Miniaturisierte Ultraschallsensoren

Optimale Sensoreinstellung auf die individuelle Applikation

• Erweiterte Funktionen und Filter, wie Schallkeuleneinstellung, Moving-Average-Filter oder Disruption-Filter, ermöglichen eine schnelle und einfache Optimierung der Sensorperformance
• Hohe Anlageneffektivität und Zuverlässigkeit dank einfacher Optimierung des Sensors auf die individuellen Applikationsanforderungen

Effiziente Integration und zusätzliche Daten über die IO-Link-Schnittstelle

• Effiziente Integration in die Automatisierungssysteme über die standardisierte IO-Link-Schnittstelle
• On-the-fly-Parametrierung über IO-Link ermöglicht flexible Produktionslinien
• Zusätzliche Diagnosedaten, wie Gerätetemperatur oder Anzahl an Schaltvorgänge, als Basis für ein vorausschauendes Wartungskonzept
   

Höchste Performance in kleinster Bauform 

• Best-in-class Messbereich mit einem Blindbereich von 15 mm bei einer Messdistanz bis 500 mm
• Kleine, platzsparende Bauform mit Standard-Lochabstand ermöglicht flexible Integration des Sensors in die Maschine

The setting and filter options integrated in the sensor allow the sensor to be set optimally to the application via the IO-Link interface. Find out more in the video.

The integrated settings and filters allow the ultrasonic sensors to be optimally adjusted to the application. This not only reduces the variant diversity but also ensures an even more reliable solution. The video shows the following examples:

• The flexibly adjustable sound cone for a stable measurement
• The reliable double sheet detector
• The interrupt filter using the example of a clock unit

• Reliable crack detection of a wide variety of films regardless of their optical properties
• Barrier principle for fast detection of even the smallest cracks

• Reliable detection of a great variety of surface structures, colors, and transparent PCBs
• Quick response times for high throughput
• Shortest blind region and compact design for unimpeded design-in

• Detection of a great variety of materials with different geometries
• Flexible sound beam adjustment for optimal sensor setting to the application

Transmitter and receiver are integrated in one housing. The sensor switches as soon as the sonic signal is reflected back by an object within the adjusted sensing range (background suppression principle).

Advantage: simple installation, low cabling efforts

Transmitter and receiver are integrated in the same housing. The sensor detects the sound reflected by a fixed reflector. The sensor switches as an object interrupts the distance between sensor and reflector.

Advantage: Independent of object attributes, reliable signal even with extremely weak or diffuse reflective or sound-absorbing objects

Ultrasonic sensors offer a high degree of flexibility in installation. Learn more about what you should consider when mounting ultrasonic sensors.