Fuji drive and automation

What are Mv Drives?

The medium voltage Fuji Ac drives is the best option for cutting emissions and energy use. This equipment is frequently used to guarantee the smooth running of nearly all standard motors for pumps, compressors, and fans.

At very high power ratings, medium voltage motors function exceedingly well. In this instance, controlling the pace and ensuring the installation starts gently are of utmost significance. Many individuals believe that purchasing soft starters and certain frequency converters are the first step in finding a solution to this issue.

The product regarded as being the most energy-efficient is medium voltage AC drives. This fixture’s existence of a voltage/frequency control method and a variety of warning and protection capabilities makes it stand out from the crowd.

A VFD is a medium voltage drive since it depends on the working voltage, although some VFDs use power cell parallel connections with dry-type transformers as their internal working principle. Input: 6.6KV, output: 6.6KV, converter within 3 phases, each 690V, to each power cell. FRENIC4000 Series Small-to-medium capacity DC link inverters, FRENIC4600FM5e Fuji Electric, etc are types of MV Drives Series.

What is the difference between LV, HV, Fuji Ac Drives and MV Drives?

Medium supply voltages are frequently used in sizable industrial complexes and companies that demand a lot of power. Voltage and current are inversely related, according to electrical variation analysis. As the voltage rises, a reduction in current signals the end of the process.

Higher voltage-capable motors and electrical machinery use less power and are more cost-effective to run.

Low voltage is a term with several connotations in the electronic and electrical fields. Anything that is less than 600 volts is often regarded as low voltage. Due to their unique characteristics, they are also instrumental in industries.

Utilisation of MV Drives?

The power output of medium-voltage (MV) AC drives is hundreds of times greater than that of their smaller, more prevalent low-voltage (LV) cousins, enabling control of enormous, multi-megawatt electric motors that power the largest industrial loads found in mines, power plants, or metal processing plants.

MV drives work at higher supply voltages to achieve reduced losses and employ smaller cables, which add up to superior overall drive efficiency and lower system cost.

Although not all versions are enormous, MV drives provide more than simply size. Their selection for certain applications and consumers is also influenced by other considerations, such as control designs that contain harmonics mitigation.

Depending on the industry, “medium voltage” might mean several different things. For motor drives, there is considerable agreement on the range from 600 V to 15 kV; in Europe, the MV threshold is 1 kV. However, below 2.3 kV, there aren’t many genuine drive items.

While Europe and the rest of the world favor 3.3 and 6.6 kV, MV drive inputs in the Americas generally vary from 2.3 to 4.16 kFuji Ac drives

Series of MV Drives:

Frenic 4600 Series 

A set of medium voltage IGBT inverters called Frenic 4600 are environmentally beneficial.

Through energy conservation and motor operation stabilization, it improves the efficiency and power factor of medium voltage motors. The multi-phase diode rectifier technology reduces harmonics on the side of the power source. The unique multi-level PWM control technology from Fuji Electric makes it possible to regulate even simple motors.

It offers a high power factor on the power supply (95 percent or greater). It is possible to do away with output transformers, which increases overall efficiency. Using a single-phase, 3-level inverter with fewer inverter cells results in high dependability. Functions for sensorless vector control guarantee steady operations despite variations in load. For rapid reaction and great precision, the control device incorporates a 32-bit MPU.

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Fuji AC drives

What is LV Drive?

Standard AC motors can adjust their speed and torque their speed and torque adjusted using AC LV drive thanks to built-in features. AC drives replace the usage of DC and slip-ring motors with their management systems and with their management systems in addition to induction motors.

Low voltage fuji AC drives or AC LV drive from ABB increase productivity, save energy use and optimize processes. The product line caters to our clients’ whole range of requirements of our clients, from micro drives used in machine construction to industrial drives used to manage production lines. ABB drives can be properly manufactured to accommodate more sophisticated client needs or purchased right away from stock.

Benefits of LV Drives:

Low voltage technology dominates the AC drive industry for both high- and low-power applications, notwithstanding the advantages of adopting moderate voltage AC drives for large horsepower motors. This is due to several factors, not the least of which are price and accessibility. In the past, voltage levels drives have been carefully made to order, with limited volume manufacture, greater cost, and generally lengthy lead times.

Even though more conventional medium voltage (MV) drive options are now being mainly offered by manufacturers, and improvements in high-voltage semiconductor technology have reduced the cost of electronics, MV drives are still significantly more expensive (at least initially) and less widely accessible than Low-voltage or LV  drives.

