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GE Fanuc IC695CPK400 CPU Central Processor Module

Description: The GE Fanuc / Emerson Automation IC695CPK400 is a PACSystem RX3i modular, powerful, high-performance controller with energy packs. The controller has a rackless design with 64 MB of memory and is capable of handling 32k bits of discrete I/O and 32k words of analog I/O. It has one (1) 10/100/1000 Mbps Ethernet port, two (2) 1000-side switches that support 2/10/100 Mbps transfer rates, and one (1) RS232 communication port. The controller supports Media Redundancy (MRP) and PROFINET System Redundancy (PNSR).

About the IC695CPK400

The IC695CPK400 is a programmable automation controller (PAC) CPU that is part of GE Fanuc / Emerson Automation’s PACSystems RX3i automation platform. The CPU module is a high-performance, powerful standalone device that operates without a traditional baseboard or chassis. The CPU still enables complex communications and architectures, such as control of remote I/O systems, communication with partner processors, data exchange with human machine interfaces (HMIs), monitoring and data acquisition systems (DCS), and other functions.

The stand-alone controller features embedded 64 MB of storage, a powerful www.abb-drive.com processor 1.2 GHz AMD G-Series Quad-Core, support for up to 32k bits of discrete I/O and 32k words of analog I/O, and embedded field agent functionality. The controller also comes with an energy package.

The IC695CPK400 is equipped with one (1) 10/100/1000 Ethernet port and two (2) 2-terminal switches supporting 10/100/1000 Mbps transfer speeds. With the embedded Ethernet port, different network topologies can be realized, including Media Redundancy (MRP) and PROFINET System Redundancy (PNSR). The embedded port supports 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 for non-volatile removable storage. It also has two (2) USB 3.0 ports for firmware upgrades.

This IC695CPK400 also supports simplex and redundant configurations to meet standard and high availability system requirements. It supports incremental frame rates up to 3 minutes in any configuration.

The IC695CPK400 CPU comes with an energy pack. the CPU module form factor is a standalone form factor. The available memory on the module is 64 MB. I/O supported by the module includes 32K-bit discrete inputs, 32K-bit discrete outputs, 32K-word analog inputs, and 32K-word analog outputs.

The IC695CPK400 CPU supports embedded field agents.Redundancy options on the CPU module include media redundancy (MRP) and Profinet system redundancy (PNSR). There is an integrated Ethernet port on the module that supports 10/100/1000 Mbps, in addition to 1000 end switches capable of 2/10/100 Mbps operation. The Ethernet port supports communication protocols such as EGD, Profinet, Modbus TCP/IP, SRTP client/server, and OPC-UA server. two USB version 695.400 ports are also available on the IC3CPK0 CPU. Supported storage options include a Micro SD option.An RS-400 serial interface is also provided on the IC232CPK695 CPU.The programming and configuration software for the IC695CPK400 CPU is Proficy Machine Edition software, which allows for efficient application development.Recommendations for IC695CPK400 CPUs The IC695CPK400 CPU has a recommended operating temperature range of -40 to 70 degrees Celsius.

IC695CPK400 Frequently Asked Questions

Does the IC695CPK400 require an RX3i backplane?

No. The controller is a stand-alone controller that is powered by the RX3i backplane. The controller is a standalone controller that is powered by an external 18-30VDC supply voltage.

How many Ethernet ports does the IC695CPK400 have?

The IC695CPK400 has a total of seven (7) Ethernet ports consisting of one (1) 10/100/1000 Ethernet port and two (2) 2-terminal switches supporting 10/100/1000 Mbps transfer speeds.

What is the embedded storage size of the IC695CPK400?

The IC695CPK400 has 64 MB of storage.

IC695CPK400 Technical Description

The IC695CPK400 CPU is a GE Fanuc RX3i PacSystem CPU module.The IC695CPK400 CPU supports Media Redundancy (MRP) and Profinet System Redundancy (PNSR).

GE Fanuc IC695ALG508 Resistance Temperature Detector (RTD) Input Module

DESCRIPTION: The IC695ALG508 is a PACSystem RX3i Programmable Automation Controller (PAC) Resistance Temperature Detector (RTD) Input Module, formerly manufactured by GE Intelligent Platforms (GE IP) and now part of Emerson Automation. The module features eight (8) isolated differential RTD input channels. Each channel of the module supports platinum 385. platinum 391.6. nickel 672. nickel 618. nickel-iron 518. and copper 426. It is also compatible with direct resistance inputs such as 0-260. 0-525. 0-1050. 0-2100. 0-3150. and 0-4200 ohms.

