VIBCONNECT® RF Installation and Operation
Legal notes Compliance Statement acc. to Sect. 15.19: This device complies with Part 15 of the FCC Rules.Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence.
VIBCONNECT® RF Wireless Online Condition Monitoring Installation and Operation Modules: VIB 7.220, VIB 7.225 VIB 7.200, VIB 7.205 VIB 7.205-2.9EX VIBCONNECT RF Bridge VIBCONNECT RF Sensor unit VIBCONNECT RF sensor Firmware: 2.1x Edition: May 2014 Order no.: LIT 72.200.
2 Foreword Foreword Thank you for purchasing our VIBCONNECT RF online condition monitoring system. VIBCONNECT RF offers maximum flexibility at minimum costs for installation and operation. It caters for the continuous condition monitoring of machines for which wired systems would not be economically viable.
3 Contents Contents Chapter 1: Introduction...................................................... 5 1.1 First steps......................................................................... 5 1.2 Service addresses............................................................. 5 1.3 About this manual........................................................... 6 Chapter 2: Safety................................................................ 7 2.1 Safety symbols..................................................
4 Contents 5.4 Installation & commissioning of sensor unit.................... 39 5.4.1 Overview of connections and interfaces................................ 40 5.4.2 Measuring reception field strength at location of installation.42 5.4.3 Mounting sensor unit........................................................... 44 5.4.4 Connecting sensor unit......................................................... 45 5.4.5 Commissioning sensor unit................................................... 46 5.
5 Introduction Chapter 1: Introduction 1.1 First steps Checking delivery Please check the delivered goods without delay for defects or missing parts. If your delivery is incomplete or you detect defective parts, mark the respective components on the freight dockets and contact the shipping company or local PRÜFTECHNIK sales partner.
6 Introduction 1.3 About this manual This manual forms part of the product delivery and must be kept for the entire service life of the product. It might be necessary to update this document from time to time. If the product is handed on to another user, you must also hand over this manual. Disclaimer The information and data in this manual are provided for information purposes only.
7 Safety Chapter 2: Safety VIBCONNECT RF has been designed according to the harmonized standards and technical specifications listed below. It therefore conforms to the latest state of technology and provides best possible safety. During installation and operation, there are, however, some residual risks that cannot be eliminated by technical measures. Please always comply with the general safety instructions in this chapter, and with the safety instructions in the other chapters of this manual.
8 Safety • All operating personnel have been instructed in the relevant occupational safety and environmental protection issues in relation to the system, and in the use of this manual, with particular reference to the safety instructions • The responsibilities for installation, commissioning and operation have been assigned Compliance with operating manual You must ensure that • This manual has been read and fully understood by all operating personnel, and that all instructions are strictly adhered to •
9 Safety Regularly check for the following: • Is there visible damage to the system components? • Are any of the sensor or network cables squeezed or damaged? • If you detect any defects, notify your supervisor and / or repair them. The system must only be operated when in proper working order! • In the event of malfunction of the bridge or the sensor unit, disconnect the affected device from the power supply and secure it against switching on.
10 Safety 2.5 Residual risks and safety measures If installed and operated according to the instructions VIBCONNECT RF is a safe system.
11 Safety Note Risk of damage to equipment while housing is open! Touching the electronic components on the mother board can lead to electrostatic discharge, which can damage system components. »» If contact with such components cannot be excluded, wear an earthing wristband. Note EMC High-frequency radiation and electrostatic discharge (ESC) near the sensors can lead to incorrect measurements. »» Do not install sensor cables in high-voltage cable ducts. Note VIBCONNECT RF 05.
12 Declaration of Conformity according to EN ISO/IEC 17050-1 PRÜFTECHNIK Condition Monitoring GmbH Oskar-Messter Str. 19 –21, 85737 Ismaning, Germany herewith declares that product Designation: Product nos.: Description: Declaration of conformity VIBCONNECT RF Sensor Unit / Bridge / Sensor VIB 7.200, VIB 7.205 / VIB 7.220, VIB 7.225 / VIB 7.205-2.9EX Wireless Condition Monitoring System conforms to the applicable European Directives and standards.
FCC ACB, Inc. 6731 Whittier Avenue Suite C110 McLean, VA 22101 Certification Issued Under the Authority of the Federal Communications Commission By: GRANT OF EQUIPMENT AUTHORIZATION CHO-VCRFSU Name of Grantee: PRÜFTECHNIK Condition Monitoring GmbH 15C FCC Rule Parts 916.0 - 916.
