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| 1 2 3 4 | User Manual | Users Manual | 477.17 KiB | October 12 2015 |
ALIEN TECHNOLOGY ALR-F800 HARDWARE SETUP GUIDE June 2015 ALR-F800 Legal Notices Copyright 2015 Alien Technology Corporation. All rights reserved. Alien Technology Corporation has intellectual property rights relating to technology embodied in the products described in this document, including without limitation certain patents or patent pending applications in the U.S. or other countries. This document and the products to which it pertains are distributed under licenses restricting their use, copying, distribution and de-compilation. No part of this product documentation may be reproduced in any form or by any means without the prior written consent of Alien Technology Corporation and its licensors, if any. Third party software is copyrighted and licensed from Licensors. Alien, Alien Technology, the Alien logo, Higgs, Squiggle, the Squiggle logo, and other graphics, logos, and service names used in this document are trademarks of Alien Technology Corporation in the U.S. and other countries. All other trademarks are the property of their respective owners. U.S. Government approval required when exporting the product described in this documentation. Federal Acquisitions: Commercial Software -- Government Users Subject to Standard License Terms and Conditions. U.S. Government: If this Software is being acquired by or on behalf of the U.S. Government or by a U.S. Government prime contractor or subcontractor (at any tier), then the Government's rights in the Software and accompanying documentation shall be only as set forth in this license; this is in accordance with 48 C.F.R. 227.7201 through 227.7202-4 (for Department of Defense (DoD) acquisitions) and with 48 C.F.R. 2.101 and 12.212 (for non-DoD acquisitions). DOCUMENTATION IS PROVIDED AS IS AND ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARANTEES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGMENT ARE HEREBY DISCLAIMED, EXCEPT TO THE EXTENT THAT SUCH DISCLAIMERS ARE HELD TO BE LEGALLY INVALID. 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. 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 instruction manual, may cause harmful interference with radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his expense. Any change or modification to this product voids the users authority to operate per FCC Part 15 Subpart A. Section 15.21 regulations. Industry Canada Compliance Operation is subject to the following two conditions: (1) this device may not cause interference and (2) this device must accept any interference, including interference that may cause undesired operation of the device. This device has been designed to operate with an antenna having a maximum gain of 6dBi. Antenna having a higher gain is strictly prohibited per regulations of Industry Canada. 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. Caution Reader antennas should be positioned so that personnel in the area for prolonged periods may safely remain at least 23 cm (9 in) in an uncontrolled environment from the antennas surface. See FCC OET Bulletin 56 Hazards of radio frequency and electromagnetic fields and Bulletin 65 Human exposure to radio frequency electromagnetic fields. Alien Technology TABLE OF CONTENTS Hardware Setup Guide ALR-F800 June 2015 Table of Contents CHAPTER 1 INTRODUCTION ..................................................................................................................... 1 RFID Reader Overview ................................................................................................................................. 1 EPC Class 1 GEN 2 UHF RFID Tags ........................................................................................................... 2 Requirements ................................................................................................................................................ 2 Specifications ................................................................................................................................................ 3 RFID Reader ........................................................................................................................................... 3 RFID Reader High Performance Circular Antenna ................................................................................ 4 Mechanical: Reader Physical Size ........................................................................................................ 4 I/O Port Terminal Interface ..................................................................................................................... 4 RS-232 Port Pin-outs .............................................................................................................................. 6 RS-232 Connector (Female) Looking at Reader .......................................................................... 6 Power Supplies ....................................................................................................................................... 7 System Architecture ............................................................................................................................... 8 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION ................................................ 9 Receiving the RFID Reader .......................................................................................................................... 9 Reader I/O Panel .................................................................................................................................. 10 Diagnostic LEDs ................................................................................................................................... 11 Reader Antennas ........................................................................................................................................ 12 System Assembly and Bench Test ............................................................................................................. 12 Bench Test Configuration ..................................................................................................................... 12 Bench Test Procedure .......................................................................................................................... 16 Installation ................................................................................................................................................... 16 Requirements ....................................................................................................................................... 17 Hardware Installation Procedure .......................................................................................................... 17 System Operation: Software Control .......................................................................................................... 19 Reader Interface Guide ........................................................................................................................ 20 Demonstration Software Guide ............................................................................................................ 20 Alien RFID Academy ............................................................................................................................ 20 ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A i CHAPTER 1 INTRODUCTION CHAPTER 1 Introduction This Hardware Setup Guide provides instructions for installing and operating the ALR-F800 RFID Readers. This document is designed for use by RFID system integrators and software developers - those who wish to develop software products and extended systems that take full advantage of the RFID Reader's capabilities. Included with each developers kit is a Download instructions that contains additional information about RFID and the ALR-F800 including the following:
RFID Primer an overview of RFID technology and a glossary of terms. Reader Interface Guide an overview of the communication interfaces for the ALR-F800. Quick Installation Guide a quick start guide for installing and running the ALR-F800 reader Quick Reference a quick reference guide summarizing the Alien Reader Protocol command set. Demo Software Guide details installing and operating the Alien RFID Gateway demonstration software. Quick Upgrade Guide briefly explains how to use the demonstration software to upgrade the ALR-F800. The ALR-F800 can only be upgraded through the LAN/PoE port. Developers Guides, Application Programming Interfaces and Example Code. RFID Reader Overview The Alien ALR-F800 RFID reader is designed to read and program any EPC Class 1 Generation 2 tag and issue event reports to a host computer system. The host computer can be locally connected to the reader via RS-232,serial over USB or at a remote network location. It is designed to accept power through an IEEE 802.3af compliant network or a conventional 12 Volt DC power source. The RFID Reader is delivered with the following components:
One (1) RFID Reader The RFID Reader Kit is delivered with the following components and accessories:
One (1) RFID Reader One (1) PoE power supply One (1) AC power cord One (1) standard network cable to connect the PoE power supply to the reader. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 1 CHAPTER 1 INTRODUCTION Additionally, the RFID Reader Developer's Kit includes the following items:
One (1) ALR-8696-C antenna One (1) RS-232 serial cable (to connect to host computer) One (1) Network cross-over cable Download instructions for demonstration software, user guides, documentation and the Alien RFID Gateway Application Software APIs and example code An assortment of Class 1 Gen 2 UHF tags EPC Class 1 GEN 2 UHF RFID Tags The Alien ALR-F800 RFID reader is designed to read and program any EPC Class 1 Generation 2 tag and issue event reports to a host computer system. Class 1 tags are passive devices meaning they do not have a battery or other onboard power source. They are powered solely by the RF energy transmitted by an RFID reader. Tags communicate with the reader through backscatter modulation. The tags do not transmit RF energy. Instead, they change their reflective characteristics in a controlled way and reflect RF energy back to the reader. An analogy to this is the way you can use a mirror to signal someone by reflecting light from the Sun. Alien Technology manufactures user-programmable EPC Class 1 Generation 2 tags compliant with all key commercial and DoD mandates. Alien Technology offers a variety of designs capable of delivering optimal performance worldwide, including Europe and Asia. For more information about RFID tags from Alien Technology, please visit our website at:
http://www.alientechnology.com. Requirements To interface with the RFID Reader you will need the following:
A PC running Windows 98 or higher, with CD-ROM drive, an available RS-232 serial port and/or Ethernet connectivity and/or USB. An 802.3af compatible network connection, or Standard 120/220 VAC 50/60 Hz outlet and the POE power supply
(provided with the reader kit) or DC power cable. Note: Only these supplies may be used to power the ALR-F800. Host software (Alien Gateway demo software, telnet terminal or your own custom software) ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 2 CHAPTER 1 INTRODUCTION Specifications Specifications for key components of the RFID Reader system are provided in the tables below. Only these listed components may be used in the RFID reader system. The reader table refers to US specifications only. Reader models released for the other countries may have different power levels, frequency of operation and channel spacing in compliance with local regulations where the product is sold. RFID Reader Name Model Number Architecture Operating Frequency Hopping Channels Channel Spacing Channel Dwell Time RF Transmitter Modulation Method 20 db Modulation Bandwidth RF Receiver Power Consumption Communications Interface Inputs/Outputs Dimensions Weight LED Indicators Operating Temperature Operating Environment Software Support Protocol Support Compliance Certifications Alien Multi-Port General Purpose RFID Reader ALR-F800 Point-to-multipoint reader network, mono-static 902.75 MHz 927.25 MHz 50 500 KHz
< 0.4 seconds
< 30 dBm from antenna ports. Phase Reversal Amplitude Shift Keying (PR-ASK)
< 100 KHz 2 Channels 12.5 Watts RS-232 (DB-9), TCP/IP (RJ-45) , USBB virtual Com 4 coax antenna, 4 inputs / 8 outputs (optically isolated), RS-232 com port, USBB virtual Com, LAN / PoE, power, USBA, SDCard
(cm) 19.1 x 20.2 x 2.8 (in)7.5 x7.0x 1.0 Approximately 0.84 kg (1.85 lbs) DC Power, RF ON, Read, Fault(red), Link, Active , Antennas 0-3
-20C to +55C (-5 F to +130F) Indoor operation only APIs, sample code, executable demo app (Alien Gateway) Comply with EPC Class 1 Gen 2 and 18000 6C FCC Part 15; FCCID: P65ALRF800;
IOC: 4370A-ALRF800 UL 60950, CB Report ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 3 CHAPTER 1 INTRODUCTION Mechanical: Reader Physical Size Figure 1 - Outline Drawing of the ALR-F800 (mm) RFID Reader High Performance Circular Antenna Model 3 dB Beamwidth Frequency Gain (dBi) Polarization RF Connector VSWR Dimensions Weight ALR-8696-C E-plane: 65 degrees H-plane: 65 degrees 865-960 MHz 6.0 dBiL (maximum) Circular 6 m LMR-195 with Reverse-Polarity TNC 1.5:1
(cm) 26 x 26 x 3.4 (in) 10.2 x 10.2 x 1.32 1.1 kg 2.5 lb ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 4 CHAPTER 1 INTRODUCTION I/O Port Terminal Interface The ALR-F800 I/O port provides four digital inputs and eight digital outputs, optically isolated from the reader circuitry for use in noisy industrial environments. Opto-isolators have two basic elements: a light source (usually a light emitting diode) and a photo-sensitive detector. These two elements are positioned facing one another and inserted in an electrical circuit to form an opto-
coupler. The key property of an opto-coupler is that there is an insulating gap between the light source and the detector. No current passes through this gap, only the desired light waves representing data. Thus the two sides of the circuit are electrically isolated from one another. This protects the circuitry inside the reader from damaging ground loops (when the external device is at a different ground potential than the reader), and voltage spikes. The external device must supply the V+ and V- voltage references. Alternatively if isolation is NOT required an internal 12V power source is supplied and can be routed to the V+ and V- pins with a jumper wire. This is only available if the unit is powered by the DC source jack. I/O Port Screw Terminal Connector
(Phoenix 14-pin header) Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 Pin 10 Pin 11 Pin 12 Pin 13 Pin 14 Pin 15 Pin 16
(5-24 VDC External)
(1.5A max; 7.3A total)
"
"
"
"
"
"
"
V+
V- (Return External) Output 0 Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 Input 0 Input 1 Input 2 Input 3 Internal Fused 12.0 VDC Chassis GND
(5-24 VDC)
"
"
"
ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 5 CHAPTER 1 INTRODUCTION I/O PORT SCREW TERMINAL (FEMALE) LOOKING AT READER Figure 2 - Input and Output Circuits RS-232 Port Pin-outs RS-232 Connector
(Female DB-9F) Pin 1 DCD Connected to Pin 6 Pin 2 TR1 Transmit Data (Output) Pin 3 RC1 Receive Data (Input) Pin 4 DTR Connected to Pin 6 Pin 5 Ground Pin 6 DSR Connected to Pin 4 Pin 7 RTS Connected to Pin 8 Pin 8 CTS Connected to Pin 7 Pin 9 Not Connected RS-232 CONNECTOR (FEMALE) LOOKING AT READER 5 4 3 2 1 9 8 7 6 Figure 3 - RS-232 Connector ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 6 CHAPTER 1 INTRODUCTION USB Ports There two USB ports on the back of the ALR-F800 reader USB-A and USB-B. They are both female connectors and their functionality is as follows:
USB-A is used to connect various USB devices including USB flash drives, Wi-Fi and Bluetooth adapters. USB-B is used as a serial console for either Alien Reader Protocol interface or Linux OS login. Power Supplies The ALR-F800 has been certified to operate in accordance with FCC or other national requirements when powered by an 802.3af compliant network capable of supplying 12.95 watts minimum, or by using one of the power supplies listed below. Only the power supplies listed below may be used with the ALR-F800 reader. ALR-F800, CORD PACK Power over Ethernet (PoE) Power Supply ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 7 CHAPTER 1 INTRODUCTION System Architecture 0 t n A 1 t n A 2 t n A 3 t n A 8 Figure 4 - System Architecture for the ALR-F800 Reader ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION CHAPTER 2 Reader Hardware Installation and Operation This chapter describes the RFID Reader and provides installation and operation information. Receiving the RFID Reader Your RFID Reader is shipped with the items listed below. Please verify the contents of your received shipment before assembling. RFID reader The RFID Reader Kit is shipped with the items listed below. RFID reader ALR-F800 Cord Pack which includes the PoE power supply, AC power cable and standard Ethernet cable. Additionally, the RFID Reader Developer's Kit includes the following items:
An ALR-8696-C antenna RS-232 reader-to-PC cable One Ethernet cross-over cable for direct connection to a local host/PC Download instructions for demonstration software, user guides, documentation, Software APIs and example code An assortment of Class 1 Gen 2 UHF tags ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 9 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Figure 5 - ALR-F800 Reader (Antennas and tag kit not shown) Reader Antenna Panel 4 Antenna Ports (RP-TNC) ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 10 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Reader I/O Panel The I/O panel (shown below) includes the following( Left to Right):
LAN TCP/IP and PoE port Auxiliary DC Power connector Reset button USB A USB B SDCard 9-pin D female RS-232 serial port 16-pin I/O terminal block (GPIO) Figure 6 - ALR-F800 Reader Connections Diagnostic LEDs The ALR-F800 includes diagnostic LEDs on the face of the reader to provide easy and convenient external indication for various operating conditions:
On the Front Panel you will find:
POWER (green) indicates power is applied to the reader. CPU (green) indicates CPU is active. (red) indicates a fault condition with the reader READ (green) indicates that the reader is receiving data from a tag. Sniff (green) indicates a tag signal has been detected, though it may not be strong enough yet to complete a transaction. Antenna Lights 0-3 (green) indicates Active transmitting antenna. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 11 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Figure 7 ALR-F800 Front Panel Reader Diagnostic LEDs Reader Antennas The ALR-F800 includes 4 antenna ports. These antenna ports are a reverse-
polarity TNC connector. Only antennas documented in this manual (FCC approved) may be used with the ALR-F800. System Assembly and Bench Test Assembling the RFID Reader system is easy. We recommend you set up the system and verify its operation in a bench test configuration before installing it in a production setting. Bench Test Configuration 1. Place the Reader on a tabletop. Ensure that a standard 120 or 220 VAC outlet or 802.3af compliant network port is nearby, and there is sufficient space is available on the tabletop for the reader and antenna. Figure 8 Power, RS-232, USB, SDCard and LAN Connections ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 12 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION 2. Connect the RS-232 cable or USB B to the reader. Align the male cable connector so that its shape and pins match the shape and holes of the female DB-9 RS-232 port. Figure 9 - RS-232 Connector Push the aligned connector into the port. Finger-tighten the screws to secure the cable/connector to the reader. 