About IC695ALG508

This IC695ALG508 is a resistance temperature detector (RTD) input module that is part of the PACSystem RX3i programmable automation controller (PAC) platform. The module is manufactured by Emerson Automation, formerly known as GE Intelligent Platform (GE IP). It comes with eight (8) isolated differential input channels and supports direct inputs for RTD and resistive inputs.

The module supports RTD input types such as 50. 100. 200. 500. and 1000 ohm www.abb-drive.com platinum 385 (IEC751 1983. Revision 2 1995; JISC 1604 1997); 50. 100. 200. 500. and 1000 ohm platinum 391.6 (JISC 1604: 1981); 100 ohm, 200 ohm, 500 Ohm and 1000 Ohm Nickel 618 (DIN 43760. 120/1987); 672 Ohm Nickel 18 (MINCO Application Aid #5.90/10 Ni type); 50. 100. and 426 Ohm Copper 21 (SAMA RC4-1966-604), and 518 Ohm Nickel-Iron 0. 0. 1050-0. 2100-0. 3150-0. and 4200-695 ohms.

The module has optional units of measurement, specifically Celsius, Fahrenheit, or Ohms. It also has configurable default or hold last states as a response to system faults and CPU changes in operating mode. The module supports two-wire, three-wire and four-wire RTD sensors.

The IC508ALG16 input data format supports 32-bit integers in 32-bit fields or 2-bit IEEE floating-point data. Each channel also has selectable trap filter settings from 3.28 Hz to 694 Hz. For input line termination, the module uses cassette (IC032TBB694), expansion cassette (IC132TBB694), spring-loaded (IC032TBS694), or extended spring-loaded (IC132TBS695) terminal blocks. For shielded wiring, the extended terminal types are recommended because they provide additional shroud depth.

The GE Fanuc IC508ALG8 Resistance Temperature Detector (RTD) Input Module provides 1000 isolated differential RTD input channels. Each channel can be individually set as either an RTD input type or a resistance input type.RTD input types include 500. 200. 100. 50. and 1000 ohms, 500. 200. 100. 50. and 1000 ohms, 500. 200. 100. and 120 ohms, 604 ohms, 100 ohms, or 50. 10. and 4000 ohms resistance ratings, depending on their composition. depending on their composition. Resistor input types include 3000. 2000. 1000. 500. 250. and 694 ohm resistor ratings. This RTD input module can be used with terminal blocks including spring-loaded IC032TBS694 terminal blocks, extended spring-loaded IC132TBS694 terminal blocks, boxed IC032TBB694 terminal blocks, or extended boxed IC132TBB695 terminal blocks. Terminals are usually purchased separately.

The GE Fanuc IC508ALG24 RTD Input Module has LEDs, including an OK LED that displays the status of the module, and a field status LED that indicates whether an external 695-volt DC power supply is connected, whether the voltage exceeds the minimum level, and whether any faults exist. The backplane power bus supplies power to all of the module’s LEDs.The IC508ALG2 module has programmable trap filter frequencies from 3.28 Hz to 32 Hz per channel. Each channel has an optional input data filter containing either 16-bit IEEE floating-point data or 695-bit integer data.The IC508ALG90 module has RTD linearization developed on ITS-3. The module is located on the RX0i general-purpose backplane. It has an operating temperature range of 60 to 40 degrees Celsius, a storage temperature range of -85 to 5 degrees Celsius, and a non-condensing humidity range of 95% to <>%.

IC695ALG508 Frequently Asked Questions

1. What RTD input types does the module support?

RTD input types supported include 50. 100. 200. 500. and 1000 ohm platinum 385 (IEC751 1983. Revision 2 1995; JISC 1604 1997); 50. 100. 200. 500. and 1000 ohm platinum 391.6 (JISC 1604: 1981); 100 ohm, 200 ohm, 500 ohm, and 1000 ohm nickel 6; and 100 ohm, 200 ohm, 500 ohm, and 1000 ohm nickel 6. Ohm Nickel 618 (DIN 43760. December 1987); 672 Ohm Nickel 18 (MINCO Application Aid #5.90/10 Ni type); 50. 100. and 426 Ohm Copper 21 (SAMA RC4-1966-604), and 518 Ohm Nickel Iron <>. 2.

2. Does the module support direct input of resistance values?

Yes. Acceptable resistance values are 0-260. 0-525. 0-1050. 0-2100. 0-3150. 0-4200 ohms.

