Category: GE

Benefits

Connects IC697 I/O modules to the I/O bus of IC600 programmable controllers

Rack-dependent I/O reference Supports up to eight racks per I/O system

Function

The I/O Interface Module to the IC600 Programmable Controller provides the interface between the IC600 I/O bus and the IC697 I/O module.

The I/O Interface Module is mounted on the IC697 chassis and has two 37-pin connectors identical to those on the IC600 I/O Receiver for interconnection to the IC600 I/O bus.

The IC600 PLC system can be configured to include IC600 I/O, IC697 I/O, and IC660 I/O. The IC600 and IC697 I/O racks can be included in one I/O chain.

Each IC697 I/O rack can be assigned 128 (five-slot rack) or 256 (nine-slot rack) I/O reference points.

Up to eight of these racks can be used in a system, providing up to 2000 addressable points.

Addressable points. Any point can be used for input or output.

A minimum of 8K registers are required in the IC600 www.cniacs.com PLC for the I/O interface module to operate.

Module Operation

The I/O Interface Module is an intelligent module that allows the IC697 I/O Rack to interface with the IC600 I/O Link Port.

In operation, the I/O Interface Module reads/writes data from each I/O module in the rack. It exchanges data with the IC600 CPU via the I/O bus.

An I/O chain can include up to eight IC697 I/O racks as well as other IC600 racks.

Each IC697 rack has nine or five slots, one for I/O interface modules and eight or four for I/O modules.

While the IC697 I/O modules themselves may have 16 or 32 points.

While the IC697 I/O modules themselves may have 16 or 32 points, each of the eight available I/O slots in the IC697 chassis is allocated 32 discrete points.

Therefore, a nine-slot rack filled with 32-point modules will have 256 points (128 points for a five-slot rack).

The maximum system capacity is 2000 points (896 points for a five-slot rack).

Table 1 shows the I/O mapping by rack and slot.

I/O interface modules must be plugged into slot 1 (next to the power supply slot), with slots 2 through 9 reserved for I/O modules.

Product Description.

The SR469-P5-HI-A20-E from GE Multilin is part of the SR 469 motor management relay circuit.

This unit is designed with a 5 amp phase CT secondary winding.The SR 469 relay is designed for use with medium voltage motors and provides integrated management and protection.

AX Control maintains an existing inventory of several different Multilin SR 469 relays.

The SR 469-P5-HI-A20-E provides 70-265 VAC, 90-300 VDC control power. The unit has an enhanced front panel.

The SR469-P5-HI-A20-E has a well-designed front panel that is easy to use. The panel includes an RS-232 programme port interface with a 9600 baud www.cniacs.com rate, programmable to 19200 baud rate.

The panel has a sealable pull-out handle to prevent any unauthorised removal. The front panel has a large 40 character LCD display.

This display allows the user to view diagnostic messages such as trips or alarms locally.

In addition, the panel features motor and output status indicators, device indicators, a numeric keypad, control and programming keys including reset, exit, and menu buttons, and value keys that allow the user to change setpoints.

Product Description.

The IS420ESWBH2A device is an unmanaged IONet/Industrial Ethernet switch designed by General Electric for use with Mark VIeS or Mark VIe safety control systems.

One of the key defining features of the differences between the five ESWB switches is the number of fibre optic ports on the switch; the

This switch has two 100Base-FX multimode fibre optic ports, regardless of the mode of LC connection the fibre optic ports have.

A special feature of the RJ45 www.cniacs.com connectors is that they can handle high stress and should be able to use up to 200 insertion/removal cycles.

Standard operation of the IS420ESWBH2A switch will centre on the ability to buffer multicast and broadcast packet streams.

There are multiple streams that will enter the switch and there is enough room to buffer one packet per port.

Note that multiple streams typically allow only one incoming stream to be buffered, and the remaining streams must be saved for later transmission.

Because of the need for high reliability when using the IS420ESWBH2A switch, several performance criteria should be considered during operation,

switch architecture, inrush current, and switch latency. The inrush current of the switch will provide a soft start, helping to limit the inrush current to less than two hundred per cent of the normal operating current.

The Industrial Ethernet Switch IS420ESWBH2A is part of the Mark VIe series designed by General Electric and features two 100Base-FX multimode ports.

The IS420ESWBH2A switch has an RJ45 connector that should have a maximum of 200 insertion/deletion cycles.

The IS420ESWBH2A has high-speed and feature-use capabilities, and to achieve these features, a 100 Mbps FX uplink port and 10/100 base copper ports with auto-negotiation are required.

The EX2100 Excitation Controller DS2020DACAG1. manufactured by General Electric, is a power module that

It is an AC to DC converter that is powered by 115 VAC. This model typically produces 125 VDC for the model it powers.

