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Power supply unit for RTU560 racks

– Input voltage: 110…. . 220 V DC

– Output voltage: 5 V and 24 V DC

– Suitable for 560MPR03/560SFR02

Application: Power supply unit 560PSU01 for RTU560 racks

The power supply unit 560PSU01 provides two supply voltages (5 V DC and 24 V DC) for the RTU560 subracks 560MPR03 and 560SFR02.

The output power is sufficient to power up to 4 subracks of communication units (CMUs).

For project configurations with high availability requirements, redundant power supplies can be configured. In this configuration, the two power supply units 560PSU01 operate in parallel mode.

If one of the power supplies fails, they can take over the entire load. Only power supplies of the same type and size can be used for redundant operation.

The power supply unit 560PSU01 is available in the following models (specifications):

– R0002 Input range 110 … 220 Vdc (-20%… +15%)

Characteristics

The power supply unit 560PSU01 has the following features and functions:

– Potential isolation between input and output

– Natural convection cooling

– Electronic power limitation at the output

– Short-circuit protection at the output

– Overvoltage protection on the inputs

– Reverse voltage protection on inputs

– Parallel operation, monitoring of redundant power supply configurations

– Controlled load balancing in redundant operation

– LEDs for monitoring the output voltage

– Alarm indication in the event of a fault

– Withstands input voltage interruptions of up to 50 ms

Power supply unit for RTU560 racks

– Input voltage: 48…. Input voltage: 48…220 VDC

– Output voltage: 5 V and 24 V DC

– For 560MPR03/560SFR02

Power supply unit 560PSU02

The power supply unit 560PSU02 provides two supply voltages (5 VDC and 24 VDC) for the RTU560 subracks 560MPR03 and 560SFR02.

The output power is sufficient to power subracks with up to 8 Communication Units (CMUs).

For project configurations with high availability requirements, redundant power supplies can be configured. In this configuration, two 560PSU02 power supply units operate in parallel mode.

If one of the power supplies fails, they can take over the entire load. Only power supplies of the same type and size can be used for redundant operation.

The power supply unit 560PSU02 is available in the following models (specifications):

– R0001 Input range 48 … 220 V DC (-20%… +20%)

Characteristics

The power supply unit 560PSU02 has the following features and functions

The 23BE40 can process the following types of signals:

 16 time-stamped single indications

 8 time-stamped dual indications

 2-step position information with 8 bits per step

 8/16-bit digital measurement values

 8/16 bit string information

 16 pulse counters (max. 25 Hz)

These modules require the 560PSU40/41 power supply.

Features

All inputs are potentially isolated via optocouplers. If a common loop is required, this can be realized with the external short-circuit connector supplied.

Inputs 1 … 8 have current sources for oxide film disconnection. These current sources are active within 10 ms of the input signal.

If the input signal changes more frequently than every 30 seconds, the on-time of the current sources is reduced.

Input currents of the 1.5 mA type are chopped to minimize power dissipation. As a result, the average input current is reduced to 0.4 mA.

The average input current and the oxide disconnect current remain constant over the input voltage range. The light emitting diodes are divided into two columns. the LEDs follow the input directly.

APPLICATIONS

The Binary Input Board 23BE50 is used for the isolated input of 64 process signals divided into 4 groups of up to 16 binary signals each.

The input signals are scanned and processed with a time resolution of up to 1 ms.

The input signals can be assigned to processing functions according to configurable rules. The board 23BE50 can process the following types of signals:

 64 time-stamped single indications

 32 time-stamped dual indications

 8-step position information with 8 bits per step

 8/16-bit digital measurements

 8/16-bit string information

 64 pulse counters (max. 120 Hz)

These modules require the 560PSU40/41 power supply.

Features

All inputs are potentially isolated via optocouplers. If a common loop is required, this can be realized with external shorting connectors, which are included in the delivery.

Typical input current on the inputs is 1.5 mA.

There are 64 LEDs on the board to indicate the signal status. The LEDs are divided into two columns and follow the inputs directly.