14 IC VIBCONNECT RF 05.
VIBCONNECT RF 05.
ACB, Inc. 6731 Whittier Avenue Suite C110 McLean, VA 22101 Certification Issued Under the Authority of the Federal Communications Commission By: GRANT OF EQUIPMENT AUTHORIZATION CHO-VCRFBR24 PRÜFTECHNIK Condition Monitoring GmbH VIBCONNECT RF 05.2012 2434.9 - 2434.9 0.00171 Power output listed is conducted. This transmitter must not be co-located with any other transmitters except in accordance with FCC multi-transmitter product procedures.
17 Technical data Chapter 3: Technical data VIBCONNECT RF Bridge – VIB 7.220, VIB 7.225 Radio transmission frequency band 868 MHz (Europe, VIB 7.220) 916 MHz (America, VIB 7.220) 2435 MHz (Worldwide, VIB 7.225) Ethernet Baud rate: 10 / 100 Mbit/s Memory 256 MB Capacity up to 50 sensor units Power supply 100 ... 240 VAC / 50-60 Hz Operating temperature – 25 °C ... +60 °C Relative humidity < 95 %, non-condensing Housing Steel sheet, powder-coated Protection class IP 66, NEMA 4 Weight approx. 1.
18 Technical data VIBCONNECT RF sensor unit – VIB 7.200, VIB 7.205 Radio transmission frequency band 868 MHz (Europe, VIB 7.200) 916 MHz (America, VIB 7.200) 2435 MHz (Worldwide, VIB 7.205) Measuring channels Two synchronized channels. Each channel allows for the simultaneous measurement of vibration and temperature by the VIBCONNECT RF sensor. Dynamik range 24 bit ADC Radio range up to 300 meters (open field) Power supply a) 3.6 V lithium batteries, size C, 2 pcs.
19 Technical data VIBCONNECT RF Sensor – VIB 7.205-2,9EX Sensor type Vibration acceleration sensor with integrated temperature sensor Transmission factor 3.5 mV / ms-2 (± 10 %) Max. measurement range 500 ms-2 r.m.s. (± 10 %) Frequency range 5 Hz ... 10 kHz (± 3 dB) Temperature measuring range -40°C ... +85°C (± 3°C) Cable type 4-wire cable incl. shield Cable length 2.9 m Relative humidity < 95 %, non-condensing Case material Stainless steel VA 1.
20 Technical data Measuring tasks (configurable through OMNITREND PC software) Maximum number of measuring tasks per measurement location 4x vibration, 1x temperature (min.
21 System description Chapter 4: System description VIBCONNECT RF is a stationary, wireless online condition monitoring system designed for easy installation and operation. The system consists of the following components: 1. 2. 3. VIBCONNECT RF bridge VIBCONNECT RF sensor unit VIBCONNECT RF sensor for vibration and temperature 1 2 3 4.
22 System description For vibration measurements, the sensor unit only records the related time signal. The further processing and analysis of the time signal (characteristic value, FFT spectrum, envelopes) are performed on the bridge. The bridge stores the actual measuring configurations and the measurements that have not yet been transferred to the OMNITREND software. Measurements that have been uploaded to OMNITREND are automatically deleted from the bridge memory.
23 System description 4.2 VIBCONNECT RF sensor unit The sensor unit is the transmitter and receiver unit attached to the machine. Each sensor unit comes with one or two connected sensors for the simultaneous measurement of vibration and temperature. By separating the sensors from the radio unit, it is possible to position the components in the most suitable locations on the machine: • For sensors, these are the points with the highest signal level.
24 System description 24 VDC For this type of sensor unit, the system operator must provide a 24 VDC power connection at the location of installation. Energy harvester *xxx = 50, 60, 100, 120 (frequency range in Hz) For this type of sensor unit, the operator must install an energy harvester (VIB 7.210-xxx*) that converts the vibration energy of the machine into electric power. This can only be done, if the machine speed is constant and within the useful frequency range of the energy harvester. 4.2.
25 System description What happens, if ... ... a sensor unit “wakes up” from its idle time? • The sensor unit performs the measurements, using the current measuring configuration, and transfers the data via radio signal to the bridge. The bridge confirms receipt of the data and sends a new measuring configuration to the sensor unit, if this is required. Subsequently, the sensor unit returns to idle mode. ...
