The document provides information on Ingeteam's INGEDRIVETM family of low- and medium-voltage variable speed drives. It describes the drives' modular design, control system, power ratings up to 36 MVA, cooling options, safety features, communication capabilities, and applications in industries such as marine, oil & gas, metals, mining, and water & waste water. The document also includes specifications, dimensions, and type codes for some example drive models.
This document provides an overview of ABB's drives and motors catalogue for 2010, including:
- A product quickfinder that allows selection of drives and motors by criteria like power, voltage, enclosure type, and more.
- Brief descriptions and selection criteria for ABB's main drive and motor product families to help customers choose the appropriate product.
- Information on ABB's services including drive installation, commissioning, repair, and training.
- Contact details for ABB and its channel partners for sales and support.
Analysis of Induction Motor Speed Control Using SCADA Based Drive Operated Sy...IJSRD
This document analyzes induction motor speed control using a variable frequency drive (VFD) system operated by a programmable logic controller (PLC) and supervisory control and data acquisition (SCADA) system. It describes how a VFD can be used to efficiently control the speed of a three-phase induction motor and provide energy savings compared to direct connection to the main supply. A PLC is used to control the VFD based on inputs from proximity sensors on a conveyor belt. A SCADA system allows for remote monitoring and control of the motor speed through the PLC and VFD from a computer interface. The system provides flexible and efficient control of induction motor speed for applications requiring variable speed operation like conveyor belts
The document describes the Gemini 3 remote terminal unit (RTU) platform for advanced feeder automation on electrical distribution networks. The Gemini 3 is a flexible RTU that incorporates new features allowing customers to build in flexibility and scalability to their network automation. It has a modular design that allows individual modules to be replaced or upgraded without recalibration. The Gemini 3 modules provide different functionality, including switch control, power supply, input/output, and a human-machine interface.
HYDROVAR from Xylem is an intelligent pump controller that matches pump performance to demand. It controls the speed of standard IEC motors, allowing energy savings of up to 70% compared to fixed speed pumps. The 5th generation HYDROVAR offers improved robustness, security, and performance over previous generations. It is easy to commission and operate, and provides control functions like constant pressure or flow as well as integrated protections for the pump and motor.
Numatics, Inc. is a leading manufacturer of pneumatic products and motion control products. Their broad spectrum of standard, custom developed products and application components have made a significant impact on pneumatic innovation as well as pneumatic and motion control technology.
Numatics Express Shipping Program guarantees† product
shipment in two, three or five business days. Unlike most traditional quick ship programs, the Numatics Express Shipping Program includes the most comprehensive offering
in the industry. This program encompasses the range and options that you require!
The document provides an overview of the CENTUM VP integrated production control system from Yokogawa Electric Corporation. It describes the main system components, including the Automation Design Suite engineering tools, Engineering Stations, Human Interface Stations, Field Control Stations, and networking equipment. The CENTUM VP system uses these components along with optional software packages to provide an integrated solution for controlling industrial processes in various industries.
Speed Control of Induction Motor Using PLC and SCADA SystemIJERA Editor
This document discusses a speed control system for an induction motor using a programmable logic controller (PLC) and supervisory control and data acquisition (SCADA) system. The system uses a Siemens PLC and Micro Master 440 variable frequency drive to control the speed of a three-phase induction motor based on feedback from an incremental rotary encoder. The encoder measures motor speed, which is fed back to the PLC for closed-loop control. Motor parameters are monitored via a SCADA system for remote monitoring and control. The system aims to precisely control motor speed at low cost using available PLC and SCADA technologies.
The document describes an intelligent motor control center (MCC) system using SIMOCODE motor management and control devices. Conventional MCCs use discrete hardware components for protection, measurement, and I/O, whereas the intelligent MCC uses SIMOCODE pro controllers with integrated Profibus communication. This allows for online monitoring of motor parameters, centralized fault records, and control from a DCS without additional I/O wiring. The document outlines the components, functions, configuration, benefits and issues addressed during commissioning of the intelligent MCC system.
This document provides an overview of ABB's drives and motors catalogue for 2010, including:
- A product quickfinder that allows selection of drives and motors by criteria like power, voltage, enclosure type, and more.
- Brief descriptions and selection criteria for ABB's main drive and motor product families to help customers choose the appropriate product.
- Information on ABB's services including drive installation, commissioning, repair, and training.
- Contact details for ABB and its channel partners for sales and support.
Analysis of Induction Motor Speed Control Using SCADA Based Drive Operated Sy...IJSRD
This document analyzes induction motor speed control using a variable frequency drive (VFD) system operated by a programmable logic controller (PLC) and supervisory control and data acquisition (SCADA) system. It describes how a VFD can be used to efficiently control the speed of a three-phase induction motor and provide energy savings compared to direct connection to the main supply. A PLC is used to control the VFD based on inputs from proximity sensors on a conveyor belt. A SCADA system allows for remote monitoring and control of the motor speed through the PLC and VFD from a computer interface. The system provides flexible and efficient control of induction motor speed for applications requiring variable speed operation like conveyor belts
The document describes the Gemini 3 remote terminal unit (RTU) platform for advanced feeder automation on electrical distribution networks. The Gemini 3 is a flexible RTU that incorporates new features allowing customers to build in flexibility and scalability to their network automation. It has a modular design that allows individual modules to be replaced or upgraded without recalibration. The Gemini 3 modules provide different functionality, including switch control, power supply, input/output, and a human-machine interface.
HYDROVAR from Xylem is an intelligent pump controller that matches pump performance to demand. It controls the speed of standard IEC motors, allowing energy savings of up to 70% compared to fixed speed pumps. The 5th generation HYDROVAR offers improved robustness, security, and performance over previous generations. It is easy to commission and operate, and provides control functions like constant pressure or flow as well as integrated protections for the pump and motor.
Numatics, Inc. is a leading manufacturer of pneumatic products and motion control products. Their broad spectrum of standard, custom developed products and application components have made a significant impact on pneumatic innovation as well as pneumatic and motion control technology.
Numatics Express Shipping Program guarantees† product
shipment in two, three or five business days. Unlike most traditional quick ship programs, the Numatics Express Shipping Program includes the most comprehensive offering
in the industry. This program encompasses the range and options that you require!
The document provides an overview of the CENTUM VP integrated production control system from Yokogawa Electric Corporation. It describes the main system components, including the Automation Design Suite engineering tools, Engineering Stations, Human Interface Stations, Field Control Stations, and networking equipment. The CENTUM VP system uses these components along with optional software packages to provide an integrated solution for controlling industrial processes in various industries.
Speed Control of Induction Motor Using PLC and SCADA SystemIJERA Editor
This document discusses a speed control system for an induction motor using a programmable logic controller (PLC) and supervisory control and data acquisition (SCADA) system. The system uses a Siemens PLC and Micro Master 440 variable frequency drive to control the speed of a three-phase induction motor based on feedback from an incremental rotary encoder. The encoder measures motor speed, which is fed back to the PLC for closed-loop control. Motor parameters are monitored via a SCADA system for remote monitoring and control. The system aims to precisely control motor speed at low cost using available PLC and SCADA technologies.