The binary input board 23BE50 performs the following processing functions for different types of signals:

 Digital filtering to suppress contact jumping

 Suppression of technically induced chattering signals

 Intermediate position suppression and double indication monitoring

 Consistency check of all binary input channels assigned to digital measurement values

Applications

The binary input module 23BE23 provides 16 current-isolated

inputs for up to 16 binary process signals. Scanning and pro

stopping of the inputs is performed with a high time resolution of

of 1 millisecond. The assignment of input signals to process functions

can be adjusted according to the configuration rules.

Module 23BE23 is capable of processing the following types of

signals or combinations of them.

– 16 single point messages with time stamp (SPI)

8 double-point messages with time stamp (DPI)

– 2 digital measurements of 8 bits each (DMI8)

One 16-bit digital measurement (DM16)

– 16 integrated totals (max. 120 Hz) (ITI)

– 2 step position information, 8 bits each (STI)

2 bit string inputs, 8 bits each (BSI8)

One 16-bit bit string input (BSI16)

One or a combination of these signal types

The module allows process voltages from 24 to 60 VDC. Light Emitting Diode

Signals are provided for all inputs. The module has a common return of every 8 inputs.

Binary input module with 16 channels for single indication, dual indication, digital gauges and pulse counters

– Resolution 1ms

– Process voltage: 24…. 24…60 V DC / 110…125 V DC . 125 V DC

– LED signal per input

– Common return signal per 8 inputs

APPLICATIONS

The module 560BIR01 provides 16 galvanically isolated inputs for up to 16 binary process signals.

The input signals are scanned and processed with a time resolution of up to 1 ms. The input signals can be assigned to processing functions according to configuration rules.

The module 560BIR01 can process the following types of signals or combinations of signals:

– 16 time-stamped single-point messages (SPI)

– 8 time-stamped double-point messages (DPI)

– 2 8-bit digital measurements (DMI8)

– 1 16-bit digital measurement (DMI16)

– 16 integrated totals (max. 120 Hz) (ITI)

– 2 step position information, 8 bits each (STI)

– 2 bit string inputs, 8 bits each (BSI8)

– 1 16-bit bit string input (BSI16)

– or a combination of these signal types

ABB’s natural gas leak detection systems directly address all these challenges:

– Local gas distribution systems

– Surveying mains and services

– Odor surveys

– Construction verification

– Post-disaster assessments

– Frost Line Assessment

Benefits

– Reliable – Measures methane and ethane simultaneously, eliminating false alarms

– Time saving – leaks can be detected within 2 minutes of energization (comparable laser methods require 30 to 45 minutes to warm up and/or are much less sensitive)

– Less maintenance – unlike other laser methods, ABB’s patented technology is robust and can be fully serviced by anyone, anywhere, anytime

– Lower operating costs

– Cybersecurity – ABB solutions are fully tested to meet stringent cybersecurity requirements

– Data integrity – the customer owns and controls the instrument at all times and has full custody of all data

– Transparency – data is available anytime, anywhere through cloud-based reporting

Fast, accurate and cost-effective. A better on-board detection solution.

The ABB Ability™ mobile gas leak detection system uses ABB’s patented laser technology, which is more than 1.000 times more sensitive than older, less sensitive conventional methods.

This makes it possible to accurately identify leaks hundreds of feet from the source.

The ABB Ability™ mobile gas leak detection system consists of ABB’s OA-ICOS™ methane/ethane analyzer, GNNS system, sonic anemometer and proprietary leak detection software.

A geospatial map of all measured parameters is displayed in real time.

The software’s sophisticated leak detection algorithm combines the system’s measurements of multiple gas concentrations (CH4. C2H6), local coordinates (GNNS) and local wind speed (sonic anemometer) to estimate the location and size of leaks.

to estimate the location and size of the leak.

