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1 | Users Manual Part 1 | Users Manual | 214.54 KiB |
STAR 3000 Installation Manual MOJIX STAR 3000 SYSTEM 000 SYSTEM INSTALLATION MANUAL MANUAL RELEASE 2.0 Mojix Incorporated www.mojix.com
(877) 886-6549 Page 1 of 36 Confidential and Proprietary STAR 3000 Installation Manual CONTENTS Contents ........................................................................................................................................................ 2 Figures .......................................................................................................................................................... 3 Tables ............................................................................................................................................................ 4 Revision Control ............................................................................................................................................ 5 Legal Notices ................................................................................................................................................ 6 System Components ..................................................................................................................................... 7 Mojix eNodes: Distributed Transmitters .................................................................................................... 7 STAR Receiver: Centralized Read and Control point ............................................................................... 7 Master Controller ....................................................................................................................................... 7 STAR: Physical Interfaces ......................................................................................................................... 8 Cabled System Topology .......................................................................................................................... 8 System Components ..................................................................................................................................... 9 Wireless STAR System Topology ........................................................................................................... 10 STAR Receiver Installation ......................................................................................................................... 11 STAR Receiver Installation...................................................................................................................... 11 STAR power supply installation .................................................................................................................. 13 eNode Installation ....................................................................................................................................... 15 eNode Specifications ............................................................................................................................... 15 eMux Installation ......................................................................................................................................... 17 About Insertion Loss ................................................................................................................................ 17 eMux Specifications ................................................................................................................................. 18 eXpander Installation .................................................................................................................................. 20 GPIO Installation ......................................................................................................................................... 21 GPIO Cabling .......................................................................................................................................... 23 Master Controller Installation ...................................................................................................................... 25 Redundancy Summary ............................................................................................................................ 27 System Network Setup ................................................................................................................................ 29 Connecting to the MCON ............................................................................................................................ 29 Changing MCON Network Settings ............................................................................................................ 29 Changing STAR Network Settings .............................................................................................................. 30 MCON Configuration ................................................................................................................................... 33 Appendix A: FCC Notice, STAR 3000 And eNode ..................................................................................... 34 Appendix B: FCC Notice, eMux .................................................................................................................. 35 Mojix Incorporated www.mojix.com
(877) 886-6549 Page 2 of 36 Confidential and Proprietary STAR 3000 Installation Manual FIGURES Figure 1: STAR Physical Interfaces .............................................................................................................. 8 Figure 2: STAR System Topology ................................................................................................................ 9 Figure 3: Wireless STAR System Topology ................................................................................................ 10 Figure 4: STAR 3000 VESA Interface Mount Bracket ................................................................................ 11 Figure 5: VESA Interface Mount Bracket Side View ................................................................................... 12 Figure 6: VESA Interface Mount Bracket Rear View .................................................................................. 12 Figure 7: VESA Interface Mount Bracket End Profile View ........................................................................ 12 Figure 8: STAR Power Supply .................................................................................................................... 13 Figure 9: eNode Interfaces.......................................................................................................................... 15 Figure 10: Example Cabling Diagram for eNodes and eMuxes.................................................................. 17 Figure 11: eMux Interfaces ......................................................................................................................... 