The document describes an intelligent motor control center (MCC) system using SIMOCODE motor management and control devices. Conventional MCCs use discrete hardware components for protection, measurement, and I/O, whereas the intelligent MCC uses SIMOCODE pro controllers with integrated Profibus communication. This allows for online monitoring of motor parameters, centralized fault records, and control from a DCS without additional I/O wiring. The document outlines the components, functions, configuration, benefits and issues addressed during commissioning of the intelligent MCC system.
The document describes DC drive solutions from Control Techniques, including their Mentor MP and Quantum MP DC drives. The Mentor MP and Quantum MP are advanced digital DC drives that provide reliable motor control and flexible system interfacing capabilities. They integrate control functionality from Emerson's Unidrive SP AC drive and include options for expanded I/O, communications, feedback and automation capabilities through add-in modules. The drives can interface with modern industrial networks and are suitable for new DC motor applications as well as upgrades to existing DC motor systems.
ZH/PVII Series UPS 10-600kVA from HRD UPS -20160303Wendy Zhang
The document introduces two series of UPS systems - the ZH Series Online HF UPS from 15-400kVA and the Powervalue (II) Series LF UPS from 10kVA-600kVA 3:3phase with output isolation transformer. Key features of the ZH Series include its high efficiency mode, true reliability, compact design, flexible installation options, and automatic battery management. The Powervalue (II) Series is highly reliable with an output isolation transformer, features intelligent digital control, handles unbalanced loads, includes intelligent battery management, and allows for parallel capabilities.
CENTUM VP is Yokogawa’s latest integrated production control system, also known as a distributed control system (DCS). Nearly 40 years of knowledge and experience with DCSs has gone into its development.
IRJET- Monitoring and Protection of Distribution Transformer using GSM ModuleIRJET Journal
This document presents a monitoring and protection system for distribution transformers using GSM technology. The system continuously monitors transformer parameters like load current, voltage, oil level, and ambient temperature using sensors. If any abnormalities are detected, an alert message with the parameter values and location is sent to the monitoring center via GSM and GPS modules integrated with a microcontroller. This real-time monitoring system can help identify problems early to prevent failures and save costs compared to manual monitoring. The system design includes components like a power supply, microcontroller, LCD display, fault indicator, MAX232 for RS232 conversion, relay, and GSM modem to send SMS alerts.
AC Induction motor (IM) are used as actuators in many industrial processes. Although IMs are reliable, they are subjected to some undesirable stresses, causing faults resulting in failure. Monitoring of an IM is a fast emerging technology for the detection of initial faults. It avoids unexpected failure of an industrial process. Monitoring techniques can be classified as the conventional and the digital techniques.
1.1 PROTECTION SCHEME OF INDUCTION MOTOR
Classical monitoring techniques for three-phase IMs are generally provided by some combination of mechanical and electrical monitoring equipment. Mechanical forms of motor sensing are also limited in ability to detect electrical faults, such as stator insulation failures. In addition, the mechanical parts of the equipment can cause problems in the course of operation and can reduce the life and efficiency of a system.
It is well known that IM monitoring has been studied by many researchers and reviewed in a number of works. Reviews about various stator faults and their causes, and detection techniques, latest trends, and diagnosis methods supported by the artificial intelligence, the microprocessor, the computer and other techniques in monitoring unbalanced voltage inter turn faults, stator winding temperature and microcontroller based digital protectors have been recently studied subjects. In these, while one or two variables were considered together to protect the IMs, the variables of the motor were not considered altogether. Measurements of the voltages, currents, temperatures, and speed were achieved and transferred to the computer for final protection decision.
A programmable integrated circuit (PIC) based protection system has been introduced using Microprocessors and the solutions of various faults of the phase currents, the phase voltages, the speed, and the winding temperatures of an IM occurring in operation have been achieved with the help of the microcontroller, but these electrical parameters have not been displayed on a screen.
Nowadays, the most widely used area of programmable logic controller (PLC) is the control circuits of industrial automation systems. The PLC systems are equipped with special I/O units appropriate for direct usage in industrial automation systems. The input components, such as the pressure, the level, and the temperature sensors, can be directly connected to the input. The driver components of the control circuit such as contactors and solenoid valves can directly be connected to the output.
Mitchell Lewis & Staver offers a variety of pumping system solutions including basic outdoor variable frequency drives, custom designed multiple pump systems, and Danfoss FC202 Aqua Drives. They provide value-added control panels engineered to customer requirements featuring programmable logic controllers, touch screens, telemetry capabilities, and UL listings. A wide range of inventory and custom solutions are available for applications such as municipal water systems, irrigation, and more.
The document provides information on the >pDRIVE< MX frequency inverters from VA TECH ELIN EBG Elektronik. The inverters come in basic, plus, and multi models to provide flexible, powerful, and individualized solutions. They offer simple operation, integrated protection functions, communication capabilities, and options for customized applications. Various models and power ranges are available to suit different motor and load needs.
The document describes an existing system in a steel rolling mill where scaling and cutting motors run continuously, wasting energy, and proposes automating the motors with a PLC and VFDs.
The proposed system uses a proximity sensor to sense when a rod is present. The sensor signal is sent to the PLC, which operates the VFDs to run the scaling and cutting motors at full speed only when necessary to process the rod. This minimizes energy consumption by avoiding running the motors when not required.
This document discusses Supervisory Control and Data Acquisition (SCADA) systems used in electric utilities. It describes:
1) SCADA systems connect master stations to remote terminal units (RTUs) via communication systems to collect data and remotely control electrical systems.
2) Control centers use SCADA for energy management and distribution management. Modern centers use open standards and protocols like ICCP for data exchange.
3) RTUs contain sensors, processors and I/O to monitor and control field devices and report to master stations. Larger RTUs are used at substations while smaller RTUs automate distribution.
The document provides an introduction to Alstom's Micom protective relays and their Agile software. It discusses the key features of Micom S1 Agile, including its integrated programmable curve tool and redundant Ethernet configuration. It also covers installing data models, creating a new project in S1 Agile, and configuring settings, programmable scheme logic (PSL), and MCL 61850 capabilities. The document is a training compilation on Micom protective relays and their S1 Agile configuration software.
IRJET- Speed Control of BLDC Motor using PID Tuned Fuzzy ControllerIRJET Journal
This document summarizes a study that used a PID-tuned fuzzy controller to control the speed of a brushless DC motor (BLDC) with varying load parameters like torque and current. A solar photovoltaic array charges a boost converter which supplies power to a voltage source inverter that provides electronic commutation for the BLDC motor. The PID-tuned fuzzy controller adjusts the gains of the PID controller based on the load range to maintain the desired motor speed. The system was simulated in MATLAB/Simulink.
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Centum VP - Evolution of Yokogawa System Solutions (2014)Yokogawa
Yokogawa’s system platforms combined with proven execution experience provide the highest quality and innovative solutions for secure and optimized process automation and management. Yokogawa’s global customer centric focus together with strong local support reduces users’ business risks and provides the lowest total cost of ownership. With a long history of progressive compatibility, Yokogawa is your dependable automation partner.
