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Parker AC15 Compact AC Drives

SIMPLE:.

Utilizes the free Parker DSELite software tool.

Easy Ribbon Matching – On-board Ethernet port for programming and Modbus TCPIP communication.

Clear intuitive keypad for local setup and control

-Conformal coating as standard for protection from harsh environments -Proven power stage design and technology -Replaceable fans

Safe torque-off: SIL2, PLd

SD card slot for application backup Applications: Conveyors

Conveyors

Fans

Racking machines

Packaging machines

Textile machines

Strapping machines

Labeling machine

Industrial washing machines

Machine tool spindles

Roller shutters

Technical Specifications.

Power range 0.37kW-30kW

Voltage range 230-480VAC

Dedicated thermistor input terminals

3 analog outputs, 2 analog inputs, 8 digital inputs, 2 digital outputs + 1 relay output

Leakage current:>10 mA (all models)

Product enclosure rating: IP20 (Europe)

Maximum switching frequency:10kHZ

Output frequency:0…. .590 HZ

Operating humidity: 85% relative humidity max. at 40°C, non-condensingAtmosphere: non-flammable, non-corrosive, non-toxic, dust-free

Atmosphere: non-flammable, non-corrosive, dust-free Standards: -Overvoltage category: overvoltage, overvoltage, overvoltage, overvoltage-Overvoltage category: Overvoltage category Kawasaki (number defining the shock tolerance level) Pollution level: P dilution level Kawasaki

GE Fanuc General Electric Components IC670GBI001 Bus Interface

The GE Fanuc IC670GBI001 bus interface is for the Field Control Series IC670. IC670G, IC670GB, IC670GBI, and IC670GBI00 modules.

The unit has a nominal voltage rating of 115 volts AC and 125 volts DC.

About the IC670GBI001

The IC670GBI001 bus interface is a GE Fanuc component for field control devices.

GE Fanuc is a well-known producer of technology solutions for many industries, and the GE IC670GBI001 Bus Interface module is resistant to noise in industrial environments,

vibration, high and low temperatures, humidity, and other common conditions in industrial environments.The IC670GBI001 bus interface unit has a nominal voltage rating of 115 volts AC and 125 volts DC.

The input frequency range is 47 to 63 Hz. The unit’s voltage range is 90 to 135 volts AC and 105 to 150 volts DC.

The IC670GBI001 Bus Interface Module has a rated power consumption rating of 115 volt-amperes (**value) at 48 volts AC at full load.

The power consumption rating at 24 volts AC at full load is 125 watts (**value). The unit has a hold-up time of 20 milliseconds and a power supply output voltage of 6.5 volts DC.

The IC670GBI002 Bus Interface Module works well with other components such as the Bus Interface Unit power supply and Bus Interface Unit terminal blocks.

The IC670GBI001 module has a high-quality housing made of aluminum and includes LED indicators for status updates as well as an HHM connector for handheld displays.

The IC670GBI001 bus interface unit has a logic power supply and its configuration file is stored in the memory of the terminal block.

The four included indicators are the “PWR”, “OK”, “Run” and “Bus B” LEDs. The LEDs indicate the normal operation of the module and the communication status with the CPU.

Since the IC670GBI002 unit can be used with a DC power supply, the backplane current may be limited by the lower input voltage.

GE Fanuc General Electric IC200ALG328 Output Module

About the IC200ALG328

The IC200ALG328 module is a Versamax I/O module designed and manufactured by GE Fanuc Automation.

This particular module provides 12 outputs. These outputs are analog current source type outputs.

They can operate over a current range of 4 to 20 milliamps. The module has 20.38 mA per channel to drive the output loads.

The channels of the GE Fanuc Automation IC200ALG328 Versamax I/O module can be used with the IC200ALG326 Versamax I/O module.

The channels of the IC200ALG326 module can be scaled using the IC200ALG326 module because they are similar and compatible.

The module is also compatible with Ethernet, Genius, Profibus, and DeviceNet firmware. It is also compatible with PLC CPU firmware and VersaPro software.

The GE Fanuc Automation IC200ALG328 Versamax I/O module has a thermal derating only when used at 30 volts DC and placed in a specific location on the DIN rail.

This derating is also dependent on the ambient air temperature present.GE Fanuc Automation IC200ALG328 Versamax I/O Modules are rated for 18 to 30 volts DC.

The current draw is rated at 2 amps inrush current, and the power consumption is rated at 100 milliamps without load and 12 milliamps at full scale using all 270 outputs.

The module has a 13-bit resolution with an accuracy rating of up to 1%. The module is equipped with 2 LEDs and a diagnostic tool.

It can be hot-plugged, but this needs to be done carefully to retain all components in the rack and module.

The IC200ALG328 is a 12-channel, 13-bit current analog output module designed for the GE Fanuc Versamax family.

The IC200ALG328 has a default output range, but the output range can be easily changed with jumpers.

All outputs require external power, and the IC200ALG328 module will be intelligently processed by the CPU or Network Interface Unit.

