Call us 24/7+86 15396212224
Welcome to the official website of Kong&Jiang Automation Equipment Co., Ltd!
email:abbdrive88@gmail.com

IBA ibaLink-SM-128V-i-2o VMEbus Interface Card

Introduction

The ibaLink-SM-128V-i-2o VMEbus Interface Card is a multi-purpose, bi-directional interface card designed for use in VMEbus-compatible PLCs and computer systems.

It can be used for both data acquisition and process monitoring as well as for control system applications such as the ibaLogic SoftPLC.

In the following, the board will be named SM128V to simplify the description.

Key features of the SM128V include :

 1 bi-directional fiber optic link with 64A+64D inputs/outputs per link (channel 1)

 1 unidirectional fiber optic link with 64A+64D outputs per link (channel 2)

 Synchronized transmission of all channels on both links at a rate of 1ms

 Address switch for cascading up to 8 SM128V interface cards on a link

Channel 1

 Compatible interface for ibaFOB-io, ibaFOB -4i (-S), ibaFOB-4o

 Compatible process i/o interface for ibaPADU-8-IO series and ibaNet750-BM series

 5 V power supply from VMEbus

The SM128V is available for VME32 and VME64 systems. The card requires a 5 V power supply.

The following non-privileged modes of VME access are possible:

 A24 and A32 in the following VMEbus data formats

 D08 (E0)

 D16

 D32

 A40 MD32 (on special request)

The BLT and MBLT modes as well as the auto-configuration and geo-addressing www.abb-drive.com functions are being prepared, but are not available at this time.

The 2eVME mode has not yet been implemented. Access is only allowed in unprivileged data access mode.

The SM128V is a passive board on the VMEbus, i.e., it will not be actively accessed or interacted with on the VMEbus.

The board uses 256 kbytes of address space on the VMEbus.

Relevant specifications (VITA standards):

 VMEbus

 IEEE 1014-1987

 VME64

 ANSI VITA 1-1994 VME64X; VITA 1.1-19

Remarks Since an analog channel always corresponds to a digital channel in the iba bus concept, an analog value and a digital value are referred to as a channel or a signal for simplicity of description.

Scope of delivery

The goods are checked for completeness and integrity after unpacking.

The scope of delivery includes

 Device ibaLink-SM-128V-i-2o

 Manual

Safety instructions

Specified use

The device is an electrical device. It can only be used for the following applications:

 Automation of industrial systems

 Measurement data logging and analysis

 Application of ibaSoftware products (ibaPDA, ibaLogic, etc.)

The device may only be used for the applications shown in chapter 11. Technical data.

Device description

Connectors and operating elements on the front panel

Honeywell 05701-A-0511 5701 Series Control System

Key Features

The 5701 Series Control System is part of the 57 System family and is designed to monitor and control field installed industrial gas detectors.

The key features of the system are as follows.

Provides up to 16 gas detection channels in a standard 19” subrack using a 3U card format.

Provides up to 8 gas detection channels in a 3U card format in a half 19” subrack.

Racks are available for both front and rear wiring.

Simple field connection for wires up to 2.5mm2.

Single channel operation mode for high integrity systems.

Channel control cards are removable and do not interfere with other wiring.

Catalytic bridge or 4 – 20mA input.

Optional alarm switching relay output.

Multi-alarm modes for master, zone and voting alarms.

UP, DOWN, STEL and LTEL / RATE alarm outputs.

Update alarms for single or multi-channel alarms.

Remote inhibit and reset inputs.

Relay output on and/or off delay.

Selectable 0 – 20mA or 4 – 20mA isolated monitor outputs.

Easy calibration and operation with dedicated engineering card.

EMC compliant.

Options available through engineering card:

* Master alarm update.

* Event printer.

* Serial communication using Modbus protocol.

Architecture

The system consists of a single 1” (2.54 cm) wide board mounted in a ruggedized rack designed for European style cabinets.

Two rack widths are available:

a. 19-inch with 17 card slots for up to 16 channel control cards and one engineering card.

b. Half 19 inches with 9 card slots for up to 8 channel control cards and 1 engineering card.

Each subrack contains one engineering card and one DC input card to form the rack system.

The system is designed to accommodate different customer wiring configurations, and for this reason, the control functions are separated from the relays and field wiring connections.

Therefore, single channel gas detection consists of :

a. Sensor Driver Module

For compatibility with a wide range of input and sensor types, the circuitry required to control the sensors is mounted on separate plug-in sensor driver modules.