26 System description 4.2.4 Topology of radio cell The radio network is of a star formation, and each sensor unit communicates with the bridge through bidirectional communication. The individual sensor units cannot communicate with each other. This ensures that additional sensor units can be added to a cell at any time without affecting the existing components. The failure or switching off of a sensor unit does not in any way affect the rest of the network.
27 System description 4.3 VIBCONNECT RF sensor The sensor simultaneously measures the vibration acceleration and the temperature. It is equipped with a 2.9 m cable and is extremely compact, requiring only minimum space. It can thus be positioned at the best possible measurement location on the machine and connected to the sensor unit that is within the radio range of the bridge. Due to its very low power consumption, the sensor conserves valuable energy resources in the Battery and Harvester version.
28 Installation and commissioning Chapter 5: Installation & commissioning 5.1 Quick guide 5.1.
29 Installation and commissioning As the system is based on wireless communication, the installation of the components is very simple. All you need to do is installing and connecting the bridge, the sensor unit(s) and the sensors.
30 Installation and commissioning 5.2.2 Setting up the database Online Measurement location type for VIBCONNECT RF • In the OMNITREND Machinery Manager, set up the tree structure for the machine park to be monitored, including a measurement location hierarchy. • Select measurement location type ‘Online’. Note If a sensor is to measure both vibration and temperature, you must set up two separate measurement locations for this sensor.
31 Installation and commissioning 5.2.3 Creating and printing measurement location report During installation, you add the following information to the printed report: • Machine on which the sensor unit is installed • Measuring channel for each measurement location in the OMNITREND database This information is required for the measuring configuration in OMNITREND. The report can be created to include all entries in the database or only a selection of records.
32 Installation and commissioning 5.3 Installation & commissioning of bridge The bridge is contacted by OMNITREND through the network (Ethernet). The bridge is addressed through the IP address of the bridge. The factory-set address is: 192.168.1.178 If the address range of your network differs from the standard range (e.g. 172. ... or 10. ... ), adjust the IP address of the bridge accordingly before you install the bridge in the machine park. 5.3.
33 Installation and commissioning • Click and enter the new IP address for the bridge. If required, change the address of the Subnet Mask and Gateway, and then click the button. Note Note down the new IP address of the bridge as it might be needed for maintenance or repairs. If you are unsure about the correct addressing procedure within your network, contact the network administrator. • Repeat the above steps for all other bridges.
34 Installation and commissioning 5.3.2 Installation preparations For proper installation of the equipment on site, the operator must ensure that the following requirements are met: Personnel qualification The devices must be installed by a qualified electrician. Location of installation The bridge must be installed at an exposed position to ensure optimum radio reception from all machines in the radio cell.
35 Installation and commissioning Tools and materials • Power drill, drill bit and thread cutter for M7 bolts • M7 bolts and matching washers for fixture of bridge (4 bolts per bridge) • Open-end spanner of suitable size • Open-end spanner (size 22) for M16 cable glands • 3-wire electric cable of appropriate length for power supply line • Ferrules for connection of power supply line • Industrial Ethernet cable (CAT 5) for data of appropriate length • Standard tools for electrical installation (wire cutter,
36 Installation and commissioning 5.3.4 Connecting bridge CAUTION Risk of injury from electric shock! When connecting the bridge to the power supply without taking the necessary safety precautions, there is a risk of energy from high voltage (220 V). »» The electrical connection must be established by a qualified electrician. »» The mains voltage must conform to the IEC guidelines. »» An external interface (fuse or switch) must be provided in order to disconnect the power supply securely.
37 Installation and commissioning Power cable In order to connect the power cable conveniently, you need to remove the PE terminal and the power supply as follows: • Loosen the center screw on the PE terminal, and pull it gently to the left of the DIN rail. • Slide the power supply to the left so that it is not stuck in the mounting flap screw when lifting it out.
38 Installation and commissioning 5.3.5 Commissioning bridge • Before commissioning the bridge, check whether all cable connections and fixtures of the bridge are correctly executed. • Switch on the power supply of the bridge. The green LED on the power supply is on. After the operating software has fully booted (approx. 1 minute), the bridge is ready for operation. 5.3.
39 Installation and commissioning 5.4 Installation & commissioning of sensor unit The operator of the system must ensure that the following conditions are met and all necessary preparations are completed. Location of installation • The sensor unit must be mounted on or near the machine. Choose a suitable position on the machine that is only exposed to low vibration. Alternatively, provide a suitable holder for the sensor unit. • Ensure that the location of installation has good radio reception.
