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A-B 1746SC-INO4I Analogue Pure Current Output Module

About the 1746SC-INO4I

The 1746sc-INO4I is Spectrum Controls’ analogue pure current output module. The module has four (4) isolated channel outputs.The 1746sc-INO4I occupies one slot in the 1746 Input/Output Chassis.The 1746sc-INO4I draws 120 milliamps of current from the backplane at 5 volts DC, but in order to minimise current loading on the backplane, the 1746sc-INO4I can be interfaced with an external power supply rated at 24 volts DC. The 1746sc-INO4I has a DIP switch that specifies whether the module is to be powered from the backplane or from an external power supply. When the DIP switch on the 1746sc-INO4I is set to the rack position, the module is powered from the backplane, and when the module is powered from an external 24 Vdc power supply, the DIP switch should be set to the EXT position.

The 1746sc-INO4I draws 5 volts DC from the backplane. This consumption rating is the same when the module is powered externally. The module has a removable 16-bit terminal block that accommodates Belden 8761 shielded twisted-pair cable. 1746sc-INO4I has 16-bit resolution, 366 nano-amps per count, and 320 microvolts per count. 1746sc-INO4I isolated channel analogue output models have auto-calibrating programmable limits and safety states, and are optically isolated for The 1746sc-INO4I isolated channel analogue output model has auto-calibrated programmable limits and safety states, and is opto-isolated to 750 volts DC (channel-to-channel, field wiring to backplane). 1746sc-INO4I is rated for thermal power dissipation up to 4.5 watts, with a maximum update time of 33.7 milliseconds for all 4 parallel channels, and a step response time of 1 millisecond. In addition, the 1746sc-INO4I is UL/CUL Class I, Division 2. Groups A, B, C, D, and CE listed.

Part number 1746sc-INO4I SLC 500 compatible module is an analogue output www.honeywell-diver.com module manufactured by spectrum control. This module is manufactured by Spectrum Controls, an Allen-Bradley partner.

Encompass Partners is an Allen-Bradley approved and certified partner to provide Allen-Bradley compatible products.

This module is similar in appearance to the actual SLC 500 module. The module has four (4) differential analogue output channels providing 0-20 mA, 0-21 mA, 4-20 mA at 366 nA per count with 16-bit resolution.The module features extended output ranges, auto-calibration, programmable limits, and safety status. The module’s data can be formatted into 16-bit binary, scaled engineering units, PID scaling, 1746-NO4 format, and user-defined proportional counts. Its accuracy is 0.08 per cent of full scale at 25 degrees Celsius and 0.15 per cent at 60 degrees Celsius.

Each channel of the module is galvanically isolated at 750 VDC, which improves system reliability by eliminating the noise crosstalk that occurs when converting the module’s high-resolution data. The same isolation level as the backplane field wiring provides protection for the rack and processor.

Since the module’s isolation eliminates the need for external signal isolation devices, system costs are reduced. The module’s single-slot width also saves critical chassis slots.

The module uses Allen-Bradley design and technology and functions like an Allen-Bradley module. Its configuration is similar to the SLC 500 module and most of its features are similar to the Allen-Bradley analogue output modules.

Technical Description of the 1746sc-INO4I

The Spectrum 1746sc-INO4I analogue output module has 4 channels and an analogue isolated current input type. It has 0-20 mA input current and 0-5V input voltage.

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A-B 1444-DYN04-01RA Measuring Module

Description:

The Allen Bradley 1444-DYN04-01RA module is part of the Allen-Bradley Dynamax family of intelligent I/O modules.

It is designed to provide the integrated and distributed solution needed to monitor and control critical industrial machinery.

The 1444-DYN04-01RA module monitors and protects pumps, motors, gearboxes, fans, gas and steam turbines, high-speed compressors, and other reciprocating or rotating machines.

About 1444-DYN04-01RA

The Allen-Bradley 1444-DYN04-01RA module is part of the Allen-Bradley Dynamax family of intelligent I/O modules.

It is used to provide the integrated and distributed solution needed to monitor and control critical machinery.

