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April 21, 2025 BY
IN A-B

A-B 6180W-12BPXPHDC Industrial Workstation VersaView Computer

Allen-Bradley’s 6180W-12BPXPHDC industrial workstation is part of the VersaView 1200W product line, which operates from 19 to 32 volts.

The unit features a 12-inch colour TFT touchscreen with a resolution of 800 x 600 pixels.

The 6180W-12BPXPHDC workstation is equipped with a 2 gigahertz Pentium IV processor, 512 megabytes of RAM and an 80 gigabyte hard drive.

The VersaView 1200W industrial workstation, known as the 6180W-12BPXPHDC workstation.

is an Allen-Bradley/Rockwell Automation component intended for professional industrial use.

A-B Rockwell 6180W-12BPXPHDC Industrial Workstation VersaView Computer

This product is part of the Allen-Bradley Bulletin 6180W product line and is used or intended for machine control purposes, maintenance

and generally for providing valuable information about currently running applications.

The 6180W-12BPXPHDC visual interface workstation has an integrated keypad that can be used to display data related to startup processes, repair procedures, or maintenance steps.

The VersaView product line is available in a number of different models, as well as different standard ratings and performance models.

The 6180W-12BPXPHDC VersaView 1200W Workstation includes a cost-effective platform that is

for demanding environments, application interoperability and the latest technology.

In addition to the numeric keypad, the 6180W-12BPXPHDC workstation has 36 function keys that are programmable and support I/O via optional cards.

In addition to this, the 6180W-12BPXPHDC workstation features two USB ports as well as for serial and parallel communication.

Ethernet (10/100 M) communications and audio connections. In addition, the workstation has a VGA input for connecting an external monitor.

The 6180W-12BPXPHDC workstation features a 24-bit colour www.cniacs.com TFT display with 800 x 600 pixel resolution.

Two half-length PCI slots and one full-length ISA expansion slot are included. This 1200W workstation variant comes with a 12-inch display size.

This particular performance model features a resistive touchscreen. In addition, the workstation runs on a DC power supply.

It includes a 2 GHz Pentium IV processor as well as 512 megabytes of RAM. The assembly includes 80 GB of hard disc space and a DVD/CD-RW drive.

The input voltage range is 19 to 32 volts DC.
April 21, 2025 BY
IN GE

Mark V Control System DS200TBQBG1ACB Input Termination Module

Functional Description

The DS200TBQBG1ACB is an input termination module developed by GE. It is part of the Mark V control system.

The input termination module (TBQB) is strategically located in position 7 within the R2 and R3 cores of the system.

This terminal block plays a key role in processing and handling the various input signals that are critical for monitoring and controlling operating parameters.

Features

Location and Connectivity: In the R2 core, the terminal board connects to the TCQA and TCQC boards located in the R1 core.

This connection facilitates the transfer of data and signals between cores for coordinated monitoring and control operations.

Similarly, in the R3 kernel, the terminal boards are connected to the TCQA and TCQC boards within the same kernel.

This setup ensures localised processing and integration of the input signals required for R3 kernel operation.

Input signals processed: The terminal blocks receive and process various types of input signals that are essential for operational monitoring:

Voltage signals: These signals provide insight into electrical parameters such as voltage levels within the system.

Vibration signals: Vibration monitoring signals help to assess mechanical integrity and performance and are essential for preventing equipment failure and optimising maintenance schedules.

Pulse rate signals: Pulse rate inputs indicate the frequency or rate of a specific event or process, helping to make precise monitoring and control adjustments.

Integration with TCQA and TCQC boards: Integration with TCQA and TCQC boards allows the TBQB Terminal Block to seamlessly interface with control and acquisition systems.

This integration supports real-time data acquisition, processing, www.cniacs.com and transmission, thus enhancing overall system responsiveness and reliability.

Operational Impact: By integrating these input signals on the board, the system benefits from centralised data processing and streamlined communication between cores.

This setup optimises operational efficiency, facilitates predictive maintenance strategies and ensures timely response to operational anomalies.
April 21, 2025 BY
IN ABB

ABB PFVA401 Millmate Controller 400

The Millmate Controller 400 is designed to provide many features while being highly user friendly.

The MC 400 covers most mechanical arrangements. This means that the user only needs to follow step-by-step instructions to set up the controller and get the correct rolling force measurements.

. Predefined standard measurement modes .

. Built-in load cell table .

. Filtering times from 1 to 2000 ms .

