Link Network Gateway User Guide Omni-ID office locations: US UK China India Germany DO002996-01
CONTENTS 1. Introduction... 3 About this Document... 3 Related Products... 3 Regulatory Approvals... 5 Certifications... 5 Federal Communications Commision Interference Statement... 5 Industry Canada Statement... 6 European R&TTE Directive 1999/5/EC Statement... 6 2. The Link Network Gateway... 7 Configurations... 7 Interfaces... 7 Power... 7 I/O Port... 7 USB Host... 8 USB... 8 Ethernet... 8 Radios... 8 433MHz Antenna... 9 RFID Antenna... 9 LED Indicators... 9 Status... 9 Radio Activity... 9 3. Using the Network gateway... 10 Setting the Gateway Address Through the USB Port... 10 Determing the Gateway IP Address Through the Web Server... 10 Using the Gateway with TagLab... 12-1-
4. Specifications... 15 Physical Specifications... 15 Radio Specifications (RM433V2)... 16 Environmental Specifications... 16 5. Customer Support... 17-2-
1. INTRODUCTION ABOUT THIS DOCUMENT This Guide describes the setup and configuration of the Omni-ID Link Network Gateway and documents its characteristics. For instructions on using the Gateway with one of Omni-ID s various software offerings, please refer to the documentation provided with the specific application. RELATED PRODUCTS Link Mobile Gateway As part of Omni-ID s ProVIEW and Asset Track system offerings, the Link Mobile Gateway provides a reliable, portable solution for communicating with Omni-ID s families of Power and View tags. Whether using the simplicity of the USB interface or the wireless convenience of Bluetooth, the Mobile Gateway can get you up and running quickly and easily. View 3 and View 4 As part of Omni-ID s ProVIEW System Solution, the View 3 and View 4 tags provide an electronic, reusable option to replace paper labels in cyclic applications. Featuring electrophoretic displays, a rugged form factor and advanced RF tracking capabilities, these provide an ideal solution for durable, repetitive labeling in manufacturing and logistics applications. Power 400/415 The Omni-ID Power 400 and 415, operating at 433 MHz and 900 MHz, are rugged active tags capable of tremendous performance while tracking assets in harsh environments. Overmolded for maximum durability and providing flexible mounting options, these Power tags include enough battery capacity for at least 5 years of duty in most applications. Radio communications penetrate snow/moisture and provide exceptional distance. -3-
Power 60/65 The Power 60 and Power 65 are active tags designed for tracking personnel and their interactions with tagged assets. Made to be clipped to clothing or worn around the neck on a lanyard, the Power 60 and 65 are ideal for applications requiring real-time information about workers. Power 100/115 The Power 100 and Power 115 are industrial active tags capable of tremendous performance while tracking for indoor applications. Constructed of high impact PC/ABS blend including flexible mounting options, the durability of the Power 100 and 115 includes enough battery capacity for 4 years of duty in most applications. Omni-Directional Antenna The Link Omni-Directional Antenna is the ideal choice for communicating with Omni-ID s line of Visual and Power tags. Being horizontally polarized, it is less susceptible to manmade noise and able to take advantage of ground reflection gain which vertical antennas are unable to access. -4-
REGULATORY APPROVALS CERTIFICATIONS Standard EN55024:2010 Product Family Standard Immunity EN55022:2010 & FCC Part 15 Product Family Standard Emissions EN55022:2010 & FCC Part 15 EN61000-4-2:2009 Basic test standard EN61000-4-3:2006+A2:2010 Basic test standard CAN/CSA- CISPR 22-10/ICES-003 Issue 5 VCCI V3/2012.04 or VCCI- 3/2013.04 CNS:13438:2006 Table 1 - Certifications Description Information Technology Equipment- Immunity Characteristics-Limits and Methods of Measurement Information Technology Equipment- Radio Disturbances Characteristics-Limits and Methods of Measurement Radiated Emissions Electrostatic Discharge Immunity Radiated Electromagnetic Field Immunity Radiated Emissions Radiated Emissions Radiated Emissions FEDERAL COMMUNICATIONS COMMISION INTERFERENCE STATEMENT This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures: - Reorient or relocate the receiving antenna. - Increase the separation between the equipment and receiver. - Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. - Consult the dealer or an experienced radio/tv technician for help. -5-
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. FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. INDUSTRY CANADA STATEMENT This device complies with Industry Canada licenseexempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le présent appareil est conforme aux CNR d'industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropic radiated power (e.i.r.p.) is not more than that permitted for successful communication. EUROPEAN R&TTE DIRECTIVE 1999/5/EC STATEMENT The radio module enclosed in this product is compliant with ETSI EN 300 328 V1.7.1 (2006-10), EMC, EN 301 489-17 v2.1.1 (2009-02) and the Basic Safety Assessment (BSA) EN 60950-1:2006 (2006-06) and is subject to a Notified Body Opinion. The modules are approved for use with the antennas listed in the following table. Table 2 - Approved antennas Brand Model Number Description Gain (dbi) COMTELCO BS450S-B Vertical Base Station Antenna 4.65 COMTELCO Y2243-B YAGI ANTENNA 9.15 Antenna Factor ANT-433-CW-RH Helical Whip Antenna -5.6 Antenna Factor ANT-433-MHW-SMA Dipole Antenna 1.2 Omni-ID, Inc. CP10636 Horizontal Polarized Dipole Antenna 2.15-6-
