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Month: April 2025

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April 8, 2025 BY
IN Honeywell

HONEYWELL BW™ RIGRAT Transportable Multi-gas Area Monitor

Honeywell BW™ RigRat is so easy to use that workers can operate it with confidence,trusting it to alert them to gas threats in their proximity — indoors and out, in 

temperatures from -40 to +140°F (-40 to +60°C). Honeywell BW™ RigRat delivers:   

• Up to 8 weeks of runtime on a single charge. Longer runtime than any area monitor in its class.  

• Up to six slots for interchangeable gas sensors. Choice of electrochemical, PID,infrared, and catalytic bead sensors (measuring percent LEL and percent by volume).

 • Integrated Noise sensor and Metrological data sensors.

 • Enhanced configurations with programmable input and output.

 • Approval for explosive atmosphere. 

Certified for ATEX/IECEx Zone 0 and CSA C1D1. 

• Flexible applications. Zone declassification, turnarounds, confined dcs-sis.com space, routine maintenance, fence line and more. Available with pump for remote sampling.

 • One-button operation. Grab and go. No expertise required. 

• Simple setup with a smartphone. Easy mobile app for alarm set points, calibration records and more.

 • Added protection. Alerts workers to nearby gas leaks, whereas personal detectors cover only the breathing zone.

FEATURES AND BENEFITS

WIRELESS SAFETY PERIMETER

Position several Honeywell BW™  RigRat monitors to form a wireless safety perimeter.

REMOTE MONITORING 

Use with Honeywell’s remote monitoring software to see gas readings, location and other data from any device with an internet connection — for fast, informed decisions. Add an optional noise  sensor or meteorological sensor.

OTHER HONEYWELL BWTM RIGRAT FEATURES:

• Line power for extended runtime in the field

• I/O ports providing additional input capabilities and local executive activation. 

• Inert mode that prevents alarm in normal ambient air. 

• Large, easy-to-read display

• Rugged, weatherproof design, with optional protective cage

HONEYWELL TOUCHPOINT™ PLUS COMPATIBLE

Use with the Honeywell Touchpoint™ Plus controller for visibility on Honeywell BW™ RigRat monitors and workers’ personal detectors.
April 8, 2025 BY
IN Honeywell

HONEYWELL BW™ SOLO Repairable Single Gas Detector

The next-generation single-gas detector that helps you reduce cost, ensure compliance and know your workers are protected.

Honeywell BW™ Solo has everything you expect — plus additional features to make your compliance easier and more cost-effective than ever. All with a reliable life span,one-button operation and small, lightweight profile. Honeywell BW™ Solo is:

 • The easiest single-gas detector to service, with no need to take it apart to replace sensors, batteries and sensor filters. That means long life and low cost.

 • Complete with an extensive selection of sensor options. dcs-sis.com Count on comprehensive detection, whether you’re monitoring for common or exotic hazards.

 • The first single-gas detector with the 1-Series sensor for CO, H2S, O2and CO2

 . That means high accuracy, lower costs and faster sensor response time for the gases you monitor most often.

 • Compatible with IntelliDoX. Save time and centralize data with automated bump testing, calibration and instrument management. Use IntelliDoX docking stations with Honeywell SafetySuite Device Configurator software to maintain and monitor your entire fleet from practically anywhere.

FEATURES AND BENEFITS

For even more time-saving convenience — plus remote visibility on alarms — choose the wireless version. And manage it from your smartphone.

Pair the wireless Honeywell BW™ Solo with our Safety Communicator mobile app and detector readings are sent instantly to Honeywell’s real-time monitoring software – Honeywell Safety Suite Real Time – which can be accessed from any device with an internet connection, and get remote visibility on worker safety and location.

You can also use the wireless Honeywell BW™ Solo to share gas data with the desktop software — no dock required.

Other Honeywell BW™ Solo features: 

• Option to activate IntelliFlash™ or non-compliance flash

• Ability to assign detectors to workers and locations

• Easy-to-read display for multiple languages

• Data logging with rolling 24-hour peak reading
April 8, 2025 BY
IN Honeywell

Honeywell Touchpoint Plus Easy-to-configure Wall Mount Control System

Touchpoint Plus brings a whole new control experience to your small system of gas detectors. Touchpoint Plus is an easily configurable, wall-mounted control system that supports up to 16 gas detection channels. 

Its modular approach enables you to take control and configure what you need for a wide range of applications.

