HMS Anybus Wireless Bolt IoT Startup Manual

Advertisement

Quick Links

®
Anybus
Wireless Bolt
IoT
STARTUP GUIDE
SP2727 1.1 en-US ENGLISH

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the Anybus Wireless Bolt IoT and is the answer not in the manual?

Questions and answers

Summary of Contents for HMS Anybus Wireless Bolt IoT

  • Page 1 ® ™ Anybus Wireless Bolt STARTUP GUIDE SP2727 1.1 en-US ENGLISH...
  • Page 2: Important User Information

    HMS Industrial Networks reserves the right to modify its products in line with its policy of continuous product development. The information in this document shall therefore not be construed as a commitment on the part of HMS Industrial Networks and is subject to change without notice.
  • Page 3: About This Document

    Preface 3 (20) Preface About This Document This manual describes how to install and configure Anybus Wireless Bolt IoT. For additional documentation and software downloads, FAQs, troubleshooting guides and technical support, please visit www.anybus.com/support. ® ™ SP2727 1.1 en-US Anybus...
  • Page 4: Document Conventions

    Additional information which may facilitate installation and/or operation. Trademarks ® Anybus is a registered trademark of HMS Industrial Networks. All other trademarks mentioned in this document are the property of their respective holders. ® ™...
  • Page 5: General Safety Instructions

    Safety 5 (20) Safety General Safety Instructions Caution This equipment emits RF energy in the ISM (Industrial, Scientific, Medical) band. Make sure that all medical devices used in proximity to this equipment meet appropriate susceptibility specifications for this type of RF energy.
  • Page 6: Installation

    Installation 6 (20) Installation Installing SIM Card Supported SIM card types are Nano SIM for IoT and M2M, for data communication, as well as standard mobile phone Nano SIM. Fig. 1 To connect Wireless Bolt IoT to a cellular data network, install a cellular SIM card: Insert a SIM card into the Wireless Bolt IoT SIM card holder.
  • Page 7: Mechanical Installation

    Installation 7 (20) Mechanical Installation Placement • The device 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. • The top mounting surface, in contact with the sealing, must be flat with a finish equivalent to Ra 3.2 or finer and cleaned and free from oils and greases.
  • Page 8 Installation 8 (20) Tightening torque: 5 Nm ±10 % Fig. 2 Installation drawing All measurements are in mm. ® ™ SP2727 1.1 en-US Anybus Wireless Bolt IoT Startup Guide...
  • Page 9 Installation 9 (20) Connecting to Ethernet/Power Over Ethernet (PoE) Before You Begin Shielded or unshielded Ethernet cables may be used. Wireless Bolt IoT is designed to comply with PoE class 0 (37-57 VDC, max 0.35 A), according to IEEE 802.3. Procedure Fig.
  • Page 10 Installation 10 (20) Ethernet Connector, RJ45 PoE Data Positive power from alt. A PSE Negative power from alt. A PSE (with pin 6) Positive power from alt. B PSE Negative power from alt. A PSE (with pin 3) Negative power from alt. B PSE Functional Earth (FE), via 1 nF capacitor and 1 MΩ...
  • Page 11: Connecting To Power

    Installation 11 (20) Connecting to Power Before You Begin Connecting power with reverse polarity or using the wrong type of power supply may damage the equipment. Make sure that the power supply is connected correctly and of the recommended type. When Wireless Bolt IoT is powered via the power connector, Functional Earth (FE) must be connected.
  • Page 12 Installation 12 (20) Procedure Fig. 5 Connect Wireless Bolt IoT Power connector to a power supply. Connect Wireless Bolt IoT Power connector to Functional Earth (FE). Power connector, 3-pin terminal block Function 11–33 VDC Functional Earth (FE) ® ™ SP2727 1.1 en-US Anybus Wireless Bolt IoT Startup Guide...
  • Page 13 Configuration 13 (20) Configuration Wireless Bolt IoT Built-In Web Interface Fig. 6 Example, Wireless Bolt IoT built-in web interface The Wireless Bolt IoT built-in web interface is used to configure the Wireless Bolt IoT system settings. The System Overview page shows the current settings and network connection status.
  • Page 14 Configuration 14 (20) Procedure Fig. 7 Connecting Wireless Bolt IoT to internet: Insert a cellular SIM card in the Wireless Bolt IoT SIM card holder. Ensure that the SIM card contact surface is facing towards the Ethernet port. Connect the Wireless Bolt IoT Ethernet port to your PC. Connect the Wireless Bolt IoT Power connector to a power supply.
  • Page 15 Configuration 15 (20) Result Wireless Bolt IoT should now be connected to internet. Depending on the mobile network operator and network type, it can take up to 10 minutes the first time Wireless Bolt IoT is connecting to internet. Verify that Wireless Bolt IoT is connected to internet, by sending a ping to Google Public DNS.
  • Page 16 Configuration 16 (20) Connecting Devices Fig. 9 Connecting a device to internet: Connect an Ethernet cable between Wireless Bolt IoT and the device. Verify that the device is connected to internet. ® ™ SP2727 1.1 en-US Anybus Wireless Bolt IoT Startup Guide...
  • Page 17: Technical Data

    Technical Data 17 (20) Technical Data Technical Specifications AWB1000 AWB1001 Order code Color Black White top and black base Operating temperature Shadow: -40 to +65 °C Shadow: -40 to +65 °C Direct sunlight: -40 to +45 Direct sunlight: -40 to +65 °C °C Host interface...
  • Page 18 Technical Data 18 (20) AWB1000 AWB1001 Order code Frequency Bands: B1, B2, B3, B4, B5, B8, B12, B13, B17, B18, B19, B20, B26, B28 2G: EDGE, GPRS bands 850, 900, 1800, 1900 Maximum Data speeds Cat-M1: Download 300 kbps, Upload 375 kbps NB-IoT: Download 27 kbps, Upload 65 kbps GPRS/EDGE Download: 200 kbps, Upload: 200 kbps.
  • Page 19 This page intentionally left blank...
  • Page 20 © 2020 HMS Industrial Networks Box 4126 300 04 Halmstad, Sweden info@hms.se SP2727 1.1 en-US / 2020-04-23 / 18198...

Table of Contents