The 1444-DYN04-01RA module monitors and protects pumps, motors, gearboxes, fans, gas and steam turbines,

high-speed compressors, and other reciprocating or rotating machines. In addition to this, the 1444-DYN04-01RA module measures strain or pressure,

In addition, the 1444-DYN04-01RA module can also measure dynamic signals such as strain or pressure, vibration, and position measurement signals such as rod position, differential expansion or thrust.

The 1444-DYN04-01RA module allows real-time measurements to protect machinery from imminent failure.

In addition, the measurement results can be further processed to www.honeywell-diver.com calculate the acute fault indication parameters required to assess the current and predicted health of the machine.

The 1444-DYN04-01RA module can be managed and configured via a Logix controller and connected via an EtherNet/IP industrial network.

As with the rest of the Allen-Bradley/Rockwell Automation Integrated Architecture system, the

As with other parts of the Allen-Bradley/Rockwell Automation Integrated Architecture system, other system components such as visualisation products, controllers, and I/O products can be applied to the 1444-DYN04-01RA module to meet specific needs and applications.

Expansion modules for the 1444-DYN04-01RA module include a relay module, a tachometer signal conditioner and an analogue output module.

These modules can be configured and managed from either the master module or the host module 1444-DYN04-01RA.

The 1444-DYN04-01RA module as the host module can also report errors associated with any of the above expansion modules.

The 1444-DYN04-01RA module supports the EtherNet/IP communication protocol and has two RJ45 Ethernet ports.

These ports can be used either as a standard Ethernet connection (modules are connected to each other) or via DLR (Device Level Ring).

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A-B 2198-S086-ERS3 Single Axis Inverter Module

Product Description: Allen-Bradley 2198-S086-ERS3

The Allen-Bradley 2198-S086-ERS3 features 29.7 kW continuous output power, 22-40 lb*in (2.5-4.5 N*m) torque values, and 560 microfarads of internal capacitance.

About the 2198-S086-ERS3

Allen-Bradley’s 2198-S086-ERS3 Kinetix 5700 single-axis frequency converter is a single-axis frequency converter module that is

for controlling machines with high shaft counts and high power requirements. The inverter has current/speed loop bandwidths of 100Hz and 400Hz.

The inverter has a current/speed loop bandwidth of 100 Hz and 400 Hz, a pulse width modulation (PWM) frequency of 4000 Hz, and a continuous output current of 43 A and a 0-pk output current of 60.8 A.

The peak values of continuous and 0-pk output currents are 86A and 121.6A, respectively, and the rated output power of the inverter is 29.7KW.

It requires a DC input current of 45.7ADC and has an internal www.honeywell-diver.com capacitance of 560μF.

The 2198-S086-ERS3 is rated at 4.6A for non-braked servo motors.

The rated control power for a braked servomotor is 9.6A, and the inrush power at startup is 4A.

Rated power output percentage is 190 watts at 20%, 225 watts at 40%, 325 watts at 60%, 300 watts at 80%, 300 watts at 100

It has a maximum power dissipation of 190 watts at 20% of rated power output, 225 watts at 40%, 325 watts at 60%, 300 watts at 80%, and 475 watts at 100%.

The 2198-S086-ERS3 has an operating temperature range of 0 to 50 °C (32 to 122 °F) and a humidity limit of 5 to 95% non-condensing.

It can be stored over a temperature range of -40 to 70 °C (-40 to 158 °F). Even when installed at an altitude of 1.500 meters (4.921 feet), the

Even when installed at an altitude of 1500 meters (4921 feet), it will not be downgraded and will maintain optimal functioning under 2 G of operating vibration and 15 G of shock.

The 2198-S086-ERS3 provides motor and auxiliary feedback through feedback connections on the 2-pin Motor Feedback (MF) connector and 15-pin Universal Feedback (UFB) connector.

It also supports EtherNet network connectivity through the Ethernet port on the inverter and a 0.15-meter (6-inch) Ethernet cable.

The 2198-S086-ERS3 weighs an average of 5.21 kg (11.5 lbs.).