Product Description

The primary function of the DS2020DACAG1 www.cniacs.com is to convert alternating current (AC) power to direct current (DC) power on the DACA power module of the excitation controller.

When you use the DACA module, 115 volts alternating current (VAC) AC power is converted to 125 volts direct current (VDC) DC power.

If a larger power source is required to reliably operate the controller, two DACA modules can be connected to the exciter power distribution model.

The battery power supply and the DACA model will provide 125 VDC of redundant current to the EPDM.

The manual typically used to assist in the installation of this model is the GEH-6632 EX2100 User’s Guide, which outlines the operation of devices such as the DS2020DACAG1 model.

To power the controller, the power supply has a nominal voltage of 120 VAC and a maximum a RMS power supply of 10. As long as there is a DACA module connected to the controller you have chosen, this is the correct power supply for the controller.

The IS200ATBAG1B is an application input/output terminal block manufactured by GE Industrial Systems for use with Innovation Series drive assemblies.

Product Description.

The IS200ATBAG1B is a terminal block assembly manufactured for the GE Innovation Series.

Part of GE’s recent Innovation Series, this IS200ATBAG1B product includes a Windows 2000/XP based operator interface,

Ethernet and DCS communications and Cimplicity software. In particular, the IS200ATBAG1B has been modified by the inclusion of a single functional revision with a ‘B’ rating.

This board provides adequate backplane terminal block connections for all signals from the IS200CABP control plane assembly backplane board

Hardware Tips and Specifications

The overall functionality of the IS200ATBAG1B Application I/O Terminal Board consists of a variety of hardware specifications. The board provides a 60-bit terminal block for all J6 and J7 jumpers connected to the CABP board.

Before purchasing the IS200ATBAG1B www.cniacs.com it should be noted that there is no customisable hardware or manually removable jumpers for this product.

While this is still true, two different versions of this IS200ATBAG1B model exist; due to different pin assignments for connector J6

as well as a different connector J7 and a different pin assignment for the corresponding connector. The J7 connector for this IS200ATBAG1B model is rated at 50V and has a maximum value of 1A.

All J6 connectors associated with this IS200ATBAG1B board are rated at 225 V and 1 a maximum current, except for the following identifiable connectors:

CONA_NO J6 connector

CONA_NC J6 connector

CONA_C J6 connector

RLY1COM connector

RLY1NC connector

RLY1NO connector

RLY2COM connector

RLY2NC Connector

RLY2NO Connector

RLY3COM Connector

RLY3NC Connector

and RLY3NO connectors

In addition to the various connectors compatible with the I/O terminal boards for this application, a specialised breakdown of the individual part numbers for this product

can reveal a lot of pertinent information about the IS200ATBAG1B hardware. Firstly, the IS200ATBAG1B begins with the ‘IS200’ series label.

This label designates the product as a General Electric product manufactured at the Salem, Virginia plant.

This ‘IS200’ designation is followed by the familiar ‘ATBA’ functional acronym, which leads to the IS200ATBAG1B group number and PCB coating type.

The ‘G1’ version of this IS200ATBAG1B product designates it as a Group 1 series product with a common PCB coating.

The total delamination coverage of the normal PCB coating is not as comprehensive as popular alternative conformal PCB coatings, but results in a thicker overall substrate protection layer.

The final noteworthy detail gleaned from the IS200ATBAG1B part number is its single-function version.

The ‘B’ digit in the IS200ATBAG1B, located at the end of the part number, indicates a single-function revision of this terminal block with a ‘B’ rating.

Product Description.

The IC200MDL740 is an output module from the VersaMax series manufactured by General Electric Intelligent Platform Control System Solutions.

The module has a total set of 16 output points, each supporting discrete digital signals.

The output points of this device can be either positive logic or source types. Each output point performs load switching and supplies power to the load.

This product is compatible with the IC200CHS series of plug-in relay bases.

This device requires an auxiliary power supply to support output load switching. The five-volt output power supply must not draw more than 45 mA.

This module operates from 10.2 to 30 volts direct current (DC). Although the unit is nominal at 24 volts DC, it can also operate at 12 volts DC;.

However, operation at 12 volts DC requires an upgrade to the IC200MDL740B or higher.

Each output has a current of 0.5 amps and a response time of 0.2 milliseconds for the ‘on’ state and 1.0 milliseconds for the ‘off’ state.

Interchannel isolation is not supported, nor are any protection mechanisms such as internal fuses.

Output voltage drop peaks at 0.3 volts and output leakage is up to 0.5 mA when operating at 30 volts DC. LEDs indicate device status.

These LEDs require field power to operate but are not affected by output load conditions.

This Model IC200MDL740 also supports thermal derating when operating at 24 or 30 volts DC.