If the backplane power or communication is interrupted, or if the PLC stops running, the outputs of the IC200ALG328 module can be easily kept in their last state, or in their default state via jumpers.

The backplane must send different output data to the module or the outputs will remain in their default or previous state.

Steam Power Plants

Mitsubishi Power designs and delivers highly efficient and environmentally friendly power generation facilities, including boilers, steam turbines, generators, air quality control systems, and other auxiliaries.

A steam power plant consists of a boiler, steam turbine and generator, and other auxiliaries. The boiler generates steam at high pressure and high temperature. The steam turbine converts the heat energy of steam into mechanical energy. The generator then converts the mechanical energy into electric power.

Our highly efficient and environmental friendly power plants will contribute to the stable supply of electrical power and reduction of environmental impact.

Large Capacity Power Plants

Applying ultra-supercritical pressure technology for highly efficient power generation

Our highly efficient and environmentally friendly power plants have an impressive track record in field of supercritical and ultra-supercritical pressure power plants and high level of trust in the market. We will contribute to the stable supply of electric power and to the reduction of environmental impact all around the world, based on our advanced technologies.

What is ultra-supercritical pressure?

Under normal atmospheric pressure [0.101 MPa], water boils at 100ºC. As pressure increases, the boiling temperature of water also increases. When the pressure is increased to 22.12 MPa, and at a temperature of 374ºC, water does not boil but is directly converted into steam. This is called the critical point, and the pressure above this critical point is called supercritical pressure. Supercritical pressure with a temperature equal to or more than 593ºC is called ultra-supercritical pressure.

Gas Turbine Combined Cycle (GTCC) Power Plants

World-class Power Generation Efficiency

At Least 64% (LHV)

Wide Output Range

30 to 1332 MW Class

Combined Cycle Power Plants

On Grid Facility for Verification Testing

CO2 Emissions Compared with Those of Conventional Coal-fired Thermal Power Generation

About 50% Lower

High efficiency energy through combined cycle power generation

Gas turbine combined cycle (GTCC) power plants use natural gas to deliver the cleanest and highest efficiency power generation.

Plants employing state-of-the-art gas turbines of Mitsubishi Power have a 20% higher power generation efficiency than conventional coal-fired thermal power generation systems and the world’s highest level of efficiency of more than 64%. That enables CO2 emissions an approximate 50% reduction.

What is GTCC?

In the power generation method characterized by the standalone operation of a gas turbine, known as the simple or open cycle, releases exhaust gas at temperatures of around 600℃ into the atmosphere.

Combined cycle power generation improves the general thermal efficiency of the plant by recovering this high temperature exhaust gas. Many combined cycle power generation plants adopt a waste heat recovery cycle in which exhaust gas from the gas turbine is led to the waste heat recovery boiler to generate steam using recovered heat to drive the steam turbine.

Advantages and Features that Make the GTCC the Mainstream for New Thermal Power Generation Facilities

High level of thermal efficiency

In comparison with thermal efficiency of about 40% in steam power generation, combined cycle power generation features a thermal efficiency of at least 60% (with both figures on the lower heating value basis).

Overview and Verification Status of T-Point 2 Demonstration Facility Gas Turbines

Purposes of the T-Point 2

To validate gas turbine technologies newly applied to achieve higher efficiency, allow operations at elevated temperatures, and reduce NOx.

To validate the reliability through long-term commercial operations of the highly efficient and environmentally friendly combined-cycle power generation.

Development of T-Point

The original T-Point demonstration facility began operation in 1997 with M501G (60 Hz), which was upgraded to M501J in 2010 and M501JAC in 2015 with response to the power industry’s demand for large-scale, high-efficiency power generation.

Since the original T-Point can not satisfy the further requirement for larger capacity and higher efficiency, we made a decision to build T-Point 2.

T-Point 2 entered full commercial operation with an enhanced JAC gas turbine from July 2020.Validation of Next Generation

Combined Cycle Power Generation

With its combination of gas turbine and steam turbine,T-Point 2 is cutting edge combined cycle power plant validation facility.

By developing next-generation technologies and validating them in T-Point 2 GTCC facilities, Mitsubishi Power helps its customers world-wide attain a stable electricity supply.

Long term demonstration of off-site plant control at T-Point 2 is conducted from the Mitsubishi Power Takasago TOMONI HUB (Analytics and Performance Center). Validation operations are run to increase the reliability of the entire plant including the main equipment such as turbines as well as auxiliary equipment such as pumps and fans. In addition, various applications of a suite of intelligent solutions TOMONI™ that serve to shorten start-up time and automatically optimize operation parameters are installed in T-Point 2. Mitsubishi Power will also be training its AI applications, allowing T-Point 2 to eventually become the world’s first autonomous combined cycle power plant.

Emerson DeltaV™ M-Series Product Description

The Traditional I/O subsystem includes:

I/O interface carrier (a DIN rail surface mounted) on which all I/O related components are installed.

Bulk AC to 24V DC power supply for field devices.

An I/O interface consisting of an I/O card and an I/O terminal block.

A variety of analog and discrete I/O cards enclosed  in a common form factor that easily plugs into the  I/O interface carrier.