Measuring 252 mm (9.92 in.) x 358 mm (14.09 in.) x 55 mm (2.17 in.), it is CE, C-TICK, KC c-UL, ODVA, and OSHA certified.

Technical Description of the 2198-S086-ERS3

The Allen-Bradley 2198-S086-ERS3 features 29.7 kWatts continuous output power, 22-40 lb*in (2.5-4.5 N*m) torque values, and 560 Microfarads internal capacitance.

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A-B Rockwell 2094-BL02 Line Interface Module

The Allen-Bradley 2094-BL02 module is a line interface module that is part of the 2094 Kinetix 6000 product line.

It operates at three-phase voltages from 400 to 460 volts AC and a current rating of 30 amps.

The module has an internal control line filter rating of 230 volts AC.

The 2094-BL02 module is a line interface module manufactured by Allen-Bradley/Rockwell Automation as part of the 2094 Kinetix 6000 product line.

The module has a three-phase voltage rating of 400 to 460 volts AC, a current rating of 30 amps, and an internal control line filter rated at 230 volts AC.

It also has a 24-volt DC power supply output voltage with a current capacity of 8 amps.

The 2094-BL02 Line Interface Module comes with components such as connector sets for the 2094-ALxxS, BLxxS and XL75S-Cx modules.

These items include the volt AC line (IPL), input/output (IOL), control power supply (CPL), and volt AC load (OPL),

230-volt auxiliary output (P2L), 24-volt brake input/output power (P1L), and auxiliary 230-volt input (APL) connectors.

The Allen-Bradley 2094-BL02 module also features a connector set for the 2094-AL09 and 2094-BL 02 line interface modules that

This includes 24-volt brake input/output power (PSL), AC load (OPL), VAC line (IPL), and control power (CPL) connectors.

However, the I/O (26-pin) connectors for the 2094-BL02 and 2094-AL09 modules are not provided.

The 2094-BL02 line interface module has several requirements for proper installation.

It must be encapsulated in a grounded enclosure that provides protection in accordance with EN 60529 (IEC 529).

make the internal parts of the module inaccessible to unskilled operators, and meet CE and UL requirements.

The NEMA 4X enclosure meets or exceeds all of these requirements and provides an IP 66 rating.

Panels installed in the enclosure for mounting system components should be on a hard, flat, www.honeywell-diver.com vertical surface that is not subject to moisture, shock, or vibration.

This surface will not be subject to moisture, shock, oil mist, vibration, corrosive vapours or dust.

A-B 1394-SJT22-A GMC Standard System Module

DESCRIPTION

The Allen-Bradley 1394-SJT22-A is a GMC standard system module with a /-10VDC input.

The module requires an input voltage of 380/460 volts AC, three phase, an input frequency of 50/60 Hz, and a current of 28.6 amps.

It has an electrical output voltage of 530/680 V DC and a continuous power output of 17/22 kW with a peak power of 136 kW.

The continuous current output is 33.8 A and the peak current is 200.0 amps.

About the 1394-SJT22-A

The 1394-SJT22-A is a 1394 GMC Turbo system module that is part of the Allen-Bradley 1394 multi-axis motion control system.

The system module is primarily used for analogue servo systems www.honeywell-diver.com and provides digital servo drives with a /-10VDC interface.

The system module is mounted on the far left side of the 1394 assembly, which includes the axis modules, bus connectors, and termination resistors.

Each module is mounted via a slide-lock mechanism and fasteners that are precisely aligned with each other.

The system module uses RS232/422 communication and supports the DH485 communication protocol. It can optionally be fitted with Remote I/O communication (RIO) and AxisLink communication interfaces.

When installing this system module or any other product in a 1394 system, the ambient temperature of the mounting location must be no higher than 50.0 degrees Celsius and mounted on a flat, stable vertical surface.

The mounting panel must have minimal shock and vibration, and the environment must be free of moisture, oil, dust, and corrosive gases.

This system module is not equipped with an internal shunt resistor. An external shunt module must be installed.

Compatible shunt resistors include the 1394-SR9A, -SR9AF, -SR36A, or -SR36AF manufactured by Allen-Bradley.