These modules plug directly into the channel control card and are factory installed. www.abb-drive.com Two different modules are available, one for catalytic inputs and the other for 4 – 20mA inputs.

b. Single Channel Control Cards

Each single-channel control card is self-contained and contains all the necessary electronic circuitry to provide sensor actuation, alarm detection, and gas level indication for that gas detection channel.

c. Field Interface or Relay Card

Field interface/relay cards provide interface connections between the control card and the respective field-connected gas sensors. In addition, relay cards provide alarm outputs for field connections.

GE VMIVME-2510B 64-bit TTL Digital Input/Output (with Built-in Test)

Features:

. Direction of each 8-bit port is individually programmable

.64 mA sink current capability (15 mA source) .

. Separate board address decoding for control and data registers .

. Built-in test logic for fault detection and isolation .

. Highly reliable DIN-type I/O connectors .

. 8-bit, 16-bit, 32-bit transfers

The VMIVME-2510B is a member of the VMIC Megamodule family, which is designed for universal programming.

The subsystem can be configured with consecutive I/O addresses to conserve memory.

These products (VMIVME-1110. VMIVME-2120. VMIVME-2130. and VMIVME-2510B) are designed with two sets of board address switches to provide efficient memory address mapping for CSR and I/O addresses.

The CSR address switches can be configured so that all CSRs on the various boards in the system can be mapped to contiguous memory locations.

Megamodule products are also designed to support 8-bit, 16-bit and 32-bit data transfers.

Specific hardware has been designed into the VMIVME-2510B to support the built-in test functions.

The VMIVME-2510B supports off-line and on-line fault detection and isolation. The front panel Fail LED is used to indicate when a fault exists on this board.

The LED is illuminated at power-up or reset. The LED can be turned off after successfully completing board level diagnostics.

Functional Features

Compatibility VMEbus-compliant dual high-profile I/O connector type: Dual 64-pin connector, DIN 41612

I/O Organization: Eight I/O ports; eight bits wide.

Addressable to any address within the short supervisory or short unprivileged I/O mapping.

Addressing scheme:

Eight ports can be individually addressed on 8-bit or 16-bit boundaries. Address DIP switches provide unlimited selection of short data I/O address mappings.

Built-in Tests

Output data can be read back in real-time or off-line mode. Offline mode can be enabled by writing to the Control and Status Register (CSR) to set the test mode bit.

When test mode is enabled, all outputs are tri-stated (TRI-STATE).

Two test mode bits are provided so that each connector I/O (32-bit) can be tested independently if necessary.

Fault LED:

The Fault LED illuminates at power-up and system reset. It can be extinguished under program control after successfully performing diagnostics.

I/O Circuitry:

The transceivers support high current (64 mA) outputs. These octal bus transceivers use the SN74AS645 in the logic level TTL I/O option. The open collector option uses the SN74AS641 type transceiver.

If the open collector option is ordered, all 64 bits are output only.

Triconex 4351B Tricon Communication Module

Product Description:

Manufacturer : Triconex

Product No. : 4351B

Product Type : Tricon Communication Module

Serial Ports : 4

Network Ports : 2

Port isolation : 500 VDC

Protocols : TriStation, Modbus, TCP/IP, ICMP, SNTP, TSAA (supports IP multicast), Trimble GPS,

Embedded OPC Server (Models 4353 and 4354), Point-to-Point (UDP/IP), www.abb-drive.com Point-to-Point Time Synchronization,

Sprayed copper Ethernet port: 10/100 Mbps (Model 4353 supports 100 Mbps only)

Fiber optic Ethernet port: 100 Mbps

Serial ports: Up to 115.2 Kbps per port

Weight: 3.18 kg

Shipping weight : 4.5 kg

Tricon Communication Module

The Tricon Communication Module (TCM) is compatible with Tricon v10.0 and later systems only.

Allows Tricon to communicate via Ethernet with TriStation, other Tricon or Trident controllers, Modbus master and slave devices, and external hosts.

Each TCM contains 4 serial ports, 2 network ports, and 1 debug port (for Triconex).

Each serial port is uniquely addressed and can be configured as a Modbus master or slave.

Serial port #1 supports Modbus or Trimble GPS interface. Serial port #4 supports Modbus or TriStation interface.

Each TCM supports an aggregated data rate of 460.8 Kb/s for all four serial ports.

Tricon programs use variable names as identifiers, while Modbus devices use numeric addresses called aliases.

Therefore, each Tricon variable name must be assigned an alias that will be read by or written to the Modbus device.