18 Figure 12: eXpander Interfaces .................................................................................................................. 20 Figure 13: GPIO Unit with RS-485 Cable ................................................................................................... 21 Figure 14: GPIO Unit Terminal Blocks ........................................................................................................ 22 Figure 15: GPIO Unit Jumper Blocks .......................................................................................................... 22 Figure 16: GPIO / eNode Physical Interface ............................................................................................... 23 Figure 17: GPIO Input Terminal Wiring ....................................................................................................... 24 Figure 18: MCON Architecture .................................................................................................................... 25 Figure 19: Front Panel of Dell PowerEdge Server ...................................................................................... 27 Figure 20: Redundant Power Supplies ....................................................................................................... 28 Figure 21: Identification of Network Interfaces............................................................................................ 28 Figure 22: MCON Network Configuration ................................................................................................... 30 Figure 23: STAR Web UI Network Setup .................................................................................................... 31 Figure 24: STAR Web UI Network Configuration Page .............................................................................. 32 Mojix Incorporated www.mojix.com
(877) 886-6549 Page 3 of 36 Confidential and Proprietary STAR 3000 Installation Manual TABLES Table 1: eNode Connector Specification .................................................................................................... 16 Table 2: eNode Operating Specification ..................................................................................................... 16 Table 3: eMux Connector Specification ...................................................................................................... 18 Table 4: eMux Operating Specification ....................................................................................................... 19 Table 5: eXpander Operating Specification ................................................................................................ 20 Table 6: GPIO Operating Specification ....................................................................................................... 21 Table 7: GPIO Input Terminal Block ........................................................................................................... 24 Table 8: MCON Desktop Server Specification ............................................................................................ 26 Table 9: MCON Enterprise Class Server Specification .............................................................................. 26 Table 10: MCON Virtual Machine Specification Desktop Class .............................................................. 27 Table 11: MCON Virtual Machine Specification Enterprise Class ........................................................... 27 Mojix Incorporated www.mojix.com
(877) 886-6549 Page 4 of 36 Confidential and Proprietary STAR 3000 Installation Manual REVISION CONTROL Revision Date Author: Description 2.2.X-1.0.0 07/25/2011 Paul Barriga: Initial 2.2.X-1.0.1 08/23/2011 Paul Barriga: Added network setup 2.2.X-1.0.2 08/23/2011 Paul Barriga: Updated STAR power supply and bracket details 2.2.X-1.0.3 02/29/2012 Paul Barriga: Update FCC Statement on Page 43 2.2.X-1.0.4 03/06/2012 Paul Barriga: Added FCC Statement on Page 44 2.2.X-1.0.5 04/18/2012 Paul Barriga: Corrected zone coordinates descriptions 2.2.X-1.0.6 05/10/2012 Paul Barriga: Updated FCC Statement on Page 43 2.0.0 2.0.1 10/29/2012 Paul Barriga: Updated eNode, eMux, eXpander, GPIO; removed Web UI 11/05/2012 Paul Barriga: Minor corrections Mojix Incorporated www.mojix.com
(877) 886-6549 Page 5 of 36 Confidential and Proprietary STAR 3000 Installation Manual LEGAL NOTICES Copyright 2012 Mojix, Inc. All Rights Reserved. All content contained within this document, including text, graphics, logos, icons, images, and other materials, is the exclusive property of Mojix or its content suppliers and is protected by U.S. and international copyright laws. The compilation (meaning the collection, arrangement, and assembly) of all content within this document is the exclusive property of Mojix and is also protected by U.S. and international copyright laws. The content within this document may be used as a resource. Any other use, including the reproduction, modification, distribution, transmission, republication, display, or performance, of the content on this website is strictly prohibited. Mojix, Mojix STAR, Mojix eNode, Mojix eGroup, and the Mojix logo are trademarks or registered trademarks of Mojix. All other trademarks mentioned in this document are the property of their respective owners. The trademarks and logos contained in this document may not be used without the prior written consent of Mojix or their respective owners. Portions, features and/or functionality of Mojix's products are protected under Mojix patents, as well as patents pending. This User Manual is provided as a reference for persons who are properly trained and qualified to install and/or operate Mojixs RFID products. Whereas Mojix makes every effort to ensure the accuracy and currency of its technical documentation, Mojix cannot be responsible for errors that occur in this User Manual or for changes to Mojixs products that might render information in this Manual obsolete. For information regarding Mojix technical training, visit Mojixs website (www.Mojix.com) or contact Mojix at service@mojix.com. Improper handling or use of RF equipment can result in damage to property or injury to personnel. FCC Compliance This equipment has been tested and found to comply with the limits for Class A digital device, pursuant to Part 15 of the FCC Rules. Any change or modification to this product voids the users authority to operate per FCC Part 15 Subpart A. Section 15.21 regulations. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 6 of 36 Confidential and Proprietary STAR 3000 Installation Manual SYSTEM COMPONENTS The Mojix STAR system is a single network element at the enterprise edge. Based on Mojix's innovative distributed architecture, a single system consists of one or more STAR units managing up to 512 low-cost Mojix eNode transmitters. Mojix eNodes provide energy to all passive RFID tags within their specified interrogation spaces, while the centralized, high-sensitivity Mojix STAR reads the resulting tag signals from across the system's potentially vast coverage area of more than 250,000 sq. feet (24,000 sq. meters). Mojix eNodes: Distributed Transmitters Mojix eNodes are reliable, autonomously operated RF repeaters designed to excite all EPC UHF Gen2 RFID tags within their designated interrogation spaces. Although excite ranges are dependent on tag sensitivity, they can range to over 100 feet. Each eNode antenna excites all passive RFID tags within its designated interrogation space and includes form factors to accommodate both fixed and mobile infrastructures. eNodes can be deployed as needed to shape discrete, overlapping or contiguous interrogation spaces, including configurations to create virtual fences for securing tagged items. STAR Receiver: Centralized Read and Control point The STAR Receiver functions as a single point of data collection, provisioning, control, and integration with enterprise systems. With the ability to detect extremely faint signals and the freedom from conventional RFIDs line of sight restrictions, the STAR receiver works in concert with its satellite eNodes to support one or many business processes across the entire coverage area. The STAR Receiver contains a 1 x 4 array assembly, and digital and RF processing assemblies. The STAR Receiver utilizes classical, fully active, phased array antennas for enabling the visibility into the space dimension. The smart array approach adopted by Mojix is based fully on digital processing techniques, thereby providing very high resolution for estimation of direction of arrival of the signal of interest (SOI), enabling the system to provide accurate location information on the tag position. Master Controller The STAR signal processing platform is linked to an edge appliance called a Master Controller (MCON), and communicates via a standard wired Ethernet interface. The MCON can drive an arbitrary number of STAR systems and includes interfaces to the enterprise middleware. In a larger enterprise deployment, multiple STAR domains exist in various locations and can require one or more Master Controllers in a clustered configuration. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 7 of 36 Confidential and Proprietary
1 | Users Manual Part 2 | Users Manual | 5.38 MiB |
STAR 3000 Installation Manual STAR: Physical Interfaces The following figure illustrates the STARs physical interfaces. illustrates the STARs physical interfaces. 1. 1 TX Output TNC: Transmit RF Signal, 24 Volts DC, Forward Command Signal Transmit RF Signal, 24 Volts DC, Forward Command Signal Figure 1: STAR Physical Interfaces Figure 2. 2 TX Output TNC for Wireless eNode Network for Wireless eNode Network: Up to two wireless forward command antenna(s) Up to two wireless forward command antenna(s) 3. 4 RX Input TNC from Antenna(s) 4 RX Input TNC from Antenna(s): Inputs from receive antenna array OR individual receive antenna(s) Inputs from receive antenna array OR individual receive antenna(s) 4. 1 RX Input TNC Sync: Input synchronization signal from master STAR (for multiple Input synchronization signal from master STAR (for multiple simultaneous Input synchronization signal from master STAR (for multiple receiving) 5. 1 TX Output TNC Sync: Output synchronization signal to another STAR Output synchronization signal to another STAR 6. 2 Ethernet Interfaces: Control from MCON Control from MCON, Status Monitoring and Tag Read Packets Tag Read Packets 7. 2 USB Interfaces (future use) 8. 1 DC Power Connector Cabled System Topology Error! Reference source not found. items are as follows:
ource not found. illustrates the components of the STAR system topology system topology. These Mojix Incorporated www.mojix.com
(877) 886-6549 Page 8 of 36 Confidential and Proprietary
1 | Users Manual Part 3 | Users Manual | 382.53 KiB |
STAR 3000 Installation Manual Figure 2: STAR System Topology SYSTEM COMPONENTS 1. STAR 2. eMux: splitter and amplifier for the RF signal 3. eNode: controls up to 4 antennas to excite tags 4. Master Controller (MCON): application appliance 5. Optional Sensor network to detect activity in specific areas Mojix Incorporated www.mojix.com
(877) 886-6549 Page 9 of 36 Confidential and Proprietary STAR 3000 Installation Manual Wireless STAR System Topology Figure 3 illustrates Wireless STAR system topology, showing:
1. STAR and power supply, including the command link antenna 2. Wireless 4-port eNode, including the command link antenna 3. Sensor port 4. eNode transmit antennas 5. MCON Command Link Transmit Only Antenna Wireless TAR Reader LAN line LAN Command Link Receive Only Antenna External Power Supply Sen sors Transmit Antenna Power Supply Wireless 4 Port eNode Coaxial Cable Master Controller Figure 3: Wireless STAR System Topology Tag Mojix Incorporated www.mojix.com
(877) 886-6549 Page 10 of 36 Confidential and Proprietary STAR 3000 Installation Manual STAR RECEIVER INSTALLATION INSTALLATION STAR Receiver Installation is mechanically designed for post or wall mounting. Figure 4 illustrates the rear mounting rear mounting The STAR is mechanically designed for post bracket. This bracket is designed to be used with any standard VESA mounting bracket. bracket. This bracket is designed to be used with any standard VESA mounting bracket. bracket. This bracket is designed to be used with any standard VESA mounting bracket. As shown in the figure, the mounting bracket is installed directly on the STAR bracket is installed directly on the STAR Receiver back plate. Installation instructions:
1. Product installation shall be conducted by a qualified installer. shall be conducted by a qualified installer. The appropriate local engineer or The appropriate local engineer or architect shall be consulted to ensure the wall and/or pole mount is capable of safely architect shall be consulted to ensure the wall and/or pole mount is capable of safely architect shall be consulted to ensure the wall and/or pole mount is capable of safely supporting up to 4 times the weight of the product. 4 times the weight of the product. 2. Should the customer elect to mount the STAR Should the customer elect to mount the STAR to a flat surface (e.g. wall), holes are provided in the to a flat surface (e.g. wall), holes are provided in the main mounting bracket to accommodate a family of hardware bracket to accommodate a family of hardware (customer supplied). 3. When mounting STAR unit to a flat surface, a minimum of 4 fasteners are unit to a flat surface, a minimum of 4 fasteners are required, though the exact
, though the exact type is a function of the wall material and construction. type is a function of the wall material and construction. Best industry practice is recommended. Best industry practice is recommended.
: toggle bolts or Molly bolts would be the first choice on hollow walls. a. For example: toggle bolts or Molly bolts would be the first choice on hollow walls.