The shunt module generates a significant amount of heat. Because hot air rises naturally, instruments or components that may be affected by hot air must not be mounted on top of the external shunt module.

The top clearance must be 254 mm (10.0 inches) and 155 mm (6.1 inches) on both sides, including the bottom area of the system module.

The 1394-SJT22-A module is an Allen-Bradley/Rockwell Automation GMC-Turbo system module.

The module features a 32-bit central processing unit. It also has a /-10 volt DC analogue input.

The module is powered by an AC power supply rated from 380 volts AC to 460 volts AC at 50 to 60 Hz.

The rated output power is 17 to 22 kW and the bus voltage is rated from 530 volts DC to 680 volts DC.

The 1394-DIM Drive Interface Module is recommended when interfacing the 1394-SJT22-A System Module with an external shaft drive.

The drive interface module acts as the interface between the 1394-SJT22-A module and the external shaft drive.

The Allen-Bradley 1394-SJT22-A module is part of the Allen-Bladley 1394 Modular Multi-Axis Motion Control and Drive System family.

Like other modules in this family, this module provides a direct line connection for three-phase input power, high-efficiency IGBT power conversion, and a slide-locked module-to-module connection system.

Depending on the system module used, the maximum number of axes that can be supported is 4. Axes can be connected to motors.

The Allen-Bradley 1394-SJT22-A module is fully programmable and supports configuration using Graphical Motion Control Language (GML).

In addition, the module supports standard communication options such as RS-232. RS-422. and DH-485 options.

By having the turbo option, the 1394-SJT22-a module executes programmes much faster than standard modules in the same series.

1394-SJT22-A Technical Description

The Allen-Bradley Servo Controller 1394-SJT22-A is a system with a 50-60 Hz, 10 kW power rating and 360-480 AC volt input voltage.

A-B 1785-L80B Enhanced PLC-5 Series Programmable Logic Controller

Description.

The 1785-L80B is an Allen-Bradley Enhanced PLC5 programmable logic controller (PLC).

The controller has 100.000 words of embedded user memory and is equipped with several communication interfaces.

Examples include four (4) DH/Remote I/O (adapters or scanners), one (1) configurable RS-232. -423. and RS-422A compatible serial port, and two (2) programming terminals.

It can accommodate up to 3072 arbitrary mixes or 3072 inputs and 3072 outputs in free mode!

About the 1785-L80B

The Programmable Controller 1785-L80B is the core component of every control system based on the Allen-Bradley PLC-5 Series.

The 1785-L80B connects local, expansion, and remote I/O modules on a variety of communication interfaces into a single control system.

There are four built-in ports on the 1785-L80B controller. The ports are labelled Channel 1A, Channel 1B, Channel 2A and Channel 2B.

All ports can be configured as remote I/O scanners, remote I/O adapters, and DH communication interfaces.

DH communications can be used both for remote programming and monitoring of the 1785-L80B and for creating peer-to-peer communication networks between various PLC-5 controllers.

The Remote I/O connection is used for real-time data exchange between www.honeywell-diver.com the controller and I/O, operator interface and other functions.

All four channels on the 1785-L80B can be used as either remote I/O scanners or remote I/O communications adapters.

The Remote I/O Scanner mode reads and writes I/O information between the controller and remote I/O devices.

In this mode, the 1785-L80B is the supervisory controller for other controllers and remote I/O adapter modules that are in adapter mode.

When any of the four channels 1A, 1B, 2A, or 2B are operating in Remote I/O Adapter mode, the controller monitors the local I/O where its controllers reside.

It also communicates with the supervisory controller via the remote link. On the 1785-L80B, Data Highway+ (DH) links are available on all four available channels.

DH communications can be used to transmit data to other PLC-5 controllers or other advanced components of the control system.The DH link can be programmed to multiple PLC-5 controllers.

On the front panel of the 1785-L80B controller is a 25-pin connector labelled channel 0. This is an optically isolated EIA RS232C port.

Channel 0 supports ASCII and DF1 full-duplex and half-duplex master-slave protocols. There is a green channel 0 communication indicator on the front panel.