Ls catalog thiet bi tu dong gipam 2200-eDien Ha The
Catalog LS, Catalog,
Catalog Thiết Bị Điện LS, Catalog Thiết Bị Điện,
Catalog Biến Tần LS, Catalog Biến Tần,
Catalog Inverter LS, Catalog Inveter,
http://dienhathe.com,
Chi tiết các sản phẩm khác của LS tại https://dienhathe.com
Xem thêm các Catalog khác của LS tại https://dienhathe.info
Để nhận báo giá sản phẩm LS vui lòng gọi: 0907.764.966
Electric Control Valve Actuators for Industrial Process ApplicationsCTi Controltech
The Rotork CVA line of electric process control actuators offers a highly accurate and responsive method of automating control valves, without the complexity and cost of a pneumatic supply. With an increased focus on production costs and efficiency, accurate control of product through the pipeline is paramount. With resolution figures better than 0.1% and the ability to eliminate position overshoot, the Rotork CVA models help to maximize product quality and plant capacity.
Explore the compact inverter WJ200 series built for excellent performance and user-friendliness.
To learn more about Hitachi Inverters, visit: https://www.hitachi-iesa.com/ac-drives-inverters
Three key points about distribution switchboards:
1. Distribution switchboards must comply with standards like IEC 60439-1 to ensure dependability. Standards define functional units and required separation between units.
2. There are two main types - traditional switchboards with fixed components, and functional switchboards which are modular and standardized for flexibility.
3. Functional switchboards have advantages like modularity, faster installation, and certification to standards which ensure reliability. Compliance with standards is essential for adequate dependability.
IRJET- AC Motor Fault Analyser by Characteristic AnalysisIRJET Journal
This document presents a portable motor fault analyzer system that can test motors in place. It uses variable frequency drives and servo drives to analyze induction motors and servo motors. Characteristic waveforms from the motors are displayed on a human-machine interface to detect and analyze common faults like overcurrent, overvoltage, and positional errors. The system is comprised of an AC or servo motor, appropriate drive, programmable logic controller to connect the drive and HMI, and an HMI to display the motor waveforms for fault analysis. This allows on-site motor testing without dismantling equipment.
This document provides a quick guide for installing and programming the VLT Micro Drive FC 51 frequency converter. It contains information on safety warnings and instructions, an introduction to available documentation and approvals, and sections covering installation, programming, specifications, options, and other technical details. The guide includes mechanical dimensions, electrical installation guidelines, terminal torque requirements, fuse recommendations, and derating information for ambient temperature, air pressure, and low speeds.
The document provides information on pDRIVE frequency inverters and motors for efficient drive solutions. It discusses pDRIVE's experience, commitment to customers, product options, and focus on innovation. Key features of the pDRIVE MX eco, MX pro, and MX multi product lines are summarized. The document emphasizes pDRIVE's ability to provide customized system solutions and support.
Schneider Electric is a global manufacturer of electrical equipment such as circuit breakers, contactors, and variable frequency drives. They have over 100 years of experience manufacturing innovative products tailored for tunnel car wash applications. Schneider Electric can provide automation, control, power, and sensing solutions to create efficient tunnel car wash systems with minimal downtime and maintenance requirements.
Lenze offers a complete range of three-phase AC motors that:
- Come in different designs for foot or flange mounting and can operate in any mounting position.
- Have options for separate or integral fans, brakes, and encoders.
- Are suitable for inverter operation and designed to withstand high switching frequencies.
- Can be paired with Lenze frequency inverters and gearboxes for complete drive solutions from a single supplier.
The document describes DC drive solutions from Control Techniques, including their Mentor MP and Quantum MP DC drives. The Mentor MP and Quantum MP are advanced digital DC drives that provide reliable motor control and flexible system interfacing capabilities. They integrate control functionality from Emerson's Unidrive SP AC drive and include options for expanded I/O, communications, feedback and automation capabilities through add-in modules. The drives can interface with modern industrial networks and are suitable for new DC motor applications as well as upgrades to existing DC motor systems.
ZH/PVII Series UPS 10-600kVA from HRD UPS -20160303Wendy Zhang
The document introduces two series of UPS systems - the ZH Series Online HF UPS from 15-400kVA and the Powervalue (II) Series LF UPS from 10kVA-600kVA 3:3phase with output isolation transformer. Key features of the ZH Series include its high efficiency mode, true reliability, compact design, flexible installation options, and automatic battery management. The Powervalue (II) Series is highly reliable with an output isolation transformer, features intelligent digital control, handles unbalanced loads, includes intelligent battery management, and allows for parallel capabilities.
CENTUM VP is Yokogawa’s latest integrated production control system, also known as a distributed control system (DCS). Nearly 40 years of knowledge and experience with DCSs has gone into its development.
IRJET- Monitoring and Protection of Distribution Transformer using GSM ModuleIRJET Journal
This document presents a monitoring and protection system for distribution transformers using GSM technology. The system continuously monitors transformer parameters like load current, voltage, oil level, and ambient temperature using sensors. If any abnormalities are detected, an alert message with the parameter values and location is sent to the monitoring center via GSM and GPS modules integrated with a microcontroller. This real-time monitoring system can help identify problems early to prevent failures and save costs compared to manual monitoring. The system design includes components like a power supply, microcontroller, LCD display, fault indicator, MAX232 for RS232 conversion, relay, and GSM modem to send SMS alerts.
AC Induction motor (IM) are used as actuators in many industrial processes. Although IMs are reliable, they are subjected to some undesirable stresses, causing faults resulting in failure. Monitoring of an IM is a fast emerging technology for the detection of initial faults. It avoids unexpected failure of an industrial process. Monitoring techniques can be classified as the conventional and the digital techniques.
1.1 PROTECTION SCHEME OF INDUCTION MOTOR
Classical monitoring techniques for three-phase IMs are generally provided by some combination of mechanical and electrical monitoring equipment. Mechanical forms of motor sensing are also limited in ability to detect electrical faults, such as stator insulation failures. In addition, the mechanical parts of the equipment can cause problems in the course of operation and can reduce the life and efficiency of a system.
It is well known that IM monitoring has been studied by many researchers and reviewed in a number of works. Reviews about various stator faults and their causes, and detection techniques, latest trends, and diagnosis methods supported by the artificial intelligence, the microprocessor, the computer and other techniques in monitoring unbalanced voltage inter turn faults, stator winding temperature and microcontroller based digital protectors have been recently studied subjects. In these, while one or two variables were considered together to protect the IMs, the variables of the motor were not considered altogether. Measurements of the voltages, currents, temperatures, and speed were achieved and transferred to the computer for final protection decision.
A programmable integrated circuit (PIC) based protection system has been introduced using Microprocessors and the solutions of various faults of the phase currents, the phase voltages, the speed, and the winding temperatures of an IM occurring in operation have been achieved with the help of the microcontroller, but these electrical parameters have not been displayed on a screen.
Nowadays, the most widely used area of programmable logic controller (PLC) is the control circuits of industrial automation systems. The PLC systems are equipped with special I/O units appropriate for direct usage in industrial automation systems. The input components, such as the pressure, the level, and the temperature sensors, can be directly connected to the input. The driver components of the control circuit such as contactors and solenoid valves can directly be connected to the output.