: toggle bolts or Molly bolts would be the first choice on hollow walls. Lead lag shields would be recommended on solid (cast) concrete or brick. Nails are not shields would be recommended on solid (cast) concrete or brick. Nails are not recommended, but could be used only if the wood material of the wall was at recommended, but could be used only if the wood material of the wall was at recommended, but could be used only if the wood material of the wall was at least 1.5" thick. 4. The STAR Receiver is first secured to the main bracket using the secured to the main bracket using the provided hardware. provided hardware. A standard VESA bracket designed to hold 4 times the weight of the STAR unit should separately be mounted to VESA bracket designed to hold 4 times the weight of the STAR unit should separately be mounted to VESA bracket designed to hold 4 times the weight of the STAR unit should separately be mounted to either a mast or a flat surface. The last step is to attach the STAR bracket to the VESA bracket. or a flat surface. The last step is to attach the STAR bracket to the VESA bracket. or a flat surface. The last step is to attach the STAR bracket to the VESA bracket. Figure 4:
STAR 3000 VESA Interface Mount Bracket Mojix Incorporated www.mojix.com
(877) 886-6549 Page 11 of 36 Confidential and Proprietary STAR 3000 Installation Manual Figure 5: VESA
: VESA Interface Mount Bracket Side View Figure 6: VESA
: VESA Interface Mount Bracket Rear View Figure 7: VESA
: VESA Interface Mount Bracket End Profile View Mojix Incorporated www.mojix.com
(877) 886-6549 Page 12 of 36 Confidential and Proprietary
1 | Users Manual Part 4 | Users Manual | 5.36 MiB |
STAR 3000 Installation Manual STAR POWER SUPPLY INSTALLATION Recommended installation of the power supply is a wall mounted configuration within 20 feet from the STAR Receiver. Wall Mount Power Supply Figure 8 shows the power supply with integrated mounting brackets. The wall mounted power supply requires the following hardware (not included with shipment). Figure 8: STAR Power Supply
#6 Drywall (bugle head) or #6 wood screws if the unit is being fastened to a wooden surface For a solid wood mount, box nails are a suitable option, provided that the head diameter is more than .28 and less than .30 in diameter and the shank of the nail is at least 2 long. For a metal surface mount that is at least .1875 thick, #6-32 pan head machine screws may be used. For drywall/plaster fastening, 1/8 Molly or Toggle bolts must be used. The recommended mounting procedure is:
1. For drywall mounts, "Molly Bolts" are preferred. Alternatively, toggle bolts are a suitable option, as they offer a pull-down force more than 4X the industry standard, and are highly recommended in areas prone to seismic activity. 2. Alternatively for drywall mounts, Bugle-head #6 Drywall screws (coarse thread) are also acceptable, if all 4 tie-down points are used, offering an industry standard of a pull-down strength of at least 4X the weight of the unit. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 13 of 36 Confidential and Proprietary STAR 3000 Installation Manual 3. If the wall thickness is at least 1/2" wood (plywood, for example), nails can also be used. Cables must be properly dressed and supported. Both AC and DC cables should be routed with a service loop and must be supported at least once within 18 of the power supply unit. Cables can be run in conduit, providing (a) the conduit is not hanging on the cables, (b) the service loop exists, and (c) there is at least one support/tie-down on the cables between conduit and power supply. Page 14 of 36 Confidential and Proprietary Mojix Incorporated www.mojix.com
(877) 886-6549 STAR 3000 Installation Manual ENODE INSTALLATION The Mojix eNodes (exciter Node) are the building blocks of the Mojix STAR system, defining multiple RFID coverage areas and interrogation zones configured to support each unique business process. Mojix provides a full range of eNode models from wired to wireless, certified in multiple regions and across multiple frequency bands. The Mojix eNodes are reliable, autonomously operated simple RF transmitters, designed to excite all types of EPC UHF Gen 2 RFID tags within their designated RFID coverage areas. The eNode connects to four RFID antennas that are controlled by the STAR to energize RFID tags. The network of eNodes is connected through a distributed architecture to a STAR unit via an eMux using coaxial cable. Each eNode can service up to either four connected antennas or four eXpander modules with up to sixteen antennas, using low-loss cables up to a distance of 50 feet. eNode Specifications Figure 9 shows the eNode and its interfaces, and Table 1 details the specifications of its interface connectors. Figure 9: eNode Interfaces Mojix Incorporated www.mojix.com
(877) 886-6549 Page 15 of 36 Confidential and Proprietary STAR 3000 Installation Manual eNode Connector Function RF Input connector RF Output connector Antenna 1 output connector Antenna 2 output connector Antenna 3 output connector Antenna 4 output connector GPIO connector Connector Type TNC connector TNC connector TNC-RP connector TNC-RP connector TNC-RP connector TNC-RP connector 5-conductor circular Part Numbers:
(Indoor / Outdoor) Frequency:
Power:
Table 1: eNode Connector Specification FCC/Americas: ENM-3004-F EU: ENM-3004-E Japan: ENM-3004-J FCC/Americas: 902 928 MHz EU: 865 868 MHz Japan: 916.7 920.9 MHz 24 VDC from RF input Korea: ENM-3004-K Brazil: ENM-3004-B Singapore: ENM-3004-S Korea: 917 923.5 MHz Brazil: 902 907.5, 915 928 MHz Singapore: 920 925 MHz Dimensions (L x W x H):
