The brand new sensor family cube covers a measuring range of 65 mm to 5 m with its three detection ranges. The sensors are available in two output stages - 1 Push-Pull switching output as well as 1 Push-Pull switching output with analogue output or switchable to a 2nd swichting output. The sensors are equipped with IO-Link interface version 1.1.
The cube can be turned in five positions thank to rotation sensor head. The sensor can be mounted quickly and easily with the QuickLock mounting bracket. The LED display is visible in any mounting positions. The convenient mounting allows flexible use in numerous applications.
The new crm+ level sensors are equipped with IO-Link interface version 1.1. The IO-Link interface transfers measured distance values as well as identification, status and diagnosis values. It can easily be set with IO-Link maximum distances or switching points. The robust sensors cover a measuring range from 30 mm to 8 m with its five detections ranges. The additional digital display shows the measured value in mm/cm directly at the sensor. The Push-Pull switching output is used in standard-IO mode or switching output (pnp or npn).
The crm+ sensors in M30 stainless steel housing detect continuously levels of liquids and all kinds of bulk materials that reflect sound. This enables non-contact level control regardless of color or transparency. Ultrasonic sensors do not have any problems with dust and fog in the measuring distance. The protective film of the crm+ sensors makes it easy to remove soiling, i.e. splashing during filling process. Additionally, level control on aggressive media is also possible.
The new esf-1 label sensor from microsonic is equipped with a PNP switching output and a Push-Pull switching output with IO-Link version 1.1. The compact fork housing can be fitted close to the dispenser edge. The sensor reliably detects the label edge at high web speeds and with the improved evaluation algorithm, it can even detect difficult labels. To the ultrasonic sensor, it does not matter whether the labels are metallized, or made of foil or paper. Even changing colours and degrees of transparency have no effect on the certain detection in the labelling process. In addition, the sensor can also be used to detect adhesive joints and splices.
Along with the launching of version 1.1 of IO-Link, the esf-1 label sensor also got an improved evaluation algorithm. In the teach-in phase of the labels, the algorithm more precisely analyses the transitions between the base material and the label. Some labels can cause so-called overshoots in the area of these transitions. The overshoots depend on the material and thickness of the labels. The overshoots are thus better detected and suppressed for the automatic determination of the switching threshold. Labels that were difficult to detect with ultrasound in the past can now be learnt easily with the esf-1 and positioned with certainty.
IO-Link is not fast enough for the exact positioning of the labels. This continues to be done in SIO mode. Through the IO-Link interface, the label sensor settings can be made directly at the controller without having to operate the sensor on-site. The sensor has the smart auxiliary function recipe management integrated in it via IO-Link. To that end, the different labels are first learnt and the material parameters are saved in the controller. If the label is changed, the operator selects the label type at the controller. The controller rewrites the label-specific parameters to the sensor. This shortens the expensive setup time.
Il robusto sensore mic+ nella sua struttura della custodia M30 copre un campo di misura da 30 mm a 8 m con i suoi cinque campi di rilevamento. I sensori sono disponibili in cinque interfacce di uscita. La versione 1.1 dell'interfaccia IO-Link è stata integrata di recente per i sensori con uscita di commutazione Push-Pull. Oltre ai valori di processo, l'interfaccia IO-Link trasmette anche i valori di identificazione, di stato e di diagnostica e supporta lo Smart Sensor Profile. Con una temperatura di esercizio da -25°C a 70°C i talenti a tutto tondo possono essere utilizzati in una vasta gamma di applicazioni, dall'automazione della produzione all'agricoltura.
Il display digitale a tre cifre del sensore mic+ fornisce direttamente i valori misurati e supporta la semplice configurazione dei sensori a ultrasuoni. Il display digitale consente inoltre di configurare numericamente il singolo punto di commutazione, i limiti durante l’impiego della funzionalità finestra o la curva caratteristica analogica di salita e discesa. In questo modo, l'oggetto da rilevare non deve essere collocato nel campo di rilevamento del sensore. È possibile quindi impostare il sensore in un luogo diverso da quello di utilizzo e trasferirlo in loco in un secondo momento.
microsonic has equipped the new lpc+ sensor family with two output stages. The sensors in the M18 threaded sleeve have the following optional features
With the four detection ranges (150 mm, 250 mm, 350 mm and 1,000 mm), the new ultrasonic sensors cover a measuring range from 20 mm to 1.3 m.
