Not available for purchase: Measurement to object, 300 mm detection range, red laser light, laser class 1, measured value via IO-Link, 2 x push-pull output, M8 plug, Miniature design with versatile mounting options, Space-saving distance sensors in small standardized design, Multi Pixel Technology (MPT) - exact and precise signal evaluation, DuraBeam Laser Sensors - durable and employable like an LED, IO-link interface for service and process datafa
See Overview: When considering future Industry 4.0 scenarios, flexible automation solutions and real-time data transmission become more important than ever. Ethernet IO modules from Pepperl+Fuchs provide maximum flexibility and efficiency ... data transfer are becoming more important than ever. Ethernet IO modules from Pepperl+Fuchs fulfill this task and quickly and connect both digital sensors/actuators and IO-Link devices. The modules support the most common Ethernet protocols: PROFINET , EtherNet/IP , and EtherCAT . The desired protocol can be set directly on the module using a rotary switch. The multiprotocol capability of the Ethernet IO modules enables direct Ethernet communication with all common control panels with just one device. The
Learn how IO-Link can facilitate maintenance and diagnostics in your application ...Maintenance and Diagnostics Localization Facilitates Maintenance In case a Pepperl+Fuchs sensor needs to repaired or replaced, the localization function makes it possible to identify a single sensor within a plant. A specific IO-Link parameter is fast localization of errors, making it possible to take appropriate action to prevent downtime and time-consuming troubleshooting. Device Status Enables Condition Monitoring The device status indicates whether an IO-Link device is functioning properly
IO-Link system configuration consists of several steps. Learn more about commissioning of IO-Link devices within the automation system, and about parameterization during operation ...Operating the IO-Link System Commissioning IO-Link Devices within the Automation System IO-Link system configuration consists of several steps. First, the IO-Link master is integrated into the automation system and configured with the corresponding device description for the respective fieldbus system . The device description file contains information on the address range, the number of ports, and the characteristics of the module itself. The second step covers the parameterization of IO-Link
Learn more about offline parameterization of IO-Link devices with the help of the manufacturer- and fieldbus-independent operating software PACTware ...Installation, Commissioning, and Parameterization Offline Parameterization of IO-Link Devices Using PACTware The manufacturer - and fieldbus-independent operating software PACTware with IODD interpreter makes it easy to parameterize and interpret IO-Link sensors right from your desk. In addition to the ever-present IODD , device-specific DTMs (device type manager) are available for numerous Pepperl+Fuchs IO-Link sensors. These enable convenient operation of the sensors via a graphical user
Learn more about the technological foundations of IO-Link communication, and how IO-Link master port setting is performed ...Technological Foundations IO-Link communication takes place on a three- or four-wire unshielded standard cable that can establish an up to 20-meter-long connection between the IO-Link device and the IO-Link master . The IO-Link master is either located in the control cabinet or directly in the field. From there, it establishes the connection, or communication, between IO-Link devices and the automation system. A master can feature several IO-Link channels , known as ports, each of which can be
Learn more about how to establish IO-Link communication, and what role Electronic Decive Descriptions (IODDs) and device profiles play during this process ...Operating Principle Starting-Up IO-Link Communication IO-Link has specified three transfer rates , COM1 , COM2 , and COM3 , which range from 4.8 and 38.4 up to 230.4 kbit/s . This means different transfer rates are available that correspond with the data volume of each device. Currently, most IO-Link devices can be operated with a transfer rate of 38.4 kbit/s (COM2) . To establish communication, the master first sends a wake-up event to the IO-Link device. The device recognizes the signal and waits
The next generation of LoRaWAN-based WILSEN sensors from Pepperl+Fuchs now offers even more user-friendliness and parameterization options. HEX codes and transferred directly via the Network API Key to message queues in the TTN (The Things Network) and ChirpStack (v3 and v4) IoT platforms. If an IoT platform other than TTN or ChirpStack is used or no Network API Key is available, the HEX-Operated WILSEN.sonic Ultrasonic Sensors Industrial-quality wireless IoT sensor for level and distance measurement applications Globally standardized LoRaWAN® network for efficient, long-range signal transmission Easy to install and operate: downlink
From reliable positioning and identification to guaranteeing smooth processes in conveyor technology and safety-critical applications—discover our comprehensive portfolio for the automotive industry … processes on monorail conveyors or for automated guided vehicles. Learn more Complete IO-Link Solution from a Single Source The future-proof, cross-vendor interface enables comprehensive diagnostics and is easy to configure during operation via the control system. Pepperl+Fuchs offers you an end-to-end IO-Link solution that includes a range of IO-Link sensors and the appropriate infrastructure. Comprehensive Connectivity Portfolio However varied automation applications may be, requirements placed on
Pepperl+Fuchs' IIoT subsidiary Neoception offers you an exclusive whitepaper on the benefits of completely digitalized Kanban-based value chains …Pepperl+Fuchs' IIoT subsidiary Neoception offers you an exclusive whitepaper on the benefits of completely digitalized Kanban-based value chains …