Category: GE

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

Production site. Due to the increase in electronic loads such as computers, ballasts or switching actuators, the quality of the power system is very important.

With PQM’s power analysis option, it is possible to display any current or voltage phases and calculat    e the harmonics contained therein.

By understanding the distribution of harmonics, measures can be taken to prevent transformers, motors, capacitors and neutrals from overheating and circuit breakers from tripping unexpectedly.

Redistribution of network loads dcs-sis.com can also be determined.PQM provides waveform recordings and graph printouts to help diagnose problems.

Applications

. Distribution room, transformer, generator, capacitor bank and motor measurements .

. Medium and low voltage networks .

. For commercial, industrial and energy distribution applications .

. Configurable control of load shedding/heavy loads, power factor, etc.

power factor, etc.

Power quality analysis

Measurement/control

.A, V, W, var, VA, varh, Wh, power factor, Hz, imbalance

.A, W, var, VA, overshoot

. Load Shedding

. Power factor control .

. Pulse Accumulator Input

. Pulse output kWh, kvarh or kVAh

Monitoring

Harmonic analysis up to 63 levels, including THD and TIF

. Event logging

. Waveform capture

. Sequence Data Logging

. Trigger Trace Storage

Communication

. Ports: RS232 front panel, dual RS485 rear panel

.ModBus RTU protocol .

. . mini RTU: 4 logic inputs and 4 logic outputs .

. 1 analog input and 4 analog outputs .

. Local and remote display of all variables .

. Communicates with GE Multilin Relay 269/565 (MOD 508).

Hardware Tips and Specifications

This SDCC Abbreviated DriveControl Board requires its own series-specific hardware components and specifications in order to achieve its intended series functionality.

The GE Drive Control Board DS200SDCCG5A is equipped with 3 microprocessors and RAM that can be accessed by multiple microprocessors simultaneously.

These microprocessors are assigned to specific tasks within the drive control process, and the microprocessors are fitted with the firmware and hardware required to perform their respective tasks.

For example, a DS200SDCCG5A dcs-sis.com microprocessor is equipped with processing functions that perform the mathematical calculations involved in the common motor control function.

The DS200SDCCG5A board is also equipped with five EPROM connectors for storing configuration software. Four of the EPROM modules store factory-assigned configuration parameters.

The remaining EPROM module stores configuration parameters assigned by the user or service personnel.

The DS200SDCCG5A board described here also contains connectors and standoffs for connecting Mark V Series Auxiliary Cards.

You can secure these cards with screws inserted into the standoffs and then connect cables from the auxiliary cards to the board.

With these cards, you can connect to a LAN or add signal processing capabilities to the board.

Finally, this DS200SDCCG5A DriveControl Board contains jumpers for configuring the board, however these jumpers are set at the factory and should not be moved to change the behavior of the board.

Before making a final decision to purchase this DS200SDCCG5A DriveControl, it is important to understand the status of this DS200SDCCG5A printed circuit board, i.e., that it is a DriveControl that has been previously revised.

This status may alter the original performance specifications and functionality of the original Mark V Series DriveControl DS200SDCCG5 as presented in the General Electric Instruction Manual material.

The DS200SDCG5A is a fairly simple control card with 5 EEPROMs on board to store various software configurations for the PCB.

The 5A version does not have a large installed base compared to previous models in the Mark V series.

This DS200SDCCG5A drive controller card has the normal Mark V series assembly version, although it is part of the relatively uncommon Mark V series Group 5 product.

About the IC200GBI001

The IC200GBI001 is a VersaMax communications module. The module is a Genius network interface unit that allows VersaMax I/O modules to be installed in distributed I/O architectures.

The module is designed to accommodate up to eight (8) I/O modules per rack and supports the installation of up to eight (8) racks with up to 64 I/O modules.

It supports transmission speeds of 153.6 kbaud for extended network configurations; 153.6 kbaud, 76.8 Kbaud, and 38.4 Kbaud are standard, and the IC200GBI001

Can accommodate a large number of I/O points, specifically up to 1024 points for discrete inputs; 1024 discrete outputs; 128 dcs-sis.com bytes of analog analog input memory and 128 bytes of analog output memory.

The module can manage network input scans of 128 bytes per scan and scans of 128-bit outputs per scan. It consumes 250 mA @ 4VDC and 10 mA @ 3.3 mA.

The IC200GBI001 is compatible with a wide range of controller systems, as both previous and modern controller platforms support the Genius protocol.

Compatible control systems include the 90-70 series and the PACSystem RX7i and PACSystem RX3i.

The appropriate firmware version must be loaded onto the controller and the IC200GBI001 Genius Network Interface Module.

The IC200GBI001 is equipped with dual Genius connection terminals. The upper terminal is used as the primary Genius connection point and the lower terminal is used as a redundant port.

These ports are designed to be connected in a daisy-chain topology with terminating resistors at each end of the communication cable.

The appropriate resistor values on the serial 1 and 2 terminals are 75. 100. 120. or 150 ohms.

The GE Fanuc IC200GBI001 unit is a network interface unit or NIU manufactured by GE Intelligent Platforms/GE Fanuc.

It is part of the GE Versamax family and is designed to provide control functions for the different I/O modules connected to it.

When the NIU is installed with the correct firmware version, it is compatible with several modules such as Genius Bus controllers, Series 90-70 PLCs, and PacSystems RX7i and Rx3i PLCs.

Any computer that can control the bus can be used as a host PC.Each rack on the IC200GBI001 Network Interface Unit can hold up to 8 modules and supports up to 8 more racks.