Mitchell Lewis & Staver offers a variety of pumping system solutions including basic outdoor variable frequency drives, custom designed multiple pump systems, and Danfoss FC202 Aqua Drives. They provide value-added control panels engineered to customer requirements featuring programmable logic controllers, touch screens, telemetry capabilities, and UL listings. A wide range of inventory and custom solutions are available for applications such as municipal water systems, irrigation, and more.
The document provides information on the >pDRIVE< MX frequency inverters from VA TECH ELIN EBG Elektronik. The inverters come in basic, plus, and multi models to provide flexible, powerful, and individualized solutions. They offer simple operation, integrated protection functions, communication capabilities, and options for customized applications. Various models and power ranges are available to suit different motor and load needs.
The document describes an existing system in a steel rolling mill where scaling and cutting motors run continuously, wasting energy, and proposes automating the motors with a PLC and VFDs.
The proposed system uses a proximity sensor to sense when a rod is present. The sensor signal is sent to the PLC, which operates the VFDs to run the scaling and cutting motors at full speed only when necessary to process the rod. This minimizes energy consumption by avoiding running the motors when not required.
This document discusses Supervisory Control and Data Acquisition (SCADA) systems used in electric utilities. It describes:
1) SCADA systems connect master stations to remote terminal units (RTUs) via communication systems to collect data and remotely control electrical systems.
2) Control centers use SCADA for energy management and distribution management. Modern centers use open standards and protocols like ICCP for data exchange.
3) RTUs contain sensors, processors and I/O to monitor and control field devices and report to master stations. Larger RTUs are used at substations while smaller RTUs automate distribution.
The document provides an introduction to Alstom's Micom protective relays and their Agile software. It discusses the key features of Micom S1 Agile, including its integrated programmable curve tool and redundant Ethernet configuration. It also covers installing data models, creating a new project in S1 Agile, and configuring settings, programmable scheme logic (PSL), and MCL 61850 capabilities. The document is a training compilation on Micom protective relays and their S1 Agile configuration software.
IRJET- Speed Control of BLDC Motor using PID Tuned Fuzzy ControllerIRJET Journal
This document summarizes a study that used a PID-tuned fuzzy controller to control the speed of a brushless DC motor (BLDC) with varying load parameters like torque and current. A solar photovoltaic array charges a boost converter which supplies power to a voltage source inverter that provides electronic commutation for the BLDC motor. The PID-tuned fuzzy controller adjusts the gains of the PID controller based on the load range to maintain the desired motor speed. The system was simulated in MATLAB/Simulink.
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Centum VP - Evolution of Yokogawa System Solutions (2014)Yokogawa
Yokogawa’s system platforms combined with proven execution experience provide the highest quality and innovative solutions for secure and optimized process automation and management. Yokogawa’s global customer centric focus together with strong local support reduces users’ business risks and provides the lowest total cost of ownership. With a long history of progressive compatibility, Yokogawa is your dependable automation partner.
Ls catalog thiet bi tu dong gipam 2200-eDien Ha The
Catalog LS, Catalog,
Catalog Thiết Bị Điện LS, Catalog Thiết Bị Điện,
Catalog Biến Tần LS, Catalog Biến Tần,
Catalog Inverter LS, Catalog Inveter,
http://dienhathe.com,
Chi tiết các sản phẩm khác của LS tại https://dienhathe.com
Xem thêm các Catalog khác của LS tại https://dienhathe.info
Để nhận báo giá sản phẩm LS vui lòng gọi: 0907.764.966
Electric Control Valve Actuators for Industrial Process ApplicationsCTi Controltech
The Rotork CVA line of electric process control actuators offers a highly accurate and responsive method of automating control valves, without the complexity and cost of a pneumatic supply. With an increased focus on production costs and efficiency, accurate control of product through the pipeline is paramount. With resolution figures better than 0.1% and the ability to eliminate position overshoot, the Rotork CVA models help to maximize product quality and plant capacity.
Explore the compact inverter WJ200 series built for excellent performance and user-friendliness.
To learn more about Hitachi Inverters, visit: https://www.hitachi-iesa.com/ac-drives-inverters
Three key points about distribution switchboards:
1. Distribution switchboards must comply with standards like IEC 60439-1 to ensure dependability. Standards define functional units and required separation between units.
2. There are two main types - traditional switchboards with fixed components, and functional switchboards which are modular and standardized for flexibility.
3. Functional switchboards have advantages like modularity, faster installation, and certification to standards which ensure reliability. Compliance with standards is essential for adequate dependability.
IRJET- AC Motor Fault Analyser by Characteristic AnalysisIRJET Journal
This document presents a portable motor fault analyzer system that can test motors in place. It uses variable frequency drives and servo drives to analyze induction motors and servo motors. Characteristic waveforms from the motors are displayed on a human-machine interface to detect and analyze common faults like overcurrent, overvoltage, and positional errors. The system is comprised of an AC or servo motor, appropriate drive, programmable logic controller to connect the drive and HMI, and an HMI to display the motor waveforms for fault analysis. This allows on-site motor testing without dismantling equipment.
This document provides a quick guide for installing and programming the VLT Micro Drive FC 51 frequency converter. It contains information on safety warnings and instructions, an introduction to available documentation and approvals, and sections covering installation, programming, specifications, options, and other technical details. The guide includes mechanical dimensions, electrical installation guidelines, terminal torque requirements, fuse recommendations, and derating information for ambient temperature, air pressure, and low speeds.
The document provides information on pDRIVE frequency inverters and motors for efficient drive solutions. It discusses pDRIVE's experience, commitment to customers, product options, and focus on innovation. Key features of the pDRIVE MX eco, MX pro, and MX multi product lines are summarized. The document emphasizes pDRIVE's ability to provide customized system solutions and support.
Schneider Electric is a global manufacturer of electrical equipment such as circuit breakers, contactors, and variable frequency drives. They have over 100 years of experience manufacturing innovative products tailored for tunnel car wash applications. Schneider Electric can provide automation, control, power, and sensing solutions to create efficient tunnel car wash systems with minimal downtime and maintenance requirements.
Lenze offers a complete range of three-phase AC motors that:
- Come in different designs for foot or flange mounting and can operate in any mounting position.
- Have options for separate or integral fans, brakes, and encoders.
- Are suitable for inverter operation and designed to withstand high switching frequencies.
- Can be paired with Lenze frequency inverters and gearboxes for complete drive solutions from a single supplier.
Find out more about Infineon on our Homepage: www.infineon.com
Power semiconductors play a key role to produce energy from renewable sources.
In wind turbines, power semiconductors are used to convert power and to couple
the generator with the grid. Find out here more about Solutions for Wind Energy Sysytems powered by Infineon.
This document provides information on ODP NEMA Premium motors from WEG, including:
- The motors are designed for use with variable frequency drives and feature an AEGIS bearing protection ring.
- They are available in cast iron and rolled steel frames from 1 to 100 HP and voltages of 208-230/460V.
- WEG also offers compatible variable frequency drives like the CFW11 and CFW700 which are suited for controlling the motors.