2. THE LINK NETWORK GATEWAY CONFIGURATIONS All Network gateways include two radio modules operating at 433 MHz for communication with Omni-ID s View and Power Tag families. Additionally, a Gateway can be configured from the factory with an optional RFID reader module capable of reading any EPC Gen 2 compliant tag as well as the RFID component of the View and Power tags. This enables the device to become the center of all tag communication with one simple interface and without the cost of additional equipment. The specific products available are detailed in Table 3 below. Table 3 Product Configurations Part Number Order Code Description CP12035 OMNI-NGW-2 Link Network Gateway, (2) 433 MHz Radio Modules CP12042 OMNI-NGW-RF-US Link Network Gateway, (2) 433 MHz Radio Modules, (1) RFID Reader, FCC band CP12043 OMIN-NGW-RF-EU Link Network Gateway, (2) 433 MHz Radio Modules, (1) RFID Reader, ETSI band INTERFACES Figure 1 - Interface connectors POWER The system can operate from any combination of PoE (Power over Ethernet) or DC inputs, and will switch transparently between them. The DC power input utilizes a 2.5 mm, center pin jack (CUI PJ-066B) which allows for a barrel style connector for quick attachment or an optional locking ring for more secure connection. Mating connector: 2.5 mm ID, 9.5 mm long barrel plug, center positive Locking ring thread size: 5/16-32 UNEF 2B (e.g. Switchcraft 760K, 765K or equivalent) The DC supply should be a limited energy source operating at 24V / 0.5A, such as SL Power Electronics model TE10A2403B01. I/O PORT The Gateway provides two general purpose inputs and one output, implemented with a TE 796866-6 connector. The pin assignments are described on the case labeling. Appropriate mating connectors are: Right angle TE 796859-6 Vertical, left TE 796861-6 Vertical, right TE 796863-6 -7-
Input Two optically isolated inputs 24V nominal, 50V maximum (protected from reverse connection) Input impedance: 5.2K Minimum on voltage: 19V @ 4.4mA Maximum off voltage: TBD Response time: o o Low to High transition: 40 sec High to Low transition: 400 sec Figure 2 - Input circuit diagram Output One output, normally open Contacts rated to 2A, 24VDC Rated for 10 million operations Relay coil: 178 Ohm, 140mW nominal operating power Relay coil current consumption at 24VDC input: 7mA USB HOST This port is reserved for future expansion. USB The USB port is provided for configuring the network settings on the Gateway. Refer to Chapter 3 for details of this interface. ETHERNET The Gateway supports 100BaseT ethernet communication using a standard RJ45 jack. This connector includes integrated Link and Activity status LED s. The Gateway can be powered through this connection using an IEEE 802.3af compliant PoE source (44-57VDC). The Gateway supports both IPv4 and IPv6 addressing. RADIOS Figure 3 - Antenna connectors, standard product -8-
Figure 4 - Antenna connectors, RFID equipped product 433MHZ ANTENNA Each Gateway is equipped with two 433 MHz radio modules, labeled A and B as shown in Figure 4 above. These utilize standard SNA connectors. RFID ANTENNA For units so equipped, there will be a connector for the embedded RFID reader in the center of the panel as shown in figure 4. LED INDICATORS STATUS The System Status LED is located immediately to the left of the power connector (refer to Figure 1). This multi-colored indicator will reflect the overall status of the Gateway as follows: Color Red Blue Green Red/Green Function Solid or flashing indicates an error condition. However, a momentary period of solid red immediately on power up is normal. Flashes at a 50% duty cycle when system is booting up. Blinks in a "heartbeat" pattern when shutting down or restarting. Flashes when system is running. Flashes alternately red and green during firmware upgrade. RADIO ACTIVITY Immediately adjacent to each antenna port is a bi-color LED which indicates the RF activity on that channel: Color Red Green Function Flashes when a message is transmitted on the 433 MHz radio Flashes when a message is received on the 433 MHz radio -9-