40 Installation and commissioning 5.4.1 Overview of connections and interfaces Battery-powered sensor unit 1 3 2 4 1. Antenna 2. Cover fixtures (Allen screws) 3. Lithium batteries 4. Terminal strip* * the 24 V version is equipped with a second terminal strip for power supply 8 7 6 5 5. Cable gland for sensor line 6. Cable gland for 24V power cable / energy harvester cable 7. Mounting flaps for sensor unit 8. Vibration dampers VIBCONNECT RF 05.
41 Installation and commissioning Terminal strips and LEDs in sensor unit Terminal 1 Power supply (24 V version) LEDs in sensor unit: • GREEN: Data transmission • YELLOW: Measurement • RED: Data transmission error Terminal 17 Terminal 1 Sensor 2 VIBCONNECT RF 05.
42 Installation and commissioning 5.4.2 Measuring reception field strength at location of installation Note Radio approval The antenna on the sensor unit is installed at the factory and must not be removed. »» Contact PRÜFTECHNIK, if you want to use a different type of antenna or if you need to extend the original antenna from an enclosure with an antenna cable.
43 Installation and commissioning • After completion of the field strength measurement, remove the short-circuit bridges and the voltmeter. • If you do not intend to commission the sensor unit at that point in time, remove one of the batteries to save energy. Note Maintaining battery charge Until the sensor unit has received a valid measuring configuration from the bridge, it continuously sends out requests, using battery power.
44 Installation and commissioning 5.4.3 Mounting sensor unit CAUTION Risk of injury from rotating machine parts! When installing the sensor unit while the machine is running, there is a risk of serious injury caused by exposed, moving machine parts. »» Do not remove any guards on the machine. »» Always adhere to the safety instructions for work on running machinery. • Install the sensor unit at the location with the best possible radio reception. • Drill two mounting holes.
45 Installation and commissioning 5.4.4 Connecting sensor unit Note The sensor cables must only be connected to the sensor unit after the sensors have been installed, so that you have the option to extend or shorten the cables if required (see also '5.5 Installation of sensors', page 47). • Open the sensor unit and feed the sensor cable through the cable gland provided. • Connect the four tinned cable strands to the respective terminals for sensor 1 and sensor 2 (see also '5.4.
46 Installation and commissioning • In the measurement location report, document the channel assignment of the measurement locations. 1B-8F-DC-4C-00-38 Channel 1 Channel 3 Channel 2 Channel 4 1B-8F-DC-4C-00-36 Sensor unit with external 24 V power supply: • Connect the power supply cable to the second, 4-pin terminal strip (see also '5.4.1 Overview of connections and interfaces', page 40). • Tighten the cable glands at the sensor unit and close the housing. 5.4.
47 Installation and commissioning 5.5 Installation of sensors For proper installation of the sensors on site, the operator must ensure that the following requirements are met: Location of installation • The sensors are secured to the machine with the supplied M8 threaded bolt or with a suitable mounting adapter. • Observe the rules for the choice of measurement locations for vibration measurements. Permissible ambient conditions Temperature: – 40 °C to +125 °C Relative air humidity: max.
48 Installation and commissioning way and free of contact resonance. This is particularly important for measurements at high frequency. Suitable measurement locations on the machine radial, vertical axial axial radial, horizontal 5.5.2 Mounting sensor CAUTION Risk of injury from rotating machine parts! When installing the sensors while the machine is running, there is a risk of serious injury caused by exposed, moving machine parts. »» Do not remove any guards on the machine.
49 Installation and commissioning screwed (M8) VIB 3.480, standard adhesive VIB 3.418 magnetic VIB 3.423 Mounting sensor with screw adapter Tools and auxiliary equipment • Power drill with two drill bits (3.5 / 6.8 mm) and depth gauge • Spot facer • M8 bottoming tap • Size 19 torque spanner • Compressed air to clean mounting point Installation Select drilling point: • The minimum distance between the drill hole and the protruding edges of the sensor housing is 35 mm.
50 Installation and commissioning • Clean the drill hole and the area around it with compressed air; roughen the surface around the drill hole with sandpaper (grade 220). • Clean the contact faces at the adapter and the machine with solvent. • Allow the contact faces to dry, apply a thin layer of screw locking agent (LOCTITE 243) to improve signal propagation. • Screw the threaded bolt into the sensor and tighten it with a size 4 Allen key.
