ABP innovations: foundry systems to remain competitive for a long time

Foundry and smelting systems typically have a long service life – because, as in the case of ABP systems, they are robust and produced in high quality, and because they are normally serviced on a regular basis. Therefore, it also makes good economic sense to think about modernization of the system – for a longer service life and more efficiency also in higher age. If customers are faced with the choice of making a new investment or modernizing, the ABP experts provide detailed advice and can calculate which investment makes sense. The concept of sustainability with regard to the three dimensions of ecology, economy, and social responsibility plays a significant role – an aspect that ABP Induction has been focusing on in every project for more than ten years, and which now has even more potential thanks to the possibilities offered by digitalization.

A digitized temperature lance in use.

With the modernization of systems, both ecological and economic, as well as social aspects can be taken into account: It’s about reducing emissions, reducing energy demand, increasing output and productivity, and simplifying work processes for employees, while increasing occupational safety. And it’s still not uncommon for systems to run 25 years or more in foundry operations nowadays. That’s also something that has to be taken into account. When foundries utilize older systems, they are often faced with two alternatives: use the existing system to its end by performing simple maintenance and then replace it with a new system, or extend its life through effective modernization while maintaining or even increasing productivity.

Intensive analysis and consulting process by ABP experts

As such, at the beginning of a customer process, the main thing is to determine the customer’s needs. This is an intensive analysis and consulting process. For instance, the customer may want to make such a big leap in technology that this cannot be achieved with the existing system, even through modernization, in the case, we would advise a new system. In all other cases, we point out modernization alternatives.

Certain aspects of modernization make it a serious alternative to new system: Older systems can be quickly upgraded to comply with the latest state of the art and achieve close to the original productivity with the further development of components and parts – or even beyond, if new components make technological leaps possible, for example, by adapting the process or process technology for more productivity. There are several ways to modernize systems: A new converter, for example, is a targeted investment to maintain existing equipment, enabling systems to continue operating at high efficiency.

The potential of retrofit measures in a simplified schematic representation: After installation of the plant, productivity decreases over time, but productivity can be increased again by retrofit measures. This can be done in several cycles.

Systems in themselves inevitably age; the aging process and efficiency sometimes depend on the intensity of maintenance, and the continued operational readiness of systems also depends, among other things, on the availability and recycling of spare parts, the keyword being circular economy.  System technology can be brought up to date at regular intervals – in many cases, it is worth investing accordingly.

Retrofit: Maintaining or even increasing system productivity

ABP experts attach great importance to the control and power supply of an system when it comes to retrofitting. In ABP systems, the PLC (programmable logic controller) regulates aspects such as sequence, cycle time, material feed and much more – it is truly the heart of the system. As part of a modernization, the situation of the system is examined and the necessary scope is defined. It may be worthwhile, for example, to modernize the control system together with the operating elements, which have of course also undergone a development process and have been significantly improved in terms of operability. When it comes to old system, you have experienced operators, some of whom have been operating the annex since it was purchased. Transferring this specialist knowledge to the younger generation, who have grown up in the age of smartphones and social media, is a complicated and sometimes daunting task. In a sector that is suffering from a shortage of skilled workers, it is particularly important to incorporate modern, intuitive operation via touch screen and thus significantly improve user-friendlines. Put bluntly: Whereas operators used to have to press ten buttons, today one touch switch is all that is needed.

Detailed view of the DICU3

Another important component is the inverter control unit, or DICU for short. It controls all the necessary functions in the inverter. The current version DICU3 has been installed in new systems since 2017, and since 2018 it has also been available for modernizations. The DICU3 is M2M-ready, so that error analysis is possible via remote service. This has made customer systems become Industry 4.0-capable. With the DICU3, ABP wants to ensure that customers can use their melting plant economically and reliably for as long as possible: The DICU3 offers a high level of operational reliability. Self-testing processes before starting the system help to prevent major damage and failures of the power supply.  Due to fast and improved controls, power supply runs in a more stable manner, which leads to more flexibility at the periphery, such as transformer design, as well as to fewer failures and downtimes at the overall system. . Predictive maintenance can be used to monitor systems and read trends, so that a dialog can be entered into with the operator before defective components and thus failures of the system occur.

Digitization opens up new opportunities

Modern components are therefore also good arguments in terms of topics such as work and failure safety, or the serviceability of a system, especially with regards to remote service, as offered by ABP, for example, with digital Expert on Demand (dEoD). The future of foundries will be defined by digitalization, and it is precisely the possibilities of digitalization that will give foundries a future. Digitalization enables plant operators to optimize their own system selectively. The digital portal myABP is the open platform that acts as a manufacturer-independent tool and communication center for this purpose. This platform can be used by ABP’s own apps as well as those of other suppliers. Via ABP Intelligence, ABP offers various apps for monitoring and optimizing systems. If you want to achieve such an increase in efficiency, systems must of course first be Industry 4.0-capable and undergo further development in this direction. This is also an important aspect to be taken into consideration when modernizing a system. To this end, ABP has developed the Industrial Remote Circle with the components myABP Portal, dEoD and Scalance network components from Siemens.

Remote support via augmented reality with digital expert on demand.

Especially in view of the growing megatrend of decarbonization, it pays off for ABP Induction to have focused on the topic of digitalization of foundries at an early stage. There are currently many inquiries from operators regarding environmental aspects such as efficiency and CO2 reduction. The question of how to increase a system’s productivity while saving energy and reducing emissions is a key question on the market, and ABP has the right answers with our modernization and digitalization concept. Not only the need for CO2 reduction, but also the price development on the energy market are key drivers. Companies are now realizing that they need to take action to save energy, increase productivity and become more environmentally friendly – and they can do this without investing in a new system, but precisely by modernizing and digitizing the system.

