Anybus® Wireless Bolt™ STARTUP GUIDE SCM-1202-006/SP2139 2.
Important User Information Liability Every care has been taken in the preparation of this document. Please inform HMS Industrial Networks AB of any inaccuracies or omissions. The data and illustrations found in this document are not binding. We, HMS Industrial Networks AB, reserve the right to modify our products in line with our policy of continuous product development.
About This Document 1 3 (16) About This Document This document describes how to install Anybus Wireless Bolt and set up a basic configuration. For additional documentation and technical support, please visit the Anybus support website www.anybus.com/support. Trademark Information Anybus® is a registered trademark and Wireless Bolt™ is a trademark of HMS Industrial Networks AB. All other trademarks mentioned in this document are the property of their respective holders.
Installation 3 4 (16) Installation Caution This equipment emits RF energy in the ISM (Industrial, Scientific, Medical) band. Make sure that all medical devices used in proximity to this device meet appropriate susceptibility specifications for this type of RF energy. This product contains parts that can be damaged by electrostatic discharge (ESD). Use ESD protective measures to avoid equipment damage.
Installation 5 (16) Mechanical Installation Anybus Wireless Bolt is intended to be mounted on top of a machine or cabinet through an M50 (50.5 mm) hole using the included sealing ring and nut. Tightening torque: 5 Nm ±10 % Make sure that the sealing ring is correctly placed in the circular groove in the top part of the housing before tightening the nut. All measurements are in mm. Anybus® Wireless Bolt™ Startup Guide SCM-1202-006/SP2139 2.
Installation 6 (16) Connector Pinning Note the location of the RESET button when the connector is attached to the Wireless Bolt. Pin 1 will be the pin closest to the button.
Installation 7 (16) Cabling To make an Ethernet connector cable for the Anybus Wireless Bolt: 1. Cut off one of the connectors on a standard Cat5e or Cat6 Ethernet cable. 2. Strip off about 40 mm (1½ inch) of the cable jacket and untwist the orange, orange/white, green and green/white wires. The other wires will not be used. 3. Strip off about 7 mm (¼ inch) of the isolation on each wire. 4.
Configuration 4 8 (16) Configuration Anybus Wireless Bolt can be configured via the web interface or using one of the pre-configured Easy Config modes. Advanced configuration can be carried out by issuing AT (modem) commands through the web interface or over a Telnet or RAW TCP connection to port 8080. A list the of supported AT commands is included in the web interface. 4.1 Web Interface The web interface is accessed by pointing your web browser to the IP address of the Wireless Bolt.
Configuration 4.2 9 (16) Easy Config Modes The following Easy Config Modes can be set from the web interface.
Configuration 4.3 10 (16) Factory Restore The unit can be restored to the factory default settings using any of the following methods: ► Press and hold the RESET button for >10 seconds and then release it ► Execute Easy Config Mode 2 ► Click on Factory Restore on the System Settings page ► Issue the AT command AT&F and reboot Default Network Settings IP Assignment Static IP Address Subnet Mask Default Gateway 192.168.0.99 255.255.255.0 192.168.0.
Configuration 4.4 11 (16) RESET The RESET button is located on the bottom of the unit next to the connector. ► Press and hold the button for >10 seconds and then release it to reset to the factory default settings (when the unit is powered on). ► Press and hold the button during startup to enter Recovery Mode. Recovery Mode If the web interface cannot be accessed, the unit may be reset by starting in Recovery Mode and reinstalling the firmware using Anybus Firmware Manager II.
Configuration 4.5 12 (16) Configuration Examples Settings not mentioned here should be left at their default values. EXAMPLE 1: Setting up a network bridge with Easy Config This example describes how to connect two Ethernet network segments over WLAN or Bluetooth using two Wireless Bolts. 1. On Wireless Bolt 1, execute Easy Config Mode 4. This unit will now be discoverable and open for automatic configuration. 2. On Wireless Bolt 2, execute Easy Config Mode 5 for WLAN or 6 for Bluetooth.
Configuration 13 (16) EXAMPLE 2: Accessing a PLC from a handheld device over WLAN This example describes how to access the web interface of a PLC from a handheld device such as a tablet or smartphone using WLAN. A: PLC or network has an active DHCP server 1. In Network Settings, select IP Assignment: Dynamic (DHCP), then skip to step 3 below. B: PLC has a static IP address, no DHCP server on the network 1.
Technical Data 14 (16) 5 Technical Data 5.1 Technical Specifications Order code Wired Interface type AWB2000 Ethernet Wireless antenna Maximum range Internal 100 m (WLAN and Bluetooth) Communication See Anybus Wireless Bolt Datasheet Dimensions Height: 70 mm (95 mm incl.
Technical Data 5.2 15 (16) Internal Antenna Characteristics The following radiation diagrams show the characteristics of the internal antenna under laboratory test conditions. The diagrams are intended to be used as a general guide for finding the optimal placement and orientation of the unit. 2.4 GHz antenna gain and directivity in horizontal and vertical planes Anybus® Wireless Bolt™ Startup Guide SCM-1202-006/SP2139 2.
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