3. Connect the RS-232 cable to the serial port on the PC. Settings for RS-232 are 115,200 baud, 8 data bits, no parity, 1 stop bit, and no flow control. Start up terminal software on the PC, such as HyperTerminal with these settings, and be prepared to observe the reader's messages as it boots up. 4. Connect the POE power supply to the reader. If you are using an 802.3af compliant network, skip this step. WARNING: You must use the PoE power supply certified for use with the ALR-F800 by Alien Technology. Failure to do so voids the product warranty and violates the terms of the FCC license. If you are using the PoE power supply, use the standard Ethernet cable to connect the reader RJ-45 jack to the LAN+DC RJ-45 jack of the power supply. If you are using the optional DC power cord, connect the DC power jack into the DC power plug of the reader. Tighten the screw fitting finger tight. DO NOT plug the AC power or the DC cord into the supply at this time. 5. Connect the Ethernet cable to the reader and LAN or PC. If you are using an 802.3af compliant network to power the reader skip this step. Connecting to the LAN If you are using the PoE power supply provided with the Reader Kit, connect a standard Ethernet cable from the PoE power supply LAN port to a nearby LAN drop or network switch. If you are using the DC power cord, connect a standard Ethernet cable to the ALR-F800 LAN/PoE port and to the LAN drop or network switch. Connecting directly to a PC If you are using the PoE power supply provided with the Reader Kit, connect a cross-over Ethernet cable from the PoE power supply LAN port to the PC LAN port. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 13 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION If you are using the AC/DC power brick, connect a cross-over Ethernet cable to the ALR-F800 LAN/PoE port and to the PC LAN port. Figure 10 PoE Power Supply and Network Connection Diagram Figure 11 12V DC cord and Network Connection Diagram The reader comes preconfigured to look for a DHCP server to set its network parameters. In the absence of a DHCP server, the reader will use the following settings:
ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 14 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway: 192.168.1.1 6. Connect the antenna to the antenna port. The ALR-F800 is a mono-static system (a single antenna acts as both transmitter and receiver). Four antenna ports (ANT 0-3) are provided. Each antenna provides a single read point. Only the antennas listed in this manual and their associated cables (if specified) may be used with this reader. The antenna ports are found on the reader I/O panel on the left hand side if viewing the reader from the top with the connectors at the bottom. It uses a reverse polarity TNC connector. If using the Alien Gateway software, please note that ANT 0 is selected by default when first initialized. Align the antennas coax cables center pin and push it into the port. Screw the fitting from the cable end onto the reader connector clockwise until finger-tight to secure the cable to the reader. 7. Power up the reader If you are using an 802.3af compliant network to power the ALR-F800 connect a standard LAN cable between the ALR-F800 LAN/PoE port and the 802.3af enabled LAN drop or network switch. The green POWER LED will illuminate when power is on. Note: If using an 802.3af compliant network it must be capable of supplying up to 12.95 watts. Figure 12 802.3af Network Connection Diagram If you are using the PoE Power supply or the DC cord, plug the AC power cord into the supply and into the wall outlet. The green POWER LED will illuminate when power is on. 8 Observe the reader's boot-up trace on the serial port, and determine the network settings. The RS-232 port displays useful information while the reader boots, including network settings. Toward the end of the trace, the reader displays a block of text similar to the following:
ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 15 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION
---------------------------------------------
Network Settings:
MAC Address : 00:80:66:10:2D:12 DHCP : 1 IP Address : 10.9.8.10 Netmask : 255.255.255.0 Gateway : 10.9.8.2 DNS : 10.9.8.1 TimeServer : time-a.timefreq.bldrdoc.gov TimeZone : -7
---------------------------------------------
Once the reader boots and you see the "Boot>Ready!" prompt, pressing return will bring up the "Alien>" prompt. 9. Ensure the PC has compatible network settings. In order for you to be able to connect to the reader over TCP/IP, the host PC must be on the same subnet as the reader. If you are unfamiliar with how to do this, consult your local IT service for assistance. Once the initial connection is made, you may configure your reader's network settings as you choose. Refer to the Reader Interface Guide for instructions on how to do this. You are now ready to bench test or demonstrate the RFID Reader system. Bench Test Procedure 1. Position the reader so you can see the diagnostic LEDs You may also want to position the PC so you can view the monitor 2. Access an operational mode suitable for bench testing. Open the Alien Gateway RFID Demonstration Application. Select Tag Grid on Gateway. The RF ON light should illuminate. Refer to the applicable software application user guide for specific instructions. 3. Move a tag slowly away from the antennas range. Begin with the tag well inside the expected read range (~2m or 6 ft) and move it toward the antenna while observing the LEDs. 4. Verify the READ LED illuminates when the tag is inside the read zone. The READ LED should illuminate green. 5. Verify the host receives the tag data. The tag should be displayed on the monitor. If bench test conditions are verified, proceed to installation. 6. Installation This section provides guidance for configuring components in your RFID system. You should consider the overall design of your specific system before permanently mounting the equipment. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 16 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Installation involves many of the same connection steps required for bench test. However, instead of placing equipment on a tabletop, the reader, antenna, and their accessories are mounted in your application environment. Requirements Before installing your RFID Reader system, you will need the following:
An 802.3af compliant network connection or standard 120 or 220 VAC power outlet WARNING: If you do not use an 802.3af compliant network to supply DC power you must use the power supplies provided by Alien Technology. Failure to do so voids the product warranty and violates the terms of the FCC license. RS-232 cables, Ethernet cables or antenna coax cables needed to accommodate routing requirements. Mounting hardware suitable for the surface to which equipment is to be attached. Use M4 pan head screws 4.5mm maximum thread length. Hardware Installation Procedure 1. Select mounting position for antenna(s). CAUTION: Reader antenna should be positioned so that personnel in the area for prolonged periods may safely remain at least 23 cm (9 in) in an uncontrolled environment from the antennas surface. See FCC OET Bulletin 56 Hazards of radio frequency and electromagnetic fields and Bulletin 65 Human exposure to radio frequency electromagnetic fields. Mount the reader and antenna(s) at the periphery of the desired read window so that the position of the most distant tag passing through the window is no farther from the antenna than the maximum range specified for your system design. Position the reader and antenna(s) at a height approximately midway between the highest and lowest expected tag position. (For example, a pallet tag may be the lowest tag position to be read, while the top-most case on a fully stacked pallet may represent your highest tag position.) NOTE: To maintain compliance with FCC regulations, use only antennas, cables, and power supplies supplied with the unit or approved by Alien Technology for use with the ALR-F800. 2. Select mounting position for reader. The ALR-F800 has been designed to provide reliable operation over its operating temperature range. This is enhanced by proper mounting of the reader during bench test and installation. Place the reader on a solid, thermally conductive surface. Optimum thermal performance is achieved by mounting the unit to a metal mounting plate with direct contact between the reader base and the mounting plate. When mounting vertically the reader IO panel should be oriented at the bottom. Antennas should be placed close enough to the reader to accommodate the cable length without putting strain on the connectors. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 17 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION 3. Mount units individually. Do not stack them. Install the reader. Secure the reader through the four mounting holes to its mounting location (wall, post, mounting bracket) using appropriate M4 pan head screws less than 4.5 mm long. 4. Install the antenna(s). Secure the antenna through the mounting holes on either flange to its mounting location using appropriate hardware. 5. Connect the antenna(s) to reader. Route coax cable from the antenna to the reader according to your system design specifications and secure it properly. Do not kink the antenna cable and maintain bend radii of at least 1 inch. Align the connector of the cable with the reader antenna port, push into the port, and finger-tighten the screw fitting. 6. Connect reader power supply. If you are using an 802.3af compliant network for reader power skip this step If you are using the PoE power supply, use a short standard Ethernet cable to connect the readers RJ-45 jack to the LAN+DC RJ-45 jack of the power supply. Align the RJ-45 connector with the corresponding TCP/IP port on the reader or the power supply and push the connector in. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 18 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION If you are using the optional DC power cord, connect the DC power jack into the DC power plug of the reader. Tighten the screw fitting finger tight. DO NOT plug the AC power cord into the supply at this time. 7. Connect reader to the LAN or host PC. If you are using an 802.3af compliant network for reader power skip this step. If you are using the PoE power supply, connect the Ethernet cable into the LAN jack of the power supply. Align the RJ-45 connector with the corresponding TCP/IP port on the power supply and push the connector in. Connect the other end to a LAN drop or network switch. You may optionally connect the reader directly to a PC's network port, but you should use an Ethernet cross-over cable in this situation. If you are using the DC power cord, connect the Ethernet cable into the LAN jack of the reader. Align the RJ-45 connector with the corresponding TCP/IP port on the reader and push the connector in. Connect the other end to a LAN drop or network switch. You may optionally connect the reader directly to a PC's network port, but you should use an Ethernet cross-over cable in this situation. If you wish to observe the reader's boot up trace, or control the reader via RS-232, align and connect a DB-9 serial cable to the reader's RS-232 port, and to the serial port on the PC. Configure your terminal software as described previously in the Bench Test Configuration section. 