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A-B 1756-IF4FXOF2F ControlLogix Discrete High-Speed Analog I/O Module

The 1756-IF4FXOF2F is a ControlLogix discrete high-speed analog I/O module.

It has four (4) high speed, sub-millisecond, differential inputs and is compatible with input signals ranging from ± 10V 0…. .10V 0… .5V 0… .20 mA.

It also has two high-speed voltage or current outputs with an output signal range of ± 10V 0…. .20 mA.

About the 1756-IF4FXOF2F

The Allen-Bradley 1756-IF4FXOF2F is an analog combo I/O module.

The module is part of the ControlLogix system and is compatible with the 1756 ControlLogix chassis, which requires the 1756-TBS6H or 1756-TBCH removable terminal block enclosure (RTB).

The module has four sub-millisecond high-speed differential inputs and two high-speed voltage or current outputs.

The module has a display that shows the module’s health and operating status (e.g., calibration mode).

The 1756-IF4FXOF2F has input ranges of +/-10 volts, 0 to 10 volts, 0 to 5 volts, and 0 to 20 milliamps, and displays over-range when the module is out of these ranges.

Overvoltage protection is 30 volts DC and 8 volts AC/DC. Its open circuit detection is a positive full scale reading within 1 second.

The module has an output range of +/-10 volts, 0 to 20 milliamps, and short-circuit protection, limiting the electronic current to 21 milliamps or less.

It also has 24-volt DC overvoltage protection and open-circuit detection, but is limited to current outputs only (note that outputs must be set to greater than 0.1 mA).

The 1756-IF4FXOF2F has backplane voltage www.ge-drive.com and current ratings of 375 milliamps (at 5.1 volts DC) and 100 milliamps (at 24 volts DC).

The analog inputs and outputs are rated at -10 to 10 volts and 4 to 20 mA, respectively.

Module power consumption is 4.3 watts with 4.3 watts of voltage dissipation and 4.7 watts of current dissipation.

Thermal dissipation is 14.66 BTU/hr for voltage and 16.02 BTU/hr for current.

Current consumption is 375 mA at 5.1 volts and 100 mA at 24 volts.

It has a scan time update cycle of 300us minutes with sub-millisecond channel scanning and multi-module synchronized sampling.

The Allen-Bradley 1756-IF4FXOF2F is a ControlLogix high-speed analog combo module.

The module features four (4) high-speed, sub-millisecond differential inputs that accept ± 10V, 0 to 10V, 0 to 5V, and 0 to 20 mA signal ranges.

Each analog input channel has integrated over- and under-range indication. It is also equipped with two (2) high speed voltage or current output channels with output ranges of ± 10V and 0 to 20 mA.

The module’s input channels convert received analog signals by successive approximation with 14-bit (±10.5V) and 12-bit (21 mA) conversion resolution.

It has a repeatability of ±1 least significant bit (LSB) and a calibration interval of 12 months.

The analog inputs are suitable for measuring analog process variables such as flow, level, pressure, temperature, viscosity, pH, turbidity, velocity and many other process variables.

The module’s output channels have 13-bit (21 mA = 2.8 µA/bit) and 14-bit (21.8V = 1.3 mV/bit) output resolutions.

The output channels are converted using the R ladder DAC conversion method without missing codes.

The module’s output analog signals can be used to command the modulating operation of control valves, variable frequency drives, dampers, shutters, signal converters, and sensors.

It can also be used to retransmit signals for use with indicators, recorders, and other devices.

The module’s analog output can be connected to manual control commands, arithmetic operations, or the control output of a proportional-integral-derivative (PID) controller.

Technical Description of the 1756-IF4FXOF2F

Allen Bradley ControlLogix high-speed analog input/output module with four sub-millisecond, high-speed differential inputs.

A-B 1746-NT8 SLC 500 Thermocouple/Voltage Analog Input Module

The Allen-Bradley 1746-NT8 is an SLC 500 thermocouple/mV analog input module.