Next to channel 0. there are two 8-pin mini-DIN connectors labelled channel 1A and channel 2A, and a DH programming terminal connection parallel to channels 1A and 2A.

There are four three-pin connectors used as communication ports. These three-pin connectors are used for channels 1A, 1B, 2A, and 2B.

All of these ports can be used as Remote I/O Scanners, Remote I/O Adapters, or DH communication ports.The maximum cable length of the DH link depends on the transmission rate.

It is critical that all devices on the DH link communicate at the same rate. This length increases from a maximum of 3048 metres at 57.6 kilobits per second to 762 metres at 230.4 kilobits per second.

The 1785-L80B has multiple indicators on the front panel for easy interaction. The indicators show various controller statuses. The indicator labelled BATT shows the status of the battery.

The indicator labelled PROC indicates the current controller mode, green when the controller is in RUN mode and red when there is a problem.

The Allen-Bradley 1785-L80B is a PLC-5 series programmable logic controller (PLC).

It is part of the Enhanced PLC 5 series, which features, among other things, 100.000 words of embedded memory.

capable of holding up to 3.072 I/Os in any combination or 3.072 inputs and 3.072 outputs when operated in complementary mode.

The 1785-L80B is designed with multiple communication interfaces that can be used to communicate with different automation devices simultaneously.

It has four (4) DH/Remote I/Os (adapters or scanners) labelled CH1A, CH1B; CH2A and CH2B;.

One (1) configurable serial port for RS-232 and RS-422A electrical standards supporting the DF1 protocol, and two (2) programming terminals.

The 1785-L80B is capable of communicating with up to 93 I/O chassis and up to 32 Remote I/O (RIO) racks.

Enhanced PLC 5 controllers, such as the 1785-L80B, are primarily used when the control system needs to communicate with a large number of remote I/O (RIO) devices and when connecting to a large number of Data Highway+ (DH) devices.

For installation, the 1785-L80B can be mounted in the 1771-A1B, 1771-A2B, 1771-A3B, 1717-A3B1. and 1771-A4B PLC5 chassis.

Power supplies supported by this processor include the 1770-P1. 1770-P45. 1770-P5. 1771-PE, 1771-P4S1. 1771-P6S1. 771-P4R, and 1771-P5R.

It is also used to configure I/O modules and expansion racks.

A-B 2094-BC07-M05 Integrated Axis Module Multi-axis Servo Drive Kinetix 6000

Description

The 2094-BC07-M05 is an n integrated axis module that is part of the Kinetix 6000 multi-axis drive.

The module is 400 V class with converter and inverter ratings of 45 kW and 49 a. The module has a power consumption of 71-226 watts. It does not have an integrated Safe Torque Off (STO) feature.

About 2094-BC07-M05

The 2094-BC07-M05 is a multi-axis servo drive that belongs to the Kinetix 6000 product category.

The drive has an input voltage range of 324-528 Vrms, 3-phase, a nominal power supply range of 360 VAC-480 VAC, and an input frequency of 47-63 Hz.

And the control power supply AC voltage is designed for 95-264 VACrms, 1 phase, with a nominal supply range of 110-240 VACrms.

It has a maximum input current of 71.0 (rms) amps and a maximum inrush current (0-pk) of 62.2 amps.

The module’s DC input voltage range (common bus follower) is 458-747 V DC, while the DC input current (common bus follower) is 67.7 A. The module has a maximum input current of 71.0 (rms) amps, while the maximum inrush current (0-pk) is 62.2 amps.

The servo drive has a continuous output power to the bus of 45 kW, while the www.honeywell-diver.com a-series drives have a peak output power of 90 kW.

The B, S and D series drives have a maximum output power of 135 kW and an efficiency of 97 per cent.

Similarly, the drives have a continuous output current to the bus of 67.7 amps and a peak output current to the bus of 135 amps.

Series A drives are 4 amps and Series B, C and D drives are 203.2 amps.

The bus voltage rating for this driver is 825 VDC with a bus undervoltage of 275 VDC. the internal circuits have a continuous power rating of 200 W and a peak power rating of 22.5 kW.