51 Installation and commissioning Installation Select mounting point: • In order to have sufficient space to apply the adhesive with a wooden spatula, keep a distance of minimum 35 mm between the adapter and the edges of the housing. Level and roughen surface: • Remove all paint from the mounting surface so that the adapter can be glued to bare metal (diameter of area > 30 mm). If necessary, level the mounting area.
52 Installation and commissioning Apply adhesive Press down and turn adapter Mount the adapter: • Press the adapter with minimum force against the mounting area and turn it slightly to distribute the adhesive evenly. • Do not remove adhesive escaping at the side of the adapter. For extra stability, also apply adhesive around the adapter edge. • Allow the adhesive to cure (approx. 24 h at room temperature).
53 Installation and commissioning 5.5.3 Installing and connecting sensor line to sensor unit The sensor cable is permanently attached to the sensor. The other end of the cable must be connected to the sensor unit. • Before installing the cable, mark the cable end with the sensor number to which it belongs. This ensures that there is no confusion when connecting the cables to the sensor unit. • Install the cables from the sensors to the sensor unit, using suitable equipment (cable ties, clips, ducts, etc.).
54 Installation and commissioning 5.6 Configuration in OMNITREND (continued) After the system components have been installed and commissioned, continue configuring the system in OMNITREND (see also '5.2 Configuration in OMNITREND', page 29).
55 Installation and commissioning • In the ‘Configuration’ window you must enter a name for the bridge and change the communication settings if required. • Click the button. Enter a name for the bridge. Communication settings: Increase 'Timeout', if data transmission is poor. Disable 'Route and data import' when bridge is shut down for maintenance. OMNITREND establishes a connection to the bridge, reads its serial number and indicates it in the ‘ID’ field. • Click the button.
56 Installation and commissioning 5.6.2 Registering sensor units in OMNITREND • In the main menu, click / . • In the ‘Registration’ window (‘OMNITREND’ tab), check whether ‘VIBCONNECT RF’ is the current OMNITREND version. If this is not the case, change the settings. OMNITREND for 'VIBCONNECT RF' must be active. • Call up the ‘Measurement Device’ tab (see previous page).
57 Installation and commissioning • Click the button. To register the sensor units in OMNITREND, click the button. • In the ‘Configuration’ window, click the button. OMNITREND establishes a connection to the bridge and then lists all sensor units that are within the radio range of the bridge and have sent requests for measuring configurations. Other buttons in the 'RF Sensor Unit' field: : Change the name of the sensor unit.
58 Installation and commissioning 5.6.3 Assigning measurement locations in the database to a sensor unit and bridge The measurement location report contains all information regarding the assignment of channels to measurement locations. The respective sensor units are identified in OMNITREND by means of their MAC address. In systems with several bridges, you can assign the sensor units to any available bridge.
59 Installation and commissioning Procedure • In OMNITREND, open the Machinery Manager. • Select one of the previously set up online measurement locations (see also '5.2.2 Setting up the database', page 30). • Call up the ‘Meas. Data’ tab. • In the ‘Meas. Point Type’ section, first select the bridge with the best reception in the ‘Online Device’ field. • In the second field, select the sensor unit that is installed at the respective measurement location (refer to the measurement location report).
60 Installation and commissioning 5.6.4 Creating measuring configuration This chapter explains how to create a measuring configuration for a measurement location in the VIBCONNECT RF system, using the OMNITREND software. A measuring configuration contains information regarding • • • • the measuring tasks the time intervals at which measurements are to be performed the measurement location assigned to a sensor unit the associated bridge. Measuring tasks • Select a measurement location.
61 Installation and commissioning Note VIBCONNECT RF calculates the characteristic vibration values from a spectrum, using frequency bands. These bands are preset in the alarm wizard and are then assigned as a subordinate measuring task ‘Bank analysis (Trending Task)’ to the respective spectrum. For more information, please refer to the OMNITREND online help. Time interval of idle phase • Select the machine train in which the sensor unit is installed. • Call up the ‘Train Data’ tab.
62 Installation and commissioning 5.6.5 Loading measuring configurations to the bridge • In the main menu, click (Download). • The data transfer starts automatically. If there are several bridges registered in OMNITREND, they are invoked in sequence. Notes To exclude a bridge from transmission, disable the 'Route and data import' option in the configuration window (see also '5.6.1 Registering bridge in OMNITREND', page 54).