The module has eight (8) channels and is compatible with thermocouple sensors such as J, K, T, E, S, R, B, and N. It is also compatible with mV inputs such as +/- 50 mV and +/- 100 mV.

It is also compatible with mV inputs such as +/- 50 mV and +/- 100 mV. The module is compatible with both stationary and modular SLC 500s.

About the 1746-NT8

The 1746-NT8 is Allen-Bradley’s SLC 500 thermocouple/voltage analog input module.

It is a chassis-mounted, eight (8) channel module that receives thermocouple/voltage signals and converts them to digital signals for retrieval by any SLC 500 processor.

It has a backplane current rating of 120mA at 5V DC and 70mA at 24V DC for a total backplane power of 2.28W.

The 1746-NT8 uses a delta-sigma signal conversion method and has a digital low-pass filter with selectable programmable filter frequencies.

The normal mode rejection between terminals is greater than 100 dB at 50-60 Hz, and the common mode rejection between input and ground is greater than 100 dB at 50-60 Hz.

The 1746-NT8 module automatically calibrates itself approximately every 2 minutes after power-up.

It provides +/-30V DC and 600W pulses for 1ms input overvoltage protection and www.ge-drive.com 12.5V DC circuit isolation between inputs and chassis ground, and between inputs and backplane, with a test voltage of 500V DC for 1 minute.

The 1746-NT8 has nine green LEDs to indicate channel status and module status.

It uses the 1746-RT34 (RTB) removable terminal block to connect the input devices. The terminal block includes two (2) cold junction compensation (CJC) sensors with an accuracy of +/-1.72 degrees Celsius.

The 1746-NT8 has several selectable input types with a total input impedance greater than 10 M ohms.

Any input device connected to it must have an impedance of less than 100 ohms to meet accuracy requirements.

The 1746-NT8 offers optional open-circuit detection at 1 cycle per channel for an overall input dry-circuit response time of 400 milliseconds.

The functional temperature range of the module is 0 degrees Celsius to 60 degrees Celsius. The functional temperature range of the module is 0 degrees Celsius to 60 degrees Celsius.

The modules are UL and CUL recognized.

1746-NT8 is an analog input module belonging to the SLC 500 product family.

The module is specifically designed for thermocouple/millivolt inputs and is compatible with SLC 500 processors such as SLC 5/01. 5/02. 5/03. 5/04. and 5/05. It can be used with SLC fixed or modular hardware categories.

Similar to other analog input modules, the 1746-NT8 uses Sigma-Delta modulation to convert received analog signals to digital values.

The converted data is stored in the module’s local memory and transferred to the CPU to create a data table to store the digitally converted values.

The module can be mounted in a fixed chassis, specifically using the 1746-A2 chassis.

If used with a modular controller, the module can be installed in any slot except slot 0.

Slot 0 is always reserved for controllers or communication adapters such as Remote IO, Data Highway Plus (DH+), and Ethernet communication modules.

Available data formats for input signals include engineering units, proportional-integral-derivative (PID) scaling, and proportional counting.

For thermocouple and millivolt input signals, PID proportional is the most compatible data format.

The module is capable of detecting open circuits, under-range, over-range, and channel errors.

These error alarms are assigned specific bits that can be accessed by monitoring systems such as Human Machine Interfaces (HMI) and Supervisory Control and Data Acquisition (SCADA) systems.

A-B 1783-MX08F Stratix8000 Switch with 8 Ports

DESCRIPTION

The 1783-MX08F Switch is an Allen-Bradley network switch. The module is an 8-port switch with 100 Base-F fiber optic Ethernet ports.

About the 1783-MX08F

The 1783-MX08F Switch, manufactured by Allen-Bradley, is an 8-port Stratix 8000 switch.

The 1783-MX08F switch has a supply voltage of 24 to 48 volts DC and a power dissipation of 10.1 watts.