8. Connect reader power. If you are using an 802.3af compliant network to power the ALR-F800, connect a standard LAN cable between the ALR-F800 LAN/PoE port and the 802.3af enable LAN drop or network switch. The green POWER LED will illuminate when power is on Note: If using an 802.3af compliant network it must be capable of supplying up to 12.95 watts. If you are using the PoE power supply or the DC cord, plug the AC power cord into the supply and into the wall outlet. The green POWER LED will illuminate when power is on. 9. You are now ready to use the reader. System Operation: Software Control The ALR-F800 RFID Reader is controlled from software running on a host system that communicates with the reader using the ASCII-based Alien Reader Protocol. All applications use this protocol to communicate with the reader. You may operate the reader from your own application code, using the example code provided on the Developers Kit download, or using the Alien RFID Gateway application which is a demonstration program also included in your download instructions. For more details, refer to either the Reader Interface Guide or the Demonstration Software Guide described briefly below. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 19 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Reader Interface Guide The Alien Reader Protocol, mentioned previously, is described in detail in the Reader Interface Guide. Using this interface, the reader can be configured to read tags when queried or after one of a variety of event triggers (e.g., a rising edge on one of the I/O pins or a timer). Tag data acquired in response to these triggers can be transmitted to the host in a number of formats (e.g., text, XML or custom) and under a number of conditions (e.g., on a new tag being observed, or a tag disappearing from view). If you are a software developer, the Reader Interface Guide provides the information you will need to connect to the reader from a host computer, communicate with it, and customize its performance. Demonstration Software Guide The Demonstration Software Guide describes the installation and operation of the Alien RFID Gateway application. The Alien RFID Gateway application is a useful demonstration program that allows users to explore the readers functionality and build customizable demos with a user-friendly interface. Using the Gateway, the various operating modes of the reader can be controlled and custom interactive demos can be constructed using sounds, images, and text. Alien RFID Academy Need to absorb RFID systems fast? Enroll in the Alien RFID Academy! In two or three days we'll share our practical expertise in RFID tags, antennas, readers, frequencies, systems, and protocols. The Alien RFID Academy is a hands-on immersion into the workings, uses, and challenges of RFID technology. Rather than a product pitch, we put products to the test in the classroom, provide students with hands-on exposure in our RFID Solutions Center, and short-cut the learning curve by sharing practical solutions to real-world challenges. You'll learn best industry practice tag placement techniques for packaging and pallets alike. Upon completion of the training, you will learn how to avoid common costly mistakes, know how to make the correct decisions for your business, how to select the right RFID options for your requirements, and where to find RFID answers. Alien RFID Intermediate / Advanced Academy Topics:
RFID Physics, Protocols & Practical Applications Tag Placement & Packaging Considerations RFID Reader/System Configuration & Optimization Hands-on Implementation RFID System Architecture and Integration Conducting Site-surveys & Contending with Interference Please visit http://www.alientechnology.com for more information. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV A 20
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ALIEN TECHNOLOGY ALR-F800 HARDWARE SETUP GUIDE August 2016 ALR-F800 Legal Notices Copyright 2016 Alien Technology Corporation. All rights reserved. Alien Technology Corporation has intellectual property rights relating to technology embodied in the products described in this document, including without limitation certain patents or patent pending applications in the U.S. or other countries. This document and the products to which it pertains are distributed under licenses restricting their use, copying, distribution and de-compilation. No part of this product documentation may be reproduced in any form or by any means without the prior written consent of Alien Technology Corporation and its licensors, if any. Third party software is copyrighted and licensed from Licensors. Alien, Alien Technology, the Alien logo, Higgs, Squiggle, the Squiggle logo, and other graphics, logos, and service names used in this document are trademarks of Alien Technology Corporation in the U.S. and other countries. All other trademarks are the property of their respective owners. U.S. Government approval required when exporting the product described in this documentation. Federal Acquisitions: Commercial Software -- Government Users Subject to Standard License Terms and Conditions. U.S. Government: If this Software is being acquired by or on behalf of the U.S. Government or by a U.S. Government prime contractor or subcontractor (at any tier), then the Government's rights in the Software and accompanying documentation shall be only as set forth in this license; this is in accordance with 48 C.F.R. 227.7201 through 227.7202-4 (for Department of Defense (DoD) acquisitions) and with 48 C.F.R. 2.101 and 12.212 (for non-DoD acquisitions). DOCUMENTATION IS PROVIDED AS IS AND ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARANTEES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGMENT ARE HEREBY DISCLAIMED, EXCEPT TO THE EXTENT THAT SUCH DISCLAIMERS ARE HELD TO BE LEGALLY INVALID. 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. 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 instruction manual, may cause harmful interference with radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his expense. Any change or modification to this product voids the users authority to operate per FCC Part 15 Subpart A. Section 15.21 regulations. Caution Reader antennas should be positioned so that personnel in the area for prolonged periods may safely remain at least 23 cm (9 in) in an uncontrolled environment from the antennas surface. See FCC OET Bulletin 56 Hazards of radio frequency and electromagnetic fields and Bulletin 65 Human exposure to radio frequency electromagnetic fields. Industry Canada Compliance Operation is subject to the following two conditions: (1) this device may not cause interference and (2) this device must accept any interference, including interference that may cause undesired operation of the device. This device has been designed to operate with an antenna having a maximum gain of 6dBi. 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. Reader antennas should be positioned so that personnel in the area for prolonged periods may safely remain at least 34 cm in an uncontrolled environment from the antennas surface. Son fonctionnement est soumis aux deux conditions suivantes: ( 1 ) cet appareil ne peut pas provoquer d'interfrences et (2 ) ce dispositif doit accepter toute interfrence , y compris les interfrences qui peuvent entraner un mauvais fonctionnement de l'appareil. Ce dispositif a t conu pour fonctionner avec une antenne ayant un gain maximum de 6 dBiL. Limpdance d'antenne requise est de 50 ohms. Pour rduire les interfrences radio potentielles pour les autres utilisateurs, le type d'antenne et son gain doivent tre choisis afin que la puissance isotrope quivalente (PIRE ) ne soit pas suprieure celle requise pour une bonne communication. Les antennes du lecteur devraient tre positionns de telle sorte que le personnel oprant dans la region dmission pendant des priodes prolonges peuvent rester en toute scurit au moins 34 cm de la surface de l'antenne dans un environnement non contrl. Legal Notices Continued European Radio Compliance. This Equipment has been tested and found compliant with the following Mandatory Specifications:
EN 302 208 Electromagnetic Compatibility and Radio spectrum Matters (ERM) Radio Frequency Identification Equipment operating in the band 865 MHz to 868 MHz with Power levels of 2W ERP. Part 1: Technical requirements and methods of measurements Part 2: Harmonized EN under article 3.2 of R&TTE Directive. EN 301 489 Electromagnetic compatibility and Radio spectrum Matters (ERM) Electromagnetic Compatibility (EMC) standards for Radio equipment and services:
Part 1: Common technical requirements Part 3: Specific conditions for short-Range Devices (SRD) operating on frequencies between 9kHz and 40GHz. EN 62311:2008 Caution Reader antennas should be positioned so that personnel in the area for prolonged periods may safely remain at least 25.5 cm, in an uncontrolled environment from the antennas surface. This is in accordance with EN50364 European safety standards for Human exposure and exposure level radiation limits imposed by The Commission for Non-