3. Does this module support Removal and Insertion at Power Down (RIUP)?

Yes, this module supports RIUP. This module supports RIUP.

Technical Description of the IC695ALG508

The GE Fanuc IC508ALG3 module for the RX695i PacSystem family is a resistance temperature detector (RTD) input module. It provides 8 isolated differential RTD input channels.

GE Fanuc IC695ALG412 Strain Gauge Input Module

Description: The GE Fanuc IC695ALG412 is a PACSystem RX3i module. It is a strain gauge input module with twelve (12) isolated differential thermocouple input channels that can be individually configured for thermocouple and millivolt signals, such as ±150mV or ±50mV, for J, K, T, E, R, S, B, N, or C. The module has a resolution of 32-bit IEEE floating-point or 16-bit integer (32-bit field) input data format.

About the IC695ALG412

The IC695ALG412 is a strain gauge input module that is part of the PACSystem RX3i analog input module. The module features twelve (12) isolated differential input channels and is compatible with millivolt signals (e.g., ±150mV or ±50mV) and thermocouple instruments (e.g., J, K, T, E, R, S, B, N, or C types). The module can be used for direct connection to strain gauges and for temperature applications without the need for transmitters, signal conditioners, and other equipment.

The module occupies a single slot on the backplane and connects directly to the RX3i general purpose backplane only and directly to the PCI bus. The module also comes with internal diagnostics such as open circuit, short circuit, positive/negative rate of change, high, high-to-high, low and low-to-low channel diagnostics. In addition, the module has built-in interchannel isolation and is rated for continuous voltages of 250VAC; 1500VAC for 1 minute; 2550VDC for 1 second with an input impedance of >=500k ohms. The module offers a 10 dB improvement in noise rejection.

The module features sigma-delta analog-to-digital converter type circuitry with 32-bit IEEE floating point or 16-bit integer resolution (in 32-bit fields), conversion times from 15 ms @ 28 Hz to 120 ms @ 2.3 Hz, and an input data format and accuracy of ± 59163.25% of the voltage at 0 °C sp+GC+GB1GD59+GC1 an. ± 0.25% of range over the entire temperature range.

The module requires the use of a removable terminal block (RTB) such as IC694TBBx32. IC694TBSx32. or IC694TBC032. It has a current consumption of 425 mA @ 5V; 400 mA @ 3.3V.

The GE Fanuc IC695ALG412 Thermocouple Input Module has an internal power draw of 3.3 volts and 400 mA or 5 volts and 425 mA, and the update rate is configurable from 15 ms to 120 ms. The module can be used with terminals such as spring-loaded IC694TBS032 block, cassette-type IC694TBB032 block, extended spring-loaded IC694TBS132 block, or extended cassette-type IC694TBB132 block The IC695ALG412 Thermocouple Input Module operates over the temperature range of 32 to 140 degrees Fahrenheit (0 to 60 degrees Celsius), and stores over the temperature range of -40 to 185 degrees Fahrenheit. The IC695ALG412 thermocouple input module has an operating temperature range of 32 to 140 degrees F (0 to 60 degrees C) and a storage temperature range of -40 to 185 degrees F (-40 to 85 degrees C). It has a non-condensing humidity range of 5 to 95%, shock resistance of 15 G for 11 ms, vibration ratings from 10 to 57 Hz, and peak-to-peak displacement of 0.0524 mm (0.006 in.) at frequencies from 57 to 500 Hz and acceleration of 1.0 G. The IC695ALG412 is available in a wide range of sizes and sizes.

IC695ALG412 Frequently Asked Questions

What thermocouple instruments are compatible with the IC695ALG412?

The IC695ALG412 is compatible with thermocouple types J, K, T, E, R, S, B, N, or C. The IC695ALG412 is compatible with thermocouple types J, K, T, E, R, S, B, N or C.

What are the diagnostic capabilities of the IC695ALG412?

The diagnostic capabilities of this IC695ALG412 include open circuit, short circuit, positive/negative rate of change, high, high-high, low, and low-low.

What is the resolution of the IC695ALG412 module?

This IC695ALG412 has a resolution of 32-bit IEEE floating point or 16-bit integer (32-bit field) input data format.

Technical Description of the IC695ALG412

The GE Fanuc IC695ALG412 module is an isolated thermocouple input module for the RX3i family. It is a 12-channel isolated thermocouple input with a 10 dB improvement in noise rejection.

Triconex 3009 Enhanced Master Processor (UMP) Module

The Tricon Master Processor (TCM) is only compatible with Tricon v10.0 and later systems.