The appropriate internal circuit resistor has a resistance value of 28.75 . It is symmetrical with a converter inductance of 75H, an inverter capacitance of 1410F and a short-circuit current rating of 200.000 A (rms).

 

The servo drive’s power consumption is 71 watts (20%); 101 watts @ 40%; 137 watts @ 60%; 179 watts @ 80%, and 226 watts @ 100% utilisation.

The Allen-Bradley 2094-BC07-M05 is designed with integrated features to help users create servo drive systems that provide precise, smooth and efficient control of servo motors.

The Kinetix 6000 Series is typically connected to a Logix 5000 controller on the same industrial network to provide real-time control of Allen-Bradley MP Series servo drive motors that are moving multiple axes.

This IAM module can run fast control algorithms based on inputs from the encoder interface.Allen-Bradley 2094-BC07-M05 can be connected to an EtherNet/IP network.

There are several connectors on the top of the unit that can be used to make all the necessary connections to the unit. These connectors are used to control power supplies, DC buses, motors, and motor brakes.

A power-on indicator is located on the front of the IAM module. The node address selector is also located on the front of the unit.

The 2094-BC07-M05 has many safety features such as zero speed monitoring, safe stop, maximum speed, direction monitoring, door monitoring and safe maximum acceleration monitoring.

Its modular design shortens wiring procedure time, simplifies maintenance, reduces expenses, reduces spare parts inventory and helps adapt to technological advances.0 Hz.

A-B 6180P-15KSXP Industrial Computer with Integrated Display in Standard Package

Product Description

The Allen-Bradley 6180P-15KSXP display computer is part of the VersaView Plus series and features a keypad and a 15-inch display.

The display supports full colour graphics. The keypad includes alphanumeric keys and several function keys.The 6180P-15KSXP display computer can be panel mounted on a machine system.

About the 6180P-15KSXP

The Allen-Bradley 6180P-15KSXP is a VersaView Plus 1500P standard package integrated display industrial computer with keypad input.

The computer’s keyboard includes not only alphanumeric keys, but also 44 function keys.

It has a 15-inch screen with 256K colour active matrix thin-film transistor (TFT) type.

Its display area is 12 x 9 inches with an aspect ratio of 4:3. The screen has a native resolution of 1024 x 768. The response time is 20 ms.

The 6180P-15KSXP measures approximately 13.97 x 19.01 x 8.86 inches and weighs 38.8 pounds.

The computer is panel mountable only and is rated NEMA 1/4/12.IP66.

It comes with 2 GB of RAM and two DIMM dual-channel DDR II slots, each with up to 2 GB of RAM for a total of 4 GB.

In addition, the computer is equipped with Caps Lock, Power/Standby, NumLock, and HDD/ODD/FD activity status indicators.

The computer has several I/O ports available, namely 2 serial ports, 1 parallel port, 2 front USB ports, 4 USB ports and 1 DVI port.

The 6180P-15KSXP also has 2 full-length and 1 half-length PCI expansion slots (5V I/O, PCI 2.2) and 1 full-length ISA expansion slot.

There are also two RJ45 Ethernet LAN ports supporting 10/100/1000 Mbps.

Audio jacks include a line-in jack, a line-out jack, and a microphone jack.

In addition, the computer is fitted with a 3.5-inch SATA-interface 160 GB hard drive (hot-swappable), a floppy drive, and a slim DVD-RW disc drive.

For cooling, it comes with a processor cooler, www.honeywell-diver.com PSU fan and 2 chassis fans.

The 6180P-15KSXP has a 1/2 sinusoidal, 11 ms shock, specifically 15 grams of operating shock and 30 grams of non-operating shock.

Operating vibration is 1 gram (10-500 Hz) and non-operating vibration is 2 grams (both peak).

The AC input voltage is 90-264 volts AC auto-variable and the line frequency is 47-63 Hz.

The computer’s power consumption is 144 VA (1.4 A at 100 V rms and 0.6 A at 240 V rms), and its power dissipation is 144 W. The computer’s operating temperature range is 0.5°C to 0.5°C. The computer has an operating temperature of 0.5°C to 0.5°C.