Ionizing Radiation. ICNIRP EN60950 / UL 60950 / IEC 60950 Safety of information technology equipment. ThisradiomustbeusedwiththeexternalmainstoDCpoweradaptorpoweredbytheULand/orTUVListedandIECCertified LPSorClass2externalpowersupplyrated:POEOutput56V/0.55AorDC12V/2.5A,suppliedwiththeproduct. 2280 Alien Technology TABLE OF CONTENTS Hardware Setup Guide ALR-F800 January 2016 Table of Contents CHAPTER 1 INTRODUCTION ..................................................................................................................... 1 RFID Reader Overview ................................................................................................................................. 1 EPC Class 1 GEN 2 UHF RFID Tags ........................................................................................................... 2 Requirements ................................................................................................................................................ 2 Specifications ................................................................................................................................................ 3 RFID Reader ........................................................................................................................................... 3 Mechanical: Reader Physical Size ........................................................................................................ 4 RFID Reader High Performance Circular Antenna ................................................................................ 4 I/O Port Terminal Interface ..................................................................................................................... 5 I/O Port Screw Terminal (Female) Looking at Reader .................................................................. 6 RS-232 Port Pin-outs .............................................................................................................................. 6 RS-232 Connector (Female) Looking at Reader .......................................................................... 6 USB Ports ............................................................................................................................................... 7 Power Supplies ....................................................................................................................................... 7 System Architecture ............................................................................................................................... 8 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION ................................................ 9 Receiving the RFID Reader .......................................................................................................................... 9 Reader Antenna Panel ......................................................................................................................... 10 Reader I/O Panel .................................................................................................................................. 11 Diagnostic LEDs ................................................................................................................................... 11 Reset button ......................................................................................................................................... 11 Reader Antennas ........................................................................................................................................ 12 System Assembly and Bench Test ............................................................................................................. 12 Bench Test Configuration ..................................................................................................................... 12 Bench Test Procedure .......................................................................................................................... 16 Installation ................................................................................................................................................... 17 Requirements ....................................................................................................................................... 17 Hardware Installation Procedure .......................................................................................................... 17 System Operation: Software Control .......................................................................................................... 19 Reader Interface Guide ........................................................................................................................ 20 Demonstration Software Guide ............................................................................................................ 20 Alien RFID Academy ............................................................................................................................ 20 Approved High Performance Circular Antennas ......................................................................................... 22 ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B i CHAPTER 1 INTRODUCTION CHAPTER 1 Introduction This Hardware Setup Guide provides instructions for installing and operating the ALR-F800 RFID Readers. This document is designed for use by RFID system integrators and software developers - those who wish to develop software products and extended systems that take full advantage of the RFID Reader's capabilities. Included with each developers kit is a Download instructions that contains additional information about RFID and the ALR-F800 including the following:
RFID Primer an overview of RFID technology and a glossary of terms. Reader Interface Guide an overview of the communication interfaces for the ALR-F800. Quick Installation Guide a quick start guide for installing and running the ALR-F800 reader Quick Reference a quick reference guide summarizing the Alien Reader Protocol command set. Demo Software Guide details installing and operating the Alien RFID Gateway demonstration software. Quick Upgrade Guide briefly explains how to use the demonstration software to upgrade the ALR-F800. The ALR-F800 can only be upgraded through the LAN/PoE port. Developers Guides, Application Programming Interfaces and Example Code. RFID Reader Overview The Alien ALR-F800 RFID reader is designed to read and program any EPC Class 1 Generation 2 tag and issue event reports to a host computer system. The host computer can be locally connected to the reader via RS-232,serial over USB or at a remote network location. It is designed to accept power through an IEEE 802.3af compliant network or a conventional 12 Volt DC power source. The RFID Reader is delivered with the following components:
One (1) RFID Reader The RFID Reader Kit is delivered with the following components and accessories:
One (1) RFID Reader One (1) PoE power supply One (1) AC power cord One (1) standard network cable to connect the PoE power supply to the reader. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 1 CHAPTER 1 INTRODUCTION Additionally, the RFID Reader Developer's Kit includes the following items:
One (1) ALR-8696-C antenna One (1) RS-232 serial cable (to connect to host computer) One (1) Network cross-over cable Download instructions for demonstration software, user guides, documentation and the Alien RFID Gateway Application Software APIs and example code An assortment of Class 1 Gen 2 UHF tags EPC Class 1 GEN 2 UHF RFID Tags The Alien ALR-F800 RFID reader is designed to read and program any EPC Class 1 Generation 2 tag and issue event reports to a host computer system. Class 1 tags are passive devices meaning they do not have a battery or other onboard power source. They are powered solely by the RF energy transmitted by an RFID reader. Tags communicate with the reader through backscatter modulation. The tags do not transmit RF energy. Instead, they change their reflective characteristics in a controlled way and reflect RF energy back to the reader. An analogy to this is the way you can use a mirror to signal someone by reflecting light from the Sun. Alien Technology manufactures user-programmable EPC Class 1 Generation 2 tags compliant with all key commercial and DoD mandates. Alien Technology offers a variety of designs capable of delivering optimal performance worldwide, including Europe and Asia. For more information about RFID tags from Alien Technology, please visit our website at:
http://www.alientechnology.com. Requirements To interface with the RFID Reader you will need the following:
A PC running Windows 98 or higher, with CD-ROM drive, an available RS-232 serial port and/or Ethernet connectivity and/or USB. An 802.3af compatible network connection, or Standard 120/220 VAC 50/60 Hz outlet and the POE power supply
(provided with the reader kit) or DC power cable. Note: Only these supplies may be used to power the ALR-F800. Host software (Alien Gateway demo software, telnet terminal or your own custom software) ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 2 CHAPTER 1 INTRODUCTION Specifications Specifications for key components of the RFID Reader system are provided in the tables below. Only these listed components may be used in the RFID reader system. The reader table refers to US or ETSI specifications only. Reader models released for the other countries may have different power levels, frequency of operation and channel spacing in compliance with local regulations where the product is sold. RFID Reader Name Model Number Architecture Operating Frequency Hopping Channels Channel Spacing Channel Dwell Time RF Transmitter Modulation Method 20 db Modulation Bandwidth RF Receiver Power Consumption Communications Interface Inputs/Outputs Dimensions Weight LED Indicators Operating Temperature Operating Environment Software Support Protocol Support Compliance Certifications Alien Multi-Port General Purpose RFID Reader ALR-F800; ALR-F800-EMA Point-to-multipoint reader network, mono-static 902.75 MHz 927.25 MHz or 865.7MHz 867.5MHz 50 USA or 4 ETSI 500 KHz USA or 600 KHz ETSI
< 0.4 seconds USA or < 4s ETSI
< 30 dBm at the end of 6 m LMR-195 cable Phase Reversal Amplitude Shift Keying (PR-ASK)
< 100 KHz 2 Channels
<13 Watts (dependent on use model) RS-232 (DB-9), TCP/IP (RJ-45) , USBB virtual Com 4 coax antenna, 4 inputs / 8 outputs (optically isolated), RS-232 com port, USBB virtual Com, LAN / PoE, power, USBA, SDCard
(cm) 19.1 x 20.2 x 2.8 (in)7.5 x7.0x 1.0 Approximately 0.84 kg (1.85 lbs) DC Power, RF ON, Read, Fault(red), Link, Active , Antennas 0-3
-20C to +55C (-5 F to +130F) Indoor operation only APIs, sample code, executable demo app (Alien Gateway) Comply with EPC Class 1 Gen 2 and 18000 6C FCC Part 15; FCCID: P65ALRF800B;
IOC: 4370A-ALRF800B;
