Category: GE

Description: The GE Fanuc IC698CHS109 rack is an I/O rack for the Rx7i PACsystem.

This 8-slot I/O rack is software configurable and supports all Rx7i CPU and I/O configurations for VME64 backplane systems,

90-70 series I/O devices and VME modules.

The GE Fanuc IC698CHS109 Rx7i Rack is a front-mounted I/O rack designed for the Rx7i PACsystem family.

The Rx7i PACsystem chassis uses the VME64 base system, which is four times faster than existing VME systems, providing faster I/O throughput.

It supports RX9i CPUs and VME modules (including 90-70 series I/O) as well as VMIC modules.

The IC698CHS109 Rack features automatic daisy-chained interrupt profiles and Bus Grant (BG) signals, eliminating the need for slot jumpers.

The IC698CHS109 Rack also features a backplane connector (J2 connector) that provides high-speed VME data transfer of up to 64 bits per cycle.

It also accepts plug-in Rx7i power supplies. The rack’s I/O addressing is software configurable through the Machine Edition Logic Developer-PLC software.

No DIP switches or jumpers are required www.cniacs.com on the connected I/O modules.

The GE Fanuc IC698CHS109 rack requires 350 watts of power to operate. It is rated for 60 watts of current at 5 volts DC and 12 volts DC, respectively.

The IC698CHS109 chassis has nine I/O slots (labelled 1 through 9) for mounting CPUs, I/O modules, and other devices.

The IC698CHS109 chassis has nine I/O slots (labelled 1 through 9) for the CPU, I/O modules, and power supply modules.

I/O slots 1 through 8 all have a slot width of 20.3 mm, slot 9 has a slot width of 40.5 mm, and the power supply module slot (also referred to as slot 0) has a slot width of 61 mm.

The I/O modules in the IC698CHS109 chassis can be arranged in a configuration of seven single-wide modules, four double-wide modules, or a mix of single and double-wide modules.

The IC698CHS109 chassis supports IP 54 or higher rated mounting enclosures with an operating temperature range of 0 to 60 degrees Celsius.

Description: The GE Fanuc IC693BEM320 I/O Link Module is a serial interface device.

It can connect up to 64 I/O points in a GE Fanuc 90-30 or 90-70 series programmable logic controller (PLC).

It has 2 serial ports and supports RS-485 and RS-422 connections.

GE Fanuc designs and manufactures a solid-state serial interface module called the IC693BEM320 Solid-State Serial I/O Interface Module.

The module is used to interconnect the proprietary GE Fanuc I/O Link networking protocol to a Series 90-30 or Series 90-70 Programmable Logic Controller (PLC).

The module can be configured to transfer 32 or 64 I/O points to GE Fanuc I/O Link.

The GE Fanuc IC693BEM320 I/O module can be configured to transfer 32 or 64 I/O points to GE Fanuc I/O Link, but only as a slave module, not as a master module.

Simply set the jumpers located inside the front cover to the correct mode, depending on the user’s application.

The module has two serial communication ports, one for RS-485 serial protocol and the other for RS-422 serial protocol.

The GE Fanuc IC693BEM320 I/O Interface Module should always be operated within a temperature range of 0 to 60 degrees Celsius (32 to 140 degrees Fahrenheit).

Humidity range is 5 to 95% (non-condensing). If more extreme environmental conditions are expected, it is

It is strongly recommended that a climate control system be used on the panel where the GE Fanuc PLC and modules are installed.

Module installation should be done by www.cniacs.com a qualified technician by sliding the GE Fanuc IC693BEM320 I/O Interface Module into the

Slide the GE Fanuc IC693BEM320 I/O Interface Module into any available slot on the 90-30 or 90-70 series PLC backplane. There are two status LEDs on the front of the module.

One indicates if the module is properly powered on and the other indicates if the module is functioning properly.

Up to 16 GE Fanuc IC693BEM320 I/O Interface Modules can be set up as slaves to the master PLC.

The IC695CPK400 is equipped with one (1) 10/100/1000 Ethernet port and two (2) dual-port switches supporting 10/100/1000 Mbps transfer speeds. The embedded Ethernet ports enable different network topologies, including Media Redundancy (MRP) and PROFINET System Redundancy (PNSR). The embedded ports support different communication protocols such as SRTP client/server, Modbus TCP/IP, OPC-UA server, Ethernet Global Data (EGD) and PROFINET.

In addition, the controller is equipped with one (1) RS232 communication port and one (1) Micro SD port for insertion of a Secure Digital (SD) card as non-volatile removal memory. It is also equipped with two (2) USB 3.0 ports for firmware upgrades.