63 Installation and commissioning 5.7 Installing additional sensor unit VIBCONNECT RF can be extended at any time, and sensor units and sensors can be added during operation of the system. Setting up measurement locations and printing reports • Set up the required measurement locations in the OMNITREND database (see also '5.2.2 Setting up the database', page 30). • Print the measurement location report of the respective machine train (see also '5.2.
64 Maintenance Chapter 6: Maintenance VIBCONNECT RF is an electronic measuring system that must be handled with care. 6.1 Cleaning If required, clean the housings of the bridges and the sensor units with a damp cloth so that the system component details (serial number, MAC address) remain clearly visible at all times. Replace damaged cables without delay. 6.2 System time correction The system time on the bridge should be checked regularly about every 6 months and if necessary readjust.
65 Maintenance 6.4 Battery-powered sensor unit With normal operation, the lithium batteries of the sensor unit last for about 3 years. Normal operation means one measuring sequence* per hour and interference-free data transmission, at an ambient temperature of 20 °C. 6.4.
66 Maintenance 6.4.2 Changing battery CAUTION Danger of explosion if battery is incorrectly replaced. Replace only with same or equivalent type recommended by manufacturer. Note Risk of damage to equipment while housing is open! Touching the electronic components on the mother board can lead to electrostatic discharge, which can damage the sensor unit. »» If contact with such components cannot be excluded, wear an earthing wristband.
67 Maintenance 6.5 Update To update the firmware for the system components, download the update file on the bridge. The sensor units are automatically updated during the subsequent data transmission. • Contact the bridge through a browser (see also '5.3.1 Changing IP address of bridge', page 32). • On the main menu, click 'Upload Configuration'. • Click , and select the update file (eg 'VIBCONNECTRF_FW_1.00-301.ptz'). • Click to transfer the file. This process takes about a minute.
68 Troubleshooting Chapter 7: Troubleshooting Symptom: The red LED of the sensor unit is lit, indicating an error in the data transmission (see also '5.4.1 Overview of connections and interfaces', page 40). Possible cause(s): System crash Remedy: • Switch off the power supply to the sensor unit and then switch it on again. • Check the connection to the bridge in OMNITREND or by means of the web browser. Symptom: The bridge cannot be contacted (from OMNITREND or via web browser).
69 Troubleshooting CAUTION Risk of injury from electric shock! When carrying out installation, repair or maintenance work on the power supply system of the bridge, there is a risk of injury from electric shock (220 V voltage). »» All work on the power supply system must be carried out by a qualified electrician. »» Disconnect the bridge from the power supply. • If the firmware is damaged, the bridge will reboot after power interruption in the 'Rescue Mode'.
70 Decommissioning and disposal Chapter 8: After use Decommissioning Disconnect the bridge and the externally powered sensor units from the power supply. Remove the batteries from the batterypowered sensor units. PRÜFTECHNIK Condition Monitoring WEEE Reg. No.: DE 72273578 Disposal Dispose of the system components and the spent batteries according to the applicable waste disposal regulations.
71 Index Index Symbole 24 VDC 24 A Accessories 67 Assigning measurement locations 58 B Battery 23 Battery status 65 C Changing battery 66 Cleaning 64 Commissioning bridge 38 Commissioning sensor unit 46 Configuration 29, 54 Connecting bridge 36 Connecting sensor unit 45 Creating measuring configuration 60 D Declaration of conformity 12 Decommissioning 70 Device drivers 29 Disposal 70 E Energy harvester 24 F FCC 13 N Network Cable 36 Network Settings 33 P Power cable 37 Po
Productive maintenance technology PRÜFTECHNIK Condition Monitoring Oskar-Messter-Str. 19-21 85737 Ismaning, Germany www.pruftechnik.com Tel. +49 89 996160 Fax +49 89 99616300 eMail: info@pruftechnik.com Printed in Germany LIT 72.200.05.2014.EN VIBCONNECT ® is a registered trademark of PRÜFTECHNIK AG. Errors and omissions excepted. Subject to technical changes. Reproduction is only permitted with the written consent of PRÜFTECHNIK AG.
PRÜFTECHNIK Condition Monitoring GmbH Oskar-Messter-Str. 19–21 85737 Ismaning, Germany www.pruftechnik.com Phone: +49 89 99616-0 Fax: +49 89 99616-300 E-mail: info@pruftechnik.com www.pruftechnik.