This document discusses drives used for heating, ventilation and air conditioning systems. It compares AC and DC drives, describing their advantages and disadvantages. AC drives have lower motor costs but higher power converter costs compared to DC drives. Microprocessor control is discussed for both AC and DC drives. Common industrial applications of microprocessor controlled AC drives are also listed, such as for fans, pumps and compressors. The document concludes with advantages of microprocessor controlled drives like better process control and reliability.
Messung Industrial Automation & Controls is proud to be Distributor in India for Fuji Electric’s range of simple and high-performance Variable Frequency Drives (VFDs).
This report aims to familiarize the reader with basic but important information about
two specific types of controllers – DC drives and AC drives. The first part provides
descriptions of the general working principles of variable speed drive (VSD)
technology. It discusses their main advantages and disadvantages between AC and
DC drive solutions. The second part explains some problems that could possibly be
encountered when employing AC or DC drive systems and offers practical
recommendations about how to approach these problems.
Dr Adrian West, Optima’s technical director, has spent more than 30 years working
with, programming and troubleshooting drive systems. This report is based on his
extensive practical knowledge and experience. It is, therefore, a very accurate and independent source of information.
The document discusses Endress's line of mobile power generators. It highlights Endress's leadership in the industry due to its focus on innovation and technical refinement. Key product lines include DUPLEX generators, which combine advantages of asynchronous and synchronous alternators, and ECOtronic generators, which save fuel by lowering RPM when not in use. The document also describes Endress's remote monitoring system, E-RMA, which allows users to access generator data and controls from any location.
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2. Marine
Main propulsion, thrusters, pumps
and compressors, dredgers.
Oil & Gas
Drilling, pumps, compressors, blowers.
With over 40 years' experience, Ingeteam's drives cover a wide range of applications in sectors such as Marine,
Metals, Mining, Oil & Gas, Water & Waste Water, Power Generation, and Test Benches. Ingeteam designs and
manufactures MV and LV variable speed drive solutions for the most demanding applications in terms of control
requirements and environmental conditions. With the latest design in power electronics and control, Ingeteam
offers an extensive portfolio of drives.
Introduction
INGEDRIVE™ is a family of low- and medium-voltage modular AC drives designed for demanding single-motor
or multi-motor applications handling and controlling synchronous, induction, and permanent magnet motors.
These drives are suitable for four-quadrant operation, driving and braking in both rotational directions.
INGEDRIVE™ is designed to be a highly-efficient drive which significantly reduces energy consumption. Its
modular design enables it to cover a wide range of powers and voltages while its intuitive structure makes it easy
to use and maintain.
Years of experience have made it possible to incorporate two-, three- and five-level advanced vector control into
low- and medium-voltage rectifiers and inverters, always using latest generation semiconductors. The powerful
CCU (Converter Control Unit) communicates with power stacks via optic fibre. The result is a compact, flexible,
safe, and user-friendly solution.
INGEDRIVE™ is available with power ratings up to 36 MVA, from 400V to 690V in low voltage and 3.3 kV to
6.9 kV in medium voltage, offering great performance, robustness, reliability, and long life expectancy.
Main Features
Wide range of powers and voltages: the use of different types
of semiconductor for each range, as well as appropriate topologies
makes it possible to provide the best solution for almost any
application.
Modular design: the modular design upon which the INGEDRIVE™
family is based makes it possible to design a “Custom-Made
Configuration” for each client and application.
Converter architecture: the control system is based on two
elements - the CCU (Converter Control Unit) and the PMM (Power
Management Module) associated to each of the BPMs (Basic
Power Modules) combined with which a wide range of
configurations can be achieved. Furthermore, this hardware
facilitates easy expansion of I/O capacity and communication
modules.
Flexibility: this is achieved thanks to the combination of basic
power modules (BPMs) and control modules, which allow the
rectifier to choose from DFE (6, 12 or 24 pulses) or AFE (Active
Front End) topologies and different inverter modules for single-
or multi-drive solutions according to client requirements.
Intuitive troubleshooting: The system includes the “Web Server”
functional feature with no additional parameterising program
requirements. This enables remote access to converters and
permits the analysis of potential failures, thus minimising repair
times whilst maximizing drive availability.
High quality: the parts and elements used in the converter are
selected according to quality and life expectancy improvement
concepts, thus extending the availability and life expectancy of
the drive system as a whole.
Safety: INGEDRIVE™ is based in our Safety Drive Cabinet (SDC)
system, which is a system guaranteeing safe, “0” voltage access
to converters both in low and medium voltage. Other safety
features also include flame-retardant and halogen-free properties,
wiring and cable ducts.
Standards: the entire INGEDRIVE™ converter family complies
with IEC international standards for low and medium voltage
converters. The high quality of our equipment enables us to attain
certification from the most renowned classification bodies, such
as Lloyd's Register, DNV, ABS and BV.
Excellent performance: the high performance of INGEDRIVE™
families makes it possible to achieve energy savings and
improvements in efficiency.
Frequency Converters
2 3
3. Metals
Mill stands, winders, pumps, fans.
Frequency Converters
Topologies and Configurations
INGEDRIVE™ can be applied to different sectors and custom made to specific requirements. It can
control motors with one or several windings and cater to the needs of redundant, single-motor and
multi-motor solutions. Parallel connection of several inverters to the same motor is feasible allowing
higher converter output. It is also possible connect several AFE rectifiers in parallel so that more
power can be handled.
The CCU communicates with the various BPMs (rectifiers and inverters) via an optic fibre
link called PMM Link, thus electrically isolating the drive power side from control side and
avoiding potential ground noise. It is designed for both basic solutions and highly-complex
ones by expanding the number of I/Os locally and remotely and with the option of adding
different communication modules.
Converter control is carried out on standard hardware and software platforms. The same
control hardware and software permits the following functional features:
1 Control of the whole medium and low voltage converter range with two, three and multi-
level topologies, using the same control components.
2 Modular solution for different multi-drive configurations.
3 Permits both independent excitation synchronous machine control and permanent
magnet and induction machine control.
Furthermore, the control system as a whole can handle and adapt to a wide variety of
applications and configuration options. For example, motors can be controlled with or without
speed sensors (with a patented encoderless control system), as well as redundant encoder
systems.
Ingeteam's experience in the marine, industry and energy sectors has enabled it to develop
key functional features for all types of application, including black-out prevention, power
mode control, flying start applications, voltage ride through, energy saving and load sharing.
4 5
· Single-drive solution: a standard
application consisting of one motor
with a winding fed through a DFE or
AFE converter.
Option
B
Option
A
Option
B
Option
A
· Redundant single-drive solution: an
application consisting of a motor with
two windings fed by two inverters.
The rectifier side can be DFE or AFE.
Option
B
Option
A AFE
DFE
· Multi-drive solution: Multi-drive
application in which several inverters
are connected to one single DC bus.
While some motors can be braking,
others can be motoring, thus
transferring energy between
themselves through the DC bus (i.e.
tension reels on reversing cold mills
in the metal industry and test bench
applications).
Control Features
Using the most advanced Digital Signal Processor Techniques, INGEDRIVE™ offers high-power and
highly-reliable driving motors with smooth torque control throughout the whole speed range, using
the latest advanced control techniques.