The IC695CPK400 also supports simplex and redundant configurations to meet the requirements of both standard and high availability systems. It supports incremental frame rates up to 3 minutes in any configuration.

The IC695CPK400 CPU is shipped with a power pack, and www.cniacs.com the CPU module is available in a standalone form factor. The module has 64 MB of available memory and supports I/O including 32K bit discrete inputs, 32K bit discrete outputs, 32K word analogue inputs, and 32K word analogue outputs.

The IC695CPK400 CPU supports embedded field agents.Redundancy options for the CPU module include media redundancy (MRP) and Profinet system redundancy (PNSR). The module has an integrated Ethernet port that supports 10/100/1000 Mbps, and a dual-port switch capable of operating at 10/100/1000 Mbps is also available. The Ethernet port supports communication protocols such as EGD, Profinet, Modbus TCP/IP, SRTP client/server, and OPC-UA server.There are also two version 3.0 USB ports on the IC695CPK400 CPU. Supported storage options include a Micro SD option.An RS-232 serial interface is also available on the IC695CPK400 CPU.The programming and configuration software for the IC695CPK400 CPU is the Proficy Machine Edition software, which allows for efficient application development.Recommended operating temperature range of the IC695CPK400 CPU is -40 to 70 degrees Celsius. The recommended operating temperature range for the IC695CPK400 CPU is -40 to 70 degrees Celsius.

Product Description

The GE Fanuc IC670CHS003 I/O Terminal Block with wire-to-board connectors is an assembly that

used to terminate application wiring into a 20-pin male connector for easy connection and disconnection of modules.

It is compatible with hot-swap operation and can accommodate up to 20 different wires, with each wire assigned a use pin based on the module selected for a particular application.

GE Fanuc designed and manufactured the IC670CHS003 terminal block in the Field Control family to accommodate user needs and different wiring preferences.

Designed for easy installation and wiring to the board interface, the IC670CHS003 I/O Terminal Block has wire-to-board connectors.

As the name implies, the terminal block is connected to the inputs via wires (typically AWB 16-20 gauge wire).

The terminals are then connected to GE Fanuc connectors for quick insertion or removal of I/O modules.

The GE Fanuc IC670CHS003 I/O terminal block with wire-to-board connectors can accommodate up to 20 individual connections or pins to a male connector assembly.

The female connector that mates with the IC670CHS003 I/O Terminal Board’s male connector is part number 178289-8.

Each pin of the terminal block will have a different function depending on the end user application.

The user manual for the GE Fanuc IC670CHS003 I/O Terminal Block will guide the user in connecting the different GE Fanuc modules to the terminal block.

It is the user’s responsibility to provide www.cniacs.com the installer with the proper crimping tools to properly complete the cable connections in the terminal board.

Only trained personnel with extensive electrical experience should make connections to the GE Fanuc IC670CHS003 I/O terminal board,

disconnect, troubleshoot, and perform maintenance work. Due to the low environmental protection rating (IP 20) of this terminal block and its wiring, it is strongly recommended that the terminal block be placed inside a protective panel board.

Product Description

The IC660BBA100 analogue input/output module is a 115 volt AC from GE Fanuc,

4-input and 2-output analogue block from GE Fanuc. It has a 12-bit resolution, 4 ms update time, and 7 watts of thermal power dissipation. It weighs 4 lbs.

The IC660BBA100 analogue input/output module is part of the GE Fanuc 90-30 series of input/output modules.

It has 4 input circuits and 2 output circuits.

This analogue I/O module with nominal voltage and current offers 5 analogue power ranges: 0 to 10 volts DC,

+/-10 volts dc, +/-5 volts dc, 0 to 5 volts dc, and 4 to 20 mA.

The IC660BBA100 analogue www.cniacs.com input/output block also provides an optional input filter time of up to 1024 milliseconds.

Each output can be left in its final state or at its default value if the communication process is interrupted.

It is backward compatible with its earlier versions, as well as with the GE family of IC697. IC600. and IC550 PLCs.

Replacing the module’s electronics eliminates the need to change the module’s field wiring and configuration.

The IC660BBA100 analogue input/output module has a 12-bit analogue-to-digital converter that converts the input signal current or voltage to a digital value.

The converted signal can be scaled to an integer for representation in engineering units.

The output circuitry is connected to a 12-bit digital-to-analogue converter, which converts the processed value to a voltage or current output signal.

The IC660BBA100 analogue I/O block also automatically calibrates the 2 converters to ensure accurate performance.

It transmits 8 bytes of input data and 4 bytes of output data during each bus scan.

The user can monitor the input and output values in integer form via a handheld monitor.

Connect AC power to terminals 6 and 7 to supply power to the module.

Be sure to connect a 250 volt, 1/8 amp fuse in series with the power connector.