 Delivering Reliable Control

 • Honeywell reliability from the most trusted experts in dcs-sis.com gas detection

 • Built-in battery backup for constant uptime

 • Robust, shockproof housing for a wide range of industrial environments 

Flexible Capabilities

 • Compatible with the full range  of Honeywell gas detectors

 • Powered audiovisual alarms  simplify field installation

 • Configuration includes easy  grouping and voting alarm logic without specialist knowledge

 • Next-generation compatibility 

• Optional Modbus output for integration with a higher level system

 Providing Ease and Efficiency 

• Quick and easy installation, configuration, setup, and maintenance

 • Easy diagnostics, data, and reporting

 • Minimum training time

 • Large color touchscreen LCD

 • Multilingual functionality

 • Green-yellow-red status at a glance
April 8, 2025 BY
IN ABB

ABB ACS800-07 (+V992) is a cabinet-mounted drive for controlling AC motors

Control panel CDP 312R

A control panel (type CDP 312R) is installed on the door of the drive. The CDP 312R is the user interface of the supply unit and the inverter unit of the drive, providing the essential controls such as Start/Stop/Direction/Reset/Reference, and the parameter settings for the units’ control programs. More information on using the panel can be found in the Firmware Manual delivered with the drive.

The control panel is wired to both the supply unit and the inverter dcs-sis.com unit. By default, the panel is set to control the inverter unit. The unit that is currently being controlled is indicated by the ID number. The ID number can be seen in the Drive Selection Mode of the panel. By default, one (1) denotes the inverter unit and two (2) denotes the supply unit.

The control panel can communicate with and control only one of the units at a time, and it displays the Warning and Fault messages of the unit it controls. In addition,the panel indicates the active warnings and faults in the unit that is not currently being controlled (for more information, see chapter Fault tracing).

Controls of the supply unit

The supply unit control program runs in the RDCU control unit located in the swing out frame. The RDCU is connected to the supply modules by a fibre optic link, and a separate wire set. If there are parallel supply modules, the controls from the RDCU are distributed to the modules with an optical branching unit (APBU board). The RDCU is also connected to the inverter unit with a fibre optic link and to the panel through the panel link.

Typically, the user controls the supply unit with the control devices mounted on the cabinet door. The use of these control devices is described in the following subsections. No additional control devices or connections are needed. However, it is also possible to control the unit with the control panel and through the fieldbus.

Main disconnecting device

The drive is always equipped with a main disconnecting device. The device is either the main switch-disconnector inside the module (no option +F253 or +F255), the main switch-disconnector outside the module (option +F253), or the main breaker outside the module (option +F255). 

The user operates the main switch-disconnector(s) with a handle on the cabinet door. The breaker is withdrawable; its must be racked out when disconnection is needed.
April 8, 2025 BY
IN Emerson

Emerson A6110 Shaft Relative Vibration Monitor

Since the displacement transducer is mounted on the bearing, the monitored parameter is known as shaft relative vibration, i.e. shaft vibration relative to the bearing box.

Shaft relative vibration is an important measurement parameter used for prediction and protection monitoring on all plain bearing machines.

Shaft relative vibration should be selected when the machine housing is large compared to the rotor and the bearing housing does not vibrate between the zero speed of the machine and the production state speed.

Absolute shaft vibration is sometimes selected when the bearing housing and rotor are relatively close in mass, when the bearing housing is more likely to vibrate and affect the relative shaft reading.

The AMS 6500 is an integral part of PlantWeb® and AMS software.

PlantWeb provides a comprehensive view of machine health in conjunction with the Ovation® and DeltaV™ process control systems.

AMS software provides maintenance personnel with advanced predictive and performance diagnostic tools that enable them to confidently and accurately determine machine failures early.

Features:

Dual-channel, 3U-sized, 1-slot plug-in module that cuts cabinet space requirements in half compared to traditional four-channel 6U cards

API 670-compliant hot-swappable modules

Remotely selectable limit multiplication and trip bypass

Pre- and post-buffered and proportional outputs, 0/4-20 mA outputs, 0 – 10 V outputs

Self-test features include monitoring hardware, power inputs, dcs-sis.com hardware temperature, sensors and cables,

Hardware temperature, sensors and cables

For use with displacement sensors PR6422. PR6423. PR6424. PR6425 and drivers CON 011/91. 021/91. 041/91

Sensor inputs

Number of inputs: two, independent or combined

Monitoring mode

Input types: eddy current, differential

Emerson sensor inputs: Part numbers: 6422. 6423. 6424. 6425

Isolation: Galvanically isolated from power supply

Input resistance: >100 kΩ

Input Voltage Range: 0 to -22 VDC

Input Frequency Range

Lower cut-off frequency 1 or 5 Hz

Upper cut-off frequency 50 – 2000 Hz adjustable
April 8, 2025 BY
IN GE

Multilin 489 Generator Protection System SR Series Relays

The Multilin™ 489 Generator Protection System is a member of the SR Series of relays that provides protection, control, and advanced communications in an industry-leading drawout configuration.