The operating temperature range of the computer is 0-55 ËšC and the non-operating temperature is -20-60 ËšC.

The relative humidity of the 6180P-15KSXP is non-condensing for both operation and storage, in particular 20-85% for operation and 5-90% for storage.

There are 2 serial ports, 1 parallel port and 2 Ethernet ports for communication and 160 GB of memory.

6180P-15KSXP Technical Description

The VersaView Plus Series features a 15-inch colour display with keypad input and 90-264V AC power. Colour display, keypad input and 90-264V AC power.

 

A-B 1407-CGCM Combined generator control module

Installation requirements

This device is intended for overvoltage applications of category II in industrial environments of pollution class 2 (as defined in IEC publication 60664-1).

The device must be mounted vertically as it contains a heat sink. Any other mounting angle will reduce the heat dissipation capability of the device and may result in premature failure of critical components.

The device can be mounted anywhere as long as the ambient temperature does not exceed the rated ambient conditions or clearance requirements.

Clearance requirements for CGCM equipment are

– 63.5 mm (2.5 inches) of clearance is required on both sides of the unit when mounted.

– 101.6 mm (4 in.) clearance is required above and below the unit when mounted.

Electrical Connections

The connection of the CGCM device depends on the application and the excitation www.honeywell-diver.com programme. It is not possible to use all inputs or outputs in a given installation. Incorrect wiring may result in damage to the equipment.

Connect the terminals of the CGCM unit with copper wire rated at no less than 600V. General purpose wire rated for a minimum temperature of 105 °C (221 °F) may be used.

All wire must be copper. Select circuit wires according to good design practice.

The wire gauge ranges listed in the terminal block label instruction table indicate the physical capabilities of the connector.

Terminals for CGCM devices are located on the front, bottom, and right side panels of the device.

The nine-pin connector on the bottom of the unit is used for communication between CGCM devices in a redundant system. The recommended torque for the terminal screws is 1 N-m (9 lb-in).

Terminals that are used as shield wire landings are found on multiple terminal strips. Shielded terminals with the same name are connected together internally, but are not connected to a protective ground or any internal device circuit.

Excitation power supply

The excitation power supply is connected to the PMG terminals whether it is connected to the generator output (parallel excitation) or to the PMG.

The shunt excitation input is connected to the voltage transformer (VT).

The PMG inputs are located on TB1 and are labelled PMG A, PMG B and PMG C, indicating the respective phase relationship.

The single-phase excitation power supply must be connected to terminals PMG A and PMG C. The PMG inputs require twisted pair connections.

A twisted pair shielded cable is required for the PMG input.

See wiring diagram below.

Chassis Ground

The terminal marked CH GND on TB4 is the chassis ground terminal. There is also a grounding screw on the underside of the mounting flange that connects internally to the CH GND terminal.

Connect the chassis ground to the lower stud on either side of the unit with a minimum 2.6 mm2 (10 AWG) copper wire.

Connect the chassis ground to the lower stud on either side of the unit with a minimum 2.6 mm2 (10 AWG) copper wire and to the CH GND terminal with a 1.6 mm2 (14 AWG) copper wire.

When installed in a system with other CGCM devices, use a separate wire from each device to connect to the ground bus.

Analogue Inputs

The CGCM unit provides a number of analogue inputs for regulating and controlling independent or parallel generator systems. Each input is summarised below.

Generator Voltage Sense Input

The CGCM unit senses generator voltage through a voltage transformer (VT) mounted on the generator output leads.

The CGCM unit uses the voltage measured through the generator voltage sensing input for the generator voltage,

VAR and/or power factor regulation, kW and kVAR load sharing, synchronisation, metering and protection.

The input accepts signals with up to 40% total harmonic distortion (THD) and can be connected for single-phase and three-phase applications.

The generator voltage input is internally scaled by the CGCM unit according to its transformer configuration settings.

The generator voltage sense inputs are labelled V Gen A, V Gen B, V Gen C and V Gen N.