An alias is a five-digit number that represents the Modbus message type and the address of the variable in the Ticon. An alias number is assigned in the TriStation.

Any standard Modbus device can communicate with Tricon via TCM, provided an alias is assigned to the Tricon variable.

The alias number must also be used when the host accesses the Tricon through other communication modules.

Each TCM contains two network ports – NET 1 and NET 2. Models 4351A and 4353 have two copper Ethernet (802.3) ports and Models 4352A and 4354 have two fiber optic Ethernet ports.

NET 1 and NET 2 support TCP/IP, Modbus TCP/IP Slave/Master, TSAA, TriStation,

The NET 1 also supports the Peer-to-Peer and Peer-to-Peer Time Synchronization protocols.

A single Tricon system supports up to four TCMs, which must reside in two logical slots.

Different TCM models cannot be mixed in a logical slot.

Each Tricon system supports a total of 32 Modbus masters or slaves, including network and serial ports.

The hot standby feature does not apply to TCMs, but you can replace a defective TCM while the controller is online.

Honeywell FC-SAI-1620M Safety High Density Analog Input Module

Introducing:

Honeywell Safety Manager™ is a reliable and highly complete safety system tailored for critical control applications.

It is an integral part of Honeywell Experion™ PKS and integrates seamlessly into PlantScape and can also operate autonomously.

Safety Manager is the foundation of functional safety, ensuring the well-being of individuals, plant assets and the environment while optimizing plant continuity.

Safety Manager is a user-programmable, modular, microprocessor-based safety system www.abb-drive.com  capable of performing a wide range of high integrity process control and safety instrumentation functions, including:

High integrity process control

Burner/boiler management systems

Process protection and emergency shutdown

Turbine and compressor safety protection

Fire and gas detection systems

Pipeline monitoring

Enhanced business results:

Safety Manager™ is an evolution of the proven Fail Safe Controller (FSC®) safety system platform that has been globally recognized for more than 15 years.

It embodies proven technology backed by Honeywell’s two decades of expertise in process safety management. This includes the integration of process safety data, applications, system diagnostics and critical control strategies.

Safety Manager is designed to enhance business performance, improve process safety and protect plant assets and people.

The safety system is seamlessly integrated with the Experion™ Process Knowledge System (PKS) into a single architecture, providing an excellent opportunity to improve safety and process availability.

Experion PKS ensures unparalleled connectivity between processes and business operations, optimizes workflows, simplifies maintenance tasks, enhances safety management, and frees personnel from manual tasks.

Built on QMR technology:

Safety Manager™ is based on reliable Quadruple Modular Redundancy (QMR™) diagnostic technology and 2oo4D architecture.

QMR increases system flexibility, enhances diagnostic messaging, and increases system fault tolerance for critical applications.

This technology enables Safety Manager to handle multiple system failures to meet the needs of critical control applications.

In addition, Safety Manager is the cornerstone for integrating SIL (Safety Integrity Level) rated sensors and valve actuators in the field.

This ensures effective deployment of safety instrumented functionality for complex and hazardous processes.

Whether it’s integrating SIL1-2 safety transmitters (ST3000 and STT250) or safety valve positioners to enhance safety and field asset management, Safety Manager is the perfect enabler for Safety Instrumented Systems (SIS).

Benefits:

Simplified engineering and design efficiencies – Simplified safety network design

Enhanced system reliability and robustness – utilizes Design for Six Sigma (DFSS) and IEC 61508 standards

Improved process availability – uninterrupted operation during system degradation with QMR technology

Improve O&M performance – unify critical process data and control information for seamless access

Protect investment – facilitate migration from FSC to QMR safety technology

Comply with safety standards – equip industries with SIL3 safety-compliant tools, hardware and software throughout the life cycle of the installation

The IO modules utilize European standard sized instrumentation cards.

The module front panels are 3 HE (3U) high and 4 TE (4 HP) wide. Each IO chassis holds 18 IO modules.

All IO modules have standard 32-pin DIN 41612F connectors.

All IO chassis are equipped with an IO backplane with mating 32-pin connectors and key coding to prevent incorrect insertion of IO modules.

Safety Manager offers a wide range of digital and analog inputs and outputs with different characteristics to meet the needs of a variety of field devices.

Table 12 on the next page lists the available inputs and outputs for the Safety Manager.

l Safety Manager IO modules are galvanically or optically isolated between the external and internal power supplies.

Safety IO modules are available for safety circuits up to SIL3 and SIL3.