Designed for small to medium sized generators, the 489 offers advanced protection features, including generator stator differential protection. 489 also includes detailed diagnostic information to reduce troubleshooting time.

Key Benefits

– Comprehensive, safe protection for small and medium-sized generators

– Easy-to-use generator protection system supported by an industry-leading suite of software tools.

– Advanced protection and monitoring features, including stator and bearing thermal protection using RTDs and vibration monitoring using analogue inputs

– Globally recognised as a member of the most prestigious relay protection product family on the market

– Drawer construction to minimise downtime and facilitate removal/installation during routine maintenance 489

– Large, user-friendly front panel interface for real-time power monitoring and setpoint access, with a display that is easy to read in direct sunlight

– Enhanced generator troubleshooting capabilities through the use of IRIG-B time-synchronised event logging, waveform capture and data logger

– Simplifies setpoint verification testing with built-in waveform simulation capabilities

– Cost-effective access to information through industry-standard communications hardware (RS232. RS485. 10BaseT Ethernet) and protocols (Modbus RTU, Modbus TCP/IP, DNP 3.0)

– Can be used in most extreme locations by offering harsh chemical environment options

The 489 will compare the machine neutral voltage with the grounding current to determine if the ground fault is internal or external to the generator.

Alternate Phase Distance

Two independent phase distance elements provide time-delayed backup protection for generator faults that are not cleared by the main system and generator protection.

This distance characteristic compensates for unit delta/shunt dcs-sis.com power transformers located between the generator and the end of the protection zone.

Sensitive Directional Power

The 489 provides low forward and reverse power elements to prevent generator

movement from damaging the prime mover. Each element has separate power pickup level and operating delay settings for alarms and trips.

Circuit Breaker Faults

The embedded circuit breaker fault feature in the 489 improves system reliability without the additional cost of providing a separate circuit breaker fault relay.

When a circuit breaker fault is detected, the 489 can be configured to operate one of its four available digital outputs to signal upstream equipment to quickly isolate the fault.
April 8, 2025 BY
IN GE

SR469-P5-LO-A20-T Relay Protector Module

The SR469-P5-LO-A20-T has a 5 amp current transformer secondary coil mounted on the base unit.

It is a low control power unit rated for 24-60 volts DC or 20-48 volts AC @ 48-62 Hz.

Although the unit has an optional Ethernet port, it does not include the optional DeviceNet or enhanced front panel.

Product Description

The SR469-P5-LO-A20-T is an SR469 multi-wire relay designed to provide comprehensive protection for medium to large motors. The unit offers many management features.

The SR469-P5-LO-A20-T has a 5 amp current transformer secondary coil mounted on the base unit.

It is a low control power unit rated for 24-60 volts DC or 20-48 volts AC @ 48-62 Hz.

Although the unit has an optional Ethernet port, dcs-sis.com it does not include the optional DeviceNet or enhanced front panel.

In addition, it is not designed for harsh environments as it does not include a chemically conformal coating.

The SR469-P5-LO-A20-T includes an optional Ethernet 10BaseT Ethernet port.

With this additional port, users can connect their 469 units to 10 Mbps Ethernet.

This port brings the number of ports in the unit to four, including the three standard serial ports that are always displayed in the SR469 relay.

All SR469 relays have two RS485 ports on the real panel. In addition, there is an RS232 port on the bottom of the front panel.

This port provides quick access for troubleshooting and programming.The SR469-P5-LO-A20-T supports ModBus RTU and ModBus RTU via TCP/IP.

The GE Multilin manual will provide the user with additional information on installation, safety and proper operation.

Original documentation such as manuals and user guides should be read and understood before opening the box; this will ensure that you are aware of all possible hazards and ensure your safety.

Frequently Asked Questions about the SR469-P5-LO-A20-T

What are the standard features of the SR469-P5-LO-A20-T General Electric Motor Management Relay?

All 469 Motor Management Relay features are standard. Although the analogue output range, phase current transformer secondary and control power must be specified prior to purchase, the

to ensure that the correct standard features are purchased for the relay. Some features are programmable, such as the 469 relay’s differential current transformer input with a 1A or 5A secondary current transformer.
April 8, 2025 BY
IN SST

SST Molex SST-PB3-SLC Communication Module

Quickly Connect Rockwell SLC 500 Systems to PROFIBUS Networks and Maximise Network Flexibility with SST™ Communication Modules

The SST™ Communication Module connects Rockwell SLC 500 PLCs as a master or slave to scan or emulate PROFIBUS DP I/O.

With a user-defined data space of 2064 bytes of input and 2064 bytes of output, the SST™ Profibus Module provides the ability to connect SLC CPUs to large PROFIBUS networks.