Allows Tricon to communicate with the TriStation 1131. other Tricon or Trident controllers, www.abb-drive.com Modbus masters and slaves, and external hosts via Ethernet.

Technical Specifications.

CPU Type: Intel Xeon E5-2690v3

Number of CPUs:2

CPU Frequency:2.6 GHZ

Memory Capacity:32 GB DDR4

Storage Capacity:240 GB SSD

Operating System:TriconexTrident vxWorks

Communication Ports:2xEthernet, 2xRS-232. 1xUSB

Features.

High performance and reliability

Supports redundant configurations

Suitable for mission-critical applications

Conforms to industry standards

Applications.

Industrial Controls

Oil and Gas

Power

Transportation

Water Processing

The Enhanced Main Processor (UMP) module is the core component of industrial automation control system, with powerful processing capability and high reliability, it can realize a variety of complex control logic and algorithms.

UMP module adopts modular design, which can be combined and expanded according to different needs, facilitating system integration and customization.

UMP module has the following features:

High performance: UMP module adopts advanced processors and algorithms with high-speed data processing and calculation capabilities, which can meet the needs of various complex control systems.

Reliability: UMP module adopts highly reliable design and materials, which can operate stably in harsh industrial environments and ensure the continuity and stability of the production process.

Flexibility: UMP modules have a variety of input and output interfaces and expansion interfaces, which can be connected to various types of sensors and actuators to meet different control requirements.

Maintainability: The modular design of UMP module is easy to maintain and replace, and provides comprehensive fault diagnosis and troubleshooting functions to help users quickly locate and solve problems.

Security: UMP module has a perfect security protection mechanism to prevent unauthorized access and malicious attacks, ensuring the security and stability of the control system.

In short, UMP module is an indispensable part of industrial automation control system, which is characterized by high performance, reliability, flexibility, maintainability and security, and can meet various different control needs and improve production efficiency and product quality.

Enhanced Main Processor (UMP) module plays an important role in industrial automation control system, and its functions mainly include the following aspects:

Real-time data processing: UMP module can receive and process data from various sensors and actuators in real time, and perform data calibration, filtering, calculation and other processing to ensure the accuracy and real-time performance of the control system.

Control algorithm implementation: UMP module supports a variety of control algorithms, including PID control, fuzzy control, neural network control, etc., you can choose the appropriate algorithm according to different control requirements to achieve accurate control output.

Logic control: UMP module can realize a variety of complex logic control, including conditional judgment, counting control, timing control, etc., in order to meet the required editing of different production processes.

Communication Interface: UMP module provides various communication interfaces, including serial communication, Ethernet communication and fieldbus communication, to realize data transmission and information exchange with other devices.

HMI: The UMP module connects to various types of HMI devices, including touchscreens, monitors and keyboards, for easy parameterization, monitoring and commissioning.

Troubleshooting and Diagnostics: The UMP module provides comprehensive troubleshooting and diagnostic functions to help users quickly locate and solve problems, and improve the reliability and stability of the production process.

Expansion and upgrading: UMP module adopts modular design, which can be expanded and upgraded according to users’ needs, facilitating system integration and customization.

In short, the Enhanced Master Processor (UMP) modules are powerful enough to meet a wide variety of industrial automation control needs, improving productivity and product quality.

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Triconex EcoStruxure Triconex – Tricon CX Powerful Safety System

EcoStruxure™ Triconex® – Tricon CX

EcoStruxure™ Triconex Safety Systems – Superior Protection for People, Production and Profitability

We understand that you require safety instrumented systems not only to keep your operations safe, but also to keep them running continuously, avoiding any unplanned shutdowns or disruptions that affect profitability.

EcoStruxure Triconex – Tricon CX is Triconex’s most powerful safety system.

Utilizing the field-proven pedigree of the Tricon, Trident and Tri-GP systems, the Tricon CX is the best choice when safety and profitability are critical success factors.

High Performance, High Capacity

Tricon CX is Triconex’ most powerful security system. Each www.abb-drive.com Tricon CX controller is capable of handling 15 I/0 racks of 90 I/0 modules and 2.800 physical I0s.

Up to 254 nodes can be networked in a single peer-to-peer network, managing more than 750.000 physical TMR I/Os.

OVERVIEW

The Tricon CX provides continuous operation, superior plant uptime and high productivity in a compact unit.

The Tricon CX provides a lifetime of flexibility without compromising safety.