CE: CE2280 UL EN IEC 60950, CB Report ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 3 CHAPTER 1 INTRODUCTION Mechanical: Reader Physical Size Figure 1 - Outline Drawing of the ALR-F800 (mm) RFID Reader High Performance Circular Antenna Model 3 dB Beamwidth Frequency Gain (dBi) Polarization RF Connector VSWR Dimensions Weight ALR-8696-C E-plane: 65 degrees H-plane: 65 degrees 865-960 MHz 6.0 dBiL (maximum) Circular 6 m LMR-195 with Reverse-Polarity TNC 1.5:1
(cm) 26 x 26 x 3.4 (in) 10.2 x 10.2 x 1.32 1.1 kg 2.5 lb ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 4 CHAPTER 1 INTRODUCTION I/O Port Terminal Interface The ALR-F800 I/O port provides four digital inputs and eight digital outputs, optically isolated from the reader circuitry for use in noisy industrial environments. Opto-isolators have two basic elements: a light source (usually a light emitting diode) and a photo-sensitive detector. These two elements are positioned facing one another and inserted in an electrical circuit to form an opto-
coupler. The key property of an opto-coupler is that there is an insulating gap between the light source and the detector. No current passes through this gap, only the desired light waves representing data. Thus the two sides of the circuit are electrically isolated from one another. This protects the circuitry inside the reader from damaging ground loops (when the external device is at a different ground potential than the reader), and voltage spikes. The external device must supply the V+ and V- voltage references. Alternatively if isolation is NOT required an internal 12V power source is supplied and can be routed to the V+ and V- pins with a jumper wire. This is only available if the unit is powered by the DC source jack. I/O Port Screw Terminal Connector
(Phoenix 14-pin header) Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 Pin 10 Pin 11 Pin 12 Pin 13 Pin 14 Pin 15 Pin 16
(5-24 VDC External)
(1.5A max; 7.3A total)
"
"
"
"
"
"
"
V+
V- (Return External) Output 0 Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 Input 0 Input 1 Input 2 Input 3 Internal Fused 12.0 VDC Chassis GND
(5-24 VDC)
"
"
"
ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 5 CHAPTER 1 INTRODUCTION I/O PORT SCREW TERMINAL (FEMALE) LOOKING AT READER Figure 2 - Input and Output Circuits RS-232 Port Pin-outs RS-232 Connector
(Female DB-9F) Pin 1 DCD Connected to Pin 6 Pin 2 TR1 Transmit Data (Output) Pin 3 RC1 Receive Data (Input) Pin 4 DTR Connected to Pin 6 Pin 5 Ground Pin 6 DSR Connected to Pin 4 Pin 7 RTS Connected to Pin 8 Pin 8 CTS Connected to Pin 7 Pin 9 Not Connected RS-232 CONNECTOR (FEMALE) LOOKING AT READER 5 4 3 2 1 9 8 7 6 Figure 3 - RS-232 Connector ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 6 CHAPTER 1 INTRODUCTION USB Ports There two USB ports on the back of the ALR-F800 reader USB-A and USB-B. They are both female connectors and their functionality is as follows:
USB-A is used to connect various USB devices including USB flash drives, Wi-Fi and Bluetooth adapters. USB-B is used as a serial console for either Alien Reader Protocol interface or Linux OS login. Power Supplies The ALR-F800 has been certified to operate in accordance with FCC or other national requirements when powered by an 802.3af compliant network capable of supplying 12.95 watts minimum, or by using one of the power supplies listed below. Only the power supplies listed below may be used with the ALR-F800 reader. ALR-F800, CORD PACK Power over Ethernet (PoE) Power Supply. ALR-F800 12.0 V DC Power Supply. Optional Switchcraft S761K locking connector (center positive). CAUTION: The ALR-F800 should never be hot plugged, that is there shouldnt be DC voltage already present on the connector before inserting into the reader connector. For example, if using the recommended AC-DC adapter available thru Alien Technology, LLC, the DC power supply should be plugged into the reader and locking ring secured first before plugging in the AC power cord. This is to ensure that the 12 volts input voltage does not exceed the maximum recommended 14 volts nor exceeds the ramp of 10 V /
ms. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 7 CHAPTER 1 INTRODUCTION System Architecture Figure 4 - System Architecture for the ALR-F800 Reader ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 8 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION CHAPTER 2 Reader Hardware Installation and Operation This chapter describes the RFID Reader and provides installation and operation information. Receiving the RFID Reader Your RFID Reader is shipped with the items listed below. Please verify the contents of your received shipment before assembling. RFID reader The RFID Reader Kit is shipped with the items listed below. RFID reader ALR-F800 Cord Pack which includes the PoE power supply, AC power cable and standard Ethernet cable. Additionally, the RFID Reader Developer's Kit includes the following items:
An ALR-8696-C antenna RS-232 reader-to-PC cable One Ethernet cross-over cable for direct connection to a local host/PC Download instructions for demonstration software, user guides, documentation, Software APIs and example code An assortment of Class 1 Gen 2 UHF tags ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 9 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Figure 5 - ALR-F800 Reader (Antennas and tag kit not shown) Reader Antenna Panel 4 Antenna Ports (RP-TNC) ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 10 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Reader I/O Panel The I/O panel (shown below) includes the following( Left to Right):
LAN TCP/IP and PoE port Auxiliary DC Power connector Reset button USB A USB B SDCard 9-pin D female RS-232 serial port 16-pin I/O terminal block (GPIO) Figure 6 - ALR-F800 Reader Connections Diagnostic LEDs The ALR-F800 includes diagnostic LEDs on the face of the reader to provide easy and convenient external indication for various operating conditions:
On the Front Panel you will find:
POWER (green) indicates power is applied to the reader. CPU (green) indicates CPU is active. (red) indicates a fault condition with the reader READ (green) indicates that the reader is receiving data from a tag. Sniff (green) indicates a tag signal has been detected, though it may not be strong enough yet to complete a transaction. Antenna Lights 0-3 (green) indicates Active transmitting antenna. Reset button On the ALR-F800 I/O panel you will find the reset button. The functionality is a follows:
Hold during power up (file system recovery mode) With a USB Flash Drive installed with the proper system files, the reader with re-flash all system code. (Contact Alien support for detailed procedure) Short hold after power up (2 3 Seconds) Cause the reader a soft reboot after release. Long hold after power up (> 10 Seconds) Causes the reader to return to factory settings after release. Caution: Do not use a metal object or excessive force, to push the reset button. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 11 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Figure 7 ALR-F800 Front Panel Reader Diagnostic LEDs Reader Antennas The ALR-F800 includes 4 antenna ports. These antenna ports are a reverse-
polarity TNC connector. Only antennas documented in this manual (FCC approved) may be used with the ALR-F800. System Assembly and Bench Test Assembling the RFID Reader system is easy. We recommend you set up the system and verify its operation in a bench test configuration before installing it in a production setting. Bench Test Configuration 1. Place the Reader on a tabletop. Ensure that a standard 120 or 220 VAC outlet or 802.3af compliant network port is nearby, and there is sufficient space is available on the tabletop for the reader and antenna. Figure 8 Power, RS-232, USB, SDCard and LAN Connections 12 ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION 2. Connect the RS-232 cable or USB B to the reader. Align the male cable connector so that its shape and pins match the shape and holes of the female DB-9 RS-232 port. Figure 9 - RS-232 Connector Push the aligned connector into the port. Finger-tighten the screws to secure the cable/connector to the reader. 3. Connect the RS-232 cable to the serial port on the PC. Settings for RS-232 are 115,200 baud, 8 data bits, no parity, 1 stop bit, and no flow control. Start up terminal software on the PC, such as HyperTerminal with these settings, and be prepared to observe the reader's messages as it boots up. 4. Connect the POE power supply to the reader. If you are using an 802.3af compliant network, skip this step. WARNING: You must use the PoE power supply certified for use with the ALR-F800 by Alien Technology. Failure to do so voids the product warranty and violates the terms of the FCC license. If you are using the PoE power supply, use the standard Ethernet cable to connect the reader RJ-45 jack to the LAN+DC RJ-45 jack of the power supply. If you are using the optional DC power cord, connect the DC power jack into the DC power plug of the reader. Tighten the screw fitting finger tight. DO NOT plug the AC power or the DC cord into the supply at this time. 5. Connect the Ethernet cable to the reader and LAN or PC. If you are using an 802.3af compliant network to power the reader skip this step. Connecting to the LAN If you are using the PoE power supply provided with the Reader Kit, connect a standard Ethernet cable from the PoE power supply LAN port to a nearby LAN drop or network switch. If you are using the DC power cord, connect a standard Ethernet cable to the ALR-F800 LAN/PoE port and to the LAN drop or network switch. Connecting directly to a PC If you are using the PoE power supply provided with the Reader Kit, connect a cross-over Ethernet cable from the PoE power supply LAN port to the PC LAN port. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 13 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION If you are using the AC/DC power brick, connect a cross-over Ethernet cable to the ALR-F800 LAN/PoE port and to the PC LAN port. Figure 10 PoE Power Supply and Network Connection Diagram Figure 11 12V DC cord and Network Connection Diagram The reader comes preconfigured to look for a DHCP server to set its network parameters. In the absence of a DHCP server, the reader will use the following settings:
ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 14 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway: 192.168.1.1 6. Connect the antenna to the antenna port. The ALR-F800 is a mono-static system (a single antenna acts as both transmitter and receiver). Four antenna ports (ANT 0-3) are provided. Each antenna provides a single read point. Only the antennas listed in this manual and their associated cables (if specified) may be used with this reader. The antenna ports are found on the reader I/O panel on the left hand side if viewing the reader from the top with the connectors at the bottom. It uses a reverse polarity TNC connector. If using the Alien Gateway software, please note that ANT 0 is selected by default when first initialized. Align the antennas coax cables center pin and push it into the port. Screw the fitting from the cable end onto the reader connector clockwise until finger-tight to secure the cable to the reader. 7. Power up the reader If you are using an 802.3af compliant network to power the ALR-F800 connect a standard LAN cable between the ALR-F800 LAN/PoE port and the 802.3af enabled LAN drop or network switch. The green POWER LED will illuminate when power is on. Note: If using an 802.3af compliant network it must be capable of supplying up to 12.95 watts. Figure 12 802.3af Network Connection Diagram If you are using the PoE Power supply or the DC cord, plug the AC power cord into the supply and into the wall outlet. The green POWER LED will illuminate when power is on. 8 Observe the reader's boot-up trace on the serial port, and determine the network settings. The RS-232 port displays useful information while the reader boots, including network settings. Toward the end of the trace, the reader displays a block of text similar to the following:
ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 15 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION
---------------------------------
Network Settings:
MAC Address : 00:1b:5f:00:e8:bb Hostname : alr-00e8bb IP Address : 10.10.81.101 Netmask : 255.255.255.0 Gateway : 10.10.81.1 DHCP : on DHCP Timeout: 60 IPv6 Address: fdaa::aaaa IPv6 Netmask: 112 IPv6 Gateway: fdaa::1 IPv6 DHCP : on DNS : 10.1.4.22 10.1.4.23 TimeServer : 128.138.140.44 TimeZone : 0 CommandPort : 23
---------------------------------
Once the reader boots and you see the "Boot>Ready!" prompt, pressing return will bring up the "Alien>" prompt. 9. Ensure the PC has compatible network settings. In order for you to be able to connect to the reader over TCP/IP, the host PC must be on the same subnet as the reader. If you are unfamiliar with how to do this, consult your local IT service for assistance. Once the initial connection is made, you may configure your reader's network settings as you choose. Refer to the Reader Interface Guide for instructions on how to do this. You are now ready to bench test or demonstrate the RFID Reader system. Bench Test Procedure 1. Position the reader so you can see the diagnostic LEDs You may also want to position the PC so you can view the monitor 2. Access an operational mode suitable for bench testing. Open the Alien Gateway RFID Demonstration Application. Select Tag Grid on Gateway. The RF ON light should illuminate. Refer to the applicable software application user guide for specific instructions. 3. Move a tag slowly away from the antennas range. Begin with the tag well inside the expected read range (~2m or 6 ft) and move it toward the antenna while observing the LEDs. 4. Verify the READ LED illuminates when the tag is inside the read zone. The READ LED should illuminate green. 5. Verify the host receives the tag data. The tag should be displayed on the monitor. If bench test conditions are verified, proceed to installation. 6. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 16 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Installation This section provides guidance for configuring components in your RFID system. You should consider the overall design of your specific system before permanently mounting the equipment. Installation involves many of the same connection steps required for bench test. However, instead of placing equipment on a tabletop, the reader, antenna, and their accessories are mounted in your application environment. Requirements Before installing your RFID Reader system, you will need the following:
An 802.3af compliant network connection or standard 120 or 220 VAC power outlet WARNING: If you do not use an 802.3af compliant network to supply DC power you must use the power supplies provided by Alien Technology. Failure to do so voids the product warranty and violates the terms of the FCC license. RS-232 cables, Ethernet cables or antenna coax cables needed to accommodate routing requirements. Mounting hardware suitable for the surface to which equipment is to be attached. Use M4 pan head screws 4.5mm maximum thread length. Hardware Installation Procedure 1. Select mounting position for antenna(s). CAUTION: Reader antenna should be positioned so that personnel in the area for prolonged periods may safely remain at least 23 cm (9 in) in an uncontrolled environment from the antennas surface. See FCC OET Bulletin 56 Hazards of radio frequency and electromagnetic fields and Bulletin 65 Human exposure to radio frequency electromagnetic fields. Mount the reader and antenna(s) at the periphery of the desired read window so that the position of the most distant tag passing through the window is no farther from the antenna than the maximum range specified for your system design. Position the reader and antenna(s) at a height approximately midway between the highest and lowest expected tag position. (For example, a pallet tag may be the lowest tag position to be read, while the top-most case on a fully stacked pallet may represent your highest tag position.) NOTE: To maintain compliance with FCC regulations, use only antennas, cables, and power supplies supplied with the unit or approved by Alien Technology for use with the ALR-F800. 2. Select mounting position for reader. The ALR-F800 has been designed to provide reliable operation over its operating temperature range. This is enhanced by proper mounting of the reader during bench test and installation. Place the reader on a solid, thermally conductive surface. Optimum thermal performance is achieved by mounting the unit to a metal mounting plate with direct contact between the ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 17 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION reader base and the mounting plate. When mounting vertically the reader IO panel should be oriented at the bottom. Antennas should be placed close enough to the reader to accommodate the cable length without putting strain on the connectors. 3. Mount units individually. Do not stack them. Install the reader. Secure the reader through the four mounting holes to its mounting location (wall, post, mounting bracket) using appropriate M4 pan head screws less than 4.5 mm long. 4. Install the antenna(s). Secure the antenna through the mounting holes on either flange to its mounting location using appropriate hardware. 5. Connect the antenna(s) to reader. Route coax cable from the antenna to the reader according to your system design specifications and secure it properly. Do not kink the antenna cable and maintain bend radii of at least 1 inch. Align the connector of the cable with the reader antenna port, push into the port, and finger-tighten the screw fitting. 6. Connect reader power supply. If you are using an 802.3af compliant network for reader power skip this step ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 18 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION If you are using the PoE power supply, use a short standard Ethernet cable to connect the readers RJ-45 jack to the LAN+DC RJ-45 jack of the power supply. Align the RJ-45 connector with the corresponding TCP/IP port on the reader or the power supply and push the connector in. If you are using the optional DC power cord, connect the DC power jack into the DC power plug of the reader. Tighten the screw fitting finger tight. DO NOT plug the AC power cord into the supply at this time. 7. Connect reader to the LAN or host PC. If you are using an 802.3af compliant network for reader power skip this step. If you are using the PoE power supply, connect the Ethernet cable into the LAN jack of the power supply. Align the RJ-45 connector with the corresponding TCP/IP port on the power supply and push the connector in. Connect the other end to a LAN drop or network switch. You may optionally connect the reader directly to a PC's network port, but you should use an Ethernet cross-over cable in this situation. If you are using the DC power cord, connect the Ethernet cable into the LAN jack of the reader. Align the RJ-45 connector with the corresponding TCP/IP port on the reader and push the connector in. Connect the other end to a LAN drop or network switch. You may optionally connect the reader directly to a PC's network port, but you should use an Ethernet cross-over cable in this situation. If you wish to observe the reader's boot up trace, or control the reader via RS-232, align and connect a DB-9 serial cable to the reader's RS-232 port, and to the serial port on the PC. Configure your terminal software as described previously in the Bench Test Configuration section. 