A 9-pin serial port on the scanner can be used for field firmware upgrades and I/O configuration uploads.

SLC processor logic scanning and PROFIBUS I/O scanning are independent of each other. the SLC processor reads the scanner’s input data during input scanning and writes the output data during output scanning.

The SLC processor reads input data from the scanner during input scanning and writes output data during output scanning. The scanner reads input data from dcs-sis.com the slaves and writes output data to the slaves independent of the operation of the SLC.

Slave status, diagnostic status information for all slaves, network diagnostic counters and DP master diagnostic counters are maintained by the scanner.

A G-file is required in the SLC.

Features and Benefits

100% backward compatible with previous generation (SST-PFB-SLC)

Manages DP-V1 services, including SLC ladder logic sampling

M0 and M1 data areas doubled up to 1000 words

PROFIBUS DP master configuration software

Supports all PROFIBUS baud rates

Simultaneous operation of PROFIBUS DP masters and slaves

For storing DP

Master I/O configuration

Quick and easy installation on the SLC backplane, PROFIBUS I/O data is automatically mapped to the I/O files of the SLC processor and to the MO and MI files residing on the PB3-SLC.

Supports export of configuration files from SST DP Configuration Software and Siemens COM PROFIBUS

Multiple SST-PB3-SLC modules can be used in one SLC rack
April 8, 2025 BY
IN MOOG

MOOG L180 Programmable Servo Driver

The L180 servo drive is used to control MOOG brushless servo motors.

These are three-phase motors with 8 or 12 poles (4 or 6 pole pairs) with bipolar resolvers.

The L180 servo drive is fully digital. The high-performance torque and speed control meets all requirements for fast response and high control accuracy.

The digital control allows full diagnostics, motor parameter adjustment, data and fault detection using a PC-based graphical user interface (GUI).

The L180 servo drive features the following:

Power supply

– Single-axis unit that includes a regenerative dcs-sis.com module to minimise wiring and space requirements.

– 230 V three-phase or single-phase.

– Optional: External filter in the power supply is CE compliant.

– The drive is designed to Protective Extra Low Voltage (PELV) standards. An autotransformer is sufficient for the mains input.

Power Driver

– Galvanic isolation between control and power electronics.

– IGBT output stage.

– Digital PWM current loop provides low ripple motor current and high motor efficiency.

Digital Controller

– Fully digital servo drive for brushless motors with resolver.

– Easy software download via RS232 serial connection.

– Temperature regulated fan cooling.

– Multi-loop control (torque and speed).

– Sine current output ensures smooth torque and performance at low speeds.

– 7-segment status indicator for diagnostic display.

User Inputs

– ±10VDC differential analogue input for speed or current commands.

– RS232 serial port.

– Limit switches for bi-directional overrun protection.

– Optional external 24VDC power supply for control and interface boards in the event of a mains power failure.

User Outputs

– Programmable incremental encoder analogue output with 1 to 2048 ppr resolution (extrapolated), differential RS 422 line driver output.

– Programmable supervisory relays to indicate ready, alarm or enabled status.

Protection Features

– The power stage is short-circuit and thermal protected.

– Motor thermal protection through I²t limiting and thermistors.

– Detects resolver faults and motor wiring faults.
April 8, 2025 BY
IN Woodward

Woodward 9907-164 Digital Microprocessor Controller

Woodward Unit 9907-164. from 505 Digital Microprocessor Controller for Steam Turbines with Single or Split Range Actuators.

Product Description.

The unit listed here is model 9907-164 and is part of the 505 and 505E microprocessor based governor control units.

These control modules are specifically designed to operate steam turbines, turbine generators and turbo-expander modules.

The 505/505E series was originally dcs-sis.com developed, produced and manufactured by Woodward.

Woodward is the oldest industrial manufacturer in the United States, founded in 1870. and remains one of the leading industrial companies in the marketplace.

The 9907-164 unit is designed to control a steam turbine by operating a single extraction and/or intake of steam from the turbine.

It utilises the turbine’s staged actuators (either one or both) to actuate the steam inlet valve.

As with any 505 governor module, the unit can be configured in the field by a field operator.

The menu-driven software is controlled and changed by an operator control panel integrated into the front of the unit. The panel displays two lines of text with 24 characters per line.

The 9907-164 is equipped with a range of discrete and analogue inputs:16 contact inputs (of which 4 are dedicated and 12 programmable) followed by 6 programmable current inputs, 4 to 20 mA.

Standard features of the 9907-164 include critical speed avoidance, valve limiter, automatic start sequence, and shutdown first-out indicator.

Prepare for an emergency stop when starting an engine, turbine, or other type of prime mover to prevent personal injury from loss of control or overspeed.

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