Its powerful CCU has two microprocessors: one is designed to perform all functions related to
controlling the converter and the other is a PLC (in accordance with IEC 61131 and based in codesys)
for performing all the drive system's logic functions. The control code is designed to be integrated
into standard simulation platforms to reproduce the real control behaviour in applications.
AFE
DFE
AFE
DFE
4. Frequency Converters
Cooling Systems
The INGEDRIVE™ family offers converters cooled by air or by water (fresh water
or sea water). Our water-cooled equipment is manufactured in stainless steel.
Easy maintenance and reliable materials such as quick connectors, three-way
valves for regulating the incoming temperature, redundant deionising systems
for medium-voltage drives (for MV500 family based in IGCTs) and redundant
pumps with valves are installed. All parameters such as pressure, temperature,
leakage and conductivity are constantly monitored.
Design tips
Some features that demonstrate the quality of INGEDRIVE™ converters are as
follows:
· Polypropylene power capacitors as standard, providing longer life expectancy.
· Large harmonic filters plus higher semiconductor switching frequency,
further minimizing THD content.
· Electronic board varnishing, minimizing potentially dangerous conductive
dust short-circuits.
· Individual industrial processors for motor control (DSP) and for drive system
control (PLC in accordance with IEC 61131).
· Tin-plated copper busbars.
· Stainless steel pipes.
· Electric cabinets from leading worldwide manufacturers.
· Anti-condensation heaters to prevent the appearance of dangerous drops
of moisture.
Maintenance and Safety
Our range of INGEDRIVE™ converters has been specifically designed to minimise
and facilitate maintenance tasks, not only in terms of fault detection and analysis
but also through hardware design thanks to removable power modules.
Parts with voltage in the equipment can be safely accessed thanks to the SDC
safety system. In the medium-voltage equipment this consists of a key interlock
system and earthing switches. In the low-voltage range it is based on door
interlocks, ensuring that the doors cannot be opened when there is voltage in
the equipment.
Quality
Intensive Testing
In addition to several quality testing stages during parts production, all finished
drives are tested up to full current and voltage before being shipped.
Working Life
Designed for long working life expectancy under the toughest environmental
conditions and the most demanding dynamic requirements, Ingedrive converters
have a proven track record of safe and reliable projects all around the world in
the Industry, Marine and Energy sectors.
Communication Buses
The system offers RS-485 and Ethernet as basic communication modules. Any
communication protocol based on these communications lines, such as Profibus-DP,
Modbus TCP, Modbus RTU, CAN, etc., are available on request.
HMI
Control network
PLC
Fieldbus
Variable
speed
drives
Electric
machines
in the
process
Protection
Drive Protection: Overcurrent, earth fault, output short-circuit, overload, overspeed, over-
/under-voltage, overheating, semiconductor fault, cooling system fault, imbalance between
motor phases, disconnected rectifier or inverter phases, water leakage, etc.
6 7
Ingedrive Web Server
INGEDRIVE™ is easy to use via the operator panel and PC interface's powerful user-friendly software, which supports monitoring, configuration, diagnostics, control, data recording, and commissioning either
locally or remotely when necessary. The system runs as a web application with no need for any additional software or license on your PC. Instead, once connected via the Ethernet link, the drive will supply
your PC with the necessary software. Different password levels are available for data and parameter protection and data-program upload/download procedures are straightforward.
Water and Waste Waters
Pumps
5. DFE/AFE
Frequency Converters
8 9
Product Range
INGEDRIVE™ offers different configuration options depending on your needs, such as non-regenerative
systems, 6, 12, or 24-pulse DFE or AFE regenerative systems, as follows:
· LV400 (low-voltage AC drive based on IGBTs. Air and water cooled)
6P DFE, 12P DFE, AFE as standard.
· MV100 (medium-voltage AC drive, based on HV-IGBT modules. Air and water cooled)
12P DFE, 24P DFE, AFE as standard.
· MV500 (medium voltage AC drive, based on IGCTs and water cooled)
12P DFE, 24P DFE, AFE as standard.
· MV700 (medium voltage AC drive, based on HV-IGBT modules. Air cooled)
24P DFE as standard.
N.B.: The AFE topology makes it possible to work with a unit power factor with lowest harmonics throughout the application's entire functional
range. A further advantage in AFE systems is the regeneration of the motor's kinetic energy during braking, resulting in a highly-efficient
configuration.
Cement, mining and minerals
Mine hoists, grinding mills,
conveyors and crushers, fans.
380V
690V
3300V
4160V
6600V
10kV
500 1000 2000 4000 10000 15000 20000 25000 30000 36000
Motor Voltage
Power Range kVA
HV-IGBT’S
Air
HV-IGBT’S
DFE
6600V
950-3900 kVA
3300V & 4160V
3400-11500 kVA
IGBT’S
380V-690V
600-6500 kVA
DFE/AFE
380V-690V
300-1600 kVA
IGBT’S
WaterAir
DFE/AFEDFE/AFE
Air 3300V & 4160V
1000-3650 kVA
HV-IGBT’S
Water
Press-Pack IGCT’S
DFE/AFE
3300V
7000-36000 kVA
Water
6. Shaft Power (2)
Synchronous
kW
Power
kVA
414
532
662
804
1064
1301
1561
350
450
560
680
900
1100
1320
393
506
629
764
1011
1236
1483
Shaft Power (1)
Asynchronous
kW
Shaft Power (2)
Synchronous
kW
Power
kVA
415
533
663
793
1064
1361
350
450
560
670
900
1150
394
506
629
753
1011
1293
Shaft Power (1)
Asynchronous
kW
Shaft Power (2)
Synchronous
kW
Power
kVA
414
532
662
804
1064
1301
1561
350
450
560
680
900
1100
1320
393
506
629
764
1011
1236
1483
Shaft Power (1)
Asynchronous
kW
Shaft Power (2)
Synchronous
kW
Power
kVA
355
532
698
840
1064
1301
300
450
590
710
900
1100
337
506
663
798
1011
1236
Shaft Power (1)
Asynchronous
kW
Shaft Power (2)