The IC200MDL740 discrete output module is a 12/24 volt DC Versamax positive logic output module manufactured by GE Fanuc.

It has 16 discrete outputs, 10.2 to 30 www.cniacs.com volts DC, 12/24 volts DC nominal external supply voltage, and 45 milliamps of backplane current consumption.

The IC200MDL740 Discrete Output Module is a GE Fanuc 12/24 Volt DC Versamax positive logic output module with 1 set of 16 source type outputs.

It has rack-mounting options and a compact design with a hot-plug facility that helps users to easily replace it without changing the field wiring.

The IC200MDL740 Discrete Output Module has LEDs to indicate the status of each output point.

Three types of carriers are available for easy installation or replacement of output modules in the system without interrupting operation.

It has configurable filtering times, a maximum turn-on response time of 0.2 ms, and a maximum turn-off response time of 1.0 ms.

It also provides external power to the load side and operates with backplane power.

The IS200AEPCH1A is a circuit board assembly designed for installation and use as a replacement part for the GE Speedtonic Mark V system.

The MKV contains timing, systems and controls created to ensure reliable and safe operation of turbines in the steam, hydro and gas industries.

The IS200AEPCH1A is a rectangular card that, unlike many Mak V boards, does not have an attachment panel. 

The board is designed with factory made www.cniacs.com drilled holes located at each board corner for mounting. 

Each of these components is surrounded with conductive material. 

Several other factory drilled holes are located in the body of the board and around the edges of the IS200AEPCH1A.

The S200AEPCH1A typically has an auxiliary or daughter board mounted on a surface near the centre of the main board.

 The two boards fit together using brackets and screw mounts, 

and this auxiliary board houses the FPGA and other integrated circuits, female connector pins, diodes, resistors and capacitors. 

The auxiliary board is labelled with codes such as FA/00 and DCOM.

The IS200AEPCH1A is marked with multiple codes on its face. 

Components are usually labelled with a reference name. 

Components include terminal blocks, jack connectors, integrated circuits, and three fuses.

The following brief overview of principal features illustrates the flexibility and performance that is available with the VMIVME-3122:

 • 16, 32 or 64 differential or single-ended analog inputs

 •16-bit A/D conversion

 • 381 Hz to 100 kHz selectable scanning rate for www.cniacs.com high-performance option, 381 Hz to 50 kHz for standard performance option

 • Programmable gains of x1 or x10Features of the VMIVME-3122 (Continued):

 • A/D converter ranges of ±2.5 V, ±5 V, ±10 V, 0 to +5 V, 0 to +10 V

 • Programmable channel gains

 • 16- to 1,024-word dual port data buffer

 • Operation in short I/O (A16), standard (A24), or extended (A32) data space

 • Programmable channel block size and buffer size

 • Optional low pass input filters

 • Continuous and  burst operating modes

 • Free running operation or external/internal triggering

 • Bus interrupter for Midscan or Endscan indication

 • Programmable interval timer for timed data bursts

 • Direct cabling from VMIC signal conditioning boards

 • Initializes after a reset in autoscan mode with gain = x1

Functional Description

The VMIVME-3122  is a high-resolution, 16-bit, 64-channel Analog Scanning and Digitizing Input board for VMEbus system applications. 

Dual-ported data memory, on-board timers, automatically controlled gain and a programmable bus interrupter enable the VMIVME-3122 to support extensive analog 

input traffic, with minimum involvement of the host processor.

Analog inputs are scanned and digitized sequentially. The digital values are stored in a dual port data buffer which can be accessed at any time from the VMEbus. The gain of each channel can be programmed individually, or can be set in software for a fixed gain that is common to all channels. Channel gain is software selectable as x1 or x10. 

A/D converter voltage ranges are jumper-selectable for ±2.5 V, ±5 V, ±10 V, 0 to 5 V and 0 to 10 V.

When a system or program reset occurs, the board initializes in the 64-channel autoscanning mode at a rate of 100 KHz and all channel gains are initialized to unity 

(x1). After a reset operation, the program can select the timed burst or triggered burst 

modes, and can modify the block size, buffer size, and channel gains as necessary. 

The channel block is adjustable as 1, 8, 16, 32 or 64 channels, and the data buffer size can be selected from 16 to 1,024 data words in binary increments.

When in standard performance mode, the board must be reprogrammed after reset for the 50 kHz scanning rate. A value of $00F7 must be written to relative address $0006.

Timed data bursts are controlled by an interval timer which can provide repetitive or single-shot burst intervals of up to 687 sec. A burst can consist of from 8 to 1,024-channel samples. A data ready flag is available at the middle or end of a scan, and an interrupt request can be generated simultaneously with the flag. The interrupt can also be initiated after a specific number of samples have been acquired. 