. Easily configurable analogue/digital inputs/outputs

. Level Detectors

. Step Detectors

. Unit selection (N, kN, MN, kp, t, lb, T) .

. Self-diagnostic test system including sensor test

Data

External connections:

. Excitation current for load cell

. 2 or 4 analogue inputs for load cell signals.

.4 analogue outputs, voltage or current

.8 digital inputs for control www.cniacs.com signals

.8 digital outputs

. +.8 digital outputs .

. Ethernet connection for service and multiple control units .

.2 serial interfaces type RS-232 for external displays, controls, etc. .

. 1 serial interface type RS-485 for external display .

. High-speed Profibus (optional)
April 21, 2025 BY
IN MOOG

MOOG P-I Servo Amplifiers G122-824

Description

The G122-824 P-I Servo Amplifier is used in closed-loop applications where a proportional and/or integral amplifier is required.

The amplifier’s internal selector switch selects proportional, integral, or both. Many of the characteristics of the amplifier can be selected by the internal switches.

Thus, one amplifier can be used for many different applications. The configuration options offered are the result of many years of experience in the design and commissioning of closed-loop systems.

The servo amplifier uses analogue electronics. It www.cniacs.com accepts three input signals, two single-ended and one differential.

These signals are summed to produce an error signal, which is then scaled and integrated. The proportional and integral signals are switched together and output as current or voltage to drive the servo valve.

Trim potentiometers, LEDs and test points on the front panel allow for quick and easy setup and aid in troubleshooting.

The servo amplifier is housed in a compact DIN rail mounted enclosure and requires +24V power.

Functions

P, I or P & I control

User-friendly front panel with LEDs and test points

Single-ended input, 4-20 mA or ±10 V, selectable by switch

Single-ended inputs, expandable

Differential Inputs with Zero and Gain

Feedback Sensor Excitation Output

Step Button

Selectable Feedback Derivative Terminology

‘In-position’ output

Jitter

Enable Input

Compact DIN rail housing

CE Marking

Switch Selection

Input 1 On or Off

Feedback input 4-20 mA or ±10 V

Input 2 4-20 mA or ±10 V

Proportional control, integral control or both

Integrator input from unity gain or amplified error signal

Integrator limit

Output current or voltage

Output current level

Dither on or off

Plug-in resistor

Input 2 = 100k for ±10 V

Feedback derivative term = unloaded

Proportional gain range = 100k, 1 to 20 range

Input 2 directly connected to output amplifier = not loaded
April 17, 2025 BY
IN ABB

ABB Z401 PGC2000 Gas Chromatograph

Type of course and methodology

This course is delivered by an instructor, with approximately one-third of the course consisting of hands-on activities.

Trainee Profile

This training is intended for end-user analyser technicians, operators or engineers responsible for operating the PGC2000 process gas chromatograph.

Prerequisites

This course is an introductory level course designed for those who are new to this analyser system or need refresher training.

Course Objectives

Upon completion of this course, the participant will have a basic understanding of the fundamental operation of the PGC2000 process gas chromatograph.

The duration is 4 days.

www.cniacs.com Key Contents

– Basic Sample Systems

– Basic gas chromatography

– Analyser operation

– Controller section

– Oven section

Duration

The duration is 4 days.
April 17, 2025 BY
IN ABB

ABB EIB Delta-Meter Plus Electricity Meters

EIB Delta-Meter Plus Electricity Meters

EIB Delta-Meters Plus are PTB-approved, electronic energy meters with an integrated ABB i-bus® EIB / KNX communication interface.

EIB Delta-Meters Plus are compact, reliable, immune to interference impulses and suitable for use in single-phase and polyphase voltage networks. As the meters have no mechanical moving parts, they can easily be snapped in any position onto DIN rails. The EIB communication interface enables remote reading of the meter data via the ABB i-bus® EIB for billing, energy optimisation, visualisation or installation monitoring purposes.

They can be universally employed for submetering applications in industrial installations, commercial buildings, offices, leisure complexes and private households.