Safety modules can also be used in control applications to provide Safety Manager diagnostics and fault reporting with or without automatic fault isolation.

(The automatic fault isolation feature is configurable).

Field Interface

Safety Manager™ uses Field Terminal Assemblies (FTAs) and internal cables to connect IOs and communication channels to field terminals.

IO FTA

The FTA module for IO converts input field signals to values appropriate for the Safety Manager input module being used, or converts Safety Manager output module signals to values that can be used in the field.

For this conversion, the FTA can be used in combination with an input conversion module or an output conversion module.

FTA modules are available in widths of 70 mm (2.76 inches) or 109 mm (4.29 inches) and in lengths of 90 mm to 300 mm (3.54 inches to 11.81 inches), depending on the FTA type.

The modules are mounted on standard DIN EN rails (TS32 or TS35 x 7.5).

The FTA may contain electronic circuitry to convert standard Safety Manager signals into specific signals with characteristics required by the field device.

When connected to the Safety Manager IO module, all FTAs use the standard system interconnect cable FS-SIC-0001. field cables are connected to the terminals.

Communication FTAs

FTAs used for communication purposes are connected to a channel of the Universal Safety Interface (USI).

Two communication FTAs are available:

– Ethernet FTA, UCOM-HSE, or SDW-550 EC are available:

– Automatic switching of the 10Mb/100Mb Ethernet interface.

– The Universal FTA, DCOM-232-485. provides an Ethernet FTA, UCOM-HSE, or SDW-550 EC.

– RS232

– RS485

Cabling

System Interconnect Cables (SIC) connect field signals to IO modules.

Depending on the type of SIC cable, an FTA is required to establish the connection.

ABB REF620 IEC Feeder Protection and Measurement Control Unit

Relay protection for overhead lines and cable feeders in distribution networks for different application areas

Feeder protection, precisely the protection of overhead lines and cables, is the most commonly used type of protection.

The protection must ensure that the grid continues to supply power. In the event of a fault, it must be prevented from propagating to the normal part of the network.

Relay protection must also minimize damage to cables and other connected equipment from faults and ensure the safety of everyone involved.

ABB offers a wide range of feeder protection. There is a wide range of multifunctional relays for different application areas.

There are some for general feeder protection (overcurrent protection) and backup protection, and some more specialized ones, for example for line differential protection.

Main advantages

Devices can be used for a wide range of applications

Ranging from simple protection www.abb-drive.com devices as backup protection to specialized protection devices

Well-established and modernized technology

Arc detection as an option

REF620 as a dedicated feeder protection device for the protection, control, measurement and monitoring of public and industrial power distribution systems.

REF620 IEC feeder protection and measurement and control device, as a dedicated feeder protection device, is specially designed for the protection, control, measurement and monitoring of public and industrial grids, including radial, ring and mesh grids.

The REF620 provides feeder overcurrent and earth fault protection that can be applied to both ungrounded neutral networks and resistance or impedance neutral grounded networks.

In addition, utilizing the unit’s advanced station-to-station communication capabilities, the REF620 can also be used for ring mesh distribution network or radial network protection.

The REF620 IEC Feeder Protection and Measurement Control Unit is available in single and dual busbar configurations, with one or two circuit breakers and multiple switchgear configurations for each busbar configuration.

The unit supports a large number of manual and motorized disconnect and ground switches. The number of available I/Os can be increased as required by ABB’s RIO600 remote I/O unit.

The REF620 IEC Feeder Protection and Control Unit features support for the IEC61850 communication standard for substations, covering both vertical and horizontal communications.

It includes GOOSE telegrams with switching and analog signals, and constant value adjustment based on IEC 61850-8-1.

The REF620 also supports DNP3. IEC 60870-5-103 and Modbus® protocols.

The REF620 provides an optional Ethernet port for non-delayed redundant Ethernet or a ring self-healing RSTP communication in the event of a communication failure via PRP or HSR protocols.

This solution eliminates the effects of a single point of failure and improves communication reliability. The solution can be applied to Ethernet based IEC 61850. Modbus® and DNP3 protocols.

The REF620 is a member of the 620 Protection, Measurement and Control product family within the ABB Relion® product family.