The Allen-Bradley Stratix 8000 switch has an open enclosure and uses 100 Base-F fiber optic Ethernet ports.

Modules are of the CompactFlash memory type and are rated at 2 amps inrush current.

The 1783-MX08F switch is 112 mm long, 97 mm wide, and 147 mm high.

To ensure optimal performance, it is recommended that users ensure www.ge-drive.com that the ambient operating temperature range is between -40 degrees Celsius and 60 degrees Celsius.

The 1783-MX08F switch has a relative humidity range of 5% to 95% (non-condensing) and a maximum operating vibration of 2 G at 10 to 500 Hz.

It is rated for 20 G of operating shock and 30 G of non-operating shock.

The Allen-Bradley 1783-MX08F switch supports fiber optic Ethernet data rates of 100 Mbps.

The 1783-MX08F switch is optimized for IT and control/manufacturing control environments.

This makes the 1783-MX08F switch a high-performance managed Ethernet switch.

The 1783-MX08F Switch combines Cisco technology with innovative Allen-Bradley/Rockwell Automaton technology for high performance.

The 1783-MX08F switch is easy to set up and enables comprehensive diagnostic information within the specified Allen-Bradley/Rockwell Automation integrated architecture.

The 1783-MX08F switch provides users with the benefits of a CIP interface with predefined Logix tags and advanced configuration screens.

A-B 1771-IR PLC5 Resistance Temperature Detector (RTD) Input Module

DESCRIPTION

The Allen-Bradley 1771-IR is a PLC5 resistance temperature detector (RTD) input module.

The module has six (6) input channels and is compatible with copper and platinum RTD types.

It is designed to support temperature measurements in Celsius and Fahrenheit units of measurement. It has a scan time of 50 milliseconds for six channels.

About the 1771-IR

The Allen-Bradley 1771-IR is a PLC-5 RTD input with a natural binary BDC supported data format for actual temperature and ohmic readings.

The unit does not require any type of external power supply. It consists of six three-wire RTD inputs.

The device’s channel update resolution www.ge-drive.com introduces a combination of 50ms/6 channels and 16 bits + sign (1.0 degrees Celsius/1.0 degrees Fahrenheit/bit).

The 1771-IR input module has a voltage range of 100 ohms platinum and 10 ohms other. It has a backplane current range of 800mA.

The DC signal delay is 10ms in the on state, 50ms in the off state, and 45(+/- 15) ms in the AC signal delay in the on state.

These input modules have a lifetime of up to 100 million cycles as they meet voltage requirements of 10-276V AC.

The 1771-IR also helps protect your system by providing appropriate troubleshooting assistance. Module indicators show the status of smart inputs or outputs to help you troubleshoot your equipment.

The 1771-IR has an intelligent hybrid interface for connecting on/off devices such as switches, motor starters, pushbuttons, indicators and signalers.

This unique feature helps save on system engineering and spare parts as well as inventory and training costs.

The front panel of each AC discrete input/output module consists of bright status indicators.

The 1771-IR supports both Celsius and Fahrenheit measurement units. The platinum sensor has a temperature measurement range of -200 to +870 degrees Celsius and the copper sensor has a temperature measurement range of -200 to +260 degrees Celsius.

It has a resistance range of 1.00 to 600.00 ohms and a resolution of 0.1 degrees Celsius or 0.1 degrees Fahrenheit when used with a platinum sensor and 0.3 degrees Celsius or 0.5 degrees Fahrenheit.

The 1771-IR draws 950 mA at 5VDC from the backplane, consumes 4.75 watts, and has a thermal dissipation of 16.2 BTU/hour.

It is capable of open wire detection.

The 1771-IR is compatible with PLC2. PLC3. and PLC5 controllers. It can also be installed in various enclosures such as the 1771-A1B, 1771-A2B, 1771-A3B, and 1771-A4B I/O enclosures.