Synchronous
kW
Power
kVA
355
591
710
840
1064
1360
300
500
600
710
900
1150
337
506
663
798
1011
1236
Shaft Power (1)
Asynchronous
kW
Shaft Power (2)
Synchronous
kW
Power
kVA
355
591
710
946
1183
300
500
600
800
1000
326
506
629
798
1011
Shaft Power (1)
Asynchronous
kW
Rated Output
Current (A)
346
445
554
673
891
1089
1306
Width
2400
2400
2400
2400
3800
3800
3800
Depth
600
600
600
600
600
600
600
Height (4)
2360
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
850
850
850
850
1400
1400
1400
AFE Topology
Type Code
LV4F-23-461AA-369+Z
LV4F-24-451AA-369+Z
LV4F-25-541AA-369+Z
LV4F-26-731AA-369+Z
LV4F-28-911AA-369+Z
LV4F-31-091AA-369+Z
LV4F-31-311AA-369+Z
Rated Output
Current (A)
427
640
839
1010
1280
1565
Width
2400
2400
2400
3800
3800
3800
Depth
600
600
600
600
600
600
Height (4)
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
850
850
850
1400
1400
1400
AFE Topology
Type Code
LV4F-24-271AA-348+Z
LV4F-26-401AA-348+Z
LV4F-28-391AA-348+Z
LV4F-31-011AA-348+Z
LV4F-31-281AA-348+Z
LV4F-31-571AA-348+Z
10 11
Frequency Converters
air cooled, low-voltage
380V-480V Air Cooled 600V-690V Air Cooled
Rated Output
Current (A)
445
742
891
1054
1336
1707
Width
1400
1400
1400
2200
2200
2200
Depth
600
600
600
600
600
600
Height (4)
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
550
550
550
950
950
950
12 Pulse DFE Topology
Type Code
LV4D2-24-451AA-346+Z
LV4D2-27-421AA-346+Z
LV4D2-28-911AA-346+Z
LV4D2-31-051AA-346+Z
LV4D2-31-341AA-346+Z
LV4D2-31-711AA-346+Z
Rated Output
Current (A)
477
794
953
1270
1588
Width
1400
1400
1400
2000
2000
Depth
600
600
600
600
600
Height (4)
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
600
600
600
1000
1000
6 Pulse DFE Topology
Type Code
LV4D1-24-771AA-343+Z
LV4D1-27-941AA-343+Z
LV4D1-29-531AA-343+Z
LV4D1-31-271AA-343+Z
LV4D1-31-591AA-343+Z
Rated Output
Current (A)
386
496
617
738
991
1267
Width
1400
1400
1400
1400
2000
2000
Depth
600
600
600
600
600
600
Height (4)
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
600
600
600
600
1000
1000
Type Code
LV4D1-23-941AA-362+Z
LV4D1-24-961AA-362+Z
LV4D1-26-171AA-362+Z
LV4D1-27-381AA-362+Z
LV4D1-29-911AA-362+Z
LV4D1-31-271AA-362+Z
(1) Shaft power is calculated using asynchronous motor data (η=0.95, cosϕ=0.89)
(2) Shaft power is calculated using synchronous motor data (η=0.95, cosϕ=1)
(3) Excitation cabinet for synchronous motor not included
(4) Fans included
AFE Topology Vout =Vin
6 & 12 Pulse DFE Topology Vout =0,9xVin
Rated Output
Current (A)
362
466
579
704
931
1138
1366
Width
1400
1400
1400
1400
2200
2200
2200
Depth
600
600
600
600
600
600
600
Height (4)
2360
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
550
550
550
550
950
950
950
12 Pulse DFE Topology
Type Code
LV4D2-23-621AA-366+Z
LV4D2-24-661AA-366+Z
LV4D2-25-791AA-366+Z
LV4D2-27-041AA-366+Z
LV4D2-29-311AA-366+Z
LV4D2-31-141AA-366+Z
LV4D2-31-371AA-366+Z
Vin=480V
Vin=2x510V
Vin=480V
Vin=690V
Vin=2x730V
6 Pulse DFE Topology Vin=690V
8. Shaft Power (2)
Synchronous
kW
3300
3300
3300
3300
4160
4160
4160
4160
Power
kVA
3454
6218
8981
11744
3221
5988
8747
11514
3000
5400
7800
10200
2800
5200
7600
10000
Rated Output
Current (A)
604
1088
1571
2055
447
831
1214
1598
Width
2200
3800
5600
7600
2200
3800
5600
7600
Depth
1400
1400
1400
1400
1400
1400
1400
1400
Height
2360
2360
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
2800
4500
5400
6400
2800
4500
5400
6400
3333
6000
8667
11333
3111
5778
8444
11111
AFE Topology
Shaft Power (1)
Asynchronous
kW
Type Code
MV1F-26-041WA-433+Z
MV1F-31-091WA-433+Z
MV1F-31-571WA-433+Z
MV1F-32-061WA-433+Z
MV1F-24-471WA-442+Z
MV1F-28-311WA-442+Z
MV1F-31-211WA-442+Z
MV1F-31-601WA-442+Z
Frequency Converters
air or water-cooled, medium-voltage
Power Generation
Fans & pumps.
Water Cooled
14 15
(1) Shaft power is calculated using asynchronous motor data (η=0.965, cosϕ=0.9)
(2) Shaft power is calculated using synchronous motor data (η=0.965, cosϕ=1)
(3) Excitation cabinet for synchronous motor not included
(4) Fans included
Shaft Power (2)
Synchronous
kW
3150
3150
3150
3150
4160
4160
4160
4160
Power
kVA
3454
6220
8981
11741
3221
5988
8747
11514
3000
5400
7800
10200
2800
5200
7600
10000
Rated Output
Current (A)
633
1140
1646
2152
447
831
1214
1598
Width
2000
2600
4000
4000
2000
2600
4000
4000
Depth
1400
1400
1400
1400
1400
1400
1400
1400
Height
2360
2360
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3)
Weight
Kg
2500
3300
4100
4600
2500
3300
4100
4600
3333
6000
8667
11333
3111
5778
8444
11111
12 Pulse DFE Topology
Shaft Power (1)
Asynchronous
kW
Type Code
MV1D2-26-331WA-432+Z
MV1D2-31-141WA-432+Z
MV1D2-31-651WA-432+Z
MV1D2-32-151WA-432+Z
MV1D2-24-471WA-442+Z
MV1D2-28-311WA-442+Z
MV1D2-31-211WA-442+Z
MV1D2-31-601WA-442+Z
Shaft Power (2)
Synchronous
kW
3300
3300
3300
3300
3300
3300
4160
4160
4160
4160
4160
4160
Power
kVA
1151
1554
1957
2417
2993
3569
1151
1496
1842
2302
2993
3684
1000
1350
1700
2100
2600
3100
1000
1300
1600
2000
2600
3200
Rated Output
Current (A)
201
272
342
423
524
624
160
208
256
320
415
511
Width
2000
2000
2000
4000
4000
4000
2000
2000
2000
4000
4000
4000
Depth
1200
1200
1200
1200
1200
1200
1200
1200
1200
1200
1200
1200
Height (4)
2750
2750
2750
2750
2750
2750
2750
2750
2750
2750
2750
2750
Cabinet Dimensions(3)
Weight
Kg
2400
2400
2400
4000
4000
4000
2400
2400
2400
4000
4000
4000
1110
1499
1888
2332
2888
3444
1110
1443
1777
2221
2888
3555
AFE Topology
Shaft Power (1)
Asynchronous
kW
Type Code
MV1F-22-011AA-433+Z
MV1F-22-721AA-433+Z
MV1F-23-421AA-433+Z
MV1F-24-231AA-433+Z
MV1F-25-241AA-433+Z
MV1F-26-241AA-433+Z
MV1F-21-601AA-442+Z
MV1F-22-081AA-442+Z
MV1F-22-561AA-442+Z
MV1F-23-201AA-442+Z
MV1F-24-151AA-442+Z
MV1F-25-111AA-442+Z
Air Cooled
Shaft Power (2)
Synchronous
kW
3150
3150
3150
3150
3150
3150
4160
4160
4160
4160
4160
4160
Power
kVA
1093
1496
1899
2302
2878
3454
1151
1496
1842
2302
2993
3684
950
1300
1650
2000
2500
3000
1000
1300
1600
2000
2600
3200
Rated Output
Current (A)
200
274
348
422
528
633
160
208
256
320
415
511
Width
2000
2000
2000
4000
4000
4000
2000
2000
2000
4000
4000
4000
Depth