Key benefits

Protection, control, monitoring and management integrated in a single relay provides a compact and versatile solution for public and industrial power distribution systems

Wide range of protection and control functions, either with sensors or conventional CTs and PTs

Functional scalability and wide range of applications allow users to easily customize configuration applications to meet specific requirements

Pluggable design for quick installation and testing

Large LCD screen with single-line graphic display, accessible locally or via an easy-to-connect and navigate HMI

Thoughtful product lifecycle service

Key Features

Wide range of protection and control functions for incoming or outgoing applications

Multi-frequency conductive earth protection package with high sensitivity and selectivity

State-of-the-art, fast short-circuit and earth fault localization

Several optional function packages – for distributed generation, capacitors, basic motor and arc-light protection

Supports IEC61850 Version 1 and Version 2. including redundant HSR and PRP, GOOSE and IEC61850-9-2

Supports Modbus, DNP3. IEC 60870-5-103 communication protocols and different time synchronization methods, including IEEE 1588 v2 precision time protocols

GE IC695RMX128 PACSystems RX3i Redundant Memory Switch Module

This IC695RMX128 is a PACSystems RX3i redundant memory switching module manufactured by Emerson Automation (formerly GE Intelligent Platforms (GE IP)).

The module has 128MB of SDRAM user memory and supports operation as a reflective memory network or dedicated link between RX3i CPUs in a redundant configuration.

The module comes with single-mode fiber that supports 2.12 Gbaud fiber networks.

About the IC695RMX128

The IC695RMX128 is the PACSystems RX3i Redundant Memory Exchange Module.

The primary function of the module is to act as a single node on a reflective memory topology or as a dedicated memory module for redundant RX3i CPU pairs.

When used in a redundant CPU configuration, the IC695RMX128 reflects the contents of the IC695CMX128.

With a reflected memory link, any updates on one node are reflected and updated to all other nodes connected to the same network.

Connections are established over a fiber optic network supporting up to 256 nodes.

The module is equipped with 128 MB of reflective memory, and the fiber optic power supply requires an LC-type connector for transmission speeds up to 2.12 Gbaud.

The module operates on supplies of 580 mA @ 3.3 VDC and 220 MA @ 5 VDC.

The IC695RMX128 is intended for use in redundant systems and cannot be used to perform general purpose memory Xchange functions.

In addition, a full communication path must be established to complete the Memory Xchange network. The complete communication path consists of the primary RMX unit and the corresponding secondary RMX unit.

Two (2) high speed fiber optic cables must be connected to the RMX pair and must form a 2-node ring.

No other RMX or reflective nide may be used in any redundant controller design since a dedicated RMX module must be used for redundant controller configuration.

Configuration of the RMX nodes is done via programming software, not via jumper or DIP switch settings.

This ensures centralized modification of modules and minimizes hardware interrupts.

The IC695RMX128 memory module is a redundant memory module in GE Fanuc Automation’s RX3i PACSystems family.

The module is particularly suitable for situations where there is a hot standby CPU redundancy system, where a second CPU on the system is used as a backup device for the main CPU, and where there is a continuous connection between the two devices.

and there is a continuous data transfer between the two devices. The module operates on this reflective network and acts as a link between these 2 CPUs.

When this link is inactive www.abb-drive.com or not currently in use, it is the same as the primary module (i.e., the IC2CMX695 module).

The GE Fanuc Automation IC128RMX695 Redundant Memory Module provides data sharing between different PCs and computing devices connected via a high-speed fiber optic network.

The module features network error detection.

The GE Fanuc Automation IC128RMX695 Redundant Memory Module can be connected to other devices through fiber-optic cables in a daisy-chained loop.

Transfers are executed from one node to another until the final receiver is reached.

The module is equipped with 128 KB of reflective memory and a high-speed, easy-to-use 128.2 GBaud fiber optic network. The module occupies one slot in the RX12i rack.

The GE Fanuc Automation IC3RMX695 Redundant Memory Replacement Module has a zirconium ceramic ferrule, insertion loss rating of 128.0 dB maximum, and return loss.

The module’s input power is 580.3 mA at 35 VDC and 220 mA at 3 VDC.

The module can be easily inserted with the system power still on. This mode of insertion is called point insertion and applies to some parts of the RX5i PacSystems family.

IC695RMX128 Frequently Asked Questions

1. What is the user memory capacity of the IC695RMX128?

The IC695RMX128 has a 128 MB memory capacity.

2. What are the partner modules for the IC695RMX128?

The partner module for the IC695RMX128 is the IC695CMX128.

3. What is the maximum number of nodes that can be included in a reflective memory network?

The IC695RMX128 can contain up to 256 nodes.

Technical Description of the IC695RMX128

The GE Fanuc Automation IC695RMX128 redundant memory module has dynamic packet sizes. It operates at 580.3 V DC with 3 mA input power.