Bus Voltage Detect Inputs

The voltage measured via the bus voltage detection input is used to synchronise the generator with the bus.The CGCM device detects the bus voltage via VT.

Depending on the number of busbars and the type of synchronisation required, there are one or two sets of bus sensing transformers.

If dual bus synchronisation is required, the configuration of the sensing transformers is limited to single phase. In a single breaker system, the inputs are connected in either a single-phase or three-phase configuration.

The inputs can accept signals with up to 40% total harmonic distortion (THD). The bus voltage inputs are internally scaled by the CGCM unit according to its transformer configuration settings.

The busbar voltage detection inputs are labelled

A-B Line Synchronisation Module Bulletin 1402 LSM

Products

The Bulletin 1402 Line Synchronisation Module (LSM) is designed to meet the needs of manufacturers of three-phase AC generators and power generation systems,

system integrators and users, or for applications where two three-phase systems need to be synchronised with each other.

The module provides the means for automatic synchronisation, load sharing and high-speed power system monitoring.

The Line Synchronisation Module (LSM) is a two-slot 1771 form factor module that fits into a standard Allen-Bradley 1771 I/O chassis.

It has three functions:

1. measures appropriate parameters from two three-phase systems and provides control and error signals for synchronised control of the engine governor.

2. provide an analogue output representing the ratio of the power supplied by the alternator to the alternator output rating;

To read an analogue input representing the ratio of the total system load to the total system capacity;

and provide an error signal to adjust the alternator for proper load sharing based on instantaneous load requirements.

3. act as a multi-function digital power monitor for the system.

These functions provide data and control signals that are transmitted to the PLC-5 through the 1771 backplane.

Synchronisation and Load Sharing Errors

In order to synchronise two three-phase systems without high transient energy transfer, the voltages, frequencies and phase differences of the two systems must match.

Kilowatt load sharing can be achieved by matching the ratio of the power system load to the system capacity to the ratio of the actual alternator power to the alternator power rating.

The LSM provides the following information so that the customer’s system can achieve the necessary control operations.

– Voltage matching error (in units of 0.05%)

– Frequency matching error or slip (in 0.01 Hz)

– Synchronising bus and reference bus phase matching error (in 1 degree)

– Load sharing error (scalar between 0.000 and 1.000)

– Synchronisation status

– Frequency within limits

– Voltage within limits

– Phase within limits

– Synchronisation mode conflict fault

– Phase rotation mismatch fault (3-phase synchronisation mode only)

– No reference bus voltage fault

– No synchronised bus voltage present fault

– Reference bus overvoltage fault

– Synchronous bus overvoltage fault

Module Configuration

Before the LSM can perform its intended function, it must be configured by the user. www.honeywell-diver.com The module is configured by providing the required data via a module block transfer.

Block transfer data can be entered manually into the PLC-5 or by using the 6200 version 4.4 I/O configuration software.The 6200 software can also be used to monitor module operation.

Installation

The Bulletin 1402 Line Synchronisation Module (LSM) should be installed in a Bulletin 1771 I/O chassis.

The chassis should be located in a dry, dirt-free environment, away from heat sources and extremely high electric or magnetic fields.

The module operates in an ambient temperature of 0 to 60 degrees C. The LSM is typically mounted in a local rack to maximise data transfer rates.

The device is classified as an open device and must be mounted in an enclosure to provide security during operation.

The enclosure selected should protect the LSM from atmospheric contaminants such as oil, moisture, dust, corrosive vapours or other airborne hazardous substances.

A steel enclosure is recommended to protect against EMI (Electromagnetic Interference) and RFI (Radio Frequency Interference).

The enclosure should be mounted in a position that allows the door to open fully. This allows for easy access to the LSM and associated component wiring.

When selecting an enclosure size, allow additional space for associated application equipment such as transformers, fuses, disconnect switches, master relays, and terminal blocks.

The LSM mounts in two slots in the Bulletin 1771 series B I/O chassis.

Mounting dimensions vary depending on the size of the chassis selected.

The LSM backplane power requirement is 1.1A (5V DC).

For proper and reliable performance, grounding recommendations specified by the Allen-Bradley PLC system must be followed.

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