Lion Precision - PRODUCT NEWS
Study reveals important registration accuracy differences in Label Sensor Technologies
Since the advent of clear label sensors in the 1990s, several different label sensor technologies have emerged optical sensors, ultrasonic sensors and two types of capacitive sensors.
Test results from Lion Precision, who provides label sensors using all these technologies, show distinct differences in regard to registration accuracy. There are several advantages and disadvantages to each technology, according to Mark Kretschmar, communication manager for Lion Precision. The typical end-user or machine designer doesnt have the time or inclination to search out the differences for such a small piece of the labeling system, but the differences can matter, especially at higher speeds. As the leading clear label sensor provider, we felt compelled to discover and share the accuracies of each of our technologies.
Lion Precision designed and built a machine that uses a rotary encoder and a gear belt to precisely control and measure the location of label edges on a loop of ordinary paper labels. The system is capable of measuring label edge position with better than one micron of accuracy. Sensors using each of the four technologies were tested on the device with web speeds of 70 meters/minute and 220 meters/minute and compared. The results were very clear, said Kretschmar. The capacitive technology registered no errors, even at 220 meters-per-minute. Optical sensors showed a small decrease in accuracy at the higher speed. Ultrasonic sensors, while having the advantage of working with a very wide range of label materials, showed considerably larger errors and a clear relationship between web speed and registration accuracy. Kretschmar cautions, Registration accuracy is not the only factor in making a label sensor choice. Each technology can struggle with certain types of label and liner materials and have different setup procedures. If registration accuracy is of paramount importance, ultrasonic sensors are not the best choice, especially at higher speeds. If using slower speeds and the primary concern is usability on the widest range of materials, ultrasonic may be a good choice.
Lion Precisions newest label sensor, the LRD8200 uses ultrasonic technology. It isnt always about having the latest gadget or technology, according to company president, Don Martin. For users concerned with registration accuracy at high speeds, we steer them toward the capacitive sensors because they will get better results, even though they arent the newest product.
Detailed results of the test are available as a web page or PDF at www.labelsensors.com, a new site dedicated to helping users make the best sensor choice.
In 1958, Lion Precision was the first company to provide capacitive displacement sensors to industry. The company has expanded its product offering to include eddy-current displacement sensors and some application specific sensors for the machine tool, packaging and PCB industries. The company is focused on assisting users in sensor implementation by providing expert guidance and optimized systems including custom designs.
Lion Precision, an IBS Precision Engineering partner, sells the Triskelion in the United States. The company was established in 1958 and pioneered commercially available noncontact sensing systems. The company provides high-performance capacitive and eddy-current displacement sensors for industries such as machine tool, semiconductor, disk drive, automotive, packaging, and university and national laboratory research.
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