Industry 4.0 refers to the combination of physical assets and advanced digital technologies that communicate, analyse and act upon information. This in turn enables organisations and consumers to be flexible and make more intelligent, responsive, data-driven decisions. It has emerged as a result of the intelligent networking of computers, people and devices, fuelled by data and machine learning, using all possibilities of digitalisation across the entire value chain.
This significant change in technology has led to a whole new way of working in a digital world. It embraces IIoT, artificial intelligence, robots, drones, autonomous vehicles, 3D printing, cloud computing and nanotechnology, to name a few.
Trends in Industry 4.0 automation systems
In automation systems, the impact of Industry 4.0 on motor systems is a migration from the automation pyramid to networked systems. This means that the various elements of the system, such as motors, drives, sensors and controls, are interconnected and connected to a cloud data centre, where data is stored, processed and analysed and decisions are made.
In an automation network, the amount of data is prominent. As data is mainly produced by sensors, the number of sensors in modern automation systems is increasing. Sensors are required to collect data from motors and motor-driven machines such as fans, pumps and conveyors and then connected to the data network by various means to use the data.
Modern variable speed drives open new opportunities in the Industry 4.0 automation network. Traditionally, drives have been considered power processors for controlling the motor speed. Today, drives are also part of the information chain, using the advantage of built-in processing power, storage capacity and communication interface within the drive itself.
What is an intelligent drive?
In the Industry 4.0 network, the drive plays an important role and is characterised by some enabling features:
• Secure connectivity: The drive can connect to other elements in a secure manner. Other elements in the network may include drives, PLCs, sensors and a cloud data centre.
• The drive acts as a sensor: The drive uses motor current and voltage signature analysis to sense the motor and application performance.
• The drive acts as a sensor hub: The drive acquires data from external sensors related to the process, which is controlled by the drive.
• The drive acts as a controller: The drive can replace the PLC wherever application constraints allow.
• Bring your own device concept: This uses wireless connectivity to smart devices such as a smartphone or tablet.
Information from the drive can be identified as follows:
• Instantaneous signals: Signals which are directly measured by the drive using built-in sensors. Data such as motor current, voltage, drive temperature and their derivative, which is power as a multiplication of current and voltage, or motor torque. Moreover, the drive can be used as a hub for connecting external sensors that provide instantaneous signals.
• Processed signals: Signals which are derived from the instantaneous signal, which can include statistical distribution (maximum, minimum, mean and standard deviation values), frequency domain analysis or mission profile indicators.
• Analytics signals: Signals which provide indications of the condition of the drive, motor and application. The signals are used to trigger maintenance or lead to system design improvements.
Motor current signature analysis techniques enable the drive to monitor the condition of the motor and application. The technique allows the system to potentially eliminate physical sensors, or extract early fault signatures that might not have been possible to detect. For example, using the technique makes it possible to detect winding faults in advance or mechanical load eccentricity.
The concept of the drive as a sensor hub involves connecting external sensors to the drive, thus saving the need for a gateway to connect the physical sensor to the data network. Vibration sensors, pressure sensors and temperature sensors are examples of sensors which can be connected to the drive. This makes it possible to correlate sensor data with different types of data present in the drive.
Today, drives are more than simple power processors – they are vital elements in modern automation systems, with the ability to act as sensors and sensor hubs and to process, store and analyse data, along with connectivity capabilities. Drives are often already present in automation installations and therefore present a great opportunity to upgrade to Industry 4.0. This enables new ways of performing maintenance. The functions are already available in some drives and early adopters have started using the drive as a sensor.
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