For the same power output, medium-voltage drives use less current than low-voltage drives. In addition to saving energy, the decreased current draw makes it possible to employ smaller, less expensive wires. However, a large variety of manufacturers provide low-voltage or LV drives as standard items, but medium-voltage drives remain primarily custom-engineered devices.

Use of LV drive:

lv driveLow voltage (LV) drives are available as either a current source inverter (CSI) or a voltage source inverter (VSI), however, VSI variants with pulse-width modulation are more prevalent. In the inverter sector of voltage source inverter, pulse-width modulation (VSI-PWM) drives, and insulated-gate bipolar transistor (IGBT) switching components are frequently used.

IGBTs have a high switching frequency, lowering motor heating and decreasing a high switching frequency, which lowers motor heating and decreases harmonics. However, this increased switching frequency has a disadvantage because it causes a greater voltage rise (DV/DT) rate than it causes a greater rate voltage rise (DV/DT), which can result in reflected waves that harm the motor insulation and cables. The reflected waves can be properly reduced by output reactors or filters, but these increase the drive system’s cost.

LV drives are frequently used with medium voltage motors, particularly those rated at 2300 or 4160 V, even though they run at a lower voltage. A step-up transformer must be carefully added to the LV drive to use it with a medium-voltage motor. To match the motor voltage, the transformer raises the inverter’s output voltage. For applications requiring only a single-phase supply, LV drives may run on single-phase power input and provide three-phase voltage to the motor.

Conclusion:

The low voltage PWM drive may be properly adjusted to employ flux vector control in situations when high beginning torque is mainly required (usually above 150 percent). This technique, also known as field-oriented control, offers independent management of the magnetizing and torque-producing elements of the stator current, leading to more reliable torque generation.

Both high- and low-power applications can benefit from low-voltage drivers. Low voltage drives are frequently used due to their comparatively lower cost, smaller size, and more availability, although medium voltage drives offer the advantage of reduced current draw and lower energy usage. Frenic Aqua Fuji Electric, Frenic Mega Fuji electric, etc offer great LV drives at lower costs.

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lv drive

Trends In The LV Drives Market

Introduction:

Standard AC motors can adjust their speed and torque their speed and torque adjusted using AC LV drive thanks to built-in features. AC drives replace the usage of DC and slip-ring motors with their management systems and with their management systems in addition to induction motors.

Low voltage AC drives or AC LV drive from ABB increase productivity, save energy use and optimize processes. The product line caters to our clients’ whole range of requirements of our clients, from micro drives used in machine construction to industrial drives used to manage production lines. ABB drives can be properly manufactured to accommodate more sophisticated client needs or purchased right away from stock.

Benefits of LV Drives:

Low voltage technology dominates the AC drive industry for both high- and low-power applications, notwithstanding the advantages of adopting moderate voltage AC drives for large horsepower motors. This is due to several factors, not the least of which are price and accessibility. In the past, voltage levels drives have been carefully made to order, with limited volume manufacture, greater cost, and generally lengthy lead times.

Even though more conventional medium voltage (MV) drive options are now being mainly offered by manufacturers, and improvements in high-voltage semiconductor technology have reduced the cost of electronics, MV drives are still significantly more expensive (at least initially) and less widely accessible than Low-voltage or LV  drives.

For the same power output, medium-voltage drives use less current than low-voltage drives. In addition to saving energy, the decreased current draw makes it possible to employ smaller, less expensive wires. However, a large variety of manufacturers provide low-voltage or LV drives as standard items, but medium-voltage drives remain primarily custom-engineered devices.

Frenic mega Fuji Electric

Fuji Electric has raised the bar for inverter performance with the Frenic mega Fuji electric variable drive.

Offering expanded power ratings and flexible configurations that support 1/2 HP up to 1,000 HP AC drive/variable frequency drive (VFD) / v/ Hz vector drive applications – these inverters are designed for long lifecycles and improved maintenance functions.

Frenic Aqua Fuji Electric

The Frenic Aqua Fuji Electric series is a dedicated inverter that helps to control pumps and motors. It helps energy-saving of pumps by eliminating ineffectual operations by regulating the amount of water

required for various uses to significantly provide electricity conservation and cost reduction. FRENIC-AQUA has a wide capacity range – from 0.75 to 710 KW. Analog inputs as well as 13 steps of customizable logic can be managed. It functions up to an overload capability of 110% and has torque vector control. 4 different pump control modes are available as standard and up to 9 pumps can be controlled with one inverter. Energy-saving functions, such as ‘Sleep Mode can be activated when required.

Use of LV drive:

Low voltage (LV) drives are available as either a current source inverter (CSI) or a voltage source inverter (VSI), however, VSI variants with pulse-width modulation are more prevalent. In the inverter sector of voltage source inverter, pulse-width modulation (VSI-PWM) drives, and insulated-gate bipolar transistor (IGBT) switching components are frequently used.