The module uses the 1771-WF pendulum arm to terminate signal lines keyed between 10 and 12 or 28 and 30.

1771-IR Frequently Asked Questions

What are the compatible RTD sensors used with the 1771-IR?

The 1771-IR is compatible with the Platinum 100 and Copper 10 sensors.

How many input channels does the 1771-IR have?

The 1771-IR has six (6) input channels.

Does the 1771-IR require manual calibration?

No. The 1771-IR has automatic calibration.

Technical Description of the 1771-IR

Allen Bradley PLC 5 RTD inputs, natural binary, BDC actual temperature or ohm reading data format, 800 Miliamperes backplane current, no external power supply required.

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GE VMIVME-3113A Analog-Digital Converter Board with Built-in Tests

Function

64 differential or single-ended inputs

Starts in auto-scan mode – no software initialization required

Continuously digitizes input channels and stores results in www.ge-drive.com 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 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

The 64-word dual port provides storage for continuous scanning of all channels. Scan patterns can be performed automatically at power-up, system reset, or entered under program control.

Dual port registers allow access to the VMEbus at any time to read the latest stored data.

Jumper-selectable programmable gain amplifiers support gain ranges of 1. 10. 100. 200. and 500. A/D conversion time is 15 µs. Multiple low-pass filters are supported.

Operation Modes

Auto Scan Mode: This mode is executed via power-up system reset or program selection. All channels are scanned continuously and digitized data is stored in 64- and 16-bit dual-port registers.

No additional programming is required to initiate the A/D conversion process. The user simply reads the digitized data from the dual-port register of the desired channel. This mode is only available with a gain of 1 and at least 16 connected channels.

16 connected channels.

Random Polling Mode: This mode requires the control program to generate a conversion. The end of the conversion is determined by polling the end-of-conversion status bit.

Random Interrupt Mode: This mode is the same as Random Polling Mode, but an interrupt is issued to the CPU board at the end of the conversion.

Scan Polling Mode: This is a scanning mode that performs a scan of all channels. The end-of-scan control bit is polled to determine when the scan is complete.

Scan Interrupt Mode: This is a scan mode that performs a single scan of all channels and generates an end-of-scan interrupt at the end of the scan.

Auto Scan Bit Mode: All channels are scanned continuously and channel 0 is multiplexed in one of three exact reference voltages. The voltages are 4.980. 0.4928. and .009915V.

Programmable Interval Timer: 16-bit triple timer (cascadable to 48-bit) can be programmed to generate a periodic trigger to initiate an A/D scan.

External Trigger: Scan can be initiated using a user connected signal. Board Components

GE General Electric DS200DCFBG1BJB Circuit Board Assembly

Product Description:

The DS200DCFBG1BJB is a circuit board assembly manufactured by General Electric as part of the Mark V Speedtronic system.

The DS200DCFBG1BJB is used to provide control level power to drives and cabinet fans.

The DS200DCFBG1BJB is used in EX2000 applications as well as DC2000. FC2000. GF2000. ME2000. CB2000 and AC2000 IGBT drive applications.

The DS200DCFBG1BJB product belongs to the Mark V family of products with specific applications in control and management systems for automated drive assemblies for steam, wind and gas turbines.

It is one of the last product families to utilize General Electric’s patented Speedtronic control system technology.

This DS200DCFBG1BJB printed circuit board larger Mark V turbine control system series is also considered to be a legacy series for General Electric.

Given that it was eventually discontinued by the original manufacturer within a few years of its initial release. This DS200DCFBG1BJB printed circuit board or PCB for short.

could indeed be better defined by its official functional product description as a power supply board.

Although the original power supply board manufactured for use with the Mark V series was the DS200DCFBG1 power supply board that lacked the triple revision history of this DS200DCFBG1BJB product.

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 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 www.ge-drive.com 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.