GE Fanuc IC200ALG262 8-Point Analog Current Input Module for VersaMax I/O Series

The IC200ALG262 is an 8-point analog current input module for the VersaMax I/O family.

Formerly manufactured by GE Intelligent Platforms, it is now part of Emerson Automation.

The module has eight (8) single-ended input channels and accepts 0-20 mA / 4-20 mA input signals with 15-bit resolution and a maximum update rate of 7.5 ms.

About the IC200ALG262

The IC200ALG262 is a component module of the VersaMax I/O platform. It is an analog input module designed to support differential current wiring.

It has eight (8) analog input channels designed to receive standard current input signals such as 0-20 mA and 4-20 mA input signals.

This IC200ALG262 is currently manufactured by Emerson Automation. It is ideally suited for connection to analog signal generating instruments such as field transmitters.

for measuring pressure, level, flow, temperature, turbidity, viscosity, speed, and other types of transmitters; for integrating locally mounted panel meters to

remote display; for monitoring the speed output of variable frequency drives (VFDs); for monitoring the position of rotary and linear devices; and other applications.

The IC200ALG262 has a built-in analog-to-digital converter (ADC) circuit with 15-bit conversion resolution. The input channels are arranged in groups.

When configured to receive 4-20 mA, they are capable of detecting power loss and open circuit detection within the module. Each channel has an uplink rate of 7.5 ms.

Each channel has an uplink rate of 7.5 ms and a digital resolution of 0.5 μA (4-20 mA signal range) and 0.625 μA (0-20 mA signal range). The module has a maximum backplane current consumption of 5 mA at 200 VDC bus voltage.

Compatible configuration software and hardware firmware versions that can be used with this module include VersaPro software version 2.0 or later; VersaMax PLC CPU CPU version 2.0 or later; and VersaMax PLC CPU version 2.0 or later.

VersaMax PLC CPU firmware version 2.10 or higher; VersaMax Ethernet Network Interface Unit (NIU) firmware version 1.10 or higher.

It is also compatible with VersaMax DeviceNet, Profibus or Genius NIU modules.

GE Fanuc’s IC200ALG262 input module is the analog input module in the VersaMax product family.

It can be an interface for up to 8 analog inputs (current inputs.) The IC200ALG262 input module does not require an external power supply because it receives power from the backplane power supply.

The module has a 15-bit resolution.The IC200ALG262 analog input module is configurable through software. It supports intelligent processing from the CPU or NIU.

All 8 input channels are single-ended and arranged in a group. The update rate of this module is 7.5 ms.

The GE Fanuc IC200ALG262 can diagnose problems such as internal power loss and disconnection of signal levels from 4 to 20 mA.

The LED on the IC200ALG262 input module is the OK LED, which indicates that the backplane power supply is properly connected and functioning.

The input channels can operate at current levels between 0 and 20 mA or 4 and 20 mA; these current ranges are configurable via jumpers.

If there are no jumpers on the IC200ALG262 module, the input current range will always be 4 to 20 mA.

The manufacturer recommends using shielded twisted pair cable for analog channel connections on this module, and also recommends grounding at the source device or I/O module if grounding at the source device is not possible.

IC200ALG262 Frequently Asked Questions

1. What analog input signals does the IC200ALG262 accept?

The IC200ALG262 supports 0-20 mA and 4-20 mA input signals.

2. What wiring configurations does the IC200ALG262 support?

The IC200ALG262 is designed for differential wiring only.

3. How many input groups does the IC200ALG262 have?

The IC200ALG262 has a single input group.

Technical Description of IC200ALG262

The IC200ALG262 analog input module from the GE Fanuc Field Control family comes with 8 inputs that can be configured via jumpers.

The module receives power from the system backplane www.abb-drive.com and intelligent processing from the CPU.

GE Fanuc IC694MDL930 Relay Output Module

About the IC694MDL930

This IC694MDL930 is part of the PACSystem RX3i midrange programmable automation controller (PAC) platform.

It is designed for use as a relay output module with eight (8) independently isolated normally open (N.O.) or A-type contact outputs.

Each output contact essentially has a separate common and dry contact, allowing different voltage types and levels to be connected exclusively to the module.

i.e. 5-30 VDC (nominal 24 VDC) and 5-250VAC (nominal 120/240VAC).

The current capacity of each output channel is 4 amps per output when used with resistive loads and 2 amps per output when used with pilot load devices.

Current capacity is 2 amps per output channel. For UL installations, the maximum load current that the module can withstand is 30 amps and varies according to ambient temperature.