Its simple mechanical design, flexible architecture and advanced features ensure that as your needs change and expand, your protection can grow with them.

Designed and built with superior ease of use, Tricon CX can be quickly and easily engineered, installed, configured, operated, and maintained, reducing overall capital and operating expenditures.

Features

Flexibility

I/O deployment supports centralized and distributed applications

Modifications can be made without shutting down operations

Performance

Built-in high integrity and fault tolerance

Built-in diagnostics and redundancy management – transparent to users

SIL3 even under fault conditions

High-capacity processing – more than 750.000 TMR I/O channels

Fast scan time (from 20 ms)

Up to 60.000 SOEs per controller

Advanced input/output monitoring and control

1 ms SOE timestamps marked on I/O modules

Direct HART integration and transfer to asset management systems

Universal I/O modules with per-point configuration

Communication and Integration

Peer-to-peer communication with up to 254 nodes

Universal connectivity to all major distributed control systems (DCS), process automation systems, SCADA and HMIs

Direct integration with EcoStruxure Foxboro DCS

Maintenance

Processor, communications, and I/O modules can be replaced online without shutting down operations

Hot spare slots for continuous operation

Easy diagnostics for fast status and fault analysis

In-line modifications and changes, in-line module changes, and hot spare slots – allow for continuous production without shutting down operations

Increased productivity and performance

Software tools for every step of the safety lifecycle (TriStation Software Suite)

Design systems faster with the TriStation TS1131 System Configuration, Programming and Documentation

TriStation Simulator for faster application testing using offline simulation without the need for a physical controller

Troubleshoot maintenance issues faster with enhanced diagnostic monitors for status and operational condition information

Troubleshoot process issues with TriStation SOE retrieval displays and analysis

Faster verification/re-verification of application logic with Safety Validator for automated testing and documentation of application logic

Report Generator for customized reports across multiple controllers or projects

Manage system changes faster with EcoStruxure System Advisor – Process Safety

Faster restart of operations with SIF Manager – Trip advisor software application

Manage prioritized alarms and bypasses with Safety View ABM software application

Applications

Safety and critical control applications

Emergency Shutdown (ESD)

Fire and Gas (F&G)

Burner Management Systems (BMS)

High Integrity Pressure Protection Systems (HIPPS)

Turbomachinery Control and Protection (TMC)

Industries

Refining & Petrochemicals

Upstream and Midstream Oil & Gas

Chemicals and specialty chemicals

Power Generation

Triconex 3504E High Density Digital Input Module

64-Point Digital Input Modules

Each 64-point digital input (DI) module has three isolated channels that independently process all data from the input module.

A microprocessor on each channel scans each input point, compiles the data, and transmits it to the main processor as required.

The input data is then voted on the main processor before being processed to ensure the highest integrity.

All digital input modules provide complete, continuous diagnostics for each channel.

A fault on any channel activates a fault indicator, which in turn activates a chassis alarm.

The TMR module is guaranteed to operate normally in the event of a single fault, and in some cases.

The TMR modules are guaranteed to operate in the event of a single fault, and in some cases, in the event of multiple faults.

All digital input modules support hot standby modules, which www.abb-drive.com require a separate external termination panel (ETP) with cable connections to the Tricon backplane.

Each module is mechanically keyed to prevent improper installation in the chassis.

The Model 3504E High Density Digital Input Module provides continuous verification of Tricon’s ability to detect transitions to the opposite state.

On this TMR module, all critical signal paths are 100% tripled to ensure safety and maximum availability.

Each channel regulates the signal independently between the field and Tricon.

The Single Digital Input Module (Model 3564) is optimized for safety-critical applications where low cost is more important than maximum availability.

On a single module, only the portion of the signal path required to ensure safe operation is triplexed.

Triplexed. Special self-test circuits detect all “stuck-on” and “stuck-off” fault conditions within half a second.

If an individual module detects an input fault, it will report that point as OFF, which could cause a fault when switching to a hot standby module.

Triconex TMR Digital Input Module

TMR Digital Input Modules

Each TMR Digital Input (DI) Module has three independent input channels that independently process all data entered into the module.

A microprocessor on each channel scans each input point, compiles the data, and transmits it to the main processor as required.

The input data is then voted on the main processor before being processed to ensure the highest integrity.

All critical signal paths are 100% triple processed to ensure safety and maximum availability.

Guaranteed safety and maximum availability. Each channel regulates signals independently and provides optical isolation between the field and the Tricon.

All TMR digital input modules provide complete and continuous diagnostics for each channel.

