time – Drawer construction

– Simplifies testing – Built-in analog capability

– Cost-effective access to information. Supports industry protocols such as DNP and Modbus. Includes an optional 10MB Ethernet port for system integration

– Complete asset monitoring – analog inputs/outputs, full metering (including demand and energy metering)

– Leading-edge technology – flash memory dcs-sis.com for product field upgrades

– Extended life – optional conformal coating for chemical and humid environments

– Global availability ensures compliance with international norms and standards

Applications

– Primary protection and control of distribution feeders for solidly grounded, high impedance grounded or resonant (Peterson coil) grounded systems

– Busbar blocking/interlocking schemes

– High-speed fault detection for arc-flash mitigation

– Load shedding schemes (bus transfer scheme applications)

– Load shedding schemes based on voltage and frequency elements

– Backup protection for transmission lines, feeders and transformers

– Distributed generation (DG) interconnection protection