Special features:

●   Precise measurement of energy consumption (kWh, kvarh with combination meter)

●   For 2-, 3- and 4-wire voltage networks with any load

●   Integrated EIB / KNX interface for remote reading of meter data

●   Network monitoring function: recording and display of up to 24 electrical measured variables

●   Automatic wiring check with an installation self-test

●   Easy to www.cniacs.com read LCD display, LED indicator for energy consumption

●   Direct connection up to 80 A

●   Transformer connection (/1A or /5 A) with transformer rated meter

●   Accuracy classes 1 or 2

●   Tariff meter with 4 tariffs

●   Fulfils standards IEC 61036/61268

●   Resistant to shocks and vibration, can be mounted in any position

●   System pro M design: can be snapped onto 35 mm DIN rail, sealable
April 17, 2025 BY
IN ABB

ABB AZ100 series Zirconia oxygen analyzer

Introduction

The AZ100 Zirconia Oxygen Analyzer is a versatile system designed primarily for the OEM boiler and burner controls market.

The system is a low-temperature type designed to work in process temperatures up to 800 °C (1472 °F) and with a maximum sensor mounting flange temperature of 400 °C(752 °F).

The analyzer provides oxygen computation, with readout and retransmission, based on the probe mV output signal. The output signal (E mV) is Nernstian in form and follows the equation:

E (mv) = 0.0496T(log10 P0 / P1) ± CmV

Where:  T = Absolute temperature

P0 = Reference O2 partial pressure

P1 = Sample O2 partial pressure

C = Cell constant (mV zero offset)

0.0496 = Faraday’s gas constant

Probe design

The probe uses the proven and innovative ABB electrode and cell design technology which has been so reliable in other ABB zirconia probe designs.

The flexible probe design gives a range of intake tube lengths to suit all applications and an optional filter/flame arrester making it safe for use where groups IIB and IIC gases may occur in the process being measured. The probe has options of male thread NPT or BSPT mountings. As with all previous ABB designs of low temperature probes, the AZ100 probe is site-serviceable.

As the sensor housing is located on the outside of the duct wall, diffusion of reference air into the sensor housing is sufficient; thus eliminating the need for an air pump or instrument air supply.

The reference air diffuses into the housing through a porous membrane which restricts entry to air only and maintains the IP66 (NEMA 4X) protection.

Transmitter design

The transmitter has, as standard, high/low alarm relays and a single linear or logarithmic isolated retransmission. Display features include %O2. cell temperature, heater control output, cell mV, alarm set points, calibration sequence diagnostics and output settings.

At system startup the transmitter controls the level of power to the mains-powered heater within the probe to eliminate the risk of thermal shock to the sensor.

Based on the proven 4600 Series of transmitters, the AZ100 transmitters are environmentally protected to NEMA 4X (IP65)*, and meet the requirements EN61326 for industrial locations.

The AZ100 transmitters have a green, backlit LCD display and four tactile membrane switches for operation and programming. The measured value display is a 5-digit, 7-segment LCD, while the information display is a 16-character, single line, dot-matrix.

The information display can be user-programmed for display in English, French, German or Spanish.
April 17, 2025 BY
IN GE

Fanuc IC695ALG600 Resistance Temperature Detector (RTD) Input Module

This IC695ALG600 is a general-purpose analogue input module for the PACSystems RX3i programmable automation controller (PAC) platform.

The module supports a wide range of input signals such as voltage, current, resistance, and supports thermocouples and resistance temperature detectors (RTDs).

The module is now manufactured by Emerson Automation, formerly known as GE Intelligent Platform (GE IP).

This IC695ALG600 comes with two (2) banks of four (4) channels each that can be configured for any combination of input signals.

It supports 0-20 mA, 4-20 mA, +/-20 mA current signals; +50 mV, +150 mV, 0-5 V, 1-5 V, 0-10 V, +10 V voltage signals.

0 to 250 / 500 / 1000 / 2000 / 3000 / 4000 ohm resistance signals; PT 385 / 3916. N 618 / 672. NiFe 518. CU 426 RTD sensors.

B, C, E, J, K, N, R, S, T thermocouple inputs.

The IC695ALG600 is installed on the RX3i Universal Backplane and requires at least firmware version 2.80 or higher.

This module is configured using Proficy Machine Edition (PME) version 5.0 SP1A LD-PLC Hotfix 1 or higher.

For signal termination, this module requires a cassette (IC694TBB032), expansion cassette (IC694TBB132),

spring-loaded (IC694TBS032) or extended spring-loaded (IC694TBS132) terminal blocks. Extension terminals are recommended.

These terminals have slightly larger covers to accommodate wires and shields with thicker insulation.

The module supports flash memory and status www.cniacs.com LEDs for future upgrades, such as module status, field status, and TB LEDs.