Controlling metallurgical processes with FoundryCloud on the ABP Gateway

This is where ABP partner ZORC Technology comes into play, for example, by developing the FoundryCloud app and using it via the ABP Gateway. This new software for controlling metallurgical processes stores the foundry’s operating parameters and sends empirical and AI-based suggestions for optimizing production directly to the employees. By continually documenting the operating parameters, a steadily growing data set is accumulated with each casting thanks to the software, from which subsequent casting operations in the metallurgically highly complex process benefit in terms of quality.

The ZORC FoundryCloud in action.

After all, simply collecting data and showing it on a display is not enough. Users have to get the system to a state where the right data is collected and conclusions can be drawn from this data. From this data, information would have to be made available to users, which would then enable handling instructions, guiding the user in their work, so to speak.

The only thing is – these answers must also reach the operating companies at management level and be supported. Digitization makes a lot of things possible, but the management of each individual business must be on board with this vision – it is the enabler in the business. A new development here is that management boards are using the possibilities of digitization to obtain a basis for decision-making. Processes within an operation can now be digitally simulated in advance. This is a new capability that ABP and ZORC have developed. Calculations in a large plant context used to be rather time-consuming and sometimes inaccurate because not all options and potential data were available. This has now changed, because you can exchange costs, aggregates, expansion stages or components in the simulation as you wish and thus show cost and yield structures depending on the situation. The realistic goal: lower energy costs with higher productivity.

Industry 4.0 ready: “This topic must become a priority in the foundry world.”

This is also a question of corporate culture and communication within the company: After all, it’s not about replacing employees – this is something that always has to be communicated in digitization projects. The operator has to accept that the computer is there to make him or her better. It’s like a giant planning game that the computer can simply do better. The complexity makes the difference here: Think of an orchestra, where many capable individualists have to form a unit. Everything has to take place in the right place at the right time, and that also applies to a foundry operation. And the likelihood of a human being mastering this gigantic planning game better than a machine that can calculate through numerous combinations and prioritize the best alternative is actually very unlikely.

The buzzword Industry 4.0 has long since arrived in the foundry industry, of course, but ABP is also in the process of filling this buzzword with life. After all, ABP maps this with digital tools such as FoundryCloud from partner ZORC, through which all components can be simulated in their interaction and behavior with a digital twin. Priority must be given to the topic of Industry 4.0 in the foundry world.

ABP digital Expert on Demand: Best remote service from virtually any place.

Best service from a remote location, at any time, from virtually any place – that is the idea of our tool „digital Expert on Demand“, in short dEoD. This enables us at ABP to provide our customers with the very best possible remote troubleshooting support for their systems. This saves time and travel expenses – if successful, your system will be up and running again much faster, thus reducing downtime.

The first step in successfully assisting you with troubleshooting is to establish some basic prerequisites.


An ABP inverter system is a high-power system with voltages of up to 3000V. To work safely here, it is essential to become familiar with the specific safety aspects of working on a inverter system. For this purpose, ABP offers an online training as part of a dEoD contract, in which the risks and danger points as well as the safe working are covered in detail. This training is explicitly aimed at qualified electricians, as only they are allowed to work on the inverter. Furthermore, ABP also offers an optional basic package that deals with the necessary protective equipment.

Download: Flyer ABP digital Expert on Demand.

Measuring tool

An appropriate measuring tool is essential for successful troubleshooting. This consists, among other things, of a multimeter that provides measurement capabilities for resistance, voltage (AC/DC), diode test and capacitance measurement.

An oscilloscope is also often necessary because faults in the inverter often occur dynamically, e.g. the breakdown of a component under voltage. The evaluation of such measurement images requires very good knowledge and experience with the inverter technology. This is why we would like to support you in the best possible way.

We work with a network-compatible soft oscilloscope that can be integrated via the Siemens router. Desired effect: The measurement images are directly available to the ABP service engineer. The required settings of the oscilloscope can be set remotely by the ABP service engineer.

To achieve the greatest possible continuity in this respect, we keep this measuring tool standardized. This allows us to ensure that the respective ABP expert does not first have to deal with the oscilloscope itself, which can cost valuable time in the event of system downtime. We have compiled the following measuring equipment, which has also proven itself under practical conditions:

• Soft oscilloscope, incl. 4 10:1 probes
• Current clamp 3000A
• High-voltage probe, 3kV
• Current clamp 20 A

Remote connection

ABP makes use of the proven and secure solution from Siemens to establish the connection. This establishes a secure VPN connection to your furnace system, which allows access to the PLC, the PRODAPT® and the DICU 3. This means that any program changes can be made
online, and the fault memory can also be read out. Test functions, which are often important for troubleshooting, can also be performed this way.

Please note: Access to older inverter electronics such as the DICU 2, which were still equipped with serial interfaces, is not possible here. However, ABP offers a quick and easy conversion to DICU 3 – please contact us for further information.

Data glasses

Data glasses can be used to send the images you see directly to the supporting service engineer so that they can guide you during the measurements. The advantage: You have both hands free to work! This in turn means that the service engineer can give you clear instructions. Alternatively, the image data can also be transmitted via smartphone.

To take full advantage of the opportunities afforded by data glasses or smartphones, we recommend setting up a sufficiently fast WLAN network in the area of the furnace system, especially in the inverter room.