The maximum network inputs that can be scanned per bus are 128 bytes, the maximum discrete I/O memory is 1024 points, and the analog I/O memory is 128 bytes.

The GE Fanuc IC200GBI001 unit has 2 different power settings, 10 volts at 3.3 mA current and 250 volts at 5 mA current.

It has a serial bus address range from 0 to 31. The data rate for the entire network is 153.6 kilobaud for extended transmission and 153.6 kilobaud-76.8 kilobaud, or 38.4 kilobaud, for standard transmission.

Synopsis

The VMIVME-4941 is a four-channel synchronous/rotary digitizer designed for use in modern high-performance commercial and industrial control systems.

Applications include motor control, radar antenna position information, CNC machine tools, robotic axis control and process control.

The VMIVME-4941 features four versatile, state-of-the-art synchronous or resolver digitizers with programmable resolution and bandwidth.

Programming allows selection of 10-, 12-, 14-, or 16-bit resolution with options for accuracy of +1 LSB (+4 LSB differential linearity) over two minutes.

Resolution programming combines the high tracking rate of a 10-bit converter with the accuracy of a 16-bit converter.

The four-way resolver digitizer board has functional test capability for operational verification of all resolver mixing dcs-sis.com modules and VMEbus control logic.

The user can provide input resolver test signals for board testing via the P2 VMEbus expansion connector.

The front panel fault LEDs are illuminated at power-up and can be programmed to go out after successful diagnostics.

The front panel status LEDs also indicate signal loss and error fault levels.

Front Panel Fault LED – If an error condition occurs during a board diagnostic test, a software-controlled LED is available to visualize the fault.

This LED is illuminated at power-on reset and can be extinguished under program control.

Built-In Test (Resolver Option Only) – Requires the user to provide a resolver input on the P2 connector for loopback testing.

The loopback test is for single-ended signal input operation only. Note that the 11.8 V signal input option can be operated in direct input mode via a jumper.

Status LEDs are also provided to indicate signal loss and error levels for each channel.

The accuracy of the loopback test is limited (20 LSB) because the internal DC from the channel zero resolver is not available.

Loopback test accuracy is limited (20 LSB) because all four channels use the Channel Zero Resolver module’s internal DC reference voltage during built-in test runs.

Product Description

The 269PLUS-10C-120 was released in the GE Multilin 269 PLUS motor management relay series.

It is a standard model that includes all of the basic features and protection offered by this family of relays.269 PLUS relays are designed for AC motor protection.

With proper installation and configuration, they can be integrated into systems that protect associated mechanical systems as well as motors and operators.

For example, when a GE Multilin meter is used with the 269PLUS-10C-120. power and voltage can be monitored, as well as the values used by the relay to provide additional protection features.

A feature of the 269PLUS-10C-120 GE Multilin relay is the storage of relay setpoints and various values in non-volatile memory.

Setpoints, “learning” parameters, pre-trip values, and statistical records remain unchanged even if control power is lost or otherwise removed.

Stored values include hours of operation, total number of motor starts, number of relay trips, and more.

The 269PLUS-10C-120 also features a built-in firmware self-test to continuously check relay operation.

If the self-test program detects a fault, an alarm indicator is triggered.

The GE Multilin 269 PLUS relay offers flexibility through a custom curve feature that allows the user to enter their own breakpoints if one of the eight standard overload curves is not appropriate.

In addition, there are multiple RTD input sensor types to choose from, as well as multiple control voltage options.

RTD type and control voltage are the two specifications indicated in part number 269PLUS-10C-120.

The 10C refers to the RTD input. In this model, the sensor is a 10-ohm copper RTD. The control voltage is labeled 120. indicating that this GE relay is a 120 VAC/125 VDC model.

These relays are available in various combinations of RTD type and control voltage. If the 269PLUS-10C-120 does not meet the exact needs of your application, several other 269 PLUS models are in stock.

Features

– 32 optically coupled outputs

– 32 optically coupled inputs

– High isolation potential – 1kV continuous – 35kV pulsed

– 8-bit, 16-bit, 32-bit data transfer

– Standard data or short I/O addressing A16 or A24

– Voltage-sensing or dcs-sis.com contact-sensing inputs

– Input range 5 to 125VDC

– 300mA sink current output

– Maximum output voltage 50V

– Inputs and outputs support built-in testing

Functional Features

Board Features: The board has 32 optically coupled inputs and 32 optically coupled outputs.

The outputs and inputs have built-in testing and provide continuous 1kV system isolation for the VME backplane.

Compliance The board conforms to the VMEbus specification ANSI/IEEE STD 1014-1987 IEC 821 and 297 with the following helpers:

a24/a16. d32/d16/d08 (eo)

Slave devices using the following address modifiers:

3D, 39/2D, 29.

BUILT-IN TEST: The VMIVME-2536 supports both on-line and off-line built-in tests (BIT).

By setting a bit in the Control and Status Register (CSR), the input will enter test mode.

In test mode, data placed in the on-board test registers is read through the input port instead of field data.

The address of the test register is the same as the address of the input data port.

The address of the test register is the same as the address of the input data port, so testing can be accomplished by simply writing to and reading from the input data port. This feature can be used for both on-line and off-line testing.

The contents of the output data register can be read at any time, thus supporting online testing. The outputs can be put into offline test mode by setting a bit in the CSR.

In offline test mode, all open collector outputs are disabled. Data patterns can then be written to or read from the output registers to perform tests without affecting the outputs.