Conversely, the minimum load that the module can withstand is 10 mA, and the module’s output channels have a typical response time of 15 ms between on and off switching, while the module’s maximum backplane www.abb-drive.com current is 2 amps.

The module’s maximum backplane current draw is 6 mA, and all outputs are energized by a 5 VDC bus on the backplane.

All outputs are energized by a relay 70VDC bus on the backplane and the maximum backplane current consumption is 24mA.

The module also supports mounting to 90-30 series backplanes. It can be used as a local output module, mounted on a central processing unit (CPU) chassis, or with an appropriate communications adapter.

It can also be mounted on an extended remote distributed I/O station with appropriate communication adapters.

It is classified as a high voltage module and has eight (8) status LEDs to characterize the energized state of each output channel.

The module does not come with channel protection such as fuses or RC buffer circuits.

The IC694MDL930 RX3i is a 3-channel relay output module for the GE Fanuc RX8i PACSystems discrete I/O PLC series.

As with every discrete output module in the series, the IC694MDL930 output module is used between the RX3i PLC and external output devices such as indicators and motors.

(Like every discrete output module in the series, the IC694MDL930 Output Module provides an interface between the RX3i PLC and external output devices such as indicator lights, motor starters, and solenoids.

Each output point is capable of switching loads up to 4.0 amps, and each output point has its own common output terminal.

The IC694MDL930 Output Module requires an external power supply to operate and can be ordered in either AC or DC ratings of 120 to 240 volts AC or 24 volts DC.

Users can order AC or DC power modules rated from 120 to 240 volts AC or 24 volts DC to operate all connected field devices.

The IC694MDL930 output module operates from 5 to 30 volts DC or 5 to 250 volts AC (50 to 60 Hz).

Output point-to-point isolation is rated at 250 volts AC continuous or 1500 volts AC for 60 seconds.

The IC694MDL930 output module has eight independently isolated normally open relay-type outputs with a maximum output current load of 4.0 amps per point.

The maximum output current load per module is 20.0 amps. The IC694MDL930 output module has a maximum backplane current draw of 5.0 milliamps at 6.0 volts DC.

The minimum output load is 10.0 milliamps per point.The IC694MDL930 output module has an inrush current rating of 5.0 amps max.

The IC694MDL930 output module has a maximum inrush current rating of 5.0 amps and a maximum response time of 10 milliseconds (on or off). 32 individually numbered LEDs indicate the individual operation of each output point.

The IC694MDL930 output module has 32 individually numbered LEDs to indicate the individual operating status of each output point, and the entire module can be mounted in the I/O slots on the RX3i PLC backplane.

IC694MDL930 Frequently Asked Questions

1. Does the IC694MDL930 come with separate isolated output channels?

Yes, the output channels are individually isolated channels. The output channels are individually isolated channels.

2. What is the operating voltage range of IC694MDL930?

The IC694MDL930 output contacts can be connected to 0-30 VDC and 0-250 VAC source voltages.

3. Does the IC694MDL930 support the 90-30 series PLC family?

No. This module does not support the 90-30 series. This module does not support the 90-30 series.

1. How many relay output channels does the IC694MDL930 have?

The IC694MDL930 has eight (8) isolated relay channels.

2. Does the IC694MDL930 support mounting to 90-30 series racks?

Yes, the IC694MDL930 supports mounting to 90-30 series racks. The IC694MDL930 can be mounted from an RX90i chassis to a 30-3 series chassis.

3. What is the contact form for the IC694MDL930?

The IC694MDL930 has normally open (N.O.) or A-type contacts.

Technical Description of IC694MDL930

The IC694MDL930 is a PACSystem RX3i discrete output module formerly manufactured by GE Fanuc, now part of Emerson Automation.

The module has eight (8) independently isolated normally open (N.O.) contacts. Each contact output can operate from 5-30 VDC.

24 VDC; 5 – 250 VAC at 47 to 63 Hz with a nominal input voltage of 120/240 VAC.

Each channel is designed for resistive loads up to 4 amps per output; 2 amps pilot duty cycle per output; 20 amps maximum per module for UL mounting.

The module has a current draw of 6mA with all outputs turned on by the 5 V bus on the backplane and 24mA with all outputs turned on by the relay 70V bus on the backplane.

GE Fanuc IC694MDL940 PAC System RX3i Discrete Output Module

The IC694MDL940 is a PACSystem RX3i Discrete Output Module, formerly manufactured by GE Fanuc and now part of Emerson Automation.