8. Connect reader power. If you are using an 802.3af compliant network to power the ALR-F800, connect a standard LAN cable between the ALR-F800 LAN/PoE port and the 802.3af enable LAN drop or network switch. The green POWER LED will illuminate when power is on Note: If using an 802.3af compliant network it must be capable of supplying up to 12.95 watts. If you are using the PoE power supply or the DC cord, plug the AC power cord into the supply and into the wall outlet. The green POWER LED will illuminate when power is on. 9. You are now ready to use the reader. System Operation: Software Control The ALR-F800 RFID Reader is controlled from software running on a host system that communicates with the reader using the ASCII-based Alien Reader Protocol. All applications use this protocol to communicate with the reader. You may operate the reader from your own application code, using the example code provided on the Developers Kit download, or using the Alien RFID ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 19 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Gateway application which is a demonstration program also included in your download instructions. For more details, refer to either the Reader Interface Guide or the Demonstration Software Guide described briefly below. Reader Interface Guide The Alien Reader Protocol, mentioned previously, is described in detail in the Reader Interface Guide. Using this interface, the reader can be configured to read tags when queried or after one of a variety of event triggers (e.g., a rising edge on one of the I/O pins or a timer). Tag data acquired in response to these triggers can be transmitted to the host in a number of formats (e.g., text, XML or custom) and under a number of conditions (e.g., on a new tag being observed, or a tag disappearing from view). If you are a software developer, the Reader Interface Guide provides the information you will need to connect to the reader from a host computer, communicate with it, and customize its performance. Demonstration Software Guide The Demonstration Software Guide describes the installation and operation of the Alien RFID Gateway application. The Alien RFID Gateway application is a useful demonstration program that allows users to explore the readers functionality and build customizable demos with a user-friendly interface. Using the Gateway, the various operating modes of the reader can be controlled and custom interactive demos can be constructed using sounds, images, and text. Alien RFID Academy Need to absorb RFID systems fast? Enroll in the Alien RFID Academy! In two or three days we'll share our practical expertise in RFID tags, antennas, readers, frequencies, systems, and protocols. The Alien RFID Academy is a hands-on immersion into the workings, uses, and challenges of RFID technology. Rather than a product pitch, we put products to the test in the classroom, provide students with hands-on exposure in our RFID Solutions Center, and short-cut the learning curve by sharing practical solutions to real-world challenges. You'll learn best industry practice tag placement techniques for packaging and pallets alike. Upon completion of the training, you will learn how to avoid common costly mistakes, know how to make the correct decisions for your business, how to select the right RFID options for your requirements, and where to find RFID answers. Alien RFID Intermediate / Advanced Academy Topics:
RFID Physics, Protocols & Practical Applications Tag Placement & Packaging Considerations RFID Reader/System Configuration & Optimization Hands-on Implementation ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 20 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION RFID System Architecture and Integration Conducting Site-surveys & Contending with Interference Please visit http://www.alientechnology.com for more information. ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 21 CHAPTER 2 READER HARDWARE INSTALLATION AND OPERATION Approved High Performance Circular Antennas Model Frequency ALR8696C 865960MHz ALR8697 865928MHz ALR8698 865928MHz A6590C 865928MHz BRA026 A5010 902928MHz 865867MHz 902928MHz NSSWave7 902928MHz DB90012L 902928MHz Gain(dBi) 6.0dBiL
(maximum) 6.0dBiL
(maximum) 8.0dBiL
(maximum) 6.0dBiL
(maximum) 3.0dBiL
(maximum) 8.0dBiL
(maximum) 5.5dBiL
(maximum) 12.0dBiL
(maximum) Polarization RFConnector VSWR Circular 6mLMR195with ReversePolarityTNC 1.5:1 Circular ReversePolarityTNC 1.3:1 Circular ReversePolarityTNC 1.3:1 Circular Circular Circular SMA SMA SMA 1.4:1 1.3:1 1.3:1 Linear ReversePolarityTNC 1.7:1 Linear NFemale 1.3:1 Weight Dimensions
(cm)26.0x26.0x3.4
(in)10.20x10.20x1.32 1.10kg2.5lb
(cm)25.8x25.8x3.6
(in)10.16x10.16x1.42 0.91kg2.0lb
(cm)25.8x25.8x3.6
(in)10.16x10.16x1.42 0.91kg2.0lb
(cm)91.5x30.5x0.8
(in)36.00x12.00x0.30 2.00kg4.4lb
(cm)12.8x12.8x0.2
(in)5.00x5.00x0.78 cm)25.0x25.0x1.4
(in)9.85x9.85x0.55 cm)220.0x22.9x3.8
(in)87x9.00x1.5 cm)45.0x45.0x4.0
(in)17.7x17.7x1.6 0.75kg1.6lb 1.80kg4.0lb 2.00kg2.2lb 0.30kg0.7lb ALR-F800 HARDWARE SETUP GUIDE DOC. CONTROL #8102141-000 REV B 22
| frequency | equipment class | purpose | ||
|---|---|---|---|---|
| 1 | 2019-11-20 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Class II permissive change or modification of presently authorized equipment |
| 2 | 2016-09-07 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | |
| 3 | 2015-12-30 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | |
| 4 | 2015-12-10 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
| app s | Applicant Information | |||||
|---|---|---|---|---|---|---|
| 1 2 3 4 | Effective |
2019-11-20
|
||||
| 1 2 3 4 |
2016-09-07
|
|||||
| 1 2 3 4 |
2015-12-30
|
|||||
| 1 2 3 4 |
2015-12-10
|
|||||
| 1 2 3 4 | Applicant's complete, legal business name |
Alien Technology, LLC
|
||||
| 1 2 3 4 | FCC Registration Number (FRN) |
0006324032
|
||||
| 1 2 3 4 | Physical Address |
845 Embedded Way
|
||||
| 1 2 3 4 |
San Jose, California 95138
|
|||||
| 1 2 3 4 |
United States
|
|||||
| app s | TCB Information | |||||
| 1 2 3 4 | TCB Application Email Address |
c******@micomlabs.com
|
||||
| 1 2 3 4 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
| app s | FCC ID | |||||
| 1 2 3 4 | Grantee Code |
P65
|
||||
| 1 2 3 4 | Equipment Product Code |
ALRF800B
|
||||
| app s | Person at the applicant's address to receive grant or for contact | |||||
| 1 2 3 4 | Name |
J**** B**** H****
|
||||
| 1 2 3 4 | Title |
Dir HW Eng
|
||||
| 1 2 3 4 | Telephone Number |
40878********
|
||||
| 1 2 3 4 | Fax Number |
408 7********
|
||||
| 1 2 3 4 |
j******@alientechnology.com
|
|||||
| app s | Technical Contact | |||||
| 1 2 3 4 | Firm Name |
MiCOM Labs Inc.
|
||||
| 1 2 3 4 |
Alien Technology, LLC
|
|||||
| 1 2 3 4 |
MiCOM Labs
|
|||||
| 1 2 3 4 | Name |
G******** H********
|
||||
| 1 2 3 4 |
G******** K********
|
|||||
| 1 2 3 4 | Physical Address |
575 Boulder Court
|
||||
| 1 2 3 4 |
845 Embedded Way
|
|||||
| 1 2 3 4 |
575 Boulder Ct
|
|||||
| 1 2 3 4 |
Pleasanton, California 94566
|
|||||
| 1 2 3 4 |
San Jose, 95138
|
|||||
| 1 2 3 4 |
United States
|
|||||
| 1 2 3 4 | Telephone Number |
92546********
|
||||
| 1 2 3 4 |
(925)********
|
|||||
| 1 2 3 4 |
(925)********
|
|||||
| 1 2 3 4 |
g******@micomlabs.com
|
|||||
| 1 2 3 4 |
g******@alientechnology.com
|
|||||
| app s | Non Technical Contact | |||||
| n/a | ||||||
| app s | Confidentiality (long or short term) | |||||
| 1 2 3 4 | 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 2 3 4 | 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?: | Yes | ||||
| 1 2 3 4 | No | |||||
| 1 2 3 4 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 05/18/2020 | ||||
| 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 2 3 4 | Is this application for software defined/cognitive radio authorization? | No | ||||
| 1 2 3 4 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
| 1 2 3 4 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | RFID Enterprise Reader | ||||
| 1 2 3 4 | RFID Reader | |||||
| 1 2 3 4 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
| 1 2 3 4 | Modular Equipment Type | Does not apply | ||||
| 1 2 3 4 | Purpose / Application is for | Class II permissive change or modification of presently authorized equipment | ||||
| 1 2 3 4 | Original Equipment | |||||
| 1 2 3 4 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
| 1 2 3 4 | 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 2 3 4 | Grant Comments | Class II Permissive Change to add Multiplexer System, ALX-2525 and ALX-2530, and add antenna options. Professional Installation Required. Power Output listed is Conducted as measured at the input to the antenna. The antennas used for this transmitter must be installed to provide a separation distance of at least 24 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with accepted multi-transmitter product procedures. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
| 1 2 3 4 | Class II Permissive Change. Professional Installation Required. Power Output listed is Conducted as measured at the input to the antenna. The antennas used for this transmitter must be installed to provide a separation distance of at least 23 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with accepted multi-transmitter product procedures. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | |||||
| 1 2 3 4 | Class II Permissive Change. Professional Installation Required. Power Output listed is Conducted as measured at the input to the antenna. The antennas used for this transmitter must be installed to provide a separation distance of at least 23 cm from all persons and must not be colocated or operating in conjunction with any other antenna or transmitter, except in accordance with accepted multitransmitter product procedures. Endusers and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance | |||||
| 1 2 3 4 | Professional Installation Required. Power Output listed is Conducted as measured at the input to the antenna. The antennas used for this transmitter must be installed to provide a separation distance of at least 23 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with accepted multi-transmitter product procedures. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | |||||
| 1 2 3 4 | Is there an equipment authorization waiver associated with this application? | No | ||||
| 1 2 3 4 | 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 2 3 4 | Firm Name |
MiCOM Labs
|
||||
| 1 2 3 4 |
Micom Labs
|
|||||
| 1 2 3 4 | Name |
G**** H********
|
||||
| 1 2 3 4 | Telephone Number |
925-4********
|
||||
| 1 2 3 4 | Fax Number |
925-4********
|
||||
| 1 2 3 4 |
g******@micomlabs.com
|
|||||
| Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 1 | 1 | 15C | 20 | 902.75000000 | 927.25000000 | 0.9860000 | |||||||||||||||||||||||||||||||||||
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 2 | 1 | 15C | 20 | 902.75000000 | 927.25000000 | 0.9860000 | |||||||||||||||||||||||||||||||||||
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 3 | 1 | 15C | 20 | 902.75000000 | 927.25000000 | 0.9860000 | |||||||||||||||||||||||||||||||||||
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 4 | 1 | 15C | 20 | 902.75000000 | 927.25000000 | 0.9860000 | |||||||||||||||||||||||||||||||||||
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