GE IC200MDL940 16-Point Relay Output Module

DESCRIPTION: The IC200MDL940 is a 16-point relay output module for the VersaMax I/O family, formerly manufactured by GE Intelligent Platforms and now part of Emerson Automation.

The module has sixteen (16) individually isolated normally open (N.O.) or type A contacts rated from 0 to 125VDC,

5/24/125VDC nominal output voltage and 0 to 265VAC (47 to 63Hz), 120/240VAC nominal output voltage with output contacts rated at 2.0 amps.

About the IC200MDL940

The IC200MDL940 is a relay output module that is part of Emerson Automation’s VersaMax I/O platform, formerly offered by GE Fanuc.

The module is equipped with sixteen (16) independently isolated Type A relay output contacts rated from 0 to 125VDC,

5/24/125VDC nominal output voltage and 0 to 265VAC (47 to 63Hz), 120/240VAC nominal output voltage with output contacts rated at 2.0 amps.

With built-in channel-to-channel isolation, each contact output can be connected to a different voltage source to power the appropriate electrical device connected to the output channel.

The module’s embedded relay is a fixed coil, moving armature type with contacts made of silver alloy.

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 www.ge-drive.com 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.

IC200MDL940 Frequently Asked Questions

1. What contact forms can I use with the IC200MDL940?

The IC200MDL940 has either Type A or Normally Open (N.O.) contacts.

2. What is the current rating of the module output contacts?

The maximum current rating of each contact output is 2.0 amps.

3. What is the channel response time of the IC200MDL940?

The maximum channel response time of the IC200MDL940 is 10 ms.

Technical description of the IC200MDL940

The GE Fanuc IC200MDL940 output module is a Versamax PLC relay output module. It is designed to operate in a Class 1 Division 2 industrial environment.

GE Multilin 750/760 Feeder Protection System Digital Relay

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 www.ge-drive.com 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 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

Protection and Control

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

This easy-to-use relay provides comprehensive protection functions for feeders and backup protection for buses, transformers and transmission lines while reducing product life cycle costs.

Time and Instantaneous Overcurrent

The 750/760 has a two-phase TOC element with level detectors for each phase. 750/760 also has two overcurrent elements, most commonly used for primary and backup protection.

Each TOC element has the following programmable features:

– Pickup current levels for tripping, alarming, or control

– Choice of 15 curve shapes (including FlexCurves) and curve multipliers

– Instantaneous or linear reset time characteristics

– Voltage limiting

The 750/760 has two phase IOC elements, each with a level detector.

Each IOC element has a programmable pickup current, a time delay after which the current must exceed the pickup current to operate, and a minimum number of phases required to operate.

Ground Overcurrent Protection

Firmly grounded and low impedance grounded distribution systems require fast ground fault clearance to limit equipment damage. the 750/760 provides ground fault protection with the following features

– Neutral IOC and TOC

– Grounding IOC and TOC

The 750/760 allows the use of directional elements to supervise ground overcurrent protection elements. This means that the 750/760 can be used to provide sensitive tripping for unidirectional faults. Typical applications for directional overcurrent protection include

– Isolating faulty feeders in ring bus or parallel feeder arrangements.

– Protection against faults in the return mains supply from generators in industrial plants

– Sensitive high-speed earth protection for transformers

Sensitive earthing and Restrictive Earth Fault (REF) protection

The sensitive earth and restricted earth fault protection function provides sensitive detection of earth faults.

Sensitive ground fault protection includes

– Instantaneous (50N) and timed (51N) – 2 levels

– Directional monitoring distinguishes between forward and reverse faults.

– Dual polarization (current and voltage) for maximum safety and reliability

750/ 760 for transformer backup protection (grounded converter windings and autotransformers) with RGF function.

GE General Electric PQM Power Quality Analyzer

Data logger for medium voltage networks, transformers, capacitor banks, generators and motors.

The PQM is ideal when continuous monitoring of three-phase networks is required.

It measures current, voltage, real and reactive power, energy consumption, energy cost, power factor and frequency.