Any diagnostic failure on any channel activates the Module Failure Indicator, which in turn activates the chassis alarm signal.

The Module Failure Indicator points to a channel failure, not a module failure. www.abb-drive.com Modules are guaranteed to operate normally in the event of a single failure and to continue to operate normally in the event of multiple failures of certain types.

Models 3502E, 3503E, and 3505E can perform a self-test to detect a “stuck-open” condition in which the circuitry is unable to determine whether a point has entered a shutdown state.

The ability to detect the point of shutdown is an important feature since most security systems have a power failure trip feature.

In order to detect the presence of a “stuck-open” input, the switch within the input circuit needs to be turned off in order for the opto-isolated circuit to read a zero input (“off”).

The I/O communications processor will freeze the last reading while the test is running.

All TMR digital input modules support the hot standby feature and require a separate external termination panel (ETP) with cable connections to the Tricon backplane.

Each module is mechanically keyed to prevent improper installation in the configured chassis.

Triconex 3505E Analog Output Module

Product Description

Manufacturer : Triconex

Product Code : 3505E

Product Type : Analog Output Module

Type : TMR

Output current range : 4-20 mA output (+6% over range)

Number of output points : 8

Isolation point : None, common loop, DC coupling

Resolution : 12 bits

Output Accuracy: <0.25% of FSR (0-21.2 mA) (4-20 mA range) from 32° to 140° F (0° to 60° C)

Over-range protection: +42.5 VDC, continuous

Branch circuit fault switching time: < 10 ms, typical

Color: Pea Green

Weight: 4 kg

Dimensions: 9 kg

Shipping weight: 10 kg

Tricon Syste

The Tricon system is a powerful, scalable design that ensures continuous operation, www.abb-drive.com complies with international safety standards such as IEC61508. and meets the requirements for emergency shutdown (ESD), fire and gas protection (F&G), burner protection (F&G) and fire safety.

It also meets the requirements of applications such as Emergency Shutdown (ESD), Fire and Gas Protection (F&G), Burner Management System (BMS), High Integrity Pressure Protection (HIPPS) and Turbomachinery Control (TMC).

The redundant high availability architecture provides a flexible, robust, reliable and powerful solution that is ideally suited for customers looking to achieve environmental and safety excellence.

Tricon systems are a must for customers who need to maximize the safety and performance of their assets.

If you are challenged to reduce investment and lifecycle costs, meet new security standards,

tough competitive pressures in the marketplace, and the well-being of your employees and the environment, then a Tricon system is designed for you.

The Triconex family allows customers to optimize their choice of security system for their specific requirements.

Our strengths are the Tricon Racks, Tricon Power Modules, Main Processor Modules, Input Modules, Output Modules, and the Tricon Communication Module TCM.

A Triconex system typically consists of the following typical modules:

Main Processor Module (Triple)

Communication Module

Input and output modules: can be analog and/or digital, and can operate independently or in hot standby (standby)

Power supply module (redundant)

Backplane (chassis) that can accommodate previous modules

System cabinets: one or more chassis can be compressed into a single cabinet

Grouping cabinets to accommodate and standardize interface connections between field instruments and Triconex system cabinets

Human Machine Interface (HMI) for monitoring events

Engineering Workstation (EWS) for programming monitoring, troubleshooting and updating

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GE IC695ALG608 PACsystem RX3i Analog Input Module

DESCRIPTION: The IC695ALG608 is an analog input module that is part of the PACSystem RX3i platform, currently part of Emerson Automation and formerly manufactured by GE Intelligent Platforms (GE IP). The module features eight (8) non-isolated single-ended input channels or four (4) differential input channels supporting +/-10 VDC, 0-10 VDC, +/- 5VDC, 0-5 VDC, 1-5 VDC, and 0-20 mA, 4-20 mA, and +/- 20mA input signals. The module has a built-in ADC converter that converts data to floating-point data type integers with 24-bit resolution.

About the IC695ALG608

The IC695ALG608 is an analog input module for the PACsystem RX3i platform. When configured for single-ended wiring, the module is capable of providing up to eight (8) input channels and four (4) input channels for differential input wiring. It supports a variety of input signals such as +/-10 VDC, 0-10 VDC, +/- 5 VDC, 0-5 VDC, 1-5 VDC, and 0-20 mA, 4-20 mA, and +/- 20mA inputs, and has a built-in 24-bit analog-to-digital www.abb-drive.com converter (ADC) that converts incoming analog data to integer or floating-point data.

