Photoelectric Sensor helps maximize machine productivity.

Press Release Summary:




Subminiature ML4.2 Series includes models with response times as fast as 250 µsec, multibeam redundant detection, independent outputs, and zero deadband sensing. Dual sensor redundant detection can detect transparent or glossy objects wrapped in foil or plastic. Precise sensing models include one sensor with visible red emitter that senses black and white color extremes at distances up to 20 and 21 mm from sensor, respectively. Retroreflective sensing and thru-beam models are also available.



Original Press Release:



Maximize Machine Productivity with Expanded ML4.2 Series Photoelectric Sensors from Pepperl+Fuchs



New models deliver tangible benefits to help users improve overall equipment effectiveness in a range of industrial applications and environments

TWINSBURG, OH - Pepperl+Fuchs has expanded its family of ML4.2 Series Subminiature Photoelectric Sensors. A number of new models are available to help maximize machine productivity by delivering faster response times, multibeam redundant detection, independent outputs and zero deadband sensing, among other significant benefits.

"New ML4.2 high speed models offer 250 µs response time, which is twice as fast as standard ML4.2 models. For users this means less wasted material for converting applications, higher resolution for trigger applications and improved switching precision," says Jeff Allison, Product Manager, Pepperl+Fuchs.

ML4.2 dual sensor redundant detection models feature dual light beams from two emitter LEDs that reflect light to two receivers. These beams act as a logic "OR" so that either beam can switch the output. Having a redundant light beam enables transparent or glossy objects that are foil or plastic-wrapped to be much more reliably sensed when compared with single beam sensing.

An ML4.2 model with dual sensor redundant detection and independent outputs features dual beams from two emitter LEDs that reflect light to two receivers, where two independent outputs indicate the state of each separate beam.

"This model provides an affordable means of aligning or guiding translucent paper, plastic and fabric webs, as it serves as two sensors in one package. When the web is properly positioned, one beam detects the web while the other beam does not. This sensor can also be used to detect a gap between two objects to suppress the detection of small particles such as paper dust. Other potential applications include semiconductor and PCB positioning for conveying and buffering," explains Allison.

Two precise sensing models are also now available to deliver the sharpest sensing distance cut-off and smallest switching hysteresis on the market for background suppression sensors. The first model is available with a visible red emitter, and senses black and white color extremes within an extremely tight sensing window. A black test object is sensed up to 20 mm from the sensor, a white test object is sensed up to 21 mm away and no targets are detected at or beyond 22 mm. In contrast, a standard version ML4.2 sensor enables background suppression at 25 mm from the sensor. A second model senses black to 40 mm, white to 43 mm and no objects at or beyond 43 mm.

"This level of precision is significant for users with objects that need to be detected just one to three millimeters in front of the background, such as detecting a piece of cardstock on a belt, or the angle or straightness of paper in a feeder," says Allison.

A new ML4.2 series retroreflective sensing model with no sensing deadband is used with a corner-cube reflector and is polarized so that shiny objects will not be erroneously seen as the reflector. An innovative single optical axis design eliminates sensing deadband. A second model also includes an output that monitors signal strength.

"These sensors are perfect for applications that require more signal strength than is available with background suppression sensors, and sense at either very close or long sensing distances. They can be used when rigid reflectors or even reflective tape must be detected up to the sensor face, as a standard retroreflective mode sensor would typically not see reflective tape unless it were two to four inches from the sensor. They are also well suited for detecting objects such as solar cell wafers and packaged tubes or cartons where precise and repeatable leading edge detection is a must," explains Allison.

Lastly, new ML4.2 series thru-beam sensors deliver maximum signal strength in situations where retroreflective and background suppression models do not have sufficient optical power. They feature an optical alignment aid to indicate marginal signal strength, a status LED to indicate if small objects are not detected at high speeds, and quadruple the speed of previous generation thru-beam sensors. They are ideally suited for applications with sensing distances up to at least 8 meters, and in dirtier environments.

All non-thru-beam ML4.2 series sensors feature integrated crosstalk immunity to eliminate concern for side-by-side mounting, a tamperproof design with no external adjustments, 4-in-1 output to reduce inventory requirements and wiring hassles, and superior immunity to ambient light even for high frequency energy-saving lights. They also feature diagnostic LEDs in the front and back of the housing for quick and easy status indication, an antistatic and scratch-resistant glass lens ideal for printing and paper environments, and metal reinforced mounting holes that provide robust operation in demanding industrial applications.

Pepperl+Fuchs is a world leader in the design, manufacture and application of high quality factory and process automation products and services. Pepperl+Fuchs pioneered the development of proximity sensors 50 years ago, and has set the standard for innovation and quality ever since.

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