The GE Fanuc IC695ALG600 Resistance Temperature Detector (RTD) Input Module has a maximum power consumption of 5.4 watts.

The internal power rating is 350.3 mA at 350.3 volts and 5 mA at 400 volts.400. The input channels are divided into 2 groups of 4 each.

Each channel can be independently set up using Machine Edition software to operate at +/-50 mV, +/-150 mV, 0 to 5 volts, 1 to 5 volts, 0 to 10 volts, 1 to 5 volts, and 0 to 10 volts,

1 to 5 volts, 0 to 10 volts DC, +/-10 volts DC, or 0 to 20 mA, 4 to 20 mA, or +/-20 mA.
April 17, 2025 BY
IN GE

Fanuc IC695ALG616 Non-Isolated Differential Analogue Input Module

The IC695ALG616 is a PACSystem RX3i Programmable Automation Controller (PAC) non-isolated analogue input module, formerly manufactured by GE Intelligent Platforms (GE IP) and now part of Emerson Automation. The module features sixteen (16) single-ended inputs or eight (8) 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 has 24-bit ADC conversion resolution. This IC695ALG616 is an analogue input module manufactured by Emerson Automation (formerly GE Intelligent Platforms (GE IP)). If configured as a single-ended input, this module functions to provide sixteen (16) analogue input channels or eight (8) analogue inputs for differential wiring. It has an internal analogue-to-digital www.cniacs.com converter (ADC) with a 24-bit output conversion resolution.

The IC695ALG616 input channels are compatible with wires with analogue current and voltage signals. The module accepts current signals including 0 to 20mA, 4 to 20mA, ± 20mA current signals and ±10V, 0 to 10V, ±5V, 0 to 5V, 1 to 5V voltage signals. The converted analogue data is saved as floating point 16-bit IEEE data or 32-bit integers using 32-bit registers. Each channel of the module has configurable channel filters to stabilise and minimise fluctuations to be useful to the process. Configurable input filters include 8Hz, 12Hz, 16Hz, 40Hz, 200Hz, and 500Hz.

The module’s parameters are configured using Proficy Machine Edition (PME) programming software. No jumpers or DIP switches are required to indicate the operation of the module. In addition, the module is capable of performing automatic calibration during each startup. Embedded module protections include open-circuit detection, overvoltage and overcurrent protection. In addition to these protection settings, each channel can be individually configured with alarm settings, specifically very low, low, high and very high alarms. Positive and negative rates of change can also be included in the module’s alarm functions, and module faults can be configured to be reported to the host CPU.
April 17, 2025 BY
IN GE

Fanuc IC695ALG626 Non-Isolated Differential Analogue Voltage/Current Input Module

The IC695ALG626 is a PACSystem RX3i Programmable Automation Controller (PAC) non-isolated analogue input module, formerly manufactured by GE Intelligent Platforms (GE IP) and now part of Emerson Automation. The module features sixteen (16) single-ended inputs or eight (8) 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. The IC695ALG626 is a Highway Addressable Remote Transducer (HART) 0.3 capable analogue input module for the PACSystem RX5i platform. The module was previously manufactured by GE Intelligent Platforms (GE IP), which was recently acquired by Emerson Automation. The module is primarily used to interface with analogue field instruments that measure process variables and transmit the measurements to a receiving element (e.g., IC695ALG626) for processing. This IC695ALG626 can therefore be used with field instruments www.cniacs.com that provide 0 to 20mA, 4 to 20mA ± 20mA current signals as well as ±10V, 0 to 10V, ±5V, 0 to 5V, 1 to 5V voltage signals.

The IC695ALG626 is capable of providing sixteen (16) input channels if configured for single-ended inputs and eight (8) inputs for differential wiring. By supporting the HART protocol, each channel can communicate with an external HART communicator to access not only readings, but also other HART parameters.

The IC695ALG626 has LED status indicators such as the Module Normal, Field Status, and TB LEDs.The Module Normal LED is used to indicate that the module is configured correctly when the LED is green and constantly lit; if it is slowly blinking green or amber, there is an error; if it is blinking rapidly, the module is not configured correctly; and if the Module LED is off, there is a fault or no power. The field status LED is green and always on, indicating that there are no faults on the enabled channel and when the terminals are present; amber indicates that the module’s channel is in a faulty state, and an extinguished LED indicates that the terminals are disconnected or incorrectly installed. The TB LED lights up red when no terminals are connected; it lights up green when terminals are connected and goes out if there is no backplane power.

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