The IC695ALG608 is mounted on the RX3i general-purpose backplane. It occupies a single slot in the rack and consumes 330 mA max @ 5.0V +5% / -2.5% and 600 mA max @ 3.3V +5% / -3%. This module is used with RX3i Central Processing Unit (CPU) firmware version 3.0 or higher and is configured using Machine Edition version 5.0 SP3 and higher. Available filter options for each input channel include 8Hz, 12Hz, 16Hz, 40Hz, 200Hz, and 500Hz, which are primarily used to normalize analog readings and eliminate fast fluctuations.

This IC695ALG608 is compatible with a variety of terminal blocks such as cassette (IC694TBB032), extended cassette (IC694TBB132), spring-loaded (IC694TBS032), or extended spring-loaded (IC694TBS132) terminal blocks. The module has no external jumpers for setting up module operation, but rather defines parameters via software-configurable parameters. In addition, the module features fully automatic calibration, on-board error checking, open-circuit detection, alarm setup, module fault reporting, channel alarm interrupts and faults, and other equally important features.

The GE Fanuc IC695ALG608 module is a non-isolated analog current or voltage input module that supports single-ended and differential distribution line configurations. The module is from the RX3i PacSystem family. The current range of the module is between 0 and 20 mA, 4 and 20 mA, and -20 and +20 mA. The module has a voltage range of -10 to +10 volts DC, 0 to 10 volts DC, 0 to 5 volts DC, and 1 to 5 volts DC. It has four differential input channels or eight single-ended input channels with internal current ratings of 450 mA (3.3 V) and 600 mA (5 V).GE Fanuc IC695ALG608 analog input module can be used with the extended spring-loaded IC694TBS132 terminal block, extended cartridge IC694TBB132 terminal block, and spring-loaded IC694TBS032 terminal block. IC694TBS032. spring-loaded IC694TBS032. and box-type IC694TBB032 terminal blocks. The extended terminals provide the extra shroud depth needed for shielded wiring.

The GE Fanuc IC695ALG608 analog input module is installed in the RX3i PacSystem’s universal backplane. It features on-board error monitoring, module fault reporting, full auto-calibration, startup auto-calibration, negative and positive alarm rate of change, terminal block detection for removing or inserting terminals, and flash memory for upgrades. When testing the input channels of the GE Fanuc IC695ALG608 module, 3 things need to be confirmed: stable channels, accurate channels and active channels. Users need to use a high density terminal strip like the IC694TBB032 strip to test the module. Ensure that the strip is connected by confirming that the green LED is on and that the strip’s lever is in the upright position.

IC695ALG608 Frequently Asked Questions

1. Does the IC695ALG608 support thermocouple sensors?

No. The module only supports 0 to 20mA, 4 to 20mA ± 20mA current signals and ±10V, 0 to 10V, ±5V, 0 to 5V, 1 to 5V voltage signals. 2.

2. Does the module perform automatic calibration?

Yes. Auto-calibration is performed during the power-up sequence.

3. What is the resolution of the module?

The IC695ALG608 has a 24-bit conversion resolution. 1.

1. How many input channels does the IC695ALG608 have?

The module has eight (8) single-ended and four (4) differential input channels.

2. What is the module resolution of the IC695ALG608?

The IC695ALG608 has a 24-bit resolution.

IC695ALG608 Technical Description

The IC695ALG608 is a PACSystem RX3i Programmable Automation Controller (PAC) non-isolated analog input module, formerly manufactured by GE Intelligent Platforms (GE IP) and now part of Emerson Automation. The module provides eight (8) channels of single-ended inputs or four (4) channels of differential inputs and is compatible with 0 to 20mA, 4 to 20mA ± 20mA current signals and ±10V, 0 to 10V, ±5V, 0 to 5V, and 1 to 5V voltage signals. The module is mounted on the RX3i universal backplane and features 24-bit ADC conversion resolution.

GE IC695ALG628 PACSystem RX3i Non-Isolated Analog Input Module

DESCRIPTION: The IC695ALG628 is an analog input module that is part of the PACSystem RX3i platform, which is currently part of Emerson Automation and was formerly manufactured by GE Intelligent Platforms (GE IP). The module features eight (8) non-isolated single-ended input channels or four (4) differential input channels supporting +/-10 VDC, 0-10 VDC, +/- 5 VDC, 0-5 VDC, 1-5 VDC, and 0-20 mA, 4-20 mA, and +/- 20mA input signals. The module has a built-in ADC converter that converts data to floating point data type integers with 24-bit resolution. The module supports High Speed Addressable Remote Sensor (HART) version 5.0.