– Single unit for continuous, simultaneous measurement of contaminants in H2 small, high 2O and CO2 natural gas streams for trade handover, tariff compliance and process monitoring

– ABB’s proven laser technology virtually eliminates false readings and provides fast response for reliable process control

– Designed for remote and hazardous locations, Sensi+ delivers superior performance and low cost of ownership

ABB’s Sensi+ analyzer offers a reliable new solution that simplifies and reduces pipeline operation and maintenance costs.

It enables safer, easier and more efficient pipeline monitoring and operation with a single device that

The device can analyze up to three contaminants (H2 minor, 2O major, CO2) accurately and in real time in any natural gas stream.

Its fast response also enables quick reaction to process disturbances, which can help reduce waste and methane emissions.

Reducing the risk and impact of natural gas contaminants often presents challenges for natural gas pipeline operators, the processing industry and natural gas utilities.

Companies need to manage multiple technologies and equipment to obtain a complete analysis. This traditional approach is complex, prone to failure and costly.

Traditionally, each contaminant typically requires a separate analyzer, maintenance program and specific skills to operate, validate and service.

With the new Sensi+ and the market-leading range of natural gas chromatographs,” said Jean-Rene Roy, Global Business Line Manager, Analytics, ABB.

ABB becomes the first company to offer customers an integrated gas quality solution that combines composition and contaminant measurements into one compact,

modular, economical and reliable system. “Sensi+ analyzers also help customers meet trade handover requirements by

minimize internal corrosion of system infrastructure and prevent physical damage to mission-critical assets.”

Sensi+ measurements require approximately six times lower sample flow rates compared to other technologies, which reduces the analyzer’s total carbon emissions and wasted natural gas in the atmosphere.

– Single unit for continuous, simultaneous measurement of contaminants in H2 small, high 2O and CO2 natural gas streams for trade handover, tariff compliance and process monitoring

– ABB’s proven laser technology virtually eliminates false readings and provides fast response for reliable process control

– Designed for remote and hazardous locations, Sensi+ delivers superior performance and low cost of ownership

ABB’s Sensi+ analyzer offers a reliable new solution that simplifies and reduces pipeline operation and maintenance costs.

It enables safer, easier and more efficient pipeline monitoring and operation with a single device that

The device can analyze up to three contaminants (H2 minor, 2O major, CO2) accurately and in real time in any natural gas stream.

Its fast response also enables quick reaction to process disturbances, which can help reduce waste and methane emissions.

Reducing the risk and impact of natural gas contaminants often presents challenges for natural gas pipeline operators, the processing industry and natural gas utilities.

ABB’s natural gas leak detection systems directly address all these challenges:

– Local gas distribution systems

– Surveying mains and services

– Odor surveys

– Construction verification

– Post-disaster assessments

– Frost Line Assessment

Benefits

– Reliable – Measures methane and ethane simultaneously, eliminating false alarms

– Time saving – leaks can be detected within 2 minutes of energization (comparable laser methods require 30 to 45 minutes to warm up and/or are much less sensitive)

– Less maintenance – unlike other laser methods, ABB’s patented technology is robust and can be fully serviced by anyone, anywhere, anytime

– Lower operating costs

– Cybersecurity – ABB solutions are fully tested to meet stringent cybersecurity requirements

– Data integrity – the customer owns and controls the instrument at all times and has full custody of all data

– Transparency – data is available anytime, anywhere through cloud-based reporting

Fast, accurate and cost-effective. A better on-board detection solution.

The ABB Ability™ mobile gas leak detection system uses ABB’s patented laser technology, which is more than 1.000 times more sensitive than older, less sensitive conventional methods.

This makes it possible to accurately identify leaks hundreds of feet from the source.

The ABB Ability™ mobile gas leak detection system consists of ABB’s OA-ICOS™ methane/ethane analyzer, GNNS system, sonic anemometer and proprietary leak detection software.

A geospatial map of all measured parameters is displayed in real time.

The software’s sophisticated leak detection algorithm combines the system’s measurements of multiple gas concentrations (CH4. C2H6), local coordinates (GNNS) and local wind speed (sonic anemometer) to estimate the location and size of leaks.

to estimate the location and size of the leak.