The 2 LED status indicators on the panel show the status of the module.

The allowable voltage range is 0-125 VDC and 0-265 VAC.

The IC200MDD845 has a maximum backplane current consumption of 270 mA, with individual LED status indicators for each input and output channel.

Each input and output channel has a separate LED status indicator that allows local monitoring of the startup and power-up status of each channel of the module.

There is also an OK LED on the module to indicate that backplane power is being continuously supplied to the IC200MDD845.

The IC200MDD845 input channels have an on-state current of 2.0-5.5 mA and an off-state current of 0-0.5 mA.

Conversely, the output load current is 10 mA per point minimum; 2.0 Amperes maximum at 5-265 VAC, 2.0 Amperes maximum at 5-30 VDC, and 2.0 Amperes maximum at 5-30 VDC.

2.0 Amperes at 5-30 VDC, and 0.2 Amperes at 31-125 VDC, all with resistive loads.

Typical response times for the input and output www.cniacs.com channels are 0.5 milliseconds for on signal transitions and 10 milliseconds for off signal transitions, respectively.

The GE Fanuc IC200MDD845 hybrid module is a GE Fanuc product that is part of the VersaMax family.

The module supports discrete inputs and outputs, providing two sets of eight inputs each and another set of eight outputs for a total of 24 points.

The IC200MDD845 module has A-type relay outputs that are individually isolated.

The GE Fanuc IC200MDD845 module requires an IC200CHS series carrier base. It supports interchannel isolation of output points only.

It does not support buffers, internal fuses, or any other protection system. There are multiple LEDs to indicate the status of the device.

The IC200MDD845 hybrid module is powered from the backplane, but a second power supply is required for any additional loads.

The total amount of power the module draws from the backplane power supply depends on the number of active I/O points, with a maximum total current draw of 270 mA.

The total number of I/O points that can be active at the same time depends on a number of factors. the IC200MDD845 Hybrid Module has an input point voltage of 24 volts DC and an output voltage range of 0 to 125 volts.

The IC200MDD845 hybrid module has an input point voltage of 24 volts DC and an output voltage range of 0 to 125 volts DC and 0 to 265 volts AC at 47 to 63 Hz. 1.

Benefits

Designed by experienced process engineers and dedicated to process applications, the 8000 I/O is simple to use-saving money and delivering value:

Lowest Cost Field Installation

The 8000 I/O replaces terminal blocks in the field junction box; sensors and actuators connect directly to the IO terminal blocks.

Single or redundant twisted-pair or fiber-optic cables replace multi-core cables in the control room, significantly reducing installation costs.

Cost savings can only be realized with field installations provided by the stable 8000 I/O.

Expandable

The 8000 I/O is perfectly suited for any operation with www.cniacs.com more than 8 I/O points. It is compatible with all controllers, from PLCs and PC-based systems to large DCS devices.

Low Cost of Ownership

– Hot-swappable, no downtime

– Automatic addressing – I/O can be removed and replaced without reprogramming

– Field wiring for direct I/O connection Field wiring terminals – no need for external wiring terminals

Field Installation of I/O

Today, engineers can install I/O anywhere in the field, saving money without sacrificing reliability.

The use of field-mounted I/O and open networks significantly reduces wiring costs while allowing access to needed diagnostic data.

The 8000 I/O System solves all practical problems so you can install the I/O bus on your equipment.

What is the 8000 I/O System?

The 8000 I/O System is a field installable I/O system that replaces the field junction box. It allows a group of any type of field device to be connected to a single network node.

These I/O nodes can then be connected together to create a fast, powerful and open I/O system.

8000-2/x Series Overview

The 8000 I/O is a modular I/O solution for general purpose and hazardous area applications. Based on a base plate system that provides support for a large number of modules, it offers a variety of I/O functions, including AC power and even intrinsically safe signaling within the same node. It has an “open” architecture and communicates with different fieldbuses by selecting the appropriate Bus Interface Module (BIM).

I/O modules

I/O modules provide data transfer between field devices. The input modules receive signals from transmitters and sensors and convert them into digital commands for the BIM. Output modules receive commands from the bus interface module and transmit them to the actuator. A wide range of modules are available, including module types for low-level instrumentation, AC power supplies, and intrinsically safe signals. i/o modules typically have 4. 8. or 16 field channels.

Field Terminals

Field terminals provide the connection between the I/O module and field wiring. They include optional fuses and circuit breakers. Mechanical keying systems prevent misconnection of I/O modules by the type of field terminals. Field terminals are mounted on the module base plate, one for each I/O module. These terminals are securely clamped to the I/O module and form a highly integrated electrical and mechanical assembly. Field terminals can be replaced during operation without removing the base plate and without interfering with the operation of other modules.