IGBTs have a high switching frequency, lowering motor heating and decreasing a high switching frequency, which lowers motor heating and decreases harmonics. However, this increased switching frequency has a disadvantage because it causes a greater voltage rise (DV/DT) rate than it causes a greater rate voltage rise (DV/DT), which can result in reflected waves that harm the motor insulation and cables. The reflected waves can be properly reduced by output reactors or filters, but these increase the drive system’s cost.

LV drives are frequently used with medium voltage motors, particularly those rated at 2300 or 4160 V, even though they run at a lower voltage. A step-up transformer must be carefully added to the LV drive to use it with a medium-voltage motor. To match the motor voltage, the transformer raises the inverter’s output voltage. For applications requiring only a single-phase supply, LV drives may run on single-phase power input and provide three-phase voltage to the motor.

Conclusion:

The low voltage PWM drive may be properly adjusted to employ flux vector control in situations when high beginning torque is mainly required (usually above 150 percent). This technique, also known as field-oriented control, offers independent management of the magnetizing and torque-producing elements of the stator current, leading to more reliable torque generation.

Both high- and low-power applications can benefit from low-voltage drivers. Low voltage drives are frequently used due to their comparatively lower cost, smaller size, and more availability, although medium voltage drives offer the advantage of reduced current draw and lower energy usage. Frenic Aqua Fuji Electric, Frenic Mega Fuji electric, etc offer great LV drives at lower costs.

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servo motor drive

Why Servo Motor Drive is Important?

Servo Motor Drive:

The choice of an electric motor is critical for every electromechanical project. When a project demands the greatest precision, we frequently consider the servo motor. A servo motor is a type of rotary or linear actuator.

It enables accurate control of angular or linear location, velocity, and acceleration. It also necessitates the use of a pretty complex controller. A specialised module built expressly for use with servo motors for frequent utilisation.

It is an electrical gadget that can precisely push or spin an item. A servo motor is essential if you wish to rotate an object at a certain angle or distance. It is just a motor that operates using a servo system. It comprises a suitable motor connected to a position feedback sensor.

If the servo control system works on DC power, it is a DC servo motor. If alternating current powers the motor, it is an AC servo motor. A very strong torque servo motor come in tiny and lightweight configurations. Because of these characteristics, they are useful in a variety of applications like toy cars, RC helicopters and aircraft, robotics, machines, and so on.

Servo Motor Drive Purpose:

With hundreds of thousands of technical discoveries throughout history, several of the most essential daily innovations have gone lost in the shuffle, and people have become oblivious to their significance over time.

Unbeknownst to most people, components such as the servo motor drive play a significant role in making people’s lives simpler daily. Because of their compactness and power, servo motors are widely used by businesses. Despite its small size, it generates a significant amount of power and is to be extremely energy-efficient.

The majority of servo users are manufacturers that use them to place control surfaces and spin things at exact angles and distances. The majority of servo motor users are manufacturers that employ servo motors in their machinery.

Types of Servo Motor Drive:

A typical servo motor drive has three wires: power, control, and ground. The size and form of these motors determine their usage. Because of their simplicity, affordability, and dependability of control by microprocessors, RC servo motors are the most prevalent type of servo motor used in hobby applications and robotics.

DC Servo Motor

In the subject of winding and armature winding, the motor utilised as a DC servo motor often has a separate DC supply. Control archives manipulate either the armature current or the field current. Field control has certain distinct benefits versus armature control. Similarly, armature control has some benefits over field control.

The control must be available to the DC servo motor drive based on the applications. Because of the low armature inductive reactance, DC servo motors respond very accurately and quickly to start or stop command signals. Similar equipment and computerised numerically controlled machines employ DC servo motors.

AC Servo Motor

AC servo motors are AC motors with encoders that use as controllers to provide closed-loop control and response. This motor may be precisely positioned and controlled as required for the applications.

These motors frequently have higher tolerance designs or stronger bearings. And some basic designs even employ higher voltages to provide more torque. AC motor applications mostly involve automation, robotics, CNC machines, and other applications that need a high level of precision and adaptability.

Positional Rotation Servo Motor

The most common form of the servo motor drive is the positional rotation servo motor. The o/p of the shaft revolves around 180o. It has physical stops situated in the gear mechanism to prevent rotating beyond specified limits to protect the rotation sensor.

These popular servos are usable in radio-controlled water, radio-controlled automobiles, planes, robotics, toys, and a variety of other applications.