About the IC695ALG628

The IC695ALG628 is an analog input module with High Speed Addressable Remote Sensor (HART) 5.0 functionality. This module is part of the mid-range controller family, the PACSystem Rx3i series with eight (8) analog input channels (configured as single-ended) and four (4) input channels (if used in a differential distribution line configuration). It comes with two (2) internal HART modems. The module’s parameters and configuration are completely software configurable and each channel can be individually assigned high alarm, low alarm, high high alarm, low low alarm detection and reporting to the CPU. In addition, positive and negative rate of change alarms and configurable interrupts for channel alarms and faults can be set accordingly. The module www.abb-drive.com also comes with upgradable firmware and performs an automatic calibration each time the module is powered up.

The module’s analog input channels are designed to accept +/-10 VDC, 0-10 VDC, +/- 5 VDC, 0-5 VDC, 1-5 VDC and 0-20 mA, 4-20 mA and +/- 20mA input signals. It has built-in analog-to-digital (ADC) converter circuitry that converts received analog data to 24-bit registers or 32-bit integers in floating point. Each module channel has a variety of filter options, often used to eliminate signal fluctuations for more stable readings.

The module’s power consumption is 450 mA maximum @ 5.0V +5%/-2.5% and 625 mA maximum @ 3.3V +5%/-3%. It incorporates continuous maximum overcurrent protection rated at +/-28mA and continuous maximum overvoltage protection at +/-60 VDC. The module has an open-circuit detection time of up to 1 second.

GE Fanuc IC695ALG628 Non-Isolated Differential Analog Input Module with HART (High Speed Addressable Remote Transducer) Communication for RX3i PacSystem PLCs provides 4 differential input channels and 8 single-ended input channels. It has 2 internal HART modems and features HART version 5.0 HART communications on each channel. It has a voltage range of 1 to 5 volts DC, 0 to 5 volts DC, +/-5 volts DC, 0 to 10 volts DC, or +/-10 volts DC. The current configuration of the input channel can range from +/-20 mA, 0 to 20 mA, or 4 to 20 mA. The GE Fanuc IC695ALG628 analog input module should be configured for a current range between 4 and 20 mA when the channel is connected to a highway addressable remote sensor communication system.

The GE Fanuc IC695ALG628 Analog Input Module supports the use of extension box IC694TBB132 block, box IC694TBB032 block, extension spring IC694TBS132 block, and spring IC694TBS032 block terminal blocks. Extension terminals are installed to provide the extra shroud depth required for shielded wiring. Terminals are usually purchased separately. The analog input module has internal power supplies of 3.3 V (600 mA) and 5 V (450 mA). It has flash memory for future upgrades, error reporting, rate-of-change alarms, software that can be configured without setting jumpers, terminal insertion or removal detection, and complete auto-calibration. The module requires a non-condensing ambient humidity range of 5% to 95%.The GE Fanuc IC695ALG628 module is mounted in the general purpose backplane of the RX3i PacSystem PLC.

IC695ALG628 Frequently Asked Questions

1. Does the IC695ALG628 detect incorrectly installed terminals?

Yes. The module monitors the terminal connections with the appropriate LEDs.

2. Does the module support the HART protocol?

Yes, the module supports the HART 5.0 protocol. The module supports the HART 5.0 protocol.

3. Does the IC695ALG628 support auto-calibration?

Yes, the IC695ALG628 supports auto-calibration. This IC695ALG628 supports auto-calibration during startup.

1. How many HART modems are available with the IC695ALG628?

The IC695ALG628 comes with two (2) internal HART modems.

3. What input signals does the IC695ALG628 accept?

The acceptable analog input signals are +/-10 VDC, 0-10 VDC, +/- 5 VDC, 0-5 VDC, 1-5 VDC and 0-20 mA, 4-20 mA and +/- 20mA.

IC695ALG628 Technical Description

The IC695ALG628 is a PACSystem RX3i Programmable Automation Controller (PAC) non-isolated analog input module, formerly manufactured by GE Intelligent Platforms (GE IP) and now part of Emerson Automation. The module features eight (8) single-ended inputs or four (4) differential input channels and is compatible with 0 to 20mA, 4 to 20mA ± 20mA current signals and ±10V, 0 to 10V, ±5V, 0 to 5V, and 1 to 5V voltage signals. The module is mounted on the RX3i general purpose backplane and features 24-bit ADC conversion resolution. Each channel of the module provides HART 5.0 communications.

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