3. USING THE NETWORK GATEWAY SETTING THE GATEWAY ADDRESS THROUGH THE USB PORT The first step in using the device is to determine the Gateway s IP address. This could be a static address that you have assigned or a dynamic one assigned by a DHCP server. Obtaining or setting this address requires connecting to the Gateway through its USB port (refer to Figure 1 - Interface connectors). The simplest way is to use a terminal emulation program such as PuTTY (available for free download at http://sourceforge.net/projects/puttymanager). Configure the terminal to communicate at a baud rate of 115200 with 8 data bits, 1 stop bit and no parity. When you receive the login prompt, use customer as both the username and password. The Gateway will then display the network settings as the example below shows: From this menu you can configure the IP address for the Gateway by choosing C to configure and then I for IP address. You may then choose DHCP (the factory default) or static if you wish to assign an address. Make note of the address and restart the Gateway if prompted. DETERMING THE GATEWAY IP ADDRESS THROUGH THE WEB SERVER In addition to the USB access described above, configuration information about the Gateway can be obtained using its builtin web server. Simply point any web browser to the Gateway s hostname and a status page will be displayed. The unit s default hostname is link-xx-xx-xx where the xx s are replaced by the last three bytes of the device s MAC address. For example, if the MAC address of a unit is 9C-61-1D-00-00-02, the hostname would be link-00-00-02. Entering link-00-00- 02.local into the browser s address field will result in the following page being displayed: -10-
Clicking on the Network tab, would then display the details of the unit s IP addressing, both for IPv4 and IPv6 network configurations. -11-
USING THE GATEWAY WITH TAGLAB TagLab is a development tool which is provide with the ProVIEW Starter Kits, allowing for simple communication with the Power and View tag families. It provides a quick means for testing and evaluating Omni-ID equipment in a specific environment for system development is complete. To connect to the Gateway in the TagLab application, select File New Network Gateway. The following screen will be shown: Enter the address of the Gateway in the Gateway IP Addr field. The Gateway IP Service Port will default to 80. Leave this value. When you press the Ping button, the application will check to see if there is a device on the network at that address and then ascertain whether or not the device is an Omni-ID Gateway. When successful, you will see a message like this: -12-
Now that you ve told TagLab the address of the Gateway, you need to configure the Gateway to send data to the PC on which TagLab is running. This is done by pressing the Auto-Config Gateway Addr button. When successful, the display should look like the following: Click OK and the On Screen Detailed View will be displayed (see the upcoming section on TagLab Views for a description). At the bottom of the screen you should see the address of your Gateway and its status. Both status lights should be green. If your Gateway is not connected, or is connected but receives no pings or tag reads, you need to ensure that there is no firewall preventing communication. To easily do this, go to the Tools Configure Network Gateway menu. You will be shown the address and port that the Gateway should be using (these were already set in the Gateway in the previous step) as well as more Gateway configuration information. Click on the Check Firewall button at the bottom of this window. If there is no issue with the firewall, the returned status will state that the firewall is open: If there is a firewall in the way, you will be given the opportunity to open the firewall for the Service Endpoint Port: -13-
After opening the port, you will need to restart TagLab in order for the changes to take effect. Note: TagLab is only able to detect and open Windows Firewall. If a third-party firewall is installed on your system, please refer to its documentation for disabling or opening ports. For a complete description of the features of TagLab, please refer to the ProVIEW Starter Kit User Guide available as part of the View Starter Kit and the Power Starter Kit. -14-
4. SPECIFICATIONS PHYSICAL SPECIFICATIONS Material Galvanized cold-rolled steel Size (mm) 231 x 131 x 29 Size (in) 9.09 x 5.17 x 1.15 Weight (g) 868 Weight (oz) 31 (1 lb 15 oz) -15-
RADIO SPECIFICATIONS (RM433V2) The Link Network Gateway incorporates Omni-ID s RM433V2 433 MHz radio module. Its characteristics are described in the following table: Typical RF Characteristics Notes Rx Sensitivity -100 dbm Nominal for.1% BER Tx Power +5dBm 433.164 434.784 MHz Max. Input Signal 10 dbm RSSI Range -100 to -10 dbm RF Port Impedance 50 ohms 433.164 434.784 MHz VSWR (max) 2:1 433.164 434.784 MHz ENVIRONMENTAL SPECIFICATIONS Operating Temperature -20C to +60C Ingress Protection IP50 Warranty 1 year -16-
5. CUSTOMER SUPPORT Information about Omni-ID s complete line of RFID products can be found on our website: www.omni-id.com. Additional support is available by phone: +1 (585) 713-1000 or email: support@omni-id.com. The contents of this document are subject to change without notice. OMNI-ID, inc. reserves the right to make changes, without notice, in the products, including circuits and/or software, described or contained therein. Information contained in this document regarding device applications and the like is intended through suggestion only and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications. 102017-17-