Continuous Rotation Servo Motor

A continuous rotation servo motor drive is similar to a positional rotation servo motor in that it may rotate in any direction endlessly. Rather than setting the servo’s static location, the control signal recognises the speed and direction of rotation.

Depending on the command signal, the range of available commands causes the servo to rotate anti-clockwise or clockwise at varying speeds. This sort of motor is usable in radar dishes while riding a robot, or it is usable as a driving motor on a mobile robot.

Linear servo motor

Linear servo motors are identical to positional rotation servo motors, but with additional gears to change the o/p from circular to back-and-forth. These servo motors are difficult to locate, although they are occasionally available at hobby stores in which they utilise them as actuators in larger model aeroplanes.

Conclusion:

Servo Motor Drive is easily available from the Servo Drive Distributor as it is very useful in various industries such as computers, robotics, etc. The allotment of Servo Distributor in India is to make servo motor drives easily accessible in various parts of the nation.

For more info Contact Us- FSC Group India – Servo motor Distributor in India

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Pressure Transmitter Distributor

What is the Pressure Transmitter?

Many developing nations, like India, have significant challenges in managing e-waste. This is rapidly becoming a major public health concern, and it is just getting worse. A Pressure Transmitter is a mechanical gadget that converts a liquid or gas sample’s expansion force into an electrical output.

A transducer in the gadget turns pressure into an electrical signal. Depending on the composition of the analyte, this sort of sensor, another name being pressure transducers, often comprises a pressure-sensitive surface area formed of steel, silicon, or other materials. Beneath these areas are electronic components that can transform the sample’s force on the pressure sensor into an electrical signal.

Pressure transmitters are for utilisation in pressure-sensitive situations such as the gas, petrochemical industries, laboratory, and pharmaceutical sectors to measure the force applied on gases and liquids in Pa or psi values. To achieve precise results and real-time delivery, pressure transmitters’ precise integration with rapid electrical conversion devices. You can get it with a Pressure transmitter Distributor.

Measurement of Pressure:

Absolute, gauge and differential pressures to measure via pressure transmitters.

Pressure Absolute

Absolute pressure is the ideal vacuum, which is also 0 psi! We call vacuum pressure 0 psi. The average atmospheric pressure is 14.7 psi.

Pressure Gauge

Gauge pressure, which is total pressure minus atmospheric pressure, is the most often used pressure measurement.

The atmospheric pressure is zero psi.

Pressure Difference

The pressure difference refers to differential pressure or differential pressure. Pressure is the vertically distributed force exerted on a unit area.

Purpose of Pressure Transmitter:

Pressure transmitters utilise a variety of industrial applications. It is available from the Pressure transmitter Distributor. Pressure transducers are commonly used in offshore oil drilling and oil exploration to monitor the value differences between the interior and exterior of pressure-sensitive equipment. Various characteristics follow to guarantee that the drilling and collection operation is ethical and efficient.

This also applies to onshore petrochemical, gas, and chemical plants. As a result, their maintenance expenses are greatly reduced. Pressure transmitters are useful in a variety of scenarios because they link to other devices, such as electrical circuits.

Many industries rely on pressure-sensitive storage and transport systems to keep products in optimal condition, which needs to be precisely seen to assure safe delivery and ultimate application. Pressure transducer utility is in laboratories to monitor the relative pressure of a sealed container to the atmosphere, which aids in a wide range of developing research.

Furthermore, pressure transmitters are commonly for the maritime industry. Everything in the marine sector revolves around accountability and efficiency. The PCM300T Differential pressure transmitter, which is exceptionally small and sturdy, is a popular device in this industry. The transmitter in the marine sector sends information about gas or liquid processes to the cabins or bridges for surveillance reasons.

Pressure Transmitter Working

Although there are many different types of pressure transmitters, they all function in much the same manner. Pressure transmitters function by translating pressure into an analog electrical signal. Pressure transmitters are a combination of three primary parts:

  • The pressure sensor
  • Process connection 
  • The measurement circuit

A pressure transmitter measuring system installation comprises three components:

  • Isolation diaphragm (with silicone oil) 
  • The pressure guide tube 
  • Central measuring diaphragm

The pressure of the medium conveys itself to the central measuring diaphragm during pressure transmitter operation, for measurement. The pressure differential between these sections deforms the sheet. The amplitude of the pressure differential may determine the measuring of this deformation. This pressure differential transforms into an analog electrical signal, for detection. It is available through a Pressure transmitter Distributor.

Pressure transmitter Distributors in the geographic area around like Pressure transmitter Distributor in Delhi, and Pressure transmitter Distributors in India have bulk production of high-quality pressure transmitters.

Contact Now – FSC Group- Pressure transmitter Distributor

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