About the IC200CPU001

The IC200CPU001 is Emerson Automation’s VersaMax series of compact controllers, formerly known as the GE Intelligent Platform (GE IP).

It is a DIN-rail or panel-mounted central processing unit (CPU) module capable of handling up to 2048 discrete inputs

2048 discrete outputs and 34 KB of memory that can be allocated to user programs, analogue input and analogue output data, and internal registers.

The CPU is also equipped with 1024 points of discrete internal bits, 256 points of discrete temporary bits and 1280 points of global discrete bits.

The IC200CPU001 has a typical Boolean www.cniacs.com execution speed of 1.8 ms / K. It supports floating-point mathematical calculations and data processing, override functions

and is equipped with a battery-backed real-time clock (RTC) with an accuracy of 100 ppm (0.01%) or +/- 9 seconds/day.

for internal timer and counter commands, 23 ppm (.0023%) or +/- 2 sec/day @ 30C; and

100 ppm ((0.01%) or +/- 9 sec/day @ full temperature range for logic scheduling or scheduling-based logic sequences.

The available integrated communication ports for the IC200CPU001 are one (1) RS232 and one (1) RS485 communication interface.

These interfaces support a variety of industrial communication protocols such as SNP slaves, RTU slaves, and serial I/O and can be used to implement distributed I/O architectures,

Human Machine Interface (HMI), Supervisory Control and Data Acquisition (SCADA) systems, and other applicable and compatible partner devices.

These CPU modules are configured using CIMPLICITY Machine Edition Logic Developer, VersaPro or Control Programmer.

The IC200CPU001 CPU is a user-configurable CPU manufactured by GE Fanuc with 2 serial ports and 34 KB of configurable memory.

The CPU uses non-volatile memory to store programs. It supports programming in ladder diagrams and instruction lists.

It has 1024 points for discrete internal bits and 256 points for temporary bits.The global discrete bits of the CPU consist of 1280 points.

The Boolean execution speed of the CPU is 1.8 ms/K. The IC200CPU001 CPU supports floating point and overclocking.

The CPU is equipped with built-in RS-232 and RS-485 ports. For internal communication, the CPU uses SNP slave and serial I/O protocols.

The CPU’s memory is battery-backed and it has a real-time clock. The clock adds time stamps to critical time events during operation.

The real-time clock accuracy is 100 ppm over the entire temperature range.

The GE Fanuc Versamax IC200CPU001 CPU can be easily mounted using a DIN rail with power supply.

About the IC200ALG230

The IC200ALG230 is an analogue input module from the Versamax modular I/O and control platform.

It is a compact analogue input module with four (4) individually configurable analogue input channels for voltage or current.

The module supports the interfacing of analogue signals, in particular unipolar 0 to 10VDC and bipolar +/-10 VDC voltage signals, as well as 4-20 mA current signals.

The IC200ALG230 is equipped with www.cniacs.com two (2) status LEDs for local reporting of the module’s operational status.

Specifically, the INT Power LED indicates that internally generated field power is being supplied and the OK LED indicates that backplane power is actively supplied to the module.

The analogue input module has two (2) jumpers for setting the module’s mode of operation, either voltage or current and unipolarity for bipolar data.

The IC200ALG230 has a built-in analogue-to-digital converter with a resolution of 4?A = 8 counts (configured for current operation) and 2.5 mV = 8 counts (for voltage configuration).

The module has a typical response time of 0.4 ms and a filter response of 5.0 ms.

The module’s input data can be configured to hold to a *later state or to go to a defined value if a module error is detected.

The IC200ALG230 can be fitted with an auxiliary I/O terminal for signal wiring.

The terminal part number is IC200TBM001. 002 or 005.

Additionally, the terminal I/O bracket is available with catalogue number IC200CHS001. 002 or 005.

In addition, the terminal I/O bays can be used with compact terminal I/O bays catalogue number IC200CHS001. 002. or 005. catalogue number IC200CHS022. 025. and connector I/O bays part number IC200CHS003.

The GE Fanuc IC200ALG230 module is part of the Versamax product line.

It is an analogue input module compatible with 4 current inputs or 4 voltage inputs.

The IC200ALG230 analogue input module does not require an external power supply because it draws power from the power supply on the Versamax PLC backplane.

It is designed to interface with a Versamax PLC or Programmable Logic Controller system in a commercial or industrial environment.

All 4 of its inputs are single-ended and they are arranged in groups of 1. The IC200ALG230 Analogue Input Module draws 5 mA of backplane current at 125 V output voltage.

By default, its input voltage is +/- 10 volts DC bipolar, but it can be configured to have 0 to 10 volts unipolar.

Configuration of the GE Fanuc Versamax IC200ALG230 Analogue Input Module can be accomplished using 2 jumpers on the carrier terminals.