Base Plate

Mounted on flat or T or G DIN rails, base plates form the physical and electrical backbone of the 8000. supporting and connecting bus interface modules, power supplies, I/O modules, and field terminals, and supporting the internal Railbus address, data, and power lines. They provide terminals for LAN and field wiring shielded cables and can distribute bus field power to I/O modules. The I/O module backplane can support 4 or 8 I/O modules.

Power Supplies

Good power management is at the heart of a www.cniacs.com truly distributed I/O system. 8000 power supplies receive local unregulated power and then provide regulated power to the bus interface modules and I/O modules. Power redundancy is supported.

Bus Interface Module (BIM)

The BIM provides a serial data connection to a host controller, which can be a distributed control system (DCS), a programmable logic controller (PLC), or a PC running a software control package. with the BIM, you can adapt to the most common fieldbus protocols. At the same time, the BIM uses a fast internal bus for data transfer to I/O modules. You can control up to 32 I/O modules with just one BIM per node.

OVERVIEW

All I/O modules are connected to the high-speed Bus Interface Module (BIM) via a proprietary bus system called “Railbus”.

Up to 32 modules can be connected to one BIM. The module backplane provides the transmission medium for the Railbus.

At the same time, the modules can be connected to the bus by plugging them into the base plate. The connectors on the base plate also provide the power www.cniacs.com supply for the modules and, if necessary, for the field wiring.

Addressing of I/O modules

Modules are addressed by the bus interface module according to their location or slot and by combinations of 32 modules rather than individual module types.

Modules can therefore be removed and replaced by another module of the same type without “informing” the Bus Interface Module.

During the configuration process, the Bus Interface Module is informed of the location characteristics of each required module, regardless of whether the module is present at the time.

Therefore, if a module is replaced, the attributes of that “slot” remain with the bus interface module.

Critical modes

Output fail-safe mode

The output module can enter a fail-safe state. The module will enter this state if either of the following two reasons occur.

(1) The BIM forces the module into a fail-safe state by issuing a special command.

(2) The module has a configurable “timeout” parameter. This allows you to specify a maximum amount of time that communication with the BIM will cease.

Once this time is exceeded, the module will go to a fail-safe state. Different types of modules respond to fail-safe commands in their own ways, which are described separately in the following sections.

Input Fault Value

If a fault occurs in the input module, the BIM forces the reported value into a predefined state – Low, High or Hold Last.

This ensures that the host computer adopts a state consistent with the safe operation of the unit.

Power-up/Initialization Status

Knowing the state of each output when the node is powered up is critical to ensuring the safety of the device.

While the BIM is initializing, the I/O modules remain powered up (see next page for details). After the BIM is initialized, and before communicating with the host computer, the outputs are set to the predefined “outputs”.

The outputs are set to a predefined “initialized” state. This “safe state” can be defined by the user.

Product Description The IC200MDL643 Discrete Input Module is a 5/12 Vdc Versamax positive/negative logic input module from GE Fanuc.

It has 2 sets of 16 inputs with 0 to 15 volts DC and an input impedance of 2.4 kilohms.

The IC200MDL643 Discrete Input Module is a GE Fanuc Versamax 24 Vdc rated positive/negative logic input module with 16 inputs in 2 groups.

The inputs support both positive and negative logic. Positive logic inputs send current to the common and negative logic inputs do the opposite, receiving current from the common.

Inputs with negative logic configurations are compatible with TTL devices. The backplane provides all power for module operation.

The IC200MDL643 discrete input module provides 16-bit discrete input data. The device has a typical input impedance of 2.4K ohms at 12 volts DC.

The IC200MDL643 discrete input module has a minimum on-state current of 1.45 mA and a minimum off-state current of 0 to 0.7 mA.

On and off response times are up to 0.25 ms. It also provides three configurable input filtering times to compensate for the 0.25 ms, 0.5 ms, and 0.5 ms on/off response times.

It also provides three configurable input filtering times to compensate for noise spikes and switching jumps of 0.25 ms, 1.25 ms, and 7.25 ms. Two input groups have a common connection point.

One group can be wired for positive or negative logic. If the system requires additional bus terminals.

A shorting bar with 2 amps of current-carrying capability is also available for use with the B-terminal.

The IC200MDL643 discrete input module has an input voltage of 0 to 15 volts DC and a user input current of 1.8 milliamps at 5 volts DC and 4 milliamps at 12 volts DC.

The user input current is 1.8 mA at 5 volts DC and 4.9 mA at 12 volts DC. It has no thermal derating and no external power supply.

During installation, make sure that hot plugging and unplugging is done correctly to avoid backplane interruptions.