Thanks to the IO-Link interface, the lpc+ sensors can be easily and reliably parameterized by the machine controller even during operation. On-site adjustment is not required, but is possible with LinkControl. In addition to process values, the IO-Link sensors also transmit identification, status and diagnostic values and support the Smart Sensor Profile.
The advantages of the Smart Sensor Profile pay off when using different IO-Link devices (sensors, actuators) in one application. In the IODD file, the Smart Sensor Profile unifies manufacturer-independent functions, simplifies handling and thus reduces integration effort.
“A safe and easy-to-clean factory is the highest requirement in the production of medicines and food,” thus Johannes Schulte, Managing Director of microsonic. The technical components installed in production and packaging machines must withstand difficult ambient conditions and intensive cleaning processes.
Compact ultrasonic sensor with a sophisticated geometry in a number of versions.
The unusual housing geometry of the sensor satisfies important demands placed on the hygienic design: whether top to bottom fill level measurement, or horizontal object measurement, a housing surface never has a horizontal alignment, despite installation position. This means that the cleaning fluids are able to run off completely, regardless of the installation situation.
With its stainless steel housing, the pms has been designed without crevices or dirt edges and is highly-suited to intensive cleaning and disinfection. Bacteria are unable to find any breeding ground on the smooth surface; cleaning agents flow away completely, irrespective of the installation position. The PTFE-encapsulated ultrasonic transducer protects the sensor membrane from aggressive chemical cleaning agents. Cables can be installed outside the process, to ensure a hygienic solution.
With four different detection ranges, the new pms ultrasonic sensor covers a broad measuring range of 20 mm to 1.3 m. The sensors are fitted with a Push-Pull switching output and IO-Link in the version 1.1 or with an 0-10 V or 4-20 mA analogue output. This covers a very broad spectrum of different applications.
The standard version of pms sensor with a D12 adapter shaft can be fitted in a mounting clip or a flange screw connection. The D12 bayonet catch enables sensors to the installed quickly and affordably in an established fastening system and can be replaced just as quickly without the need for tools.
An overview of the Technical data of the hygienic sensor pms
Ultrasonic one-way reflective barrier for contact free detection of objects specially in the most diverse applications e.g. with bottles or plastic foils. ews sensors are available in cubical as well as cylindrical housing and are competitive with most through-beam light barriers.
one ultrasonic sensor ews, set as emitter, sends cyclic sound impulses, received by another one, set as receiver.
If an object interrupts the measuring track between the set transmitter and the receiver, the switched output of the receiver is set.
sks ultrasonic sensors are the smallest, cuboidal sensors from microsonic and now available with IO-Link interface. The IO-link interface in our ultrasonic sensors provides everything in order to implement continuous communication all the way through system architecture right into the sensor. The sks sensor has a measurement range from 20 to 250 mm.
pico+TF ultrasonic sensors are designed for filling level control of small containers due to its compact housing dimensions. The Teflon film protects the ultrasonic transducer against aggressive media. The transducer itself is sealed againg the housing by a joint ring.
At this year Hannover Fair, we present a sample of bks+8/37/FIU with a wide measurement range of formidable 320 mm. Due to this flexible concept other measurement ranges are conceivable. The IO-Link interface can be parametrized to detect a web edge, web width or the centre position of the web. It will be even possible to scan two webs simultaneously.
Measuring range 320 mm (±160 mm)
Resolution/sampling rate 0.01 mm via IO-Link; 0.1 mm via analogue output
Accuracy 0.1 mm at constant ambient conditions
Response time 5 ms
Housing dimensions 430 mm x 120 mm x 46 mm
Fork depth 374 mm
Fork width 80 mm
Operating voltage UB 24 V
Analogue output 4–20 mA; 0–10 V
nano – what's in a name? At just 55 mm long, including plug, the nano is the shortest M12 ultrasonic sensor on the market. The housing's design and mounting is compatible with many inductive and capacitive sensors. This facilitates the conversion to ultrasonic sensors for critical applications.