With programmable thresholds and 4 configurable output relays, control functions are available for specific applications.

These functions include simple over/under current or voltage alarms, unbalance alarms, load-related load removal/reset, and capacitor control for power factor correction.

Four digital inputs can be used for status such as breaker position, energy exchange information, etc. for more complex control.

The PQM can be used as a data concentrator for the production plant PLC, integrating process, instrumentation and power requirements.

All monitoring and control parameters can be communicated via 2 RS485 communication ports using the ModBus protocol.

If direct interconnection to the PLC is required, any monitored variable can be output through one of four isolated analog outputs.

Isolated Analog Outputs. Process variables can be measured using the analog inputs. The RS232 communications port on the front panel can be connected to a personal computer for simultaneous access to information by other personnel.

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 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 www.ge-drive.com 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).

Features

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VMIVME-3122 CPU Motherboards

Emerson CSI 6500 ATG Protection System

Does your budget need more bang for your buck?

What if you could get the benefits of prediction at the cost of protecting your systems? Predictive Intelligence is a key component in improving the availability and reliability of plant assets.

So getting predictive data from your protection system is an important step in understanding and improving the health of your assets.

Emerson’s CSI 6500 ATG protection system features a multifunction card that can be easily reconfigured to take a variety of measurements, including the data needed to provide predictive intelligence.

Predictive Capabilities

Emerson’s CSI 6500 ATG is a standalone machinery protection solution that also allows users to cost-effectively and predictively monitor critical assets with the same system.

Predictive intelligence is key to improving availability and reliability.

The CSI 6500 ATG comes with four reconfigurable cards that capture all www.ge-drive.com required TSI measurements, including predictive data measurements such as the following:

Relative shaft vibration

Absolute shaft vibration

Shell vibration electrodynamic

Shell vibration piezoelectric

Relative displacement

Thrust position

Shell expansion/valve position

Average rod drop

Relative Vibration Hydrodynamic

Hydraulic absolute vibration

Eccentricity

Rotation speed

Key

Temperature

Process Parameters

The CSI 6500 ATG enables protection and predictive capabilities via a system communications card, in addition to Emerson’s unique PeakVue™ technology.

technology, which breaks through the complexity of mechanical analysis to provide a simple, reliable indication of equipment health.

PeakVue filters traditional vibration signals through a single trend, focusing only on shock.

This focus provides a better indicator of the overall asset health of pumps, fans, motors, or any other type of rolling bearing machine.

Familiar Features

System setup is accomplished through Machine Studio configuration software. The user interface has a similar look and feel to other Emerson software modules, making it familiar and easy to use.

Familiar and easy to use. While connected, users can access integrated predictive features.

View Problems in Real Time

The system comes with ATG View, a mobile application that receives data from the CSI 6500 ATG via Ethernet and/or a wireless router.

Authorized users can view protection status and health data from anywhere on the plant’s Wi-Fi network, either from a PC or a device of their choice.

Supported devices include Apple iOS and Android phones and tablets.

The ATG view allows reliability professionals to see the overall health of the system, alarm status, external inputs such as bypasses and outputs such as trips and whether they are active.

The CSI 6500 ATG displays all available information for critical devices, such as primary values, trending data, status data, and predictive data (e.g., PeakVue values).

OPC server helps you integrate with third-party systems

For easy integration with third-party systems, the CSI 6500 ATG is the first protection system to include a secure embedded OPC UA server.

The CSI 6500 ATG system meets traditional API 670 certification and is certified for installation in demanding environments that require Class 1 Div2/ATEX Zone 2 certification.

Studies have shown that repairing a machine after it has failed is 50% more costly than predicting failure and planning for the cost of repair.

For users whose budgets are not large enough to purchase both a protection system and a predictive system, obtaining predictive data from the protection system is an incremental step toward improving insight into the health of assets.

ATG View provides asset health information to users anywhere in the plant network.

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