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Introduction: The Evolution of Touch Interfaces in Industrial Automation
HMIs are very familiar in industrial automation for interacting with machines or control systems. Traditionally, HMIs operated with single-touch technology, where only one touch was recognized at a time. The quest for more intuitive, responsive, and efficient control brought multi-touch technology into the world of HMI systems. This has really given interaction with automation systems a major facelift in the field of industrial automation and presents quite a few advantages related to usability and functionality.
What is Multi-Touch Technology?
The name already suggests it: with multi-touch technology, several touch points are recognized at once on the touchscreen. This enables the user to make more extensive gestures, such as zooming in or out, selecting several buttons, or manipulating various elements on the screen at one time. Though already everyday in smartphones and tablets, it seemed like a new game was entered when applied in an industrial automation system-making HMIs more versatile and friendlier.
How Multi-Touch Works in HMI Systems
The base technology driving the multi-touch displays is Projected Capacitive Touch-PCT. In this technology, an array of conductive electrodes is printed in a matrix of X-Y grid arrangement. When the screen is touched, capacitance around the contact point changes, and location of touch is resolved by analyzing the changes. For multiple touches, the system differentiates the changes in capacitance at each touchpoint, which helps it track and respond to several inputs concurrently.
Advantages of Multi-Touch Technology in Industrial Automation
Usability: Multi-touch technology enables multiple users to work on the system at the same time, thereby allowing operators to perform several tasks simultaneously. For example, one operator may zoom into a certain area of the display while another operator operates another process.
Improved Efficiency: The ability to perform various actions with different touchpoints reduces the need for complex screen layouts and navigation. This means fewer screens are required for different functions, streamlining the interface and enhancing operational efficiency.
Cost Reduction: By eliminating the need for additional input devices like keyboards and mice, multi-touch interfaces help reduce both equipment and maintenance costs.
This enables an enhanced user experience in the device, similar to most mobile devices. The same is achievable in industrial HMIs with added interactivity because of its intuitiveness and visual effects. Zooming into any part of the display provides a closer view of all the details of that section.
Environmental Resistance: Multi-touch screens are made to bear extreme conditions in the environment and, hence, are highly durable industrially. They are responsive to even gloved or cotton-gloved touches of operators, a common practice in manufacturing and processing environments.
Less training is needed for operators: This means reducing their time for training, thus, making them ready quicker, thereby increasing the effectiveness and efficiency of the workforce at large in the shop floor areas.
Conclusion: What to Expect from Multi-Touch Technology in Future Industrial Automation
The integration of multi-touch technology into industrial automation systems is not a trend but one step toward smarter and more efficient operations. Capable of handling multiple touches at once, reducing the need for additional input devices, and enhancing general user experience, it will become a standard feature in industrial HMIs. In such a continuously developing environment of automation, multi-touch technology will play a crucial role in increasing operator productivity and ensuring system reliability.