The module has sixteen (16) normally open (N.O.) contacts divided into four (4) banks of four (4) outputs each.

Each contact output can operate at 5-30 VDC with a nominal voltage of 24 VDC; 5 – 250VAC at 47 to 63 Hz with a nominal input voltage of 120/240VAC.

Each channel is designed for a 2 Amp lead load, a maximum load per output and a maximum load of 4 Amps per common.

The module has a current draw of 7 mA with all outputs turned on by the 5 V bus on the backplane and 24 mA with all outputs turned on by the relay 135V bus on the backplane.

The IC694MDL940 is a sixteen (3) point relay output module for the Emerson Automation PACSystem RX16i series, formerly manufactured by GE Intelligent Platforms (GE IP).

The module has a single slot width, occupies a single slot on the backplane, and comes with four (4) output groups of four (4) relay outputs each.

The IC694MDL940 relay contacts are normally open (N.O.) contacts or type A contacts.  www.abb-drive.com Each output contact is rated for a maximum load of 2 amps pilot load.

Each output is rated for a maximum load, and each output group is designed to provide a maximum output current of 4 amps.

In addition, the module has a minimum load of 10 mA and a maximum inrush current of 5 amps. Each relay output channel has a response time of 15 ms.

For the maximum of two signal transitions, the module draws 7 mA @ 5VDC bus voltage and 24 mA for the relay 135V bus on the backplane.

These power ratings are based on all output channels energized.

The IC694MDL940 is equipped with sixteen (16) status LEDs, each representing an individual channel.

The energized LEDs indicate energized outputs and the de-energized LEDs indicate other outputs.

The module does not have a built-in mounted fuse for channel protection; therefore, the user may need to install an external fuse to protect the module.

This IC694MDL940 has 250 VAC continuous and 1500 VAC (1-minute isolation rating) from field to backplane and frame to ground.

And channel-to-channel isolation is 250 VAC continuous; 1500 VAC for 1 minute.

The GE Fanuc IC694MDL940 Relay Output Module is a 3-channel relay output module designed specifically for the RX16i PACSystems PLC system.

The IC694MDL940 output module provides 16 independently isolated normally open output circuits for controlling output devices such as motor starters, solenoids, and indicator lights.

Each IC694MDL940 output module has a maximum switching capacity of 2 amps at the output point, and they are divided into 4 non-isolated groups of 4 output channels each.

Each output group of the IC694MDL940 output module has a common output terminal (total of 4 output terminals per module).

Each internal relay output point is powered from a 24 Vdc backplane power supply. An external AC/DC power supply must be ordered and installed separately to power the connected output field devices.

The IC694MDL940 Output Module is rated for 24 VDC or 120/240 VAC.

The operating range is 5 to 30 volts DC or 5 to 250 volts AC (50/60 Hz).

The IC694MDL940 output module has a maximum point-to-point isolation of 1500 VAC for 1 minute and 250 VAC.

Continuous isolation between field and backplane and between frame grounds. The minimum possible load on the output circuit of each IC694MDL940 output module is 10 milliamps.

The maximum load on each output point is 2.0 amps, and each set of common loads is 4.0 amps.

The IC694MDL940 Output Module draws up to 5.0 mA of backplane current at 7.0 volts DC on the backplane.

The IC694MDL940 output module draws up to 5.0 milliamps of backplane current at 7.0 volts DC on the backplane and up to 24 milliamps at 135 volts DC relay bus voltage. There are 32 LEDs on the front panel of the module to indicate the on or off status of each output channel.

The IC694MDL940 output module is compatible with RX3i PacSystems CPUs only and can be installed in any I/O slot on the RX3i PacSystems PLC backplane.

IC694MDL940 Frequently Asked Questions

1. Does the IC694MDL940 come with separate isolated output channels?

No. The IC694MDL940 has only output groups, four (4) output groups with four (4) channels per output group.

2. Does the IC694MDL940 have an adjustable response time?

No. The module has a fixed response time of 15 minutes. The response time of this module is fixed at 15 ms (maximum).

3. What is the operating voltage of the IC694MDL940?

The IC694MDL940 operates on 5 to 30 volts DC and 5 to 250 volts AC, 50/60 hertz.

IC694MDL940 Technical Description

The GE Fanuc IC694MDL940 Relay Output Module is designed for the RX3i PacSystems family.

The Relay Output Module has 16 relay output circuits in 4 groups of 4 outputs each, and requires a user-supplied external AC/DC power supply for operation.

Search for products

Back to Top
Product has been added to your cart