1200
1200
1200
1200
1200
1200
1200
1200
1200
1200
1200
1200
Height (4)
2750
2750
2750
2750
2750
2750
2750
2750
2750
2750
2750
2750
Cabinet Dimensions(3)
Weight
Kg
2150
2150
2150
3000
3000
3000
2150
2150
2150
3000
3000
3000
1054
1443
1832
2221
2777
3333
1110
1443
1777
2221
2888
3555
12 Pulse DFE Topology
Shaft Power (1)
Asynchronous
kW
Type Code
MV1D2-22-001AA-432+Z
MV1D2-22-741AA-432+Z
MV1D2-23-481AA-432+Z
MV1D2-24-221AA-432+Z
MV1D2-25-281AA-432+Z
MV1D2-26-331AA-432+Z
MV1D2-21-601AA-442+Z
MV1D2-22-081AA-442+Z
MV1D2-22-561AA-442+Z
MV1D2-23-201AA-442+Z
MV1D2-24-151AA-432+Z
MV1D2-25-111AA-442+Z
Motor
Voltage
V
Motor
Voltage
V
Motor
Voltage
V
Motor
Voltage
V
9. Shaft Power (2)
Synchronous
kW
3150
3150
3150
3150
3150
3150
3150
Power
kVA
7000
9000
14000
18000
21000
27000
36000
6000
7800
12100
15600
18200
23400
31200
Rated Output
Current (A)
1280
1650
2 x 1280
2 x 1650
3 x 1280
3 x 1650
4 x 1650
Width
6000
6000
12000
12000
18000
18000
24000
Depth
1200
1200
1200
1200
1200
1200
1200
Height
2360
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3) Weight
Kg
6200
6200
12400
12400
18600
18600
24800
6755
8685
13510
17370
20265
26055
34740
AFE Topology
Shaft Power (1)
Asynchronous
kW
Type Code
MV5F-31-281WA-432+Z
MV5F-31-651WA-432+Z
MV5F-32-561WA-432+Z
MV5F-43-301WA-432+Z
MV5F-33-841WA-432+Z
MV5F-34-951WA-432+Z
MV5F-36-601WA-432+Z
Frequency Converters
water-cooled, medium-voltage
air-cooled, medium-voltage
16 17
Water Cooled
Shaft Power (2)
Synchronous
kW
6600
6600
6600
6600
Power
kVA
978
1957
2878
3914
850
1700
2500
3400
Rated Output
Current (A)
87
171
252
342
Width
2800
3600
4400
5200
Depth
1400
1600
1600
1600
Height (4)
2750
2750
2750
2750
Cabinet Dimensions(3) Weight
Kg
4500
6800
8500
9900
943
1888
2777
3777
24 Pulse DFE Topology - Quadratic Loads
Shaft Power (1)
Asynchronous
kW
Type Code
MV7D4-20-871AA-466+Z
MV7D4-21-711AA-466+Z
MV7D4-22-521AA-466+Z
MV7D4-23-421AA-466+Z
Air Cooled
Shaft Power (2)
Synchronous
kW
3150
3150
3150
3150
3150
3150
3150
Power
kVA
7000
9000
14000
18000
21000
27000
36000
6000
7800
12100
15600
18200
23400
31200
Rated Output
Current (A)
1280
1650
2 x 1280
2 x 1650
3 x 1280
3 x 1650
4 x 1650
Width
5000
5000
10000
10000
15000
15000
20000
Depth
1200
1200
1200
1200
1200
1200
1200
Height
2360
2360
2360
2360
2360
2360
2360
Cabinet Dimensions(3) Weight
Kg
5400
5400
10800
10800
16200
16200
21600
6755
8685
13510
17370
20265
26055
34740
12 Pulse DFE Topology
Shaft Power (1)
Asynchronous
kW
Type Code
MV5D2-31-281WA-432+Z
MV5D2-31-651WA-432+Z
MV5D2-32-561WA-432+Z
MV5D2-43-301WA-432+Z
MV5D2-33-841WA-432+Z
MV5D2-34-951WA-432+Z
MV5D2-36-601WA-432+Z
Motor
Voltage
V
Motor
Voltage
V
Motor
Voltage
V
(1) Shaft power is calculated using asynchronous motor data (η=0.965, cosϕ=0.9)
(2) Shaft power is calculated using synchronous motor data (η=0.965, cosϕ=1)
(3) Excitation cabinet for synchronous motor not included
(1) Shaft power is calculated using asynchronous motor data (η=0.965, cosϕ=0.9)
(2) Shaft power is calculated using synchronous motor data (η=0.965, cosϕ=1)
(3) Transformer included. Excitation cabinet for synchronous motor not included
(4) Fans included
10. Ingeteam Capability
At Ingeteam we have state-of-the-art facilities and
highly-qualified staff to cover all our clients' needs.
This is demonstrated by our high-power electronics
research laboratory and electric machine research
laboratory.
These laboratories validate the latest technologies in
high power electronics and electric machines for
different sectors.
High Power Electronics Experimental Research
Laboratory
The High Power Electronics Laboratory, home to
leading international researchers, focuses on studying
medium and high power converters through
experiments involving inductive loads, with power
being taken from the grid only to compensate system
loss.
Electric Machine Experimental Laboratory
This laboratory focuses on the mobility of large
machinery, in addition to all infrastructure required
for experimental research and type tests on large
electric machines running on low and medium
voltages, with different voltage ranges and powers
up to 43 MW active power in back-to-back
configuration.
Environment and Health
& Safety Management
Ingeteam's strategy includes a permanent focus on achieving excellence in the
quality that we provide and in process management, whilst constantly respecting
the environment and considering safety as a priority. Hence, we are actively
involved in the following:
· Developing the EFQM model as an internal management reference.
· Improving the satisfaction of our internal and external clients and suppliers.
· Focusing on continuous improvement through the development of our
certified and integrated management systems: 9001 (Quality Management),
14001 (Environmental Management) and OHSAS 18001 (Occupational
Health & Safety)
· Strict compliance with client requirements, environmental legislation and
occupational hazard prevention.
Services
Ingeteam's priorities include customer service and availability. These strategic
values are reflected in diverse actions resulting in significant added value. Our
customer service consists of two stages:
Pre-Sales Service:
As an equipment manufacturer, Ingeteam prides itself on immediate customer
service and personalised support. Some of the ways we achieve this include the
following:
· Liaising with and advising our clients in choosing the solution that best
suits their requirements.
· Custom-made hardware/software developments, working in conjunction
with the client from the start.
· Engineering services.
· Sales support for partners, integrators, etc.
After-Sales Service:
As part of our commitment to customer service Ingeteam offers:
· Supervision, installation and commissioning.
· Direct customer support.
· Training courses.
· Technical assistance
All of the above processes and commitments are part of our 360º Customer
Relationship Service and cover all requirements that arise throughout the process
of deploying our products.
Frequency Converters
18 19