10.5 x 6.25 x 1.5 (26.7cm x 15.9cm x 3.8cm) Weight:
Operating Temperature:
Storage Temperature:
Humidity:
2.5 lbs (1.1 kg)
-30C to +60C
-40C to +85C 5 95% non-condensing Environmental Rating:
IP65 Regulatory:
FCC Part 15, EN 60950, EN 50364, EN 301 489-1 EN 301 489-3, EN 302 208-2 Maximum Transmit Power:
Compliant with local regulations Physical Interfaces:
Antenna transmit connectors: 4 TNC-RP Male Input: TNC female Output: TNC female General Purpose I/O connector: Circular Connector Indicators:
Power, Command Link, Transmit Mounting Configuration:
Built-in mounting ears Tag Waveform and Protocols:
EPC Class 1 Gen 2 Compliant ISO 18000-6 Compliant Insertion Loss for Daisy Chaining:
0.8 dB Table 2: eNode Operating Specification Mojix Incorporated www.mojix.com
(877) 886-6549 Page 16 of 36 Confidential and Proprietary STAR 3000 Installation Manual EMUX INSTALLATION eNodes frequently are deployed with eMuxes that can connect multiple eNodes to a STAR or to another
(upstream) eMux. The eMux amplifies and conditions RF signals from the STAR and provides DC power to eNodes. This section describes the steps involved to install an eMux. eMuxes should be used either when:
1. The insertion loss from long lengths of coaxial cables and eNodes is too high 2. The wired eNode system layout requires splitting the wiring to multiple wiring branches Figure 10: Example Cabling Diagram for eNodes and eMuxes About Insertion Loss The STAR transmits a signal of +23 dBm. Insertion loss of coaxial cable varies from one cable to the next. For reference purposes, LMR-240 or equivalent cable has a loss of approximately 7.5 dBm per 100 feet (24.8 dB per 100 m) when measured at 865 MHz to 928 MHz. Insertion loss of wired eNodes is 0.8 dBm. Input power levels for both the eMux and the eNode must be greater than -10 dBm. In order to increase the signal strength for longer cable runs or many eNodes connected together, an eMux must be Mojix Incorporated www.mojix.com
(877) 886-6549 Page 17 of 36 Confidential and Proprietary STAR 3000 Installation Manual used to amplify the signal. The maximum output level on an eMux for any of the 4 output ports is +22 dBm and the maximum gain of the eMux is 30 dB. eMux Specifications The eMux is used to expand a single input into four outputs to create a distributed architecture, as well as to provide power to extend the operational range of the STAR wired eNode network. The eMux powers the RFID and Command signals present on its input port to compensate for the cable loss and provides the amplified signal on its 4 output ports. Each eMux output port can drive up to 10 cascaded eNodes powering up to 40 eNodes. Figure 11 depicts the eMux and its interfaces, showing the RF connections as well as the power supply connection. The connector specification is summarized in Table 3 below. Figure 11: eMux Interfaces eMux Connector Function Connector Type RF input connector RF output connector 1 RF output connector 2 RF output connector 3 RF output connector 4 Power Supply Connector TNC connector TNC connector TNC connector TNC connector TNC connector External Power Supply Table 3: eMux Connector Specification Mojix Incorporated www.mojix.com
(877) 886-6549 Page 18 of 36 Confidential and Proprietary STAR 3000 Installation Manual Part Numbers:
Frequency:
Maximum Power Consumption:
Maximum DC Power Supply:
Power:
Power Supply:
Dimensions (L x W x H):
Weight:
Operating Temperature:
Storage Temperature:
Humidity:
Regulatory:
Maximum RF Output Power:
Maximum Gain:
Physical Interfaces:
Indicators:
Mounting Configuration:
Mojix Incorporated www.mojix.com
(877) 886-6549 Outdoor:
EMX-3004-WO EMX-3004-EWO Indoor:
EMX-3004-W EMX-3004-EW 865 928 MHz 10 Watts 130 Watts 24 VDC input 115 VAC input; 24 VDC, 5.41 A output (EMX-3004-W Model) 230 VAC input; 24 VDC, 5.41 A output (EMX-3004-EW Model) 10.5 x 6.25 x 1.5 (26.7cm x 15.9cm x 3.8cm) 2.5 lbs (1.1 kg)
-30C to +60C
-40C to +85C 5 95% non-condensing FCC Part 15, EN 60950, EN 50364, EN 301 489-1 EN 301 489-3, EN 302 208-2 22 dBm 30 dB Input: 1 TNC female Output: 4 TNC female DC Input: 5-Pin Circular Power, Status Built-in mounting ears Table 4: eMux Operating Specification Page 19 of 36 Confidential and Proprietary STAR 3000 Installation Manual EXPANDER INSTALLATION The eXpander module provides a cost effective means of increasing antenna densities by expanding the total number of antennas from 4 to 16 per eNode as depicted in the drawing below. The eXpander offers a smaller form factor to help simplify deployments and further reduce installation costs. The interfaces and operating specification are detailed in Figure 12 and Table 3 below. Figure 12: eXpander Interfaces Part Number:
EXP-3004-W Maximum Power Consumption:
0.75 Watts Insertion Loss:
1.8 dB Input Connector:
TNC Female Output Connectors:
TNC-RP Female Termination:
Required only on used ports Dimensions (L x W x H):
4.8 x 3.2 x 2.2 (12.1cm x 8.1cm x 5.6cm) Weight:
0.5 lbs (0.23 kg) Mounting Configuration:
Includes 2 brackets Frequency:
850 to 950 MHz Operating Temperature:
-30C to +60C Storage Temperature:
-40C to +85C Regulatory:
FCC Part 15 (in process), IEC 60950 (in process) Environmental:
IP65 rated Table 5: eXpander Operating Specification Mojix Incorporated www.mojix.com
(877) 886-6549 Page 20 of 36 Confidential and Proprietary STAR 3000 Installation Manual GPIO INSTALLATION The GPIO or General Purpose Input/Output is an interface card that connects different types of sensors and actuator devices such as infrared presence sensors and light stacks to an eNode. The GPIO unit is powered by an interfacing cable from the eNode. The GPIO unit, as shown in Figure 13 below, has a unique ID which is added to the configuration of the Mojix MCON software. Each sensor connected to the GPIO unit has a position ID within the GPIO and this ID is mapped to the eNode in the MCON software. The operating specification for the GPIO unit is as follows. Figure 13: GPIO Unit with RS-485 Cable Part Number:
Input Power:
GPO-3008-W 24 VDC and 5 VDC from eNode Dimensions (L x W x H):
7.08 x 4.92 x 2.2 (18.0cm x 12.5cm x 5.6cm) Weight:
Operating Temperature:
0.5 lbs (0.2 kg)
-40C to +85C Humidity:
5 95% non-condensing`
Environmental Rating:
IP65 Regulatory Compliance:
FCC Part 15, EN 60950, EN 50364, EN 301 489-1, EN 301, 489-3, EN 302 208-2 Physical Interfaces:
Terminal lugs Mounting Configuration:
Built-in mounting ears, mounting hardware included External Component Interfaces:
1 eNode, 8 sensors, 8 actuators Table 6: GPIO Operating Specification Product Overview The Terminal block is used to connect wires to and from the external sensor/actuator devices. The Jumper block allows the circuits to be configured. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 21 of 36 Confidential and Proprietary STAR 3000 Installation Manual Figure 14: GPIO Unit Terminal Blocks Each configuration group, made up of one terminal block and one jumper block, allow the configuration of the two sensor circuits and two actuator circuits as required. Figure 15: GPIO Unit Jumper Blocks The eNode uses an RS-485 type connection to both power and command the GPIO unit. The following figure illustrates how this connection is made. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 22 of 36 Confidential and Proprietary STAR 3000 Installation Manual Installers will need the following set of tools to perform a proper GPIO installation. Installers will need the following set of tools to perform a proper GPIO installation. Figure Figure 16: GPIO / eNode Physical Interface Medium-size Phillips screw driver for the cover of the GPIO size Phillips screw driver for the cover of the GPIO Small-size Phillips screw driver for the GPIO terminal block connectors size Phillips screw driver for the GPIO terminal block connectors Wire cutter to shorten connectors and/or connector cables (if necessary) Wire cutter to shorten connectors and/or connector cables (if necessary) GPIO Cabling The GPIO unit comes with the input ca The GPIO unit comes with the input cable pre-installed, however, in the case where GPIO boxes ne be daisy-chained together. Figure 17 block. installed, however, in the case where GPIO boxes need to 17 and Table 7 provide wiring and pin-out details for the input terminal out details for the input terminal Mojix Incorporated www.mojix.com
(877) 886-6549 Page 23 of 36 Confidential and Proprietary STAR 3000 Installation Manual Figure 17: GPIO Input Terminal Wiring Terminal Block Pin Wire Color Signal 1 2 3 4 5 6 7 8 9 Red White Orange Blue Black
24V RS-485 A RS-485 B
+ 3V GND
10 Shield GND Table 7: GPIO Input Terminal Block For directions on how to connect sensors and actuators to the GPIO unit, please refer to the GPIO user guide provided separately. Mojix Incorporated www.mojix.com
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STAR 3000 Installation Manual MASTER CONTROLLER INSTALLATION The Mojix Master Controller (MCON) is an application server capable of running on a number of platforms to support the Mojix STAR system. The MCON is built on a scalable architecture that allows seamless coordination and aggregation of an entire network of distributed STAR systems across one or multiple facilities. Its applications include a Real Time Location System (RTLS) and portal or dock door operations which provide transition detection and rejection of closely staged RFID tags. The MCONs RTLS function uniquely identifies and locates items in real-time and is able to handle extensive data collection requirements with a high level of accuracy. The MCON publishes tag data directly to enterprise applications via EPC ALE without the need of middleware typically used to collect and filter tag information. The diagram below provides a summary of the MCONs interfaces, functions and applications. EC Specs Configuration EC Reports ALE DDD / Loc /
Sensors Results Configuration
& Status Configuration
& Status Web UI MySQL DB Configuration
& Status Loc / DDD / SensorAct /
ReportRules / StatusHealth Star Link Star Driver Raw Tag Data /
Star Commands Raw Tag Data / Tag Results
/ Star Commands Spread bus Figure 18: MCON Architecture The MCON is offered in a high-availability platform with a robust redundancy capability within the hardware components of the MCON, as well as for automatic failover redundancy of an entire MCON to secondary system. Internally, the MCON features hot-swap power supplies and six (6) hot-swap hard drives running in a RAID5 configuration, which allows for a single drive failure without disruption of any MCON functions. Replacement drives need only be inserted in place of the failed drive for the system to fully recover. The MCON is offered in two form factors detailed in Table 8 and Table 9. The desktop configuration is suitable for small installations, demonstrations and trial implementations. The enterprise configuration is intended for full scale deployments. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 25 of 36 Confidential and Proprietary STAR 3000 Installation Manual Part Number:
Form Factor:
Processors:
Cache:
Memory:
RAID Controller:
Drives:
Communications:
Power Supply:
Video:
MCN-1000-T Tower Quad-core Intel Xeon 3400 series 8MB 8GB DDR3 1333MHz SATA RAID Controller Two 3.5" SATA drives Single Port 1GbE NIC Single cabled power supply (305W) Matrox G200eW w/ 8MB memory Operating Systems:
CentOS 5.5 and 5.7, Redhat Enterprise 5.5 and 5.7 Part Number:
Form Factor:
Processors:
Cache:
Memory:
Table 8: MCON Desktop Server Specification MCN-1000-R 1U rack height Dual Six-core Intel Xeon 5600 series 8MB 16GB DDR3 1333MHz RAID Controller:
SAS RAID Controller Drives:
8 hot-plug 2.5 SAS (15K RPM) 73GB; One DVD ROM SATA Communications:
Four Broadcom NetExtreme II Gigabit Ethernet NIC interfaces Power Supply:
Two hot-plug high-efficient 502W Energy Smart Redundant Video:
Integrated Matrox G200, 8MB shared video memory Operating Systems:
CentOS 5.5 and 5.7, Redhat Enterprise 5.5 and 5.7 Table 9: MCON Enterprise Class Server Specification Mojix Incorporated www.mojix.com
(877) 886-6549 Page 26 of 36 Confidential and Proprietary STAR 3000 Installation Manual Alternatively, the MCON is also offered as a virtual machine that satisfies the same configuration as the two hardware platforms. These specifications are detailed in Table 10 and Table 11. Hard Disk :
Processors :
20 GB 4 Processors Class :
Intel Xeon 5600 series Memory :
Memory Class :
6 GB + RTLS DDR3 1333MHz Operating Systems :
VM Ware VSphere Compliant Guest OS :
CentOS 5.5 and 5.7, Red Hat Enterprise 5.5 and 5.7 Table 10: MCON Virtual Machine Specification Desktop Class Hard Disk :
Processors :
20 GB 8 Processors Class :
Intel Xeon 5600 series Memory :
Memory Class :
8 GB + RTLS DDR3 1333MHz Operating Systems :
VM Ware VSphere Compliant Guest OS :
CentOS 5.5 and 5.7, Red Hat Enterprise 5.5 and 5.7 Table 11: MCON Virtual Machine Specification Enterprise Class
- A processor is defined as a single computing component that cannot be split into any smaller computing units. A multi-core CPU may be composed of several smaller computing units.
- The minimum amount of memory required is calculated by the RTLS resource allocation specification provided below. MCON hardware must be installed in a temperature and environmentally controlled room. Redundancy Summary The Mojix solution includes a robust redundancy capability within the hardware components of the Master Controller (MCON), as well as for automatic failover redundancy of an entire MCON system to another. These redundancy options are only offered on the Enterprise Server Class hardware. Internally, the platform features 8 hot-swap hard drives running in a RAID5 configuration. With this configuration, a single drive can fail without disrupting any MCON functions. Replacement drives need only be inserted in place of the failed drive and the system will automatically configure the new drive. Figure 19: Front Panel of Dell PowerEdge Server Mojix Incorporated www.mojix.com
(877) 886-6549 Page 27 of 36 Confidential and Proprietary STAR 3000 Installation Manual The system also features hot-swap power supplies. It is recommended that each supply use a separate AC circuit to protect against a possible circuit failure. Figure 20: Redundant Power Supplies Once the MCON hardware is mounted and secured and prior to issuing power to the unit, connect a network cable to the eth0 port as identified in Figure 21. The next step is to power on the unit. Figure 21: Identification of Network Interfaces Mojix Incorporated www.mojix.com
(877) 886-6549 Page 28 of 36 Confidential and Proprietary STAR 3000 Installation Manual SYSTEM NETWORK SETUP The MCON has the flexibility to configure and manage the STAR unit through a Web enabled interface called the Web Console. CONNECTING TO THE MCON The MCON by default uses DHCP for IP assignment. If a DHCP server is not found within 5 minutes from power up, the MCON uses the following default IP address. Default Static IP: 169.254.1.1 Default Netmask: 255.255.0.0 Default Gateway: 169.254.1.1 It is recommended to connect the MCON using loopback/crossover cable directly to a windows PC for the initial setup. This will ensure that the MCON defaults to the IP address above after 5 minutes. If the MCON is instead connected to a LAN with DHCP server, it may acquire a different IP address, making it difficult to locate on the network for first time setup. CHANGING MCON NETWORK SETTINGS The simplest way to change network settings of the MCON is to navigate a web browser to the MCONs IP address. Use the following credentials to authenticate the connection. User: edison Password: m0j1xInc Once connected, use the Config menu to select Network. The Figure 22 shows the network configuration screen. The user can choose between dhcp or a static IP address. Once changes are made, click on the Save button. Changes occur within 30 seconds. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 29 of 36 Confidential and Proprietary STAR 3000 Installation Manual CHANGING STAR NETWORK SETTINGS Figure 22: MCON Network Configuration The STAR 3000 uses DHCP for IP addressing by default. If a DHCP server is not detected within 1 minute from power up, then there are 2 temporary IP addresses assigned and remain active for 10 minutes. These addresses are as follows:
Default Ethernet 1 Address: 169.254.1.10 Default Ethernet 1 Netmask: 255.255.0.0 Default Ethernet 2 Address: 169.254.1.11 Default Ethernet 2 Netmask: 255.255.0.0 Network settings can be edited and changed using a built-in Web interface. To edit the network configuration, follow this procedure:
1. Power on the STAR 3000 with an Ethernet cable connected to Ethernet 1. 2. Enter the default IP address of 169.254.1.10 into a Web browser and the user should be presented with a page similar to Figure 23. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 30 of 36 Confidential and Proprietary STAR 3000 Installation Manual Figure 23: STAR Web UI Network Setup 3. Click on the Configuration Interface link and the user is presented with a web page as depicted in Figure 24. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 31 of 36 Confidential and Proprietary STAR 3000 Installation Manual Figure 24: STAR Web UI Network Configuration Page 4. Select the desired IP settings for Ethernet 1 and then click save. This will reboot the STAR which will take approximately 2 minutes. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 32 of 36 Confidential and Proprietary STAR 3000 Installation Manual MCON CONFIGURATION Please refer to the user interface guide document: USERGUIDE-MCON-WebInterface for detailed instructions. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 33 of 36 Confidential and Proprietary STAR 3000 Installation Manual APPENDIX A: FCC NOTICE, STAR 3000 AND ENODE CAUTION: To comply with FCC RF exposure compliance requirements, a separation distance of 20 cm must be maintained between the antenna of this device and all persons. WARNING: This equipment has been tested and found to comply with the limits for Class A digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction's manual, may cause interference to radio communications. Operation of this equipment in a residential area is likely to cause interference in which case the user will be required to correct the interference at his own expense. 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 or more 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. In order to ensure compliance with FCC regulations, shielded and grounded cables must be used with this equipment. Operation with non-approved equipment or unshielded cables is likely to result in interference to radio and TV reception. The user is cautioned that changes and modifications made to the equipment without the approval of manufacturer could void the user's authority to operate this equipment. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 34 of 36 Confidential and Proprietary STAR 3000 Installation Manual APPENDIX B: FCC NOTICE, EMUX WARNING: This equipment has been tested and found to comply with the limits for Class A digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction's manual, may cause interference to radio communications. Operation of this equipment in a residential area is likely to cause interference in which case the user will be required to correct the interference at his own expense. The user is cautioned that changes and modifications made to the equipment without approval of the manufacturer could void the user's authority to operate this equipment. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 35 of 36 Confidential and Proprietary STAR System User Manual Mojix Incorporated 11075 Santa Monica Blvd., Suite 350 Blvd., Suite 350 Los Angeles, CA 90025 Web:
Tel:
E-mail:
www.mojix.com www.mojix.com
(877) 886-6549 6549 service@mojix.com service@mojix.com Need More Help? Our product support team is comprised of individuals highly experienced in RFID Our product support team is comprised of individuals highly experienced in RFID Our product support team is comprised of individuals highly experienced in RFID deployments across a broad spectrum pectrum of application and use cases. If you are an existing customer of and use cases. If you are an existing customer of Mojix, please login to the secure area and submit a service request if you have additional questions. If Mojix, please login to the secure area and submit a service request if you have additional questions. If Mojix, please login to the secure area and submit a service request if you have additional questions. If you are unable to login, then please send us you are unable to login, then please send us an email at: service@mojix.com. Mojix Incorporated www.mojix.com
(877) 886-6549 Page 36 of 36 Confidential and Proprietary
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2012-11-20 | 902.73 ~ 927.36 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2012-11-20
|
||||
1 | Applicant's complete, legal business name |
MOJIX, Inc.
|
||||
1 | FCC Registration Number (FRN) |
0019054410
|
||||
1 | Physical Address |
11075 Santa Monica Blvd.
|
||||
1 |
Los Angeles, California 90025
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
m******@celectronics.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
VED
|
||||
1 | Equipment Product Code |
CBLENODE3K
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
J******** A******
|
||||
1 | Title |
SR V.P. Engineering
|
||||
1 | Telephone Number |
31047******** Extension:
|
||||
1 | Fax Number |
31047********
|
||||
1 |
j******@mojix.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Compatible Electronics, Inc.
|
||||
1 | Name |
K****** F********
|
||||
1 | Physical Address |
114 Olinda Drive
|
||||
1 |
Brea, California 92823
|
|||||
1 |
United States
|
|||||
1 | Telephone Number |
714-5********
|
||||
1 | Fax Number |
714-5********
|
||||
1 |
k******@celectronics.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Star 3000 System | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power is conducted. The antenna(s) used with this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. Users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Compatible Electronics, Inc.
|
||||
1 | Name |
J******** K****
|
||||
1 | Telephone Number |
71457********
|
||||
1 | Fax Number |
71457********
|
||||
1 |
j******@celectronics.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.73000000 | 927.36000000 | 0.9931160 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC