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1 | User Manual 1 | Users Manual | 1.69 MiB |
Preface Preface Sirits INfinity 510 Users Guide is designed to allow you quickly install, configure, and operate your reader. This guide only provides instructions for a basic installation and you should refer to the INfinity 510 Developers Guide and Protocol Reference Guide for more detailed programming, configuration, and operation instructions. Information Included in this Guide Information provided in this guide includes:
Safety Instructions
Reader Overview
Reader Equipment Installation
Reader Software Installation
Reader Configuration
Reader Operation
Specifications Intended Audience This document is intended for those who wish to quickly setup and operate the INfinity 510. Before attempting to install, configure, and operate this product, you should be familiar with the following:
Windows-based software installation and operation
Device communication parameters including Ethernet and serial communications
RFID reader configuration including antenna placement and RF
Basic digital input/output control INfinity 510 Users Guide, P1.04 i 1 2 3 4 5 6 Reader Overview Reader Overview Introduction The INfinity 510 is a multiprotocol, multiregional Radio Frequency Identification (RFID) System that operates in the 860 960 MHz UHF band. Figure 1 INfinity 510 UHF Reader As shown in the following figure, this high performance reader supports up to four Tx/Rx antennas and one Listen before Talk (LBT) antenna and is equipped with both serial and Ethernet interfaces. Discrete digital inputs and outputs are also provided. Figure 2 INfinity 510 Power and I/O Connections INfinity 510 Users Guide, P1.04 1 2 1 2 3 4 5 6 Reader Overview The INfinity 510 is equipped with four status indicators located on the top of the enclosure. These LEDs provide indication for the following:
Sense Indicates reader has detected a tag in the RF field.
Transmit Indicates the readers transmitter is operating (RF on).
Fault Indicates a fault occurred.
Power Indicates that power is applied to the reader. During power up, the LEDs will momentarily flash. INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Equipment Installation Reader Equipment Installation Mechanical Installation Mounting the Reader The INfinity 510 is equipped with two mounting flanges and slotted keyholes that accept three #8 (M4) mounting screws. Predrill any mounting surface according to the following dimensions. Any mounting surface must be able to support up to four pounds (1.8 kg). 3 3/32"
(78.6 mm) 6 3/16"
(157.2 mm)
(3X) LOCATION FOR #8 Screw (M4) 12 15/32"
(316 mm) Concrete Wall Mounting To mount the INfinity 510 to a hollow concrete block wall, Sirit recommends metal sleeve type concrete anchors that accept #8 screws and flat washers. Wood or Metal Wall Mounting To mount the INfinity 510 to a wood or sheet metal wall, Sirit recommends either #8 x 1 inch wood screws or #8 x 1 inch sheet metal screws and washers. Drywall Mounting To mount the INfinity 510 to drywall or sheetrock, Sirit recommends either
#8 toggle bolts or #8 drywall anchors. INfinity 510 Users Guide, P1.04 3 4 1 2 3 4 5 6 Reader Equipment Installation Mounting the Antennas The INfinity 510 supports from one to four antennas in a variety of configurations. One and two-antenna configurations are typical for most conveyor and container tracking. Four-antenna configurations are used for portals and loading dock doorways. The optional Sirit provided antennas are for indoor use only and must be installed on a solid surface or frame to prevent damage or later misalignment. It is highly recommended that the antenna mounting be adjustable in order to obtain the best performance from the system. WARNING: FCC Radiation Exposure Statement. The antennas used for 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. Typical Antenna Pole Mount INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Equipment Installation Electrical Installation Caution: The INfinity 510 is designed to meet the regulatory requirements in those jurisdictions in which it is offered. Changes or modifications not expressly approved by Sirit Inc for compliance could void the user's authority to operate the equipment. Connecting the Serial Port The INfinity 510 is equipped with one DB9 type RS-232 serial port for communication up to 115 Kbaud. If you are using the serial port for reader communication, connect a serial cable from the COM port on your PC to the serial port on the reader. See Figure 2 for location of the connector. INfinity 510 Users Guide, P1.04 5 Ethernet Cables In most cases, you will connect the INfinity 510 to a network hub or router. However, if you are connecting directly to a PC or other computer, you will need a Crossover Cable that swaps the Tx and Rx signals. 1 2 3 4 5 6 Reader Equipment Installation Connecting the Ethernet Port The maximum Ethernet cable length is 30 meters. If you are communicating with your reader across a Local Area Network (LAN), connect an Ethernet cable from your hub or router to the RJ-45 connection. See Figure 2 for location of the connector. If you are connecting the reader directly to a PC, you must use a crossover cable. See Note to the left. Connecting the Antennas The maximum antenna cable length is 10 meters. Connect the antenna to antenna port 1. If you are using additional antennas connect them to Ports 2-4. If applicable, connect the LBT antenna to the Listen port Caution:
The INfinity 510 UHF Reader is equipped with four (4) RF ports. To prevent reader damage, active RF ports must be properly terminated with a 50 ohm load or a functional UHF antenna before power up. UHF Readers are factory configured to operate on RF port 1. As a result, port 1 must be properly terminated before initially powering on the reader. Before activating any additional RF ports, they must also be properly terminated. Never power up the reader unless the appropriate loads or antennas are connected. Always power down the reader before removing an antenna or load from an RF port. The maximum antenna cable length is 10 meters. Connecting Digital Inputs/Outputs The INfinity 510 is equipped with a general purpose digital input/output
(I/O) port that provides four optically isolated 5-24 Vdc input signals and four open-collector output signals. The digital inputs can be used as general purpose inputs or to trigger the reader for tag reading. These inputs can be configured to provide an external read trigger from proximity sensors, photoswitches, or other devices. The digital outputs can be used as general purpose outputs, to indicate tag reading activity, or to indicate the reader is transmitting (RF On). The outputs can also be configured to trigger conveyor gates or other access control and sorting devices. Connecting the Power Connect the 15 Vdc power supply to the reader and connect the power supply to your 100-240 Vac, 50-60 Hz power source. Allow 30 seconds for the reader to initialize. 6 INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Software Installation Reader Software Installation Installing Reader Configuration Software The INfinity 510 is equipped with a Microsoft Windows PC application called Reader Startup Tool (RST). You can use this application to configure the reader as well as read and display tag data. Install RST 1 To install RST, load your system CD and double-click the Setup.exe file:
2 Press Next>
3 Verify the directory and path where the RST files will be installed. Press Next>
4 Press Next>
INfinity 510 Users Guide, P1.04 5 Press Close when the installation is complete. 7 8 1 2 3 4 5 6 Reader Configuration Reader Configuration Start RST To start your reader configuration, open the RST application. Open RST 1 From your Windows desktop, select:
StartProgramsSiritINfinity510Reader Startup Tool 2 3 If this is the first time starting the RST application, you may receive a Windows Security Alert. This warning indicates that the firewall is blocking the RST application. If the warning window is hidden under the RST windows, collapse the RST window. INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Configuration 4 Press Unblock. 5 Press Refresh on the RST 6 The RST main screen will display any readers currently connected to the network. Initial Reader Setup To configure a specific reader, perform the following:
Reader Setup 1 Select the reader on the main RST screen by clicking the button to the left of the reader Mac address. 2 Press the 3 The INfinity 510 Setup Wizard is displayed. button on the RST window. INfinity 510 Users Guide, P1.04 9 1 2 3 4 5 6 Reader Configuration 4 Press Next>. 5 Enter the Login (admin) and Password. If this is the first time configuring your reader, enter: readeradmin 6 Press Next>. 10 INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Configuration 7 Select the Region and Sub Region from the pull-downs and press Next>. Custom Setup If your installation type differs from one of the choices shown in the Setup Wizard, you can always customize your setup later using the embedded web interface capability. See the Advanced Setup chapter in this guide for more information. 8 Select a configuration that most closely resembles your installation and press Next>. 9 Select the protocol of the tags you will be reading and press Next>. INfinity 510 Users Guide, P1.04 11 1 2 3 4 5 6 Reader Configuration 10 Select the antennas you will be installing and press Next>. 11 Estimate the number of tags that will be presented to the reader at any one time and press Next>. 12 INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Configuration 12 Press Finish to complete the initial reader setup. INfinity 510 Users Guide, P1.04 13 1 2 3 4 5 6 Reader Operation Reader Operation Basic Operation with the Reader Operation Tool The INfinity 510 can be operated either from the RST application or by logging directly into the readers embedded web interface. To operate the reader from RST, perform the following:
1 From the RST main screen, press Operate Reader. The Reader Operator Tool (ROT) is displayed. 2 3 Login to the reader. The initial password (Pwd) is readeradmin. See the Advanced Setup section for details on changing the password. Verify the Operating Mode is set to Polled Mode. 14 INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Reader Operation 4 Select the Tag Performance tab. 5 Press Start. 6 Place your tags in front of the antenna and verify the tags are read and displayed as shown in the previous figure. INfinity 510 Users Guide, P1.04 15 1 2 3 4 5 6 Reader Operation Advanced Setup You can also customize the reader setup to more closely match your installation. This is performed by logging directly into the readers embedded web interface. You can access this interface from RST. Perform the following:
1 From the RST main screen, press Configure. The INfinity 510 Reader Configuration Tool (RCT) is displayed. 2 Select the specific configuration category and follow the instructions. 16 INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Specifications Specifications Reader Specifications Frequency RF Power Connections Input Voltage Input Current 860-960 MHz 10 mW 2W conducted RS-232, Digital I/O, Ethernet LAN, and WiFi 802.11 (optional) 12 to 24 Vdc, 60W 2.5A maximum at 24 Vdc 5.0A maximum at 12 Vdc Environmental Specifications Operating Temperature
-4 F to 131 F (-20 C to 55 C) Storage Temperature
-40 F to 185 F (-40 C to 85 C) Maximum Shock Relative Humidity Case Material 1 foot (0.3 meter) drop to any corner 5% to 95% non-condensing Aluminum Case Dimensions 8.7 x 11.8 x 2.2 in (220 x 300 x 56 mm) Weight 4 lbs (1.8 kg) Battery Specifications (Optional) Battery Designation Voltage Lithium/Manganese Dioxide ANSI/NEDA 5012LC / IEC-CR1220 3.0 volts Average capacity 40 mAh to 2.0 volts Caution - Risk of Explosion Only replace battery with same type and designation. There is risk of explosion if battery is replaced with incorrect type. Dispose of old battery according to manufacturers instructions and local regulations. INfinity 510 Users Guide, P1.04 17 1 2 3 4 5 6 Specifications Power Supply Specifications Input Voltage Input Consumption Input Frequency Output Voltage Output Current 100 240 Vac 60W maximum 50 60 Hz 15 VDC 4A maximum RS-232 Specifications Connector Baud rate Parity Data bits Stop bits Signals Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 DB-9S 9600 - 115200 (Default = 57600) None 8 1 CNVSS TXD RXD DTR GND DSR CTS RTSA
+3.3 Vdc Ethernet LAN Specifications Connector Ethernet Indicators Signals RJ-45 10/100 BaseT Yellow - Indicates link is operational Green - Indicates network traffic detected. Pin 1 TXD+ (Transmit Data +) Pin 2 TXD- (Transmit Data -) Pin 3 RXD+ (Receive Data +) Pin 4 EPWR+ (Power from switch +) Pin 5 EPWR+ (Power from switch +) Pin 6 RXD- (Receive Data -) Pin 7 EPWR- (Power from switch -) Pin 8 EPWR- (Power from switch -) 18 INfinity 510 Users Guide, P1.04 1 2 3 4 5 6 Specifications Digital Input/Output Specifications Connector Input Output Signals Plugcon 31374112 (1x12) 5 to 24 Vdc, 1 to 5 mA, Optically Isolated Open Collector (3 to 40 V, 100 mA Max) Pin 2 DIN1 (Digital Input 1) Pin 3 DIN2 (Digital Input 2) Pin 5 DIN3 (Digital Input 3) Pin 6 DIN4 (Digital Input 4) Pin 1, 4 Digital input common Pin 8 DOUT1 (Digital Output 1) Pin 9 DOUT2 (Digital Output 2) Pin 10 DOUT3 (Digital Output 3) Pin 11 DOUT4 (Digital Output 4) Pin 7,12 Digital output common Antenna Specifications Type PATCH Frequency (FCC) 860 960 MHz Polarization Gain VSWR, maximum Axial ratio Input impedance Power Handling Size Weight Circular 7 dBi 1 dBi, max 1.3:1 or less 1 dB or less 50 Ohm (nominal) 10 W 245 mm x 235 mm x 40 mm 470g Caution:
This device has been designed to operate with no more than 1 Watt into the antenna and an antenna gain of no more than 6 dBic. Antenna having a higher gain is strictly prohibited per regulations of Industry Canada, unless power into the antenna is decreased to compensate for the increased antenna gain. The required antenna impedance is 50 ohms. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (EIRP) is not more than that required for successful communication. The installer of this radio equipment must ensure that the antenna is located or pointed such that it does not emit an RF field in excess of Health Canada limits for the general population; consult Safety Code 6, obtainable from Health Canadas website at www.hc-sc.gc.ca/rpb. Optional Sirit supplied antennas are for indoor use only. INfinity 510 Users Guide, P1.04 19 1 2 3 4 5 6 Safety Instructions Safety Instructions Power Disconnect Device The plug on the power supply cord is intended to be the power disconnect device. As a result, the power source (socket or outlet) shall be located near the equipment and shall be easily accessible. WARNING: FCC Radiation Exposure Statement. The antennas used for 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. The INfinity 510 UHF Reader is equipped with four (4) RF ports. To prevent reader damage, active RF ports must be properly terminated with a 50 ohm load or a functional UHF antenna before power up. UHF Readers are factory configured to operate on RF port 1. As a result, port 1 must be properly terminated before initially powering on the reader. Before activating any additional RF ports, they must also be properly terminated. Never power up the reader unless the appropriate loads or antennas are connected. Always power down the reader before removing an antenna or load from an RF port. The maximum antenna cable length is 10 meters. Risk of Explosion. Only replace battery with same type and designation. There is risk of explosion if battery is replaced with incorrect type. Dispose of old battery according to manufacturers instructions and local regulations. Caution:
Caution:
20 INfinity 510 Users Guide, P1.04
1 | User Manual 2 | Users Manual | 461.25 KiB |
User Guide User Guide User Guide User Guide SASL (Signal Acquisition & Source Location unit) RF Controls Intelligent Tracking and Control System (ITCS) ITCS-A-1xx family Models ITCS-A-100 ITCS-A-102 ITCS-A-104 SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 1 Introduction This SASL User Guide provides the basic information needed to install and set up an individual SASL antenna unit. This guide is not intended to provide instructions for installing, configuring and calibrating the RF Controls Intelligent Tracking and Control System (ITCS). Detailed instructions are provided in the Technical Manual (ITCS-A-100-002) and Programmers Reference Guide
(ITCS-A-100-003). INTENDED AUDIENCE This guide is intended for those who will install and set up the RF Controls SASL (Signal Acquisition and Source Location) unit. Before attempting to install, configure and operate this product, you should be familiar with the following:
Windows based software installation and operation Device communication parameters including Ethernet and serial communications RFID reader configuration including antenna placement and RF Parameters Electrical and RF safety procedures. CONTENTS 1. SASL overview 2. Installation 3. Software 4. Specifications 5. Safety instructions FCC NOTICE 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. CONTACT INFORMATION RF Controls, LLC 1141 S. 7th Street St. Louis MO 63104-3623 USA Phone:
e-mail:
+1 314 571-6200 Fax: +1 314 832-0029 techsupport@rfcontrols-stl.com Web site:
http://www.rfctrls.com SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 2 SASL OVERVIEW SASL is a multi-protocol, multi-regional Radio Frequency Signal Acquisition & Source Location unit, which is used to Identify and locate RFID tags operating in the UHF 860 960 MHz frequency band. A number of SASL units may be used together with an ITCS Location Processor to form an Intelligent Tracking and Control System (ITCS). SASL comprises an embedded multi-protocol, multi-regional RFID reader/writer transceiver connected to the patented steerable phased array antenna system. SASL is designed to operate from AC mains power and communicates with a host computer using standard Ethernet TCP/IP and UDP protocol. Figure 1 illustrates the three versions of SASL currently available. All three versions are equipped with identical RFID reader and Array Controller. ITCS-A-100 is constructed using four Bi-directional Electronically Steerable Phased Arrays
(BESPA) arranged to provide a single array with a circularly polarized gain of 8.6dBi. ITCS-A-102 is constructed using two BESPAs arranged to provide a single array with a circularly polarized gain of 7.5dBi. ITCS-A-104 is constructed from two pairs of BESPAs in the form of a V, each having a circularly polarized gain of 7.5dBi. The arrays are mounted back to back so as to illuminate a volume in opposite directions. The two arrays are fed from a single reader/writer and an Array Controller, multiplexed so that opposite directions are alternately scanned. The multiplexing of the separate arrays occurs at a sufficiently fast rate so to be indiscernible to the user. The particular units used in an installation will depend on the system design and determined by a qualified applications engineer. For example, an ITCS-A-104 would typically be ceiling mounted in the middle of a warehouse to extend the coverage of an ITCS system in two directions. The three models may be intermixed as required in a single ITCS system. ITCS-A-100 ITCS-A-102 ITCS-A-104 SASL (Signal Acquisition and Source Location) units Figure 1 SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 3 INDICATOR LIGHTS Reader Indicator Lights There are four lights on the back of the SASL located on the SIRIT RFID reader. The indicator lights on the SIRIT RFID reader are:
Sense Indicates that the reader has detected a tag in the RF field Transmit indicates that the reader/writer transmitter is operating (RF on) Fault Indicates that there is a fault Power Indicates that power is applied to the reader Note that when the SIRIT reader is performing power on auto-test, the indicator lights will flash momentarily. Figure 2 SIRIT RFID Reader Indicator Lights. Array Controller Indicator Lights There are two indicator lights on the Array Controller used to indicate the health of the system. These are Status The flash repetition rate indicates the status of the Array Controller. See the SASL Technical Manual for further information Power Indicates that the power supply is on and healthy. Figure 3 Array Controller Indicator Lights SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 4 Installation MECHANICAL INSTALLATION Each model of the ITCS-A-1xx family of SASL units is mounted slightly differently. SASL units weigh up to 85 lbs (38.5kg), so it is important to ensure that the structure, to which the SASL is to be attached, is of sufficient strength. The SASL may be ceiling mounted, wall mounted or attached to a suitable stand. When ceiling mounted, a safety cable must be secured to a separate ceiling fixture and attached to the SASL mounting bracket. When mounting the SASL as a stand-alone unit, make sure that it is mounted the correct way up as indicated by information in the Technical Manual, for the specific SASL. If the SASL is one of several and is part of an ITCS network, then orient each SASL according to the ITCS system installation drawings. If in doubt contact a member of our technical support team. ITCS-A-100 The ITCS-A-100 SASL is provided in its standard configuration with a mounting bracket for installation in a landscape orientation. An optional portrait mounting bracket is available if under special circumstances an installation configuration requires the SASL to be installed in portrait orientation. When mounting the SASL, the SIRIT RFID reader should be below the mounting tube as shown in figure 5, to ensure that the center of gravity is below the axis of the mounting tube. Consult the Technical Manual, for further information. Contact a member of our technical support team for more information. ITCS-A-102 The ITCS-A-102 SASL is only mounted in a landscape orientation because the array is symmetrical there is no benefit to mounting the array in a portrait fashion. When mounting the SASL, the SIRIT RFID reader should be below the mounting tube as shown in figure 6, to ensure that the center of gravity is below the axis of the mounting tube. Consult the Technical Manual, for further information. Contact a member of our technical support team for more information. ITCS-A-104 The ITCS-A-104 SASL is designed to be mounted by hanging the array from above as shown in figure 1. The SASL must be stabilized to ensure that the unit does not move once mounted. Consult the Technical Manual, for further information. Contact a member of our technical support team for more information. The SASL mounting bracket incorporates a mounting tube which is designed to be attached to industry standard UNISTRUT industrial framing systems. (See: www.unistrut.com for more information). Figure 4 shows the ITCS-A-100 and ITCS-A-102 mounting brackets. The ITCS-A-104 mounting is similar and uses the same UNISTRUT hardware. When mounting the SASL as a stand-alone unit, make sure that it is mounted the correct way up as indicated by information in the Technical Manual, for the specific SASL. If the SASL is one of several and is part of an ITCS network, then orientate each SASL according to the ITCS system installation drawings. If in doubt contact a member of our technical support team. SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 5 ITCS-A-100 Bracket Figure 4 ITCS-A-102 Bracket ITCS-A-1xx Mounting Brackets SAFETY WARNING The ITCS-A-100 and ITCS-A-104 SASL weigh approximately 75 to 85 lbs (34- 38kg), and ITCS-A-
102 weighs approximately 50 lbs (23kg). These units should only be installed using suitable safety and lifting equipment. Ensure that the wall fixings or mounting hardware is suitably rated. SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 6 ELECTRICAL INSTALLATION Electrical installation requires the connection of two plugs. AC Mains Input AC mains input is provided on an IEC connector on the power supply module as shown in figure 5. Connect the provided IEC mains cord to the power supply and plug it in to a suitable mains outlet. Note that the mains outlet must be located in close proximity to the SASL and must be accessible to enable easy disconnection of the mains supply to the SASL in case of emergency or when servicing. Ethernet The Ethernet LAN connection uses the industry standard RJ-45 connector. A suitable Ethernet cable fitted with an RJ-45 plug is connected to the SASL RAID processor box as shown in figure 5. The SASL is factory programmed with a fixed IP address which is shown on the label adjacent to the Ethernet connector. ITCS-A-100 Power and Ethernet Connections Figure 5 SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 7 ITCS-A-102 Power and Ethernet Connections Figure 6
(Note: This figure is an exploded view looking through one antenna array) ITCS-A-104 Power and Ethernet Connections Figure 7 SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 8 WARNING The interconnect wiring and cables on the rear of the SASL are factory installed and are not intended to be field serviceable. The RF cables are specially tuned. Any tampering or modification of these cables or connections will invalidate type approval and may seriously compromise the device performance. Note that the connectors are fitted with tamper evident seals. NON IONIZING RADIATION This unit incorporates a Radio Frequency Transmitter and should therefore be installed and operated so as to avoid exposure of any persons to unsafe emissions. The FCC requires that any antenna, which includes the SASL, be mounted so that a separation distance of at least 20cm is provided from all persons. See FCC Radiation Exposure Statement in the Safety Instructions section of this guide. SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 9 MULTIPLE SASL UNITS CONFIGURED AS AN ITCS Figure 8 shows how two or more ITCS-A-1xx SASL units may be connected via an Ethernet network to an ITCS Location Processor, one Location Processor and multiple distributed SASLs operate collaboratively to form RF Controls Intelligent Tracking and Control System (ITCS). In this example one each of, ITCS-A-100, ITCS-A-102 and ITCS-A-104 SASL units have been attached to the network. Combinations of the various model SASL units may be mixed and matched as required to suit a particular installation. The RF Controls Technical Manual provides details on how to install, configure and calibrate an ITCS. The Programmers Reference Guide provides details of the Application Program Interface (API) used by the ITCS. Intelligent Tracking and Control System comprising a number of SASL units connected via an Ethernet Network to an ITCS Location Processor Figure 8 SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 10 Software The SASL is provided with a basic test program on a CD, to run on a Microsoft Windows equipped Personal Computer. The program enables you to carry out a number of basic tests:
Command the SASL to transmit Adjust the RF output power of the SASL as a percentage of maximum power. (Note: the maximum output power is factory set to the maximum RF output power allowed for the particular country of destination). Identify a tag by its UII (Unique Item Identifier) ISO18000-6C tag or EPC (Electronic Product Code) in the case of an EPC UHF Gen 2 tag. Display the Received Signal Strength of each tag Display the Phi and Theta values of the SASL beam direction. The installation software should automatically install when the CD is inserted into the PC. If for any reason it does not auto run, then browse for the setup.exe file on the installation CD and run it. Once the program has been successfully installed it may be opened. Figure 7 shows the basic test program control panel screen. Figure 9 Test Program Control Panel Screen SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 11 USING THE TEST PROGRAM Set RF Output Power Enter the desired RF output power as a percentage of the maximum power into the Set Power box. Click the set Power button. Note: the actual maximum Radiated RF Power is factory set to comply with the radio regulations in the country of use. In the USA and Canada this is 4 Watts EiRP and under EN 302 208 this is 2 Watts ERP (3.2 W EiRP). The beam direction may be pointed to any desired direction within 35 of a line perpendicular to the centre of the SASL antenna panel. When looking in the direction of the beam (as if through the SASL), and with the SASL orientated with the arrow upwards, Phi
+ve angles are up, -ve angles are down. Theta +ve is left and ve is right. Enter the steering angles Theta and Phi in the respective boxes and click set beam. Set Beam Read Tags Click the Inventory button. Tag UII (EPC) followed by the Received Signal Strength in dBm will be shown in the window for each tag identified. If there is more than one tag, then each tag identified will be shown on a separate line. Click the Repeated_Inventory button to repeatedly query for tags present in the SASL beam. This function is useful for identifying tags that are moving. APPLICATION INTERFACE The SASL uses an International Standard, Application Program Interface (API) as defined in ISO/IEC 24730-1. Further details of the API and commands are contained in the Programmers Reference Guide. SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 12 Specifications General Frequency RF Radiated Output Power Regulatory Compliance Reading/writing Protocols ITCS-A-100 ITCS-A-102 ITCS-A-104 UHF band: 860 960 MHz1 Adjustable from 0.1 to 4 Watts EiRP FCC, CFR47 Part 15.247 EN 302 208 ISO18000-6C / EPC UHF Gen 2 EM 4122 (TTO) WFQITCSA100 WFQITCSA102 WFQITCSA104 ISO/IEC 24730-1 0 to +55C
-40 to +85C 5 to 95% non-condensing 64in x 32in x 8in
(163 x 81 x 20 cm) 75 lbs (34 kg) 32in x 32in x 8in
(81 x 81 x 20 cm) 50 lbs (23 kg) 30in x 32in x 28in
(76 x 81 x 72 cm) 85 lbs (39 kg) FCC ID Application Interface Environmental Operating Temperature Storage Temperature Relative Humidity Dimensions Weight Ethernet LAN Connector Ethernet Indicators Signals Power Supply Input Connector Voltage Frequency Consumption Antenna Gain2 (circularly polarized) RJ-45 10/100 BaseT Yellow link operational Green network traffic detected Pin 1 TXD+
Pin 2 TXD -
Pin 3 RXD+
Pin 4 NC Pin 5 NC Pin 6 RXD -
Pin 7 NC Pin 8 NC IEC/EN 60320 C14 90 265 Volts AC 47 63 Hz 90VA 8.6 dBi2 7.5 dBi2 7.5 dBi2 1 The SASL uses the SIRITSIRIT INfinity 510 RFID reader which will be factory set at time of shipping, to suit the country of installation and use. 2 Nominal maximum value. Precise gain depends on transmit frequency SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 13 Safety Instructions This unit emits Radio Frequency non-ionizing radiation. The installer must ensure that the antenna is located or pointed such that it does not create an RF field in excess of that permitted by the Health and Safety Regulations applicable to the country of installation. FCC Radiation Exposure Statement The antenna used on this equipment must be installed to provide a separation distance of at least 20cm from all persons and must not be co-located or operated in conjunction with another antenna or transmitter. FCC Part 15 Notice 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. Power Disconnect Device The plug on the power supply cord is intended to be the power disconnect device. The power source (socket or outlet) shall be located near the equipment and shall be easily accessible. The SASL products and individual BESPA components are protected by one or more US and International Patents pending. The RF Controls logo, and the words RF Controls, Identify, Locate, Track, ITCS and SASL are registered Trademarks of RF Controls, LLC. RF Controls, LLC 1141 S. 7th Street St. Louis MO 63104-3623 USA Phone:
Fax:
e-mail:
Web site:
+1 314 571 6200
+1 314 832 0029 e-mail: techsupport@rfcontrols-stl.com http://www.rfctrls.com SASL Installation Guide V1.11 - Part # ITCS-A-100-001v1.11 May 2009 14
1 | User Manual 3 | Users Manual | 27.96 KiB |
DATASHEET ITCS-A-102 Signal Acquisition and Source Location (SASL) unit, 4x4 Antenna System 16 element phased array antenna system for use with ISO 18000-6C / EPC Gen 2 RFID tags. System Overview Description The 4x4 Antenna System is a single panel steerable phased array RFID system. The 4x4 Antenna System is comprised of two 2x4 Beam Steering Units (BSUs), a system controller, an RFID reader, a power supply, and the mechanical framework to allow the system to be mounted in a factory environment. See the ITCS description for a full system description. Interfaces:
Data Connector RJ45 10/100 Ethernet Power Connector IEC-320 Indicators:
Power LED (Green = power on, Off = power off) Data LED / Ethernet Link (Yellow = Link, Off = No Link, Blink = Data Tx/Rx) Specifications Performance Specifications:
Tag read period1 Tag location accuracy2 Scan Angle Horizontal Scan Angle Vertical Beam width Power Level3 Antenna Gain Power Requirements Voltage Frequency Current 115Vac Current 230Vac
-30
-30 7 0.04 7.2 Max 264 63 3.2 1.7 Min 90 47
30 30 8 4 8.6 Max 25 3 (0.9) Min Units ms ft(m) Degrees Degrees Degrees W-EIRP dBi Units Vac Hz Arms Arms 1 Time to read one tag, given a Q of 0 (tag population of 1). System is turned on and enabled. 2 Accuracy using two SASLs mounted 30 apart, 11 high covering the same area. 3 Calibrated power level settable in firmware. 11001-011 v0.92 RF Controls, LLC - Confidential Page 1 of 2 DATASHEET ITCS-A-102 Mechanical Specifications Min Max Units 81 (32) 81 (32) 20 (8) 23 (50) cm (in) cm (in) cm (in) kg (lbs) Min Max Units Indoor industrial factory use. 5 0 (32)
-40(-40)
-10(-18) 85 55(131) 85(185) 10(18) 3 3
%RH C (F) C (F) C (F) g g Installation requirement: The antenna must be fixed and not allowed to move after installation. See Users Manual for further instructions. Height Width Depth Weight Environmental Specifications Operating Environment Humidity Range (non-condensing) Temperature Range (operating) Temperature Range (non-operating) Temperature Drift before Recalibration4 Shock (operating) Shock (non-operating) Regulatory Certifications FCC Part 15 at system level Subpart B EMC ETSI 302-208, CE 4 This system is calibrated at nominal room temperature. Should the temperature exceed this limit, location errors may be out of tolerance. The system may need to be recalibrated at the new nominal temperature. 11001-011 v0.92 Page 2 of 2 RF Controls, LLC - Confidential
frequency | equipment class | purpose | ||
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1 | 2009-06-25 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2009-06-25
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1 | Applicant's complete, legal business name |
RF Controls, LLC
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1 | FCC Registration Number (FRN) |
0017890542
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1 | Physical Address |
1400 South 3rd Street
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1 |
St Louis, Missouri 63104-4430
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1 |
United States
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|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
M******@us.ul.com
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1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
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app s | FCC ID | |||||
1 | Grantee Code |
WFQ
|
||||
1 | Equipment Product Code |
ITCSA104
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
G**** B****
|
||||
1 | Title |
Chief Technical Officer
|
||||
1 | Telephone Number |
31448********
|
||||
1 | Fax Number |
31483********
|
||||
1 |
g******@rf-controls.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
RF Controls LLC
|
||||
1 | Name |
M**** P****
|
||||
1 | Physical Address |
1141 South 7th St
|
||||
1 |
St. Louis, Missouri 63104
|
|||||
1 |
United States
|
|||||
1 | Telephone Number |
314-4********
|
||||
1 |
m******@rfcontrols-stl.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
RF Controls LLC
|
||||
1 | Name |
G**** P****** B****
|
||||
1 | Physical Address |
4600 Chippewa St
|
||||
1 |
St. Louis, Missouri 63116
|
|||||
1 |
United States
|
|||||
1 | Telephone Number |
314-4********
|
||||
1 |
g******@rfcontrols-stl.org
|
|||||
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) | RF ID Signal Acquisition & Source Location unit ITCS104 | ||||
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 | POWER LISTED IS CONDUCTED. THE ANTENNA USED ON THIS EQUIPMENT MUST BE INSTALLED TO PROVIDE A SEPARATION DISTANCE OF AT LEAST 20CM FROM ALL PERSONS AND MUST NOT BE CO-LOCATED OPERATED IN CONJUNCTION WITH AN OTHER ANTENNA OR TRANSMITTER. | ||||
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 |
UL LLC
|
||||
1 | Name |
R****** T********
|
||||
1 | Telephone Number |
847-6******** Extension:
|
||||
1 | Fax Number |
847-5********
|
||||
1 |
R******@us.ul.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.75000000 | 927.25000000 | 0.6934000 |
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