A variety of I/O terminal blocks mounted on the I/O interface carrier that can be pre-wired before I/O card installation.

I/O Cards

A variety of analog and discrete I/O cards are available to meet your specific requirements.

The following cards support simplex or redundant installation:

AI 4-20 mA HART 8 channels

AO-4-20 mA HART 8 channels

DI, 24V DC Dry Contact, 8 channels

DO 24V DC High-Side, 8 channels

AI (Plus) 4-20 mA HART, 16 channels

AO (Plus) 4-20 mA HART, 16 channels

DI (Plus) 24V DC, Dry Contact, 32 channels

DO (Plus) 24V DC, High-Side, 32 channels

Emerson DeltaV™ M-series Traditional I/O

Decreases capital equipment costs

Full system modularity: The Traditional I/O subsystem was designed with your investment in mind. All components are fully modular and may be installable under power. You add I/O interface carriers and I/O interfaces in groups of 4. 8. 16.or 32 channels as you need them. The modular design enables you to purchase the exact amount of I/O cards, 8-wide or 4-wide carriers, power/ controllers, and 2-wide carriers you need and add more DeltaV I/O as your system grows.

Reduced system footprint: The DeltaV system’s state-of-the- art form factor design of the I/O components enables you to mount the I/O interface carrier in a junction box in the field  so you significantly reduce the footprint of your equipment  and increase valuable control room space for other uses.

Installation: Save on wiring expenses by installing Classic Instrumentation in the field, near the actual field devices.

Mounting the controller with the I/O further reduces your wiring expenditures by eliminating the need for long runs  of multi-cores. The integrated design of the Traditional I/O subsystem can eliminate the need for marshalling panels.

This saves you even more in your total capital costs.

The provision of in-line fuses and bussed power saves  on installation costs compared with external fuses and  power distribution.

Versamax Family of Products IC200CHS003 Connectorized I/O Carrier

The IC200CH003 is a connectorized I/O carrier from GE Fanuc Automation.

The IC200CH003 I/O carrier weighs 0.113 kg and has a 36-pin connector for input/output cables.

The carrier provides backplane communication, mounting, and field wiring for one input/output module.

You will find a module latch hole for securing the module to the carrier.

The carrier also provides quick connections for wiring up to 32 input/output points and 4 common power connections.

During rail mounting, the IC200CH003 I/O bracket snaps easily into the DIN rail.

The dimensions are as follows: 7.5 mm x 35 mm: 7.5 mm x 35 mm.

For EMC protection, the DIN must be electrically grounded. The rail must also be electrically conductive and corrosion resistant.

The field wiring can be connected directly to the connector itself by means of contacts crimped onto the end of the wires.

I/O devices can be connected directly to the mating I/O terminals. To install a prewired connection cable, place the cable connector over the connector on the carrier and press down until the latch engages the connector.

To remove the cable, you must hold the connector and press the latch upward to release the connector.

Occasionally, the operating equipment may become hot due to high ambient temperatures. In this case, handle the connector carefully.

Do not touch them directly. Also, avoid exposed connector pins.

Connector kits for making customized cables are available and include a connector and a cover, 6 large contacts, 2 screws, and 36 small contacts.

The IC200CH003 carrier can be used with all VersaMax modules except the following, which have higher isolation requirements:

IC200MDL144 4-Point Isolation Module with Voltage Input 240 VAC

IC200MDD850 Hybrid 240 VAC 4-point Isolation Module

Output Relay 2.0A Isolated 8-Point Module

The Versamax IC200CHS003 Carrier is a connectorized I/O carrier.

The IC200CHS003 carrier has a 36-pin connector for connection to I/O cables.

Versamax Family of Products IC200MDL743 Discrete Output Module


The Versamax IC200MDL743 discrete output module is a GE Fanuc 5. 12. and 24 VDC and 0.5 A rated negative logic output module.

It has 16 current-flooded discrete outputs that switch the load to the negative side of the DC supply. The module does not have any internal fuses for protection.

The output module connects directly to the controller and also allows for “hot” insertion, making installation easy.

The IC200MDL743 discrete output module communicates with the backplane through an I/O rack. The backplane provides the power needed to operate the modules.

It draws 70 mA** from the backplane. It also has an external power supply to provide the required power to the load.

The IC200MDL743 discrete output module has an on response time of 2.1 ms at 0 V DC, an off response time of 0.0 ms, and an output leakage current of 5.30 mA.

It features a compact modular design for easy and space-saving installation. This module does not provide group-to-group isolation or point-to-point isolation.

It can be used to drive a variety of output devices such as lamps, relays, and motor starters. Power wiring is recommended,

control wiring and communication signal wiring separately to minimize insulation failures and wiring errors.

There are different types of brackets, such as box brackets and spring-loaded compact brackets, to make the wiring process easy.

The IC200MDL743 discrete output module features automatic I/O addressing to maximize ease of use in PLC-based industrial control applications**.

The IC200MDL743 is a discrete signal output module from General Electric’s VersaMax family.

The device has 16 output points, each of which can be either negative logic or sinking type.

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